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Amiga Plus Special 5
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povray
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pov-ray_v2.2
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povray.c
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1995-04-29
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/****************************************************************************
* povray.c
*
* This module contains the entry routine for the raytracer and the code to
* parse the parameters on the command line.
*
* from Persistence of Vision Raytracer
* Copyright 1993 Persistence of Vision Team
*---------------------------------------------------------------------------
* NOTICE: This source code file is provided so that users may experiment
* with enhancements to POV-Ray and to port the software to platforms other
* than those supported by the POV-Ray Team. There are strict rules under
* which you are permitted to use this file. The rules are in the file
* named POVLEGAL.DOC which should be distributed with this file. If
* POVLEGAL.DOC is not available or for more info please contact the POV-Ray
* Team Coordinator by leaving a message in CompuServe's Graphics Developer's
* Forum. The latest version of POV-Ray may be found there as well.
*
* This program is based on the popular DKB raytracer version 2.12.
* DKBTrace was originally written by David K. Buck.
* DKBTrace Ver 2.0-2.12 were written by David K. Buck & Aaron A. Collins.
*
*****************************************************************************/
#include <ctype.h>
#include <time.h> /* BP */
#include "frame.h" /* common to ALL modules in this program */
#include "povproto.h"
#define MAX_FILE_NAMES 1
unsigned int Options;
unsigned long Quality_Flags;
int Quality,Use_Slabs;
int Case_Sensitive_Flag = CASE_SENSITIVE_DEFAULT;
extern FRAME Frame;
OBJECT *Root_Object;
char Input_File_Name[FILE_NAME_LENGTH], Output_File_Name[FILE_NAME_LENGTH], Stat_File_Name[FILE_NAME_LENGTH];
#define MAX_LIBRARIES 10
char *Library_Paths[MAX_LIBRARIES];
int Library_Path_Index;
int Max_Symbols = 1000;
FILE_HANDLE *Output_File_Handle;
int File_Buffer_Size;
static int Number_Of_Files;
static int inflag, outflag;
DBL VTemp;
DBL Antialias_Threshold;
int First_Line, Last_Line;
int First_Column, Last_Column;
DBL First_Column_Temp, Last_Column_Temp;
DBL First_Line_Temp, Last_Line_Temp;
int Display_Started = FALSE;
int Shadow_Test_Flag = FALSE;
DBL Clock_Value = 0.0;
DBL Language_Version = 2.0;
long Bounds_Threshold = 25;
long AntialiasDepth = 3;
DBL JitterScale = 1.0;
/* Quality constants */
long Quality_Values[10]=
{
QUALITY_0, QUALITY_1, QUALITY_2, QUALITY_3, QUALITY_4,
QUALITY_5, QUALITY_6, QUALITY_7, QUALITY_8, QUALITY_9
};
/* Stats kept by the ray tracer: */
long Number_Of_Pixels, Number_Of_Rays, Number_Of_Pixels_Supersampled;
long Ray_Sphere_Tests, Ray_Sphere_Tests_Succeeded;
long Ray_Box_Tests, Ray_Box_Tests_Succeeded;
long Ray_Blob_Tests, Ray_Blob_Tests_Succeeded;
long Ray_Cone_Tests, Ray_Cone_Tests_Succeeded;
long Ray_Disc_Tests, Ray_Disc_Tests_Succeeded;
long Ray_Plane_Tests, Ray_Plane_Tests_Succeeded;
long Ray_Triangle_Tests, Ray_Triangle_Tests_Succeeded;
