Subroutines (3)

A  B  C  D  E  F  G  H  I  J  K  L  M  N  O  P  Q  R  S  T  U  V  W  X  Y  Z 

__pm_get_page_info, __mld_to_node (3) - retrieve placement information
_daemonize (3) - make a process into a daemon
_dshiftl, DSHIFTL (3I) - Performs a double-object left shift
_dshiftr, DSHIFTR (3I) - Performs a double-object right shift
_getpty, mkpts (3) - get a PTY or Pseudo-TTY
_int_mult_upper, INT_MULT_UPPER (3I) - Multiplies integers and returns the uppermost bits
_leadz, LEADZ (3I) - Counts number of leading 0 bits
_leb128_unsigned_decode64: _leb128_signed_decode64: _leb128_unsigned_decode32: _leb128_signed_decode32 (3E) - decode leb128 integers
_leb128_unsigned_encode64: _leb128_signed_encode64: _leb128_unsigned_encode32: _leb128_signed_encode32: (3E) - encode leb128 integers
_mask, _maskl, _maskr, MASK (3I) - Returns a bit mask
_popcnt, POPCNT (3I) - Counts number of set bits
_poppar, POPPAR (3I) - Computes bit population parity
_ranf, RANF, RANGET, RANSET (3I) - Computes pseudo-random numbers
_rtc, RTC, IRTC, IRTC_RATE (3I) - Returns clock register contents
_TIFFmalloc, _TIFFrealloc, _TIFFfree, _TIFFmemset, _TIFFmemcpy, _TIFFmemcmp, (3T) - memory management-related functions for use with TIFF files

A

a64l, l64a (3C) - convert between long integer and base-64 ASCII string
abbrev (3) - create an abbreviation table from a list
ABIinfo (3C) - query system environment for features
abort (3C) - generate an abnormal termination signal
ABORT (3F) - Requests abort with traceback
abort (3F) - terminate Fortran program
ABS, IABS, DABS, CABS, CDABS (3M) - Computes absolute value
abs, iabs, dabs, qabs, cabs, zabs, cqabs, iiabs, jiabs (3F) - FORTRAN absolute value
abs, labs (3C) - return integer absolute value
acbuf (3G) - operate on the accumulation buffer
acbuf (3G) - operate on the accumulation buffer
accept (3N) - accept a connection on a socket
ACHAR (3I) - Returns the character in a specified position of the ASCII collating sequence
acl_copy_ext, acl_copy_int (3C) - copy ACL from system to user space or from user to system space
acl_delete_def_file (3C) - delete the default ACL for a named directory
acl_dup (3C) - make a copy of an ACL
acl_free (3C) - free allocated memory
acl_from_text, acl_to_short_text, acl_to_text (3C) - convert a POSIX ACL string to a struct acl or a struct acl to a POSIX ACL string
acl_get_fd, acl_set_fd (3C) - get or set the ACL associated with an open file
acl_get_file, acl_set_file (3C) - get or set the ACL for a pathname
acl_size (3C) - return the size of an ACL
acl_valid (3C) - validate an ACL
acos, dacos, qacos, acosd, dacosd, qacosd (3F) - FORTRAN arccosine intrinsic function
acreate, adelete, amalloc, afree, arealloc, acalloc, amallopt, amallinfo,arecalloc, amallocblksize, amemalign (3P) - arbitrary arena main memory allocator
acsize (3G) - specify the number of bitplanes per color component in the accumulation buffer
acsize (3G) - specify the number of bitplanes per color component in the accumulation buffer
addsev (3C) - define additional severities
addseverity (3C) - build a list of severity levels for an application for use with fmtmsg
addtop (3G) - adds items to an existing pop-up menu
addtopup (3G) - adds items to an existing pop-up menu
ADJUSTL (3I) - Adjusts a character string to the left
ADJUSTR (3I) - Adjusts a character string to the right
afCloseFile (3dm) - close an audio file, update file header if file was opened for write access.
afFreeFileSetup (3dm) - deallocates an AFfilesetup structure
afGetAESChannelData, afSetAESChannelData (3dm) - get/set AES channel status information in an AFfilehandle structure for an audio track
afGetChannels, afGetVirtualChannels (3dm) - get the number of interleaved track / virtual channels from an AFfilehandle structure for an audio track
afGetCompression, afGetCompressionParams (3dm) - get the compression type and parameters for an audio track from an AFfilehandle structure
afGetFD (3dm) - get the Unix file descriptor for the file associated with an AFfilehandle structure
afGetFormatParams (3dm) - get the audio data format in an AFfilehandle for a specified audio track via dmParams
afGetFrameCount, AFgetframecnt, afGetTrackBytes, afGetDataOffset (3dm) - get the total sample frame count / data bytes / data offset for a specified audio track from an AFfilehandle structure
afGetFrameSize, afGetVirtualFrameSize (3dm) - get the track / virtual frame size in bytes for a specified audio track from an AFfilehandle structure
afGetInstIDs (3dm) - get a list of instrument configurations from an AFfilehandle
afGetInstParams, afSetInstParams, afGetInstParamLong, afSetInstParamLong (3dm) - get / set a parameter list / long parameter value for an instrument configuration in an AFfilehandle structure
afGetLoopIDs (3dm) - get a number and list of loop ID's for an instrument configuration
afGetLoopStart, afGetLoopEnd, afGetLoopTrack, afGetLoopMode (3dm) - get the start/end markers, play mode, and track from an AFfilehandle structure for a specified loop.
afGetLoopStartFrame, afGetLoopEndFrame, afGetLoopCount (3dm) - get the start/end frame and loop count from an AFfilehandle structure for a specified loop.
afGetMarkIDs (3dm) - get the number and list of marker ID's for an audio track
afGetMarkName, afGetMarkComment (3dm) - get the name or comment string for a given marker id in an audio track
afGetMarkPosition, AFgetmarkpos, afSetMarkPosition, AFsetmarkpos (3dm) - get/set the position of a marker in an audio track
afGetMiscIDs, afGetMiscType, afGetMiscSize (3dm) - get number and list of miscellaneous chunk ID's for a file, get the data type and size for a miscellaneous data chunk.
afGetPCMMapping, afGetVirtualPCMMapping (3dm) - get the track / virtual PCM mapping values for a specified audio track from an AFfilehandle structure
afGetRate, afGetVirtualRate (3dm) - get the track/virtual sample rate for a specified audio track from an AFfilehandle structure
afGetSampleFormat, AFgetsampfmt, afGetVirtualSampleFormat, afGetByteOrder, afGetVirtualByteOrder (3dm) - get the track / virtual sample format or byte order for a specified audio track from an AFfilehandle structure.
afGetTrackIDs (3dm) - get the list of track descriptor id's for the given AFfilehandle
afIdentifyFD, afIdentifyNamedFD, afGetFileFormat, AFgetfilefmt (3dm) - retrieve the audio file format of a file descriptor / open AFfilehandle
afInitAESChannelData, afInitAESChannelDataTo (3dm) - set a flag in an AFfilesetup so that storage space for AES channel status data is reserved in / removed from a file.
afInitCompression, afInitCompressionParams, afAware (3dm) - configure the audio compression type and parameters in an AFfilesetup structure for an audio track
afInitDataOffset, afInitFrameCount (3dm) - initialize the audio data byte offset / frame count in an AFfilesetup for a specified raw-format audio track
afInitFileFormat, AFinitfilefmt (3dm) - initialize the audio file format type in an AFfilesetup structure
afInitFormatParams (3dm) - initialize the audio data format in an AFfilesetup for a specified audio track via dmParams
afInitInstIDs (3dm) - specify a list of instrument parameter chunk identifiers to be stored in an AFfilesetup structure.
afInitLoopIDs (3dm) - initialize a list of loop ID's for a given instrument in an AFfilesetup structure
afInitMarkIDs (3dm) - specify a list of marker ID's for a new audio file in an AFfilesetup structure
afInitMarkName, afInitMarkComment (3dm) - initialize the name/comment for a specified marker in an AFfilesetup structure
afInitMiscIDs, afInitMiscType, afInitMiscSize (3dm) - initialize the list of miscellaneous data chunk ID's in an AFfilesetup file configuration structure, initialize the chunk type and number of data bytes for a given miscellaneous chunk.
afInitPCMMapping (3dm) - configure the PCM mapping for an audio track in an AFfilesetup structure
afInitSampleFormat, AFinitsampfmt, afInitByteOrder, afInitChannels, afInitRate (3dm) - initialize the audio data format in an AFfilesetup for a specified audio track
afInitTrackIDs (3dm) - initialize the list of audio track identifiers in an AFfilesetup structure.
afIntro, AFintro (3dm) - Introduction to the Silicon Graphics Audio File Library (AF)
afNewFileSetup (3dm) - create and initialize an AFfilesetup structure
afOpenFile, afOpenFD, afOpenNamedFD (3dm) - allocate an AFfilehandle structure for an audio file identified by name / by a Unix file descriptor
afQuery, afQueryLong, afQueryDouble, afQueryPointer (3dm) - retrieve static parameters associated with the Audio File Library formats
afReadFrames (3dm) - read sample frames from a specified audio track in an audio file
afReadMisc, afWriteMisc, afSeekMisc (3dm) - read from / write to / move logical read/write pointer for data in a miscellaneous chunk in an audio file
afSaveFilePosition, afRestoreFilePosition (3dm) - save and retrieve logical audio sample read pointer
afSeekFrame, afTellFrame (3dm) - move logical file read pointer for a specified audio track to a desired sample frame location / retrieve current value of file read or write pointer.
afSetChannelMatrix (3dm) - set the channel mix matrix associated with a given track in an AFfilehandle
afSetConversionParams, afGetConversionParams (3dm) - set/get the parameters associated with format conversion for a specified audio track via dmParams
afSetErrorHandler (3dm) - supply an alternate error reporting routine to the Audio File Library
afSetLoopStart, afSetLoopEnd, afSetLoopMode, afSetLoopTrack (3dm) - set the start/end markers, play mode, and track in an AFfilehandle structure for a specified loop.
afSetLoopStartFrame, afSetLoopEndFrame, afSetLoopCount (3dm) - set the start/end frame and loop count from an AFfilehandle structure for a specified loop.
afSetTrackPCMMapping (3dm) - override the current PCM mapping values associated with a given track in an AFfilehandle
afSetVirtualFormatParams, afGetVirtualFormatParams (3dm) - set/get the virtual audio data format in an AFfilehandle for a specified audio track via dmParams
afSetVirtualSampleFormat, afSetVirtualByteOrder, afSetVirtualChannels, afSetVirtualRate, afSetVirtualPCMMapping (3dm) - set the virtual data format for a specified audio track
afSyncFile (3dm) - write out a consistent snapshot of an audio file without actually closing the file
after (3Tk) - Execute a command after a time delay
afunct (3G) - specify alpha test function
afunction (3G) - specify alpha test function
afWriteFrames (3dm) - write audio sample frames to a specified track in an audio file
aint, dint, qint, iint, jint, iidint, jidint, iiqint, jiqint, kiqint (3F) - FORTRAN integer part intrinsic function
aio_cancel, aio_cancel64 (3) - cancel an asynchronous I/O request
aio_error, aio_error64 (3) - return error status of an asynchronous I/O operation
aio_fsync, aio_fsync64 (3) - asynchronously synchronize a file's in-memory state with that on the physical medium
aio_hold, aio_hold64 (3) - Defer or resume reception of asynchronous I/O callbacks
aio_init (3) - asynchronous I/O initialization
aio_read, aio_read64 (3) - asynchronous I/O read
aio_return, aio_return64 (3) - return error status of an asynchronous I/O operation
aio_sgi_init, aio_sgi_init64 (3) - asynchronous I/O initialization
aio_suspend, aio_suspend64 (3) - wait for an asynchronous I/O request
aio_write, aio_write64 (3) - asynchronous I/O write
alarm (3F) - execute a subroutine after a specified time
alCheckEvent (3dm) - Looks for an event in the event queue and retrieves it.
alCloseEventQueue (3dm) - close an audio event queue
ALcloseport (3dm) - (obsolete) releases resources of an audio port
alClosePort (3dm) - close an audio port
alConnect (3dm) - connect two audio I/O resources
alDeselectEvents (3dm) - Deselect event queue from receiving events from a resource.
alDiscardFrames (3dm) - discard audio from an audio port
alDisconnect (3dm) - delete a connection between two audio I/O resources
alFixedToDouble, alDoubleToFixed (3dm) - convert between AL fixed-point and double-precision floating-point
alFlushEvents (3dm) - Flush all events in event queue
ALfreeconfig (3dm) - (obsolete) deallocates an audio ALconfig structure
alFreeConfig (3dm) - deallocates an audio ALconfig structure
alFreeEvent (3dm) - deallocates an audio ALevent structure
ALgetchannels, ALsetchannels (3dm) - (obsolete) get/set the channel setting in an audio ALconfig structure
alGetChannels, alSetChannels (3dm) - get/set the channel setting in an audio ALconfig
ALgetconfig, ALsetconfig (3dm) - (obsolete) get/set the ALconfig structure of an audio ALport structure
alGetConfig, alSetConfig (3dm) - get/set the ALconfig of an audio ALport
ALgetdefault (3dm) - (obsolete) returns the default value for an audio device state variable
alGetErrorString (3dm) - get a string corresponding to an Audio Library error code
alGetEventData (3dm) - gets data from certain events with non-scalar parameters.
alGetEventParam (3dm) - get parameter of audio event
alGetEventQueueFD (3dm) - get the file descriptor for an audio event queue
alGetEventResource (3dm) - Return audio resource that posted event
alGetEventSrcResource (3dm) - Return audio resource that generated event
alGetEventUST (3dm) - get Unadjusted System Time of audio event
alGetEventValue (3dm) - get ALvalue of audio event
ALgetfd (3dm) - (obsolete) get the file descriptor for an audio port
alGetFD (3dm) - get the file descriptor for an audio port
ALgetfillable (3dm) - (obsolete) report the number of unfilled sample locations in an audio port
alGetFillable (3dm) - report the number of unfilled sample frames in an audio port
ALgetfilled (3dm) - (obsolete) return the number of filled sample locations in an audio port
alGetFilled (3dm) - return the number of filled sample frames in an audio port
ALgetfillpoint, ALsetfillpoint (3dm) - (obsolete) control select() or poll() behavior of an audio port
alGetFillPoint, alSetFillPoint (3dm) - get or set low- or high-water mark for an audio port
ALgetfloatmax, ALsetfloatmax (3dm) - (obsolete) get/set the maximum value of floating point sample data.
alGetFloatMax, alSetFloatMax (3dm) - get/set the maximum value of floating point sample data.
ALgetframenumber (3dm) - (obsolete) Get the absolute sample frame number associated with a port
alGetFrameNumber (3dm) - Get the absolute sample frame number associated with a port
ALgetframetime (3dm) - (obsolete) Get the time at which a sample frame came in or will go out
alGetFrameTime (3dm) - Get the time at which a sample frame came in or will go out
alGetLimiting, alSetLimiting (3dm) - request limiting for AL floating-point output
ALgetminmax (3dm) - (obsolete) gets maximum and minimum values for an audio device state variable
ALgetname (3dm) - (obsolete) returns a name for an audio device state variable
alGetParamInfo (3dm) - get information about a parameter on a particular audio resource
alGetParams (3dm) - get the values of audio resource parameters
ALgetparams, ALsetparams (3dm) - (obsolete) get/set the value of the specified audio device states
ALgetqueuesize, ALsetqueuesize (3dm) - (obsolete) get/set audio port buffer size information in an ALconfig structure
alGetQueueSize, alSetQueueSize (3dm) - get/set audio port buffer size
alGetResource (3dm) - get the resource associated with an audio port
alGetResourceByName (3dm) - find an audio resource by name
ALgetsampfmt, ALsetsampfmt (3dm) - (obsolete) get/set the sample format setting in an audio ALconfig structure
alGetSampFmt, alSetSampFmt (3dm) - get/set the sample format setting in an audio ALconfig structure
ALgetstatus (3dm) - get information concerning the most recent error in the audio stream associated with a port.
alIntro, audio (3dm) - Introduction to the Silicon Graphics Audio Library (AL)
alIsSubtype (3dm) - indicate if one resource type is a subtype of another
ALL (3I) - Determines whether all values are true
alloca (3C) - allocate dynamic space
ALLOCATED (3I) - Returns the array allocation status
AllPlanes, BlackPixel, WhitePixel, ConnectionNumber, DefaultColormap, DefaultDepth, XListDepths, DefaultGC, DefaultRootWindow, DefaultScreenOfDisplay, DefaultScreen, DefaultVisual, DisplayCells, DisplayPlanes, DisplayString, XMaxRequestSize, XExtendedMaxRequestSize, LastKnownRequestProcessed, NextRequest, ProtocolVersion, ProtocolRevision, QLength, RootWindow, ScreenCount, ScreenOfDisplay, ServerVendor, VendorRelease (3X11) - Display macros and functions
alNewConfig (3dm) - create and initialize an audio ALconfig structure
ALnewconfig (3dm) - create and initialize an audio ALconfig structure
alNewEvent (3dm) - create and initialize an audio ALevent structure
alNextEvent (3dm) - Retrieves front most event from queue
ALOG, DLOG, CLOG, CDLOG (3M) - Computes natural logarithm
alOpenEventQueue (3dm) - open an audio event queue
ALopenport (3dm) - (obsolete) open an audio port
alOpenPort (3dm) - open an audio port
alParams (3dm) - Audio Library parameters
alPendingEvents (3dm) - Get total number of event queued in event queue
ALqueryparams (3dm) - (obsolete) get descriptor/description pairs for audio device state variables
alQueryValues (3dm) - get the set of possible values for a parameter
alReadBuffers (3dm) - read flexibly interleaved or non-interleaved audio data from an audio port
alReadFrames (3dm) - read interleaved sample frames from an audio port
ALreadsamps (3dm) - (obsolete) read samples from an audio port
alResources (3dm) - Audio Library resources
alSelectEvents (3dm) - Setup event queue to receive audio events.
alSetDevice, alGetDevice (3dm) - get/set the device setting in an audio ALconfig structure
ALseterrorhandler (3dm) - (obsolete) establish an alternate audio error handling routine
alSetErrorHandler (3dm) - establish an alternate audio error handling routine
alSetParams (3dm) - set the values of audio resource parameters
ALsetwidth, ALgetwidth (3dm) - (obsolete) get/set the sample width setting in an audio ALconfig structure
alSetWidth, alGetWidth (3dm) - get/set the wordsize for integer audio data
alWriteBuffers (3dm) - write flexibly interleaved or non-interleaved audio data to an audio port
alWriteFrames (3dm) - write interleaved sample frames to an audio port
ALwritesamps (3dm) - (obsolete) write samples to an audio port
alZeroFrames (3dm) - write zero-valued sample frames to an audio port
AND (3M) - Computes logical product
ANY (3I) - Determines whether any values are true
AnyDBM_File (3) - provide framework for multiple DBMs
append (3Tcl) - Append to variable
ApplicationShell (3) - The ApplicationShell widget class
ApplicationShell (3X) - The ApplicationShell widget class
arc, arci, arcs (3G) - draw a circular arc
arc, arci, arcs (3G) - draw a circular arc
arcf, arcfi, arcfs (3G) - draw a filled circular arc
arcf, arcfi, arcfs (3G) - draw a filled circular arc
array (3Tcl) - Manipulate array variables
asallocash (3x) - allocate a global array session handle
asashisglobal (3x) - determine if an array session handle is global
asashofpid (3x) - obtain the array session handle of a process
ascommand (3x) - execute an array command
aserrorcode (3x) - array services error information
asfreearray (3x) - release array information structure
asfreearraylist (3x) - release array information structures
asfreearraypidlist (3x) - release array-wide PID enumeration structures
asfreeashlist (3x) - release ASH enumeration structures
asfreecmdrsltlist (3x) - release array command result structures
asfreemachinelist (3x) - release machine information structures
asfreemachinepidlist (3x) - release PID enumeration structures
asfreeoptinfo (3x) - release command line options information structure
asfreepidlist (3x) - release PID enumeration structures
asgetattr (3x) - search an attribute list for a particular name
asgetdfltarray (3x) - get information about the default array
asin, dasin, qasin, asind, dasind, qasind (3F) - FORTRAN arcsine intrinsic function
asinh, acosh, atanh (3M) - inverse hyperbolic functions
askillash_array, askillash_local, askillash_server (3x) - send a signal to an array session
askillpid_server (3x) - send a signal to a remote process
aslistarrays (3x) - enumerate known arrays
aslistashs, aslistashs_array, aslistashs_local, aslistashs_server (3x) - enumerate ASHs
aslistmachines (3x) - enumerate machines in an array
asmakeerror (3x) - generate an array services error code
ASNCTL (3F) - Controls function of ASSIGN, ASNFILE, ASNUNIT, and ASNRM routines
ASNQFILE, ASNQUNIT (3F) - Returns the assign options currently in effect for a file name or unit number
asopenserver, ascloseserver (3x) - create or destroy an array server token
asopenserver_from_optinfo (3x) - create array server token
asparseopts (3x) - parse standard array services command line options
asperror (3x) - print array services error message
aspidsinash, aspidsinash_array, aspidsinash_local, aspidsinash_server (3x) - enumerate processes in an array session
asrcmd, asrcmdv (3x) - execute a command on a remote machine
assert (3X) - verify program assertion
assetserveropt, asgetserveropt, asdfltserveropt (3x) - set/retrieve server options
ASSIGN, ASNUNIT, ASNFILE, ASNRM (3F) - Provides library interface to assign processing
ASSOCIATED (3I) - Returns the pointer association status
asstrerror (3x) - get array services error message string
atan, datan, qatan, atand, datand, qatand (3F) - FORTRAN arctangent intrinsic function
atan2, datan2, qatan2, atan2d, datan2d, qatan2d (3F) - FORTRAN arctangent intrinsic function
atcheckpoint, atrestart (3C) - add checkpoint and restart (CPR) event handlers
atexit, __ateachexit (3C) - add program termination routine
atfork_child, atfork_child_prepend, atfork_parent, atfork_pre (3C) - add fork pre and post interception routines
atomic_alloc_res_ident, atomic_alloc_res_ident_addr, atomic_alloc_reservoir, atomic_alloc_reservoir_addr, atomic_alloc_var_ident, atomic_alloc_variable, atomic_set_perms, atomic_free_variable, atomic_free_var_ident, atomic_free_reservoir, atomic_store, atomic_store_and_or, atomic_store_and_and, atomic_load, atomic_fetch_and_increment, atomic_fetch_and_decrement, atomic_clear (3P) - atomic operations employing special fetchop hardware
atsproc_child, atsproc_parent, atsproc_pre (3C) - add sproc pre and post interception routines
attach (3G) - attaches the cursor to two valuators
attachcursor (3G) - attaches the cursor to two valuators
AUchecklicense (3dm) - checks for a given audio compression license
AUpvlist, AUpvnew, AUpvfree, AUpvgetmaxitems, AUpvsetvaltype, AUpvsetparam, AUpvsetval, AUpvgetvaltype, AUpvgetparam, AUpvgetval (3dm) - Audio File parameter value list data type
AutoLoader (3) - load subroutines only on demand
AutoSplit (3) - split a package for autoloading
autouse (3) - postpone load of modules until a function is used

B

backbu, frontb (3G) - enable and disable drawing to the back or front buffer
backbu, frontb (3G) - enable and disable drawing to the back or front buffer
backbuffer, frontbuffer (3G) - enable and disable drawing to the back or front buffer
backbuffer, frontbuffer (3G) - enable and disable drawing to the back or front buffer
backfa (3G) - turns backfacing polygon removal on and off
backface (3G) - turns backfacing polygon removal on and off
BAKVEC, SBAKVEC (3F) - EISPACK routine. This subroutine forms the eigenvectors of a NONSYMMETRIC TRIDIAGONAL matrix by back transforming those of the corresponding symmetric matrix determined by FIGI.
BALANC, SBALANC (3F) - EISPACK routine. This subroutine balances a REAL matrix and isolates eigenvalues whenever possible.
BALBAK, SBALBAK (3F) - EISPACK rotuine. This subroutine forms the eigenvectors of a REAL GENERAL matrix by back transforming those of the corresponding balanced matrix determined by BALANC.
BANDR, SBANDR (3F) - EISPACK routine. This subroutine reduces a REAL SYMMETRIC BAND matrix to a symmetric tridiagonal matrix using and optionally accumulating orthogonal similarity transformations.
BANDV, SBANDV (3F) - EISPACK routine. This subroutine finds those eigenvectors of a REAL SYMMETRIC BAND matrix corresponding to specified eigenvalues, using inverse iteration. The subroutine may also be used to solve systems of linear equations with a symmetric or non-symmetric band coefficient matrix.
barrier, new_barrier, init_barrier, free_barrier (3P) - barrier functions
base (3) - Establish IS-A relationship with base class at compile time
basename (3G) - return the last element of a pathname
bbox2, bbox2i, bbox2s (3G) - culls and prunes to bounding box and minimum pixel radius
bbox2, bbox2i, bbox2s (3G) - culls and prunes to bounding box and minimum pixel radius
bcopy, bcmp, blkclr, bzero, ffs (3C) - bit and byte string operations
bell (3Tk) - Ring a display's bell
Benchmark (3) - benchmark running times of code
bgets (3G) - read stream up to next delimiter
bgnclo, endclo (3G) - delimit the vertices of a closed line
bgnclo, endclo (3G) - delimit the vertices of a closed line
bgnclosedline, endclosedline (3G) - delimit the vertices of a closed line
bgnclosedline, endclosedline (3G) - delimit the vertices of a closed line
bgncur, endcur (3G) - delimit a NURBS curve definition
bgncur, endcur (3G) - delimit a NURBS curve definition
bgncurve, endcurve (3G) - delimit a NURBS curve definition
bgncurve, endcurve (3G) - delimit a NURBS curve definition
bgnlin, endlin (3G) - delimit the vertices of a line
bgnlin, endlin (3G) - delimit the vertices of a line
bgnline, endline (3G) - delimit the vertices of a line
bgnline, endline (3G) - delimit the vertices of a line
bgnpoi, endpoi (3G) - delimit the interpretation of vertex routines as points
bgnpoi, endpoi (3G) - delimit the interpretation of vertex routines as points
bgnpoint, endpoint (3G) - delimit the interpretation of vertex routines as points
bgnpoint, endpoint (3G) - delimit the interpretation of vertex routines as points
bgnpol, endpol (3G) - delimit the vertices of a polygon
bgnpol, endpol (3G) - delimit the vertices of a polygon
bgnpolygon, endpolygon (3G) - delimit the vertices of a polygon
bgnpolygon, endpolygon (3G) - delimit the vertices of a polygon
bgnqst, endqst (3G) - delimit the vertices of a quadrilateral strip
bgnqst, endqst (3G) - delimit the vertices of a quadrilateral strip
bgnqstrip, endqstrip (3G) - delimit the vertices of a quadrilateral strip
bgnqstrip, endqstrip (3G) - delimit the vertices of a quadrilateral strip
bgnsur, endsur (3G) - delimit a NURBS surface definition
bgnsur, endsur (3G) - delimit a NURBS surface definition
bgnsurface, endsurface (3G) - delimit a NURBS surface definition
bgnsurface, endsurface (3G) - delimit a NURBS surface definition
bgntme, endtme (3G) - delimit the vertices of a triangle mesh
bgntme, endtme (3G) - delimit the vertices of a triangle mesh
bgntmesh, endtmesh (3G) - delimit the vertices of a triangle mesh
bgntmesh, endtmesh (3G) - delimit the vertices of a triangle mesh
bgntri, endtri (3G) - delimit a NURBS surface trimming loop
bgntri, endtri (3G) - delimit a NURBS surface trimming loop
bgntrim, endtrim (3G) - delimit a NURBS surface trimming loop
bgntrim, endtrim (3G) - delimit a NURBS surface trimming loop
bind (3N) - bind a name to a socket
bind (3Tk) - Arrange for X events to invoke Tcl scripts
bindtags (3Tk) - Determine which bindings apply to a window, and order of evaluation
BISECT, SBISECT (3F) - EISPACK routine. This subroutine finds those eigenvalues of a TRIDIAGONAL SYMMETRIC matrix which lie in a specified interval, using bisection.
BIT_SIZE (3I) - Returns the number of bits in an integer in the bit manipulation model
bitmap (3Tk) - Images that display two colors
BlackPixelOfScreen, WhitePixelOfScreen, CellsOfScreen, DefaultColormapOfScreen, DefaultDepthOfScreen, DefaultGCOfScreen, DefaultVisualOfScreen, DoesBackingStore, DoesSaveUnders, DisplayOfScreen, XScreenNumberOfScreen, EventMaskOfScreen, HeightOfScreen, HeightMMOfScreen, MaxCmapsOfScreen, MinCmapsOfScreen, PlanesOfScreen, RootWindowOfScreen, WidthOfScreen, WidthMMOfScreen (3X11) - screen information functions and macros
blanks (3G) - controls screen blanking
blankscreen (3G) - controls screen blanking
blankt (3G) - sets the screen blanking timeout
blanktime (3G) - sets the screen blanking timeout
BLAS (3F) - Basic Linear Algebra Subprograms
blendc (3G) - specifies a constant color for blending
blendcolor (3G) - specifies a constant color for blending
blendf (3G) - computes a blended color value for a pixel
blendfunction (3G) - computes a blended color value for a pixel
blib (3) - Use MakeMaker's uninstalled version of a package
blink (3G) - changes a color map entry at a selectable rate
blink (3G) - changes a color map entry at a selectable rate
blkqre (3G) - reads multiple entries from the queue
blkqread (3G) - reads multiple entries from the queue
bool: iand, kiand, and, iior, ior, or, jior, kior, inot, jnot, knot, not, iieor, jieor, kieor, ieor, xor, iishft, jishft, kishft, ishft, lshift, rshift, iishftc, jishftc, kishftc, ishftc, iibits, jibits, kibits, ibits, iibset, jibset, kibset, ibset, bitest, bjtest, bktest, btest, iibclr, jibclr, kibclr, ibclr, mvbits (3F) - FORTRAN bitwise boolean functions
BQR, SBQR (3F) - EISPACK routine. This subroutine finds the eigenvalue of smallest (usually) magnitude of a REAL SYMMETRIC BAND matrix using the QR algorithm with shifts of origin. Consecutive calls can be made to find further eigenvalues.
break (3Tcl) - Abort looping command
bsearch (3C) - binary search a sorted table
BTEST (3I) - Tests a bit of an integer value
btree (3) - btree database access method
bufsplit (3G) - split buffer into fields
Bundle::CPAN (3) - A bundle to play with all the other modules on CPAN
button (3Tk) - Create and manipulate button widgets