long Ray_Quadric_Tests, Ray_Quadric_Tests_Succeeded;
long Ray_Poly_Tests, Ray_Poly_Tests_Succeeded;
long Ray_Bicubic_Tests, Ray_Bicubic_Tests_Succeeded;
long Ray_Ht_Field_Tests, Ray_Ht_Field_Tests_Succeeded;
long Ray_Ht_Field_Box_Tests, Ray_HField_Box_Tests_Succeeded;
long Bounding_Region_Tests, Bounding_Region_Tests_Succeeded;
long Clipping_Region_Tests, Clipping_Region_Tests_Succeeded;
long Calls_To_Noise, Calls_To_DNoise;
/* SJA */
long Shadow_Ray_Tests, Shadow_Rays_Succeeded, Shadow_Cache_Hits;
/* SJA */
long Reflected_Rays_Traced, Refracted_Rays_Traced;
long Transmitted_Rays_Traced;
long Istack_overflows;
int Number_of_istacks;
int Max_Intersections;
ISTACK *free_istack;
DBL tused; /* Trace timer variables. - BP */
time_t tstart, tstop;
char DisplayFormat, OutputFormat, VerboseFormat, PaletteOption, Color_Bits;
struct Constant_Struct Constants[MAX_CONSTANTS];
#ifdef NOCMDLINE /* a main() by any other name... */
#ifdef ALTMAIN
MAIN_RETURN_TYPE alt_main()
#else
MAIN_RETURN_TYPE main()
#endif
#else
#ifdef ALTMAIN
MAIN_RETURN_TYPE alt_main(argc, argv)
#else
MAIN_RETURN_TYPE main(argc, argv)
#endif
int argc;
char **argv;
#endif /* ...would be a lot less hassle!! :-) AAC */
{
register int i;
FILE *stat_file;
STARTUP_POVRAY
PRINT_CREDITS
PRINT_OTHER_CREDITS
/* Parse the command line parameters */
#ifndef NOCMDLINE
if (argc == 1)
usage();
#endif
init_vars();
Output_File_Name[0]='\0';
Library_Paths[0] = NULL;
Library_Path_Index = 0;
/* Read the default parameters from povray.def */
get_defaults();
#ifndef NOCMDLINE
for (i = 1 ; i < argc ; i++ )
if ((*argv[i] == '+') || (*argv[i] == '-'))
parse_option(argv[i]);
else
parse_file_name(argv[i]);
#endif
if (Last_Line == -1)
Last_Line = Frame.Screen_Height;
if (Last_Column == -1)
Last_Column = Frame.Screen_Width;
if (Options & DISKWRITE)
{
switch (OutputFormat)
{
case '\0':
case 'd':
case 'D':
if ((Output_File_Handle = Get_Dump_File_Handle()) == NULL)
{
close_all();
exit(1);
}
break;
/*
case 'i':
case 'I':
if ((Output_File_Handle = Get_Iff_File_Handle()) == NULL) {
close_all();
exit(1);
}
break;
*/
case 'r':
case 'R':
if ((Output_File_Handle = Get_Raw_File_Handle()) == NULL)
{
close_all();
exit(1);
}
break;
case 't':
case 'T':
if ((Output_File_Handle = Get_Targa_File_Handle()) == NULL)
{
close_all();
exit(1);
}
break;
default:
fprintf (stderr, "Unrecognized output file format %c\n", OutputFormat);
close_all();
exit(1);
}
if (Output_File_Name[0] == '\0')
strcpy (Output_File_Name, Default_File_Name (Output_File_Handle));
}
Print_Options();
Initialize_Tokenizer(Input_File_Name);
fprintf (stderr,"Parsing...");
if (Options & VERBOSE_FILE)
{
stat_file = fopen(Stat_File_Name,"w+t");
fprintf (stat_file, "Parsing...\n");
fclose(stat_file);
}
Parse ();
Terminate_Tokenizer();
if (Use_Slabs)
{
fprintf (stderr, "Preprocessing...\n"); /* Added */
BuildBoundingSlabs(&Root_Object); /* Added */
}
if (Options & DISPLAY)
{
printf ("Displaying...\n");
display_init(Frame.Screen_Width, Frame.Screen_Height);
Display_Started = TRUE;
}
/* Get things ready for ray tracing */
if (Options & DISKWRITE)
if (Options & CONTINUE_TRACE)
{
if (Open_File (Output_File_Handle, Output_File_Name,
&Frame.Screen_Width, &Frame.Screen_Height, File_Buffer_Size,
READ_MODE) != 1)
{