C

c3f, c3i, c3s, c4f, c4i, c4s (3G) - sets the RGB (or RGBA) values for the current color vector
c3f, c3i, c3s, c4f, c4i, c4s (3G) - sets the RGB (or RGBA) values for the current color vector
callfunc (3G) - calls a function from within an object
callob (3G) - draws an instance of an object
callobj (3G) - draws an instance of an object
canvas (3Tk) - Create and manipulate canvas widgets
cap_acquire, cap_surrender (3C) - make permitted set capabilities effective or remove effective capabilities
cap_bind (3N) - bind a privileged name to a socket
cap_clear (3C) - clear the fields of a capability
cap_copy_ext, cap_copy_int (3C) - copy capability from system to user space or from user to system space
cap_dup (3C) - make a copy of a capability
cap_envl, cap_envp (3C) - ensure sufficient process privilege
cap_free (3C) - free allocated capability
cap_from_text, cap_to_text, cap_value_to_text (3C) - convert a POSIX capabilities string to internal form, convert capabilities to a POSIX capabilities string, or return the POSIX name for a capability value
cap_get_fd, cap_set_fd (3C) - get or set the capabilities for an open file
cap_get_file, cap_set_file (3C) - get or set the capabilities for a pathname
cap_get_flag, cap_set_flag (3C) - get or set the value of a capability flag in a capability
cap_get_proc, cap_set_proc, cap_set_proc_flags (3C) - get or set process capabilities
cap_init (3C) - allocate a capability stucture
cap_network_ioctl (3N) - execute an I/O control operation with privilege
cap_schedctl (3N) - alter scheduling parameters
cap_size (3C) - return the size of an capability
cap_socket (3N) - create a socket with privilege
carp (3) - warn of errors (from perspective of caller)
case (3Tcl) - Evaluate one of several scripts, depending on a given value
catch (3Tcl) - Evaluate script and trap exceptional returns
catgetmsg (3C) - Reads a message from a message catalog
catgets (3C) - read a program message
catmsgfmt (3C) - Formats an error message
catopen, catclose (3C) - open/close a message catalogue
CBABK2, SCBABK2 (3F) - EISPACK routine. This subroutine forms the eigenvectors of a COMPLEX GENERAL matrix by back transforming those of the corresponding balanced matrix determined by CBAL.
CBAL, SCBAL (3F) - EISPACK routine. This subroutine is a complex version of BALANCE.
CBDSQR (3F) - compute the singular value decomposition (SVD) of a real N-by-N (upper or lower) bidiagonal matrix B
CCHDC (3F) - CCHDC computes the Cholesky decomposition of a positive definite matrix. A pivoting option allows the user to estimate the condition of a positive definite matrix or determine the rank of a positive semidefinite matrix.
CCHDD (3F) - CCHDD downdates an augmented Cholesky decomposition or the triangular factor of an augmented QR decomposition. Specifically, given an upper triangular matrix R of order P, a row vector X, a column vector Z, and a scalar Y, CCHDD determines a unitary matrix U and a scalar ZETA such that
CCHEX (3F) - CCHEX updates the Cholesky factorization
CCHUD (3F) - CCHUD updates an augmented Cholesky decomposition of the triangular part of an augmented QR decomposition. Specifically, given an upper triangular matrix R of order P, a row vector X, a column vector Z, and a scalar Y, CCHUD determines a unitary matrix U and a scalar ZETA such that
cd (3Tcl) - Change working directory
CDaddcallback (3dm) - set a callback for the CD audio data parser
CDallowremoval (3dm) - unlock the CD-ROM drive eject button
CDatomsf (3dm) - convert ASCII string to minutes, seconds, frames
CDatotime (3dm) - convert ASCII string to timecode
CDbestreadsize (3dm) - tells best num_frames value for CDreadda
CDclose (3dm) - closes a CD-ROM device
CDcreateparser (3dm) - creates a CD digital audio data parser
CDdeleteparser (3dm) - deletes a CD digital audio data parser
CDeject (3dm) - ejects the caddy from the CD-ROM drive
CDframetomsf (3dm) - convert CD frame number to minutes, seconds, frame
CDframetotc (3dm) - convert CD frame number to timecode
CDgetstatus (3dm) - get current state of a CD-ROM drive
CDgettrackinfo (3dm) - get information about a specified track on an audio CD
CDintro (3dm) - Introduction to the Silicon Graphics CD Audio Library (CD)
CDIV, SCDIV (3F) - EISPACK auxiliary routine.
CDmsftoblock (3dm) - convert time to logical block number
CDmsftoframe (3dm) - convert time to CD frame number
CDopen (3dm) - opens a CD-ROM drive for audio use
CDparseframe (3dm) - parse a frame of CD digital audio data
CDplay (3dm) - play an audio CD through CD-ROM audio jacks
CDplayabs (3dm) - play an audio CD (beginning at a specified absolute time location) through CD-ROM audio jacks
CDplaytrack (3dm) - play a specified track from an audio CD through CD-ROM audio jacks
CDplaytrackabs (3dm) - play a track from an audio CD (beginning at a specified absolute time location) through CD-ROM audio jacks
CDpreventremoval (3dm) - lock the CD-ROM drive eject button
CDreadda (3dm) - read digital audio data from audio CD in CD-ROM
CDremovecallback (3dm) - remove a callback from the CD audio data parser
CDresetparser (3dm) - resets a CD digital audio data parser
CDsbtoa (3dm) - convert six-bit country and owner codes to ASCII string
CDseek (3dm) - set read pointer for CD-ROM to absolute time code location
CDseekblock (3dm) - set read pointer for CD-ROM to start of specified block
CDseektrack (3dm) - set read pointer for CD-ROM to start of specified track
CDstop (3dm) - stops play of an audio CD in CD-ROM drive
CDtctoframe (3dm) - convert timecode to CD frame number
CDtimetoa (3dm) - convert timecode to ASCII string
CDtogglepause (3dm) - toggles a CD-ROM drive between pause and play
CEILING (3I) - Returns the least integer greater than or equal to its argument
cfft1d, zfft1d (3F) - 1D, Real Complex-to-Complex, Fast Fourier Transforms.
cfft1di, zfft1di (3F) - initialize the coefficient array for Complex-to- Complex 1D FFT modules.
CFFT2 (3F) - Calculate a complex-to-complex Fourier synthesis/analysis.
cfft2d, zfft2d (3F) - 2D Complex-to-Complex Fast Fourier Transform.
cfft2di, zfft2di (3F) - initialize the coefficient array for complex-to- complex 2D FFT modules.
cfft3d, zfft3d (3F) - 3D Complex-to-Complex Fast Fourier Transform.
cfft3di, zfft3di (3F) - initialize the coefficient array for complex-to- complex 3D FFT modules.
cfftm1d, zfftm1d (3F) - Multiple 1D, complex-to-complex, Fast Fourier Transforms.
cfftm1di, zfftm1di (3F) - initialize the coefficient array for complex-to- complex Multiple 1D FFT modules.
CG, SCG (3F) - EISPACK routine. This subroutine calls the recommended sequence of subroutines from the eigensystem subroutine package (EISPACK) to find the eigenvalues and eigenvectors (if desired) of a COMPLEX GENERAL matrix.
CGBBRD (3F) - reduce a complex general m-by-n band matrix A to real upper bidiagonal form B by a unitary transformation
CGBCO (3F) - CGBCO factors a complex band matrix by Gaussian elimination and estimates the condition of the matrix.
CGBCON (3F) - estimate the reciprocal of the condition number of a complex general band matrix A, in either the 1-norm or the infinity-norm,
CGBDI (3F) - CGBDI computes the determinant of a band matrix using the factors computed by CGBCO or CGBFA. If the inverse is needed, use CGBSL N times.
CGBEQU (3F) - compute row and column scalings intended to equilibrate an M- by-N band matrix A and reduce its condition number
CGBFA (3F) - CGBFA factors a complex band matrix by elimination.
CGBRFS (3F) - improve the computed solution to a system of linear equations when the coefficient matrix is banded, and provides error bounds and backward error estimates for the solution
CGBSL (3F) - CGBSL solves the complex band system A * X = B or CTRANS(A) * X = B using the factors computed by CGBCO or CGBFA.
CGBSV (3F) - compute the solution to a complex system of linear equations A * X = B, where A is a band matrix of order N with KL subdiagonals and KU superdiagonals, and X and B are N-by-NRHS matrices
CGBSVX (3F) - use the LU factorization to compute the solution to a complex system of linear equations A * X = B, A**T * X = B, or A**H * X = B,
CGBTF2 (3F) - compute an LU factorization of a complex m-by-n band matrix A using partial pivoting with row interchanges
CGBTRF (3F) - compute an LU factorization of a complex m-by-n band matrix A using partial pivoting with row interchanges
CGBTRS (3F) - solve a system of linear equations A * X = B, A**T * X = B, or A**H * X = B with a general band matrix A using the LU factorization computed by CGBTRF
CGEBAK (3F) - form the right or left eigenvectors of a complex general matrix by backward transformation on the computed eigenvectors of the balanced matrix output by CGEBAL
CGEBAL (3F) - balance a general complex matrix A
CGEBD2 (3F) - reduce a complex general m by n matrix A to upper or lower real bidiagonal form B by a unitary transformation
CGEBRD (3F) - reduce a general complex M-by-N matrix A to upper or lower bidiagonal form B by a unitary transformation
CGECO (3F) - CGECO factors a complex matrix by Gaussian elimination and estimates the condition of the matrix.
CGECON (3F) - estimate the reciprocal of the condition number of a general complex matrix A, in either the 1-norm or the infinity-norm, using the LU factorization computed by CGETRF
CGEDI (3F) - CGEDI computes the determinant and inverse of a matrix using the factors computed by CGECO or CGEFA.
CGEEQU (3F) - compute row and column scalings intended to equilibrate an M- by-N matrix A and reduce its condition number
CGEES (3F) - compute for an N-by-N complex nonsymmetric matrix A, the eigenvalues, the Schur form T, and, optionally, the matrix of Schur vectors Z
CGEESX (3F) - compute for an N-by-N complex nonsymmetric matrix A, the eigenvalues, the Schur form T, and, optionally, the matrix of Schur vectors Z
CGEEV (3F) - compute for an N-by-N complex nonsymmetric matrix A, the eigenvalues and, optionally, the left and/or right eigenvectors
CGEEVX (3F) - compute for an N-by-N complex nonsymmetric matrix A, the eigenvalues and, optionally, the left and/or right eigenvectors
CGEFA (3F) - CGEFA factors a complex matrix by Gaussian elimination.
CGEGS (3F) - compute for a pair of N-by-N complex nonsymmetric matrices A,
CGEGV (3F) - compute for a pair of N-by-N complex nonsymmetric matrices A and B, the generalized eigenvalues (alpha, beta), and optionally,
CGEHD2 (3F) - reduce a complex general matrix A to upper Hessenberg form H by a unitary similarity transformation
CGEHRD (3F) - reduce a complex general matrix A to upper Hessenberg form H by a unitary similarity transformation
CGELQ2 (3F) - compute an LQ factorization of a complex m by n matrix A
CGELQF (3F) - compute an LQ factorization of a complex M-by-N matrix A
CGELS (3F) - solve overdetermined or underdetermined complex linear systems involving an M-by-N matrix A, or its conjugate-transpose, using a QR or LQ factorization of A
CGELSS (3F) - compute the minimum norm solution to a complex linear least squares problem
CGELSX (3F) - compute the minimum-norm solution to a complex linear least squares problem
CGEQL2 (3F) - compute a QL factorization of a complex m by n matrix A
CGEQLF (3F) - compute a QL factorization of a complex M-by-N matrix A
CGEQPF (3F) - compute a QR factorization with column pivoting of a complex M- by-N matrix A
CGEQR2 (3F) - compute a QR factorization of a complex m by n matrix A
CGEQRF (3F) - compute a QR factorization of a complex M-by-N matrix A
CGERFS (3F) - improve the computed solution to a system of linear equations and provides error bounds and backward error estimates for the solution
CGERQ2 (3F) - compute an RQ factorization of a complex m by n matrix A
CGERQF (3F) - compute an RQ factorization of a complex M-by-N matrix A
CGESL (3F) - CGESL solves the complex system A * X = B or CTRANS(A) * X = B using the factors computed by CGECO or CGEFA.
CGESV (3F) - compute the solution to a complex system of linear equations A * X = B,
CGESVD (3F) - compute the singular value decomposition (SVD) of a complex M- by-N matrix A, optionally computing the left and/or right singular vectors
CGESVX (3F) - use the LU factorization to compute the solution to a complex system of linear equations A * X = B,
CGETF2 (3F) - compute an LU factorization of a general m-by-n matrix A using partial pivoting with row interchanges
CGETRF (3F) - compute an LU factorization of a general M-by-N matrix A using partial pivoting with row interchanges
CGETRI (3F) - compute the inverse of a matrix using the LU factorization computed by CGETRF
CGETRS (3F) - solve a system of linear equations A * X = B, A**T * X = B, or A**H * X = B with a general N-by-N matrix A using the LU factorization computed by CGETRF
CGGBAK (3F) - form the right or left eigenvectors of a complex generalized eigenvalue problem A*x = lambda*B*x, by backward transformation on the computed eigenvectors of the balanced pair of matrices output by CGGBAL
CGGBAL (3F) - balance a pair of general complex matrices (A,B)
CGGGLM (3F) - solve a general Gauss-Markov linear model (GLM) problem
CGGHRD (3F) - reduce a pair of complex matrices (A,B) to generalized upper Hessenberg form using unitary transformations, where A is a general matrix and B is upper triangular
CGGLSE (3F) - solve the linear equality-constrained least squares (LSE) problem
CGGQRF (3F) - compute a generalized QR factorization of an N-by-M matrix A and an N-by-P matrix B
CGGRQF (3F) - compute a generalized RQ factorization of an M-by-N matrix A and a P-by-N matrix B
CGGSVD (3F) - compute the generalized singular value decomposition (GSVD) of an M-by-N complex matrix A and P-by-N complex matrix B
CGGSVP (3F) - compute unitary matrices U, V and Q such that N-K-L K L U'*A*Q = K ( 0 A12 A13 ) if M-K-L >= 0
CGI (3) - Simple Common Gateway Interface Class
CGI::Apache (3) - Make things work with CGI.pm against Perl-Apache API
CGI::Carp (3) - CGI routines for writing to the HTTPD (or other) error log
CGI::Fast (3) - CGI Interface for Fast CGI
CGI::Push (3) - Simple Interface to Server Push
CGI::Switch (3) - Try more than one constructors and return the first object available
CGTCON (3F) - estimate the reciprocal of the condition number of a complex tridiagonal matrix A using the LU factorization as computed by CGTTRF
CGTRFS (3F) - improve the computed solution to a system of linear equations when the coefficient matrix is tridiagonal, and provides error bounds and backward error estimates for the solution
CGTSL (3F) - CGTSL given a general tridiagonal matrix and a right hand side will find the solution.
CGTSV (3F) - solve the equation A*X = B,
CGTSVX (3F) - use the LU factorization to compute the solution to a complex system of linear equations A * X = B, A**T * X = B, or A**H * X = B,
CGTTRF (3F) - compute an LU factorization of a complex tridiagonal matrix A using elimination with partial pivoting and row interchanges
CGTTRS (3F) - solve one of the systems of equations A * X = B, A**T * X = B, or A**H * X = B,
CH, SCH (3F) - EISPACK routine. This subroutine calls the recommended sequence of subroutines from the eigensystem subroutine package (EISPACK) to find the eigenvalues and eigenvectors (if desired) of a COMPLEX HERMITIAN matrix.
CHAR, ICHAR (3I) - Converts integer to character and vice versa
charst, lchstr (3G) - draws a string of characters
charst, lchstr (3G) - draws a string of characters
charstr, lcharstr (3G) - draws a string of characters
charstr, lcharstr (3G) - draws a string of characters
CHBEV (3F) - compute all the eigenvalues and, optionally, eigenvectors of a complex Hermitian band matrix A
CHBEVD (3F) - compute all the eigenvalues and, optionally, eigenvectors of a complex Hermitian band matrix A
CHBEVX (3F) - compute selected eigenvalues and, optionally, eigenvectors of a complex Hermitian band matrix A
CHBGST (3F) - reduce a complex Hermitian-definite banded generalized eigenproblem A*x = lambda*B*x to standard form C*y = lambda*y,
CHBGV (3F) - compute all the eigenvalues, and optionally, the eigenvectors of a complex generalized Hermitian-definite banded eigenproblem, of the form A*x=(lambda)*B*x
CHBTRD (3F) - reduce a complex Hermitian band matrix A to real symmetric tridiagonal form T by a unitary similarity transformation
checkbutton (3Tk) - Create and manipulate checkbutton widgets
CHECON (3F) - estimate the reciprocal of the condition number of a complex Hermitian matrix A using the factorization A = U*D*U**H or A = L*D*L**H computed by CHETRF
CHEEV (3F) - compute all eigenvalues and, optionally, eigenvectors of a complex Hermitian matrix A
CHEEVD (3F) - compute all eigenvalues and, optionally, eigenvectors of a complex Hermitian matrix A
CHEEVX (3F) - compute selected eigenvalues and, optionally, eigenvectors of a complex Hermitian matrix A
CHEGS2 (3F) - reduce a complex Hermitian-definite generalized eigenproblem to standard form
CHEGST (3F) - reduce a complex Hermitian-definite generalized eigenproblem to standard form
CHEGV (3F) - compute all the eigenvalues, and optionally, the eigenvectors of a complex generalized Hermitian-definite eigenproblem, of the form A*x=(lambda)*B*x, A*Bx=(lambda)*x, or B*A*x=(lambda)*x
CHERFS (3F) - improve the computed solution to a system of linear equations when the coefficient matrix is Hermitian indefinite, and provides error bounds and backward error estimates for the solution
CHESV (3F) - compute the solution to a complex system of linear equations A * X = B,
CHESVX (3F) - use the diagonal pivoting factorization to compute the solution to a complex system of linear equations A * X = B,
CHETD2 (3F) - reduce a complex Hermitian matrix A to real symmetric tridiagonal form T by a unitary similarity transformation
CHETF2 (3F) - compute the factorization of a complex Hermitian matrix A using the Bunch-Kaufman diagonal pivoting method
CHETRD (3F) - reduce a complex Hermitian matrix A to real symmetric tridiagonal form T by a unitary similarity transformation
CHETRF (3F) - compute the factorization of a complex Hermitian matrix A using the Bunch-Kaufman diagonal pivoting method
CHETRI (3F) - compute the inverse of a complex Hermitian indefinite matrix A using the factorization A = U*D*U**H or A = L*D*L**H computed by CHETRF
CHETRS (3F) - solve a system of linear equations A*X = B with a complex Hermitian matrix A using the factorization A = U*D*U**H or A = L*D*L**H computed by CHETRF
CHGEQZ (3F) - implement a single-shift version of the QZ method for finding the generalized eigenvalues w(i)=ALPHA(i)/BETA(i) of the equation det( A - w(i) B ) = 0 If JOB='S', then the pair (A,B) is simultaneously reduced to Schur form (i.e., A and B are both upper triangular) by applying one unitary tranformation (usually called Q) on the left and another (usually called Z) on the right
CHICO (3F) - CHICO factors a complex Hermitian matrix by elimination with symmetric pivoting and estimates the condition of the matrix.
CHIDI (3F) - CHIDI computes the determinant, inertia and inverse of a complex Hermitian matrix using the factors from CHIFA.
CHIFA (3F) - CHIFA factors a complex Hermitian matrix by elimination with symmetric pivoting.
CHISL (3F) - CHISL solves the complex Hermitian system A * X = B using the factors computed by CHIFA.
chmod (3F) - change mode of a file
CHPCO (3F) - CHPCO factors a complex Hermitian matrix stored in packed form by elimination with symmetric pivoting and estimates the condition of the matrix.
CHPCON (3F) - estimate the reciprocal of the condition number of a complex Hermitian packed matrix A using the factorization A = U*D*U**H or A = L*D*L**H computed by CHPTRF
CHPDI (3F) - CHPDI computes the determinant, inertia and inverse of a complex Hermitian matrix using the factors from CHPFA, where the matrix is stored in packed form.
CHPEV (3F) - compute all the eigenvalues and, optionally, eigenvectors of a complex Hermitian matrix in packed storage
CHPEVD (3F) - compute all the eigenvalues and, optionally, eigenvectors of a complex Hermitian matrix A in packed storage
CHPEVX (3F) - compute selected eigenvalues and, optionally, eigenvectors of a complex Hermitian matrix A in packed storage
CHPFA (3F) - CHPFA factors a complex Hermitian matrix stored in packed form by elimination with symmetric pivoting.
CHPGST (3F) - reduce a complex Hermitian-definite generalized eigenproblem to standard form, using packed storage
CHPGV (3F) - compute all the eigenvalues and, optionally, the eigenvectors of a complex generalized Hermitian-definite eigenproblem, of the form A*x=(lambda)*B*x, A*Bx=(lambda)*x, or B*A*x=(lambda)*x
CHPRFS (3F) - improve the computed solution to a system of linear equations when the coefficient matrix is Hermitian indefinite and packed, and provides error bounds and backward error estimates for the solution
CHPSL (3F) - CHISL solves the complex Hermitian system A * X = B using the factors computed by CHPFA.
CHPSV (3F) - compute the solution to a complex system of linear equations A * X = B,
CHPSVX (3F) - use the diagonal pivoting factorization A = U*D*U**H or A = L*D*L**H to compute the solution to a complex system of linear equations A * X = B, where A is an N-by-N Hermitian matrix stored in packed format and X and B are N-by-NRHS matrices
CHPTRD (3F) - reduce a complex Hermitian matrix A stored in packed form to real symmetric tridiagonal form T by a unitary similarity transformation
CHPTRF (3F) - compute the factorization of a complex Hermitian packed matrix A using the Bunch-Kaufman diagonal pivoting method
CHPTRI (3F) - compute the inverse of a complex Hermitian indefinite matrix A in packed storage using the factorization A = U*D*U**H or A = L*D*L**H computed by CHPTRF
CHPTRS (3F) - solve a system of linear equations A*X = B with a complex Hermitian matrix A stored in packed format using the factorization A = U*D*U**H or A = L*D*L**H computed by CHPTRF
CHSEIN (3F) - use inverse iteration to find specified right and/or left eigenvectors of a complex upper Hessenberg matrix H
CHSEQR (3F) - compute the eigenvalues of a complex upper Hessenberg matrix H, and, optionally, the matrices T and Z from the Schur decomposition H = Z T Z**H, where T is an upper triangular matrix (the Schur form), and Z is the unitary matrix of Schur vectors
chunks (3G) - specifies minimum object size in memory
chunksize (3G) - specifies minimum object size in memory
CINVIT, SCINVIT (3F) - EISPACK routine. This subroutine finds those eigenvectors of A COMPLEX UPPER Hessenberg matrix corresponding to specified eigenvalues, using inverse iteration.
circ, circi, circs (3G) - outlines a circle
circ, circi, circs (3G) - outlines a circle
circf, circfi, circfs (3G) - draws a filled circle
circf, circfi, circfs (3G) - draws a filled circle
ckalloc, memory, ckfree, Tcl_DisplayMemory, Tcl_InitMemory, Tcl_ValidateAllMemory (3Tcl) - Validated memory allocation interface.
ckpt_setup, ckpt_create, ckpt_restart, ckpt_stat, ckpt_remove (3) - checkpoint and restart (CPR) library interfaces
cl_aware, CLaware (3dm) - Aware Audio Schemes in the Compression Library
cl_cosmo (3dm) - Cosmo Compress JPEG Accelerator (in the Compression Library)
cl_jpeg (3dm) - JPEG schemes in the Compression Library
cl_mpeg1 (3dm) - MPEG-1 schemes in the Compression Library
cl_mvc2 (3dm) - MVC2 scheme in the Compression Library
cl_mvc3 (3dm) - MVC3 scheme in the Compression Library
CLABRD (3F) - reduce the first NB rows and columns of a complex general m by n matrix A to upper or lower real bidiagonal form by a unitary transformation Q' * A * P, and returns the matrices X and Y which are needed to apply the transformation to the unreduced part of A
CLACGV (3F) - conjugate a complex vector of length N
CLACON (3F) - estimate the 1-norm of a square, complex matrix A
CLACPY (3F) - copie all or part of a two-dimensional matrix A to another matrix B
CLACRM (3F) - perform a very simple matrix-matrix multiplication
CLACRT (3F) - applie a plane rotation, where the cos and sin (C and S) are complex and the vectors CX and CY are complex
clAddAlgorithm, clSetUnique, clGetUnique, clFetchParam, clStoreParam, clError (3dm) - Add a video or audio compression algorithm to the Compression Library
clAddParam, clSetDefault, clSetMin, clSetMax, clSetMinMax, clSetRange (3dm) - Add a video or audio compression parameter to the Compression Library
CLADIV (3F) - := X / Y, where X and Y are complex
CLAED0 (3F) - the divide and conquer method, CLAED0 computes all eigenvalues of a symmetric tridiagonal matrix which is one diagonal block of those from reducing a dense or band Hermitian matrix and corresponding eigenvectors of the dense or band matrix
CLAED7 (3F) - compute the updated eigensystem of a diagonal matrix after modification by a rank-one symmetric matrix
CLAED8 (3F) - merge the two sets of eigenvalues together into a single sorted set
CLAEIN (3F) - use inverse iteration to find a right or left eigenvector corresponding to the eigenvalue W of a complex upper Hessenberg matrix H
CLAESY (3F) - compute the eigendecomposition of a 2-by-2 symmetric matrix ( ( A, B );( B, C ) ) provided the norm of the matrix of eigenvectors is larger than some threshold value
CLAEV2 (3F) - compute the eigendecomposition of a 2-by-2 Hermitian matrix [ A B ] [ CONJG(B) C ]
CLAGS2 (3F) - compute 2-by-2 unitary matrices U, V and Q, such that if ( UPPER ) then U'*A*Q = U'*( A1 A2 )*Q = ( x 0 ) ( 0 A3 ) ( x x ) and V'*B*Q = V'*( B1 B2 )*Q = ( x 0 ) ( 0 B3 ) ( x x ) or if ( .NOT.UPPER ) then U'*A*Q = U'*( A1 0 )*Q = ( x x ) ( A2 A3 ) ( 0 x ) and V'*B*Q = V'*( B1 0 )*Q = ( x x ) ( B2 B3 ) ( 0 x ) where U = ( CSU SNU ), V = ( CSV SNV ),
CLAGTM (3F) - perform a matrix-vector product of the form B := alpha * A * X + beta * B where A is a tridiagonal matrix of order N, B and X are N by NRHS matrices, and alpha and beta are real scalars, each of which may be 0., 1., or -1
CLAHEF (3F) - compute a partial factorization of a complex Hermitian matrix A using the Bunch-Kaufman diagonal pivoting method
CLAHQR (3F) - i an auxiliary routine called by CHSEQR to update the eigenvalues and Schur decomposition already computed by CHSEQR, by dealing with the Hessenberg submatrix in rows and columns ILO to IHI
CLAHRD (3F) - reduce the first NB columns of a complex general n-by-(n-k+1) matrix A so that elements below the k-th subdiagonal are zero
CLAIC1 (3F) - applie one step of incremental condition estimation in its simplest version
CLANGB (3F) - return the value of the one norm, or the Frobenius norm, or the infinity norm, or the element of largest absolute value of an n by n band matrix A, with kl sub-diagonals and ku super-diagonals
CLANGE (3F) - return the value of the one norm, or the Frobenius norm, or the infinity norm, or the element of largest absolute value of a complex matrix A
CLANGT (3F) - return the value of the one norm, or the Frobenius norm, or the infinity norm, or the element of largest absolute value of a complex tridiagonal matrix A
CLANHB (3F) - return the value of the one norm, or the Frobenius norm, or the infinity norm, or the element of largest absolute value of an n by n hermitian band matrix A, with k super-diagonals
CLANHE (3F) - return the value of the one norm, or the Frobenius norm, or the infinity norm, or the element of largest absolute value of a complex hermitian matrix A
CLANHP (3F) - return the value of the one norm, or the Frobenius norm, or the infinity norm, or the element of largest absolute value of a complex hermitian matrix A, supplied in packed form
CLANHS (3F) - return the value of the one norm, or the Frobenius norm, or the infinity norm, or the element of largest absolute value of a Hessenberg matrix A
CLANHT (3F) - return the value of the one norm, or the Frobenius norm, or the infinity norm, or the element of largest absolute value of a complex Hermitian tridiagonal matrix A
CLANSB (3F) - return the value of the one norm, or the Frobenius norm, or the infinity norm, or the element of largest absolute value of an n by n symmetric band matrix A, with k super-diagonals
CLANSP (3F) - return the value of the one norm, or the Frobenius norm, or the infinity norm, or the element of largest absolute value of a complex symmetric matrix A, supplied in packed form
CLANSY (3F) - return the value of the one norm, or the Frobenius norm, or the infinity norm, or the element of largest absolute value of a complex symmetric matrix A
CLANTB (3F) - return the value of the one norm, or the Frobenius norm, or the infinity norm, or the element of largest absolute value of an n by n triangular band matrix A, with ( k + 1 ) diagonals
CLANTP (3F) - return the value of the one norm, or the Frobenius norm, or the infinity norm, or the element of largest absolute value of a triangular matrix A, supplied in packed form
CLANTR (3F) - return the value of the one norm, or the Frobenius norm, or the infinity norm, or the element of largest absolute value of a trapezoidal or triangular matrix A
CLAPLL (3F) - two column vectors X and Y, let A = ( X Y )
CLAPMT (3F) - rearrange the columns of the M by N matrix X as specified by the permutation K(1),K(2),...,K(N) of the integers 1,...,N
CLAQGB (3F) - equilibrate a general M by N band matrix A with KL subdiagonals and KU superdiagonals using the row and scaling factors in the vectors R and C
CLAQGE (3F) - equilibrate a general M by N matrix A using the row and scaling factors in the vectors R and C
CLAQHB (3F) - equilibrate a symmetric band matrix A using the scaling factors in the vector S
CLAQHE (3F) - equilibrate a Hermitian matrix A using the scaling factors in the vector S
CLAQHP (3F) - equilibrate a Hermitian matrix A using the scaling factors in the vector S
CLAQSB (3F) - equilibrate a symmetric band matrix A using the scaling factors in the vector S
CLAQSP (3F) - equilibrate a symmetric matrix A using the scaling factors in the vector S
CLAQSY (3F) - equilibrate a symmetric matrix A using the scaling factors in the vector S
CLAR2V (3F) - applie a vector of complex plane rotations with real cosines from both sides to a sequence of 2-by-2 complex Hermitian matrices,
CLARF (3F) - applie a complex elementary reflector H to a complex M-by-N matrix C, from either the left or the right
CLARFB (3F) - applie a complex block reflector H or its transpose H' to a complex M-by-N matrix C, from either the left or the right
CLARFG (3F) - generate a complex elementary reflector H of order n, such that H' * ( alpha ) = ( beta ), H' * H = I
CLARFT (3F) - form the triangular factor T of a complex block reflector H of order n, which is defined as a product of k elementary reflectors
CLARFX (3F) - applie a complex elementary reflector H to a complex m by n matrix C, from either the left or the right
CLARGV (3F) - generate a vector of complex plane rotations with real cosines, determined by elements of the complex vectors x and y
CLARNV (3F) - return a vector of n random complex numbers from a uniform or normal distribution
CLARTG (3F) - generate a plane rotation so that [ CS SN ] [ F ] [ R ] [ __ ]
CLARTV (3F) - applie a vector of complex plane rotations with real cosines to elements of the complex vectors x and y
CLASCL (3F) - multiplie the M by N complex matrix A by the real scalar CTO/CFROM
CLASET (3F) - initialize a 2-D array A to BETA on the diagonal and ALPHA on the offdiagonals
CLASR (3F) - perform the transformation A := P*A, when SIDE = 'L' or 'l' ( Left-hand side ) A := A*P', when SIDE = 'R' or 'r' ( Right-hand side ) where A is an m by n complex matrix and P is an orthogonal matrix,
Class::Struct (3) - declare struct-like datatypes as Perl classes
CLASSQ (3F) - return the values scl and ssq such that ( scl**2 )*ssq = x( 1 )**2 +...+ x( n )**2 + ( scale**2 )*sumsq,
CLASWP (3F) - perform a series of row interchanges on the matrix A
CLASYF (3F) - compute a partial factorization of a complex symmetric matrix A using the Bunch-Kaufman diagonal pivoting method
CLATBS (3F) - solve one of the triangular systems A * x = s*b, A**T * x = s*b, or A**H * x = s*b,
CLATPS (3F) - solve one of the triangular systems A * x = s*b, A**T * x = s*b, or A**H * x = s*b,
CLATRD (3F) - reduce NB rows and columns of a complex Hermitian matrix A to Hermitian tridiagonal form by a unitary similarity transformation Q' * A * Q, and returns the matrices V and W which are needed to apply the transformation to the unreduced part of A
CLATRS (3F) - solve one of the triangular systems A * x = s*b, A**T * x = s*b, or A**H * x = s*b,
CLATZM (3F) - applie a Householder matrix generated by CTZRQF to a matrix
CLAUU2 (3F) - compute the product U * U' or L' * L, where the triangular factor U or L is stored in the upper or lower triangular part of the array A
CLAUUM (3F) - compute the product U * U' or L' * L, where the triangular factor U or L is stored in the upper or lower triangular part of the array A
clCompressImage, clDecompressImage (3dm) - Compress/Decompress a single image
clCreateBuf, clDestroyBuf, clQueryBufferHdl, clQueryHandle (3dm) - Create and destroy implicit buffers, and find related handles.
clear (3G) - clears the viewport
clear (3G) - clears the viewport
CLEAR_IEEE_EXCEPTION (3I) - Clears floating-point exception indicator
clearh (3G) - sets the hitcode to zero
clearhitcode (3G) - sets the hitcode to zero
clGetDefault (3dm) - Get the default value of a parameter
clGetMinMax (3dm) - Get minimum and maximum values for a parameter
clGetName (3dm) - returns a name for a parameter
clGetNextImageInfo (3dm) - Get information about a compressed image stream
clGetParams, clSetParams, clGetParam, clSetParam (3dm) - get and set the value of the specified parameters.
CLintro, CompressionLibrary, compression, libcl, cl (3dm) - A library for working with compressed video and audio data
Clipfly (3pf) - IRIS Performer scene viewer with Clip Texturing enhancements
clippl (3G) - specify a plane against which all geometry is clipped
clipplane (3G) - specify a plane against which all geometry is clipped
clkon, clkoff (3G) - control keyboard click
clkon, clkoff (3G) - control keyboard click
clock (3C) - report CPU time used
CLOCK (3I) - Returns the current time
clOpenCompressor, clCompress, clCloseCompressor (3dm) - Compress a video or audio stream
clOpenDecompressor, clDecompress, clCloseDecompressor (3dm) - Decompress a video or audio stream
clOpenDemux, clDemux, clCloseDemux (3dm) - Demultiplex into video and audio streams
clOpenMux, clMux, clCloseMux (3dm) - Multiplex video and audio streams
close (3Tcl) - Close an open file
closeo (3G) - closes an object definition
closeobj (3G) - closes an object definition
clQueryAlgorithms, clQuerySchemeFromHandle, clQuerySchemeFromName, clGetAlgorithmName, clQueryLicense (3dm) - Get a list of algorithms, find the identifier or name, or check for a license
clQueryFree, clUpdateHead, clQueryValid, clUpdateTail, clDoneUpdatingHead (3dm) - Reading and writing data with implicit buffers
clQueryParams, clGetParamID (3dm) - Get a list of the parameters for a specified processing object, or the parameter identifier given the name
clQueryScheme, clQueryMaxHeaderSize, clReadHeader (3dm) - Determine the scheme and read the stream header
clSetErrorHandler (3dm) - Select an alternate error handling routine
cmode (3G) - sets color map mode as the current mode.
cmode (3G) - sets color map mode as the current mode.
cmov, cmovi, cmovs, cmov2, cmov2i, cmov2s (3G) - updates the current character position
cmov, cmovi, cmovs, cmov2, cmov2i, cmov2s (3G) - updates the current character position
cmsApplyTfm (3) - apply a color management tranform to a pixel buffer
cmsCheckGamut (3) - test pixels in a buffer to see whether they are in gamut for a given transform
cmsCloseProfile (3) - close a CMS profile int32 cmsCloseProfile (ctxt, prof); CMSContext ctxt; CMSProfile prof;
cmsCreateGamutCheck (3) - creates a gamut check from a set of profiles
cmsCreateProfile (3) - create a new profile
cmsCreateTfm (3) - creates a transform from a set of profiles
cmsDeleteProfile (3) - delete a profile from the file system
cmsDeleteTag (3) - delete the tag belonging to the specifed profile
cmsDeleteTfm (3) - delete a transform
cmsEndProfileIteration (3) - terminate a profile iteration and dispose of the iterator
cmsEndTagIteration (3) - terminate tag iteration and delete the iterator
cmsExportProfile (3) - convert profile to an external format
cmsFreeCmmList (3) - free list of all available CMMs
cmsFreeProfileExport (3) - free data storage created by cmsExportProfile
cmsFreeTagValue (3) - free tag value data
cmsGetCmmInfo (3) - return information about a selected CMM
cmsGetCmmList (3) - list all available CMMs
cmsGetDefaultCmm (3) - return the default CMM
cmsGetProfileHeader (3) - get the header from an open profile
cmsGetProfileSpecHeader (3) - get the header using the name of the profile, rather than a open profile.
cmsGetTag (3) - return tag contents, given a profile and a tag name
cmsImportProfile (3) - initialize a profile from data in an external format
cmsNextProfileIteration (3) - get the next profile in an iteration
cmsNextTagIteration (3) - get the next tag in a tag iteration
cmsOpen (3) - establishes a context for working with the color management system
cmsOpenProfile (3) - open a profile for read or write
cmsSaveProfile (3) - save a profile to permanent storage
cmsSaveProfileAs (3) - save a profile to permanent storage under a new name
cmsSetProfileHeader (3) - stores a new header into an open profile
cmsSetTag (3) - set tag contents, given a tag name and a profile
cmsStartProfileIteration (3) - start a profile iteration and create an iterator
cmsTfmCheckGamut (3) - test pixels in a buffer to see whether they are in gamut for a given transform
cnvlv (3G) - modify the operation of lrectwrite and rectcopy to convolve pixel data
color, colorf (3G) - sets the color index in the current draw mode
color, colorf (3G) - sets the color index in the current draw mode
COMBAK, SCOMBAK (3F) - EISPACK routine. This subroutine forms the eigenvectors of a COMPLEX GENERAL matrix by back transforming those of the corresponding upper Hessenberg matrix determined by COMHES.
COMHES, SCOMHES (3F) - EISPACK routine. Given a COMPLEX GENERAL matrix, this subroutine reduces a submatrix situated in rows and columns LOW through IGH to upper Hessenberg form by stabilized elementary similarity transformations.
COMLR, SCOMLR (3F) - EISPACK routine. This subroutine finds the eigenvalues of a COMPLEX UPPER Hessenberg matrix by the modified LR method.
COMLR2, SCOMLR2 (3F) - EISPACK routine. This subroutine finds the eigenvalues and eigenvectors of a COMPLEX UPPER Hessenberg matrix by the modified LR method. The eigenvectors of a COMPLEX GENERAL matrix can also be found if COMHES has been used to reduce this general matrix to Hessenberg form.
compac (3G) - compacts the memory storage of an object
compactify (3G) - compacts the memory storage of an object
COMPL (3I) - Computes complement
complex (3C++) - introduction to C++ complex mathematics library
complex_error (3C++) - error-handling function for the C++ Complex Math Library
complex_operators (3C++) - operators for the C++ complex math library
complib, complib.sgimath, sgimath (3F) - Scientific and Mathematical Library
Composite (3) - The Composite widget class
Composite (3X) - The Composite widget class
COMQR, SCOMQR (3F) - EISPACK routine. This subroutine finds the eigenvalues of a COMPLEX upper Hessenberg matrix by the QR method.
COMQR2, SCOMQR2 (3F) - EISPACK routine. This subroutine finds the eigenvalues and eigenvectors of a COMPLEX UPPER Hessenberg matrix by the QR method. The eigenvectors of a COMPLEX GENERAL matrix can also be found if CORTH has been used to reduce this general matrix to Hessenberg form.
concat (3Tcl) - Join lists together
concav (3G) - allows the system to draw concave polygons
concave (3G) - allows the system to draw concave polygons
Config (3) - access Perl configuration information
confstr (3S) - get configurable variables
CONJG (3M) - Computes conjugate of a complex number
conjg, dconjg, qconjg (3F) - FORTRAN complex conjugate intrinsic function
connect (3N) - initiate a connection on a socket
constant (3) - Perl pragma to declare constants
Constraint (3) - The Constraint widget class
Constraint (3X) - The Constraint widget class
continue (3Tcl) - Skip to the next iteration of a loop
conv, libconv, convolution, correlation (3F) - Convolution and Correlation Library
conv: toupper, tolower, _toupper, _tolower, toascii (3C) - translate characters
convolve (3G) - modify the operation of lrectwrite and rectcopy to convolve pixel data
copylist (3G) - copy a file into memory
Core (3) - The Core widget class
Core (3X) - The Core widget class
CORTB, SCORTB (3F) - EISPACK routine. This subroutine forms the eigenvectors of a COMPLEX GENERAL matrix by back transforming those of the corresponding upper Hessenberg matrix determined by CORTH.
CORTH, SCORTH (3F) - EISPACK routine. Given a COMPLEX GENERAL matrix, this subroutine reduces a submatrix situated in rows and columns LOW through IGH to upper Hessenberg form by unitary similarity transformations.
COS, DCOS, CCOS, CDCOS (3M) - Computes cosine
cos, dcos, qcos, ccos, zcos, cqcos, cosd, dcosd, qcosd (3F) - FORTRAN cosine intrinsic function
cosh, dcosh, qcosh (3F) - FORTRAN hyperbolic cosine intrinsic function
COT, DCOT (3M) - Computes cotangent
COUNT (3I) - Counts the number of true array elements
cpack (3G) - specifies RGBA color with a single packed 32-bit integer
cpack (3G) - specifies RGBA color with a single packed 32-bit integer
CPAN (3) - query, download and build perl modules from CPAN sites
CPAN::FirstTime (3) - Utility for CPAN::Config file Initialization
CPAN::Nox (3) - Wrapper around CPAN.pm without using any XS module
CPBCO (3F) - CPBCO factors a complex Hermitian positive definite matrix stored in band form and estimates the condition of the matrix.
CPBCON (3F) - estimate the reciprocal of the condition number (in the 1-norm) of a complex Hermitian positive definite band matrix using the Cholesky factorization A = U**H*U or A = L*L**H computed by CPBTRF
CPBDI (3F) - CPBDI computes the determinant of a complex Hermitian positive definite band matrix using the factors computed by CPBCO or CPBFA. If the inverse is needed, use CPBSL N times.
CPBEQU (3F) - compute row and column scalings intended to equilibrate a Hermitian positive definite band matrix A and reduce its condition number (with respect to the two-norm)
CPBFA (3F) - CPBFA factors a complex Hermitian positive definite matrix stored in band form.
CPBRFS (3F) - improve the computed solution to a system of linear equations when the coefficient matrix is Hermitian positive definite and banded, and provides error bounds and backward error estimates for the solution
CPBSL (3F) - CPBSL solves the complex Hermitian positive definite band system A*X = B using the factors computed by CPBCO or CPBFA.
CPBSTF (3F) - compute a split Cholesky factorization of a complex Hermitian positive definite band matrix A
CPBSV (3F) - compute the solution to a complex system of linear equations A * X = B,
CPBSVX (3F) - use the Cholesky factorization A = U**H*U or A = L*L**H to compute the solution to a complex system of linear equations A * X = B,
CPBTF2 (3F) - compute the Cholesky factorization of a complex Hermitian positive definite band matrix A
CPBTRF (3F) - compute the Cholesky factorization of a complex Hermitian positive definite band matrix A
CPBTRS (3F) - solve a system of linear equations A*X = B with a Hermitian positive definite band matrix A using the Cholesky factorization A = U**H*U or A = L*L**H computed by CPBTRF
cplxtrig (3C++) - trigonometric and hyperbolic functions for the C++ complex library
CPOCO (3F) - CPOCO factors a complex Hermitian positive definite matrix and estimates the condition of the matrix.
CPOCON (3F) - estimate the reciprocal of the condition number (in the 1-norm) of a complex Hermitian positive definite matrix using the Cholesky factorization A = U**H*U or A = L*L**H computed by CPOTRF
CPODI (3F) - CPODI computes the determinant and inverse of a certain complex Hermitian positive definite matrix (see below) using the factors computed by CPOCO, CPOFA or CQRDC.
CPOEQU (3F) - compute row and column scalings intended to equilibrate a Hermitian positive definite matrix A and reduce its condition number (with respect to the two-norm)
CPOFA (3F) - CPOFA factors a complex Hermitian positive definite matrix.
CPORFS (3F) - improve the computed solution to a system of linear equations when the coefficient matrix is Hermitian positive definite,
CPOSL (3F) - CPOSL solves the COMPLEX Hermitian positive definite system A * X = B using the factors computed by CPOCO or CPOFA.
CPOSV (3F) - compute the solution to a complex system of linear equations A * X = B,
CPOSVX (3F) - use the Cholesky factorization A = U**H*U or A = L*L**H to compute the solution to a complex system of linear equations A * X = B,
CPOTF2 (3F) - compute the Cholesky factorization of a complex Hermitian positive definite matrix A
CPOTRF (3F) - compute the Cholesky factorization of a complex Hermitian positive definite matrix A
CPOTRI (3F) - compute the inverse of a complex Hermitian positive definite matrix A using the Cholesky factorization A = U**H*U or A = L*L**H computed by CPOTRF
CPOTRS (3F) - solve a system of linear equations A*X = B with a Hermitian positive definite matrix A using the Cholesky factorization A = U**H*U or A = L*L**H computed by CPOTRF
CPPCO (3F) - CPPCO factors a complex Hermitian positive definite matrix stored in packed form and estimates the condition of the matrix.
CPPCON (3F) - estimate the reciprocal of the condition number (in the 1-norm) of a complex Hermitian positive definite packed matrix using the Cholesky factorization A = U**H*U or A = L*L**H computed by CPPTRF
CPPDI (3F) - CPPDI computes the determinant and inverse of a complex Hermitian positive definite matrix using the factors computed by CPPCO or CPPFA .
CPPEQU (3F) - compute row and column scalings intended to equilibrate a Hermitian positive definite matrix A in packed storage and reduce its condition number (with respect to the two-norm)
CPPFA (3F) - CPPFA factors a complex Hermitian positive definite matrix stored in packed form.
CPPRFS (3F) - improve the computed solution to a system of linear equations when the coefficient matrix is Hermitian positive definite and packed, and provides error bounds and backward error estimates for the solution
CPPSL (3F) - CPPSL solves the complex Hermitian positive definite system A * X = B using the factors computed by CPPCO or CPPFA.
CPPSV (3F) - compute the solution to a complex system of linear equations A * X = B,
CPPSVX (3F) - use the Cholesky factorization A = U**H*U or A = L*L**H to compute the solution to a complex system of linear equations A * X = B,
CPPTRF (3F) - compute the Cholesky factorization of a complex Hermitian positive definite matrix A stored in packed format
CPPTRI (3F) - compute the inverse of a complex Hermitian positive definite matrix A using the Cholesky factorization A = U**H*U or A = L*L**H computed by CPPTRF
CPPTRS (3F) - solve a system of linear equations A*X = B with a Hermitian positive definite matrix A in packed storage using the Cholesky factorization A = U**H*U or A = L*L**H computed by CPPTRF
cprod1d, zprod1d (3F) - Compute the product of a 1D Fourier transform with a 1D filter.
cprod2d, zprod2d (3F) - Compute the product of a 2D Fourier transforms with a 2D filter.
cprod3d, zprod3d (3F) - Compute the product of a 3D Fourier transforms with a 3D filter.
cprodm1d, zprodm1d (3F) - Compute the product of Multiple 1D Fourier transforms with Multiple 1D filters.
CPTCON (3F) - compute the reciprocal of the condition number (in the 1-norm) of a complex Hermitian positive definite tridiagonal matrix using the factorization A = L*D*L**H or A = U**H*D*U computed by CPTTRF
CPTEQR (3F) - compute all eigenvalues and, optionally, eigenvectors of a symmetric positive definite tridiagonal matrix by first factoring the matrix using SPTTRF and then calling CBDSQR to compute the singular values of the bidiagonal factor
CPTRFS (3F) - improve the computed solution to a system of linear equations when the coefficient matrix is Hermitian positive definite and tridiagonal, and provides error bounds and backward error estimates for the solution
CPTSL (3F) - CPTSL given a positive definite tridiagonal matrix and a right hand side will find the solution.
CPTSV (3F) - compute the solution to a complex system of linear equations A*X = B, where A is an N-by-N Hermitian positive definite tridiagonal matrix, and X and B are N-by-NRHS matrices
CPTSVX (3F) - use the factorization A = L*D*L**H to compute the solution to a complex system of linear equations A*X = B, where A is an N-by-N Hermitian positive definite tridiagonal matrix and X and B are N-by-NRHS matrices
CPTTRF (3F) - compute the factorization of a complex Hermitian positive definite tridiagonal matrix A
CPTTRS (3F) - solve a system of linear equations A * X = B with a Hermitian positive definite tridiagonal matrix A using the factorization A = U**H*D*U or A = L*D*L**H computed by CPTTRF
CQRDC (3F) - CQRDC uses Householder transformations to compute the QR factorization of an N by P matrix X. Column pivoting based on the 2- norms of the reduced columns may be performed at the users option.
CQRSL (3F) - CQRSL applies the output of CQRDC to compute coordinate transformations, projections, and least squares solutions. For K .LE. MIN(N,P), let XK be the matrix
CRFFT2 (3F) - Calculate a complex-to-real Fourier synthesis/analysis.
crv (3G) - draws a curve
crv (3G) - draws a curve
crvn (3G) - draws a series of curve segments
crvn (3G) - draws a series of curve segments
CRY2MIPS, MIPS2CRY (3F) - Converts Fortran data types between Cray Fortran data types and MIPS IEEE Fortran data types
crypt (3X) - password and file encryption functions
crypt, setkey, encrypt (3C) - generate hashing encryption
cscal1d, zscal1d (3F) - scales a 1D real sequence.
cscal2d, zscal2d (3F) - scales a 2D complex sequence.
cscal3d, zscal3d (3F) - scales a 3D complex sequence.
cscalm1d, zscalm1d (3F) - scales Multiple 1D complex sequences.
csfft1du, zdfft1du (3F) - 1D, Complex to Real, Inverse Fast Fourier Transforms.
csfft2du, zdfft2du (3F) - 2D, Complex-to-Real, Inverse Fast Fourier Transforms.
csfft3du, zdfft3du (3F) - 3D, Complex to Real, Inverse Fast Fourier Transforms.
csfftm1du, zdfftm1du (3F) - Multiple 1D, Complex to Real, Inverse Fast Fourier Transforms.
CSHIFT (3I) - Performs a circular shift on an array expression
CSICO (3F) - CSICO factors a complex symmetric matrix by elimination with symmetric pivoting and estimates the condition of the matrix.
CSIDI (3F) - CSIDI computes the determinant and inverse of a complex symmetric matrix using the factors from CSIFA.
CSIFA (3F) - CSIFA factors a complex symmetric matrix by elimination with symmetric pivoting.
CSISL (3F) - CSISL solves the complex symmetric system A * X = B using the factors computed by CSIFA.
CSMG (3I) - Performs a conditional scalar merge
CSPCO (3F) - CSPCO factors a complex symmetric matrix stored in packed form by elimination with symmetric pivoting and estimates the condition of the matrix.
CSPCON (3F) - estimate the reciprocal of the condition number (in the 1-norm) of a complex symmetric packed matrix A using the factorization A = U*D*U**T or A = L*D*L**T computed by CSPTRF
CSPDI (3F) - CSPDI computes the determinant and inverse of a complex symmetric matrix using the factors from CSPFA, where the matrix is stored in packed form.
CSPFA (3F) - CSPFA factors a complex symmetric matrix stored in packed form by elimination with symmetric pivoting.
CSPR (3F) - perform the symmetric rank 1 operation A := alpha*x*conjg( x' ) + A,
CSPRFS (3F) - improve the computed solution to a system of linear equations when the coefficient matrix is symmetric indefinite and packed, and provides error bounds and backward error estimates for the solution
CSPSL (3F) - CSISL solves the complex symmetric system A * X = B using the factors computed by CSPFA.
CSPSV (3F) - compute the solution to a complex system of linear equations A * X = B,
CSPSVX (3F) - use the diagonal pivoting factorization A = U*D*U**T or A = L*D*L**T to compute the solution to a complex system of linear equations A * X = B, where A is an N-by-N symmetric matrix stored in packed format and X and B are N-by-NRHS matrices
CSPTRF (3F) - compute the factorization of a complex symmetric matrix A stored in packed format using the Bunch-Kaufman diagonal pivoting method
CSPTRI (3F) - compute the inverse of a complex symmetric indefinite matrix A in packed storage using the factorization A = U*D*U**T or A = L*D*L**T computed by CSPTRF
CSPTRS (3F) - solve a system of linear equations A*X = B with a complex symmetric matrix A stored in packed format using the factorization A = U*D*U**T or A = L*D*L**T computed by CSPTRF
CSROOT, SCSROOT (3F) - EISPACK auxiliary routine.
CSROT (3F) - CSROT applies the complex Givens rotation
CSRSCL (3F) - multiplie an n-element complex vector x by the real scalar 1/a
CSTEDC (3F) - compute all eigenvalues and, optionally, eigenvectors of a symmetric tridiagonal matrix using the divide and conquer method
CSTEIN (3F) - compute the eigenvectors of a real symmetric tridiagonal matrix T corresponding to specified eigenvalues, using inverse iteration
CSTEQR (3F) - compute all eigenvalues and, optionally, eigenvectors of a symmetric tridiagonal matrix using the implicit QL or QR method
CSVDC (3F) - CSVDC is a subroutine to reduce a complex NxP matrix X by unitary transformations U and V to diagonal form. The diagonal elements S(I) are the singular values of X. The columns of U are the corresponding left singular vectors, and the columns of V the right singular vectors.
CSYCON (3F) - estimate the reciprocal of the condition number (in the 1-norm) of a complex symmetric matrix A using the factorization A = U*D*U**T or A = L*D*L**T computed by CSYTRF
CSYR (3F) - perform the symmetric rank 1 operation A := alpha*x*( x' ) + A,
CSYRFS (3F) - improve the computed solution to a system of linear equations when the coefficient matrix is symmetric indefinite, and provides error bounds and backward error estimates for the solution
CSYSV (3F) - compute the solution to a complex system of linear equations A * X = B,
CSYSVX (3F) - use the diagonal pivoting factorization to compute the solution to a complex system of linear equations A * X = B,
CSYTF2 (3F) - compute the factorization of a complex symmetric matrix A using the Bunch-Kaufman diagonal pivoting method
CSYTRF (3F) - compute the factorization of a complex symmetric matrix A using the Bunch-Kaufman diagonal pivoting method
CSYTRI (3F) - compute the inverse of a complex symmetric indefinite matrix A using the factorization A = U*D*U**T or A = L*D*L**T computed by CSYTRF
CSYTRS (3F) - solve a system of linear equations A*X = B with a complex symmetric matrix A using the factorization A = U*D*U**T or A = L*D*L**T computed by CSYTRF
CTBCON (3F) - estimate the reciprocal of the condition number of a triangular band matrix A, in either the 1-norm or the infinity-norm
CTBRFS (3F) - provide error bounds and backward error estimates for the solution to a system of linear equations with a triangular band coefficient matrix
CTBTRS (3F) - solve a triangular system of the form A * X = B, A**T * X = B, or A**H * X = B,
ctermid, ctermid_r (3S) - generate file name for terminal
CTGEVC (3F) - compute some or all of the right and/or left generalized eigenvectors of a pair of complex upper triangular matrices (A,B)
CTGSJA (3F) - compute the generalized singular value decomposition (GSVD) of two complex upper triangular (or trapezoidal) matrices A and B
ctime, localtime, gmtime, asctime, tzset, ctime_r, localtime_r, gmtime_r, asctime_r (3C) - convert date and time to string
CTPCON (3F) - estimate the reciprocal of the condition number of a packed triangular matrix A, in either the 1-norm or the infinity-norm
CTPRFS (3F) - provide error bounds and backward error estimates for the solution to a system of linear equations with a triangular packed coefficient matrix
CTPTRI (3F) - compute the inverse of a complex upper or lower triangular matrix A stored in packed format
CTPTRS (3F) - solve a triangular system of the form A * X = B, A**T * X = B, or A**H * X = B,
CTRCO (3F) - CTRCO estimates the condition of a complex triangular matrix.
CTRCON (3F) - estimate the reciprocal of the condition number of a triangular matrix A, in either the 1-norm or the infinity-norm
CTRDI (3F) - CTRDI computes the determinant and inverse of a complex triangular matrix.
CTREVC (3F) - compute some or all of the right and/or left eigenvectors of a complex upper triangular matrix T
CTREXC (3F) - reorder the Schur factorization of a complex matrix A = Q*T*Q**H, so that the diagonal element of T with row index IFST is moved to row ILST
CTRRFS (3F) - provide error bounds and backward error estimates for the solution to a system of linear equations with a triangular coefficient matrix
CTRSEN (3F) - reorder the Schur factorization of a complex matrix A = Q*T*Q**H, so that a selected cluster of eigenvalues appears in the leading positions on the diagonal of the upper triangular matrix T, and the leading columns of Q form an orthonormal basis of the corresponding right invariant subspace
CTRSL (3F) - CTRSL solves systems of the form
CTRSNA (3F) - estimate reciprocal condition numbers for specified eigenvalues and/or right eigenvectors of a complex upper triangular matrix T (or of any matrix Q*T*Q**H with Q unitary)
CTRSYL (3F) - solve the complex Sylvester matrix equation
CTRTI2 (3F) - compute the inverse of a complex upper or lower triangular matrix
CTRTRI (3F) - compute the inverse of a complex upper or lower triangular matrix A
CTRTRS (3F) - solve a triangular system of the form A * X = B, A**T * X = B, or A**H * X = B,
ctype: isdigit, isxdigit, islower, isupper, isalpha, isalnum, isspace, iscntrl, ispunct, isprint, isgraph, isascii, __isblank (3C) - character handling
CTZRQF (3F) - reduce the M-by-N ( M<=N ) complex upper trapezoidal matrix A to upper triangular form by means of unitary transformations
CUNG2L (3F) - generate an m by n complex matrix Q with orthonormal columns,
CUNG2R (3F) - generate an m by n complex matrix Q with orthonormal columns,
CUNGBR (3F) - generate one of the complex unitary matrices Q or P**H determined by CGEBRD when reducing a complex matrix A to bidiagonal form
CUNGHR (3F) - generate a complex unitary matrix Q which is defined as the product of IHI-ILO elementary reflectors of order N, as returned by CGEHRD
CUNGL2 (3F) - generate an m-by-n complex matrix Q with orthonormal rows,
CUNGLQ (3F) - generate an M-by-N complex matrix Q with orthonormal rows,
CUNGQL (3F) - generate an M-by-N complex matrix Q with orthonormal columns,
CUNGQR (3F) - generate an M-by-N complex matrix Q with orthonormal columns,
CUNGR2 (3F) - generate an m by n complex matrix Q with orthonormal rows,
CUNGRQ (3F) - generate an M-by-N complex matrix Q with orthonormal rows,
CUNGTR (3F) - generate a complex unitary matrix Q which is defined as the product of n-1 elementary reflectors of order N, as returned by CHETRD
CUNM2L (3F) - overwrite the general complex m-by-n matrix C with Q * C if SIDE = 'L' and TRANS = 'N', or Q'* C if SIDE = 'L' and TRANS = 'C', or C * Q if SIDE = 'R' and TRANS = 'N', or C * Q' if SIDE = 'R' and TRANS = 'C',
CUNM2R (3F) - overwrite the general complex m-by-n matrix C with Q * C if SIDE = 'L' and TRANS = 'N', or Q'* C if SIDE = 'L' and TRANS = 'C', or C * Q if SIDE = 'R' and TRANS = 'N', or C * Q' if SIDE = 'R' and TRANS = 'C',
CUNMBR (3F) - VECT = 'Q', CUNMBR overwrites the general complex M-by-N matrix C with SIDE = 'L' SIDE = 'R' TRANS = 'N'
CUNMHR (3F) - overwrite the general complex M-by-N matrix C with SIDE = 'L' SIDE = 'R' TRANS = 'N'
CUNML2 (3F) - overwrite the general complex m-by-n matrix C with Q * C if SIDE = 'L' and TRANS = 'N', or Q'* C if SIDE = 'L' and TRANS = 'C', or C * Q if SIDE = 'R' and TRANS = 'N', or C * Q' if SIDE = 'R' and TRANS = 'C',
CUNMLQ (3F) - overwrite the general complex M-by-N matrix C with SIDE = 'L' SIDE = 'R' TRANS = 'N'
CUNMQL (3F) - overwrite the general complex M-by-N matrix C with SIDE = 'L' SIDE = 'R' TRANS = 'N'
CUNMQR (3F) - overwrite the general complex M-by-N matrix C with SIDE = 'L' SIDE = 'R' TRANS = 'N'
CUNMR2 (3F) - overwrite the general complex m-by-n matrix C with Q * C if SIDE = 'L' and TRANS = 'N', or Q'* C if SIDE = 'L' and TRANS = 'C', or C * Q if SIDE = 'R' and TRANS = 'N', or C * Q' if SIDE = 'R' and TRANS = 'C',
CUNMRQ (3F) - overwrite the general complex M-by-N matrix C with SIDE = 'L' SIDE = 'R' TRANS = 'N'
CUNMTR (3F) - overwrite the general complex M-by-N matrix C with SIDE = 'L' SIDE = 'R' TRANS = 'N'
CUPGTR (3F) - generate a complex unitary matrix Q which is defined as the product of n-1 elementary reflectors H(i) of order n, as returned by CHPTRD using packed storage
CUPMTR (3F) - overwrite the general complex M-by-N matrix C with SIDE = 'L' SIDE = 'R' TRANS = 'N'
curori (3G) - sets the origin of a cursor
curorigin (3G) - sets the origin of a cursor
curs_addch: addch, waddch, mvaddch, mvwaddch, echochar, wechochar (3X) - add a character (with attributes) to a curses window and advance cursor
curs_addchstr: addchstr, addchnstr, waddchstr, waddchnstr, mvaddchstr, mvaddchnstr, mvwaddchstr, mvwaddchnstr (3X) - add string of characters (and attributes) to a curses window
curs_addstr: addstr, addnstr, waddstr, waddnstr, mvaddstr, mvaddnstr, mvwaddstr, mvwaddnstr (3X) - add a string of characters to a curses window and advance cursor
curs_addwch: addwch, waddwch, mvaddwch, mvwaddwch, echowchar, wechowchar (3X) - add a wchar_t character (with attributes) to a curses window and advance cursor
curs_addwchstr: addwchstr, addwchnstr, waddwchstr, waddwchnstr, mvaddwchstr, mvaddwchnstr, mvwaddwchstr, mvwaddwchnstr (3X) - add string of wchar_t characters (and attributes) to a curses window
curs_addwstr: addwstr, addnwstr, waddwstr, waddnwstr, mvaddwstr, mvaddnwstr, mvwaddwstr, mvwaddnwstr (3X) - add a string of wchar_t characters to a curses window and advance cursor
curs_attr: attroff, wattroff, attron, wattron, attrset, wattrset, standend, wstandend, standout, wstandout (3X) - curses character and window attribute control routines
curs_beep: beep, flash (3X) - curses bell and screen flash routines
curs_bkgd: bkgdset, wbkgdset, bkgd, wbkgd (3X) - curses window background manipulation routines
curs_border: border, wborder, box, hline, whline, vline, wvline (3X) - create curses borders, horizontal and vertical lines
curs_clear: erase, werase, clear, wclear, clrtobot, wclrtobot, clrtoeol, wclrtoeol (3X) - clear all or part of a curses window
curs_color: start_color, init_pair, init_color, has_colors, can_change_color, color_content, pair_content (3X) - curses color manipulation routines
curs_delch: delch, wdelch, mvdelch, mvwdelch (3X) - delete character under cursor in a curses window
curs_deleteln: deleteln, wdeleteln, insdelln, winsdelln, insertln, winsertln (3X) - delete and insert lines in a curses window
curs_getch: getch, wgetch, mvgetch, mvwgetch, ungetch (3X) - get (or push back) characters from curses terminal keyboard
curs_getstr: getstr, wgetstr, mvgetstr, mvwgetstr, wgetnstr (3X) - get character strings from curses terminal keyboard
curs_getwch: getwch, wgetwch, mvgetwch, mvwgetwch, ungetwch (3X) - get (or push back) wchar_t characters from curses terminal keyboard
curs_getwstr: getwstr, getnwstr, wgetwstr, wgetnwstr, mvgetwstr, mvgetnwstr, mvwgetwstr, mvwgetnwstr (3X) - get wchar_t character strings from curses terminal keyboard
curs_getyx: getyx, getparyx, getbegyx, getmaxyx (3X) - get curses cursor and window coordinates
curs_inch: inch, winch, mvinch, mvwinch (3X) - get a character and its attributes from a curses window
curs_inchstr: inchstr, inchnstr, winchstr, winchnstr, mvinchstr, mvinchnstr, mvwinchstr, mvwinchnstr (3X) - get a string of characters (and attributes) from a curses window
curs_initscr: initscr, newterm, endwin, isendwin, set_term, delscreen (3X) - curses screen initialization and manipulation routines
curs_inopts: cbreak, nocbreak, echo, noecho, halfdelay, intrflush, keypad, meta, nodelay, notimeout, raw, noraw, noqiflush, qiflush, timeout, wtimeout, typeahead (3X) - curses terminal input option control routines
curs_insch: insch, winsch, mvinsch, mvwinsch (3X) - insert a character before the character under the cursor in a curses window
curs_insstr: insstr, insnstr, winsstr, winsnstr, mvinsstr, mvinsnstr, mvwinsstr, mvwinsnstr (3X) - insert string before character under the cursor in a curses window
curs_instr: instr, innstr, winstr, winnstr, mvinstr, mvinnstr, mvwinstr, mvwinnstr (3X) - get a string of characters from a curses window
curs_inswch: inswch, winswch, mvinswch, mvwinswch (3X) - insert a wchar_t character before the character under the cursor in a curses window
curs_inswstr: inswstr, insnwstr, winswstr, winsnwstr, mvinswstr, mvinsnwstr, mvwinswstr, mvwinsnwstr (3X) - insert wchar_t string before character under the cursor in a curses window
curs_inwch: inwch, winwch, mvinwch, mvwinwch (3X) - get a wchar_t character and its attributes from a curses window
curs_inwchstr: inwchstr, inwchnstr, winwchstr, winwchnstr, mvinwchstr, mvinwchnstr, mvwinwchstr, mvwinwchnstr (3X) - get a string of wchar_t characters (and attributes) from a curses window
curs_inwstr: inwstr, innwstr, winwstr, winnwstr, mvinwstr, mvinnwstr, mvwinwstr, mvwinnwstr (3X) - get a string of wchar_t characters from a curses window
curs_kernel: def_prog_mode, def_shell_mode, reset_prog_mode, reset_shell_mode, resetty, savetty, getsyx, setsyx, ripoffline, curs_set, napms (3X) - low-level curses routines
curs_move: move, wmove (3X) - move curses window cursor
curs_outopts: clearok, idlok, idcok immedok, leaveok, setscrreg, wsetscrreg, scrollok, nl, nonl (3X) - curses terminal output option control routines
curs_overlay: overlay, overwrite, copywin (3X) - overlap and manipulate overlapped curses windows
curs_pad: newpad, subpad, prefresh, pnoutrefresh, pechochar, pechowchar (3X) - create and display curses pads
curs_printw: printw, wprintw, mvprintw, mvwprintw, vwprintw (3X) - print formatted output in curses windows
curs_refresh: refresh, wrefresh, wnoutrefresh, doupdate, redrawwin, wredrawln (3X) - refresh curses windows and lines
curs_scanw: scanw, wscanw, mvscanw, mvwscanw, vwscanw (3X) - convert formatted input from a curses widow
curs_scr_dump: scr_dump, scr_restore, scr_init, scr_set (3X) - read (write) a curses screen from (to) a file
curs_scroll: scroll, srcl, wscrl (3X) - scroll a curses window
curs_slk: slk_init, slk_set, slk_refresh, slk_noutrefresh, slk_label, slk_clear, slk_restore, slk_touch, slk_attron, slk_attrset, slk_attroff (3X) - curses soft label routines
curs_termattrs: baudrate, erasechar, has_ic, has_il, killchar, longname, termattrs, termname (3X) - curses environment query routines
curs_termcap: tgetent, tgetflag, tgetnum, tgetstr, tgoto, tputs (3X) - curses interfaces (emulated) to the termcap library
curs_terminfo: setupterm, setterm, set_curterm, del_curterm, restartterm, tparm, tputs, putp, vidputs, vidattr, mvcur, tigetflag, tigetnum, tigetstr (3X) - curses interfaces to terminfo database
curs_touch: touchwin, touchline, untouchwin, wtouchln, is_linetouched, is_wintouched (3X) - curses refresh control routines
curs_util: unctrl, keyname, filter, use_env, putwin, getwin, delay_output, draino, flushinp (3X) - miscellaneous curses utility routines
curs_window: newwin, delwin, mvwin, subwin, derwin, mvderwin, dupwin, wsyncup, syncok, wcursyncup, wsyncdown (3X) - create curses windows
curses (3X) - CRT screen handling and optimization package
curson, cursof (3G) - control cursor visibility by window
curson, cursoff (3G) - control cursor visibility by window
cursty (3G) - defines the type and/or size of cursor
curstype (3G) - defines the type and/or size of cursor
curveb (3G) - selects a basis matrix used to draw curves
curvebasis (3G) - selects a basis matrix used to draw curves
curvei (3G) - draws a curve segment
curveit (3G) - draws a curve segment
curvep (3G) - sets number of line segments used to draw a curve segment
curveprecision (3G) - sets number of line segments used to draw a curve segment
cuserid (3S) - get character login name of the user
CVMGM, CVMGN, CVMGP, CVMGT, CVMGZ (3I) - Conditional vector merge functions
cyclem (3G) - cycles between color maps at a specified rate
cyclemap (3G) - cycles between color maps at a specified rate
czclea (3G) - clears the color bitplanes and the z-buffer simultaneously
czclear (3G) - clears the color bitplanes and the z-buffer simultaneously

D

dasum, sasum, dzasum, scasum (3F) - BLAS level ONE L1 norm functions.
datapipe: dpipeCreate, dpipeDestroy, dpipeTransfer, dpipeReset, dpipeFlush(3X) - data pipe operations.
DATE, JDATE (3I) - Returns the current date
DATE_AND_TIME (3I) - Returns data on the real-time clock and date
daxpy, saxpy, zaxpy, caxpy (3F) - BLAS level ONE axpy subroutines
DB_File (3) - Perl5 access to Berkeley DB version 1.x
DBDSQR (3F) - compute the singular value decomposition (SVD) of a real N-by-N (upper or lower) bidiagonal matrix B
DBE (3X11) - Double Buffer Extension
DBLE, DFLOAT (3M) - Converts to type double precision
dbm: dbminit, dbminit64, dbmclose, dbmclose64, fetch, fetch64, store, store64, delete, delete64, firstkey, firstkey64, nextkey, nextkey64 (3B) - data base subroutines
dbopen (3) - database access methods
dbtext (3G) - sets the dial and button box text display
dbtext (3G) - sets the dial and button box text display
DCHDC (3F) - DCHDC computes the Cholesky decomposition of a positive definite matrix. A pivoting option allows the user to estimate the condition of a positive definite matrix or determine the rank of a positive semidefinite matrix.
DCHDD (3F) - DCHDD downdates an augmented Cholesky decomposition or the triangular factor of an augmented QR decomposition. Specifically, given an upper triangular matrix R of order P, a row vector X, a column vector Z, and a scalar Y, DCHDD determines an orthogonal matrix U and a scalar ZETA such that
DCHEX (3F) - DCHEX updates the Cholesky factorization
DCHUD (3F) - DCHUD updates an augmented Cholesky decomposition of the triangular part of an augmented QR decomposition. Specifically, given an upper triangular matrix R of order P, a row vector X, a column vector Z, and a scalar Y, DCHUD determines a untiary matrix U and a scalar ZETA such that
dcopy, scopy, zcopy, ccopy (3F) - BLAS level ONE copy subroutines
DDISNA (3F) - compute the reciprocal condition numbers for the eigenvectors of a real symmetric or complex Hermitian matrix or for the left or right singular vectors of a general m-by-n matrix
ddot, sdot, zdotc, cdotc, zdotu, cdotu (3F) - BLAS level ONE, dot product functions
defbas (3G) - defines a basis matrix
defbasis (3G) - defines a basis matrix
defcur (3G) - defines a cursor glyph
defcursor (3G) - defines a cursor glyph
deflfo (3G) - defines a raster font capable of accommodating large rasters and multi-byte character id's
deflfont (3G) - defines a raster font capable of accommodating large rasters and multi-byte character id's
deflin (3G) - defines a linestyle
deflinestyle (3G) - defines a linestyle
defpat (3G) - defines patterns
defpattern (3G) - defines patterns
defpup (3G) - defines a menu
defras (3G) - defines a raster font
defrasterfont (3G) - defines a raster font
delmntent (3) - remove entry from mounted filesystem description file
delobj (3G) - deletes an object
delobj (3G) - deletes an object
deltag (3G) - deletes a tag from the current open object
deltag (3G) - deletes a tag from the current open object
dem, demangle (3C++) - demangle C++ external names to a readable format
depthc (3G) - turns depth-cue mode on and off
depthcue (3G) - turns depth-cue mode on and off
destroy (3Tk) - Destroy one or more windows
Devel::SelfStubber (3) - generate stubs for a SelfLoading module
dfft1du, sfft1du (3F) - 1D Real to Complex Fast Fourier Transform.
dfft2du, sfft2du (3F) - 2D Real to Complex Fast Fourier Transform.
dfft3du, sfft3du (3F) - 3D Real to Complex Fast Fourier Transform.
dfftm1du, sfftm1du (3F) - Multiple 1D, Real to Complex Fast Fourier Transform.
DGBBRD (3F) - reduce a real general m-by-n band matrix A to upper bidiagonal form B by an orthogonal transformation
DGBCO (3F) - DGBCO factors a double precision band matrix by Gaussian elimination and estimates the condition of the matrix.
DGBCON (3F) - estimate the reciprocal of the condition number of a real general band matrix A, in either the 1-norm or the infinity-norm,
DGBDI (3F) - DGBDI computes the determinant of a band matrix using the factors computed by DGBCO or DGBFA. If the inverse is needed, use DGBSL N times.
DGBEQU (3F) - compute row and column scalings intended to equilibrate an M- by-N band matrix A and reduce its condition number
DGBFA (3F) - DGBFA factors a double precision band matrix by elimination.
dgbmv, sgbmv, zgbmv, cgbmv (3F) - BLAS Level Two Matrix-Vector Product
DGBRFS (3F) - improve the computed solution to a system of linear equations when the coefficient matrix is banded, and provides error bounds and backward error estimates for the solution
DGBSL (3F) - DGBSL solves the double precision band system A * X = B or TRANS(A) * X = B using the factors computed by DGBCO or DGBFA.
DGBSV (3F) - compute the solution to a real system of linear equations A * X = B, where A is a band matrix of order N with KL subdiagonals and KU superdiagonals, and X and B are N-by-NRHS matrices
DGBSVX (3F) - use the LU factorization to compute the solution to a real system of linear equations A * X = B, A**T * X = B, or A**H * X = B,
DGBTF2 (3F) - compute an LU factorization of a real m-by-n band matrix A using partial pivoting with row interchanges
DGBTRF (3F) - compute an LU factorization of a real m-by-n band matrix A using partial pivoting with row interchanges
DGBTRS (3F) - solve a system of linear equations A * X = B or A' * X = B with a general band matrix A using the LU factorization computed by DGBTRF
DGEBAK (3F) - form the right or left eigenvectors of a real general matrix by backward transformation on the computed eigenvectors of the balanced matrix output by DGEBAL
DGEBAL (3F) - balance a general real matrix A
DGEBD2 (3F) - reduce a real general m by n matrix A to upper or lower bidiagonal form B by an orthogonal transformation
DGEBRD (3F) - reduce a general real M-by-N matrix A to upper or lower bidiagonal form B by an orthogonal transformation
DGECO (3F) - DGECO factors a double precision matrix by Gaussian elimination and estimates the condition of the matrix.
DGECON (3F) - estimate the reciprocal of the condition number of a general real matrix A, in either the 1-norm or the infinity-norm, using the LU factorization computed by DGETRF
DGEDI (3F) - DGEDI computes the determinant and inverse of a matrix using the factors computed by DGECO or DGEFA.
DGEEQU (3F) - compute row and column scalings intended to equilibrate an M- by-N matrix A and reduce its condition number
DGEES (3F) - compute for an N-by-N real nonsymmetric matrix A, the eigenvalues, the real Schur form T, and, optionally, the matrix of Schur vectors Z
DGEESX (3F) - compute for an N-by-N real nonsymmetric matrix A, the eigenvalues, the real Schur form T, and, optionally, the matrix of Schur vectors Z
DGEEV (3F) - compute for an N-by-N real nonsymmetric matrix A, the eigenvalues and, optionally, the left and/or right eigenvectors
DGEEVX (3F) - compute for an N-by-N real nonsymmetric matrix A, the eigenvalues and, optionally, the left and/or right eigenvectors
DGEFA (3F) - DGEFA factors a double precision matrix by Gaussian elimination.
DGEGS (3F) - compute for a pair of N-by-N real nonsymmetric matrices A, B
DGEGV (3F) - compute for a pair of n-by-n real nonsymmetric matrices A and B, the generalized eigenvalues (alphar +/- alphai*i, beta), and optionally, the left and/or right generalized eigenvectors (VL and VR)
DGEHD2 (3F) - reduce a real general matrix A to upper Hessenberg form H by an orthogonal similarity transformation
DGEHRD (3F) - reduce a real general matrix A to upper Hessenberg form H by an orthogonal similarity transformation
DGELQ2 (3F) - compute an LQ factorization of a real m by n matrix A
DGELQF (3F) - compute an LQ factorization of a real M-by-N matrix A
DGELS (3F) - solve overdetermined or underdetermined real linear systems involving an M-by-N matrix A, or its transpose, using a QR or LQ factorization of A
DGELSS (3F) - compute the minimum norm solution to a real linear least squares problem
DGELSX (3F) - compute the minimum-norm solution to a real linear least squares problem
dgemm, sgemm, zgemm, cgemm (3F) - BLAS level three Matrix Product
dgemv, sgemv, zgemv, cgemv (3F) - BLAS Level Two Matrix-Vector Product
DGEQL2 (3F) - compute a QL factorization of a real m by n matrix A
DGEQLF (3F) - compute a QL factorization of a real M-by-N matrix A
DGEQPF (3F) - compute a QR factorization with column pivoting of a real M-by-N matrix A
DGEQR2 (3F) - compute a QR factorization of a real m by n matrix A
DGEQRF (3F) - compute a QR factorization of a real M-by-N matrix A
dger, sger, zgeru, cgeru, zgerc, cgerc (3F) - BLAS Level Two Rank 1 Operation
DGERFS (3F) - improve the computed solution to a system of linear equations and provides error bounds and backward error estimates for the solution
DGERQ2 (3F) - compute an RQ factorization of a real m by n matrix A
DGERQF (3F) - compute an RQ factorization of a real M-by-N matrix A
DGESL (3F) - DGESL solves the double precision system A * X = B or TRANS(A) * X = B using the factors computed by DGECO or DGEFA.
DGESV (3F) - compute the solution to a real system of linear equations A * X = B,
DGESVD (3F) - compute the singular value decomposition (SVD) of a real M-by-N matrix A, optionally computing the left and/or right singular vectors
DGESVX (3F) - use the LU factorization to compute the solution to a real system of linear equations A * X = B,
DGETF2 (3F) - compute an LU factorization of a general m-by-n matrix A using partial pivoting with row interchanges
DGETRF (3F) - compute an LU factorization of a general M-by-N matrix A using partial pivoting with row interchanges
DGETRI (3F) - compute the inverse of a matrix using the LU factorization computed by DGETRF
DGETRS (3F) - solve a system of linear equations A * X = B or A' * X = B with a general N-by-N matrix A using the LU factorization computed by DGETRF
DGGBAK (3F) - form the right or left eigenvectors of a real generalized eigenvalue problem A*x = lambda*B*x, by backward transformation on the computed eigenvectors of the balanced pair of matrices output by DGGBAL
DGGBAL (3F) - balance a pair of general real matrices (A,B)
DGGGLM (3F) - solve a general Gauss-Markov linear model (GLM) problem
DGGHRD (3F) - reduce a pair of real matrices (A,B) to generalized upper Hessenberg form using orthogonal transformations, where A is a general matrix and B is upper triangular
DGGLSE (3F) - solve the linear equality-constrained least squares (LSE) problem
DGGQRF (3F) - compute a generalized QR factorization of an N-by-M matrix A and an N-by-P matrix B
DGGRQF (3F) - compute a generalized RQ factorization of an M-by-N matrix A and a P-by-N matrix B
DGGSVD (3F) - compute the generalized singular value decomposition (GSVD) of an M-by-N real matrix A and P-by-N real matrix B
DGGSVP (3F) - compute orthogonal matrices U, V and Q such that N-K-L K L U'*A*Q = K ( 0 A12 A13 ) if M-K-L >= 0
dglclo (3G) - closes the DGL server connection
dglclose (3G) - closes the DGL server connection
dglope (3G) - opens a Graphics Library connection to a graphics server
dglopen (3G) - opens a Graphics Library connection to a graphics server
DGTCON (3F) - estimate the reciprocal of the condition number of a real tridiagonal matrix A using the LU factorization as computed by DGTTRF
DGTRFS (3F) - improve the computed solution to a system of linear equations when the coefficient matrix is tridiagonal, and provides error bounds and backward error estimates for the solution
DGTSL (3F) - DGTSL given a general tridiagonal matrix and a right hand side will find the solution.
DGTSV (3F) - solve the equation A*X = B,
DGTSVX (3F) - use the LU factorization to compute the solution to a real system of linear equations A * X = B or A**T * X = B,
DGTTRF (3F) - compute an LU factorization of a real tridiagonal matrix A using elimination with partial pivoting and row interchanges
DGTTRS (3F) - solve one of the systems of equations A*X = B or A'*X = B,
DHGEQZ (3F) - implement a single-/double-shift version of the QZ method for finding the generalized eigenvalues w(j)=(ALPHAR(j) + i*ALPHAI(j))/BETAR(j) of the equation det( A - w(i) B ) = 0 In addition, the pair A,B may be reduced to generalized Schur form
DHSEIN (3F) - use inverse iteration to find specified right and/or left eigenvectors of a real upper Hessenberg matrix H
DHSEQR (3F) - compute the eigenvalues of a real upper Hessenberg matrix H and, optionally, the matrices T and Z from the Schur decomposition H = Z T Z**T, where T is an upper quasi-triangular matrix (the Schur form), and Z is the orthogonal matrix of Schur vectors
diagnostics (3) - Perl compiler pragma to force verbose warning diagnostics
dial (3C) - establish an out-going terminal line connection
difftime (3C) - compute difference between two calendar times
DIGITS (3I) - Returns the number of significant digits
dim, ddim, qdim, idim, iidim, jidim (3F) - FORTRAN positive difference intrinsic functions
directory: opendir, readdir, readdir64, telldir, telldir64, seekdir, seekdir64, rewinddir, closedir, readdir_r, readdir64_r (3C) - directory operations
DirHandle (3) - supply object methods for directory handles
dirname (3G) - report the parent directory name of a file pathname
dis_init, dis_init32, dis_init64, dis_regs, dis_regs32, dis_regs64, disasm, disasm32, disasm64, disassembler32, disassembler64 (3E) - disassembler functions
DISABLE_IEEE_INTERRUPT (3I) - Disables floating-point interrupt
disassembler (3X) - disassemble a MIPS instruction and print the results
displa (3G) - specifies a displacement for the z values of rendered polygons
displacepolygon (3G) - specifies a displacement for the z values of rendered polygons
DisplayOfCCC, VisualOfCCC, ScreenNumberOfCCC, ScreenWhitePointOfCCC, ClientWhitePointOfCCC (3X11) - Color Conversion Context macros
dither (3G) - controls the dithering of pixels
dither (3G) - controls the dithering of pixels
div, ldiv (3C) - perform integer division
DLABAD (3F) - take as input the values computed by SLAMCH for underflow and overflow, and returns the square root of each of these values if the log of LARGE is sufficiently large
DLABRD (3F) - reduce the first NB rows and columns of a real general m by n matrix A to upper or lower bidiagonal form by an orthogonal transformation Q' * A * P, and returns the matrices X and Y which are needed to apply the transformation to the unreduced part of A
DLACON (3F) - estimate the 1-norm of a square, real matrix A
DLACPY (3F) - copie all or part of a two-dimensional matrix A to another matrix B
DLADIV (3F) - perform complex division in real arithmetic a + i*b p + i*q = --------- c + i*d The algorithm is due to Robert L
DLAE2 (3F) - compute the eigenvalues of a 2-by-2 symmetric matrix [ A B ] [ B C ]
DLAEBZ (3F) - contain the iteration loops which compute and use the function N(w), which is the count of eigenvalues of a symmetric tridiagonal matrix T less than or equal to its argument w
DLAED0 (3F) - compute all eigenvalues and corresponding eigenvectors of a symmetric tridiagonal matrix using the divide and conquer method
DLAED1 (3F) - compute the updated eigensystem of a diagonal matrix after modification by a rank-one symmetric matrix
DLAED2 (3F) - merge the two sets of eigenvalues together into a single sorted set
DLAED3 (3F) - find the roots of the secular equation, as defined by the values in D, W, and RHO, between KSTART and KSTOP
DLAED4 (3F) - subroutine computes the I-th updated eigenvalue of a symmetric rank-one modification to a diagonal matrix whose elements are given in the array d, and that D(i) < D(j) for i < j and that RHO > 0
DLAED5 (3F) - subroutine computes the I-th eigenvalue of a symmetric rank-one modification of a 2-by-2 diagonal matrix diag( D ) + RHO The diagonal elements in the array D are assumed to satisfy D(i) < D(j) for i < j
DLAED6 (3F) - compute the positive or negative root (closest to the origin) of z(1) z(2) z(3) f(x) = rho + --------- + ---------- + --------- d(1)-x d(2)-x d(3)-x It is assumed that if ORGATI = .true
DLAED7 (3F) - compute the updated eigensystem of a diagonal matrix after modification by a rank-one symmetric matrix
DLAED8 (3F) - merge the two sets of eigenvalues together into a single sorted set
DLAED9 (3F) - find the roots of the secular equation, as defined by the values in D, Z, and RHO, between KSTART and KSTOP
DLAEDA (3F) - compute the Z vector corresponding to the merge step in the CURLVLth step of the merge process with TLVLS steps for the CURPBMth problem
DLAEIN (3F) - use inverse iteration to find a right or left eigenvector corresponding to the eigenvalue (WR,WI) of a real upper Hessenberg matrix H
DLAEV2 (3F) - compute the eigendecomposition of a 2-by-2 symmetric matrix [ A B ] [ B C ]
DLAEXC (3F) - swap adjacent diagonal blocks T11 and T22 of order 1 or 2 in an upper quasi-triangular matrix T by an orthogonal similarity transformation
DLAG2 (3F) - compute the eigenvalues of a 2 x 2 generalized eigenvalue problem A - w B, with scaling as necessary to avoid over-/underflow
DLAGS2 (3F) - compute 2-by-2 orthogonal matrices U, V and Q, such that if ( UPPER ) then U'*A*Q = U'*( A1 A2 )*Q = ( x 0 ) ( 0 A3 ) ( x x ) and V'*B*Q = V'*( B1 B2 )*Q = ( x 0 ) ( 0 B3 ) ( x x ) or if ( .NOT.UPPER ) then U'*A*Q = U'*( A1 0 )*Q = ( x x ) ( A2 A3 ) ( 0 x ) and V'*B*Q = V'*( B1 0 )*Q = ( x x ) ( B2 B3 ) ( 0 x ) The rows of the transformed A and B are parallel, where U = ( CSU SNU ), V = ( CSV SNV ), Q = ( CSQ SNQ ) ( -SNU CSU ) ( -SNV CSV ) ( -SNQ CSQ ) Z' denotes the transpose of Z
DLAGTF (3F) - factorize the matrix (T - lambda*I), where T is an n by n tridiagonal matrix and lambda is a scalar, as T - lambda*I = PLU,
DLAGTM (3F) - perform a matrix-vector product of the form B := alpha * A * X + beta * B where A is a tridiagonal matrix of order N, B and X are N by NRHS matrices, and alpha and beta are real scalars, each of which may be 0., 1., or -1
DLAGTS (3F) - may be used to solve one of the systems of equations (T - lambda*I)*x = y or (T - lambda*I)'*x = y,
DLAHQR (3F) - i an auxiliary routine called by DHSEQR to update the eigenvalues and Schur decomposition already computed by DHSEQR, by dealing with the Hessenberg submatrix in rows and columns ILO to IHI
DLAHRD (3F) - reduce the first NB columns of a real general n-by-(n-k+1) matrix A so that elements below the k-th subdiagonal are zero
DLAIC1 (3F) - applie one step of incremental condition estimation in its simplest version
DLALN2 (3F) - solve a system of the form (ca A - w D ) X = s B or (ca A' - w D) X = s B with possible scaling ("s") and perturbation of A
DLAMCH (3F) - determine double precision machine parameters
DLAMRG (3F) - will create a permutation list which will merge the elements of A (which is composed of two independently sorted sets) into a single set which is sorted in ascending order
DLANGB (3F) - return the value of the one norm, or the Frobenius norm, or the infinity norm, or the element of largest absolute value of an n by n band matrix A, with kl sub-diagonals and ku super-diagonals
DLANGE (3F) - return the value of the one norm, or the Frobenius norm, or the infinity norm, or the element of largest absolute value of a real matrix A
DLANGT (3F) - return the value of the one norm, or the Frobenius norm, or the infinity norm, or the element of largest absolute value of a real tridiagonal matrix A
DLANHS (3F) - return the value of the one norm, or the Frobenius norm, or the infinity norm, or the element of largest absolute value of a Hessenberg matrix A
DLANSB (3F) - return the value of the one norm, or the Frobenius norm, or the infinity norm, or the element of largest absolute value of an n by n symmetric band matrix A, with k super-diagonals
DLANSP (3F) - return the value of the one norm, or the Frobenius norm, or the infinity norm, or the element of largest absolute value of a real symmetric matrix A, supplied in packed form
DLANST (3F) - return the value of the one norm, or the Frobenius norm, or the infinity norm, or the element of largest absolute value of a real symmetric tridiagonal matrix A
DLANSY (3F) - return the value of the one norm, or the Frobenius norm, or the infinity norm, or the element of largest absolute value of a real symmetric matrix A
DLANTB (3F) - return the value of the one norm, or the Frobenius norm, or the infinity norm, or the element of largest absolute value of an n by n triangular band matrix A, with ( k + 1 ) diagonals
DLANTP (3F) - return the value of the one norm, or the Frobenius norm, or the infinity norm, or the element of largest absolute value of a triangular matrix A, supplied in packed form
DLANTR (3F) - return the value of the one norm, or the Frobenius norm, or the infinity norm, or the element of largest absolute value of a trapezoidal or triangular matrix A
DLANV2 (3F) - compute the Schur factorization of a real 2-by-2 nonsymmetric matrix in standard form
DLAPLL (3F) - two column vectors X and Y, let A = ( X Y )
DLAPMT (3F) - rearrange the columns of the M by N matrix X as specified by the permutation K(1),K(2),...,K(N) of the integers 1,...,N
DLAPY2 (3F) - return sqrt(x**2+y**2), taking care not to cause unnecessary overflow
DLAPY3 (3F) - return sqrt(x**2+y**2+z**2), taking care not to cause unnecessary overflow
DLAQGB (3F) - equilibrate a general M by N band matrix A with KL subdiagonals and KU superdiagonals using the row and scaling factors in the vectors R and C
DLAQGE (3F) - equilibrate a general M by N matrix A using the row and scaling factors in the vectors R and C
DLAQSB (3F) - equilibrate a symmetric band matrix A using the scaling factors in the vector S
DLAQSP (3F) - equilibrate a symmetric matrix A using the scaling factors in the vector S
DLAQSY (3F) - equilibrate a symmetric matrix A using the scaling factors in the vector S
DLAQTR (3F) - solve the real quasi-triangular system op(T)*p = scale*c, if LREAL = .TRUE
DLAR2V (3F) - applie a vector of real plane rotations from both sides to a sequence of 2-by-2 real symmetric matrices, defined by the elements of the vectors x, y and z
DLARF (3F) - applie a real elementary reflector H to a real m by n matrix C, from either the left or the right
DLARFB (3F) - applie a real block reflector H or its transpose H' to a real m by n matrix C, from either the left or the right
DLARFG (3F) - generate a real elementary reflector H of order n, such that H * ( alpha ) = ( beta ), H' * H = I
DLARFT (3F) - form the triangular factor T of a real block reflector H of order n, which is defined as a product of k elementary reflectors
DLARFX (3F) - applie a real elementary reflector H to a real m by n matrix C, from either the left or the right
DLARGV (3F) - generate a vector of real plane rotations, determined by elements of the real vectors x and y
DLARNV (3F) - return a vector of n random real numbers from a uniform or normal distribution
DLARTG (3F) - generate a plane rotation so that [ CS SN ]
DLARTV (3F) - applie a vector of real plane rotations to elements of the real vectors x and y
DLARUV (3F) - return a vector of n random real numbers from a uniform (0,1)
DLAS2 (3F) - compute the singular values of the 2-by-2 matrix [ F G ] [ 0 H ]
DLASCL (3F) - multiplie the M by N real matrix A by the real scalar CTO/CFROM
DLASET (3F) - initialize an m-by-n matrix A to BETA on the diagonal and ALPHA on the offdiagonals
DLASQ1 (3F) - DLASQ1 computes the singular values of a real N-by-N bidiagonal matrix with diagonal D and off-diagonal E
DLASQ2 (3F) - DLASQ2 computes the singular values of a real N-by-N unreduced bidiagonal matrix with squared diagonal elements in Q and squared off- diagonal elements in E
DLASQ3 (3F) - DLASQ3 is the workhorse of the whole bidiagonal SVD algorithm
DLASQ4 (3F) - DLASQ4 estimates TAU, the smallest eigenvalue of a matrix
DLASR (3F) - perform the transformation A := P*A, when SIDE = 'L' or 'l' ( Left-hand side ) A := A*P', when SIDE = 'R' or 'r' ( Right-hand side ) where A is an m by n real matrix and P is an orthogonal matrix,
DLASRT (3F) - the numbers in D in increasing order (if ID = 'I') or in decreasing order (if ID = 'D' )
DLASSQ (3F) - return the values scl and smsq such that ( scl**2 )*smsq = x( 1 )**2 +...+ x( n )**2 + ( scale**2 )*sumsq,
DLASV2 (3F) - compute the singular value decomposition of a 2-by-2 triangular matrix [ F G ] [ 0 H ]
DLASWP (3F) - perform a series of row interchanges on the matrix A
DLASY2 (3F) - solve for the N1 by N2 matrix X, 1 <= N1,N2 <= 2, in op(TL)*X + ISGN*X*op(TR) = SCALE*B,
DLASYF (3F) - compute a partial factorization of a real symmetric matrix A using the Bunch-Kaufman diagonal pivoting method
DLATBS (3F) - solve one of the triangular systems A *x = s*b or A'*x = s*b with scaling to prevent overflow, where A is an upper or lower triangular band matrix
DLATPS (3F) - solve one of the triangular systems A *x = s*b or A'*x = s*b with scaling to prevent overflow, where A is an upper or lower triangular matrix stored in packed form
DLATRD (3F) - reduce NB rows and columns of a real symmetric matrix A to symmetric tridiagonal form by an orthogonal similarity transformation Q' * A * Q, and returns the matrices V and W which are needed to apply the transformation to the unreduced part of A
DLATRS (3F) - solve one of the triangular systems A *x = s*b or A'*x = s*b with scaling to prevent overflow
DLATZM (3F) - applie a Householder matrix generated by DTZRQF to a matrix
DLAUU2 (3F) - compute the product U * U' or L' * L, where the triangular factor U or L is stored in the upper or lower triangular part of the array A
DLAUUM (3F) - compute the product U * U' or L' * L, where the triangular factor U or L is stored in the upper or lower triangular part of the array A
dlclose (3C) - close a shared object
dlerror (3C) - get diagnostic information
dlopen (3C) - open a shared object
dlsym (3C) - get the address of a symbol in shared object
dm_dv (3dm) - DV and DVCPRO image and audio compression programming with dmIC, dmAC and dmBuffers
dm_jpeg (3dm) - JPEG compression programming with dmIC and dmBuffers
dmACConvert (3dm) - convert audio data format, sampling rate and compression
dmACCreate, dmACDestroy (3dm) - create/destroy a DMaudioconverter handle used for audio format conversion.
dmACGetMinInputSize, dmACGetMinOutputSize (3dm) - auxiliary routines for querying input and output buffer sizes for dmACConvert.
dmACReset (3dm) - reset a DMaudioconverter handle to its default state
dmACSetParams, dmACGetParams (3dm) - set/get the Audio Converter parameter values
dmAudioRateConvert (3dm) - convert data sampling rate. It consumes an input buffer of floats and generates an output buffer of floats.
dmAudioRateConverterCreate (3dm) - allocate new DMaudiorateconverter structure
dmAudioRateConverterDestroy (3dm) - deallocate an audio converter
dmAudioRateConverterGetParams (3dm) - get rate converter parameter values
dmAudioRateConverterReset (3dm) - fill internal buffers with constant value
dmAudioRateConverterSetParams (3dm) - set rate converter parameter values
dmBufferAllocate, dmBufferAllocateSize, dmBufferAttach, dmBufferFree, dmBufferGetAllocSize (3dm) - allocate and free a DMbuffer
dmBufferGetGLPoolParams (3dm) - configures pool parameters required for use by graphics
dmBufferGetImageType, dmBufferSetImageType (3dm) - set and get the DMimagetype of a DMbuffer
dmBufferGetPoolFD, dmBufferSetPoolSelectSize (3dm) - configure DMbufferpool file descriptor
dmBufferGetPoolState (3dm) - query available space in pool
dmBufferGetSize, dmBufferSetSize (3dm) - set and get DMbuffer data size
dmBufferGetUserData, dmBufferSetUserData (3dm) - get and set user data for a buffer
dmBufferGetUSTMSCpair, dmBufferSetUSTMSCpair (3dm) - get and set unadjusted system time and media stream counter value pair
dmBufferMapData (3dm) - map DMbuffer memory
dmBufferSetPoolDefaults, dmBufferCreatePool, dmBufferDestroyPool (3dm) - create DMbufferpool
dmColor (3dm) - The Silicon Graphics Color Space Library (CSL)
dmColorConvert (3dm) - performs the actual image conversion.
dmColorCreate (3dm) - creates and initializes the color converter.
dmColorDestroy (3dm) - destroys the color converter.
dmColorGetError (3dm) - returns the value of the error flag.
dmColorGetErrorString (3dm) - returns a text error message.
dmColorGetSrcSize, dmColorGetDstSize (3dm) - get the source/destination image size in bytes.
dmColorPrecompute (3dm) - performs any precomputation required.
dmColorSetBrightness, dmColorGetBrightness (3dm) - set/get brightness delta value.
dmColorSetContrast, dmColorGetContrast (3dm) - set/get the contrast multiplier.
dmColorSetConvParams, dmColorGetConvParams (3dm) - set/get the conversion parameters.
dmColorSetDefaultAlpha, dmColorGetDefaultAlpha (3dm) - set/get the default alpha value of the source image.
dmColorSetHue, dmColorGetHue (3dm) - set/get the hue rotation.
dmColorSetSaturation, dmColorGetSaturation (3dm) - set/get the saturation multiplier.
dmColorSetSrcParams, dmColorSetDstParams, dmColorGetSrcParams, dmColorGetDstParams (3dm) - set/get the source/destination image parameters.
dmColorSetSubsamplingFilter, dmColorGetSubsamplingFilter (3dm) - set/get the subsampling filter type.
dmDVAudioDecode (3dm) - implements DV and DVCPRO audio decompression
dmDVAudioDecoderCreate (3dm) - allocate new DMDVaudiodecoder structure
dmDVAudioDecoderDestroy (3dm) - deallocate a DMDVaudiodecoder
dmDVAudioDecoderGetParams (3dm) - get DV audio decoder parameter values
dmDVAudioDecoderReset (3dm) - fill decoder internal buffers with zeros.
dmDVAudioDecoderSetParams (3dm) - set DV Audio decoder parameter values
dmDVAudioEncode (3dm) - implements DV and DVCPRO audio encode
dmDVAudioEncoderCreate (3dm) - allocate new DMDVaudioencoder structure
dmDVAudioEncoderDestroy (3dm) - deallocate a DMDVaudioencoder
dmDVAudioEncoderGetFrameSize (3dm) - get DV audio encoder frame size
dmDVAudioEncoderGetParams (3dm) - get DV audio encoder parameter values
dmDVAudioEncoderReset (3dm) - fill encoder internal buffers with zeros.
dmDVAudioEncoderSetParams (3dm) - set DV Audio encoder parameter values
dmDVAudioHeaderGetParams (3dm) - get DV audio decoder parameter values
dmDVIAudioDecode (3dm) - decode audio data compressed using the IMA (Interactive Multimedia Association) Recommended ADPCM decompression, based on Intel's DVI algorithm.
dmDVIAudioDecoderCreate (3dm) - allocate new DMDVIaudiodecoder structure
dmDVIAudioDecoderDestroy (3dm) - deallocate a DMDVIaudiodecoder
dmDVIAudioDecoderGetParams (3dm) - get DVI audio decoder parameter values
dmDVIAudioDecoderReset (3dm) - fill decoder internal buffers with zeros.
dmDVIAudioDecoderSetParams (3dm) - set DVI Audio decoder parameter values
dmDVIAudioEncode (3dm) - compress audio data using the IMA (Interactive Multimedia Association) Recommended ADPCM compression, based on Intel's DVI algorithm.
dmDVIAudioEncoderCreate (3dm) - allocate new DMDVIaudioencoder structure
dmDVIAudioEncoderDestroy (3dm) - deallocate a DMDVIaudioencoder
dmDVIAudioEncoderGetParams (3dm) - get DVI audio encoder parameter values
dmDVIAudioEncoderReset (3dm) - fill encoder internal buffers with zeros.
dmDVIAudioEncoderSetParams (3dm) - set DVI Audio encoder parameter values
dmedia, dmIntro (3dm) - Introduction to the IRIS Digital Media Libraries
dmFS1016Decode (3dm) - implements the US Federal Standard 1016 4800/7200/9600 bits/s CELP (Code Excited Linear Predictive) Voice Coder.
dmFS1016DecoderCreate (3dm) - allocate new DMFS1016decoder structure
dmFS1016DecoderDestroy (3dm) - deallocate a DMFS1016decoder
dmFS1016DecoderGetParams (3dm) - get FS1016 decoder parameter values
dmFS1016DecoderReset (3dm) - fill decoder internal buffers with zeros.
dmFS1016DecoderSetParams (3dm) - set FS1016 decoder parameter values.
dmFS1016Encode (3dm) - implements the US Federal Standard 1016 4800/7200/9600 bits/s CELP (Code Excited Linear Predictive) Voice Coder.
dmFS1016EncoderCreate (3dm) - allocate new DMFS1016encoder structure
dmFS1016EncoderDestroy (3dm) - deallocate a DMFS1016encoder
dmFS1016EncoderGetParams (3dm) - get FS1016 encoder parameter values
dmFS1016EncoderReset (3dm) - fill encoder internal buffers with zeros.
dmFS1016EncoderSetParams (3dm) - set FS1016 encoder parameter values.
dmFXAllocateImageBuffers, dmFXFreeImageBuffers (3dm) - create and destroy image buffers for special effects
DMFXDialog (3dm) - A dialog class for plugins
dmFXDrawPixels, dmFXConvolve, dmFXScaleBias, dmFXMatrixMultiply (3dm) - pixel transfer operations for special effects
dmFXGetDataPtr, dmFXGetRowLength (3dm) - return a pointer to the pixels stored in a DMfxbuffer
dmFXGetDMBuffer (3dm) - return the DMbuffer associated with a DMfxbuffer
DMFXImageViewer (3dm) - An image viewer class for plugins
dmFXIsGLExtensionSupported (3dm) - Find out if a GL Extension is supported
dmFXJoinFields (3dm) - join two fields into a single frame
dmFXMergeResources (3dm) - load and merge plugin resources with those of the parent application
dmFXMovieRenderImage, dmFXMovieInsertImage, dmFXMovieRenderFields, dmFXMovieInsertFields (3dm) - transfer images between movies and special effects
dmFXSetupInputImageBuffer, dmFXSetupInputImageBufferWithUsage, dmFXSetupOutputImageBuffer, dmFXCleanupInputImageBuffer, dmFXCleanupOutputImageBuffer (3dm) - manage special-effects image buffers
dmFXSetupScanlineBuffer (3dm) - get information about a special-effects image buffer
dmFXSplitFields (3dm) - split a frame out into two fields
dmFXTexImage2D (3dm) - load an image for use as a texture for special effects
dmFXUpdateImageBuffer, dmFXUpdateImageBuffers, dmFXGetBufferFormat (3dm) - change the active size of a special effects buffer
dmG711MulawEncode, dmG711MulawDecode, dmG711MulawZeroTrapEncode, dmG711MulawZeroTrapDecode, dmG711AlawEncode, dmG711AlawDecode, dmG711MulawToAlaw, dmG711AlawToMulaw, dmSunMulawEncode, dmSunMulawDecode, dmNeXTMulawEncode, dmNeXTMulawDecode (3dm) - G.711 mu-law, A-law conversion routines
dmG722Decode (3dm) - implements the ITU (International Telecommunication Union) Recommendation G.722 decompression.
dmG722DecoderCreate (3dm) - allocate new DMG722decoder structure
dmG722DecoderDestroy (3dm) - deallocate an DMG722decoder
dmG722DecoderGetParams (3dm) - get G722 decoder parameter values
dmG722DecoderReset (3dm) - fill decoder internal buffers with zeros.
dmG722Encode (3dm) - implements the ITU (International Telecommunication Union) Recommendation G.722 compression.
dmG722EncoderCreate (3dm) - allocate new DMG722encoder structure
dmG722EncoderDestroy (3dm) - deallocate an DMG722encoder
dmG722EncoderGetParams (3dm) - get G722 encoder parameter values
dmG722EncoderReset (3dm) - fill encoder internal buffers with zeros.
dmG726Decode (3dm) - implements ITU (International Telecommunication Union) Recommendation G.726 ADPCM decompression for input compressed bit stream of 40, 32 ,24, or 16 kbit/s and output data of 64 kbit/s A-law, mu-law, or linear PCM. G.726 replaced G.721 and G.723.
dmG726DecoderCreate (3dm) - allocate new DMG726decoder structure
dmG726DecoderDestroy (3dm) - deallocate a DMG726decoder
dmG726DecoderGetParams (3dm) - get G726 decoder parameter values
dmG726DecoderReset (3dm) - fill decoder internal buffers with zeros.
dmG726DecoderSetParams (3dm) - set G726 decoder parameter values
dmG726Encode (3dm) - implements ITU (International Telecommunication Union) Recommendation G.726 ADPCM compression for input of 64 kbit/s A-law, mu- law, or linear data and output of compressed bit stream of 40, 32 ,24, or 16 kbit/s. G.726 replaced G.721 and G.723.
dmG726EncoderCreate (3dm) - allocate new DMG726encoder structure
dmG726EncoderDestroy (3dm) - deallocate a DMG726encoder
dmG726EncoderGetParams (3dm) - get G726 encoder parameter values
dmG726EncoderReset (3dm) - fill encoder internal buffers with zeros.
dmG726EncoderSetParams (3dm) - set G726 encoder parameter values
dmG728Decode (3dm) - implements the ITU (International Telecommunication Union) Recommendation G.728 decompression (LD-CELP).
dmG728DecoderCreate (3dm) - allocate new DMG728decoder structure
dmG728DecoderDestroy (3dm) - deallocate a DMG728decoder
dmG728DecoderGetParams (3dm) - get G728 decoder parameter values
dmG728DecoderReset (3dm) - fill decoder internal buffers with zeros.
dmG728DecoderSetParams (3dm) - set G728 decoder parameter values.
dmG728Encode (3dm) - implements the ITU (International Telecommunication Union) Recommendation G.728 compression (LD-CELP).
dmG728EncoderCreate (3dm) - allocate new DMG728encoder structure
dmG728EncoderDestroy (3dm) - deallocate a DMG728encoder
dmG728EncoderGetParams (3dm) - get G728 encoder parameter values
dmG728EncoderReset (3dm) - fill encoder internal buffers with zeros.
dmGetError, dmGetErrorForPID (3dm) - retrieve an error number, message, and detail for Digital Media errors
dmGetUST, dmGetUSTCurrentTimePair (3dm) - get digital media Unadjusted System Time (UST)
dmGSMDecode (3dm) - implements the European GSM 06.10 provisional standard for full-rate speech transcoding, prI-ETS 300 036, which uses RPE/LTP (regular pulse excitation/long term prediction) coding at 13 kbit/s.
dmGSMDecoderCreate (3dm) - allocate new DMGSMdecoder structure
dmGSMDecoderDestroy (3dm) - deallocate a DMGSMdecoder
dmGSMDecoderGetParams (3dm) - get GSM decoder parameter values
dmGSMDecoderReset (3dm) - fill decoder internal buffers with zeros.
dmGSMEncode (3dm) - implements the European GSM 06.10 provisional standard for full-rate speech transcoding, prI-ETS 300 036, which uses RPE/LTP (regular pulse excitation/long term prediction) coding at 13 kbit/s.
dmGSMEncoderCreate (3dm) - allocate new DMGSMencoder structure
dmGSMEncoderDestroy (3dm) - deallocate a DMGSMencoder
dmGSMEncoderGetParams (3dm) - get GSM encoder parameter values
dmGSMEncoderReset (3dm) - fill encoder internal buffers with zeros.
dmICAnyToAny, (3dm) - Any to Any image conversion utility function
dmICChooseConverter (3dm) - return an image converter that matches specified image parameters
dmICCreate, dmICDestroy (3dm) - create and destroy image converter context
dmICGetDstQueueFD, dmICGetSrcQueueFilled, dmICGetDstQueueFilled (3dm) - image converter queue management
dmICGetNum, dmICGetDescription (3dm) - find out about available image converters
dmICGetSrcPoolParams, dmICGetDstPoolParams, dmICSetDstPool (3dm) - get the input/output buffering needs of the image converter
dmICReceive, (3dm) - transfer output from the image converter
dmICSend, (3dm) - transfer input to the image converter context
dmICSetConvParams, dmICGetConvParams, dmICGetDefaultConvParams (3dm) - manipulate conversion controls of an image converter context
dmICSetDstParams, dmICGetDstParams, dmICGetDefaultDstParams (3dm) - manipulate image converter context dst image format
dmICSetSrcParams, dmICGetSrcParams, dmICGetDefaultSrcParams (3dm) - manipulate image converter context src image format
dmICWork, (3dm) - call the image converter and have it perform a task
dmLTCDecoderCreate, dmLTCDecoderSetParams, dmLTCDecode, dmLTCDecoderDestroy (3dm) - decode linear timecode (LTC)
dmMPEG1AudioDecode (3dm) - decodes a single compressed block of data created by a call to dmMPEG1AudioEncode(3dm).
dmMPEG1AudioDecoderCreate (3dm) - allocate new DMMPEG1audiodecoder structure.
dmMPEG1AudioDecoderDestroy (3dm) - deallocate a DMMPEG1audiodecoder
dmMPEG1AudioDecoderReset (3dm) - fill decoder internal buffers with zeros.
dmMPEG1AudioEncode (3dm) - Compresses a single block of audio data using MPEG1 audio compression algorithm.
dmMPEG1AudioEncoderCreate (3dm) - allocate new DMMPEG1audioencoder structure.
dmMPEG1AudioEncoderDestroy (3dm) - deallocate a DMMPEG1audioencoder
dmMPEG1AudioEncoderReset (3dm) - fill encoder internal buffers with zeros.
dmMPEG1AudioEncoderSetParams, dmMPEG1AudioDecoderSetParams, dmMPEG1AudioEncoderGetParams, dmMPEG1AudioDecoderGetParams (3dm) - set and query MPEG1 audio encoder/decoder parameter values.
dmMPEG1AudioFilterStateCreate, dmMPEG1AudioFilterStateDestroy (3dm) - allocates new or frees DMMPEG1audiofilterstate structure.
dmMPEG1AudioFilterStateSave, dmMPEG1AudioFilterStateRestore (3dm) - saves or restores encoder or decoder filter state.
dmMPEG1AudioHeaderGetBlockBytes (3dm) - gets expected length in bytes of any compressed data block.
dmMPEG1AudioHeaderGetParams (3dm) - get decoder parameter information from a header of any compressed MPEG1 audio data block.
dmNet, dmNetIntro (3dm) - Digital Media Network Library
dmNetConnect, dmNetListen, dmNetAccept, dmNetRegisterPool (3dm) - DMNetConnection connection management
dmNetDataFd (3dm) - return FD associated with a DMNetConnection
dmNetGetParams (3dm) - Get DMparams associated with a DMNetConnection
dmNetOpen, dmNetClose (3dm) - open/close a dmNet connection to another process
dmNetRegisterPool, dmNetRegisterBuffer (3dm) - register memory with dmNet
dmNetSend, dmNetRecv (3dm) - send and receive DMbuffers
dmParams: dmParamsCreate, dmParamsDestroy (3dm) - create and destroy digital media parameter/value lists
dmParamsFlatten, dmParamsUnflatten (3dm) - convert digital media parameter lists to and from byte strings
dmParamsGetElem, dmParamsGetElemType (3dm) - obsolete functions to get indexed elements in a digital media parameter/value list
dmParamsGetInt, dmParamsGetEnum, dmParamsGetString, dmParamsGetBinary, dmParamsGetFloat, dmParamsGetFract, dmParamsGetParams (3dm) - get values from digital media parameter/value lists
dmParamsGetIntArray, dmParamsGetEnumArray, dmParamsGetStringArray, dmParamsGetFloatArray, dmParamsGetFractArray (3dm) - get arrays of values from digital media parameter/value lists
dmParamsGetIntRange, dmParamsGetFloatRange, dmParamsGetFractRange (3dm) - get ranges of values from digital media parameter/value lists
dmParamsGetNumElems, dmParamsGetType, dmParamsIsPresent, dmParamsCopyElem, dmParamsCopyAllElems, dmParamsRemoveElem (3dm) - manipulate the contents of a digital media parameter/value list
dmParamsScan (3dm) - scan all entries of a digital media parameter/value list
dmParamsSetInt, dmParamsSetEnum, dmParamsSetString, dmParamsSetBinary, dmParamsSetFloat, dmParamsSetFract, dmParamsSetParams (3dm) - set values in digital media parameter/value lists
dmParamsSetIntArray, dmParamsSetEnumArray, dmParamsSetStringArray, dmParamsSetFloatArray, dmParamsSetFractArray (3dm) - set array values in digital media parameter/value lists
dmParamsSetIntRange, dmParamsSetFloatRange, dmParamsSetFractRange (3dm) - set range values in digital media parameter/value lists
dmPMConvertToByteStream (3dm) - saves away a special effect as a byte stream
dmPMCreateEffect, dmPMCreateEffectByName, dmPMDestroyEffect (3dm) - create and destroy special effects
dmPMCreateFromByteStream (3dm) - recreates a special effect from a byte stream
dmPMCreateManager, dmPMDestroyManager (3dm) - create and destroy special effects plugin-manager
dmPMGetAppShell (3dm) - retrieves the app shell widget used by the plugin- manager
dmPMGetDefaultPluginPathForType (3dm) - return the default path for plugins of a specific type
dmPMGetName, dmPMGetLocalName, dmPMGetPrefix, dmPMGetPathname, dmPMGetType (3dm) - retrieve the name, prefix, pathname or type of a plugin
dmPMGetPlugin, dmPMGetPluginByName, dmPMGetPluginByPathname, dmPMGetPluginFromEffect (3dm) - retrieve a pointer to a special effects plugin
dmPMGetPluginCount (3dm) - returns the number of initialized plugins
dmPMGetProperty (3dm) - retrieves a property of the specified plugin
dmPMGetSourceAUsage, dmPMGetSourceBUsage, dmPMGetDestUsage (3dm) - retrieves the usage bitmask of the plugin
dmPMHasDialog (3dm) - determine whether or not a plugin has a setup dialog
dmPMInitDirectory, dmPMInitDirectoryWithProgress (3dm) - initializes a directory of plugins
dmPMInitPlugin, dmPMFreePlugin, dmPMFreeAllPlugins (3dm) - initializes and frees plugins
dmPMProcessImageClip, dmPMProcessImageClipWithProgress (3dm) - apply special effects to movies
dmPMSetAudioCallback, dmPMSetVideoCallback (3dm) - sets the audio and video callbacks
dmPMSetupAudioFilter, dmPMExecuteAudioFilter, dmPMCleanupAudioFilter (3dm) - sets up, executes, and cleanups audio filters
dmPMSetupVideoFilter, dmPMExecuteVideoFilter, dmPMCleanupVideoFilter, dmPMBufferSetupVideoFilter, dmPMBufferExecuteVideoFilter (3dm) - sets up, executes, and cleanups video filters
dmPMSetupVideoTransition, dmPMExecuteVideoTransition, dmPMCleanupVideoTransition, dmPMBufferSetupVideoTransition, dmPMBufferExecuteVideoTransition (3dm) - sets up, executes, and cleanups video transitions
dmPMSortByName, dmPMSortByPrefix (3dm) - sorts the list of plugins stored in the plugin-manager
dmSetAudioDefaults, dmAudioFrameSize (3dm) - parameters for digital-media audio
dmSetImageDefaults, dmImageFrameSize (3dm) - parameters for digital-media images
dmTCAddTC, dmTCAddFrames (3dm) - digital media timecode mathematics
dmTCFramesBetween (3dm) - digital media timecode mathematics
dmTCFramesPerDay (3dm) - digital media timecode mathematics
dmTCToSeconds, dmTCFromSeconds (3dm) - digital media timecode mathematics
dmTCToString, dmTCFromString, DMtimecode, tc_type (3dm) - digital media timecode mathematics
dmVITCDecoderCreate, dmVITCDecoderSetStride, dmVITCDecode, dmVITCDecoderDestroy (3dm) - decode vertical interval timecode (VITC)
dnrm2, snrm2, zdnrm2, csnrm2 (3F) - BLAS level ONE Euclidean norm functions.
doconfig (3N) - execute a configuration script
DOPGTR (3F) - generate a real orthogonal matrix Q which is defined as the product of n-1 elementary reflectors H(i) of order n, as returned by DSPTRD using packed storage
DOPMTR (3F) - overwrite the general real M-by-N matrix C with SIDE = 'L' SIDE = 'R' TRANS = 'N'
dopup (3G) - displays the specified pop-up menu
dopup (3G) - displays the specified pop-up menu
DORG2L (3F) - generate an m by n real matrix Q with orthonormal columns,
DORG2R (3F) - generate an m by n real matrix Q with orthonormal columns,
DORGBR (3F) - generate one of the real orthogonal matrices Q or P**T determined by DGEBRD when reducing a real matrix A to bidiagonal form
DORGHR (3F) - generate a real orthogonal matrix Q which is defined as the product of IHI-ILO elementary reflectors of order N, as returned by DGEHRD
DORGL2 (3F) - generate an m by n real matrix Q with orthonormal rows,
DORGLQ (3F) - generate an M-by-N real matrix Q with orthonormal rows,
DORGQL (3F) - generate an M-by-N real matrix Q with orthonormal columns,
DORGQR (3F) - generate an M-by-N real matrix Q with orthonormal columns,
DORGR2 (3F) - generate an m by n real matrix Q with orthonormal rows,
DORGRQ (3F) - generate an M-by-N real matrix Q with orthonormal rows,
DORGTR (3F) - generate a real orthogonal matrix Q which is defined as the product of n-1 elementary reflectors of order N, as returned by DSYTRD
DORM2L (3F) - overwrite the general real m by n matrix C with Q * C if SIDE = 'L' and TRANS = 'N', or Q'* C if SIDE = 'L' and TRANS = 'T', or C * Q if SIDE = 'R' and TRANS = 'N', or C * Q' if SIDE = 'R' and TRANS = 'T',
DORM2R (3F) - overwrite the general real m by n matrix C with Q * C if SIDE = 'L' and TRANS = 'N', or Q'* C if SIDE = 'L' and TRANS = 'T', or C * Q if SIDE = 'R' and TRANS = 'N', or C * Q' if SIDE = 'R' and TRANS = 'T',
DORMBR (3F) - VECT = 'Q', DORMBR overwrites the general real M-by-N matrix C with SIDE = 'L' SIDE = 'R' TRANS = 'N'
DORMHR (3F) - overwrite the general real M-by-N matrix C with SIDE = 'L' SIDE = 'R' TRANS = 'N'
DORML2 (3F) - overwrite the general real m by n matrix C with Q * C if SIDE = 'L' and TRANS = 'N', or Q'* C if SIDE = 'L' and TRANS = 'T', or C * Q if SIDE = 'R' and TRANS = 'N', or C * Q' if SIDE = 'R' and TRANS = 'T',
DORMLQ (3F) - overwrite the general real M-by-N matrix C with SIDE = 'L' SIDE = 'R' TRANS = 'N'
DORMQL (3F) - overwrite the general real M-by-N matrix C with SIDE = 'L' SIDE = 'R' TRANS = 'N'
DORMQR (3F) - overwrite the general real M-by-N matrix C with SIDE = 'L' SIDE = 'R' TRANS = 'N'
DORMR2 (3F) - overwrite the general real m by n matrix C with Q * C if SIDE = 'L' and TRANS = 'N', or Q'* C if SIDE = 'L' and TRANS = 'T', or C * Q if SIDE = 'R' and TRANS = 'N', or C * Q' if SIDE = 'R' and TRANS = 'T',
DORMRQ (3F) - overwrite the general real M-by-N matrix C with SIDE = 'L' SIDE = 'R' TRANS = 'N'
DORMTR (3F) - overwrite the general real M-by-N matrix C with SIDE = 'L' SIDE = 'R' TRANS = 'N'
DOT_PRODUCT (3I) - Performs dot-product multiplication of numeric or logical vectors
double (3G) - sets the display mode to double buffer mode
doublebuffer (3G) - sets the display mode to double buffer mode
DPBCO (3F) - DPBCO factors a double precision symmetric positive definite matrix stored in band form and estimates the condition of the matrix.
DPBCON (3F) - estimate the reciprocal of the condition number (in the 1-norm) of a real symmetric positive definite band matrix using the Cholesky factorization A = U**T*U or A = L*L**T computed by DPBTRF
DPBDI (3F) - DPBDI computes the determinant of a double precision symmetric positive definite band matrix using the factors computed by DPBCO or DPBFA. If the inverse is needed, use DPBSL N times.
DPBEQU (3F) - compute row and column scalings intended to equilibrate a symmetric positive definite band matrix A and reduce its condition number (with respect to the two-norm)
DPBFA (3F) - DPBFA factors a double precision symmetric positive definite matrix stored in band form.
DPBRFS (3F) - improve the computed solution to a system of linear equations when the coefficient matrix is symmetric positive definite and banded, and provides error bounds and backward error estimates for the solution
DPBSL (3F) - DPBSL solves the double precision symmetric positive definite band system A*X = B using the factors computed by DPBCO or DPBFA.
DPBSTF (3F) - compute a split Cholesky factorization of a real symmetric positive definite band matrix A
DPBSV (3F) - compute the solution to a real system of linear equations A * X = B,
DPBSVX (3F) - use the Cholesky factorization A = U**T*U or A = L*L**T to compute the solution to a real system of linear equations A * X = B,
DPBTF2 (3F) - compute the Cholesky factorization of a real symmetric positive definite band matrix A
DPBTRF (3F) - compute the Cholesky factorization of a real symmetric positive definite band matrix A
DPBTRS (3F) - solve a system of linear equations A*X = B with a symmetric positive definite band matrix A using the Cholesky factorization A = U**T*U or A = L*L**T computed by DPBTRF
dplace_file, dplace_line, libdplace (3) - a library interface to dplace
DPOCO (3F) - DPOCO factors a double precision symmetric positive definite matrix and estimates the condition of the matrix.
DPOCON (3F) - estimate the reciprocal of the condition number (in the 1-norm) of a real symmetric positive definite matrix using the Cholesky factorization A = U**T*U or A = L*L**T computed by DPOTRF
DPODI (3F) - DPODI computes the determinant and inverse of a certain double precision symmetric positive definite matrix (see below) using the factors computed by DPOCO, DPOFA or DQRDC.
DPOEQU (3F) - compute row and column scalings intended to equilibrate a symmetric positive definite matrix A and reduce its condition number (with respect to the two-norm)
DPOFA (3F) - DPOFA factors a double precision symmetric positive definite matrix.
DPORFS (3F) - improve the computed solution to a system of linear equations when the coefficient matrix is symmetric positive definite,
DPOSL (3F) - DPOSL solves the double precision symmetric positive definite system A * X = B using the factors computed by DPOCO or DPOFA.
DPOSV (3F) - compute the solution to a real system of linear equations A * X = B,
DPOSVX (3F) - use the Cholesky factorization A = U**T*U or A = L*L**T to compute the solution to a real system of linear equations A * X = B,
DPOTF2 (3F) - compute the Cholesky factorization of a real symmetric positive definite matrix A
DPOTRF (3F) - compute the Cholesky factorization of a real symmetric positive definite matrix A
DPOTRI (3F) - compute the inverse of a real symmetric positive definite matrix A using the Cholesky factorization A = U**T*U or A = L*L**T computed by DPOTRF
DPOTRS (3F) - solve a system of linear equations A*X = B with a symmetric positive definite matrix A using the Cholesky factorization A = U**T*U or A = L*L**T computed by DPOTRF
DPPCO (3F) - DPPCO factors a double precision symmetric positive definite matrix stored in packed form and estimates the condition of the matrix.
DPPCON (3F) - estimate the reciprocal of the condition number (in the 1-norm) of a real symmetric positive definite packed matrix using the Cholesky factorization A = U**T*U or A = L*L**T computed by DPPTRF
DPPDI (3F) - DPPDI computes the determinant and inverse of a double precision symmetric positive definite matrix using the factors computed by DPPCO or DPPFA .
DPPEQU (3F) - compute row and column scalings intended to equilibrate a symmetric positive definite matrix A in packed storage and reduce its condition number (with respect to the two-norm)
DPPFA (3F) - DPPFA factors a double precision symmetric positive definite matrix stored in packed form.
DPPRFS (3F) - improve the computed solution to a system of linear equations when the coefficient matrix is symmetric positive definite and packed, and provides error bounds and backward error estimates for the solution
DPPSL (3F) - DPPSL solves the double precision symmetric positive definite system A * X = B using the factors computed by DPPCO or DPPFA.
DPPSV (3F) - compute the solution to a real system of linear equations A * X = B,
DPPSVX (3F) - use the Cholesky factorization A = U**T*U or A = L*L**T to compute the solution to a real system of linear equations A * X = B,
DPPTRF (3F) - compute the Cholesky factorization of a real symmetric positive definite matrix A stored in packed format
DPPTRI (3F) - compute the inverse of a real symmetric positive definite matrix A using the Cholesky factorization A = U**T*U or A = L*L**T computed by DPPTRF
DPPTRS (3F) - solve a system of linear equations A*X = B with a symmetric positive definite matrix A in packed storage using the Cholesky factorization A = U**T*U or A = L*L**T computed by DPPTRF
dprod, qprod (3F) - FORTRAN double precision and quad precision product intrinsic functions
DPTCON (3F) - compute the reciprocal of the condition number (in the 1-norm) of a real symmetric positive definite tridiagonal matrix using the factorization A = L*D*L**T or A = U**T*D*U computed by DPTTRF
DPTEQR (3F) - compute all eigenvalues and, optionally, eigenvectors of a symmetric positive definite tridiagonal matrix by first factoring the matrix using DPTTRF, and then calling DBDSQR to compute the singular values of the bidiagonal factor
DPTRFS (3F) - improve the computed solution to a system of linear equations when the coefficient matrix is symmetric positive definite and tridiagonal, and provides error bounds and backward error estimates for the solution
DPTSL (3F) - DPTSL, given a positive definite symmetric tridiagonal matrix and a right hand side, will find the solution.
DPTSV (3F) - compute the solution to a real system of linear equations A*X = B, where A is an N-by-N symmetric positive definite tridiagonal matrix, and X and B are N-by-NRHS matrices
DPTSVX (3F) - use the factorization A = L*D*L**T to compute the solution to a real system of linear equations A*X = B, where A is an N-by-N symmetric positive definite tridiagonal matrix and X and B are N-by-NRHS matrices
DPTTRF (3F) - compute the factorization of a real symmetric positive definite tridiagonal matrix A
DPTTRS (3F) - solve a system of linear equations A * X = B with a symmetric positive definite tridiagonal matrix A using the factorization A = L*D*L**T or A = U**T*D*U computed by DPTTRF
DQRDC (3F) - DQRDC uses Householder transformations to compute the QR factorization of an N by P matrix X. Column pivoting based on the 2- norms of the reduced columns may be performed at the user's option.
DQRSL (3F) - DQRSL applies the output of DQRDC to compute coordinate transformations, projections, and least squares solutions. For K .LE. MIN(N,P), let XK be the matrix
drand48, erand48, lrand48, nrand48, mrand48, jrand48, srand48, seed48, lcong48 (3C) - generate uniformly distributed pseudo-random numbers
draw, drawi, draws, draw2, draw2i, draw2s (3G) - draws a line
draw, drawi, draws, draw2, draw2i, draw2s (3G) - draws a line
drawmo (3G) - selects which GL framebuffer is drawable
drawmode (3G) - selects which GL framebuffer is drawable
drotg, srotg, drot, srot (3F) - BLAS level ONE rotation subroutines
drotm, srotm (3F) - BLAS Level-1. Applies a modified Givens rotation.
drotmg, srotmg (3F) - BLAS Level-1. Compute the elements of a modified Givens plane rotation.
DRSCL (3F) - multiplie an n-element real vector x by the real scalar 1/a
DSBEV (3F) - compute all the eigenvalues and, optionally, eigenvectors of a real symmetric band matrix A
DSBEVD (3F) - compute all the eigenvalues and, optionally, eigenvectors of a real symmetric band matrix A
DSBEVX (3F) - compute selected eigenvalues and, optionally, eigenvectors of a real symmetric band matrix A
DSBGST (3F) - reduce a real symmetric-definite banded generalized eigenproblem A*x = lambda*B*x to standard form C*y = lambda*y,
DSBGV (3F) - compute all the eigenvalues, and optionally, the eigenvectors of a real generalized symmetric-definite banded eigenproblem, of the form A*x=(lambda)*B*x
dsbmv, ssbmv, zhbmv, chbmv (3F) - BLAS Level Two (Symmetric/Hermitian) Banded Matrix - Vector Product
DSBTRD (3F) - reduce a real symmetric band matrix A to symmetric tridiagonal form T by an orthogonal similarity transformation
dscal, sscal, zscal, cscal, zdscal, csscal (3F) - BLAS level ONE scaling subroutines
dsecnd.z - (no summary available)
DSICO (3F) - DSICO factors a double precision symmetric matrix by elimination with symmetric pivoting and estimates the condition of the matrix.
DSIDI (3F) - DSIDI computes the determinant, inertia and inverse of a double precision symmetric matrix using the factors from DSIFA.
DSIFA (3F) - DSIFA factors a double precision symmetric matrix by elimination with symmetric pivoting.
DSISL (3F) - DSISL solves the double precision symmetric system A * X = B using the factors computed by DSIFA.
dslib: dsopen, dsclose (3X) - communicate with generic SCSI devices
DSPCO (3F) - DSPCO factors a double precision symmetric matrix stored in packed form by elimination with symmetric pivoting and estimates the condition of the matrix.
DSPCON (3F) - estimate the reciprocal of the condition number (in the 1-norm) of a real symmetric packed matrix A using the factorization A = U*D*U**T or A = L*D*L**T computed by DSPTRF
DSPDI (3F) - DSPDI computes the determinant, inertia and inverse of a double precision symmetric matrix using the factors from DSPFA, where the matrix is stored in packed form.
DSPEV (3F) - compute all the eigenvalues and, optionally, eigenvectors of a real symmetric matrix A in packed storage
DSPEVD (3F) - compute all the eigenvalues and, optionally, eigenvectors of a real symmetric matrix A in packed storage
DSPEVX (3F) - compute selected eigenvalues and, optionally, eigenvectors of a real symmetric matrix A in packed storage
DSPFA (3F) - DSPFA factors a double precision symmetric matrix stored in packed form by elimination with symmetric pivoting.
DSPGST (3F) - reduce a real symmetric-definite generalized eigenproblem to standard form, using packed storage
DSPGV (3F) - compute all the eigenvalues and, optionally, the eigenvectors of a real generalized symmetric-definite eigenproblem, of the form A*x=(lambda)*B*x, A*Bx=(lambda)*x, or B*A*x=(lambda)*x
dspmv, sspmv, zhpmv, chpmv (3F) - BLAS Level Two (Symmetric/Hermitian) Packed Matrix - Vector Product
dspr, sspr, zhpr, chpr (3F) - BLAS Level Two Symmetric Packed Matrix Rank 1 Update
dspr2, sspr2, zhpr2, chpr2 (3F) - BLAS Level Two Symmetric Packed Matrix Rank 2 Update
DSPRFS (3F) - improve the computed solution to a system of linear equations when the coefficient matrix is symmetric indefinite and packed, and provides error bounds and backward error estimates for the solution
DSPSL (3F) - DSISL solves the double precision symmetric system A * X = B using the factors computed by DSPFA.
DSPSV (3F) - compute the solution to a real system of linear equations A * X = B,
DSPSVX (3F) - use the diagonal pivoting factorization A = U*D*U**T or A = L*D*L**T to compute the solution to a real system of linear equations A * X = B, where A is an N-by-N symmetric matrix stored in packed format and X and B are N-by-NRHS matrices
DSPTRD (3F) - reduce a real symmetric matrix A stored in packed form to symmetric tridiagonal form T by an orthogonal similarity transformation
DSPTRF (3F) - compute the factorization of a real symmetric matrix A stored in packed format using the Bunch-Kaufman diagonal pivoting method
DSPTRI (3F) - compute the inverse of a real symmetric indefinite matrix A in packed storage using the factorization A = U*D*U**T or A = L*D*L**T computed by DSPTRF
DSPTRS (3F) - solve a system of linear equations A*X = B with a real symmetric matrix A stored in packed format using the factorization A = U*D*U**T or A = L*D*L**T computed by DSPTRF
DSTEBZ (3F) - compute the eigenvalues of a symmetric tridiagonal matrix T
DSTEDC (3F) - compute all eigenvalues and, optionally, eigenvectors of a symmetric tridiagonal matrix using the divide and conquer method
DSTEIN (3F) - compute the eigenvectors of a real symmetric tridiagonal matrix T corresponding to specified eigenvalues, using inverse iteration
DSTEQR (3F) - compute all eigenvalues and, optionally, eigenvectors of a symmetric tridiagonal matrix using the implicit QL or QR method
DSTERF (3F) - compute all eigenvalues of a symmetric tridiagonal matrix using the Pal-Walker-Kahan variant of the QL or QR algorithm
DSTEV (3F) - compute all eigenvalues and, optionally, eigenvectors of a real symmetric tridiagonal matrix A
DSTEVD (3F) - compute all eigenvalues and, optionally, eigenvectors of a real symmetric tridiagonal matrix
DSTEVX (3F) - compute selected eigenvalues and, optionally, eigenvectors of a real symmetric tridiagonal matrix A
DSVDC (3F) - DSVDC is a subroutine to reduce a double precision NxP matrix X by orthogonal transformations U and V to diagonal form. The diagonal elements S(I) are the singular values of X. The columns of U are the corresponding left singular vectors, and the columns of V the right singular vectors.
dswap, sswap, zswap, cswap (3F) - BLAS level ONE swap subroutines
DSYCON (3F) - estimate the reciprocal of the condition number (in the 1-norm) of a real symmetric matrix A using the factorization A = U*D*U**T or A = L*D*L**T computed by DSYTRF
DSYEV (3F) - compute all eigenvalues and, optionally, eigenvectors of a real symmetric matrix A
DSYEVD (3F) - compute all eigenvalues and, optionally, eigenvectors of a real symmetric matrix A
DSYEVX (3F) - compute selected eigenvalues and, optionally, eigenvectors of a real symmetric matrix A
DSYGS2 (3F) - reduce a real symmetric-definite generalized eigenproblem to standard form
DSYGST (3F) - reduce a real symmetric-definite generalized eigenproblem to standard form
DSYGV (3F) - compute all the eigenvalues, and optionally, the eigenvectors of a real generalized symmetric-definite eigenproblem, of the form A*x=(lambda)*B*x, A*Bx=(lambda)*x, or B*A*x=(lambda)*x
dsymm, ssymm, zsymm, csymm (3F) - BLAS level three Symmetric Matrix Product
dsymv, ssymv, zhemv, chemv (3F) - BLAS Level Two (Symmetric/Hermitian)Matrix - Vector Product
dsyr, ssyr, zher, cher (3F) - BLAS Level Two (Symmetric/Hermitian)Matrix Rank 1 Update
dsyr2, ssyr2, zher2, cher2 (3F) - BLAS Level Two (Symmetric/Hermitian)Matrix Rank 2 Update
dsyr2k, ssyr2k, zsyr2k, csyr2k (3F) - BLAS level three Symmetric Rank 2K Update.
DSYRFS (3F) - improve the computed solution to a system of linear equations when the coefficient matrix is symmetric indefinite, and provides error bounds and backward error estimates for the solution
dsyrk, ssyrk, zsyrk, csyrk (3F) - BLAS level three Symmetric Rank K Update.
DSYSV (3F) - compute the solution to a real system of linear equations A * X = B,
DSYSVX (3F) - use the diagonal pivoting factorization to compute the solution to a real system of linear equations A * X = B,
DSYTD2 (3F) - reduce a real symmetric matrix A to symmetric tridiagonal form T by an orthogonal similarity transformation
DSYTF2 (3F) - compute the factorization of a real symmetric matrix A using the Bunch-Kaufman diagonal pivoting method
DSYTRD (3F) - reduce a real symmetric matrix A to real symmetric tridiagonal form T by an orthogonal similarity transformation
DSYTRF (3F) - compute the factorization of a real symmetric matrix A using the Bunch-Kaufman diagonal pivoting method
DSYTRI (3F) - compute the inverse of a real symmetric indefinite matrix A using the factorization A = U*D*U**T or A = L*D*L**T computed by DSYTRF
DSYTRS (3F) - solve a system of linear equations A*X = B with a real symmetric matrix A using the factorization A = U*D*U**T or A = L*D*L**T computed by DSYTRF
DTaddcallback (3dm) - set a callback for the DAT audio data parser
DTatohmsf (3dm) - convert ASCII string to hours, minutes, seconds, frames
DTatotime (3dm) - convert ASCII string to timecode
DTBCON (3F) - estimate the reciprocal of the condition number of a triangular band matrix A, in either the 1-norm or the infinity-norm
dtbmv, stbmv, ztbmv, ctbmv, dtbsv, stbsv, ztbsv, ctbsv (3F) - BLAS Level Two Matrix-Vector Product and Solution of System of Equations.
DTBRFS (3F) - provide error bounds and backward error estimates for the solution to a system of linear equations with a triangular band coefficient matrix
DTBTRS (3F) - solve a triangular system of the form A * X = B or A**T * X = B,
DTcreateparser (3dm) - creates a DAT audio data parser
DTdeleteparser (3dm) - deletes a DAT audio data parser
DTframetohmsf (3dm) - convert DAT frame number to hours, minutes, seconds, frame
DTframetotc (3dm) - convert frame number to timecode
DTGEVC (3F) - compute some or all of the right and/or left generalized eigenvectors of a pair of real upper triangular matrices (A,B)
DTGSJA (3F) - compute the generalized singular value decomposition (GSVD) of two real upper triangular (or trapezoidal) matrices A and B
DThmsftoframe (3dm) - convert hours, minutes, seconds, frame to DAT frame number.
DTinctime (3dm) - increment a DAT time code
DTintro (3dm) - Introduction to the Silicon Graphics DAT Audio Library (DT)
DTparseframe (3dm) - parse a frame of DAT audio data
DTPCON (3F) - estimate the reciprocal of the condition number of a packed triangular matrix A, in either the 1-norm or the infinity-norm
dtpmv, stpmv, ztpmv, ctpmv, dtpsv, stpsv, ztpsv, ctpsv (3F) - BLAS Level Two Matrix-Vector Product and Solution of System of Equations
DTpnotodec (3dm) - convert BCD program number to decimal
DTPRFS (3F) - provide error bounds and backward error estimates for the solution to a system of linear equations with a triangular packed coefficient matrix
DTPTRI (3F) - compute the inverse of a real upper or lower triangular matrix A stored in packed format
DTPTRS (3F) - solve a triangular system of the form A * X = B or A**T * X = B,
DTRCO (3F) - DTRCO estimates the condition of a double precision triangular matrix.
DTRCON (3F) - estimate the reciprocal of the condition number of a triangular matrix A, in either the 1-norm or the infinity-norm
DTRDI (3F) - DTRDI computes the determinant and inverse of a double precision triangular matrix.
DTremovecallback (3dm) - remove a callback from the DAT audio data parser
DTresetparser (3dm) - resets a DAT audio data parser
DTREVC (3F) - compute some or all of the right and/or left eigenvectors of a real upper quasi-triangular matrix T
DTREXC (3F) - reorder the real Schur factorization of a real matrix A = Q*T*Q**T, so that the diagonal block of T with row index IFST is moved to row ILST
dtrmm, strmm, ztrmm, ctrmm (3F) - BLAS level three Matrix Product
dtrmv, strmv, ztrmv, ctrmv, dtrsv, strsv, ztrsv, ctrsv (3F) - BLAS Level Two Matrix-Vector Product and Solution of system of equations.
DTRRFS (3F) - provide error bounds and backward error estimates for the solution to a system of linear equations with a triangular coefficient matrix
DTRSEN (3F) - reorder the real Schur factorization of a real matrix A = Q*T*Q**T, so that a selected cluster of eigenvalues appears in the leading diagonal blocks of the upper quasi-triangular matrix T,
DTRSL (3F) - DTRSL solves systems of the form
dtrsm, strsm, ztrsm, ctrsm (3F) - BLAS level three Solution of Systems of Equations
DTRSNA (3F) - estimate reciprocal condition numbers for specified eigenvalues and/or right eigenvectors of a real upper quasi-triangular matrix T (or of any matrix Q*T*Q**T with Q orthogonal)
DTRSYL (3F) - solve the real Sylvester matrix equation
DTRTI2 (3F) - compute the inverse of a real upper or lower triangular matrix
DTRTRI (3F) - compute the inverse of a real upper or lower triangular matrix A
DTRTRS (3F) - solve a triangular system of the form A * X = B or A**T * X = B,
DTsbtoa (3dm) - convert six-bit country and owner codes to ASCII string
DTsetdate (3dm) - set a date pack to the current time
DTtctoframe (3dm) - convert DAT timecode structure to DAT frame number.
DTtcvalid (3dm) - check a dat timecode for validity
DTtimetoa (3dm) - convert timecode to ASCII string
DTZRQF (3F) - reduce the M-by-N ( M<=N ) real upper trapezoidal matrix A to upper triangular form by means of orthogonal transformations
dup2 (3C) - duplicate an open file descriptor
DynaLoader (3) - Dynamically load C libraries into Perl code
DZSUM1 (3F) - take the sum of the absolute values of a complex vector and returns a double precision result