fprintf (stderr, "Error opening continue trace output file\n");
fprintf (stderr, "Opening new output file %s.\n",Output_File_Name);
Options &= ~CONTINUE_TRACE; /* Turn off continue trace */
if (Open_File (Output_File_Handle, Output_File_Name,
&Frame.Screen_Width, &Frame.Screen_Height, File_Buffer_Size,
WRITE_MODE) != 1)
{
fprintf (stderr, "Error opening output file\n");
close_all();
exit(1);
}
}
Initialize_Renderer();
if (Options & CONTINUE_TRACE)
Read_Rendered_Part();
}
else
{
if (Open_File (Output_File_Handle, Output_File_Name,
&Frame.Screen_Width, &Frame.Screen_Height, File_Buffer_Size,
WRITE_MODE) != 1)
{
fprintf (stderr, "Error opening output file\n");
close_all();
exit(1);
}
Initialize_Renderer();
}
else
Initialize_Renderer();
Initialize_Noise();
START_TIME /* Store start time for trace. Timer macro in CONFIG.H */
/* Ok, go for it - trace the picture */
if ((Options & VERBOSE) && (VerboseFormat !='1'))
printf ("Rendering...\n");
else if ((Options & VERBOSE) && (VerboseFormat=='1'))
fprintf (stderr,"POV-Ray rendering %s to %s :\n",Input_File_Name,Output_File_Name);
if (Options & VERBOSE_FILE)
{
stat_file = fopen(Stat_File_Name,"w+t");
fprintf (stat_file,"Parsed ok. Now rendering %s to %s :\n",Input_File_Name,Output_File_Name);
fclose(stat_file);
}
CONFIG_MATH /* Macro for setting up any special FP options */
Start_Tracing ();
if (Options & VERBOSE && VerboseFormat=='1')
fprintf (stderr,"\n");
/* Record the time so well spent... */
STOP_TIME /* Get trace done time. */
tused = TIME_ELAPSED /* Calc. elapsed time. Define TIME_ELAPSED as */
/* 0 in your specific CONFIG.H if unsupported */
/* Clean up and leave */
display_finished();
close_all ();
PRINT_STATS
if (Options & VERBOSE_FILE)
{
stat_file = fopen(Stat_File_Name,"a+t");
fprintf (stat_file,"Done Tracing\n");
fclose(stat_file);
}
FINISH_POVRAY
}
/* Print out usage error message */
void usage ()
{
fprintf (stdout,"\nUsage: POVRAY [+/-] Option1 [+/-] Option2 ...");
fprintf (stdout,"\n Example: +L\\povray\\include +Iscene.pov +Oscene.tga +W320 +H200");
fprintf (stdout,"\n Example: +Iscene.pov +Oscene.tga +W160 +H200 +V -D +X ");
fprintf (stdout,"\n");
fprintf (stdout,"\n[ Paused for keypress... ]\n");
WAIT_FOR_KEYPRESS;
fprintf (stdout,"\n\n\n\n\n Options:");
fprintf (stdout,"\n Dxy = display in format x, using palette option y");
fprintf (stdout,"\n V = verbose messages on");
fprintf (stdout,"\n P = pause before exit");
fprintf (stdout,"\n X = enable early exit by key hit");
fprintf (stdout,"\n Fx = write output file in format x");
fprintf (stdout,"\n FT - Uncompressed Targa-24 | FD - DKB/QRT Dump | FR - RGB Raw Files");
fprintf (stdout,"\n C = continue aborted trace");
fprintf (stdout,"\n Qx = image quality 0=rough, 9=full");
fprintf (stdout,"\n A0.x = perform antialiasing");
fprintf (stdout,"\n Bxxx = Use xxx KB for output file buffer");
fprintf (stdout,"\n Jx.x = set aa-jitter amount");
fprintf (stdout,"\n Kx.x = set frame clocK to x.x");
fprintf (stdout,"\n MBxxx = use slabs if more than xxx objects");
fprintf (stdout,"\n MSxxx = set max symbol table size to xxx");
fprintf (stdout,"\n MVx.x = set compability to version x.x");
fprintf (stdout,"\n Rn = set aa-depth (use n X n rays/pixel)");
fprintf (stdout,"\n SRxx = start at row xxx | SR0.xx start row at x%% of screen");