E

ecvt, fcvt, gcvt, ecvt_r, fcvt_r, ecvtl, fcvtl, gcvtl, ecvtl_r, fcvtl_r (3C) - convert floating-point number to string
editob (3G) - opens an object definition for editing
editobj (3G) - opens an object definition for editing
elf (3E) - object file access library
elf_begin (3E) - make a file descriptor
elf_cntl (3E) - control a file descriptor
elf_end (3E) - finish using an object file
elf_errmsg, elf_errno (3E) - error handling
elf_fill (3E) - set fill byte
elf_flagdata, elf_flagehdr, elf_flagelf, elf_flagphdr, elf_flagscn, elf_flagshdr (3E) - manipulate flags
elf_fsize: elf32_fsize elf64_fsize (3E) - return the size of an object file type
elf_getarhdr (3E) - retrieve archive member header
elf_getarsym (3E) - retrieve archive symbol table
elf_getbase (3E) - get the base offset for an object file
elf_getdata, elf_newdata, elf_rawdata (3E) - get section data
elf_getehdr: elf32_getehdr, elf32_newehdr, elf64_getehdr, elf64_newehdr (3E) - retrieve class-dependent object file header
elf_getident (3E) - retrieve file identification data
elf_getphdr: elf32_getphdr, elf32_newphdr, elf64_getphdr, elf64_newphdr (3E) - retrieve class-dependent program header table
elf_getscn, elf_ndxscn, elf_newscn, elf_nextscn (3E) - get section information
elf_getshdr: elf32_getshdr, elf64_getshdr (3E) - retrieve class-dependent section header
elf_hash (3E) - compute hash value
elf_kind (3E) - determine file type
elf_next (3E) - sequential archive member access
elf_rand (3E) - random archive member access
elf_rawfile (3E) - retrieve uninterpreted file contents
elf_strptr (3E) - make a string pointer
elf_update (3E) - update an ELF descriptor
elf_version (3E) - coordinate ELF library and application versions
elf_xlate: elf32_xlatetof, elf32_xlatetom,elf64_xlatetof, elf64_xlatetom (3E) - class-dependent data translation
ELMBAK, SELMBAK (3F) - EISPACK routine. This subroutine forms the eigenvectors of a REAL GENERAL matrix by back transforming those of the corresponding upper Hessenberg matrix determined by ELMHES.
elmhes, selmhes (3F) - EISPACK routine. Given a REAL GENERAL matrix, this subroutine reduces a submatrix situated in rows and columns LOW through IGH to upper Hessenberg form by stabilized elementary similarity transformations.
ELTRAN, SELTRAN (3F) - EISPACK routine. This subroutine accumulates the stabilized elementary similarity transformations used in the reduction of a REAL GENERAL matrix to upper Hessenberg form by ELMHES.
ENABLE_IEEE_INTERRUPT (3I) - Enables floating-point interrupt
end, etext, edata, _end, _etext, _edata, eprol, _ftext, _fdata, _fbss, _rt_symbol_table, _rt_symbol_table_size, _rt_symbol_string_table, _procedure_table, _procedure_table_size, _procedure_string_table, _DYNAMIC, _DYNAMIC_LNK, _DYNAMIC_LINKING, _BASE_ADDRESS, _GOT_OFFSET, _gp, _gp_disp, __rld_obj_head, _rld_new_interface, __elf_header, __program_header_table, __dso_displacement, _lib_version, __lcldta_address, __lcldta_size, (3C) - loader defined symbols in a program
endful (3G) - ends full-screen mode
endfullscrn (3G) - ends full-screen mode
endpic (3G) - turns off picking mode
endpick (3G) - turns off picking mode
endsel (3G) - turns off selecting mode
endselect (3G) - turns off selecting mode
English (3) - use nice English (or awk) names for ugly punctuation variables
entry (3Tk) - Create and manipulate entry widgets
Env (3) - perl module that imports environment variables
eof (3Tcl) - Check for end-of-file condition on open file
EOSHIFT (3I) - Performs an end-off shift on an array expression
ep: epbase, epprec, epemin, epemax, eptiny, ephuge, epmrsp (3F) - FORTRAN numeric characteristic constants
EPSILON (3I) - Returns a positive number near 1 in the numeric model
EPSLON, SEPSLON (3F) - EISPACK auxiliary routine.
EQV (3M) - Computes logical equivalence
erf, erfc, derf, derfc, qerf, qerfc (3F) - error function and complementary error function
erf, erfc, erfl, erfcl (3M) - error function and complementary error function
error (3Tcl) - Generate an error
ether_ntoa, ether_aton, ether_ntohost, ether_hostton, ether_line (3Y) - ethernet address mapping operations
etime, dtime (3F) - return user+system execution time
eval (3Tcl) - Evaluate a Tcl script
EventMon API (3X) - Programmer's Guide
exc_resume, exc_setjmp, find_fde, find_fde_name, exc_unwind, exc_unwind_name (3C) - exception handling facility
exec (3Tcl) - Invoke subprocess(es)
EXIT (3F) - Exits from a Fortran program
exit (3Tcl) - End the application
exit (3Tk) - Exit the process
EXP, DEXP, CEXP, CDEXP (3M) - Computes exponential function
exp, dexp, qexp, cexp, zexp (3F) - FORTRAN exponential intrinsic function
exp, expm1, log, log10, log1p, pow, fexp, expf, fexpm1, expm1f, flog, logf, flog10, log10f, flog1p, log1pf, fpow, powf, expl, expm1l, logl, log10l, log1pl, powl (3M) - exponential, logarithm, power
exp, log, pow, sqrt (3C++) - exponential, logarithm, power, square root functions for the C++ complex library
expect (3Tcl) - C functions for programmed dialogue with interactive programs
EXPONENT (3I) - Returns the exponent part of the argument when represented as a numeric model number
exportent, getexportent, setexportent, addexportent, remexportent, endexportent, getexportopt (3) - get exported file system information
Exporter (3) - Implements default import method for modules
expr (3Tcl) - Evaluate an expression
ExtUtils::Command (3) - utilities to replace common UNIX commands in Makefiles etc.
ExtUtils::Embed (3) - Utilities for embedding Perl in C/C++ applications
ExtUtils::Install (3) - install files from here to there
ExtUtils::Liblist (3) - determine libraries to use and how to use them
ExtUtils::MakeMaker (3) - create an extension Makefile
ExtUtils::Manifest (3) - utilities to write and check a MANIFEST file
ExtUtils::Miniperl, writemain (3) - write the C code for perlmain.c
ExtUtils::Mkbootstrap (3) - make a bootstrap file for use by DynaLoader
ExtUtils::Mksymlists (3) - write linker options files for dynamic extension
ExtUtils::MM_OS2 (3) - methods to override UN*X behaviour in ExtUtils::MakeMaker
ExtUtils::MM_Unix (3) - methods used by ExtUtils::MakeMaker
ExtUtils::MM_VMS (3) - methods to override UN*X behaviour in ExtUtils::MakeMaker
ExtUtils::MM_Win32 (3) - methods to override UN*X behaviour in ExtUtils::MakeMaker
ExtUtils::testlib (3) - add blib/* directories to @INC

F

fam (3X) - File Alteration Monitor (FAM) library routines
fattach (3C) - attach a STREAMS-based file descriptor to an object in the filesystem name space
fbsubtexload (3G) - load part or all of a texture defined with TX_FASTDEFINE
fbtxld (3G) - load part or all of a texture defined with TX_FASTDEFINE
FCD (3I) - Constructs a Cray character pointer in Fortran character Descriptor (FCD) format
fclose, fflush (3S) - close or flush a stream
Fcntl (3) - load the C Fcntl.h defines
fdate (3F) - return date and time in an ASCII string
fdetach (3C) - detach a name from a STREAMS-based file descriptor
feedba, endfee (3G) - control feedback mode
feedba, endfee (3G) - control feedback mode
feedback, endfeedback (3G) - control feedback mode
feedback, endfeedback (3G) - control feedback mode
ferror, feof, clearerr, fileno (3S) - stream status inquiries
ffassign (3C) - Provides library interface to assign processing
fffcntl (3C) - Performs functions on files opened using flexible file I/O
ffopen, ffopens, ffclose, ffopenf, ffclosef (3C) - Opens or closes a file using flexible file I/O
ffpos (3C) - Positions files opened using flexible file I/O
ffread, ffwrite, ffweof, ffweod, ffreadf, ffwritef, ffweodf, ffweoff, ffflush (3C) - Provides flexible file I/O
ffseek, ffbksp, ffseekf, ffbkspf (3C) - Repositions a flexible file I/O file
FFT, libfft (3F) - libcomplib.sgimath - Fast Fourier Transforms
fglAccum (3G) - operate on the accumulation buffer
fglAlphaFunc (3G) - specify the alpha test function
fglAreTexturesResident (3G) - determine if textures are loaded in texture memory
fglAreTexturesResidentEXT (3G) - determine if textures are loaded in texture memory
fglArrayElement (3G) - render a vertex using the specified vertex array element
fglArrayElementEXT (3G) - specify the array elements used to render a vertex
fglBegin, fglEnd (3G) - delimit the vertices of a primitive or a group of like primitives
fglBindTexture (3G) - bind a named texture to a texturing target
fglBindTextureEXT (3G) - bind a named texture to a texturing target
fglBitmap (3G) - draw a bitmap
fglBlendColorEXT (3G) - set the blend color
fglBlendEquationEXT (3G) - set the blend equation
fglBlendFunc (3G) - specify pixel arithmetic
fglCallList (3G) - execute a display list
fglCallLists (3G) - execute a list of display lists
fglClear (3G) - clear buffers to preset values
fglClearAccum (3G) - specify clear values for the accumulation buffer
fglClearColor (3G) - specify clear values for the color buffers
fglClearDepth (3G) - specify the clear value for the depth buffer
fglClearIndex (3G) - specify the clear value for the color index buffers
fglClearStencil (3G) - specify the clear value for the stencil buffer
fglClipPlane (3G) - specify a plane against which all geometry is clipped
fglColor3b, fglColor3d, fglColor3f, fglColor3i, fglColor3s, fglColor3ub, fglColor3ui, fglColor3us, fglColor4b, fglColor4d, fglColor4f, fglColor4i, fglColor4s, fglColor4ub, fglColor4ui, fglColor4us, fglColor3bv, fglColor3dv, fglColor3fv, fglColor3iv, fglColor3sv, fglColor3ubv, fglColor3uiv, fglColor3usv, fglColor4bv, fglColor4dv, fglColor4fv, fglColor4iv, fglColor4sv, fglColor4ubv, fglColor4uiv, fglColor4usv (3G) - set the current color
fglColorMask (3G) - enable and disable writing of frame buffer color components
fglColorMaterial (3G) - cause a material color to track the current color
fglColorPointer (3G) - define an array of colors
fglColorPointerEXT (3G) - define a array of colors
fglColorTableParameterfvSGI, fglColorTableParameterivSGI (3G) - set color lookup table parameters
fglColorTableSGI (3G) - define a color lookup table
fglConvolutionFilter1DEXT (3G) - define a one-dimensional convolution filter
fglConvolutionFilter2DEXT (3G) - define a two-dimensional convolution filter
fglConvolutionParameterfEXT, fglConvolutionParameteriEXT, fglConvolutionParameterfvEXT, fglConvolutionParameterivEXT (3G) - set convolution parameters
fglCopyColorTableSGI (3G) - copy pixels into a color table
fglCopyConvolutionFilter1DEXT (3G) - copy pixels into a one-dimensional convolution filter
fglCopyConvolutionFilter2DEXT (3G) - copy pixels into a two-dimensional convolution filter
fglCopyPixels (3G) - copy pixels in the frame buffer
fglCopyTexImage1D (3G) - copy pixels into a 1D texture image
fglCopyTexImage1DEXT (3G) - copy pixels into a 1D texture image
fglCopyTexImage2D (3G) - copy pixels into a 2D texture image
fglCopyTexImage2DEXT (3G) - copy pixels into a 2D texture image
fglCopyTexSubImage1D (3G) - copy a one-dimensional texture subimage
fglCopyTexSubImage1DEXT (3G) - copy pixels into a 1D texture subimage
fglCopyTexSubImage2D (3G) - copy a two-dimensional texture subimage
fglCopyTexSubImage2DEXT (3G) - copy pixels into a 2D texture subimage
fglCopyTexSubImage3DEXT (3G) - copy pixels into a 3D texture subimage
fglCullFace (3G) - specify whether front- or back-facing facets can be culled
fglDeleteLists (3G) - delete a contiguous group of display lists
fglDeleteTextures (3G) - delete named textures
fglDeleteTexturesEXT (3G) - delete named textures
fglDepthFunc (3G) - specify the value used for depth buffer comparisons
fglDepthMask (3G) - enable or disable writing into the depth buffer
fglDepthRange (3G) - specify mapping of depth values from normalized device coordinates to window coordinates
fglDetailTexFuncSGIS (3G) - specify detail texture scaling function
fglDrawArrays (3G) - render primitives from array data
fglDrawArraysEXT (3G) - render primitives from array data
fglDrawBuffer (3G) - specify which color buffers are to be drawn into
fglDrawElements (3G) - render primitives from array data
fglDrawPixels (3G) - write a block of pixels to the frame buffer
fglEdgeFlag, fglEdgeFlagv (3G) - flag edges as either boundary or nonboundary
fglEdgeFlagPointer (3G) - define an array of edge flags
fglEdgeFlagPointerEXT (3G) - define an array of edge flags
fglEnable, fglDisable (3G) - enable or disable server-side GL capabilities
fglEnableClientState, fglDisableClientState (3G) - enable or disable client- side capability
fglEvalCoord1d, fglEvalCoord1f, fglEvalCoord2d, fglEvalCoord2f, fglEvalCoord1dv, fglEvalCoord1fv, fglEvalCoord2dv, fglEvalCoord2fv (3G) - evaluate enabled one- and two-dimensional maps
fglEvalMesh1, fglEvalMesh2 (3G) - compute a one- or two-dimensional grid of points or lines
fglEvalPoint1, fglEvalPoint2 (3G) - generate and evaluate a single point in a mesh
fglFeedbackBuffer (3G) - controls feedback mode
fglFinish (3G) - block until all GL execution is complete
fglFlush (3G) - force execution of GL commands in finite time
fglFlushRasterSGIX (3G) - complete rasterization of previous GL commands
fglFogf, fglFogi, fglFogfv, fglFogiv (3G) - specify fog parameters
fglFogFuncSGIS (3G) - custom fog blending function
fglFrontFace (3G) - define front- and back-facing polygons
fglFrustum (3G) - multiply the current matrix by a perspective matrix
fglGenLists (3G) - generate a contiguous set of empty display lists
fglGenTextures (3G) - generate texture names
fglGenTexturesEXT (3G) - generate texture names
fglGetBooleanv, fglGetDoublev, fglGetFloatv, fglGetIntegerv (3G) - return the value or values of a selected parameter
fglGetClipPlane (3G) - return the coefficients of the specified clipping plane
fglGetColorTableParameterfvSGI, fglGetColorTableParameterivSGI (3G) - get color lookup table parameters
fglGetColorTableSGI (3G) - retrieve contents of a color lookup table
fglGetConvolutionFilterEXT (3G) - get current 1D or 2D convolution filter kernel
fglGetConvolutionParameterfvEXT, fglGetConvolutionParameterivEXT (3G) - get convolution parameters
fglGetDetailTexFuncSGIS (3G) - get detail texture scaling function
fglGetError (3G) - return error information
fglGetHistogramEXT (3G) - get histogram table
fglGetHistogramParameterfvEXT, fglGetHistogramParameterivEXT (3G) - get histogram parameters
fglGetLightfv, fglGetLightiv (3G) - return light source parameter values
fglGetListParameterfvSGIX, fglGetListParameterivSGIX (3G) - retrieve display list parameters
fglGetMapdv, fglGetMapfv, fglGetMapiv (3G) - return evaluator parameters
fglGetMaterialfv, fglGetMaterialiv (3G) - return material parameters
fglGetMinmaxEXT (3G) - get minimum and maximum pixel values
fglGetMinmaxParameterfvEXT, fglGetMinmaxParameterivEXT (3G) - get minmax parameters
fglGetPixelMapfv, fglGetPixelMapuiv, fglGetPixelMapusv (3G) - return the specified pixel map
fglGetPointerv (3G) - return the address of the specified pointer
fglGetPointervEXT (3G) - return the address of a buffer or vertex array
fglGetPolygonStipple (3G) - return the polygon stipple pattern
fglGetSeparableFilterEXT (3G) - get separable convolution filter kernel images
fglGetSharpenTexFuncSGIS (3G) - get sharpen texture scaling function
fglGetString (3G) - returns a string describing the current GL connection
fglGetTexEnvfv, fglGetTexEnviv (3G) - return texture environment parameters
fglGetTexFilterFuncSGIS (3G) - return user-defined texture filtering function
fglGetTexGendv, fglGetTexGenfv, fglGetTexGeniv (3G) - return texture coordinate generation parameters
fglGetTexImage (3G) - return a texture image
fglGetTexLevelParameterfv, fglGetTexLevelParameteriv (3G) - return texture parameter values for a specific level of detail
fglGetTexParameterfv, fglGetTexParameteriv (3G) - return texture parameter values
fglHint (3G) - specify implementation-specific hints
fglHistogramEXT (3G) - define histogram table
fglIndexd, fglIndexf, fglIndexi, fglIndexs, fglIndexub, fglIndexdv, fglIndexfv, fglIndexiv, fglIndexsv, fglIndexubv (3G) - set the current color index
fglIndexMask (3G) - control the writing of individual bits in the color index buffers
fglIndexPointer (3G) - define an array of color indexes
fglIndexPointerEXT (3G) - define an array of color indexes
fglInitNames (3G) - initialize the name stack
fglInstrumentsBufferSGIX, fglStartInstrumentsSGIX, fglReadInstrumentsSGIX, fglStopInstrumentsSGIX, fglPollInstrumentsSGIX, fglGetInstrumentsSGIX (3G) - take measurements from enabled instruments in the GL
fglInterleavedArrays (3G) - simultaneously specify and enable several interleaved arrays
fglIntro (3G) - Introduction to OpenGL FORTRAN Bindings
fglIsEnabled (3G) - test whether a capability is enabled
fglIsList (3G) - determine if a name corresponds to a display-list
fglIsTexture (3G) - determine if a name corresponds to a texture
fglIsTextureEXT (3G) - determine if a name corresponds to a texture
fglLightf, fglLighti, fglLightfv, fglLightiv (3G) - set light source parameters
fglLightModelf, fglLightModeli, fglLightModelfv, fglLightModeliv (3G) - set the lighting model parameters
fglLineStipple (3G) - specify the line stipple pattern
fglLineWidth (3G) - specify the width of rasterized lines
fglListBase (3G) - set the display-list base for fglCallLists
fglListParameterfSGIX, fglListParameteriSGIX, fglListParameterfvSGIX, fglListParameterivSGIX (3G) - specify display list parameters
fglLoadIdentity (3G) - replace the current matrix with the identity matrix
fglLoadMatrixd, fglLoadMatrixf (3G) - replace the current matrix with the specified matrix
fglLoadName (3G) - load a name onto the name stack
fglLogicOp (3G) - specify a logical pixel operation for color index rendering
fglMap1d, fglMap1f (3G) - define a one-dimensional evaluator
fglMap2d, fglMap2f (3G) - define a two-dimensional evaluator
fglMapGrid1d, fglMapGrid1f, fglMapGrid2d, fglMapGrid2f (3G) - define a one- or two-dimensional mesh
fglMaterialf, fglMateriali, fglMaterialfv, fglMaterialiv (3G) - specify material parameters for the lighting model
fglMatrixMode (3G) - specify which matrix is the current matrix
fglMinmaxEXT (3G) - define minmax table
fglMultMatrixd, fglMultMatrixf (3G) - multiply the current matrix with the specified matrix
fglNewList, fglEndList (3G) - create or replace a display list
fglNormal3b, fglNormal3d, fglNormal3f, fglNormal3i, fglNormal3s, fglNormal3bv, fglNormal3dv, fglNormal3fv, fglNormal3iv, fglNormal3sv (3G) - set the current normal vector
fglNormalPointer (3G) - define an array of normals
fglNormalPointerEXT (3G) - define a array of normals
fglOrtho (3G) - multiply the current matrix with an orthographic matrix
fglPassThrough (3G) - place a marker in the feedback buffer
fglPixelMapfv, fglPixelMapuiv, fglPixelMapusv (3G) - set up pixel transfer maps
fglPixelStoref, fglPixelStorei (3G) - set pixel storage modes
fglPixelTexGenSGIX (3G) - affects the generation of texture coordinates from pixel groups
fglPixelTransferf, fglPixelTransferi (3G) - set pixel transfer modes
fglPixelZoom (3G) - specify the pixel zoom factors
fglPointParameterfSGIS, fglPointParameterfvSGIS (3G) - set point parameters
fglPointSize (3G) - specify the diameter of rasterized points
fglPolygonMode (3G) - select a polygon rasterization mode
fglPolygonOffset (3G) - set the scale and units used to calculate depth values
fglPolygonOffsetEXT (3G) - set parameters used to offset polygon depth
fglPolygonStipple (3G) - set the polygon stippling pattern
fglPrioritizeTextures (3G) - set texture residence priority
fglPrioritizeTexturesEXT (3G) - set texture residence priority
fglPushAttrib, fglPopAttrib (3G) - push and pop the attribute stack
fglPushClientAttrib, fglPopClientAttrib (3G) - push and pop the client attribute stack
fglPushMatrix, fglPopMatrix (3G) - push and pop the current matrix stack
fglPushName, fglPopName (3G) - push and pop the name stack
fglRasterPos2d, fglRasterPos2f, fglRasterPos2i, fglRasterPos2s, fglRasterPos3d, fglRasterPos3f, fglRasterPos3i, fglRasterPos3s, fglRasterPos4d, fglRasterPos4f, fglRasterPos4i, fglRasterPos4s, fglRasterPos2dv, fglRasterPos2fv, fglRasterPos2iv, fglRasterPos2sv, fglRasterPos3dv, fglRasterPos3fv, fglRasterPos3iv, fglRasterPos3sv, fglRasterPos4dv, fglRasterPos4fv, fglRasterPos4iv, fglRasterPos4sv (3G) - specify the raster position for pixel operations
fglReadBuffer (3G) - select a color buffer source for pixels
fglReadPixels (3G) - read a block of pixels from the frame buffer
fglRectd, fglRectf, fglRecti, fglRects, fglRectdv, fglRectfv, fglRectiv, fglRectsv (3G) - draw a rectangle
fglReferencePlaneSGIX (3G) - define a reference plane for coplanar geometry
fglRenderMode (3G) - set rasterization mode
fglResetHistogramEXT (3G) - reset histogram table entries to zero
fglResetMinmaxEXT (3G) - reset minmax table entries to initial values
fglRotated, fglRotatef (3G) - multiply the current matrix by a rotation matrix
fglSampleMaskSGIS (3G) - define mask to modify multisampled pixel fragments
fglSamplePatternSGIS (3G) - set pattern for multisampling
fglScaled, fglScalef (3G) - multiply the current matrix by a general scaling matrix
fglScissor (3G) - define the scissor box
fglSelectBuffer (3G) - establish a buffer for selection mode values
fglSeparableFilter2DEXT (3G) - define a separable two-dimensional convolution filter
fglShadeModel (3G) - select flat or smooth shading
fglSharpenTexFuncSGIS (3G) - specify sharpen texture scaling function
fglSpriteParameterfSGIX, fglSpriteParameteriSGIX, fglSpriteParameterfvSGIX, fglSpriteParameterivSGIX (3G) - set sprite parameters
fglStencilFunc (3G) - set function and reference value for stencil testing
fglStencilMask (3G) - control the writing of individual bits in the stencil planes
fglStencilOp (3G) - set stencil test actions
fglTagSampleBufferSGIX (3G) - mark all samples of a multisample buffer
fglTexCoord1d, fglTexCoord1f, fglTexCoord1i, fglTexCoord1s, fglTexCoord2d, fglTexCoord2f, fglTexCoord2i, fglTexCoord2s, fglTexCoord3d, fglTexCoord3f, fglTexCoord3i, fglTexCoord3s, fglTexCoord4d, fglTexCoord4f, fglTexCoord4i, fglTexCoord4s, fglTexCoord1dv, fglTexCoord1fv, fglTexCoord1iv, fglTexCoord1sv, fglTexCoord2dv, fglTexCoord2fv, fglTexCoord2iv, fglTexCoord2sv, fglTexCoord3dv, fglTexCoord3fv, fglTexCoord3iv, fglTexCoord3sv, fglTexCoord4dv, fglTexCoord4fv, fglTexCoord4iv, fglTexCoord4sv (3G) - set the current texture coordinates
fglTexCoordPointer (3G) - define an array of texture coordinates
fglTexCoordPointerEXT (3G) - define an array of texture coordinates
fglTexEnvf, fglTexEnvi, fglTexEnvfv, fglTexEnviv (3G) - set texture environment parameters
fglTexFilterFuncSGIS (3G) - specify user-defined texture filtering function
fglTexGend, fglTexGenf, fglTexGeni, fglTexGendv, fglTexGenfv, fglTexGeniv (3G) - control the generation of texture coordinates
fglTexImage1D (3G) - specify a one-dimensional texture image
fglTexImage2D (3G) - specify a two-dimensional texture image
fglTexImage3DEXT (3G) - specify a three-dimensional texture image
fglTexImage4DSGIS (3G) - specify a four-dimensional texture image
fglTexParameterf, fglTexParameteri, fglTexParameterfv, fglTexParameteriv (3G) - set texture parameters
fglTexSubImage1D (3G) - specify a two-dimensional texture subimage
fglTexSubImage1DEXT (3G) - specify a one-dimensional texture subimage
fglTexSubImage2D (3G) - specify a two-dimensional texture subimage
fglTexSubImage2DEXT (3G) - specify a two-dimensional texture subimage
fglTexSubImage3DEXT (3G) - specify a three-dimensional texture subimage
fglTexSubImage4DSGIS (3G) - specify a four-dimensional texture subimage
fglTranslated, fglTranslatef (3G) - multiply the current matrix by a translation matrix
fgluBeginCurve, fgluEndCurve (3G) - delimit a NURBS curve definition
fgluBeginPolygon, fgluEndPolygon (3G) - delimit a polygon description
fgluBeginSurface, fgluEndSurface (3G) - delimit a NURBS surface definition
fgluBeginTrim, fgluEndTrim (3G) - delimit a NURBS trimming loop definition
fgluBuild1DMipmaps (3G) - builds a 1-D mipmap
fgluBuild2DMipmaps (3G) - builds a 2-D mipmap
fgluCylinder (3G) - draw a cylinder
fgluDeleteNurbsRenderer (3G) - destroy a NURBS object
fgluDeleteQuadric (3G) - destroy a quadrics object
fgluDeleteTess (3G) - destroy a tessellation object
fgluDisk (3G) - draw a disk
fgluErrorString (3G) - produce an error string from an OpenGL or GLU error code
fgluGetNurbsProperty (3G) - get a NURBS property
fgluGetString (3G) - return a string describing the GLU version or GLU extensions
fgluGetTessProperty (3G) - get a tessellation object property
fgluLoadSamplingMatrices (3G) - load NURBS sampling and culling matrices
fgluLookAt (3G) - define a viewing transformation
fgluNewNurbsRenderer (3G) - create a NURBS object
fgluNewQuadric (3G) - create a quadrics object
fgluNewTess (3G) - create a tessellation object
fgluNextContour (3G) - mark the beginning of another contour
fgluNurbsCallback (3G) - define a callback for a NURBS object
fgluNurbsCallbackDataEXT (3G) - set a user data pointer
fgluNurbsCurve (3G) - define the shape of a NURBS curve
fgluNurbsProperty (3G) - set a NURBS property
fgluNurbsSurface (3G) - define the shape of a NURBS surface
fgluOrtho2D (3G) - define a 2D orthographic projection matrix
fgluPartialDisk (3G) - draw an arc of a disk
fgluPerspective (3G) - set up a perspective projection matrix
fgluPickMatrix (3G) - define a picking region
fgluProject (3G) - map object coordinates to window coordinates
fgluPwlCurve (3G) - describe a piecewise linear NURBS trimming curve
fgluQuadricCallback (3G) - define a callback for a quadrics object
fgluQuadricDrawStyle (3G) - specify the draw style desired for quadrics
fgluQuadricNormals (3G) - specify what kind of normals are desired for quadrics
fgluQuadricOrientation (3G) - specify inside/outside orientation for quadrics
fgluQuadricTexture (3G) - specify if texturing is desired for quadrics
fgluScaleImage (3G) - scale an image to an arbitrary size
fgluSphere (3G) - draw a sphere
fgluTessBeginContour, fgluTessEndContour (3G) - delimit a contour description
fgluTessBeginPolygon (3G) - delimit a polygon description
fgluTessCallback (3G) - define a callback for a tessellation object
fgluTessEndPolygon (3G) - delimit a polygon description
fgluTessNormal (3G) - specify a normal for a polygon
fgluTessProperty (3G) - set a tessellation object property
fgluTessVertex (3G) - specify a vertex on a polygon
fgluUnProject (3G) - map window coordinates to object coordinates
fglVertex2d, fglVertex2f, fglVertex2i, fglVertex2s, fglVertex3d, fglVertex3f, fglVertex3i, fglVertex3s, fglVertex4d, fglVertex4f, fglVertex4i, fglVertex4s, fglVertex2dv, fglVertex2fv, fglVertex2iv, fglVertex2sv, fglVertex3dv, fglVertex3fv, fglVertex3iv, fglVertex3sv, fglVertex4dv, fglVertex4fv, fglVertex4iv, fglVertex4sv (3G) - specify a vertex
fglVertexPointer (3G) - define an array of vertex data
fglVertexPointerEXT (3G) - define an array of vertex data
fglViewport (3G) - set the viewport
FIGI, SFIGI (3F) - EISPACK routine. Given a NONSYMMETRIC TRIDIAGONAL matrix such that the products of corresponding pairs of off-diagonal elements are all non-negative, this subroutine reduces it to a symmetric tridiagonal matrix with the same eigenvalues. If, further, a zero product only occurs when both factors are zero, the reduced matrix is similar to the original matrix.
FIGI2, SFIGI2 (3F) - EISPACK routine. Given a NONSYMMETRIC TRIDIAGONAL matrix such that the products of corresponding pairs of off-diagonal elements are all non-negative, and zero only when both factors are zero, this subroutine reduces it to a SYMMETRIC TRIDIAGONAL matrix using and accumulating diagonal similarity transformations.
file (3Tcl) - Manipulate file names and attributes
File::Compare (3) - Compare files or filehandles
File::Copy (3) - Copy files or filehandles
File::DosGlob (3) - DOS like globbing and then some
File::Path (3) - create or remove a series of directories
File::stat (3) - by-name interface to Perl's built-in stat() functions
filebuf (3C++) - buffer for file I/O.
FileCache (3) - keep more files open than the system permits
fileevent (3Tk) - Execute a script when a file becomes readable or writable
FileHandle (3) - supply object methods for filehandles
fileparse (3) - split a pathname into pieces
find (3) - traverse a file tree
FindBin (3) - Locate directory of original perl script
finish (3G) - blocks until the Geometry Pipeline is empty
finish (3G) - blocks until the Geometry Pipeline is empty
fixade (3) - misaligned data bus error handler and report generator
FLOATING (3F) - return scalar values associated with the argument derived from the model of floating point data.
flock (3B) - apply or remove an advisory lock on an open file
flockfile, ftrylockfile, funlockfile (3S) - stdio synchronization functions
FLOOR (3I) - Returns the greatest integer less than or equal to its argument
floor, floorl, ffloor, floorf, ceil, ceill, fceil, ceilf, copysign, copysignl, drem, dreml, fmod, fmodl, fmodf, fabsl, fabs, fabsf, remainder, rint, rintl, trunc, truncl, ftrunc, truncf (3M) - floor, ceiling, remainder, absolute value, nearest integer, and truncation functions
flush (3F) - flush output to a logical unit
FLUSH (3F) - Writes data buffered by Fortran output statements to a file
flush (3Tcl) - Flush buffered output for a file
fmcachedisable (3W) - disable font cache flushing
fmcacheenable (3W) - enable font cache flushing
fmcachelimit (3W) - return current font cache limit in quanta
fmenumerate (3W) - enumerate the font faces available through the font manager.
fmfindfont (3W) - select a font face.
fmfontpath (3W) - get the current font path.
fmfprstr (3W) - render a character string in a specified font
fmfreefont (3W) - free the storage for a font
fmgetcacheused (3W) - return the number of bytes used by the font cache
fmgetchrwidth (3W) - return the width of a character
fmgetcomment (3W) - return a comment associated with a font
fmgetfontinfo (3W) - return information about the overall font
fmgetfontname (3W) - return the name associated with a font
fmgetstrwidth (3W) - return the width of a string in pixels
fmgetwholemetrics (3W) - return information about each of the characters in a font
fminit (3W) - initialize the Font Manager
fminitpagematrix, fmsetpagematrix, fmgetpagematrix, fmscalepagematrix, fmrotatepagematrix, fmconcatpagematrix (3W) - font manager page matrix operations
fmmakefont (3W) - associate a transformation matrix with a font
fmoutchar (3W) - render a single glyph.
fmprintermatch (3W) - toggle printer matching
fmprstr (3W) - render a string in the current font
fmscalefont (3W) - scale a font face.
fmsetcachelimit (3W) - set maximum cache size in quanta
fmsetfont (3W) - set the current font.
fmsetpath (3W) - set the current font path.
fmtmsg (3C) - display a message on stderr or system console
fnmatch (3G) - match filename or pathname
focus (3Tk) - Manage the input focus
fogver (3G) - specify atmospheric fogging effects
fogvertex (3G) - specify atmospheric fogging effects
font (3G) - selects a raster font for drawing text strings
font (3G) - selects a raster font for drawing text strings
fopen, freopen, fdopen (3S) - open a stream
for (3Tcl) - ``For'' loop
foreach (3Tcl) - Iterate over all elements in a list
foregr (3G) - prevents a graphical process from being put into the background
foreground (3G) - prevents a graphical process from being put into the background
format (3Tcl) - Format a string in the style of sprintf
fp_class, fp_class_d, fp_class_f (3C) - classes of IEEE floating-point values
fpc: get_fpc_csr, set_fpc_csr, get_fpc_irr, swapRM, swapINX (3C) - floating- point control registers
fpe_trace_option, fpe_ss, fpe (3) - SpeedShop floating-point exception tracing library
fpgetmask, fpgetround, fpgetsticky, fpsetmask, fpsetround, fpsetsticky (3C) - fetch/set subfields of floating-point control status register of MIPS floating-point units
FRACTION (3I) - Returns the fractional part of the numeric model representation of the argument value
frame (3Tk) - Create and manipulate frame widgets
fread, fwrite (3S) - binary input/output
freepu (3G) - deallocates a menu
freepup (3G) - deallocates a menu
frexp, ldexp, logb, ilogb, modf, modff, nextafter, scalb, frexpl, ldexpl, logbl, modfl, nextafterl, scalbl (3C) - manipulate parts of floating-point numbers (libc routines)
frontf (3G) - turns frontfacing polygon removal on and off
frontface (3G) - turns frontfacing polygon removal on and off
fseek, fseek64, ftell, ftell64 (3F) - reposition a file on a logical unit
fseek, fseek64, rewind, ftell, ftell64 (3S) - reposition a file pointer in a stream
fsetpos, fsetpos64, fgetpos, fgetpos64 (3S) - reposition a file pointer in a stream
fstream (3C++) - iostream and streambuf specialized to files
ftime (3C) - get date and time
ftw, ftw64, nftw nftw64 (3C) - walk a file tree
ftype: int, ifix, iifix, jifix, idint, iqint, real, float, floati, floatj, sngl, dble, dfloti, dflotj, dfloat, qfloat, qfloti, qflotj, qflotk, cmplx, dcmplx, qcmplx, ichar, char (3F) - explicit FORTRAN type conversion
fudge (3G) - specifies fudge values that are added to a graphics window
fudge (3G) - specifies fudge values that are added to a graphics window
fullsc (3G) - allows a program write to the entire screen
fullscrn (3G) - allows a program write to the entire screen

G

gammar (3G) - defines a color map ramp for gamma correction
gammaramp (3G) - defines a color map ramp for gamma correction
gconfi (3G) - reconfigures the GL modes of the current window
gconfig (3G) - reconfigures the GL modes of the current window
genobj (3G) - returns a unique integer for use as an object identifier
genobj (3G) - returns a unique integer for use as an object identifier
gentag (3G) - returns a unique integer for use as a tag
gentag (3G) - returns a unique integer for use as a tag
GET_IEEE_EXCEPTIONS (3I) - Retrieves flags that represent the current floating-point exception status
GET_IEEE_INTERRUPTS (3I) - Retrieves flags that represent the current floating-point interrupt status
GET_IEEE_ROUNDING_MODE (3I) - Returns current floating-point rounding mode
GET_IEEE_STATUS (3I) - Retrieves flags that represent the current floating-point status upon entry to a procedure
getabi (3C) - get ABI from argument vector
getarg, iargc (3F) - return Fortran command-line argument
getbac (3G) - returns whether backfacing polygons will appear
getbackface (3G) - returns whether backfacing polygons will appear
getbuf (3G) - indicates which buffers are enabled for writing
getbuffer (3G) - indicates which buffers are enabled for writing
getbut (3G) - returns the state of a button
getbutton (3G) - returns the state of a button
getc, fgetc (3F) - get a character from a logical unit
getc, getchar, fgetc, getw, getc_unlocked, getchar_unlocked (3S) - get character or word from a stream
getcmm (3G) - returns the current color map mode
getcmmode (3G) - returns the current color map mode
getcol (3G) - returns the current color
getcolor (3G) - returns the current color
getcpo (3G) - returns the current character position
getcpos (3G) - returns the current character position
getcur (3G) - returns the cursor characteristics
getcursor (3G) - returns the cursor characteristics
getcwd (3) - get pathname of current working directory
getcwd (3C) - get pathname of current working directory
getdate (3C) - convert user format date and time
getdcm (3G) - indicates whether depth-cue mode is on or off
getdcm (3G) - indicates whether depth-cue mode is on or off
getdep (3G) - obsolete routine
getdepth (3G) - obsolete routine
getdes (3G) - returns the character characteristics
getdescender (3G) - returns the character characteristics
getdev (3G) - reads a list of valuators at one time
getdev (3G) - reads a list of valuators at one time
getdfltprojuser, fgetdfltprojuser (3c) - get user's default project ID
getdis (3G) - returns the current display mode
getdisplaymode (3G) - returns the current display mode
getdra (3G) - returns the current drawing mode
getdrawmode (3G) - returns the current drawing mode
getdtablehi (3C) - get largest open file descriptor index
getenv (3C) - return value for environment name
getenv (3F) - get value of environment variable
getfon (3G) - returns the current raster font number
getfont (3G) - returns the current raster font number
getgco (3G) - gets the size of a buffer or a state in the current buffer configuration
getgconfig (3G) - gets the size of a buffer or a state in the current buffer configuration
getgde (3G) - gets graphics system description
getgdesc (3G) - gets graphics system description
getgpo (3G) - gets the current graphics position
getgpos (3G) - gets the current graphics position
getgrent, getgrent_r, getgrgid, getgrgid_r, getgrnam, getgrnam_r, setgrent, endgrent, fgetgrent, fgetgrent_r (3C) - get group file entry
gethei (3G) - returns the maximum character height in the current raster font
getheight (3G) - returns the maximum character height in the current raster font
gethgram (3G) - gets histogram data computed by hgram
gethit (3G) - returns the current hitcode
gethitcode (3G) - returns the current hitcode
gethostbyname, gethostbyname_r, gethostbyaddr, gethostbyaddr_r, gethostent, gethostent_r, fgethostent, fgethostent_r, sethostent, endhostent, herror, hstrerror (3N) - get network host entry
getinvent, setinvent, endinvent, scaninvent, getinvent_r, setinvent_r, endinvent_r (3) - get hardware inventory entry
getlog (3F) - get user's login name
getlogin, getlogin_r (3C) - get login name
getlsb (3G) - returns the state of linestyle backup mode
getlsbackup (3G) - returns the state of linestyle backup mode
getlsr (3G) - returns the linestyle repeat count
getlsrepeat (3G) - returns the linestyle repeat count
getlst (3G) - returns the current linestyle
getlstyle (3G) - returns the current linestyle
getlwi (3G) - returns the current linewidth
getlwidth (3G) - returns the current linewidth
getmap (3G) - returns the number of the current color map
getmap (3G) - returns the number of the current color map
getmat (3G) - returns a copy of a transformation matrix
getmatrix (3G) - returns a copy of a transformation matrix
getmco (3G) - gets a copy of the RGB values for a color map entry
getmcolor (3G) - gets a copy of the RGB values for a color map entry
getminmax (3G) - gets data computed by minmax
getmmo (3G) - returns the current matrix mode
getmmode (3G) - returns the current matrix mode
getmon (3G) - returns the video output format currently being generated by the graphics system
getmonitor (3G) - returns the video output format currently being generated by the graphics system
getmul (3G) - returns the current multisample mode
getmultisample (3G) - returns the current multisample mode
getnetconfig (3N) - get network configuration database entry
getnetent, getnetent_r, fgetnetent, fgetnetent_r, getnetbyaddr, getnetbyaddr_r, getnetbyname, getnetbyname_r, setnetent, endnetent (3N) - get network entry
getnetgrent, innetgr, setnetgrent, endnetgrent (3Y) - get NIS network group entry
getnetpath (3N) - get netconfig entry corresponding to NETPATH component
getnur (3G) - returns the current value of a trimmed NURBS surfaces display property
getnurbsproperty (3G) - returns the current value of a trimmed NURBS surfaces display property
getope (3G) - returns the identifier of the currently open object
getopenobj (3G) - returns the identifier of the currently open object
getopt (3) - Process single-character switches with switch clustering
getopt (3C) - get option letter from argument vector
GetOptions (3) - extended processing of command line options
getori (3G) - returns the position of a graphics window
getorigin (3G) - returns the position of a graphics window
getoth (3G) - obsolete routine
getothermonitor (3G) - obsolete routine
getpass (3C) - read a password
getpat (3G) - returns the index of the current pattern
getpattern (3G) - returns the index of the current pattern
getpeername (3N) - get name of connected peer
getpla (3G) - returns the number of available bitplanes
getplanes (3G) - returns the number of available bitplanes
getpor (3G) - obsolete routine
getport (3G) - obsolete routine
getprojall, fgetprojall (3c) - enumerate all project IDs
getprojuser, fgetprojuser (3c) - get a user's project IDs
getprotoent, getprotobynumber, getprotobyname, getprotoent_r, getprotobynumber_r, getprotobyname_r, fgetprotoent, fgetprotoent_r, setprotoent, endprotoent (3N) - get protocol entry
getpw (3C) - get name from UID
getpwent, getpwent_r, getpwuid, getpwuid_r, getpwnam, getpwnam_r, setpwent, endpwent, fgetpwent, fgetpwent_r (3C) - get password file entry
getres (3G) - returns the state of linestyle reset mode
getresetls (3G) - returns the state of linestyle reset mode
getrpcent, getrpcent_r, fgetrpcent, fgetrpcent_r, getrpcbyname, getrpcbyname_r, getrpcbynumber, getrpcbynumber_r (3R) - get RPC entry
getrpcport (3R) - get RPC port number
getrusage (3) - get information about resource utilization
gets (3Tcl) - Read a line from a file
gets, fgets (3S) - get a string from a stream
getsb (3G) - read back the current computed screen bounding box
getscr (3G) - returns the current screen mask
getscrbox (3G) - read back the current computed screen bounding box
getscrmask (3G) - returns the current screen mask
getservent, getservent_r, fgetservent, fgetservent_r, getservbyport, getservbyport_r, getservbyname, getservbyname_r, setservent, endservent (3N) - get service entry
getsha (3G) - obsolete routine
getshade (3G) - obsolete routine
getsiz (3G) - returns the size of a graphics window
getsize (3G) - returns the size of a graphics window
getsm (3G) - returns the current shading model
getsm (3G) - returns the current shading model
getsockname (3N) - get socket name
getsockopt, setsockopt (3N) - get and set options on sockets
getspent, getspent_r, getspnam, getspnam_r, setspent, endspent, fgetspent, fgetspent_r, lckpwdf, ulckpwdf (3C) - manipulate shadow password file entry
getsubopt (3C) - parse suboptions from a string
gettimeofday, settimeofday (3B) - get/set date and time
gettxt (3C) - retrieve a text string
getut: getutent, getutid, getutline, pututline, setutent, endutent, utmpname (3C) - access utmp file entry
getutx: getutxent, getutxid, getutxline, pututxline, setutxent, endutxent, utmpxname, getutmp, getutmpx, updwtmp, updwtmpx (3C) - access utmpx (extended utmp) file entry
getval (3G) - returns the current state of a valuator
getvaluator (3G) - returns the current state of a valuator
getvie (3G) - gets a copy of the dimensions of the current viewport
getviewport (3G) - gets a copy of the dimensions of the current viewport
getwc, getwchar, fgetwc (3S) - get wchar_t character or word from a stream
getwd (3C) - get current working directory pathname
getwidth (3W) - get information on supplementary code sets
getwri (3G) - returns the current writemask
getwritemask (3G) - returns the current writemask
getws, fgetws (3S) - get a wchar_t string from a stream
getwsc (3G) - returns the screen upon which the current window appears
getwscrn (3G) - returns the screen upon which the current window appears
getzbu (3G) - returns whether z-buffering is on or off
getzbuffer (3G) - returns whether z-buffering is on or off
gexit (3G) - exits graphics
gexit (3G) - exits graphics
gflush (3G) - flushs the remote GL client buffer
gflush (3G) - flushs the remote GL client buffer
ghstgm (3G) - gets histogram data computed by hgram
ginit, gbegin (3G) - create a window that occupies the entire screen
ginit, gbegin (3G) - create a window that occupies the entire screen
ginit, gbegin (3G) - create a window that occupies the entire screen
ginit, gbegin (3G) - create a window that occupies the entire screen
glAccum (3G) - operate on the accumulation buffer
glAlphaFunc (3G) - specify the alpha test function
glAreTexturesResident (3G) - determine if textures are loaded in texture memory
glAreTexturesResidentEXT (3G) - determine if textures are loaded in texture memory
glArrayElement (3G) - render a vertex using the specified vertex array element
glArrayElementEXT (3G) - specify the array elements used to render a vertex
glBegin, glEnd (3G) - delimit the vertices of a primitive or a group of like primitives
glBindTexture (3G) - bind a named texture to a texturing target
glBindTextureEXT (3G) - bind a named texture to a texturing target
glBitmap (3G) - draw a bitmap
glBlendColorEXT (3G) - set the blend color
glBlendEquationEXT (3G) - set the blend equation
glBlendFunc (3G) - specify pixel arithmetic
glCallList (3G) - execute a display list
glCallLists (3G) - execute a list of display lists
glcAppendCatalog, glcPrependCatalog (3G) - append a catalog to the catalog list
glcAppendFont (3G) - append a font to the current font list
glcContext (3G) - make a context current to a thread
glcDataPointer (3G) - assign a value to GLC_DATA_POINTER
glcDeleteFont (3G) - delete a font
glcDeleteGLObjects (3G) - delete all GL objects that a GLC context owns
glcEnable, glcDisable (3G) - enable or disable GLC capabilities
glcFont (3G) - replace fonts in the font list
glcFontFace (3G) - set the face of a font or of all current fonts
glcFontMap (3G) - modify the map of a font
glcGenContext, glcDeleteContext (3G) - generate or delete a context
glcGenFontID (3G) - generate a new font ID
glcGetAllContexts (3G) - return an array of GLC contexts
glcGetc (3G) - return the value or values of a specified string constant
glcGetCallbackFunc (3G) - return the value of a callback function variable
glcGetCharMetric (3G) - measure a character
glcGetCurrentContext (3G) - return current context ID
glcGetError (3G) - return error information
glcGetf (3G) - return value of a specified floating point variable
glcGetFontc (3G) - return a string attribute of a font
glcGetFontFace (3G) - return the name of a font's current face
glcGetFonti (3G) - return an integer attribute of a font
glcGetFontListc (3G) - return an attribute of a font
glcGetFontMap (3G) - return the string name of a character
glcGetfv (3G) - return the value of a floating point vector variable
glcGeti (3G) - return the value or values of a integer variable or constant
glcGetListc (3G) - return element from list
glcGetListi (3G) - return element from list
glcGetMasterc (3G) - return the value of a master's string attribute
glcGetMasteri (3G) - return the value of a master's attribute
glcGetMasterListc (3G) - return attribute of master
glcGetMasterMap (3G) - return the string name of a character in a master
glcGetMaxCharMetric (3G) - measure layout of characters
glcGetPointer (3G) - return pointer value
glcGetStringCharMetric (3G) - retrieve character metric from measurement buffer
glcGetStringMetric (3G) - return a string metric
glcIntro (3G) - Introduction to the OpenGL Character Renderer
glcIsContext (3G) - test whether a context ID is the current GLC context
glcIsEnabled (3G) - test whether a boolean attribute is true
glcIsFont (3G) - test whether inFont is a font ID
glClear (3G) - clear buffers to preset values
glClearAccum (3G) - specify clear values for the accumulation buffer
glClearColor (3G) - specify clear values for the color buffers
glClearDepth (3G) - specify the clear value for the depth buffer
glClearIndex (3G) - specify the clear value for the color index buffers
glClearStencil (3G) - specify the clear value for the stencil buffer
glClipPlane (3G) - specify a plane against which all geometry is clipped
glcLoadIdentity (3G) - assign identity value to GLC_BITMAP_MATRIX
glcLoadMatrix (3G) - assign a value to GLC_BITMAP_MATRIX
glcMeasureCountedString (3G) - store a string of specified length in measurement buffer
glcMeasureString (3G) - measure a specified string
glcMultMatrix (3G) - multiply GLC_BITMAP_MATRIX with a matrix
glcNewFontFromFamily (3G) - create a new font from a master of specified family
glcNewFontFromMaster (3G) - create a new font from a master
glColor3b, glColor3d, glColor3f, glColor3i, glColor3s, glColor3ub, glColor3ui, glColor3us, glColor4b, glColor4d, glColor4f, glColor4i, glColor4s, glColor4ub, glColor4ui, glColor4us, glColor3bv, glColor3dv, glColor3fv, glColor3iv, glColor3sv, glColor3ubv, glColor3uiv, glColor3usv, glColor4bv, glColor4dv, glColor4fv, glColor4iv, glColor4sv, glColor4ubv, glColor4uiv, glColor4usv (3G) - set the current color
glColorMask (3G) - enable and disable writing of frame buffer color components
glColorMaterial (3G) - cause a material color to track the current color
glColorPointer (3G) - define an array of colors
glColorPointerEXT (3G) - define a array of colors
glColorTableParameterfvSGI, glColorTableParameterivSGI (3G) - set color lookup table parameters
glColorTableSGI (3G) - define a color lookup table
glcomp (3G) - controls compatibility modes
glcompat (3G) - controls compatibility modes
glConvolutionFilter1DEXT (3G) - define a one-dimensional convolution filter
glConvolutionFilter2DEXT (3G) - define a two-dimensional convolution filter
glConvolutionParameterfEXT, glConvolutionParameteriEXT, glConvolutionParameterfvEXT, glConvolutionParameterivEXT (3G) - set convolution parameters
glCopyColorTableSGI (3G) - copy pixels into a color table
glCopyConvolutionFilter1DEXT (3G) - copy pixels into a one-dimensional convolution filter
glCopyConvolutionFilter2DEXT (3G) - copy pixels into a two-dimensional convolution filter
glCopyPixels (3G) - copy pixels in the frame buffer
glCopyTexImage1D (3G) - copy pixels into a 1D texture image
glCopyTexImage1DEXT (3G) - copy pixels into a 1D texture image
glCopyTexImage2D (3G) - copy pixels into a 2D texture image
glCopyTexImage2DEXT (3G) - copy pixels into a 2D texture image
glCopyTexSubImage1D (3G) - copy a one-dimensional texture subimage
glCopyTexSubImage1DEXT (3G) - copy pixels into a 1D texture subimage
glCopyTexSubImage2D (3G) - copy a two-dimensional texture subimage
glCopyTexSubImage2DEXT (3G) - copy pixels into a 2D texture subimage
glCopyTexSubImage3DEXT (3G) - copy pixels into a 3D texture subimage
glcRemoveCatalog (3G) - remove a catalog from the catalog list
glcRenderChar (3G) - render a character
glcRenderCountedString (3G) - render a string of a specified number of characters
glcRenderString (3G) - render a string
glcRenderStyle (3G) - assign a value to the variable GLC_RENDER_STYLE
glcReplacementCode (3G) - assign a value to GLC_REPLACEMENT_CODE
glcResolution (3G) - assign a value to GLC_RESOLUTION
glcRotate (3G) - multiply GLC_BITMAP_MATRIX by a rotation matrix
glcScale (3G) - multiply GLC_BITMAP_MATRIX with a general scaling matrix
glcStringType (3G) - assign a value to GLC_STRING_TYPE
glCullFace (3G) - specify whether front- or back-facing facets can be culled
glDeleteLists (3G) - delete a contiguous group of display lists
glDeleteTextures (3G) - delete named textures
glDeleteTexturesEXT (3G) - delete named textures
glDepthFunc (3G) - specify the value used for depth buffer comparisons
glDepthMask (3G) - enable or disable writing into the depth buffer
glDepthRange (3G) - specify mapping of depth values from normalized device coordinates to window coordinates
glDetailTexFuncSGIS (3G) - specify detail texture scaling function
glDrawArrays (3G) - render primitives from array data
glDrawArraysEXT (3G) - render primitives from array data
glDrawBuffer (3G) - specify which color buffers are to be drawn into
glDrawElements (3G) - render primitives from array data
glDrawPixels (3G) - write a block of pixels to the frame buffer
glEdgeFlag, glEdgeFlagv (3G) - flag edges as either boundary or nonboundary
glEdgeFlagPointer (3G) - define an array of edge flags
glEdgeFlagPointerEXT (3G) - define an array of edge flags
glEnable, glDisable (3G) - enable or disable server-side GL capabilities
glEnableClientState, glDisableClientState (3G) - enable or disable client-side capability
glEvalCoord1d, glEvalCoord1f, glEvalCoord2d, glEvalCoord2f, glEvalCoord1dv, glEvalCoord1fv, glEvalCoord2dv, glEvalCoord2fv (3G) - evaluate enabled one- and two-dimensional maps
glEvalMesh1, glEvalMesh2 (3G) - compute a one- or two-dimensional grid of points or lines
glEvalPoint1, glEvalPoint2 (3G) - generate and evaluate a single point in a mesh
glFeedbackBuffer (3G) - controls feedback mode
glFinish (3G) - block until all GL execution is complete
glFlush (3G) - force execution of GL commands in finite time
glFlushRasterSGIX (3G) - complete rasterization of previous GL commands
glFogf, glFogi, glFogfv, glFogiv (3G) - specify fog parameters
glFogFuncSGIS (3G) - custom fog blending function
glFrontFace (3G) - define front- and back-facing polygons
glFrustum (3G) - multiply the current matrix by a perspective matrix
glGenLists (3G) - generate a contiguous set of empty display lists
glGenTextures (3G) - generate texture names
glGenTexturesEXT (3G) - generate texture names
glGetBooleanv, glGetDoublev, glGetFloatv, glGetIntegerv (3G) - return the value or values of a selected parameter
glGetClipPlane (3G) - return the coefficients of the specified clipping plane
glGetColorTableParameterfvSGI, glGetColorTableParameterivSGI (3G) - get color lookup table parameters
glGetColorTableSGI (3G) - retrieve contents of a color lookup table
glGetConvolutionFilterEXT (3G) - get current 1D or 2D convolution filter kernel
glGetConvolutionParameterfvEXT, glGetConvolutionParameterivEXT (3G) - get convolution parameters
glGetDetailTexFuncSGIS (3G) - get detail texture scaling function
glGetError (3G) - return error information
glGetHistogramEXT (3G) - get histogram table
glGetHistogramParameterfvEXT, glGetHistogramParameterivEXT (3G) - get histogram parameters
glGetLightfv, glGetLightiv (3G) - return light source parameter values
glGetListParameterfvSGIX, glGetListParameterivSGIX (3G) - retrieve display list parameters
glGetMapdv, glGetMapfv, glGetMapiv (3G) - return evaluator parameters
glGetMaterialfv, glGetMaterialiv (3G) - return material parameters
glGetMinmaxEXT (3G) - get minimum and maximum pixel values
glGetMinmaxParameterfvEXT, glGetMinmaxParameterivEXT (3G) - get minmax parameters
glGetPixelMapfv, glGetPixelMapuiv, glGetPixelMapusv (3G) - return the specified pixel map
glGetPointerv (3G) - return the address of the specified pointer
glGetPointervEXT (3G) - return the address of a buffer or vertex array
glGetPolygonStipple (3G) - return the polygon stipple pattern
glGetSeparableFilterEXT (3G) - get separable convolution filter kernel images
glGetSharpenTexFuncSGIS (3G) - get sharpen texture scaling function
glGetString (3G) - returns a string describing the current GL connection
glGetTexEnvfv, glGetTexEnviv (3G) - return texture environment parameters
glGetTexFilterFuncSGIS (3G) - return user-defined texture filtering function
glGetTexGendv, glGetTexGenfv, glGetTexGeniv (3G) - return texture coordinate generation parameters
glGetTexImage (3G) - return a texture image
glGetTexLevelParameterfv, glGetTexLevelParameteriv (3G) - return texture parameter values for a specific level of detail
glGetTexParameterfv, glGetTexParameteriv (3G) - return texture parameter values
glHint (3G) - specify implementation-specific hints
glHistogramEXT (3G) - define histogram table
glIndexd, glIndexf, glIndexi, glIndexs, glIndexub, glIndexdv, glIndexfv, glIndexiv, glIndexsv, glIndexubv (3G) - set the current color index
glIndexMask (3G) - control the writing of individual bits in the color index buffers
glIndexPointer (3G) - define an array of color indexes
glIndexPointerEXT (3G) - define an array of color indexes
glInitNames (3G) - initialize the name stack
glInstrumentsBufferSGIX, glStartInstrumentsSGIX, glReadInstrumentsSGIX, glStopInstrumentsSGIX, glPollInstrumentsSGIX, glGetInstrumentsSGIX (3G) - take measurements from enabled instruments in the GL
glInterleavedArrays (3G) - simultaneously specify and enable several interleaved arrays
glIntro (3G) - Introduction to OpenGL
glio_group_mpi, glio_group_shmem (3F) - Defines a group of processes to be associated with a global file.
glIsEnabled (3G) - test whether a capability is enabled
glIsList (3G) - determine if a name corresponds to a display-list
glIsTexture (3G) - determine if a name corresponds to a texture
glIsTextureEXT (3G) - determine if a name corresponds to a texture
glLightf, glLighti, glLightfv, glLightiv (3G) - set light source parameters
glLightModelf, glLightModeli, glLightModelfv, glLightModeliv (3G) - set the lighting model parameters
glLineStipple (3G) - specify the line stipple pattern
glLineWidth (3G) - specify the width of rasterized lines
glListBase (3G) - set the display-list base for glCallLists
glListParameterfSGIX, glListParameteriSGIX, glListParameterfvSGIX, glListParameterivSGIX (3G) - specify display list parameters
glLoadIdentity (3G) - replace the current matrix with the identity matrix
glLoadMatrixd, glLoadMatrixf (3G) - replace the current matrix with the specified matrix
glLoadName (3G) - load a name onto the name stack
glLogicOp (3G) - specify a logical pixel operation for color index rendering
glMap1d, glMap1f (3G) - define a one-dimensional evaluator
glMap2d, glMap2f (3G) - define a two-dimensional evaluator
glMapGrid1d, glMapGrid1f, glMapGrid2d, glMapGrid2f (3G) - define a one- or two-dimensional mesh
glMaterialf, glMateriali, glMaterialfv, glMaterialiv (3G) - specify material parameters for the lighting model
glMatrixMode (3G) - specify which matrix is the current matrix
glMinmaxEXT (3G) - define minmax table
glMultMatrixd, glMultMatrixf (3G) - multiply the current matrix with the specified matrix
glNewList, glEndList (3G) - create or replace a display list
glNormal3b, glNormal3d, glNormal3f, glNormal3i, glNormal3s, glNormal3bv, glNormal3dv, glNormal3fv, glNormal3iv, glNormal3sv (3G) - set the current normal vector
glNormalPointer (3G) - define an array of normals
glNormalPointerEXT (3G) - define a array of normals
glob (3G) - generate pathnames matching a pattern
glob (3Tcl) - Return names of files that match patterns
global (3Tcl) - Access global variables
glOrtho (3G) - multiply the current matrix with an orthographic matrix
glPassThrough (3G) - place a marker in the feedback buffer
glPixelMapfv, glPixelMapuiv, glPixelMapusv (3G) - set up pixel transfer maps
glPixelStoref, glPixelStorei (3G) - set pixel storage modes
glPixelTexGenSGIX (3G) - affects the generation of texture coordinates from pixel groups
glPixelTransferf, glPixelTransferi (3G) - set pixel transfer modes
glPixelZoom (3G) - specify the pixel zoom factors
glPointParameterfSGIS, glPointParameterfvSGIS (3G) - set point parameters
glPointSize (3G) - specify the diameter of rasterized points
glPolygonMode (3G) - select a polygon rasterization mode
glPolygonOffset (3G) - set the scale and units used to calculate depth values
glPolygonOffsetEXT (3G) - set parameters used to offset polygon depth
glPolygonStipple (3G) - set the polygon stippling pattern
glPrioritizeTextures (3G) - set texture residence priority
glPrioritizeTexturesEXT (3G) - set texture residence priority
glPushAttrib, glPopAttrib (3G) - push and pop the attribute stack
glPushClientAttrib, glPopClientAttrib (3G) - push and pop the client attribute stack
glPushMatrix, glPopMatrix (3G) - push and pop the current matrix stack
glPushName, glPopName (3G) - push and pop the name stack
glRasterPos2d, glRasterPos2f, glRasterPos2i, glRasterPos2s, glRasterPos3d, glRasterPos3f, glRasterPos3i, glRasterPos3s, glRasterPos4d, glRasterPos4f, glRasterPos4i, glRasterPos4s, glRasterPos2dv, glRasterPos2fv, glRasterPos2iv, glRasterPos2sv, glRasterPos3dv, glRasterPos3fv, glRasterPos3iv, glRasterPos3sv, glRasterPos4dv, glRasterPos4fv, glRasterPos4iv, glRasterPos4sv (3G) - specify the raster position for pixel operations
glReadBuffer (3G) - select a color buffer source for pixels
glReadPixels (3G) - read a block of pixels from the frame buffer
glRectd, glRectf, glRecti, glRects, glRectdv, glRectfv, glRectiv, glRectsv (3G) - draw a rectangle
glReferencePlaneSGIX (3G) - define a reference plane for coplanar geometry
glRenderMode (3G) - set rasterization mode
glResetHistogramEXT (3G) - reset histogram table entries to zero
glResetMinmaxEXT (3G) - reset minmax table entries to initial values
GLResources (3G) - X resources used by GL programs
glRotated, glRotatef (3G) - multiply the current matrix by a rotation matrix
glSampleMaskSGIS (3G) - define mask to modify multisampled pixel fragments
glSamplePatternSGIS (3G) - set pattern for multisampling
glScaled, glScalef (3G) - multiply the current matrix by a general scaling matrix
glScissor (3G) - define the scissor box
glSelectBuffer (3G) - establish a buffer for selection mode values
glSeparableFilter2DEXT (3G) - define a separable two-dimensional convolution filter
glShadeModel (3G) - select flat or smooth shading
glSharpenTexFuncSGIS (3G) - specify sharpen texture scaling function
glsIntro (3G) - Introduction to the OpenGL Stream Codec
glSpriteParameterfSGIX, glSpriteParameteriSGIX, glSpriteParameterfvSGIX, glSpriteParameterivSGIX (3G) - set sprite parameters
glStencilFunc (3G) - set function and reference value for stencil testing
glStencilMask (3G) - control the writing of individual bits in the stencil planes
glStencilOp (3G) - set stencil test actions
glTagSampleBufferSGIX (3G) - mark all samples of a multisample buffer
glTexCoord1d, glTexCoord1f, glTexCoord1i, glTexCoord1s, glTexCoord2d, glTexCoord2f, glTexCoord2i, glTexCoord2s, glTexCoord3d, glTexCoord3f, glTexCoord3i, glTexCoord3s, glTexCoord4d, glTexCoord4f, glTexCoord4i, glTexCoord4s, glTexCoord1dv, glTexCoord1fv, glTexCoord1iv, glTexCoord1sv, glTexCoord2dv, glTexCoord2fv, glTexCoord2iv, glTexCoord2sv, glTexCoord3dv, glTexCoord3fv, glTexCoord3iv, glTexCoord3sv, glTexCoord4dv, glTexCoord4fv, glTexCoord4iv, glTexCoord4sv (3G) - set the current texture coordinates
glTexCoordPointer (3G) - define an array of texture coordinates
glTexCoordPointerEXT (3G) - define an array of texture coordinates
glTexEnvf, glTexEnvi, glTexEnvfv, glTexEnviv (3G) - set texture environment parameters
glTexFilterFuncSGIS (3G) - specify user-defined texture filtering function
glTexGend, glTexGenf, glTexGeni, glTexGendv, glTexGenfv, glTexGeniv (3G) - control the generation of texture coordinates
glTexImage1D (3G) - specify a one-dimensional texture image
glTexImage2D (3G) - specify a two-dimensional texture image
glTexImage3DEXT (3G) - specify a three-dimensional texture image
glTexImage4DSGIS (3G) - specify a four-dimensional texture image
glTexParameterf, glTexParameteri, glTexParameterfv, glTexParameteriv (3G) - set texture parameters
glTexSubImage1D (3G) - specify a two-dimensional texture subimage
glTexSubImage1DEXT (3G) - specify a one-dimensional texture subimage
glTexSubImage2D (3G) - specify a two-dimensional texture subimage
glTexSubImage2DEXT (3G) - specify a two-dimensional texture subimage
glTexSubImage3DEXT (3G) - specify a three-dimensional texture subimage
glTexSubImage4DSGIS (3G) - specify a four-dimensional texture subimage
glTranslated, glTranslatef (3G) - multiply the current matrix by a translation matrix
gluBeginCurve, gluEndCurve (3G) - delimit a NURBS curve definition
gluBeginPolygon, gluEndPolygon (3G) - delimit a polygon description
gluBeginSurface, gluEndSurface (3G) - delimit a NURBS surface definition
gluBeginTrim, gluEndTrim (3G) - delimit a NURBS trimming loop definition
gluBuild1DMipmaps (3G) - builds a 1-D mipmap
gluBuild2DMipmaps (3G) - builds a 2-D mipmap
gluCylinder (3G) - draw a cylinder
gluDeleteNurbsRenderer (3G) - destroy a NURBS object
gluDeleteQuadric (3G) - destroy a quadrics object
gluDeleteTess (3G) - destroy a tessellation object
gluDisk (3G) - draw a disk
gluErrorString (3G) - produce an error string from an OpenGL or GLU error code
gluGetNurbsProperty (3G) - get a NURBS property
gluGetString (3G) - return a string describing the GLU version or GLU extensions
gluGetTessProperty (3G) - get a tessellation object property
gluLoadSamplingMatrices (3G) - load NURBS sampling and culling matrices
gluLookAt (3G) - define a viewing transformation
gluNewNurbsRenderer (3G) - create a NURBS object
gluNewQuadric (3G) - create a quadrics object
gluNewTess (3G) - create a tessellation object
gluNextContour (3G) - mark the beginning of another contour
gluNurbsCallback (3G) - define a callback for a NURBS object
gluNurbsCallbackDataEXT (3G) - set a user data pointer
gluNurbsCurve (3G) - define the shape of a NURBS curve
gluNurbsProperty (3G) - set a NURBS property
gluNurbsSurface (3G) - define the shape of a NURBS surface
gluOrtho2D (3G) - define a 2D orthographic projection matrix
gluPartialDisk (3G) - draw an arc of a disk
gluPerspective (3G) - set up a perspective projection matrix
gluPickMatrix (3G) - define a picking region
gluProject (3G) - map object coordinates to window coordinates
gluPwlCurve (3G) - describe a piecewise linear NURBS trimming curve
gluQuadricCallback (3G) - define a callback for a quadrics object
gluQuadricDrawStyle (3G) - specify the draw style desired for quadrics
gluQuadricNormals (3G) - specify what kind of normals are desired for quadrics
gluQuadricOrientation (3G) - specify inside/outside orientation for quadrics
gluQuadricTexture (3G) - specify if texturing is desired for quadrics
gluScaleImage (3G) - scale an image to an arbitrary size
gluSphere (3G) - draw a sphere
gluTessBeginContour, gluTessEndContour (3G) - delimit a contour description
gluTessBeginPolygon (3G) - delimit a polygon description
gluTessCallback (3G) - define a callback for a tessellation object
gluTessEndPolygon (3G) - delimit a polygon description
gluTessNormal (3G) - specify a normal for a polygon
gluTessProperty (3G) - set a tessellation object property
gluTessVertex (3G) - specify a vertex on a polygon
gluUnProject (3G) - map window coordinates to object coordinates
glVertex2d, glVertex2f, glVertex2i, glVertex2s, glVertex3d, glVertex3f, glVertex3i, glVertex3s, glVertex4d, glVertex4f, glVertex4i, glVertex4s, glVertex2dv, glVertex2fv, glVertex2iv, glVertex2sv, glVertex3dv, glVertex3fv, glVertex3iv, glVertex3sv, glVertex4dv, glVertex4fv, glVertex4iv, glVertex4sv (3G) - specify a vertex
glVertexPointer (3G) - define an array of vertex data
glVertexPointerEXT (3G) - define an array of vertex data
glViewport (3G) - set the viewport
GLwCreateMDrawingArea (3X) - Create a Motif/OpenGL Drawing Widget.
GLwDrawingArea, GLwMDrawingArea (3X) - OpenGL drawing widgets.
GLwDrawingAreaMakeCurrent (3X) - Make the current GLwDrawingArea current.
GLwDrawingAreaSwapBuffers (3X) - Swap buffers in a GLwDrawingArea.
glx_getgdesc (3Tk) - Inquire about graphics system description
GLX_SGIX_hyperpipe (??) - hyperpipe extension
glx_viewport (3Tk) - configure the GL viewport
glXAssociateDMPbufferSGIX (3G) - associate a DMbuffer with a GLX pixel buffer
GLXAux (3Tk) - an extension to Tcl/Tk which allows IrisGL rendering
glXBindChannelToWindowSGIX (3G) - bind or unbind a window and a channel
glXBindHyperpipeSGIX (3G) - bind a rendering context with a hyperpipe configuration
glXBindSwapBarrierSGIX (3G) - synchronize buffer swaps with other screens
glXChannelRectSGIX (3G) - specify area of frame buffer to resize to video resolution
glXChooseFBConfigSGIX (3G) - return a list of GLX frame buffer configurations that match the specified attributes
glXChooseVisual (3G) - return a visual that matches specified attributes
glXCopyContext (3G) - copy state from one rendering context to another
glXCreateContext (3G) - create a new GLX rendering context
glXCreateContextWithConfigSGIX (3G) - create a new GLX rendering context with specified frame buffer configuration
glXCreateGLXPbufferSGIX (3G) - create a GLX pixel buffer
glXCreateGLXPixmap (3G) - create an off-screen GLX rendering area
glXCreateGLXPixmapWithConfigSGIX (3G) - create an off-screen GLX rendering area with specified frame buffer configuration
glXCreateGLXVideoSourceSGIX (3G) - create a GLX handle for a video input stream
GlxCreateMDraw (3X) - Create a Motif/GL Drawing Widget.
GlxCreateMDraw (3X) - Create a Motif/GL Drawing Widget.
glXDestroyContext (3G) - destroy a GLX context
glXDestroyGLXPbufferSGIX (3G) - destroy a GLX pixel buffer
glXDestroyGLXPixmap (3G) - destroy a GLX pixmap
glXDestroyGLXVideoSourceSGIX (3G) - destroy a GLX video source
glXDestroyHyperpipeConfigSGIX (3G) - destroy a hyperpipe configuration
GlxDraw, GlxMDraw (3X) - GL drawing widgets.
GlxDraw, GlxMDraw (3X) - GL drawing widgets.
glXFreeContextEXT (3G) - frees the client-side portion of a context
glXGetClientString (3G) - return a string describing the client
GLXgetconfig (3G) - Get configuration information for GL rendering into an X window
glXGetConfig (3G) - return information about GLX visuals
glXGetContextIDEXT (3G) - returns the XID for a GLX rendering context
glXGetCurrentContext (3G) - return the current context
glXGetCurrentDisplay (3G) - get display for current context
glXGetCurrentDisplayEXT (3G) - returns the display for the current context
glXGetCurrentDrawable (3G) - return the current drawable
glXGetCurrentReadDrawableSGI (3G) - return the current drawable
glXGetFBConfigAttribSGIX (3G) - return information about a GLX frame buffer configuraton
glXGetFBConfigFromVisualSGIX (3G) - return frame buffer configuration that is associated with visual
glXGetSelectedEventSGIX (3G) - returns GLX events which are selected for a window or a GLX pixel buffer
glXGetVideoSyncSGI (3G) - obtain value of vertical retrace counter
glXGetVisualFromFBConfigSGIX (3G) - return visual that is associated with the frame buffer configuration
glXHyperpipeConfigSGIX (3G) - Configure a hyperpipe
glXImportContextEXT (3G) - import an existing GLX rendering context
glXIntro (3G) - Introduction to OpenGL in the X window system
glXIsDirect (3G) - indicate whether direct rendering is enabled
glXJoinSwapGroupSGIX (3G) - synchronize buffer swaps with other drawables
GLXlink (3G) - Configure X window for GL rendering
glXMakeCurrent (3G) - attach a GLX context to a window or a GLX pixmap
glXMakeCurrentReadSGI (3G) - attach a GLX context to separate read and write drawables
glXQueryChannelDeltasSGIX (3G) - returns the precision constraints for any frame buffer area that is to be resized to match the video resolution
glXQueryChannelRectSGIX (3G) - returns area of frame buffer that is to be resized to match video resolution
glXQueryContextInfoEXT (3G) - returns information about a GLX rendering context
glXQueryExtension (3G) - indicate whether the GLX extension is supported
glXQueryExtensionsString (3G) - return list of supported extensions
glXQueryGLXPbufferSGIX (3G) - returns information about a GLX pixel buffer
glXQueryHyperpipeConfigSGIX (3G) - Query the details of a hyperpipe configuration
glXQueryHyperpipeNetworkSGIX (3G) - query the physical connectivity of the hardware
glXQueryMaxSwapBarriersSGIX (3G) - query number of barriers supported on a screen
glXQueryServerString (3G) - return string describing the server
glXQueryVersion (3G) - return the version numbers of the GLX extension
glXSelectEventSGIX (3G) - select GLX events for a window or a GLX pixel buffer
glXSwapBuffers (3G) - exchange front and back buffers
glXSwapIntervalSGI (3G) - set a minimum time between buffer swaps
GLXunlink (3G) - End GL rendering in an X window
glXUseXFont (3G) - create bitmap display lists from an X font
glXWaitGL (3G) - complete GL execution prior to subsequent X calls
glXWaitVideoSyncSGI (3G) - wait for vertical retrace
glXWaitX (3G) - complete X execution prior to subsequent OpenGL calls
glxwin (3Tk) - Create and manipulate glxwin widgets
GLXwinset (3G) - Begin GL rendering in an X window
gmatch (3G) - shell global pattern matching
gmnmx (3G) - gets data computed by minmax
grab (3Tk) - Confine pointer and keyboard events to a window sub-tree
grantpt (3C) - grant access to the slave pseudo-terminal device
greset (3G) - resets graphics state
greset (3G) - resets graphics state
gRGBco (3G) - gets the current RGB color values
gRGBcolor (3G) - gets the current RGB color values
gRGBcu (3G) - obsolete routine
gRGBcursor (3G) - obsolete routine
gRGBma (3G) - returns the current RGB writemask
gRGBmask (3G) - returns the current RGB writemask
grio_action_list (3X) - atomically execute a list of bandwidth reserve/unreserve actions
grio_associate_file (3X) - associate a grio stream id with a specific file
grio_query_fs (3X) - determine the bandwidth remaining on a file system
grio_reserve_file (3X) - request a guaranteed rate I/O reservation on a file
grio_reserve_fs (3X) - request a guaranteed rate I/O reservation on a file system
grio_unreserve_bw (3X) - remove an I/O rate guarantee reservation
gselec (3G) - puts the system in selecting mode
gselect (3G) - puts the system in selecting mode
gsync (3G) - waits for a vertical retrace period
gsync (3G) - waits for a vertical retrace period
gversi (3G) - returns graphics hardware and library version information
gversion (3G) - returns graphics hardware and library version information

H

handle_sigfpes (3C) - floating-point exception handler package
handle_sigfpes (3F) - floating-point exception handler package
hash (3) - hash database access method
hgram (3G) - modifies pixel transfers to compute a histogram
history (3Tcl) - Manipulate the history list
HQR, SHQR (3F) - EISPACK routine. This subroutine finds the eigenvalues of a REAL UPPER Hessenberg matrix by the QR method.
HQR2, SHQR2 (3F) - EISPACK routine. This subroutine finds the eigenvalues and eigenvectors of a REAL UPPER Hessenberg matrix by the QR method. The eigenvectors of a REAL GENERAL matrix can also be found if ELMHES and ELTRAN or ORTHES and ORTRAN have been used to reduce this general matrix to Hessenberg form and to accumulate the similarity transformations.
hsearch, hcreate, hdestroy (3C) - manage hash search tables
hstgrm (3G) - modifies pixel transfers to compute a histogram
htonl, htons, ntohl, ntohs (3N) - convert values between host and network byte order
HTRIB3, SHTRIB3 (3F) - EISPACK routine. This subroutine forms the eigenvectors of a COMPLEX HERMITIAN matrix by back transforming those of the corresponding real symmetric tridiagonal matrix determined by HTRID3.
HTRIBK, SHTRIBK (3F) - EISPACK routine. This subroutine forms the eigenvectors of a COMPLEX HERMITIAN matrix by back transforming those of the corresponding real symmetric tridiagonal matrix determined by HTRIDI.
HTRID3, SHTRID3 (3F) - EISPACK routine. This subroutine reduces a COMPLEX HERMITIAN matrix, stored as a single square array, to a real symmetric tridiagonal matrix using unitary similarity transformations.
HTRIDI, SHTRIDI (3F) - EISPACK routine. This subroutine reduces a COMPLEX HERMITIAN matrix to a real symmetric tridiagonal matrix using unitary similarity transformations.
HUGE (3I) - Returns the largest number in the integer or real numeric model
hypot, hypotf, fhypot, hypotl, cabs, cabsf, fcabs, cabsl (3M) - Euclidean distance, complex absolute value