fprintf (stdout,"\n ERxx = end at row xxx | ER0.xx end row at x%% of screen");
fprintf (stdout,"\n SCxx = start at col xxx | SC0.xx start col at x%% of screen");
fprintf (stdout,"\n ECxx = end at col xxx | EC0.xx end col at x%% of screen");
fprintf (stdout,"\n I<filename> = input file name | O<filename> = output file name");
fprintf (stdout,"\n L<pathname> = library path prefix");
fprintf (stdout,"\n");
exit(1);
}
void init_vars()
{
Output_File_Handle = NULL;
File_Buffer_Size = 0;
Options = JITTER;
Quality_Flags = QUALITY_9;
Quality = 9;
Use_Slabs=TRUE;
Number_Of_Files = 0;
Frame.Screen_Height = 100;
Frame.Screen_Width = 100;
First_Line = 0;
Last_Line = -1;
First_Column = 0;
Last_Column = -1;
First_Line_Temp = (DBL) First_Line+1;
Last_Line_Temp = (DBL) Last_Line;
First_Column_Temp = (DBL) First_Column+1;
Last_Column_Temp = (DBL) Last_Column;
Color_Bits = 8;
Number_Of_Pixels = 0L;
Number_Of_Rays = 0L;
Number_Of_Pixels_Supersampled = 0L;
Ray_Ht_Field_Tests = 0L;
Ray_Ht_Field_Tests_Succeeded = 0L;
Ray_Ht_Field_Box_Tests = 0L;
Ray_HField_Box_Tests_Succeeded = 0L;
Ray_Bicubic_Tests = 0L;
Ray_Bicubic_Tests_Succeeded = 0L;
Ray_Blob_Tests = 0L;
Ray_Blob_Tests_Succeeded = 0L;
Ray_Box_Tests = 0L;
Ray_Box_Tests_Succeeded = 0L;
Ray_Disc_Tests = 0L;
Ray_Disc_Tests_Succeeded = 0L;
Ray_Cone_Tests = 0L;
Ray_Cone_Tests_Succeeded = 0L;
Ray_Sphere_Tests = 0L;
Ray_Sphere_Tests_Succeeded = 0L;
Ray_Plane_Tests = 0L;
Ray_Plane_Tests_Succeeded = 0L;
Ray_Triangle_Tests = 0L;
Ray_Triangle_Tests_Succeeded = 0L;
Ray_Quadric_Tests = 0L;
Ray_Quadric_Tests_Succeeded = 0L;
Ray_Poly_Tests = 0L;
Ray_Poly_Tests_Succeeded = 0L;
Bounding_Region_Tests = 0L;
Bounding_Region_Tests_Succeeded = 0L;
Clipping_Region_Tests = 0L;
Clipping_Region_Tests_Succeeded = 0L;
Calls_To_Noise = 0L;
Calls_To_DNoise = 0L;
Shadow_Ray_Tests = 0L;
/* SJA */
Shadow_Cache_Hits = 0L;
/* SJA */
Shadow_Rays_Succeeded = 0L;
Reflected_Rays_Traced = 0L;
Refracted_Rays_Traced = 0L;
Transmitted_Rays_Traced = 0L;
Istack_overflows = 0L;
Number_of_istacks = 0;
free_istack = NULL;
Max_Intersections = 64; /*128*/
Antialias_Threshold = 0.3;
strcpy (Input_File_Name, "object.pov");
return;
}
/* Close all the stuff that has been opened. */
void close_all ()
{
if ((Options & DISPLAY) && Display_Started)
display_close();
if (Output_File_Handle)
Close_File (Output_File_Handle);
}
/* Read the default parameters from povray.def */
void get_defaults()
{
FILE *defaults_file;
char Option_String[256], *Option_String_Ptr;
/* READ_ENV_VAR_? should be defined in config.h */
/* Only one READ_ENV_VAR_? should ever be defined. */
/* This allows some machines to read environment variable before */
/* reading povray.def and others to do it after depending on the */
/* operating system. IBM-PC is before. Default is after if not */
/* defined in config.h. CDW 2/92 */
/* Set Diskwrite as default */
Options |= DISKWRITE;
OutputFormat = DEFAULT_OUTPUT_FORMAT;
READ_ENV_VAR_BEFORE
if ((defaults_file = Locate_File("povray.def", "r")) != NULL)
{
while (fgets(Option_String, 256, defaults_file) != NULL)
read_options(Option_String);
fclose (defaults_file);
}
READ_ENV_VAR_AFTER
}
void read_options (Option_Line)
char *Option_Line;
{