I

I18N::Collate (3) - compare 8-bit scalar data according to the current locale
IACHAR (3I) - Returns the position of a character in the ASCII collating sequence
IAND (3I) - Performs a logical AND
IBCLR (3I) - Clears one bit
IBITS (3I) - Extracts a sequence of bits
IBSET (3I) - Sets one bit
ICMAX1 (3F) - find the index of the element whose real part has maximum absolute value
iconsi (3G) - specifies the icon size of a window
iconsize (3G) - specifies the icon size of a window
iconti (3G) - assigns the icon title for the current graphics window.
icontitle (3G) - assigns the icon title for the current graphics window.
iconv (3C) - code conversion function
iconv_close (3C) - code conversion deallocation function
iconv_open (3C) - code conversion allocation function
idamax, isamax, izamax, icamax (3F) - BLAS Maximum index functions
idate, itime (3F) - return date or time in numerical form
IEEE_BINARY_SCALE (3I) - Returns y multiplied by 2**n
IEEE_CLASS (3I) - Returns the class to which x belongs
IEEE_COPY_SIGN (3I) - Returns x with the sign of y
IEEE_EXPONENT (3I) - Returns the unbiased exponent of x
IEEE_FINITE (3I) - Tests for x being greater than negative infinity and less than positive infinity.
IEEE_INT (3I) - Converts x to an integral value
IEEE_IS_NAN (3I) - Tests for x being a NaN
IEEE_NEXT_AFTER (3I) - Returns the next representable neighbor of x in the direction toward y
IEEE_REAL (3I) - Converts x to a real value
IEEE_REMAINDER (3I) - Returns the remainder of x divided by y
IEEE_UNORDERED (3I) - Tests for x or y being a NaN
IEOR (3I) - Performs an exclusive OR
if (3Tcl) - Execute scripts conditionally
IFL (3) - overview of Image Format Library
iflAlias (3) - Alias format image file
iflBitArray (3) - limited subscriptable bit array class
iflBMP (3) - Windows bitmap format image file
iflClassList (3) - class inheritance chain
iflColormap (3) - class for defining colormaps
iflColormap (3) - class for defining colormaps
iflColorModelChans, iflColorModelHasAlpha, iflColorModelFromChans (3) - color model utilities
iflConfig (3) - class for pixel abstraction
iflConfig (3) - class for pixel abstraction
iflDatabase (3) - access to image file format database
iflDatabase (3) - access to image file format database
iflDataClosestType, iflDataIsIntegral, iflDataIsSigned, iflDataMax, iflDataMin, iflDataSize, iflDataTypeFromRange (3) - convenience functions for using IFL data types
iflDataClosestType, iflDataIsIntegral, iflDataIsSigned, iflDataMax, iflDataMin, iflDataSize, iflDataTypeFromRange (3) - convenience functions for using IFL data types
iflDataTypeName, iflOrientationName, iflOrderName, iflColorModelName, iflCompressionName (3) - convenience functions IFL enumerated types to strings
iflDictionary (3) - implements a dictionary of named elements
iflError, iflErrorV, iflGetErrorHandler, iflSetErrorHandler, iflStatusToString, iflMainStatusToString, iflStatusEncode (3) - error handling
iflError, iflErrorV, iflGetErrorHandler, iflSetErrorHandler, iflStatusToString, iflMainStatusToString, iflStatusEncode (3) - error handling
iflFile (3) - abstraction for image file access
iflFile (3) - abstraction for image file access
iflFileConfig (3) - iflFile configuration descriptor
iflFileConfig (3) - iflFile configuration descriptor
iflFileDesc (3) - IFL's image file descriptor
iflFileDesc (3) - IFL's image file descriptor
iflFIT (3) - FIT file format
iflFormat (3) - abstraction of an image file format
iflFormat (3) - abstraction of an image file format
iflGeoTIFF (3) - GeoTIFF support for IFL TIFF files
iflGIF (3) - GIF format image file
iflHashTable, iflHashElem (3) - base classes from which hash table implementations may be derived
iflJFIF (3) - a JFIF formatted image file
iflList, iflMultiList (3) - simple doubly-linked list
iflListItem (3) - an element of an doubly linked list (iflList or iflMultiList)
iflListIter, iflListIterRev, iflMultiListIter, iflMultiListIterRev (3) - iterators for iflList and iflMultiList
iflLut (3) - base class for defining look-up tables
iflLut (3) - base class for defining look-up tables
iflMinMax: iflMin, iflMax (3) - simple min/max template functions
iflMT, iflQT, iflMV (3) - a multi-track movie file
iflName (3) - named element in an iflDictionary
iflNITF (3) - NITF file format
iflPCD (3) - Kodak Photo CD Image Pac file format
iflPCDO (3) - Kodak Photo CD Overview Pac file format
iflPixel (3) - class for pixel abstraction
iflPixel (3) - class for pixel abstraction
iflPNG (3) - a PNG formatted image file
iflPPM (3) - PPM file format
iflRaw (3) - raw image file format
iflSGI (3) - SGI format image file
iflSGIColormap (3) - default SGI colormap
iflSGIColormap (3) - default SGI colormap
iflSize (3) - defines the size of an IL image
iflSize (3) - defines the size of an IL image
iflSOFTIMAGE (3) - SOFTIMAGE format image file
iflTIFF (3) - a TIFF formatted image file
iflTile2D (3) - defines a simple 2-D rectangle
iflTile2D (3) - defines a simple 2-D rectangle
iflTile3D (3) - defines a simple 3-D rectangle
iflTile3D (3) - defines a simple 3-D rectangle
iflTileIter (3) - tile iterator
iflXBM (3) - XBM format image file
iflXPM (3) - XPM format image file
iflYUV (3) - YUV format image file
ILAENV (3F) - i called from the LAPACK routines to choose problem-dependent parameters for the local environment
ilbuffer (3G) - allocates framebuffer space to hold temporary image processing results
ilbuffer (3G) - allocates framebuffer space to hold temporary image processing results
ildraw (3G) - selects a previously allocted ilbuffer as the drawing destination
ildraw (3G) - selects a previously allocted ilbuffer as the drawing destination
imag, aimag, dimag, qimag (3F) - FORTRAN imaginary part of complex argument
image (3Tk) - Create and manipulate images
ImageByteOrder, BitmapBitOrder, BitmapPad, BitmapUnit, DisplayHeight, DisplayHeightMM, DisplayWidth, DisplayWidthMM, XListPixmapFormats, XPixmapFormatValues (3X11) - image format functions and macros
imakeb (3G) - registers the screen background process
imakebackground (3G) - registers the screen background process
impCreateZoom, impDestroyZoom, impResetZoom, impZoomRow (3) - zoom image data
impOpen, impOpenFd, impOpenBuf, impOpenExt, impOpenFdExt, impOpenBufExt, impClose, impCloseFd (3) - open/close SGI Image Format files
impPackRow, impUnpackRow (3) - convert pixel width between 1 and 2 bytes
impPerror, impErrorString (3) - report libimp execution error messages
impReadRow, impReadRowB, impWriteRow, impWriteRowB (3) - read/write SGI Image Format files
impRGBtoW, impWtoRGB, impRGBtoK, impKtoRGB, impRGBtoCMY, impCMYtoRGB, impRGBtoYIQ, impYIQtoRGB, impRGBtoYUV, impYUVtoRGB, impRGBtoYCbCr, impYCbCrtoRGB, impRGBtoCMYK, impRGBtoDevCMYK, impCMYKtoRGB, impRGBtoHSV, impHSVtoRGB, impRGBtoHLS, impHLStoRGB (3) - color space conversion
impZeroRow, impInitRow, impCopyRow, impSAddRow, impVAddRow, impSSubRow, impVSubRow, impSMulRow, impSDivRow, impClampRow (3) - math operations on image rows
IMTQL1, SIMTQL1 (3F) - EISPACK routine. This subroutine finds the eigenvalues of a SYMMETRIC TRIDIAGONAL matrix by the implicit QL method.
IMTQL2, SIMTQL2 (3F) - EISPACK routine. This subroutine finds the eigenvalues and eigenvectors of a SYMMETRIC TRIDIAGONAL matrix by the implicit QL method. The eigenvectors of a FULL SYMMETRIC matrix can also be found if TRED2 has been used to reduce this full matrix to tridiagonal form.
IMTQLV, SIMTQLV (3F) - EISPACK routine. This subroutine is a variant of IMTQL1.
incr (3Tcl) - Increment the value of a variable
incrTcl (3Tcl) - Object-oriented extensions to Tcl
index (3F) - return location of FORTRAN substring
INDEX (3I) - Determines the starting location of a character substring in a string
inet: inet_addr, inet_network, inet_makeaddr, inet_lnaof, inet_netof, inet_ntoa (3N) - Internet address manipulation
inet_aton, inet_addr, inet_network, inet_isaddr, inet_ntoa, inet_makeaddr, inet_lnaof, inet_netof (3N) - Internet address manipulation routines
info (3Tcl) - Return information about the state of the Tcl interpreter
init_lock, acquire_lock, release_lock, stat_lock, spin_lock (3X) - ABI mutual exclusion primitives
initauxgroup (3C) - initialize auxiliary identification and authentication information
initgroups (3c) - initialize group access list
initna (3G) - initializes the name stack
initnames (3G) - initializes the name stack
insque, remque (3C) - insert/remove element from a queue
integer (3) - Perl pragma to compute arithmetic in integer instead of double
intro (3) - introduction to functions and libraries
intro (3G) - description of routines in the Graphics Library and Distributed Graphics Library
intro (3G) - description of routines in the Graphics Library and Distributed Graphics Library
intro (3N) - introduction to SVR4 networking functions and libraries
INTRO_CONVERSION (3F) - Introduction to conversion routines
INTRO_FFIO (3F) - Describes performance options available with the FFIO layers
INTRO_INTRIN (3I) - Introduction to intrinsic procedures
INTRO_LIBM (3M) - Introduction to math library routines
INTRO_PXF (3F) - Introduction to PXF POSIX library
INVIT, SINVIT (3F) - EISPACK routine. This subroutine finds those eigenvectors of a REAL UPPER Hessenberg matrix corresponding to specified eigenvalues, using inverse iteration.
IO (3) - load various IO modules
IO::File (3) - supply object methods for filehandles
IO::Handle (3) - supply object methods for I/O handles
IO::pipe (3) - supply object methods for pipes
IO::Seekable (3) - supply seek based methods for I/O objects
IO::Select (3) - OO interface to the select system call
IO::Socket (3) - Object interface to socket communications
io_ss (3) - SpeedShop I/O tracing library
IOR (3I) - Performs an inclusive OR
ios (3C++) - input/output formatting
iostream (3C++) - buffering, formatting and input/output
IPC::Open2, open2 (3) - open a process for both reading and writing
IPC::Open3, open3 (3) - open a process for reading, writing, and error handling
IPXFARGC (3F) - Returns the number of command-line arguments excluding the command name
IPXFWSTOPSIG (3F) - Returns part of the lower bits of signal number that terminates child process
IPXFWTERMSIG (3F) - Returns lower bit of signal that terminates a child process
isastream (3C) - test a file descriptor
IsCursorKey, IsFunctionKey, IsKeypadKey, IsMiscFunctionKey, IsModiferKey, IsPFKey, IsPrivateKeypadKey (3X11) - keysym classification macros
isencrypt (3G) - determine whether a character buffer is encrypted
ISHELL (3F) - Executes a UNICOS shell command
ISHFT (3I) - Performs a logical shift
ISHFTC (3I) - Performs a circular shift of the rightmost bits
ismex (3G) - obsolete routine
ismex (3G) - obsolete routine
isnan, isnand, isnanf, finite, fpclass, unordered, isnanl, finitel, fpclassl, unorderedl (3C) - determine type of floating-point number
isobj (3G) - returns whether an object exists
isobj (3G) - returns whether an object exists
isqueu (3G) - returns whether the specified device is enabled for queuing
isqueued (3G) - returns whether the specified device is enabled for queuing
istag (3G) - returns whether a tag exists in the current open object
istag (3G) - returns whether a tag exists in the current open object
istexloaded (3G) - returns whether the texture with the passed id is resident in texture memory
istream (3C++) - formatted and unformatted input
istxld (3G) - returns whether the texture with the passed id is resident in texture memory
IZMAX1 (3F) - find the index of the element whose real part has maximum absolute value

J

j0, j1, jn, y0, y1, yn, j0l, j1l, jnl, y0l, y1l, ynl (3M) - bessel functions
join (3Tcl) - Create a string by joining together list elements

K

keepas (3G) - specifies the aspect ratio of a graphics window
keepaspect (3G) - specifies the aspect ratio of a graphics window
kill (3B) - send signal to a process (4.3BSD)
killpg (3B) - send signal to a process group (4.3BSD)
KIND (3I) - Returns the value of the kind type parameter of x

L

l3tol, ltol3 (3C) - convert between 3-byte integers and long integers
label (3Tk) - Create and manipulate label widgets
lampon, lampof (3G) - control the keyboard display lights
lampon, lampoff (3G) - control the keyboard display lights
lapack.z - (no summary available)
lappend (3Tcl) - Append list elements onto a variable
LBOUND (3I) - Returns all the lower bounds or a specified lower bound of an array
ldahread (3X) - read the archive header of a member of an archive file
ldclose, ldaclose (3X) - close a common object file
ldfhread (3X) - read the file header of a common object file
ldgetaux (3X) - retrieve an auxiliary entry, given an index
ldgetname (3X) - retrieve symbol name for object file symbol table entry
ldgetpd (3X) - retrieve procedure descriptor given a procedure descriptor index
ldgetsymstr (3X) - get a symbol type string
ldlread, ldlinit, ldlitem (3X) - manipulate line number entries of a common object file function
ldlseek, ldnlseek (3X) - seek to line number entries of a section of a common object file
ldohseek (3X) - seek to the optional file header of a common object file
ldopen, ldaopen (3X) - open a common object file for reading
ldreadst (3X) - read symbolt table information
ldrseek, ldnrseek (3X) - seek to relocation entries of a section of a common object file
ldshread, ldnshread (3X) - read an indexed/named section header of a common object file
ldsseek, ldnsseek (3X) - seek to an indexed/named section of a common object file
ldtbindex (3X) - compute the index of a symbol table entry of a common object file
ldtbread (3X) - read an indexed symbol table entry of a common object file
ldtbseek (3X) - seek to the symbol table of a common object file
leftbu, rightb (3G) - enables and disables drawing to the left/right buffer
leftbu, rightb (3G) - enables and disables drawing to the left/right buffer
leftbuffer, rightbuffer (3G) - enables and disables drawing to the left/right buffer
leftbuffer, rightbuffer (3G) - enables and disables drawing to the left/right buffer
len (3F) - return length of Fortran string
LEN (3I) - Determines the length of a character string
LEN_TRIM (3I) - Returns the length of the character argument without counting trailing blank characters
LENGTH (3I) - Returns the number of words transferred
less (3) - perl pragma to request less of something from the compiler
lfmt, vlfmt (3C) - display error message in standard format and pass to logging and monitoring services
lgamma, gamma, lgammal, gammal (3M) - log gamma function
LGE, LGT, LLE, LLT (3I) - Compares strings lexically
lib (3) - manipulate @INC at compile time
libfastm (3M) - fast transcendental library
libimp.z - (no summary available)
libpbm (3) - functions to support portable bitmap programs
libperfex, start_counters, read_counters, print_counters, print_costs, load_costs (3C) - A procedural interface to processor event counters
libpgm (3) - functions to support portable graymap programs
libpod.z - (no summary available)
libppm (3) - functions to support portable pixmap programs
libprintui.z - (no summary available)
library (3Tcl) - standard library of Tcl procedures
librwtool (3C++) - Rogue Wave library class introduction
libscan.z - (no summary available)
libsphere (3L) - the Sphere Library
libsphere (3L) - the Sphere Library
libspool.z - (no summary available)
libstiff.z - (no summary available)
libt6 (3N) - TSIX trusted IPC library (part of libc in Trusted IRIX)
libtiff (3T) - introduction to libtiff, a library for reading and writing TIFF files
lindex (3Tcl) - Retrieve an element from a list
linesm (3G) - specify antialiasing of lines
linesmooth (3G) - specify antialiasing of lines
linewi, linewf (3G) - specifies width of lines
linewidth, linewidthf (3G) - specifies width of lines
link_addr (??) - elementary address specification routines for link level access
linsert (3Tcl) - Insert elements into a list
lio_listio, lio_listio64 (3) - linked asynchronous I/O operations
list (3Tcl) - Create a list
listbox (3Tk) - Create and manipulate listbox widgets
listen (3N) - listen for connections on a socket
llength (3Tcl) - Count the number of elements in a list
lmbind (3G) - selects a new material, light source, or lighting model
lmbind (3G) - selects a new material, light source, or lighting model
lmcolo (3G) - change the effect of color commands while lighting is active
lmcolor (3G) - change the effect of color commands while lighting is active
lmdef (3G) - defines or modifies a material, light source, or lighting model
lmdef (3G) - defines or modifies a material, light source, or lighting model
lmsgi : license_init, license_chk_out, license_chk_in, license_timer, license_set_attr, license_expdate, license_errstr, license_status, license_free (3) - SGI FLEXlm library
loadma (3G) - loads a transformation matrix
loadmatrix (3G) - loads a transformation matrix
loadna (3G) - loads a name onto the name stack
loadname (3G) - loads a name onto the name stack
loc (3F) - return the address of an object
LOC (3I) - Obtains the word address of a variable
locale (3) - Perl pragma to use and avoid POSIX locales for built-in operations
localeconv (3C) - get numeric formatting information
lockf (3C) - record locking on files
log, alog, dlog, qlog, clog, zlog (3F) - FORTRAN natural logarithm intrinsic function
log10, alog10, dlog10, qlog10 (3F) - FORTRAN common logarithm intrinsic function
LOGICAL (3I) - Converts between kinds of logical
logico (3G) - specifies a logical operation for pixel writes
logicop (3G) - specifies a logical operation for pixel writes
lookat (3G) - defines a viewing transformation
lookat (3G) - defines a viewing transformation
lower (3Tk) - Change a window's position in the stacking order
lrange (3Tcl) - Return one or more adjacent elements from a list
lreplace (3Tcl) - Replace elements in a list with new elements
lRGBra (3G) - sets the range of RGB colors used for depth-cueing
lRGBrange (3G) - sets the range of RGB colors used for depth-cueing
LSAME (3F) - return .TRUE
LSAMEN (3F) - test if the first N letters of CA are the same as the first N letters of CB, regardless of case
lsback (3G) - controls whether the ends of a line segment are colored
lsbackup (3G) - controls whether the ends of a line segment are colored
lsearch (3Tcl) - See if a list contains a particular element
lsearch, lfind (3C) - linear search and update
lsetde (3G) - sets the depth range
lsetdepth (3G) - sets the depth range
lshade (3G) - sets range of color indices used for depth-cueing
lshaderange (3G) - sets range of color indices used for depth-cueing
lsort (3Tcl) - Sort the elements of a list
lsrepe (3G) - sets a repeat factor for the current linestyle
lsrepeat (3G) - sets a repeat factor for the current linestyle
lstrwidth (3G) - returns the width of the specified text string
lstwid (3G) - returns the width of the specified text string

M

m_fork, m_kill_procs, m_set_procs, m_get_numprocs, m_get_myid, m_next, m_lock, m_unlock, m_park_procs, m_rele_procs, m_sync (3P) - parallel programming primitives
mac_cleared, mac_clearedlbl, mac_cleared_fl, mac_cleared_fs, mac_cleared_pl, mac_cleared_ps (3C) - report on user's clearance
mac_demld (3C) - unset the moldiness of a MAC label
mac_dominate, mac_equal (3C) - compare two MAC labels for the dominates/equal relationship
mac_dup (3C) - produce a duplicate copy of a MAC label
mac_free (3C) - free allocated memory
mac_from_msen, mac_from_mint, mac_from_msen_mint (3C) - convert independent sensitivity or integrity labels to mac_t
mac_from_text, mac_to_text, mac_to_text_long (3C) - convert a POSIX MAC string from/to mac_t
mac_get_fd, mac_set_fd (3C) - get the MAC label associated with an open file
mac_get_file, mac_set_file (3C) - get or set the MAC label for a pathname
mac_get_proc, mac_set_proc (3C) - get or set the MAC label of this process
mac_is_moldy (3C) - get the moldiness of a MAC label
mac_set_moldy (3C) - set the moldiness of a MAC label
mac_size, msen_size, mint_size (3C) - get the size of a MAC, MSEN, or MINT label
mac_valid, msen_valid, mint_valid (3C) - validate a MAC, MSEN, or MINT label
makecontext, swapcontext (3C) - manipulate user contexts
makeob (3G) - creates an object
makeobj (3G) - creates an object
maketa (3G) - numbers a routine in the display list
maketag (3G) - numbers a routine in the display list
malloc, free (3F) - main memory allocator
malloc, free, realloc, calloc, mallopt, mallinfo, mallocblksize, recalloc, memalign (3X) - fast main memory allocator
malloc, free, realloc, calloc, memalign, valloc (3C) - main memory allocator
malloc, free, realloc, calloc, memalign, valloc, cvmalloc_error (3) - WorkShop memory allocation library
malloc, free, realloc, calloc, memalign, valloc, ssmalloc_error (3) - SpeedShop memory allocation library
manipulators (3C++) - iostream out of band manipulations
mapcol (3G) - changes a color map entry
mapcolor (3G) - changes a color map entry
maplun (3F) - returns the integer file descriptor for a Fortran logical unit number
mapw (3G) - maps a point on the screen into a line in 3-D world coordinates
mapw (3G) - maps a point on the screen into a line in 3-D world coordinates
mapw2 (3G) - maps a point on the screen into 2-D world coordinates
mapw2 (3G) - maps a point on the screen into 2-D world coordinates
math (3M) - introduction to mathematical library functions
Math::BigFloat (3) - Arbitrary length float math package
Math::BigInt (3) - Arbitrary size integer math package
Math::Complex (3) - complex numbers and associated mathematical functions
Math::Trig (3) - trigonometric functions
matherr (3M) - error-handling function
MATMUL (3I) - Performs matrix multiplication of numeric or logical matrices
MAX, MAX0, AMAX1, DMAX1, AMAX0, MAX1 (3I) - Returns maximum values
max, max0, imax0, jmax0, amax0, max1, amax1, dmax1, qmax1, imax1, jmax1, aimax0, ajmax0 (3F) - FORTRAN maximum-value functions
MAXEXPONENT (3I) - Returns the maximum exponent in the numeric model
MAXLOC (3I) - Returns the location of a maximum value in an array
maxsiz (3G) - specifies the maximum size of a graphics window
maxsize (3G) - specifies the maximum size of a graphics window
MAXVAL (3I) - Returns the maximum value in an array
mbchar: mbtowc, mblen, wctomb (3C) - multibyte character handling
mbstring: mbstowcs, wcstombs, wcsxfrm (3C) - multibyte string functions
mclock (3F) - return Fortran time accounting
mdbm: mdbm_open, mdbm_close, mdbm_fetch, mdbm_store, mdbm_delete, mdbm_first, mdbm_firstkey, mdbm_next, mdbm_nextkey, mdbm_pre_split, mdbm_set_alignment, mdbm_limit_size, mdbm_invalidate, mdbm_close_fd, mdbm_sync, mdbm_lock, mdbm_unlock, mdbm_sethash(3B) - data base subroutines
mdCountReaders, mdCountWriters (3dm) - count applications using a MIDI device
mdGetDefault (3dm) - return the name of the default input or output interface
mdGetName (3dm) - return a MIDI interface name
mdGetStampMode, mdSetStampMode (3dm) - control time stamping for an MDport
mdGetStatus, mdGetChannel, mdGetByte1, mdGetByte2, mdSetStatus, mdSetChannel, mdSetByte1, mdSetByte2 (3dm) - manipulate MIDI messages
mdInit, mdRegister, mdUnRegister (3dm) - initialize MIDI system and register new interfaces
mdMalloc, mdFree, mdCallMalloc, mdCallFree, mdSetAllocator (3dm) - control memory allocation for the MIDI library
mdOpenInPort, mdOpenOutPort, mdClosePort, mdGetFd (3dm) - open and close MDports
mdPanic (3dm) - flush MIDI output and transmit (obsolete)
mdPause(3dm) - discard any queued messages and return stamp of last event
mdPrintEvent (3dm) - Generate a descriptive string for MIDI events
mdReceive (3dm) - Accept MIDI events from a port
mdSend (3dm) - send out MIDI data
mdSetDivision, mdSetTempo, mdSetTempoScale, mdGetDivision, mdGetTempo, mdTickstoNanos, mdNanosToTicks (3dm) - set tempo and division for a port
mdSetOrigin mdGetOrigin (3dm) - control origin time for synchronization
mdSetStartPoint (3dm) - Define initial MIDI-stamp and UST time values
mdSetTemporalBuffering, mdGetTemporalBuffering (3dm) - obsolete routines for controlling temporal buffering
mdTell, mdTellNow (3dm) - Return the MIDI port-specific timing information
MediaViewer (3) - a ViewKit class for viewing media files and data
memory: memccpy, memchr, memcmp, memcpy, memmove, memset (3C) - memory operations
menu (3Tk) - Create and manipulate menu widgets
menubutton (3Tk) - Create and manipulate menubutton widgets
MERGE (3I) - Chooses an alternative value according to the value of a mask
message (3Tk) - Create and manipulate message widgets
midi, mdIntro (3dm) - Introduction to the Silicon Graphics MIDI Library (libmd)
migr_range_migrate, migr_policy_args_init (3) - user migration operations
MIN, MIN0, AMIN1, DMIN1, AMIN0, MIN1 (3I) - Returns minimum values
min, min0, imin0, jmin0, amin0, min1, amin1, dmin1, qmin1, imin1, jmin1, aimin0, ajmin0 (3F) - FORTRAN minimum-value functions
MINEXPONENT (3I) - Returns the minimum (most negative) exponent of a real number in the numeric model
MINFIT, SMINFIT (3F) - EISPACK routine. This subroutine determines, towards the solution of the linear T system AX=B, the singular value decomposition A=USV of a real T M by N rectangular matrix, forming U B rather than U. Householder bidiagonalization and a variant of the QR algorithm are used.
MINLOC (3I) - Returns the location of a minimum value in an array
minmax (3G) - modifies pixel transfers to compute the minimum and maximum pixel values
minmax (3G) - modifies pixel transfers to compute the minimum and maximum pixel values
minsiz (3G) - specifies the minimum size of a graphics window
minsize (3G) - specifies the minimum size of a graphics window
mint_dom, mint_equal (3C) - compare two MINT labels for the dominates/equal relationship
mint_free (3C) - free allocated memory
mint_from_mac (3C) - extract a sensitivity label from a mac_t
mint_from_text, mint_to_text (3C) - convert a MINT string from/to mint_t
MINVAL (3I) - Returns the minimum value in an array
mkdirp, rmdirp (3G) - create, remove directories in a path
mktemp, mkstemp (3C) - make a unique file name
mktime (3C) - converts a tm structure to a calendar time
mld_create, mld_destroy, process_mldlink, process_cpulink, numa_acreate (3) - memory locality domain operations
mldset_create, mldset_destroy, mldset_place (3) - mldset operations
mlock, munlock (3C) - lock or unlock pages in memory
mlockall, munlockall (3C) - lock or unlock address space
mmode (3G) - sets the current matrix mode
mmode (3G) - sets the current matrix mode
mod, imod, jmod, amod, dmod, qmod (3F) - FORTRAN remaindering intrinsic functions
MODELS (3I) - Describes mathematical representation models for CF90 and MIPSpro 7 Fortran 90 compiler intrinsic procedures
MODULO (3I) - Modulo function
monitor, moncontrol (3X) - prepare execution profile
monobu (3G) - configures the framebuffer for monoscopic viewing
monobuffer (3G) - configures the framebuffer for monoscopic viewing
mount, sgi_mount (3R) - keep track of remotely mounted filesystems
move, movei, moves, move2, move2i, move2s (3G) - moves the current graphics position to a specified point
move, movei, moves, move2, move2i, move2s (3G) - moves the current graphics position to a specified point
mp: mp_block, mp_blocktime, mp_create, mp_destroy, mp_my_threadnum, mp_numthreads, mp_set_numthreads, mp_setup, mp_unblock, mp_setlock, mp_suggested_numthreads, mp_unsetlock, mp_barrier, mp_in_doacross_loop, mp_set_slave_stacksize (3C) - C multiprocessing utility functions
mp: mp_block, mp_blocktime, mp_create, mp_destroy, mp_my_threadnum, mp_numthreads, mp_set_numthreads, mp_setup, mp_unblock, mp_setlock, mp_suggested_numthreads,mp_unsetlock, mp_barrier, mp_in_doacross_loop, mp_set_slave_stacksize (3F) - FORTRAN multiprocessing utility routines
mpconf (3c) - multiprocessing control and information
mpool (3) - shared memory buffer pool
mq_close (3c) - close a message queue descriptor
mq_getattr (3c) - get attributes of a message queue
mq_notify (3c) - register message notification request
mq_open (3c) - open/create a message queue
mq_receive (3c) - receive a message from a queue
mq_send (3c) - send a message to a queue
mq_setattr (3c) - set attributes of a message queue
mq_unlink (3c) - remove a message queue
MrmCloseHierarchy (3X) - Closes a UID hierarchy
MrmCloseHierarchy (3X) - Closes a UID hierarchy
MrmFetchBitmapLiteral (3X) - Fetches a bitmap literal from a hierarchy
MrmFetchBitmapLiteral (3X) - Fetches a bitmap literal from a hierarchy
MrmFetchColorLiteral (3X) - Fetches a named color literal from a UID file
MrmFetchColorLiteral (3X) - Fetches a named color literal from a UID file
MrmFetchIconLiteral (3X) - Fetches an icon literal from a hierarchy
MrmFetchIconLiteral (3X) - Fetches an icon literal from a hierarchy
MrmFetchLiteral (3X) - Fetches a literal from a UID file
MrmFetchLiteral (3X) - Fetches a literal from a UID file
MrmFetchSetValues (3X) - Fetches the values to be set from literals stored in UID files
MrmFetchSetValues (3X) - Fetches the values to be set from literals stored in UID files
MrmFetchWidget (3X) - Fetches and creates an indexed (UIL named) application widget and its children
MrmFetchWidget (3X) - Fetches and creates any indexed (UIL named) application widgets and its children
MrmFetchWidgetOverride (3X) - Fetches any indexed (UIL named) application widget. It overrides the arguments specified for this application widget in UIL
MrmFetchWidgetOverride (3X) - Fetches any indexed (UIL named) application widget. It overrides the arguments specified for this application widget in UIL
MrmInitialize (3X) - Prepares an application to use MRM widget- fetching facilities
MrmInitialize (3X) - Prepares an application to use MRM widget- fetching facilities
MrmOpenHierarchy (3X) - Allocates a hierarchy ID and opens all the UID files in the hierarchy
MrmOpenHierarchy (3X) - Allocates a hierarchy ID and opens all the UID files in the hierarchy
MrmOpenHierarchyFromBuffer (3X) - Allocates a hierarchy ID and opens a buffer containing a memory image of a UID file
MrmOpenHierarchyPerDisplay (3X) - Allocates a hierarchy ID and opens all the UID files in the hierarchy
MrmOpenHierarchyPerDisplay (3X) - Allocates a hierarchy ID and opens all the UID files in the hierarchy
MrmRegisterClass (3X) - Saves the information needed for MRM to access the widget creation function for user-defined widgets
MrmRegisterClass (3X) - Saves the information needed for MRM to access the widget creation function for user-defined widgets
MrmRegisterNames (3X) - Registers the values associated with the names referenced in UIL (for example, UIL callback function names or UIL identifier names)
MrmRegisterNames (3X) - Registers the values associated with the names referenced in UIL (for example, UIL callback function names or UIL identifier names)
MrmRegisterNamesInHierarchy (3X) - Registers the values associated with the names referenced in UIL within a single hierarchy (for example, UIL callback function names or UIL identifier names)
MrmRegisterNamesInHierarchy (3X) - Registers the values associated with the names referenced in UIL within a single hierarchy (for example, UIL callback function names or UIL identifier names)
msalph (3G) - specifies treatment of alpha values during multisample rendering
msalpha (3G) - specifies treatment of alpha values during multisample rendering
msen_dom, msen_equal (3C) - compare two MSEN labels for the dominates/equal relationship
msen_free (3C) - free allocated memory
msen_from_mac (3C) - extract a sensitivity label from a mac_t
msen_from_text, msen_to_text (3C) - convert a MSEN string from/to msen_t
msmask (3G) - specifies a multisample mask
msmask (3G) - specifies a multisample mask
mspatt (3G) - specifies a multisample sample pattern
mspattern (3G) - specifies a multisample sample pattern
mssize (3G) - specifies multisample buffer configuration
mssize (3G) - specifies multisample buffer configuration
mswapb (3G) - swap multiple framebuffers simultaneously
mswapbuffers (3G) - swap multiple framebuffers simultaneously
multim (3G) - organizes the color map as a number of smaller maps
multimap (3G) - organizes the color map as a number of smaller maps
multis (3G) - specifies the use of the multisample buffer
multisample (3G) - specifies the use of the multisample buffer
multma (3G) - premultiplies the current transformation matrix
multmatrix (3G) - premultiplies the current transformation matrix
mvAddTrack, mvRemoveTrack (3dm) - add or remove tracks in a movie
mvBindOpenGLWindow, mvUnbindOpenGLWindow (3dm) - functions to associate movies with and dissociate movies from playback windows
MVBITS (3I) - Copies a sequence of bits from one integer data object to another
mvConvertTime (3dm) - Convert times from one timescale to another.
mvCreateFile, mvCreateFD, mvCreateMem (3dm) - create new movie instances
mvEditByFrame: mvReadFrames, mvInsertFrames, mvAppendFrames, mvDeleteFrames, mvPasteFrames (3dm) - edit/manipulate a movie track
mvExportFlattenedFile (3dm) - export a movie to a given file format
mvFindTrackByIndex, mvFindTrackByMedium (3dm) - find tracks in a movie
mvGetActualFrameRate (3dm) - Obtain playback frame rate information for a movie
mvGetAudioWidth, mvGetAudioRate, mvGetAudioChannels, mvGetAudioFormat, mvGetAudioCompression, (3dm) - get and set the parameters of a an audio track
mvGetBitrate (3dm) - get the stored bitrate of a movie file or track
mvGetBoundary: mvGetMovieBoundary, mvGetTrackBoundary (3dm) - get timing information about movie or track
mvGetErrno, mvClearErrno, mvGetErrorStr (3dm) - return information for Movie Library error codes
mvGetEventFD, mvSetSelectEvents, mvGetSelectEvents, mvNextEvent, mvPeekEvent, mvPendingEvents, mvGetMovieEventFD, mvSetMovieSelectEvents, mvGetMovieSelectEvents, mvNextMovieEvent, mvPeekMovieEvent, mvPendingMovieEvents mvGetPlayErrorStr (3dm) - Movie Playback Library event handling functions
mvGetFileFormat, mvGetLoopMode, mvGetLoopLimit, mvGetTitle, mvGetComment, mvGetOptimized, mvSetLoopMode, mvSetLoopLimit, mvSetTitle, mvSetComment (3dm) - get and set the properties of a movie
mvGetImageWidth, mvGetImageHeight, mvGetImageRate, mvGetImageCompression, mvGetImageInterlacing, mvGetImagePacking, mvGetImageOrientation, mvGetSpatialQuality, mvGetTemporalQuality, mvSetImageRate (3dm) - get and set the properties of a an image track
mvGetMovieCurrentTime, mvGetMovieGalleryTime, mvGetMoviePreviewTime, mvGetMovieSelectionTime, mvSetMovieCurrentTime, mvSetMovieGalleryTime, mvSetMoviePreviewTime mvSetMovieSelectionTime (3dm) - get and set movie times for special purposes
mvGetMovieGLContextState, mvSetMovieGLContextState (3dm) - set/get the GLContextState of a movie
mvGetMovieHwAcceleration, mvSetMovieHwAcceleration (3dm) - Set/get movie hardware acceleration
mvGetMoviePlayVolume, mvGetTrackPlayVolume, mvSetMoviePlayVolume, mvSetTrackPlayVolume (3dm) - get and set the volume of a movie or track
mvGetMovieTimeScale, mvSetMovieTimeScale, mvGetTrackTimeScale, mvSetTrackTimeScale (3dm) - get and set a movie or track timescale.
mvGetNumTracks (3dm) - determine number of tracks in a movie instance
mvGetParams, mvSetParams, mvAddUserParam, mvSetMovieDefaults (3dm) - get and set the parameters of a movie or track
mvGetTrackDataFieldInfo, mvSetTrackDataFieldInfo, mvTrackDataHasFieldInfo (3dm) - get track data info
mvGetTrackDuration, mvGetTrackOffset, mvGetMovieDuration, mvGetEstMovieDuration, mvSetTrackOffset (3dm) - get and set movie/track offset and duration.
mvGetTrackEnable, mvSetTrackEnable (3dm) - Enable/Disable a track
mvGetTrackLayer, mvSetTrackLayer (3dm) - set/get the layer of a track
mvGetTrackLength, mvGetScannedLength, mvGetTrackMedium, mvGetTrackId, mvGetTrackMovie, mvGetTrackDisplayWidth, mvSetTrackDisplayWidth, mvGetTrackDisplayHeight, mvSetTrackDisplayHeight, mvSetTrackSMPTEStart, mvGetTrackSMPTEStart (3dm) - get and set the properties of a track
mvGetTrackMaxDataSize, mvGetTrackMaxFieldSize (3dm) - convenience function to get the max data size of a track
mvGetTrackUserDataListHandle, mvGetMovieUserDataListHandle (3dm) - get user data dmParams of the track/movie
mvGrabOpenGL, mvReleaseOpenGL (3dm) - provide safe usage of graphics libraries from Movie Playback Library clients
mvInsertFramesAtTime: (3dm) - edit/manipulate a movie track
mvInsertTrackGapAtTime mvDeleteFramesAtTime, mvCopyFramesAtTime (3dm) - edit/manipulate a movie track
mvIntro (3dm) - introduction to the Movie Libraries
mvIsAppendOnly (3dm) - see if a movie instance is append-only
mvIsMovieFile, mvIsMovieFD, mvIsMovieMem (3dm) - identify movie instances
mvIsReadOnly (3dm) - see if a movie instance is read-only
mvMapBetweenTracks (3dm) - convert frame numbers between tracks
mvMatrix: mvSetMovieMatrix2dIdentity, mvSetMovieMatrix2d, mvGetMovieMatrix2d, mvSetTrackMatrix2dIdentity, mvSetTrackMatrix2d, mvGetTrackMatrix2d (3dm) - Matrix manipulation of movie and track
mvMovieEdit: mvInsertMovieGapAtTime, mvDeleteMovieAtTime, mvCopyMovieAtTime (3dm) - edit movie/tracks
mvMovieRect: mvSetMovieRect, mvGetMovieRect, mvGetMovieBoundsRect, mvGetMovieBoundingRect (3dm) - Set/get movie rectangle
mvOpenFile, mvOpenFD, mvOpenMem (3dm) - open movie instances
mvOpenPort, mvClosePort, mvBindMovieToPorts, mvUnbindMovieFromPorts, mvUnbindPortsFromMovie, mvGetMoviePorts, mvGetPortMovie, mvGetMovieMasterPort, mvGrabPort, mvReleasePort (3dm) - Functions to handle generic playback ports
mvOptimize (3dm) - optimize a movie file for playback after editing operations, or create a flattened movie file
mvp (3dm) - Multiport Video Processor for the O2 system
mvPlay, mvStop, mvIsMovieStopped (3dm) - Start and stop movie playback
mvPlayAt, mvGetMovieSyncInfo, mvSetMovieSyncInfo (3dm) - Intra-application synchronization support
mvQueryInt, mvQueryDouble, mvQueryPointer (3dm) - query information about file formats
mvReadCompressedImage, mvGetCompressedImageSize, mvInsertCompressedImage (3dm) - read and write compressed images in a movie
mvReadTrackData, mvInsertTrackData, mvInsertTrackDataAtOffset, (3dm) - manipulate data in track
mvReadTrackDataFields, mvInsertTrackDataFields (3dm) - read and insert field based data
mvRenderMovieToAudioBuffer, mvGetAudioBufferSize (3dm) - Multi-track, time- based access of audio data from movies.
mvRenderMovieToOpenGL, mvRenderMovieToImageBuffer, mvRenderTrackToOpenGL (3dm) - display of visual data from movies and tracks
mvResizeOpenGLWindow (3dm) - Notify Movie Playback Library of window size changes
mvSetCurrentTime, mvGetCurrentTime (3dm) - Set/get the time which is currently playing
mvSetEnableAudio, mvGetEnableAudio (3dm) - Enable/disable audio playback for a movie instance
mvSetEnableVideo, mvGetEnableVideo (3dm) - Enable/disable video playback for a movie instance
mvSetImageDefaults mvSetAudioDefaults (3dm) - set default parameters for tracks
mvSetNumMoviesHint, mvGetNumMoviesHint (3dm) - Advise Movie Playback Library of number of simultaneously-playing movies
mvSetPlayEveryFrame, mvGetPlayEveryFrame (3dm) - Make movies play against time base, or without dropping frames
mvSetPlayLoopMode, mvGetPlayLoopMode, mvSetPlayLoopLimit, mvGetPlayLoopLimit, mvSetPlayLoopCount, mvGetPlayLoopCount (3dm) - Set/get movie playback loop mode, limit, and count.
mvSetPlaySpeed, mvGetPlaySpeed, mvGetCurrentDirection (3dm) - Control rate of playback for a movie instance
mvSetPrimaryAudio, mvGetPrimaryAudio (3dm) - Set/get the movie instance with control over the audio hardware
mvSetStartFrame, mvGetStartFrame, mvSetEndFrame, mvGetEndFrame, mvSetStartTime, mvGetStartTime, mvSetEndTime, mvGetEndTime, (3dm) - Set/get the frame or time at which movie playback should start/end
mvSetVideoDisplay, mvGetVideoDisplay (3dm) - Set/get movie video display mode.
mvSetVideoStillFrame, mvGetVideoStillFrame (3dm) - Set/get movie video output still frame
mvSetViewBackground, mvGetViewBackground (3dm) - Set background color of playback region for a movie instance
mvSetViewOffset, mvGetViewOffset, mvQueryViewOffset, mvSetViewSize, mvGetViewSize, mvQueryViewSize, mvSetViewOffsetAndSize, mvGetViewKeepAspect (3dm) - Change the location and size of the region for movie display inside a GL window
mvShowCurrentTime, mvShowCurrentFrame (3dm) - Display current movie frame on screen for a movie instance
mvTrackData: mvGetTrackNumDataIndex mvGetTrackDataInfo mvGetTrackDataOffset mvGetTrackDataIndexAtTime (3dm) - retrieve information about track data
mvTrackDataParams: mvGetTrackNumDataParams, mvAddTrackDataParams, mvSetTrackDataParams, mvGetTrackDataParams (3dm) - manipulate data in track
mvWrite, mvClose, mvDestroyMovie, (3dm) - write, close, and destroy movie instances

N

n3f (3G) - specifies a normal
n3f (3G) - specifies a normal
ndbm: dbm_open, dbm_open64, dbm_close, dbm_close64, dbm_fetch, dbm_fetch64, dbm_store, dbm_store64, dbm_delete, dbm_delete64, dbm_firstkey, dbm_firstkey64, dbm_nextkey, dbm_nextkey64, dbm_error, dbm_error64, dbm_clearerr , dbm_clearerr64 (3B) - data base subroutines
NDBM_File (3) - Tied access to ndbm files
NEAREST (3I) - Returns the nearest different machine representable number in a given direction
NEQV, XOR (3M) - Computes logical difference
Net::hostent (3) - by-name interface to Perl's built-in gethost*() functions
Net::netent (3) - by-name interface to Perl's built-in getnet*() functions
Net::Ping (3) - check a remote host for reachability
Net::protoent (3) - by-name interface to Perl's built-in getproto*() functions
Net::servent (3) - by-name interface to Perl's built-in getserv*() functions
netdir_getbyname, netdir_getbyaddr, netdir_free, netdir_mergeaddr, taddr2uaddr, uaddr2taddr, netdir_perror, netdir_sperror (3N) - generic transport name-to-address translation
newpup (3G) - allocates and initializes a structure for a new menu
newpup (3G) - allocates and initializes a structure for a new menu
newtag (3G) - creates a new tag within an object relative to an existing tag
newtag (3G) - creates a new tag within an object relative to an existing tag
nl_langinfo (3C) - language information
nlist, nlist64 (3X) - get entries from name list
nmode (3G) - specify renormalization of normals
nmode (3G) - specify renormalization of normals
nobord (3G) - specifies a window without any borders
noborder (3G) - specifies a window without any borders
noise (3G) - filters valuator (mouse, cursor, and GL timer) motion
noise (3G) - filters valuator (mouse, cursor, and GL timer) motion
noport (3G) - specifies that a program does not need screen space
noport (3G) - specifies that a program does not need screen space
normal (3G) - obsolete routine
normal (3G) - obsolete routine
NOT (3I) - Performs a logical complement
ns_lookup, ns_list, ns_close (3C) - lookup interface to name service daemon
NUMBLKS (3F) - Returns the current size of a file in 4096-byte blocks
NUMERIC (3F) - return scalar values related to parameters of an associated model
nurbsc (3G) - controls the shape of a NURBS curve
nurbscurve (3G) - controls the shape of a NURBS curve
nurbss (3G) - controls the shape of a NURBS surface
nurbssurface (3G) - controls the shape of a NURBS surface

O

o32FFT (3F) - o32 vs. n32/64 FFT library differences
objdel (3G) - deletes routines from an object
objdelete (3G) - deletes routines from an object
Object (3X) - The Object widget class
Object (??) - The Object widget class
objins (3G) - inserts routines in an object at a specified location
objinsert (3G) - inserts routines in an object at a specified location
objrep (3G) - overwrites existing display list routines with new ones
objreplace (3G) - overwrites existing display list routines with new ones
ODBM_File (3) - Tied access to odbm files
ogldebug (3G) - OpenGL debugging utility
omp_init_lock, omp_destroy_lock, omp_set_lock, omp_unset_lock, omp_test_lock, OMP_INIT_LOCK, OMP_DESTROY_LOCK, OMP_SET_LOCK, OMP_UNSET_LOCK, OMP_TEST_LOCK, (3) - Set of procedures to manipulate locks
omp_set_nested, omp_get_nested, OMP_SET_NESTED, OMP_GET_NESTED (3) - Manipulates or reports status of nested parallelism
omp_set_num_threads, omp_get_num_threads, omp_get_max_threads, omp_get_thread_num, omp_get_num_procs, omp_set_dynamic, omp_get)dynamic, omp_in_parallel, OMP_SET_NUM_THREADS, OMP_GET_NUM_THREADS, OMP_GET_MAX_THREADS, OMP_GET_THREAD_NUM, OMP_GET_NUM_PROCS, OMP_SET_DYNAMIC, OMP_GET_DYNAMIC, OMP_IN_PARALLEL (3) - Runtime library procedures used to set, call or return numbers of threads
onemap (3G) - organizes the color map as one large map
onemap (3G) - organizes the color map as one large map
Opcode (3) - Disable named opcodes when compiling perl code
open (3Tcl) - Open a file
opendir, readdir, telldir, seekdir, rewinddir, closedir, dirfd (3B) - directory operations (4.3BSD)
openproj, closeproj (3c) - create/destroy a PROJ token
ops (3) - Perl pragma to restrict unsafe operations when compiling
option (3Tk) - Add/retrieve window options to/from the option database
options (3Tk) - Standard options supported by widgets
OR (3M) - Computes logical sum
ORTBAK, SORTBAK (3F) - EISPACK routine. This subroutine forms the eigenvectors of a REAL GENERAL matrix by back transforming those of the corresponding upper Hessenberg matrix determined by ORTHES.
ORTHES, SORTHES (3F) - EISPACK routine. Given a REAL GENERAL matrix, this subroutine reduces a submatrix situated in rows and columns LOW through IGH to upper Hessenberg form by orthogonal similarity transformations.
ortho, ortho2 (3G) - define an orthographic projection transformation
ortho, ortho2 (3G) - define an orthographic projection transformation
ORTRAN, SORTRAN (3F) - EISPACK routine. This subroutine accumulates the orthogonal similarity transformations used in the reduction of a REAL GENERAL matrix to upper Hessenberg form by ORTHES.
oserror, setoserror, goserror (3C) - get/set system error
ostream (3C++) - formatted and unformatted output
overla (3G) - allocates bitplanes for display of overlay colors
overlay (3G) - allocates bitplanes for display of overlay colors
overload (3) - Package for overloading perl operations
OverrideShell (3) - The OverrideShell widget class
OverrideShell (3X) - The OverrideShell widget class

P

p2open, p2close (3G) - open, close pipes to and from a command
p_class, p_time, p_type, p_rr, p_query, p_cdname (3C) - utilities for dns queries
PACK (3I) - Packs an array into an array of rank one under control of a mask
pack (3Tk) - Geometry manager that packs around edges of cavity
pack-old (3Tk) - Obsolete syntax for packer geometry manager
pageco (3G) - sets the color of the textport background
pagecolor (3G) - sets the color of the textport background
passth (3G) - passes a single token through the Geometry Pipeline
passthrough (3G) - passes a single token through the Geometry Pipeline
patch (3G) - draws a surface patch
patch (3G) - draws a surface patch
patchb (3G) - sets current basis matrices
patchbasis (3G) - sets current basis matrices
patchc (3G) - sets the number of curves used to represent a patch
patchcurves (3G) - sets the number of curves used to represent a patch
patchp (3G) - sets the precision at which curves are drawn in a patch
patchprecision (3G) - sets the precision at which curves are drawn in a patch
path_to_handle, path_to_fshandle, fd_to_handle, handle_to_fshandle, open_by_handle, readlink_by_handle, attr_multi_by_handle, attr_list_by_handle, fssetdm_by_handle, free_handle (3) - file handle operations
pathfind (3G) - search for named file in named directories
pclos (3G) - closes a filled polygon
pclos (3G) - closes a filled polygon
pcreate: pcreatel, pcreatev, pcreateve, pcreatelp, pcreatevp (3C) - create a process
PDFindPageSize, PDGetSizeCodeByName, PDGetNameBySizeCode (3) - page size convenience functions
PDGetCurrentResolution (3) - get current printing resolution
PDMakeMessage (3) - message creation convenience function
PDPerror, PDErrorString (3) - obtain libpod execution error messages
pdr, pdri, pdrs, pdr2, pdr2i, pdr2s (3G) - specifies the next point of a polygon
pdr, pdri, pdrs, pdr2, pdr2i, pdr2s (3G) - specifies the next point of a polygon
PDReadInfo, PDLocalReadInfo, PDLocalWriteInfo (3) - read/write the printer configuration and status information
PDReadLog, PDLocalReadLog, PDLocalWriteLog (3) - reads/writes printer log entries
PDReadStatus, PDReadOpStatus, PDLocalReadStatus, PDLocalReadOpStatus, PDLocalWriteStatus (3) - reads/writes the printer status
Perfly (3pf) - IRIS Performer scene viewer
perror, errno (3C) - print system error messages
perror, gerror, ierrno, strerror (3F) - get system error messages
perspe (3G) - defines a perspective projection transformation
perspective (3G) - defines a perspective projection transformation
pfmt, vpfmt (3C) - display error message in standard format
photo (3Tk) - Full-color images
pick (3G) - puts the system in picking mode
pick (3G) - puts the system in picking mode
picksi (3G) - sets the dimensions of the picking region
picksize (3G) - sets the dimensions of the picking region
pid (3Tcl) - Retrieve process id(s)
pixelmap (3G) - define pixel transfer LUTs
pixeltransfer (3G) - sets pixel/texel transfer modes
pixmod (3G) - specify pixel transfer mode parameters
pixmode (3G) - specify pixel transfer mode parameters
place (3Tk) - Geometry manager for fixed or rubber-sheet placement
pm_create, pm_create_simple, pm_filldefault, pm_destroy, pm_attach, pm_setdefault, pm_getdefault, pm_getall, pm_getstat, pm_setpagesize (3) - Policy Module operations
pmv, pmvi, pmvs, pmv2, pmv2i, pmv2s (3G) - specifies the first point of a polygon
pmv, pmvi, pmvs, pmv2, pmv2i, pmv2s (3G) - specifies the first point of a polygon
pnt, pnti, pnts, pnt2, pnt2i, pnt2s (3G) - draws a point
pnt, pnti, pnts, pnt2, pnt2i, pnt2s (3G) - draws a point
pntsiz, pntszf (3G) - specifies size of points
pntsize, pntsizef (3G) - specifies size of points
pntsmo (3G) - specify antialiasing of points
pntsmooth (3G) - specify antialiasing of points
Pod::HTML (3) - module to convert pod files to HTML
Pod::Text (3) - convert POD data to formatted ASCII text
polar (3C++) - functions for the C++ Complex Math Library
polarv (3G) - defines the viewer's position in polar coordinates
polarview (3G) - defines the viewer's position in polar coordinates
polf, polfi, polfs, polf2, polf2i, polf2s (3G) - draws a filled polygon
polf, polfi, polfs, polf2, polf2i, polf2s (3G) - draws a filled polygon
poly, polyi, polys, poly2, poly2i, poly2s (3G) - outlines a polygon
poly, polyi, polys, poly2, poly2i, poly2s (3G) - outlines a polygon
polymo (3G) - control the rendering of polygons
polymode (3G) - control the rendering of polygons
polysm (3G) - specify antialiasing of polygons
polysmooth (3G) - specify antialiasing of polygons
popatt (3G) - pops the attribute stack
popattributes (3G) - pops the attribute stack
popen, pclose (3S) - initiate pipe to/from a process
popmat (3G) - pops the transformation matrix stack
popmatrix (3G) - pops the transformation matrix stack
popnam (3G) - pops a name off the name stack
popname (3G) - pops a name off the name stack
popvie (3G) - pops the viewport stack
popviewport (3G) - pops the viewport stack
POSIX (3) - Perl interface to IEEE Std 1003.1
PRECISION (3I) - Returns the decimal precision of a number in the real number model
prefpo (3G) - specifies the preferred location and size of a graphics window
prefposition (3G) - specifies the preferred location and size of a graphics window
prefsi (3G) - specifies the preferred size of a graphics window
prefsize (3G) - specifies the preferred size of a graphics window
PRESENT (3I) - Determines whether an optional argument is present
printf, fprintf, snprintf, sprintf (3S) - print formatted output
prio: prioSetBandwidth, prioGetBandwidth, prioLock, prioUnlock (3X) - Priority IO operations.
proc (3Tcl) - Create a Tcl procedure
PRODUCT (3I) - Forms the product of array elements
projid, projname, fprojid, fprojname (3c) - get project ID information
psignal, psiginfo (3C) - system signal messages
PSLDLT_Preprocess, PSLDLT_Factor, PSLDLT_Solve, PSLDLT_Destroy, PSLDLT_Ordering (3F) - parallel sparse symmetric linear system solver
PSLDU_Preprocess, PSLDU_Factor, PSLDU_Solve, PSLDU_Destroy, PSLDU_Ordering (3F) - parallel sparse unsymmetric linear system solver
PSTReadImageHeader, PSTWriteImageHeader (3) - read/write printing specific STIFF image header
pthread_atfork (3P) - register fork() handlers
pthread_attr_init, pthread_attr_destroy, pthread_attr_setstacksize, pthread_attr_getstacksize, pthread_attr_setstackaddr, pthread_attr_getstackaddr, pthread_attr_setdetachstate, pthread_attr_getdetachstate (3P) - initialize thread attributes
pthread_attr_setguardsize, pthread_attr_getguardsize (3P) - get or set the thread guardsize attribute
pthread_attr_setinheritsched, pthread_attr_getinheritsched (3P) - thread scheduling inheritance attributes
pthread_attr_setschedparam, pthread_attr_getschedparam (3P) - manage thread scheduling priority attributes
pthread_attr_setschedpolicy, pthread_attr_getschedpolicy (3P) - manage scheduling policy attributes
pthread_attr_setscope, pthread_attr_getscope (3P) - thread scheduling scope attributes
pthread_cancel (3P) - request cancellation of a thread
pthread_cleanup_push, pthread_cleanup_pop (3P) - manage thread cleanup handlers
pthread_cond_init, pthread_cond_signal, pthread_cond_broadcast, pthread_cond_wait, pthread_cond_timedwait, pthread_cond_destroy (3P) - condition variables
pthread_condattr_init, pthread_condattr_destroy (3P) - initialize/destroy a condition variable attribute object
pthread_condattr_setpshared, pthread_condattr_getpshared (3P) - set and get condition variable process-shared attribute
pthread_create (3P) - create and start a thread
pthread_detach (3P) - detach a thread
pthread_equal (3P) - compare thread identifiers
pthread_exit (3P) - terminate the calling thread
pthread_join (3P) - wait for thread termination
pthread_key_create (3P) - thread-specific data key creation
pthread_key_delete (3P) - thread-specific data key deletion
pthread_kill (3P) - deliver a signal to a thread
pthread_mutex_init, pthread_mutex_lock, pthread_mutex_trylock, pthread_mutex_unlock, pthread_mutex_destroy (3P) - mutual exclusion locks
pthread_mutex_setprioceiling, pthread_mutex_getprioceiling (3P) - set/get a mutex's priority ceiling
pthread_mutexattr_init, pthread_mutexattr_destroy (3P) - initialize/destroy a mutex attribute object
pthread_mutexattr_setprotocol, pthread_mutexattr_getprotocol, pthread_mutexattr_setprioceiling, pthread_mutexattr_getprioceiling (3P) - set/get a mutex attribute object's priority and protocol
pthread_mutexattr_setpshared, pthread_mutexattr_getpshared (3P) - set and get mutex process-shared attribute
pthread_mutexattr_settype, pthread_mutexattr_gettype (3P) - set/get a mutex attribute object's type
pthread_once (3P) - thread-safe initialization
pthread_rwlock_init, pthread_rwlock_destroy (3P) - initialize/destroy a read- write lock object
pthread_rwlock_rdlock, pthread_rwlock_tryrdlock (3P) - lock a read-write lock object for reading
pthread_rwlock_unlock (3P) - unlock a read-write lock object
pthread_rwlock_wrlock, pthread_rwlock_trywrlock (3P) - lock a read-write lock object for writing
pthread_rwlockattr_init, pthread_rwlockattr_destroy (3P) - initialize/destroy a read-write lock attribute object
pthread_rwlockattr_setpshared, pthread_rwlockattr_getpshared (3P) - set/get a read-write lock attribute object's process-shared attribute
pthread_self (3P) - identify a thread
pthread_setcancelstate, pthread_setcanceltype, pthread_testcancel (3P) - manage cancelability of a thread
pthread_setconcurrency, pthread_getconcurrency (3P) - modify scheduling concurrency
pthread_setrunon_np, pthread_getrunon_np (3P) - thread CPU scheduling affinity
pthread_setschedparam, pthread_getschedparam (3P) - change thread scheduling
pthread_setspecific, pthread_getspecific (3P) - thread-specific data management
pthread_sigmask (3P) - examine and change blocked signals
ptsname (3C) - get name of the slave pseudo-terminal device
publickey: getpublickey, getsecretkey (3N) - retrieve public or secret key
PuiCreatePrintBox (3X) - creates a PrintBox widget
PuiCreatePrintDialog (3X) - create a PrintBox dialog
PuiPrintBox (3X) - print spooler interface widget
PuiPrintBoxDoPrint (3X) - invoke PrintBox printing
PuiPrintBoxGetChild (3X) - access a PrintBox widget component
pupmod, endpup (3G) - obsolete routines
pupmod, endpup (3G) - obsolete routines
pupmode, endpupmode (3G) - obsolete routines
pupmode, endpupmode (3G) - obsolete routines
pushat (3G) - pushes down the attribute stack
pushattributes (3G) - pushes down the attribute stack
pushma (3G) - pushes down the transformation matrix stack
pushmatrix (3G) - pushes down the transformation matrix stack
pushna (3G) - pushes a new name on the name stack
pushname (3G) - pushes a new name on the name stack
pushvi (3G) - pushes down the viewport stack
pushviewport (3G) - pushes down the viewport stack
putc, fputc (3F) - write a character to a fortran logical unit
putc, putchar, fputc, putw, putc_unlocked, putchar_unlocked (3S) - put character or word on a stream
putenv (3C) - change or add value to environment
putenv (3F) - change or add Fortran environment variable
putpwent (3C) - write password file entry
puts (3Tcl) - Write to a file
puts, fputs (3S) - put a string on a stream
putspent (3C) - write shadow password file entry
putwc, putwchar, fputwc (3S) - put wchar_t character on a stream
putws, fputws (3S) - put a wchar_t string on a stream
pwd (3Tcl) - Return the current working directory
pwlcur (3G) - describes a piecewise linear trimming curve for NURBS surfaces
pwlcurve (3G) - describes a piecewise linear trimming curve for NURBS surfaces
PXFACCESS (3F) - Checks the accessibility of a named file
PXFALARM (3F) - Schedule alarm signal
PXFCHDIR (3F) - Changes the current directory to a specified directory
PXFCHMOD (3F) - Sets file modes for a named file
PXFCHOWN (3F) - Changes the owner and group of a file
PXFCHROOT (3F) - Changes the root directory to a specified directory
PXFCLEARENV (3F) - Clears all environment variables
PXFCONST, PXFISCONST, IPXFCONST (3F) - Returns the value associated with symbolic constants
PXFCREAT (3F) - Creates a new file or rewrites an existing file
PXFCTERMID (3F) - Generates terminal pathname
PXFESTRGET (3F) - Accesses a single string element of a structure component that is an array
PXFEXECV, PXFEXECVE, PXFEXECVP (3F) - Executes a new process image file
PXFFASTEXIT (3F) - Terminates a Fortran program
PXFFCNTL (3F) - Provides a subset of fcntl(2) functionality, except the third argument is always an integer
PXFFILENO (3F) - Returns the file descriptor for a specified unit
PXFFORK (3F) - Creates a process
PXFGETARG (3F) - Returns a command-line argument
PXFGETCWD (3F) - Gets the pathname of the working directory
PXFGETEGID (3F) - Gets the effective group ID
PXFGETENV (3F) - Returns a value for the environment name
PXFGETEUID (3F) - Gets effective user ID
PXFGETGID (3F) - Gets the real group ID
PXFGETGRGID (3F) - Gets group information using the group ID
PXFGETGRNAM (3F) - Gets group information using the group name
PXFGETGROUPS (3F) - Gets supplementary group IDs
PXFGETLOGIN (3F) - Gets user name
PXFGETPGRP (3F) - Gets the process group ID
PXFGETPID (3F) - Gets the process ID
PXFGETPPID (3F) - Gets the parent process ID
PXFGETPWNAM (3F) - Gets password information about login name
PXFGETPWUID (3F) - Gets password information by using user ID
PXFGETUID (3F) - Gets the real user ID
PXFINTGET (3F) - Allows values stored in individual components of a structure to be extracted and used
PXFINTSET (3F) - Allows components of a structure to be set or modified
PXFISATTY (3F) - Determines if file descriptor corresponds to a valid file descriptor
PXFISBLK (3F) - Tests for block special file
PXFISCHR (3F) - Tests for character special file
PXFISDIR (3F) - Tests for directory file
PXFISFIFO (3F) - Tests for pipe or a FIFO special file
PXFISREG (3F) - Tests for regular file
PXFKILL (3F) - Sends a signal to a process or group of processes
PXFLINK (3F) - Creates a link to a file
PXFLOCALTIME (3F) - Converts to local time
PXFOPEN (3F) - Provides a Fortran interface to the open(2) system call
PXFOPENDIR, PXFREADDIR, PXFREWINDDIR, PXFCLOSEDIR, (3F) - Performs directory operations
PXFPAUSE (3F) - Suspends process execution until signal
PXFRENAME (3F) - Renames a file
PXFRMDIR (3F) - Removes a directory entry
PXFSETENV (3F) - Sets environment variable pair
PXFSETGID (3F) - Sets group ID
PXFSETPGID (3F) - Set process group ID
PXFSETSID (3F) - Creates a new session for a calling process
PXFSETUID (3F) - Sets user ID
PXFSIGADDSET (3F) - Adds an individual signal to the specified signal set
PXFSIGDELSET (3F) - Deletes an individual signal in the specified signal set
PXFSIGEMPTYSET (3F) - Initializes signal set such that all signals defined in POSIX standard are excluded
PXFSIGFILLSET (3F) - Initializes signal set such that all signals defined in POSIX standard are included
PXFSIGISMEMBER (3F) - Determines if the specified signal is a member of the specified signal set
PXFSIGPENDING (3F) - Examines pending signals
PXFSIGPROCMASK (3F) - Examines and changes blocked signals
PXFSIGSUSPEND (3F) - Waits for a signal
PXFSLEEP (3F) - Delays process execution
PXFSTAT (3F) - Retrieves the file status
PXFSTRGET (3F) - Allows values stored in individual components of a structure to be extracted and used
PXFSTRSET (3F) - Allows values stored in individual components of a structure to be set
PXFSTRUCTCOPY (3F) - Copies structure
PXFSTRUCTCREATE (3F) - Creates an instance of the desired structure and returns a nonzero handle in the argument jhandle
PXFSTRUCTFREE (3F) - Deletes the instance of the structure referenced by jhandle
PXFSYSCONF (3F) - Retrieves the value of configurable system variables
PXFTIME (3F) - Gets system time
PXFTIMES (3F) - Gets process times
PXFUCOMPARE (3F) - Compares unsigned integers
PXFUMASK (3F) - Sets the file creation mask
PXFUNAME (3F) - Retrieves the operating system name
PXFUNLINK (3F) - Removes a directory entry
PXFUTIME (3F) - Sets access and modification times of a file
PXFWAIT, PXFWAITPID (3F) - Obtains information about a calling process' child process
PXFWIFEXITED (3F) - Determines if child process exited with exit
PXFWIFSIGNALED (3F) - Determines if the child process terminated because of a signal
PXFWIFSTOPPED (3F) - Determines if a child process has stopped
pxlmap (3G) - define pixel transfer LUTs
pxlxfr (3G) - sets pixel/texel transfer modes
PYTHAG, SPYTHAG (3F) - EISPACK auxiliary routine.