register int c, String_Index, Option_Started;
short Option_Line_Index = 0;
char Option_String[80];
String_Index = 0;
Option_Started = FALSE;
while ((c = Option_Line[Option_Line_Index++]) != '\0')
{
if (Option_Started)
if (isspace(c))
{
Option_String[String_Index] = '\0';
parse_option (Option_String);
Option_Started = FALSE;
String_Index = 0;
}
else
Option_String[String_Index++] = (char) c;
else /* Option_Started */
if ((c == (int) '-') || (c == (int) '+'))
{
String_Index = 0;
Option_String[String_Index++] = (char) c;
Option_Started = TRUE;
}
else
if (!isspace(c))
{
fprintf (stderr,
"\nCommand line or .DEF error. Bad character (%c), val: %d.\n",
(char) c, c);
exit (1);
}
}
if (Option_Started)
{
Option_String[String_Index] = '\0';
parse_option (Option_String);
}
}
/* parse the command line parameters */
void parse_option (Option_String)
char *Option_String;
{
register int Add_Option;
unsigned int Option_Number;
long bounds_thresh;
DBL threshold;
inflag = outflag = FALSE; /* if these flags aren't immediately used, reset them on next -/+ option! */
if (*(Option_String++) == '-')
Add_Option = FALSE;
else
Add_Option = TRUE;
Option_Number = 0;
switch (*Option_String)
{
case 'B':
case 'b':
sscanf (&Option_String[1], "%d", &File_Buffer_Size);
File_Buffer_Size *= 1024;
if (File_Buffer_Size < BUFSIZ) /* system default MIN */
File_Buffer_Size = BUFSIZ;
if (File_Buffer_Size > MAX_BUFSIZE) /* unsigned short MAX */
File_Buffer_Size = MAX_BUFSIZE;
break;
case 'C':
case 'c':
Option_Number = CONTINUE_TRACE;
break;
case 'D':
case 'd':
Option_Number = DISPLAY;
DisplayFormat = '0';
PaletteOption = '3';
if (Option_String[1] != '\0')
DisplayFormat = (char)toupper(Option_String[1]);
if (Option_String[1] != '\0' && Option_String[2] != '\0')
PaletteOption = (char)toupper(Option_String[2]);
break;
case '@':
Option_Number = VERBOSE_FILE;
if(Option_String[1] == '\0')
strcpy(Stat_File_Name, "POVSTAT.OUT");
else
strncpy (Stat_File_Name, &Option_String[1], FILE_NAME_LENGTH);
break;
case 'V':
case 'v':
Option_Number = VERBOSE;
VerboseFormat = (char)toupper(Option_String[1]);
if (VerboseFormat == '\0')
VerboseFormat = '1';
break;
case 'W':
case 'w':
sscanf (&Option_String[1], "%d", &Frame.Screen_Width);
break;
case 'H':
case 'h':
sscanf (&Option_String[1], "%d", &Frame.Screen_Height);
break;
case 'F':
case 'f':
Option_Number = DISKWRITE;
if (isupper(Option_String[1]))
OutputFormat = (char)tolower(Option_String[1]);
else
OutputFormat = Option_String[1];
/* Default the output format to the default in the config file */
if (OutputFormat == '\0')
OutputFormat = DEFAULT_OUTPUT_FORMAT;
break;
case 'P':
case 'p':
Option_Number = PROMPTEXIT;
break;
case 'I':
case 'i':
if (Option_String[1] == '\0')
inflag = TRUE;
else
strncpy (Input_File_Name, &Option_String[1], FILE_NAME_LENGTH);
break;
case 'O':
case 'o':
if (Option_String[1] == '\0')
outflag = TRUE;
else
strncpy (Output_File_Name, &Option_String[1], FILE_NAME_LENGTH);
break;
case 'A':
case 'a':
Option_Number = ANTIALIAS;
if (sscanf (&Option_String[1], DBL_FORMAT_STRING, &threshold) != EOF)
Antialias_Threshold = threshold;
break;
case 'J':
case 'j':
Option_Number = JITTER;
if (sscanf (&Option_String[1], DBL_FORMAT_STRING, &threshold) != EOF)
JitterScale = threshold;
if (JitterScale<=0.0)