Q

qcontrol (3G) - administers event queue
qdevic (3G) - queues a device
qdevice (3G) - queues a device
qenter (3G) - creates an event queue entry
qenter (3G) - creates an event queue entry
qgetfd (3G) - get the read file descriptor associated with the event queue
qgetfd (3G) - get the read file descriptor associated with the event queue
qread (3G) - reads the first entry in the event queue
qread (3G) - reads the first entry in the event queue
qreset (3G) - empties the event queue
qreset (3G) - empties the event queue
qsort (3C) - quicker sort
qsort (3F) - quick sort
qtest (3G) - checks the contents of the event queue
qtest (3G) - checks the contents of the event queue
QZHES, SQZHES (3F) - EISPACK routine. This subroutine is the first step of the QZ algorithm for solving generalized matrix eigenvalue problems.
QZIT, SQZIT (3F) - EISPACK routine. This subroutine is the second step of the QZ algorithm for solving generalized matrix eigenvalue problems,
QZVAL, SQZVAL (3F) - EISPACK routine. This subroutine is the third step of the QZ algorithm for solving generalized matrix eigenvalue problems,
QZVEC, ZQZVEC (3F) - EISPACK routine. This subroutine is the optional fourth step of the QZ algorithm for solving generalized matrix eigenvalue problems,

R

radiobutton (3Tk) - Create and manipulate radiobutton widgets
RADIX (3I) - Returns the base number from the real or integer number models
raise (3C) - send signal to executing program
raise (3Tk) - Change a window's position in the stacking order
ran (3F) - pseudo random number generator
rand, irand, srand (3F) - random number generator
rand, srand, rand_r (3C) - simple random-number generator
RANDOM (3F) - generate pseudorandom numbers from a seed
random, srandom, initstate, setstate (3B) - better random number generator; routines for changing generators
RANDOM_NUMBER (3I) - Returns pseudorandom numbers
RANDOM_SEED (3I) - Restarts or queries the pseudorandom number generator
RANGE (3I) - Returns the decimal exponent range of a number according to the real or integer model
RATQR, SRATQR (3F) - EISPACK routine. This subroutine finds the algebraically smallest or largest eigenvalues of a SYMMETRIC TRIDIAGONAL matrix by the rational QR method with Newton corrections.
RCFFT2 (3F) - Calculate a real-to-complex Fourier synthesis/analysis.
rcmd, rresvport, ruserok (3N) - routines for returning a stream to a remote command
rcrv (3G) - draws a rational curve
rcrv (3G) - draws a rational curve
rcrvn (3G) - draws a series of curve segments
rcrvn (3G) - draws a series of curve segments
rdr, rdri, rdrs, rdr2, rdr2i, rdr2s (3G) - relative draw
rdr, rdri, rdrs, rdr2, rdr2i, rdr2s (3G) - relative draw
re_comp, re_exec (3B) - regular expression handler
read (3Tcl) - Read from a file
readco (3G) - sets the component source within the framebuffer source for pixels that various routines read, useful primarily for monochrome image processing.
readcomponent (3G) - sets the component source within the framebuffer source for pixels that various routines read, useful primarily for monochrome image processing.
readdi (3G) - reads a rectangular screen region, returning displayed pixel colors in a packed RGB format.
readdisplay (3G) - reads a rectangular screen region, returning displayed pixel colors in a packed RGB format.
readpi (3G) - returns values of specific pixels
readpixels (3G) - returns values of specific pixels
readRG (3G) - gets values of specific pixels
readRGB (3G) - gets values of specific pixels
readso (3G) - sets the source for pixels that various routines read
readsource (3G) - sets the source for pixels that various routines read
REAL, FLOAT, SNGL (3M) - Converts to type real
realpath (3C) - returns the real file name
REBAK, SREBAK (3F) - EISPACK routine. This subroutine forms the eigenvectors of a generalized SYMMETRIC eigensystem by back transforming those of the derived symmetric matrix determined by REDUC.
REBAKB, SREBAKB (3F) - EISPACK routine. This subroutine forms the eigenvectors of a generalized SYMMETRIC eigensystem by back transforming those of the derived symmetric matrix determined by REDUC2.
recno (3) - record number database access method
rect, recti, rects (3G) - outlines a rectangular region
rect, recti, rects (3G) - outlines a rectangular region
rectco (3G) - copies a rectangle of pixels with an optional zoom
rectcopy (3G) - copies a rectangle of pixels with an optional zoom
rectf, rectfi, rectfs (3G) - fills a rectangular area
rectf, rectfi, rectfs (3G) - fills a rectangular area
RectObj (3) - The RectObj widget class
RectObj (3X) - The RectObj widget class
rectre, lrectr (3G) - reads a rectangular array of pixels into CPU memory
rectre, lrectr (3G) - reads a rectangular array of pixels into CPU memory
rectread, lrectread (3G) - reads a rectangular array of pixels into CPU memory
rectread, lrectread (3G) - reads a rectangular array of pixels into CPU memory
rectwr, lrectw (3G) - draws a rectangular array of pixels into the frame buffer
rectwr, lrectw (3G) - draws a rectangular array of pixels into the frame buffer
rectwrite, lrectwrite (3G) - draws a rectangular array of pixels into the frame buffer
rectwrite, lrectwrite (3G) - draws a rectangular array of pixels into the frame buffer
rectzo (3G) - specifies the zoom for rectangular pixel copies and writes
rectzoom (3G) - specifies the zoom for rectangular pixel copies and writes
recv, recvfrom, recvmsg (3N) - receive a message from a socket
REDUC, SREDUC (3F) - EISPACK routine. This subroutine reduces the generalized SYMMETRIC eigenproblem Ax=(LAMBDA)Bx, where B is POSITIVE DEFINITE, to the standard symmetric eigenproblem using the Cholesky factorization of B.
REDUC2, SREDUC2 (3F) - EISPACK routine. This subroutine reduces the generalized SYMMETRIC eigenproblems ABx=(LAMBDA)x OR BAy=(LAMBDA)y, where B is POSITIVE DEFINITE, to the standard symmetric eigenproblem using the Cholesky factorization of B.
regcmp, regex (3G) - compile and execute regular expression
regcomp: regexec, regerror, regfree (3G) - regular expression matching
regexp (3Tcl) - Match a regular expression against a string
regexpr: compile, step, advance (3G) - regular expression compile and match routines
registerinethost (3N) - allocate internet address for workstation
regsub (3Tcl) - Perform substitutions based on regular expression pattern matching
remove (3C) - remove file
rename (3F) - rename a file
rename (3Tcl) - Rename or delete a command
renamehost (3N) - rename the existing hostname in NIS hosts database
REPEAT (3I) - Concatenates several copies of a string
res_hnok, res_ownok, res_mailok, res_dnok (3C) - name service record validity routines
res_isourserver, res_nameinquery, res_queriesmatch, res_querydomain, res_randomid (3C) - resolver query utilities
res_query, res_search, res_mkquery, res_send, res_init, dn_comp, dn_expand (3N) - resolver routines
res_send_setqhook, res_send_setrhook (3C) - interface to resolver hooks
resetl (3G) - controls the continuity of linestyles
resetls (3G) - controls the continuity of linestyles
reshap (3G) - sets the viewport to the dimensions of the current graphics window
RESHAPE (3I) - Constructs an array of a specified shape
reshapeviewport (3G) - sets the viewport to the dimensions of the current graphics window
return (3Tcl) - Return from a procedure
rexec (3N) - return stream to a remote command
RG, SRG (3F) - EISPACK routine. This subroutine calls the recommended sequence of subroutines from the eigensystem subroutine package (EISPACK) To find the eigenvalues and eigenvectors (if desired) of a REAL GENERAL matrix.
RGBcol (3G) - sets the current color in RGB mode
RGBcolor (3G) - sets the current color in RGB mode
RGBcur (3G) - obsolete routine
RGBcursor (3G) - obsolete routine
RGBmod (3G) - sets a rendering and display mode that bypasses the color map
RGBmode (3G) - sets a rendering and display mode that bypasses the color map
RGBran (3G) - obsolete routine
RGBrange (3G) - obsolete routine
RGBsiz (3G) - specifies the number of bit planes desired to comprise each single-color component buffer.
RGBsize (3G) - specifies the number of bit planes desired to comprise each single-color component buffer.
RGBwri (3G) - grants write access to a subset of available bitplanes
RGBwritemask (3G) - grants write access to a subset of available bitplanes
RGG, SRGG (3F) - EISPACK routine. This subroutine calls the recommended sequence of subroutines from the eigensystem subroutine package (EISPACK) to find the eigenvalues and eigenvectors (if desired) for the REAL GENERAL GENERALIZED eigenproblem Ax = (LAMBDA)Bx.
ringbe (3G) - rings the keyboard bell
ringbell (3G) - rings the keyboard bell
rmtops (3) - remote tape drive access routines
rmv, rmvi, rmvs, rmv2, rmv2i, rmv2s (3G) - relative move
rmv, rmvi, rmvs, rmv2, rmv2i, rmv2s (3G) - relative move
RNLECHO (3F) - Specifies output unit for NAMELIST error messages and echo lines
RNLFLAG, RNLDELM, RNLSEP, RNLREP, RNLCOMM (3F) - Manipulates characters recognized by NAMELIST
RNLSKIP (3F) - Takes appropriate action when an undesired NAMELIST group is encountered
RNLTYPE (3F) - Determines action if type mismatch occurs across equal sign on NAMELIST input record
rnusers, rusers (3R) - return information about users on remote machines
rotate, rot (3G) - rotates the current matrix
rotate, rot (3G) - rotates the current matrix
round: anint, dnint, qnint, nint, inint, jnint, idnint, iqnint, iidnnt, jidnnt, iiqnnt, jiqnnt, kiqnnt (3F) - FORTRAN nearest integer functions
rpatch (3G) - draws a rational surface patch
rpatch (3G) - draws a rational surface patch
rpc (3N) - library routines for remote procedure calls
rpc (3R) - Remote Procedure Call (RPC) library routines
rpc_clnt_auth: auth_destroy, authnone_create, authsys_create, authsys_create_default (3N) - library routines for client side remote procedure call authentication
rpc_clnt_calls: clnt_call, clnt_freeres, clnt_geterr, clnt_perrno, clnt_perror, clnt_sperrno, clnt_sperror, rpc_broadcast, rpc_call (3N) - library routines for client side calls
rpc_clnt_create: clnt_control, clnt_create, clnt_destroy, clnt_dg_create, clnt_pcreateerror, clnt_raw_create, clnt_spcreateerror, clnt_tli_create, clnt_tp_create, clnt_vc_create (3N) - library routines for dealing with creation and manipulation of CLIENT handles
rpc_svc_calls: rpc_reg, svc_reg, svc_unreg, xprt_register, xprt_unregister (3N) - library routines for registering servers
rpc_svc_create: svc_create, svc_destroy, svc_dg_create, svc_fd_create, svc_raw_create, svc_tli_create, svc_tp_create, svc_vc_create (3N) - library routines for dealing with the creation of server handles
rpc_svc_err: svcerr_auth, svcerr_decode, svcerr_noproc, svcerr_noprog, svcerr_progvers, svcerr_systemerr, svcerr_weakauth (3N) - library routines for server side remote procedure call errors
rpc_svc_reg: svc_freeargs, svc_getargs, svc_getreqset, svc_getrpccaller, svc_run, svc_sendreply (3N) - library routines for RPC servers
rpc_xdr: xdr_accepted_reply, xdr_authsys_parms, xdr_callhdr, xdr_callmsg, xdr_opaque_auth, xdr_rejected_reply, xdr_replymsg (3N) - XDR library routines for remote procedure calls
rpcbind: rpcb_getmaps, rpcb_getaddr, rpcb_gettime, rpcb_rmtcall, rpcb_set, rpcb_unset (3N) - library routines for RPC bind service
rpdr, rpdri, rpdrs, rpdr2, rpdr2i, rpdr2s (3G) - relative polygon draw
rpdr, rpdri, rpdrs, rpdr2, rpdr2i, rpdr2s (3G) - relative polygon draw
rpmv, rpmvi, rpmvs, rpmv2, rpmv2i, rpmv2s (3G) - relative polygon move
rpmv, rpmvi, rpmvs, rpmv2, rpmv2i, rpmv2s (3G) - relative polygon move
rquota (3R) - implement quotas on remote machines
RRSPACING (3I) - Returns the reciprocal of the relative spacing of numeric model numbers near the argument value
RS, SRS (3F) - EISPACK routine. This subroutine calls the recommended sequence of subroutines from the eigensystem subroutine package (EISPACK) to find the eigenvalues and eigenvectors (if desired) of a REAL SYMMETRIC matrix.
RSB, SRSB (3F) - EISPACK routine. This subroutine calls the recommended sequence of subroutines from the eigensystem subroutine package (EISPACK) to find the eigenvalues and eigenvectors (if desired) of a REAL SYMMETRIC BAND matrix.
RSG, SRSG (3F) - EISPACK routine. This subroutine calls the recommended sequence of subroutines from the eigensystem subroutine package (EISPACK) to find the eigenvalues and eigenvectors (if desired) for the REAL SYMMETRIC generalized eigenproblem Ax = (LAMBDA)Bx.
RSGAB, SRSGAB (3F) - EISPACK routine. This subroutine calls the recommended sequence of subroutines from the eigensystem subroutine package (EISPACK) to find the eigenvalues and eigenvectors (if desired) for the REAL SYMMETRIC generalized eigenproblem ABx = (LAMBDA)x.
RSGBA, SRSGBA (3F) - EISPACK routine. This subroutine calls the recommended sequence of subroutines from the eigensystem subroutine package (EISPACK) to find the eigenvalues and eigenvectors (if desired) for the REAL SYMMETRIC generalized eigenproblem BAx = (LAMBDA)x.
RSM, SRSM (3F) - EISPACK routine. This subroutine calls the recommended sequence of subroutines from the eigensystem subroutine package (EISPACK) to find all of the eigenvalues and some of the eigenvectors of a real symmetric matrix.
RSP, SRSP (3F) - EISPACK routine. This subroutine calls the recommended sequence of subroutines from the eigensystem subroutine package (EISPACK) to find the eigenvalues and eigenvectors (if desired) of a REAL SYMMETRIC PACKED matrix.
RST, SRST (3F) - EISPACK routine. This subroutine calls the recommended sequence of subroutines from the eigensystem subroutine package (EISPACK) to find the eigenvalues and eigenvectors (if desired) of a REAL SYMMETRIC TRIDIAGONAL matrix.
RT, SRT (3F) - EISPACK routine. This subroutine calls the recommended sequence of subroutines from the eigensystem subroutine package (EISPACK) to find the eigenvalues and eigenvectors (if desired) of a special REAL TRIDIAGONAL matrix.
rtmon_log_user_tstamp (3) - REACT/Pro user timestamp logging
rw_hashmap (3C++) - Rogue Wave library class
rw_hashmultimap (3C++) - Rogue Wave library class
rw_hashmultiset (3C++) - Rogue Wave library class
rw_hashset (3C++) - Rogue Wave library class
rw_slist<T> (3C++) - Rogue Wave library class
rwall (3R) - write to specified remote machines
RWAuditStreamBuffer (3C++) - Rogue Wave library class
RWBag (3C++) - Rogue Wave library class
RWBagIterator (3C++) - Rogue Wave library class
RWBench (3C++) - Rogue Wave library class
RWBinaryTree (3C++) - Rogue Wave library class
RWBinaryTreeIterator (3C++) - Rogue Wave library class
RWbistream (3C++) - Rogue Wave library class
RWBitVec (3C++) - Rogue Wave library class
RWbostream (3C++) - Rogue Wave library class
RWBTree (3C++) - Rogue Wave library class
RWBTreeDictionary (3C++) - Rogue Wave library class
RWBTreeOnDisk (3C++) - Rogue Wave library class
RWBufferedPageHeap (3C++) - Rogue Wave library class
RWCacheManager (3C++) - Rogue Wave library class
RWCLIPstreambuf (3C++) - Rogue Wave library class
RWCollectable (3C++) - Rogue Wave library class
RWCollectableAssociation (3C++) - Rogue Wave library class
RWCollectableDate (3C++) - Rogue Wave library class
RWCollectableInt (3C++) - Rogue Wave library class
RWCollectableString (3C++) - Rogue Wave library class
RWCollectableTime (3C++) - Rogue Wave library class
RWCollection (3C++) - Rogue Wave library class
RWCRegexp (3C++) - Rogue Wave library class
RWCRExpr (3C++) - Rogue Wave library class
RWCString (3C++) - Rogue Wave library class
RWCSubString (3C++) - Rogue Wave library class
RWCTokenizer (3C++) - Rogue Wave library class
RWDate (3C++) - Rogue Wave library class
RWDDEstreambuf (3C++) - Rogue Wave library class
RWDiskPageHeap (3C++) - Rogue Wave library class
RWDlistCollectables (3C++) - Rogue Wave library class
RWDlistCollectablesIterator (3C++) - Rogue Wave library class
RWeistream (3C++) - Rogue Wave library class
RWeostream (3C++) - Rogue Wave library class
RWFactory (3C++) - Rogue Wave library class
RWFile (3C++) - Rogue Wave library class
RWFileManager (3C++) - Rogue Wave library class
RWGBitVec(size) (3C++) - Rogue Wave library class
RWGDlist(type) (3C++) - Rogue Wave library class
RWGDlistIterator(type) (3C++) - Rogue Wave library class
RWGOrderedVector(val) (3C++) - Rogue Wave library class
RWGQueue(type) (3C++) - Rogue Wave library class
RWGSlist(type) (3C++) - Rogue Wave library class
RWGSlistIterator(type) (3C++) - Rogue Wave library class
RWGSortedVector(val) (3C++) - Rogue Wave library class
RWGStack(type) (3C++) - Rogue Wave library class
RWGVector(val) (3C++) - Rogue Wave library class
RWHashDictionary (3C++) - Rogue Wave library class
RWHashDictionaryIterator (3C++) - Rogue Wave library class
RWHashTable (3C++) - Rogue Wave library class
RWHashTableIterator (3C++) - Rogue Wave library class
RWIdentityDictionary (3C++) - Rogue Wave library class
RWIdentitySet (3C++) - Rogue Wave library class
RWInteger (3C++) - Rogue Wave library class
RWIterator (3C++) - Rogue Wave library class
RWLocale (3C++) - Rogue Wave library class
RWLocaleSnapshot (3C++) - Rogue Wave library class
RWModel (3C++) - Rogue Wave library class
RWModelClient (3C++) - Rogue Wave library class
RWOrdered (3C++) - Rogue Wave library class
RWOrderedIterator (3C++) - Rogue Wave library class
RWpistream (3C++) - Rogue Wave library class
RWpostream (3C++) - Rogue Wave library class
RWSequenceable (3C++) - Rogue Wave library class
RWSet (3C++) - Rogue Wave library class
RWSetIterator (3C++) - Rogue Wave library class
RWSlistCollectables (3C++) - Rogue Wave library class
RWSlistCollectablesIterator (3C++) - Rogue Wave library class
RWSlistCollectablesQueue (3C++) - Rogue Wave library class
RWSlistCollectablesStack (3C++) - Rogue Wave library class
RWSortedVector (3C++) - Rogue Wave library class
RWTBitVec<size> (3C++) - Rogue Wave library class
RWTime (3C++) - Rogue Wave library class
RWTimer (3C++) - Rogue Wave library class
RWTIsvDlist<T> (3C++) - Rogue Wave library class
RWTIsvDlistIterator<T> (3C++) - Rogue Wave library class
RWTIsvSlist<T> (3C++) - Rogue Wave library class
RWTIsvSlistIterator<T> (3C++) - Rogue Wave library class
RWTPtrDeque<T> (3C++) - Rogue Wave library class
RWTPtrDlist<T> (3C++) - Rogue Wave library class
RWTPtrDlistIterator<T> (3C++) - Rogue Wave library class
RWTPtrHashDictionary<K,V> (3C++) - Rogue Wave library class
RWTPtrHashDictionaryIterator<K,V> (3C++) - Rogue Wave library class
RWTPtrHashMap<K,T,H,EQ> (3C++) - Rogue Wave library class
RWTPtrHashMapIterator<K,T,H,EQ> (3C++) - Rogue Wave library class
RWTPtrHashMultiMap<K,T,H,EQ> (3C++) - Rogue Wave library class
RWTPtrHashMultiMapIterator<K,T,H,EQ> (3C++) - Rogue Wave library class
RWTPtrHashMultiSet<T,H,EQ> (3C++) - Rogue Wave library class
RWTPtrHashMultiSetIterator<T,H,EQ> (3C++) - Rogue Wave library class
RWTPtrHashSet<T> (3C++) - Rogue Wave library class
RWTPtrHashSetIterator<T,H,EQ> (3C++) - Rogue Wave library class
RWTPtrHashTable<T> (3C++) - Rogue Wave library class
RWTPtrHashTableIterator<T> (3C++) - Rogue Wave library class
RWTPtrMap<K,T,C> (3C++) - Rogue Wave library class
RWTPtrMapIterator<K,T,C> (3C++) - Rogue Wave library class
RWTPtrMultiMap<K,T,C> (3C++) - Rogue Wave library class
RWTPtrMultiMapIterator<K,T,C> (3C++) - Rogue Wave library class
RWTPtrMultiSet<T,C> (3C++) - Rogue Wave library class
RWTPtrMultiSetIterator<T,C> (3C++) - Rogue Wave library class
RWTPtrOrderedVector<T> (3C++) - Rogue Wave library class
RWTPtrSet<T,C> (3C++) - Rogue Wave library class
RWTPtrSetIterator<T,C> (3C++) - Rogue Wave library class
RWTPtrSlist<T> (3C++) - Rogue Wave library class
RWTPtrSlistIterator<T> (3C++) - Rogue Wave library class
RWTPtrSortedDlist<T,C> (3C++) - Rogue Wave library class
RWTPtrSortedDlistIterator<T,C> (3C++) - Rogue Wave library class
RWTPtrSortedVector<T> (3C++) - Rogue Wave library class
RWTPtrVector<T> (3C++) - Rogue Wave library class
RWTQueue<T,C> (3C++) - Rogue Wave library class
RWTStack<T,C> (3C++) - Rogue Wave library class
RWTValDeque<T> (3C++) - Rogue Wave library class
RWTValDlist<T> (3C++) - Rogue Wave library class
RWTValDlistIterator<T> (3C++) - Rogue Wave library class
RWTValHashDictionary<K,V> (3C++) - Rogue Wave library class
RWTValHashDictionaryIterator<K,V> (3C++) - Rogue Wave library class
RWTValHashMap<K,T,H,EQ> (3C++) - Rogue Wave library class
RWTValHashMapIterator<K,T,H,EQ> (3C++) - Rogue Wave library class
RWTValHashMultiMap<K,T,H,EQ> (3C++) - Rogue Wave library class
RWTValHashMultiMapIterator<K,T,H,EQ> (3C++) - Rogue Wave library class
RWTValHashMultiSet<T,H,EQ> (3C++) - Rogue Wave library class
RWTValHashMultiSetIterator<T,H,EQ> (3C++) - Rogue Wave library class
RWTValHashSet<T> (3C++) - Rogue Wave library class
RWTValHashSetIterator<T,H,EQ> (3C++) - Rogue Wave library class
RWTValHashTable<T> (3C++) - Rogue Wave library class
RWTValHashTableIterator<T> (3C++) - Rogue Wave library class
RWTValMap<K,T,C> (3C++) - Rogue Wave library class
RWTValMapIterator<K,T,C> (3C++) - Rogue Wave library class
RWTValMultiMap<K,T,C> (3C++) - Rogue Wave library class
RWTValMultiMapIterator<K,T,C> (3C++) - Rogue Wave library class
RWTValMultiSet<T,C> (3C++) - Rogue Wave library class
RWTValMultiSetIterator<T,C> (3C++) - Rogue Wave library class
RWTValOrderedVector<T> (3C++) - Rogue Wave library class
RWTValSet<T,C> (3C++) - Rogue Wave library class
RWTValSetIterator<T,C> (3C++) - Rogue Wave library class
RWTValSlist<T> (3C++) - Rogue Wave library class
RWTValSlistIterator<T> (3C++) - Rogue Wave library class
RWTValSortedDlist<T,C> (3C++) - Rogue Wave library class
RWTValSortedDlistIterator<T,C> (3C++) - Rogue Wave library class
RWTValSortedVector<T> (3C++) - Rogue Wave library class
RWTValVector<T> (3C++) - Rogue Wave library class
RWTValVirtualArray<T> (3C++) - Rogue Wave library class
RWvios (3C++) - Rogue Wave library class
RWVirtualPageHeap (3C++) - Rogue Wave library class
RWvistream (3C++) - Rogue Wave library class
RWvostream (3C++) - Rogue Wave library class
RWWString (3C++) - Rogue Wave library class
RWWSubString (3C++) - Rogue Wave library class
RWWTokenizer (3C++) - Rogue Wave library class
RWXDRistream (Unix only) (3C++) - Rogue Wave library class
RWXDRostream (Unix only) (3C++) - Rogue Wave library class
RWZone (3C++) - Rogue Wave library class
RWZoneSimple (3C++) - Rogue Wave library class

S

Safe (3) - Compile and execute code in restricted compartments
sat_eventtostr, sat_strtoevent (3L) - convert an audit event index to/from an audit event string
sat_intrp_pathname (3) - Portable interface to interpret sat_pathname structs.
sat_read_file_info, sat_write_file_info, sat_free_file_info (3C) - Portable interfaces to read audit file headers
sat_read_header_info, sat_free_header_info (3C) - Portable interfaces to read audit record headers
sat_write_filehdr, sat_close_filehdr (3) - write audit file header, write close time to audit file header
SBDSQR (3F) - compute the singular value decomposition (SVD) of a real N-by-N (upper or lower) bidiagonal matrix B
sbox, sboxi, sboxs (3G) - draw a screen-aligned rectangle
sbox, sboxi, sboxs (3G) - draw a screen-aligned rectangle
sboxf, sboxfi, sboxfs (3G) - draw a filled screen-aligned rectangle
sboxf, sboxfi, sboxfs (3G) - draw a filled screen-aligned rectangle
SCAbort (3) - abort the current scan
scale (3G) - scales and mirrors the current matrix
scale (3G) - scales and mirrors the current matrix
SCALE (3I) - Returns (x)(b**i), where b is the base in the real number model representation of x
scale (3Tk) - Create and manipulate scale widgets
SCAN (3I) - Scans a string for any one of the characters in a set of characters
scan (3Tcl) - Parse string using conversion specifiers in the style of sscanf
scandir, scandir64, alphasort, alphasort64 (3C) - scan a directory
scanf, fscanf, sscanf (3S) - convert formatted input
SCClose (3) - close a connection with a scanning device
SCDefaultScannerName (3) - Getting the default scanner name
SCFeederGetFlags, SCFeederSetFlags, SCFeederAdvance, SCFeederReady (3) - scanner document feeder functions
scfft1du, dzfft1du (3F) - 1D, Real to Complex, Direct Fast Fourier Transforms.
scfft1dui, dzfft1dui (3F) - initialize the coefficient array for real-to- complex 1D FFT modules.
scfft2du, dzfft2du (3F) - 2D, Real to Complex, Direct Fast Fourier Transforms.
scfft2dui, dzfft2dui (3F) - initialize the coefficient array for real-to- complex 2D FFT modules.
scfft3du, dzfft3du (3F) - 3D, Real to Complex, Direct Fast Fourier Transforms.
scfft3dui, dzfft3dui (3F) - initialize the coefficient array for real-to- complex 3D FFT modules.
scfftm1du, dzfftm1du (3F) - Multiple 1D, Real to Complex, Direct Fast Fourier Transforms.
scfftm1dui, dzfftm1dui (3F) - initialize the coefficient array for real-to- complex Multiple 1D FFT modules.
SCGetDataTypes (3) - determine the data types supported by a scanner
SCGetEventFD, SCEventPending, SCGetEvent (3) - Receiving events from scanner drivers
SCGetPageSize (3) - determine the scannable area of a scanning device
SCGetSaveOptions, SCSetSaveOptions (3) - Getting and setting saved scanner specific options
SCGetScanLine, SCGetFD, SCDataReady (3) - retrieving scan data
SCGetScannerRes, SCGetMinMaxRes (3) - Determining the resolutions supported by a scanner driver
SCGetScanSize (3) - Determine the amount of image data to be scanned
SCGetStatus, SCGetStatusFD (3) - Get status information about a scanner
SCGetUserInfo (3) - Get information about who is using a scanner
SCHDC (3F) - SCHDC computes the Cholesky decomposition of a positive definite matrix. A pivoting option allows the user to estimate the condition of a positive definite matrix or determine the rank of a positive semidefinite matrix.
SCHDD (3F) - SCHDD downdates an augmented Cholesky decomposition or the triangular factor of an augmented QR decomposition. Specifically, given an upper triangular matrix R of order P, a row vector X, a column vector Z, and a scalar Y, SCHDD determines an orthogonal matrix U and a scalar ZETA such that
SCHEX (3F) - SCHEX updates the Cholesky factorization
SCHUD (3F) - SCHUD updates an augmented Cholesky decomposition of the triangular part of an augmented QR decomposition. Specifically, given an upper triangular matrix R of order P, a row vector X, a column vector Z, and a scalar Y, SCHUD determines a unitary matrix U and a scalar ZETA such that
sclear (3G) - clear the stencil planes to a specified value
sclear (3G) - clear the stencil planes to a specified value
SCOpen, SCOpenScreen, SCOpenFile (3) - establishing a connection with a scanning device
SCOptions, SCHasOptions (3) - scanner specific options
SCOR1D, DCOR1D, CCOR1D, ZCOR1D (3F) - 1D Correlation in the time domain.
SCOR2D, DCOR2D, CCOR2D, ZCOR2D (3F) - 2D Correlation in the space domain.
SCORM1D, DCORM1D, CCORM1D, ZCORM1D (3F) - N 1D convolutions in the time domain.
SCPerror, SCErrorString (3) - Reporting error messages to the user
scrbox (3g) - control the screen box
scrbox (3g) - control the screen box
screen (3G) - map world space to absolute screen coordinates
screenspace (3G) - map world space to absolute screen coordinates
scrmas (3G) - defines a rectangular screen clipping mask
scrmask (3G) - defines a rectangular screen clipping mask
scrnat (3G) - attaches the input focus to a screen
scrnattach (3G) - attaches the input focus to a screen
scrnse (3G) - selects the screen upon which new windows are placed
scrnselect (3G) - selects the screen upon which new windows are placed
scrollbar (3Tk) - Create and manipulate scrollbar widgets
scrsub (3G) - subdivide lines and polygons to a screen-space limit
scrsubdivide (3G) - subdivide lines and polygons to a screen-space limit
SCScan, SCScanFD (3) - start scanning from a scanning device.
SCSetScanEnt, SCGetScanEnt, SCEndScanEnt (3) - Getting information about installed scanners
SCSetup (3) - set scanning parameters
SCSUM1 (3F) - take the sum of the absolute values of a complex vector and returns a single precision result
SDBM_File (3) - Tied access to sdbm files
SDISNA (3F) - compute the reciprocal condition numbers for the eigenvectors of a real symmetric or complex Hermitian matrix or for the left or right singular vectors of a general m-by-n matrix
Search::Dict, look (3) - search for key in dictionary file
SECOND (3F) - Returns elapsed CPU time
second.z - (no summary available)
SECONDR (3F) - Returns elapsed wall-clock time in seconds
secure_rpc: authdes_seccreate, authdes_getucred, getnetname, host2netname, key_decryptsession, key_encryptsession, key_gendes, key_setsecret, netname2host, netname2user, user2netname (3N) - library routines for secure remote procedure calls
seek (3Tcl) - Change the access position for an open file
SELECTED (3F) - return a kind type parameter given a decimal exponent range or precision.
SELECTED_INT_KIND (3I) - Returns an integer kind type parameter
SELECTED_REAL_KIND (3I) - Returns the real kind type parameter
selection (3Tk) - Manipulate the X selection
SelectSaver (3) - save and restore selected file handle
SelfLoader (3) - load functions only on demand
sem_close (3C) - close a posix named semaphore
sem_destroy (3C) - deinitialize a posix unnamed semaphore
sem_getvalue (3C) - get the value of a posix named or unnamed semaphore
sem_init (3C) - initialize a posix unnamed semaphore
sem_mode (3C) - set the operation mode of a POSIX unnamed semaphore
sem_open (3C) - open a posix named semaphore
sem_post (3C) - release a posix named or unnamed semaphore
sem_print (3C) - print the state of a POSIX semaphore
sem_wait, sem_trywait (3C) - acquire a posix named or unnamed semaphore
send (3Tk) - Execute a command in a different application
send, sendto, sendmsg (3N) - send a message from a socket
set (3Tcl) - Read and write variables
SET_EXPONENT (3I) - Sets exponent part of a number
SET_IEEE_EXCEPTION (3I) - Sets floating-point exception indicator
SET_IEEE_EXCEPTIONS (3I) - Restores the caller's floating-point status prior to exiting a procedure
SET_IEEE_INTERRUPTS (3I) - Restores floating-point interrupt status before exiting a procedure
SET_IEEE_ROUNDING_MODE (3I) - Alters current floating-point rounding mode state and restores the floating-point rounding mode before exiting a procedure
SET_IEEE_STATUS (3I) - Restores floating-point status
setbel (3G) - sets the duration of the beep of the keyboard bell
setbell (3G) - sets the duration of the beep of the keyboard bell
setbuf, setvbuf, setbuffer, setlinebuf (3F) - assign buffering to a stream logical unit
setcat (3C) - define default catalog
setcur (3G) - sets the cursor characteristics
setcursor (3G) - sets the cursor characteristics
setdbl (3G) - sets the lights on the dial and button box
setdblights (3G) - sets the lights on the dial and button box
setdep (3G) - obsolete routine
setdepth (3G) - obsolete routine
seteuid, setruid, setegid, setrgid (3C) - set user and group IDs
sethostresorder (3N) - specify order of host-address resolution services
setjmp, longjmp, sigsetjmp, siglongjmp, _setjmp, _longjmp (3C) - non-local gotos
setlabel (3C) - define the label for pfmt and lfmt.
setlin (3G) - selects a linestyle pattern
setlinestyle (3G) - selects a linestyle pattern
setlocale (3C) - modify and query a program's locale
setmap (3G) - selects one of the small color maps provided by multimap mode
setmap (3G) - selects one of the small color maps provided by multimap mode
setmntent, getmntent, addmntent, getmntany, endmntent, hasmntopt (3) - get file system descriptor file entry
setmon (3G) - sets the monitor type
setmonitor (3G) - sets the monitor type
setnur (3G) - sets a property for the display of trimmed NURBS surfaces
setnurbsproperty (3G) - sets a property for the display of trimmed NURBS surfaces
setpat (3G) - selects a pattern for filling polygons and rectangles
setpattern (3G) - selects a pattern for filling polygons and rectangles
setpup (3G) - sets the display characteristics of a given pop up menu entry
setpup (3G) - sets the display characteristics of a given pop up menu entry
setsha (3G) - obsolete routine
setshade (3G) - obsolete routine
setval (3G) - assigns an initial value and a range to a valuator
setvaluator (3G) - assigns an initial value and a range to a valuator
setvid, getvid (3G) - set and get video registers
setvid, getvid (3G) - set and get video registers
setvideo, getvideo (3G) - set and get video registers
setvideo, getvideo (3G) - set and get video registers
sfft1dui, dfft1dui (3F) - 1D FFT Real to Complex workspace initialization routines.
sfft2dui, dfft2dui (3F) - 2D FFT Real to Complex workspace initialization routines.
sfft3dui, dfft3dui (3F) - 3D FFT Real to Complex workspace initialization routines.
sfftm1dui, dfftm1dui (3F) - Multiple 1D, FFT Real to Complex workspace initialization routines.
SFIR1D, DFIR1D, CFIR1D, ZFIR1D (3F) - 1D Convolution in the time domain.
SFIR2D, DFIR2D, CFIR2D, ZFIR2D (3F) - 2D Convolution in the time domain.
SFIRM1D, DFIRM1D, CFIRM1D, ZFIRM1D (3F) - N 1D convolutions in the time domain.
SgArc (3X) - Arc widget designed for use with SgGraph.
SgArc (3X) - Arc widget designed for use with SgGraph.
SGBBRD (3F) - reduce a real general m-by-n band matrix A to upper bidiagonal form B by an orthogonal transformation
SGBCO (3F) - SBGCO factors a real band matrix by Gaussian elimination and estimates the condition of the matrix.
SGBCON (3F) - estimate the reciprocal of the condition number of a real general band matrix A, in either the 1-norm or the infinity-norm,
SGBDI (3F) - SGBDI computes the determinant of a band matrix using the factors computed by SBGCO or SGBFA. If the inverse is needed, use SGBSL N times.
SGBEQU (3F) - compute row and column scalings intended to equilibrate an M- by-N band matrix A and reduce its condition number
SGBFA (3F) - SGBFA factors a real band matrix by elimination.
SGBRFS (3F) - improve the computed solution to a system of linear equations when the coefficient matrix is banded, and provides error bounds and backward error estimates for the solution
SGBSL (3F) - SGBSL solves the real band system A * X = B or TRANS(A) * X = B using the factors computed by SBGCO or SGBFA.
SGBSV (3F) - compute the solution to a real system of linear equations A * X = B, where A is a band matrix of order N with KL subdiagonals and KU superdiagonals, and X and B are N-by-NRHS matrices
SGBSVX (3F) - use the LU factorization to compute the solution to a real system of linear equations A * X = B, A**T * X = B, or A**H * X = B,
SGBTF2 (3F) - compute an LU factorization of a real m-by-n band matrix A using partial pivoting with row interchanges
SGBTRF (3F) - compute an LU factorization of a real m-by-n band matrix A using partial pivoting with row interchanges
SGBTRS (3F) - solve a system of linear equations A * X = B or A' * X = B with a general band matrix A using the LU factorization computed by SGBTRF
SgColorChooser (3X) - The ColorChooser widget class
SgColorChooser (3X) - The ColorChooser widget class
SgColorChooserGetColor (3X) - A ColorChooser function that gets the selected color of the ColorChooser
SgColorChooserGetColor (3X) - A ColorChooser function that gets the selected color of the ColorChooser
SgColorChooserSetColor (3X) - A ColorChooser function that sets the selected color of the ColorChooser
SgColorChooserSetColor (3X) - A ColorChooser function that sets the selected color of the ColorChooser
SgColorChooserSetCurrentColor (3X) - A ColorChooser function that sets the selected color of the ColorChooser without changing the stored color
SgColorChooserSetCurrentColor (3X) - A ColorChooser function that sets the selected color of the ColorChooser without changing the stored color
SgColorChooserSetStoredColor (3X) - A ColorChooser function that sets the color of the ColorChooser's stored color swatch
SgColorChooserSetStoredColor (3X) - A ColorChooser function that sets the color of the ColorChooser's stored color swatch
SgCreateColorChooser (3X) - The ColorChooser widget creation function
SgCreateColorChooser (3X) - The ColorChooser widget creation function
SgCreateColorChooserDialog (3X) - The ColorChooser ColorChooserDialog convenience creation function
SgCreateColorChooserDialog (3X) - The ColorChooser ColorChooserDialog convenience creation function
SgCreateDropPocket (3X) - The DropPocket widget creation function
SgCreateDropPocket (3X) - The DropPocket widget creation function
SgCreateDynaMenu (3X) - The DynaMenu widget creation function
SgCreateDynaMenu (3X) - The DynaMenu widget creation function
SgCreateFileSelectionBox (3X) - The FileSelectionBox widget creation function
SgCreateFileSelectionBox (3X) - The FileSelectionBox widget creation function
SgCreateFileSelectionDialog (3X) - The FileSelectionDialog convenience creation function
SgCreateFileSelectionDialog (3X) - The FileSelectionDialog convenience creation function
SgCreateFinder (3X) - The Finder widget creation function
SgCreateFinder (3X) - The Finder widget creation function
SgCreateVisualDrawingArea (3X) - The VisualDrawingArea widget creation function
SgCreateVisualDrawingArea (3X) - The VisualDrawingArea widget creation function
SgDial (3X) - The Dial widget class
SgDial (3X) - The Dial widget class
SgDropPocket (3X) - The DropPocket widget class
SgDropPocket (3X) - The DropPocket widget class
SgDynaMenu (3X) - The DynaMenu widget class
SgDynaMenu (3X) - The DynaMenu widget class
SgDynaMenuAddItem (3X) - A DynaMenu function that adds an item to the DynaMenu history list
SgDynaMenuAddItem (3X) - A DynaMenu function that adds an item to the DynaMenu history list
SgDynaMenuClearHistory (3X) - A DynaMenu function that deletes all items from the DynaMenu history list
SgDynaMenuClearHistory (3X) - A DynaMenu function that deletes all items from the DynaMenu history list
SGEBAK (3F) - form the right or left eigenvectors of a real general matrix by backward transformation on the computed eigenvectors of the balanced matrix output by SGEBAL
SGEBAL (3F) - balance a general real matrix A
SGEBD2 (3F) - reduce a real general m by n matrix A to upper or lower bidiagonal form B by an orthogonal transformation
SGEBRD (3F) - reduce a general real M-by-N matrix A to upper or lower bidiagonal form B by an orthogonal transformation
SGECO (3F) - SGECO factors a real matrix by Gaussian elimination and estimates the condition of the matrix.
SGECON (3F) - estimate the reciprocal of the condition number of a general real matrix A, in either the 1-norm or the infinity-norm, using the LU factorization computed by SGETRF
SGEDI (3F) - SGEDI computes the determinant and inverse of a matrix using the factors computed by SGECO or SGEFA.
SGEEQU (3F) - compute row and column scalings intended to equilibrate an M- by-N matrix A and reduce its condition number
SGEES (3F) - compute for an N-by-N real nonsymmetric matrix A, the eigenvalues, the real Schur form T, and, optionally, the matrix of Schur vectors Z
SGEESX (3F) - compute for an N-by-N real nonsymmetric matrix A, the eigenvalues, the real Schur form T, and, optionally, the matrix of Schur vectors Z
SGEEV (3F) - compute for an N-by-N real nonsymmetric matrix A, the eigenvalues and, optionally, the left and/or right eigenvectors
SGEEVX (3F) - compute for an N-by-N real nonsymmetric matrix A, the eigenvalues and, optionally, the left and/or right eigenvectors
SGEFA (3F) - SGEFA factors a real matrix by Gaussian elimination.
SGEGS (3F) - compute for a pair of N-by-N real nonsymmetric matrices A, B
SGEGV (3F) - compute for a pair of n-by-n real nonsymmetric matrices A and B, the generalized eigenvalues (alphar +/- alphai*i, beta), and optionally, the left and/or right generalized eigenvectors (VL and VR)
SGEHD2 (3F) - reduce a real general matrix A to upper Hessenberg form H by an orthogonal similarity transformation
SGEHRD (3F) - reduce a real general matrix A to upper Hessenberg form H by an orthogonal similarity transformation
SGELQ2 (3F) - compute an LQ factorization of a real m by n matrix A
SGELQF (3F) - compute an LQ factorization of a real M-by-N matrix A
SGELS (3F) - solve overdetermined or underdetermined real linear systems involving an M-by-N matrix A, or its transpose, using a QR or LQ factorization of A
SGELSS (3F) - compute the minimum norm solution to a real linear least squares problem
SGELSX (3F) - compute the minimum-norm solution to a real linear least squares problem
SGEQL2 (3F) - compute a QL factorization of a real m by n matrix A
SGEQLF (3F) - compute a QL factorization of a real M-by-N matrix A
SGEQPF (3F) - compute a QR factorization with column pivoting of a real M-by-N matrix A
SGEQR2 (3F) - compute a QR factorization of a real m by n matrix A
SGEQRF (3F) - compute a QR factorization of a real M-by-N matrix A
SGERFS (3F) - improve the computed solution to a system of linear equations and provides error bounds and backward error estimates for the solution
SGERQ2 (3F) - compute an RQ factorization of a real m by n matrix A
SGERQF (3F) - compute an RQ factorization of a real M-by-N matrix A
SGESL (3F) - SGESL solves the real system A * X = B or TRANS(A) * X = B using the factors computed by SGECO or SGEFA.
SGESV (3F) - compute the solution to a real system of linear equations A * X = B,
SGESVD (3F) - compute the singular value decomposition (SVD) of a real M-by-N matrix A, optionally computing the left and/or right singular vectors
SGESVX (3F) - use the LU factorization to compute the solution to a real system of linear equations A * X = B,
SGETF2 (3F) - compute an LU factorization of a general m-by-n matrix A using partial pivoting with row interchanges
SGETRF (3F) - compute an LU factorization of a general M-by-N matrix A using partial pivoting with row interchanges
SGETRI (3F) - compute the inverse of a matrix using the LU factorization computed by SGETRF
SGETRS (3F) - solve a system of linear equations A * X = B or A' * X = B with a general N-by-N matrix A using the LU factorization computed by SGETRF
SgFileSelectionBox (3X) - The enhanced FileSelectionBox widget
SgFileSelectionBox (3X) - The enhanced FileSelectionBox widget
SgFileSelectionBoxGetChild (3X) - A FileSelectionBox function used to access a component
SgFileSelectionBoxGetChild (3X) - A FileSelectionBox function used to access a component
SgFileSelectionBoxReplaceSuffix (3X) - A FileSelectionBox function used to replace the suffix of the current file name.
SgFileSelectionBoxReplaceSuffix (3X) - A FileSelectionBox function used to replace the suffix of the current file name.
SgFinder (3X) - The Finder widget class
SgFinder (3X) - The Finder widget class
SgFinderAddHistoryItem (3X) - A Finder function that adds an item to the Finder history list
SgFinderAddHistoryItem (3X) - A Finder function that adds an item to the Finder history list
SgFinderClearHistory (3X) - A Finder function that deletes all items from the Finder history list
SgFinderClearHistory (3X) - A Finder function that deletes all items from the Finder history list
SgFinderGetChild (3X) - A Finder function used to access a widget component
SgFinderGetChild (3X) - A Finder function used to access a widget component
SgFinderGetTextString (3X) - A Finder function that accesses the string value of the text field.
SgFinderGetTextString (3X) - A Finder function that accesses the string value of the text field.
SgFinderSetTextString (3X) - A Finder function that sets the string value
SgFinderSetTextString (3X) - A Finder function that sets the string value
SGGBAK (3F) - form the right or left eigenvectors of a real generalized eigenvalue problem A*x = lambda*B*x, by backward transformation on the computed eigenvectors of the balanced pair of matrices output by SGGBAL
SGGBAL (3F) - balance a pair of general real matrices (A,B)
SGGGLM (3F) - solve a general Gauss-Markov linear model (GLM) problem
SGGHRD (3F) - reduce a pair of real matrices (A,B) to generalized upper Hessenberg form using orthogonal transformations, where A is a general matrix and B is upper triangular
SGGLSE (3F) - solve the linear equality-constrained least squares (LSE) problem
SGGQRF (3F) - compute a generalized QR factorization of an N-by-M matrix A and an N-by-P matrix B
SgGraph (3X) - An OSF/Motif-compatible graph widget.
SgGraph (3X) - An OSF/Motif-compatible graph widget.
SgGrid (3X) - The SgGrid widget class
SgGrid-The SgGrid widget class (3X) - (no summary available)
SGGRQF (3F) - compute a generalized RQ factorization of an M-by-N matrix A and a P-by-N matrix B
SGGSVD (3F) - compute the generalized singular value decomposition (GSVD) of an M-by-N real matrix A and P-by-N real matrix B
SGGSVP (3F) - compute orthogonal matrices U, V and Q such that N-K-L K L U'*A*Q = K ( 0 A12 A13 ) if M-K-L >= 0
sgi_getcapabilitybyname (3C) - get the default and allowed capability sets for a named user
sgi_getclearancebyname (3C) - get the default and allowed mac label range for a named user
SgIconGadget (3X) - the Icon widget class.
SgIconGadget (3X) - the Icon widget class.
sgidladd (3C) - open a shared object and add its variables to the name space.
sgidlopen_version (3C) - open a shared object with the specified interface version.
sgigetdsoversion (3C) - gets the interface version of a shared object
SGIHelpInit, SGIHelpMsg, SGIHelpIndexMsg (3) - help functions
sgiXnmbxEnableCapability, sgiXnmbxReleaseCapability (3X) - enable and release stateful NMBX capabilities
sgiXnmbxGetExtendedVisualInfo, sgiXnmbxMatchExtendedVisualInfo, sgiXnmbxGetVisualCapabilities (3X) - obtain NMBX extended visual information
sgiXnmbxGetVersion, sgiXnmbxQueryExtension (3X) - query existence and version of NMBX extension
SgSpringBox (3X) - The SgSpringBox widget class
SgSpringBox (3X) - The SgSpringBox widget class
SGTCON (3F) - estimate the reciprocal of the condition number of a real tridiagonal matrix A using the LU factorization as computed by SGTTRF
SgThumbWheel (3X) - The ThumbWheel widget class
SgThumbWheel (3X) - The ThumbWheel widget class
SgThumbWheelGetValue (3X) - A ThumbWheel function that returns the current wheel position
SgThumbWheelGetValue (3X) - A ThumbWheel function that returns the current wheel position
SgThumbWheelSetValue (3X) - A ThumbWheel function that sets the wheel value
SgThumbWheelSetValue (3X) - A ThumbWheel function that sets the wheel value
SGTRFS (3F) - improve the computed solution to a system of linear equations when the coefficient matrix is tridiagonal, and provides error bounds and backward error estimates for the solution
SGTSL (3F) - SGTSL given a general tridiagonal matrix and a right hand side will find the solution.
SGTSV (3F) - solve the equation A*X = B,
SGTSVX (3F) - use the LU factorization to compute the solution to a real system of linear equations A * X = B or A**T * X = B,
SGTTRF (3F) - compute an LU factorization of a real tridiagonal matrix A using elimination with partial pivoting and row interchanges
SGTTRS (3F) - solve one of the systems of equations A*X = B or A'*X = B,
SgVisualDrawingArea (3X) - A drawing area in an alternate visual
SgVisualDrawingArea (3X) - A drawing area in an alternate visual
SgVisualDrawingAreaInstallColormap (3X) - Install a colormap for the VisualDrawingArea widget
SgVisualDrawingAreaInstallColormap (3X) - Install a colormap for the VisualDrawingArea widget
SgVisualDrawingAreaUninstallColormap (3X) - Uninstall a colormap for the VisualDrawingArea widget
SgVisualDrawingAreaUninstallColormap (3X) - Uninstall a colormap for the VisualDrawingArea widget
shadem (3G) - selects the shading model
shademodel (3G) - selects the shading model
shader (3G) - obsolete routine
shaderange (3G) - obsolete routine
SHAPE (3I) - Returns the shape of an array or a scalar
Shell (3) - run shell commands transparently within perl
Shell (3) - The Shell widget class
Shell (3X) - The Shell widget class
SHGEQZ (3F) - implement a single-/double-shift version of the QZ method for finding the generalized eigenvalues w(j)=(ALPHAR(j) + i*ALPHAI(j))/BETAR(j) of the equation det( A - w(i) B ) = 0 In addition, the pair A,B may be reduced to generalized Schur form
SHIFT (3I) - Performs a left circular shift
SHIFTA (3I) - Performs an arithmetic shift
SHIFTL (3I) - Performs a left shift with zero fill
SHIFTR (3I) - Performs a right shift with zero fill
SHSEIN (3F) - use inverse iteration to find specified right and/or left eigenvectors of a real upper Hessenberg matrix H
SHSEQR (3F) - compute the eigenvalues of a real upper Hessenberg matrix H and, optionally, the matrices T and Z from the Schur decomposition H = Z T Z**T, where T is an upper quasi-triangular matrix (the Schur form), and Z is the orthogonal matrix of Schur vectors
shutdown (3N) - shut down part of a full-duplex connection
sigblock (3B) - block signals from delivery to process (4.3BSD)
sign, isign, iisign, jisign, dsign, qsign (3F) - FORTRAN transfer-of-sign intrinsic function
signal (3B) - simplified software signal facilities (4.3BSD)
sigpause (3B) - atomically release blocked signals and wait for interrupt (4.3BSD)
sigqueue (3) - queue a signal to a process (POSIX)
sigsetmask (3B) - set current signal mask (4.3BSD)
sigsetops: sigaddset, sigdelset, sigemptyset, sigfillset, sigismember, sgi_altersigs, sgi_sigffset, sgi_siganyset, sgi_dumpset (3) - signal set manipulation and examination routines (POSIX, with SGI-specific additions)
sigtrap (3) - Perl pragma to enable simple signal handling
sigvec (3B) - 4.3BSD software signal facilities
sigwait, sigwaitinfo, sigtimedwait (3) - wait for queued signals (POSIX)
SIIR1D, DIIR1D, CIIR1D, ZIIR1D (3F) - 1D recursive convolution in the time domain.
SIIR2D, DIIR2D, CIIR2D, ZIIR2D (3F) - 2D Convolution in the time domain.
SIIRM1D, DIIRM1D, CIIRM1D, ZIIRM1D (3F) - N 1D convolutions in the time domain.
sin, cos, tan, asin, acos, atan, atan2, fsin, sinf, fcos, cosf, ftan, tanf, fasin, asinf, facos, acosf, fatan, atanf, fatan2, atan2f, sinl, cosl, tanl, asinl, acosl, atanl, atan2l (3M) - trigonometric functions and their inverses
SIN, DSIN, CSIN, CDSIN (3M) - Computes the sine
sin, dsin, qsin, csin, zsin, cqsin, sind, dsind, qsind (3F) - FORTRAN sine intrinsic function
single (3G) - writes and displays all bitplanes
singlebuffer (3G) - writes and displays all bitplanes
sinh, cosh, tanh, fsinh, sinhf, fcosh, coshf, ftanh, tanhf, sinhl, coshl, tanhl (3M) - hyperbolic functions
sinh, dsinh, qsinh (3F) - FORTRAN hyperbolic sine intrinsic function
SIZE (3I) - Returns the total number of elements in an array
SLABAD (3F) - take as input the values computed by SLAMCH for underflow and overflow, and returns the square root of each of these values if the log of LARGE is sufficiently large
SLABRD (3F) - reduce the first NB rows and columns of a real general m by n matrix A to upper or lower bidiagonal form by an orthogonal transformation Q' * A * P, and returns the matrices X and Y which are needed to apply the transformation to the unreduced part of A
SLACON (3F) - estimate the 1-norm of a square, real matrix A
SLACPY (3F) - copie all or part of a two-dimensional matrix A to another matrix B
SLADIV (3F) - perform complex division in real arithmetic a + i*b p + i*q = --------- c + i*d The algorithm is due to Robert L
SLAE2 (3F) - compute the eigenvalues of a 2-by-2 symmetric matrix [ A B ] [ B C ]
SLAEBZ (3F) - contain the iteration loops which compute and use the function N(w), which is the count of eigenvalues of a symmetric tridiagonal matrix T less than or equal to its argument w
SLAED0 (3F) - compute all eigenvalues and corresponding eigenvectors of a symmetric tridiagonal matrix using the divide and conquer method
SLAED1 (3F) - compute the updated eigensystem of a diagonal matrix after modification by a rank-one symmetric matrix
SLAED2 (3F) - merge the two sets of eigenvalues together into a single sorted set
SLAED3 (3F) - find the roots of the secular equation, as defined by the values in D, W, and RHO, between KSTART and KSTOP
SLAED4 (3F) - subroutine computes the I-th updated eigenvalue of a symmetric rank-one modification to a diagonal matrix whose elements are given in the array d, and that D(i) < D(j) for i < j and that RHO > 0
SLAED5 (3F) - subroutine computes the I-th eigenvalue of a symmetric rank-one modification of a 2-by-2 diagonal matrix diag( D ) + RHO The diagonal elements in the array D are assumed to satisfy D(i) < D(j) for i < j
SLAED6 (3F) - compute the positive or negative root (closest to the origin) of z(1) z(2) z(3) f(x) = rho + --------- + ---------- + --------- d(1)-x d(2)-x d(3)-x It is assumed that if ORGATI = .true
SLAED7 (3F) - compute the updated eigensystem of a diagonal matrix after modification by a rank-one symmetric matrix
SLAED8 (3F) - merge the two sets of eigenvalues together into a single sorted set
SLAED9 (3F) - find the roots of the secular equation, as defined by the values in D, Z, and RHO, between KSTART and KSTOP
SLAEDA (3F) - compute the Z vector corresponding to the merge step in the CURLVLth step of the merge process with TLVLS steps for the CURPBMth problem
SLAEIN (3F) - use inverse iteration to find a right or left eigenvector corresponding to the eigenvalue (WR,WI) of a real upper Hessenberg matrix H
SLAEV2 (3F) - compute the eigendecomposition of a 2-by-2 symmetric matrix [ A B ] [ B C ]
SLAEXC (3F) - swap adjacent diagonal blocks T11 and T22 of order 1 or 2 in an upper quasi-triangular matrix T by an orthogonal similarity transformation
SLAG2 (3F) - compute the eigenvalues of a 2 x 2 generalized eigenvalue problem A - w B, with scaling as necessary to avoid over-/underflow
SLAGS2 (3F) - compute 2-by-2 orthogonal matrices U, V and Q, such that if ( UPPER ) then U'*A*Q = U'*( A1 A2 )*Q = ( x 0 ) ( 0 A3 ) ( x x ) and V'*B*Q = V'*( B1 B2 )*Q = ( x 0 ) ( 0 B3 ) ( x x ) or if ( .NOT.UPPER ) then U'*A*Q = U'*( A1 0 )*Q = ( x x ) ( A2 A3 ) ( 0 x ) and V'*B*Q = V'*( B1 0 )*Q = ( x x ) ( B2 B3 ) ( 0 x ) The rows of the transformed A and B are parallel, where U = ( CSU SNU ), V = ( CSV SNV ), Q = ( CSQ SNQ ) ( -SNU CSU ) ( -SNV CSV ) ( -SNQ CSQ ) Z' denotes the transpose of Z
SLAGTF (3F) - factorize the matrix (T - lambda*I), where T is an n by n tridiagonal matrix and lambda is a scalar, as T - lambda*I = PLU,
SLAGTM (3F) - perform a matrix-vector product of the form B := alpha * A * X + beta * B where A is a tridiagonal matrix of order N, B and X are N by NRHS matrices, and alpha and beta are real scalars, each of which may be 0., 1., or -1
SLAGTS (3F) - may be used to solve one of the systems of equations (T - lambda*I)*x = y or (T - lambda*I)'*x = y,
SLAHQR (3F) - i an auxiliary routine called by SHSEQR to update the eigenvalues and Schur decomposition already computed by SHSEQR, by dealing with the Hessenberg submatrix in rows and columns ILO to IHI
SLAHRD (3F) - reduce the first NB columns of a real general n-by-(n-k+1) matrix A so that elements below the k-th subdiagonal are zero
SLAIC1 (3F) - applie one step of incremental condition estimation in its simplest version
SLALN2 (3F) - solve a system of the form (ca A - w D ) X = s B or (ca A' - w D) X = s B with possible scaling ("s") and perturbation of A
SLAMCH (3F) - determine single precision machine parameters
SLAMRG (3F) - will create a permutation list which will merge the elements of A (which is composed of two independently sorted sets) into a single set which is sorted in ascending order
SLANGB (3F) - return the value of the one norm, or the Frobenius norm, or the infinity norm, or the element of largest absolute value of an n by n band matrix A, with kl sub-diagonals and ku super-diagonals
SLANGE (3F) - return the value of the one norm, or the Frobenius norm, or the infinity norm, or the element of largest absolute value of a real matrix A
SLANGT (3F) - return the value of the one norm, or the Frobenius norm, or the infinity norm, or the element of largest absolute value of a real tridiagonal matrix A
SLANHS (3F) - return the value of the one norm, or the Frobenius norm, or the infinity norm, or the element of largest absolute value of a Hessenberg matrix A
SLANSB (3F) - return the value of the one norm, or the Frobenius norm, or the infinity norm, or the element of largest absolute value of an n by n symmetric band matrix A, with k super-diagonals
SLANSP (3F) - return the value of the one norm, or the Frobenius norm, or the infinity norm, or the element of largest absolute value of a real symmetric matrix A, supplied in packed form
SLANST (3F) - return the value of the one norm, or the Frobenius norm, or the infinity norm, or the element of largest absolute value of a real symmetric tridiagonal matrix A
SLANSY (3F) - return the value of the one norm, or the Frobenius norm, or the infinity norm, or the element of largest absolute value of a real symmetric matrix A
SLANTB (3F) - return the value of the one norm, or the Frobenius norm, or the infinity norm, or the element of largest absolute value of an n by n triangular band matrix A, with ( k + 1 ) diagonals
SLANTP (3F) - return the value of the one norm, or the Frobenius norm, or the infinity norm, or the element of largest absolute value of a triangular matrix A, supplied in packed form
SLANTR (3F) - return the value of the one norm, or the Frobenius norm, or the infinity norm, or the element of largest absolute value of a trapezoidal or triangular matrix A
SLANV2 (3F) - compute the Schur factorization of a real 2-by-2 nonsymmetric matrix in standard form
SLAPLL (3F) - two column vectors X and Y, let A = ( X Y )
SLAPMT (3F) - rearrange the columns of the M by N matrix X as specified by the permutation K(1),K(2),...,K(N) of the integers 1,...,N
SLAPY2 (3F) - return sqrt(x**2+y**2), taking care not to cause unnecessary overflow
SLAPY3 (3F) - return sqrt(x**2+y**2+z**2), taking care not to cause unnecessary overflow
SLAQGB (3F) - equilibrate a general M by N band matrix A with KL subdiagonals and KU superdiagonals using the row and scaling factors in the vectors R and C
SLAQGE (3F) - equilibrate a general M by N matrix A using the row and scaling factors in the vectors R and C
SLAQSB (3F) - equilibrate a symmetric band matrix A using the scaling factors in the vector S
SLAQSP (3F) - equilibrate a symmetric matrix A using the scaling factors in the vector S
SLAQSY (3F) - equilibrate a symmetric matrix A using the scaling factors in the vector S
SLAQTR (3F) - solve the real quasi-triangular system op(T)*p = scale*c, if LREAL = .TRUE
SLAR2V (3F) - applie a vector of real plane rotations from both sides to a sequence of 2-by-2 real symmetric matrices, defined by the elements of the vectors x, y and z
SLARF (3F) - applie a real elementary reflector H to a real m by n matrix C, from either the left or the right
SLARFB (3F) - applie a real block reflector H or its transpose H' to a real m by n matrix C, from either the left or the right
SLARFG (3F) - generate a real elementary reflector H of order n, such that H * ( alpha ) = ( beta ), H' * H = I
SLARFT (3F) - form the triangular factor T of a real block reflector H of order n, which is defined as a product of k elementary reflectors
SLARFX (3F) - applie a real elementary reflector H to a real m by n matrix C, from either the left or the right
SLARGV (3F) - generate a vector of real plane rotations, determined by elements of the real vectors x and y
SLARNV (3F) - return a vector of n random real numbers from a uniform or normal distribution
SLARTG (3F) - generate a plane rotation so that [ CS SN ]
SLARTV (3F) - applie a vector of real plane rotations to elements of the real vectors x and y
SLARUV (3F) - return a vector of n random real numbers from a uniform (0,1)
SLAS2 (3F) - compute the singular values of the 2-by-2 matrix [ F G ] [ 0 H ]
SLASCL (3F) - multiplie the M by N real matrix A by the real scalar CTO/CFROM
SLASET (3F) - initialize an m-by-n matrix A to BETA on the diagonal and ALPHA on the offdiagonals
SLASQ1 (3F) - SLASQ1 computes the singular values of a real N-by-N bidiagonal matrix with diagonal D and off-diagonal E
SLASQ2 (3F) - SLASQ2 computes the singular values of a real N-by-N unreduced bidiagonal matrix with squared diagonal elements in Q and squared off- diagonal elements in E
SLASQ3 (3F) - SLASQ3 is the workhorse of the whole bidiagonal SVD algorithm
SLASQ4 (3F) - SLASQ4 estimates TAU, the smallest eigenvalue of a matrix
SLASR (3F) - perform the transformation A := P*A, when SIDE = 'L' or 'l' ( Left-hand side ) A := A*P', when SIDE = 'R' or 'r' ( Right-hand side ) where A is an m by n real matrix and P is an orthogonal matrix,
SLASRT (3F) - the numbers in D in increasing order (if ID = 'I') or in decreasing order (if ID = 'D' )
SLASSQ (3F) - return the values scl and smsq such that ( scl**2 )*smsq = x( 1 )**2 +...+ x( n )**2 + ( scale**2 )*sumsq,
SLASV2 (3F) - compute the singular value decomposition of a 2-by-2 triangular matrix [ F G ] [ 0 H ]
SLASWP (3F) - perform a series of row interchanges on the matrix A
SLASY2 (3F) - solve for the N1 by N2 matrix X, 1 <= N1,N2 <= 2, in op(TL)*X + ISGN*X*op(TR) = SCALE*B,
SLASYF (3F) - compute a partial factorization of a real symmetric matrix A using the Bunch-Kaufman diagonal pivoting method
SLATBS (3F) - solve one of the triangular systems A *x = s*b or A'*x = s*b with scaling to prevent overflow, where A is an upper or lower triangular band matrix
SLATPS (3F) - solve one of the triangular systems A *x = s*b or A'*x = s*b with scaling to prevent overflow, where A is an upper or lower triangular matrix stored in packed form
SLATRD (3F) - reduce NB rows and columns of a real symmetric matrix A to symmetric tridiagonal form by an orthogonal similarity transformation Q' * A * Q, and returns the matrices V and W which are needed to apply the transformation to the unreduced part of A
SLATRS (3F) - solve one of the triangular systems A *x = s*b or A'*x = s*b with scaling to prevent overflow
SLATZM (3F) - applie a Householder matrix generated by STZRQF to a matrix
SLAUU2 (3F) - compute the product U * U' or L' * L, where the triangular factor U or L is stored in the upper or lower triangular part of the array A
SLAUUM (3F) - compute the product U * U' or L' * L, where the triangular factor U or L is stored in the upper or lower triangular part of the array A
SLCancelJob (3) - cancels a queued printer job
sleep (3C) - suspend execution for interval
sleep (3F) - suspend execution for an interval
SLGetDefPrinterName (3) - gets the name of the default printer
SLGetPrinterList, SLGetPrinterInfo (3) - get printer information
SLGetPrinterSettings, SLSysVGetSpoolerOptions, SLSysVGetPrinterOptions, SLSysVSaveSpoolerOptions, SLSysVSavePrinterOptions (3) - option management
SLGetQueue (3) - reports the printer queue contents
SLGetSpooler, SLSetSpooler (3) - gets/sets the default spooling system
SLGetSpoolerState, SLSetSpoolerState (3) - gets/sets the spooling system printing and queueing state
SLPerror, SLErrorString (3) - obtain libspool execution error messages
SLSubmitJob, SLSubmitJobFd, SLSubmitJobBuf, SLSubmitJobSimple (3) - submit a job for printing
smooth (3G) - obsolete routine
smoothline (3G) - obsolete routine
socket (3N) - create an endpoint for communication
Socket, sockaddr_in, sockaddr_un, inet_aton, inet_ntoa (3) - load the C socket.h defines and structure manipulators
socketpair (3N) - create a pair of connected sockets
SOLVERS (3F) - SGI developed linear equations solvers.
SOPGTR (3F) - generate a real orthogonal matrix Q which is defined as the product of n-1 elementary reflectors H(i) of order n, as returned by SSPTRD using packed storage
SOPMTR (3F) - overwrite the general real M-by-N matrix C with SIDE = 'L' SIDE = 'R' TRANS = 'N'
SORG2L (3F) - generate an m by n real matrix Q with orthonormal columns,
SORG2R (3F) - generate an m by n real matrix Q with orthonormal columns,
SORGBR (3F) - generate one of the real orthogonal matrices Q or P**T determined by SGEBRD when reducing a real matrix A to bidiagonal form
SORGHR (3F) - generate a real orthogonal matrix Q which is defined as the product of IHI-ILO elementary reflectors of order N, as returned by SGEHRD
SORGL2 (3F) - generate an m by n real matrix Q with orthonormal rows,
SORGLQ (3F) - generate an M-by-N real matrix Q with orthonormal rows,
SORGQL (3F) - generate an M-by-N real matrix Q with orthonormal columns,
SORGQR (3F) - generate an M-by-N real matrix Q with orthonormal columns,
SORGR2 (3F) - generate an m by n real matrix Q with orthonormal rows,
SORGRQ (3F) - generate an M-by-N real matrix Q with orthonormal rows,
SORGTR (3F) - generate a real orthogonal matrix Q which is defined as the product of n-1 elementary reflectors of order N, as returned by SSYTRD
SORM2L (3F) - overwrite the general real m by n matrix C with Q * C if SIDE = 'L' and TRANS = 'N', or Q'* C if SIDE = 'L' and TRANS = 'T', or C * Q if SIDE = 'R' and TRANS = 'N', or C * Q' if SIDE = 'R' and TRANS = 'T',
SORM2R (3F) - overwrite the general real m by n matrix C with Q * C if SIDE = 'L' and TRANS = 'N', or Q'* C if SIDE = 'L' and TRANS = 'T', or C * Q if SIDE = 'R' and TRANS = 'N', or C * Q' if SIDE = 'R' and TRANS = 'T',
SORMBR (3F) - VECT = 'Q', SORMBR overwrites the general real M-by-N matrix C with SIDE = 'L' SIDE = 'R' TRANS = 'N'
SORMHR (3F) - overwrite the general real M-by-N matrix C with SIDE = 'L' SIDE = 'R' TRANS = 'N'
SORML2 (3F) - overwrite the general real m by n matrix C with Q * C if SIDE = 'L' and TRANS = 'N', or Q'* C if SIDE = 'L' and TRANS = 'T', or C * Q if SIDE = 'R' and TRANS = 'N', or C * Q' if SIDE = 'R' and TRANS = 'T',
SORMLQ (3F) - overwrite the general real M-by-N matrix C with SIDE = 'L' SIDE = 'R' TRANS = 'N'
SORMQL (3F) - overwrite the general real M-by-N matrix C with SIDE = 'L' SIDE = 'R' TRANS = 'N'
SORMQR (3F) - overwrite the general real M-by-N matrix C with SIDE = 'L' SIDE = 'R' TRANS = 'N'
SORMR2 (3F) - overwrite the general real m by n matrix C with Q * C if SIDE = 'L' and TRANS = 'N', or Q'* C if SIDE = 'L' and TRANS = 'T', or C * Q if SIDE = 'R' and TRANS = 'N', or C * Q' if SIDE = 'R' and TRANS = 'T',
SORMRQ (3F) - overwrite the general real M-by-N matrix C with SIDE = 'L' SIDE = 'R' TRANS = 'N'
SORMTR (3F) - overwrite the general real M-by-N matrix C with SIDE = 'L' SIDE = 'R' TRANS = 'N'
source (3Tcl) - Evaluate a file as a Tcl script
SPACING (3I) - Returns the absolute spacing of real model numbers near the argument value
SPBCO (3F) - SPBCO factors a real symmetric positive definite matrix stored in band form and estimates the condition of the matrix.
SPBCON (3F) - estimate the reciprocal of the condition number (in the 1-norm) of a real symmetric positive definite band matrix using the Cholesky factorization A = U**T*U or A = L*L**T computed by SPBTRF
SPBDI (3F) - SPBDI computes the determinant of a real symmetric positive definite band matrix using the factors computed by SPBCO or SPBFA. If the inverse is needed, use SPBSL N times.
SPBEQU (3F) - compute row and column scalings intended to equilibrate a symmetric positive definite band matrix A and reduce its condition number (with respect to the two-norm)
SPBFA (3F) - SPBFA factors a real symmetric positive definite matrix stored in band form.
SPBRFS (3F) - improve the computed solution to a system of linear equations when the coefficient matrix is symmetric positive definite and banded, and provides error bounds and backward error estimates for the solution
SPBSL (3F) - SPBSL solves the real symmetric positive definite band system A*X = B using the factors computed by SPBCO or SPBFA.
SPBSTF (3F) - compute a split Cholesky factorization of a real symmetric positive definite band matrix A
SPBSV (3F) - compute the solution to a real system of linear equations A * X = B,
SPBSVX (3F) - use the Cholesky factorization A = U**T*U or A = L*L**T to compute the solution to a real system of linear equations A * X = B,
SPBTF2 (3F) - compute the Cholesky factorization of a real symmetric positive definite band matrix A
SPBTRF (3F) - compute the Cholesky factorization of a real symmetric positive definite band matrix A
SPBTRS (3F) - solve a system of linear equations A*X = B with a symmetric positive definite band matrix A using the Cholesky factorization A = U**T*U or A = L*L**T computed by SPBTRF
spclos (3G) - obsolete routine
spclos (3G) - obsolete routine
sphbbp, sphebp (3G) - delimit specification of bitmapped spheres
sphbgnbitmap, sphendbitmap (3G) - delimit specification of bitmapped spheres
sphclr (3L) - set the diffuse r, g, b color components of bitmapped spheres.
sphcolor (3L) - set the diffuse r, g, b color components of bitmapped spheres.
sphdra (3L) - draw a sphere
sphdraw (3L) - draw a sphere
sphfre (3L) - free all internal sphere objects in the Sphere Library's internal cache
sphfree (3L) - free all internal sphere objects in the Sphere Library's internal cache
sphgnp (3L) - return the number of polygons for the current set of sphere attributes.
sphgnpolys (3L) - return the number of polygons for the current set of sphere attributes.
sphmod (3L) - set sphere attributes
sphmode (3L) - set sphere attributes
sphobj (3L) - create a GL object containing a sphere
sphobj (3L) - create a GL object containing a sphere
sphrma (3L) - orient spheres
sphrotmatrix (3L) - orient spheres
splf, splfi, splfs, splf2, splf2i, splf2s (3G) - draws a shaded filled polygon
splf, splfi, splfs, splf2, splf2i, splf2s (3G) - draws a shaded filled polygon
split (3Tcl) - Split a string into a proper Tcl list
SPOCO (3F) - SPOCO factors a real symmetric positive definite matrix and estimates the condition of the matrix.
SPOCON (3F) - estimate the reciprocal of the condition number (in the 1-norm) of a real symmetric positive definite matrix using the Cholesky factorization A = U**T*U or A = L*L**T computed by SPOTRF
SPODI (3F) - SPODI computes the determinant and inverse of a certain real symmetric positive definite matrix (see below) using the factors computed by SPOCO, SPOFA or SQRDC.
SPOEQU (3F) - compute row and column scalings intended to equilibrate a symmetric positive definite matrix A and reduce its condition number (with respect to the two-norm)
SPOFA (3F) - SPOFA factors a real symmetric positive definite matrix.
SPORFS (3F) - improve the computed solution to a system of linear equations when the coefficient matrix is symmetric positive definite,
SPOSL (3F) - SPOSL solves the real symmetric positive definite system A * X = B using the factors computed by SPOCO or SPOFA.
SPOSV (3F) - compute the solution to a real system of linear equations A * X = B,
SPOSVX (3F) - use the Cholesky factorization A = U**T*U or A = L*L**T to compute the solution to a real system of linear equations A * X = B,
SPOTF2 (3F) - compute the Cholesky factorization of a real symmetric positive definite matrix A
SPOTRF (3F) - compute the Cholesky factorization of a real symmetric positive definite matrix A
SPOTRI (3F) - compute the inverse of a real symmetric positive definite matrix A using the Cholesky factorization A = U**T*U or A = L*L**T computed by SPOTRF
SPOTRS (3F) - solve a system of linear equations A*X = B with a symmetric positive definite matrix A using the Cholesky factorization A = U**T*U or A = L*L**T computed by SPOTRF
SPPCO (3F) - SPPCO factors a real symmetric positive definite matrix stored in packed form and estimates the condition of the matrix.
SPPCON (3F) - estimate the reciprocal of the condition number (in the 1-norm) of a real symmetric positive definite packed matrix using the Cholesky factorization A = U**T*U or A = L*L**T computed by SPPTRF
SPPDI (3F) - SPPDI computes the determinant and inverse of a real symmetric positive definite matrix using the factors computed by SPPCO or SPPFA .
SPPEQU (3F) - compute row and column scalings intended to equilibrate a symmetric positive definite matrix A in packed storage and reduce its condition number (with respect to the two-norm)
SPPFA (3F) - SPPFA factors a real symmetric positive definite matrix stored in packed form.
SPPRFS (3F) - improve the computed solution to a system of linear equations when the coefficient matrix is symmetric positive definite and packed, and provides error bounds and backward error estimates for the solution
SPPSL (3F) - SPPSL solves the real symmetric positive definite system A * X = B using the factors computed by SPPCO or SPPFA.
SPPSV (3F) - compute the solution to a real system of linear equations A * X = B,
SPPSVX (3F) - use the Cholesky factorization A = U**T*U or A = L*L**T to compute the solution to a real system of linear equations A * X = B,
SPPTRF (3F) - compute the Cholesky factorization of a real symmetric positive definite matrix A stored in packed format
SPPTRI (3F) - compute the inverse of a real symmetric positive definite matrix A using the Cholesky factorization A = U**T*U or A = L*L**T computed by SPPTRF
SPPTRS (3F) - solve a system of linear equations A*X = B with a symmetric positive definite matrix A in packed storage using the Cholesky factorization A = U**T*U or A = L*L**T computed by SPPTRF
spray (3N) - scatter data in order to check the network
SPREAD (3I) - Constructs an array from several copies of an actual argument
sprod1du, dprod1du (3F) - Compute the product of a 1D Fourier transform with a 1D filter.
sprod2du, dprod2du (3F) - Compute the product of a 2D Fourier transforms with a 2D filter.
sprod3du, dprod3du (3F) - Compute the product of a 3D Fourier transforms with a 3D filter.
sprodm1du, dprodm1du (3F) - Compute the product of Multiple 1D Fourier transforms with Multiple 1D filters.
SPTCON (3F) - compute the reciprocal of the condition number (in the 1-norm) of a real symmetric positive definite tridiagonal matrix using the factorization A = L*D*L**T or A = U**T*D*U computed by SPTTRF
SPTEQR (3F) - compute all eigenvalues and, optionally, eigenvectors of a symmetric positive definite tridiagonal matrix by first factoring the matrix using SPTTRF, and then calling SBDSQR to compute the singular values of the bidiagonal factor
SPTRFS (3F) - improve the computed solution to a system of linear equations when the coefficient matrix is symmetric positive definite and tridiagonal, and provides error bounds and backward error estimates for the solution
SPTSL (3F) - SPTSL given a positive definite tridiagonal matrix and a right hand side will find the solution.
SPTSV (3F) - compute the solution to a real system of linear equations A*X = B, where A is an N-by-N symmetric positive definite tridiagonal matrix, and X and B are N-by-NRHS matrices
SPTSVX (3F) - use the factorization A = L*D*L**T to compute the solution to a real system of linear equations A*X = B, where A is an N-by-N symmetric positive definite tridiagonal matrix and X and B are N-by-NRHS matrices
SPTTRF (3F) - compute the factorization of a real symmetric positive definite tridiagonal matrix A
SPTTRS (3F) - solve a system of linear equations A * X = B with a symmetric positive definite tridiagonal matrix A using the factorization A = L*D*L**T or A = U**T*D*U computed by SPTTRF
SQRDC (3F) - SQRDC uses Householder transformations to compute the QR factorization of an N by P matrix X. Column pivoting based on the 2- norms of the reduced columns may be performed at the user's option.
SQRSL (3F) - SQRSL applies the output of SQRDC to compute coordinate transformations, projections, and least squares solutions. For K .LE. MIN(N,P), let XK be the matrix
SQRT, DSQRT, CSQRT, CDSQRT (3M) - Computes square root
sqrt, dsqrt, qsqrt, csqrt, zsqrt, cqsqrt (3F) - FORTRAN square root intrinsic function
sqrt, fsqrt, sqrtf, sqrtl, cbrt, cbrtl (3M) - cube root, square root
SRSCL (3F) - multiplie an n-element real vector x by the real scalar 1/a
SSBEV (3F) - compute all the eigenvalues and, optionally, eigenvectors of a real symmetric band matrix A
SSBEVD (3F) - compute all the eigenvalues and, optionally, eigenvectors of a real symmetric band matrix A
SSBEVX (3F) - compute selected eigenvalues and, optionally, eigenvectors of a real symmetric band matrix A
SSBGST (3F) - reduce a real symmetric-definite banded generalized eigenproblem A*x = lambda*B*x to standard form C*y = lambda*y,
SSBGV (3F) - compute all the eigenvalues, and optionally, the eigenvectors of a real generalized symmetric-definite banded eigenproblem, of the form A*x=(lambda)*B*x
SSBTRD (3F) - reduce a real symmetric band matrix A to symmetric tridiagonal form T by an orthogonal similarity transformation
sscal1d, dscal1d (3F) - scales a 1D real sequence.
sscal2d, dscal2d (3F) - scales 2D real sequence.
sscal3d, dscal3d (3F) - scales 3D real sequence.
sscalm1d, dscalm1d (3F) - scales Multiple 1D real sequences.
ssdi_get_config_and_load (3C) - consult configuration file and load DSO corresponding to the source for a given system database
SSICO (3F) - SSICO factors a real symmetric matrix by elimination with symmetric pivoting and estimates the condition of the matrix.
SSIDI (3F) - SSIDI computes the determinant, inertia and inverse of a real symmetric matrix using the factors from SSIFA.
SSIFA (3F) - SSIFA factors a real symmetric matrix by elimination with symmetric pivoting.
ssignal, gsignal (3C) - software signals
SSISL (3F) - SSISL solves the real symmetric system A * X = B using the factors computed by SSIFA.
SSPCO (3F) - SSPCO factors a real symmetric matrix stored in packed form by elimination with symmetric pivoting and estimates the condition of the matrix.
SSPCON (3F) - estimate the reciprocal of the condition number (in the 1-norm) of a real symmetric packed matrix A using the factorization A = U*D*U**T or A = L*D*L**T computed by SSPTRF
SSPDI (3F) - SSPDI computes the determinant, inertia and inverse of a real symmetric matrix using the factors from SSPFA, where the matrix is stored in packed form.
SSPEV (3F) - compute all the eigenvalues and, optionally, eigenvectors of a real symmetric matrix A in packed storage
SSPEVD (3F) - compute all the eigenvalues and, optionally, eigenvectors of a real symmetric matrix A in packed storage
SSPEVX (3F) - compute selected eigenvalues and, optionally, eigenvectors of a real symmetric matrix A in packed storage
SSPFA (3F) - SSPFA factors a real symmetric matrix stored in packed form by elimination with symmetric pivoting.
SSPGST (3F) - reduce a real symmetric-definite generalized eigenproblem to standard form, using packed storage
SSPGV (3F) - compute all the eigenvalues and, optionally, the eigenvectors of a real generalized symmetric-definite eigenproblem, of the form A*x=(lambda)*B*x, A*Bx=(lambda)*x, or B*A*x=(lambda)*x
SSPRFS (3F) - improve the computed solution to a system of linear equations when the coefficient matrix is symmetric indefinite and packed, and provides error bounds and backward error estimates for the solution
SSPSL (3F) - SSISL solves the real symmetric system A * X = B using the factors computed by SSPFA.
SSPSV (3F) - compute the solution to a real system of linear equations A * X = B,
SSPSVX (3F) - use the diagonal pivoting factorization A = U*D*U**T or A = L*D*L**T to compute the solution to a real system of linear equations A * X = B, where A is an N-by-N symmetric matrix stored in packed format and X and B are N-by-NRHS matrices
SSPTRD (3F) - reduce a real symmetric matrix A stored in packed form to symmetric tridiagonal form T by an orthogonal similarity transformation
SSPTRF (3F) - compute the factorization of a real symmetric matrix A stored in packed format using the Bunch-Kaufman diagonal pivoting method
SSPTRI (3F) - compute the inverse of a real symmetric indefinite matrix A in packed storage using the factorization A = U*D*U**T or A = L*D*L**T computed by SSPTRF
SSPTRS (3F) - solve a system of linear equations A*X = B with a real symmetric matrix A stored in packed format using the factorization A = U*D*U**T or A = L*D*L**T computed by SSPTRF
ssrt_caliper_point, ssrt_buffer_clear (3F) - SpeedShop runtime library for Fortran applications
ssrt_caliper_point, ssrt_interface_routine, ssrt_buffer_clear (3) - SpeedShop runtime library
SSTEBZ (3F) - compute the eigenvalues of a symmetric tridiagonal matrix T
SSTEDC (3F) - compute all eigenvalues and, optionally, eigenvectors of a symmetric tridiagonal matrix using the divide and conquer method
SSTEIN (3F) - compute the eigenvectors of a real symmetric tridiagonal matrix T corresponding to specified eigenvalues, using inverse iteration
SSTEQR (3F) - compute all eigenvalues and, optionally, eigenvectors of a symmetric tridiagonal matrix using the implicit QL or QR method
SSTERF (3F) - compute all eigenvalues of a symmetric tridiagonal matrix using the Pal-Walker-Kahan variant of the QL or QR algorithm
SSTEV (3F) - compute all eigenvalues and, optionally, eigenvectors of a real symmetric tridiagonal matrix A
SSTEVD (3F) - compute all eigenvalues and, optionally, eigenvectors of a real symmetric tridiagonal matrix
SSTEVX (3F) - compute selected eigenvalues and, optionally, eigenvectors of a real symmetric tridiagonal matrix A
SSVDC (3F) - SSVDC is a subroutine to reduce a real NxP matrix X by orthogonal transformations U and V to diagonal form. The diagonal elements S(I) are the singular values of X. The columns of U are the corresponding left singular vectors, and the columns of V the right singular vectors.
SSYCON (3F) - estimate the reciprocal of the condition number (in the 1-norm) of a real symmetric matrix A using the factorization A = U*D*U**T or A = L*D*L**T computed by SSYTRF
SSYEV (3F) - compute all eigenvalues and, optionally, eigenvectors of a real symmetric matrix A
SSYEVD (3F) - compute all eigenvalues and, optionally, eigenvectors of a real symmetric matrix A
SSYEVX (3F) - compute selected eigenvalues and, optionally, eigenvectors of a real symmetric matrix A
SSYGS2 (3F) - reduce a real symmetric-definite generalized eigenproblem to standard form
SSYGST (3F) - reduce a real symmetric-definite generalized eigenproblem to standard form
SSYGV (3F) - compute all the eigenvalues, and optionally, the eigenvectors of a real generalized symmetric-definite eigenproblem, of the form A*x=(lambda)*B*x, A*Bx=(lambda)*x, or B*A*x=(lambda)*x
SSYRFS (3F) - improve the computed solution to a system of linear equations when the coefficient matrix is symmetric indefinite, and provides error bounds and backward error estimates for the solution
SSYSV (3F) - compute the solution to a real system of linear equations A * X = B,
SSYSVX (3F) - use the diagonal pivoting factorization to compute the solution to a real system of linear equations A * X = B,
SSYTD2 (3F) - reduce a real symmetric matrix A to symmetric tridiagonal form T by an orthogonal similarity transformation
SSYTF2 (3F) - compute the factorization of a real symmetric matrix A using the Bunch-Kaufman diagonal pivoting method
SSYTRD (3F) - reduce a real symmetric matrix A to real symmetric tridiagonal form T by an orthogonal similarity transformation
SSYTRF (3F) - compute the factorization of a real symmetric matrix A using the Bunch-Kaufman diagonal pivoting method
SSYTRI (3F) - compute the inverse of a real symmetric indefinite matrix A using the factorization A = U*D*U**T or A = L*D*L**T computed by SSYTRF
SSYTRS (3F) - solve a system of linear equations A*X = B with a real symmetric matrix A using the factorization A = U*D*U**T or A = L*D*L**T computed by SSYTRF
STAddTag, STRemoveTag, STGetTag, STPrintTags (3) - TIFF tag handling
StartTagIteration (3) - start tag iteration in a profile
staux (3X) - routines that provide scalar interfaces to auxiliaries
STBCON (3F) - estimate the reciprocal of the condition number of a triangular band matrix A, in either the 1-norm or the infinity-norm
STBRFS (3F) - provide error bounds and backward error estimates for the solution to a system of linear equations with a triangular band coefficient matrix
STBTRS (3F) - solve a triangular system of the form A * X = B or A**T * X = B,
stcu (3X) - routines that provide a compilation unit symbol table interface
stdio (3S) - standard buffered input/output package
stdiobuf (3C++) - iostream specialized to stdio FILE
stdipc: ftok (3C) - standard interprocess communication package
stenci (3G) - alter the operating parameters of the stencil
stencil (3G) - alter the operating parameters of the stencil
stensi (3G) - specify the number of bit planes desired to comprise the stencil buffer
stensize (3G) - specify the number of bit planes desired to comprise the stencil buffer
stepun (3G) - specifies that a graphics window change size in discrete steps
stepunit (3G) - specifies that a graphics window change size in discrete steps
stereo (3G) - configures the framebuffer for stereoscopic viewing
stereobuffer (3G) - configures the framebuffer for stereoscopic viewing
stfd (3X) - routines that provide access to per file descriptor section of the symbol table
stfe (3X) - routines that provide a high-level interface to basic functions needed to access and add to the symbol table
STGEVC (3F) - compute some or all of the right and/or left generalized eigenvectors of a pair of real upper triangular matrices (A,B)
STGSJA (3F) - compute the generalized singular value decomposition (GSVD) of two real upper triangular (or trapezoidal) matrices A and B
stio (3X) - routines that provide a binary read/write interface to the MIPS symbol table
STOpen, STClose (3) - open/close a STIFF file stream
STPCON (3F) - estimate the reciprocal of the condition number of a packed triangular matrix A, in either the 1-norm or the infinity-norm
STPerror, STErrorString (3) - libstiff execution error handling
STPRFS (3F) - provide error bounds and backward error estimates for the solution to a system of linear equations with a triangular packed coefficient matrix
stprint (3X) - routines to print the symbol table
STPTRI (3F) - compute the inverse of a real upper or lower triangular matrix A stored in packed format
STPTRS (3F) - solve a triangular system of the form A * X = B or A**T * X = B,
str: strfind, strrspn, strtrns (3G) - string manipulations
strccpy: streadd, strcadd, strecpy (3G) - copy strings, compressing or expanding escape codes
strcmp: lge, lgt, lle, llt (3F) - FORTRAN string comparison intrinsic functions
STRCO (3F) - STRCO estimates the condition of a real triangular matrix.
strcoll (3C) - string collation
STRCON (3F) - estimate the reciprocal of the condition number of a triangular matrix A, in either the 1-norm or the infinity-norm
STRDI (3F) - STRDI computes the determinant and inverse of a real triangular matrix.
STRead, STWrite (3) - read/write STIFF image data
STReadImageHeader, STWriteImageHeader (3) - read/write STIFF image header
streambuf (3C++) - interface for derived classes
streambuf (3C++) - public interface of character buffering class
strerror (3C) - get error message string
STREVC (3F) - compute some or all of the right and/or left eigenvectors of a real upper quasi-triangular matrix T
STREXC (3F) - reorder the real Schur factorization of a real matrix A = Q*T*Q**T, so that the diagonal block of T with row index IFST is moved to row ILST
strfmon (3S) - convert monetary value to string
strftime, cftime, ascftime (3C) - convert date and time to string
strict (3) - Perl pragma to restrict unsafe constructs
string (3Tcl) - Manipulate strings
string: strcat, strdup, strncat, strcmp, strncmp, strcpy, strncpy, strlen, strchr, strrchr, strpbrk, strspn, strcspn, strtok, strstr strcasecmp, strncasecmp, index, rindex, strtok_r (3C) - string operations
strptime (3C) - date and time conversion
STRRFS (3F) - provide error bounds and backward error estimates for the solution to a system of linear equations with a triangular coefficient matrix
STRSEN (3F) - reorder the real Schur factorization of a real matrix A = Q*T*Q**T, so that a selected cluster of eigenvalues appears in the leading diagonal blocks of the upper quasi-triangular matrix T,
STRSL (3F) - STRSL solves systems of the form
STRSNA (3F) - estimate reciprocal condition numbers for specified eigenvalues and/or right eigenvectors of a real upper quasi-triangular matrix T (or of any matrix Q*T*Q**T with Q orthogonal)
strstream (3C++) - iostream specialized to arrays
strstreambuf (3C++) - streambuf specialized to arrays
STRSYL (3F) - solve the real Sylvester matrix equation
STRTI2 (3F) - compute the inverse of a real upper or lower triangular matrix
strtod, atof, strtold, atold (3C) - convert string to double-precision or long double-precision number
strtol, strtoul, atol, atoi, strtoll, strtoull, atoll (3C) - convert string to integer
STRTRI (3F) - compute the inverse of a real upper or lower triangular matrix A
STRTRS (3F) - solve a triangular system of the form A * X = B or A**T * X = B,
strwid, lstwid (3G) - returns the width of the specified text string
strwidth, lstrwidth (3G) - returns the width of the specified text string
strxfrm (3C) - string transformation
STSkipTo (3) - skip forward in a STIFF stream
stxld (3G) - load part or all of a texture defined with TX_FASTDEFINE
STZRQF (3F) - reduce the M-by-N ( M<=N ) real upper trapezoidal matrix A to upper triangular form by means of orthogonal transformations
subpix (3G) - controls the placement of point, line, and polygon vertices
subpixel (3G) - controls the placement of point, line, and polygon vertices
subs (3) - Perl pragma to predeclare sub names
subst (3Tcl) - Perform backslash, command, and variable substitutions
subtexload (3G) - load part or all of a texture defined with TX_FASTDEFINE
SUM (3I) - Sums array elements
SVD, SSVD (3F) - EISPACK routine. This subroutine determines the singular value decomposition T A=USV of a REAL M by N rectangular matrix. Householder bidiagonalization and a variant of the QR algorithm are used.
swab (3C) - swap bytes
swapbu (3G) - exchanges the front and back buffers of the normal framebuffer
swapbuffers (3G) - exchanges the front and back buffers of the normal framebuffer
swapin (3G) - defines a minimum time between buffer swaps
swapinterval (3G) - defines a minimum time between buffer swaps
swaptm (3G) - toggles the triangle mesh register pointer
swaptmesh (3G) - toggles the triangle mesh register pointer
swinop (3G) - creates a graphics subwindow
swinopen (3G) - creates a graphics subwindow
switch (3Tcl) - Evaluate one of several scripts, depending on a given value
swrite (3G) - specify which stencil bits can be written
swritemask (3G) - specify which stencil bits can be written
Sybtcl (3Tcl) - Sybase SQL Server access commands for Tcl
Symbol (3) - manipulate Perl symbols and their names
sync: __synchronize, __fetch_and_add, __fetch_and_sub, __fetch_and_or, __fetch_and_and, __fetch_and_xor, __fetch_and_nand, __add_and_fetch, __sub_and_fetch, __or_and_fetch, __and_and_fetch, __xor_and_fetch, __nand_and_fetch, __lock_test_and_set, __lock_release(3C) - C synchronization primitives for multiprocessing
sync: synchronize, fetch_and_add, fetch_and_sub, fetch_and_or, fetch_and_and, fetch_and_xor, fetch_and_nand, add_and_fetch, sub_and_fetch, or_and_fetch, and_and_fetch, xor_and_fetch, nand_and_fetch, lock_test_and_set, lock_release (3F) - FORTRAN synchronization primitives for multiprocessing
Sys::Hostname (3) - Try every conceivable way to get hostname
Sys::Syslog, openlog, closelog, setlogmask, syslog (3) - Perl interface to the UNIX syslog(3) calls
SYSCLOCK (3F) - Returns real-time clock value and number of wraps
sysconf (3C) - get configurable system variables
sysctl (MIB) - get or set system information
sysid (3C) - return pseudo-unique system identifier
syslog, openlog, closelog, setlogmask, vsyslog (3C) - control system log
system (3F) - issue a shell command from Fortran
system (3S) - issue a shell command
SYSTEM_CLOCK (3I) - Returns integer data from a real-time clock