Add_Option = FALSE;
break;
case 'R':
case 'r':
sscanf (&Option_String[1], "%ld", &AntialiasDepth);
if (AntialiasDepth < 1)
AntialiasDepth = 1;
if (AntialiasDepth > 9)
AntialiasDepth = 9;
break;
case 'X':
case 'x':
Option_Number = EXITENABLE;
break;
case 'L':
case 'l':
if (Library_Path_Index >= MAX_LIBRARIES)
{
fprintf (stderr, "Too many library directories specified\n");
exit(1);
}
Library_Paths [Library_Path_Index] = malloc (strlen(Option_String));
if (Library_Paths [Library_Path_Index] == NULL)
{
fprintf (stderr, "Out of memory. Cannot allocate memory for library pathname\n");
exit(1);
}
strcpy (Library_Paths [Library_Path_Index], &Option_String[1]);
Library_Path_Index++;
break;
case 'T':
case 't':
switch (toupper(Option_String[1]))
{
case 'Y':
Case_Sensitive_Flag = 0;
break;
case 'N':
Case_Sensitive_Flag = 1;
break;
case 'O':
Case_Sensitive_Flag = 2;
break;
default:
Case_Sensitive_Flag = 2;
break;
}
break;
case 'S':
case 's':
switch (Option_String[1])
{
case 'c':
case 'C':
sscanf (&Option_String[2], DBL_FORMAT_STRING, &First_Column_Temp);
break;
case 'r':
case 'R':
sscanf (&Option_String[2], DBL_FORMAT_STRING, &First_Line_Temp);
break;
default:
sscanf (&Option_String[1], DBL_FORMAT_STRING, &First_Line_Temp);
break;
}
if(First_Column_Temp > 0.0 && First_Column_Temp < 1.0)
First_Column = (int) (Frame.Screen_Width * First_Column_Temp);
else
First_Column = (int) First_Column_Temp-1;
if(First_Line_Temp > 0.0 && First_Line_Temp < 1.0)
First_Line = (int) (Frame.Screen_Height * First_Line_Temp);
else
First_Line = (int) First_Line_Temp-1;
if (First_Column < 0)
First_Column = 0;
if (First_Line < 0)
First_Line = 0;
break;
case 'E':
case 'e':
switch (Option_String[1])
{
case 'c':
case 'C':
sscanf (&Option_String[2], DBL_FORMAT_STRING, &Last_Column_Temp);
break;
case 'r':
case 'R':
sscanf (&Option_String[2], DBL_FORMAT_STRING, &Last_Line_Temp);
break;
default:
sscanf (&Option_String[1], DBL_FORMAT_STRING, &Last_Line_Temp);
break;
}
if(Last_Column_Temp > 0.0 && Last_Column_Temp < 1.0)
Last_Column = (int) (Frame.Screen_Width * Last_Column_Temp);
else
Last_Column = (int) Last_Column_Temp;
if(Last_Line_Temp > 0.0 && Last_Line_Temp < 1.0)
Last_Line = (int) (Frame.Screen_Height * Last_Line_Temp);
else
Last_Line = (int) Last_Line_Temp;
if (Last_Column < 0 || Last_Column > Frame.Screen_Width)
Last_Column = Frame.Screen_Width;
if (Last_Line > Frame.Screen_Height)
Last_Line = Frame.Screen_Height;
break;
case 'M': /* Switch used so other max values can be inserted easily */
case 'm':
switch (Option_String[1])
{
case 's': /* Max Symbols */
case 'S':
sscanf (&Option_String[2], "%d", &Max_Symbols);
break;
case 'v': /* Max Version */
case 'V':
sscanf (&Option_String[2], DBL_FORMAT_STRING, &Language_Version);
break;
case 'b': /* Min Bounded */
case 'B':
if (sscanf (&Option_String[2], "%ld", &bounds_thresh) != EOF)
Bounds_Threshold=bounds_thresh;
Use_Slabs = Add_Option;
break;
default:
break;
}
break;
case 'Q':
case 'q':
sscanf (&Option_String[1], "%d", &Quality);
if ((Quality < 0) || (Quality > 9))
Error("Illegal +Q switch setting");
Quality_Flags = Quality_Values[Quality];
break;
/* Turn on debugging print statements. */
case 'Z':
case 'z':
Option_Number = DEBUGGING;
break;
/* +Y switch to remain undocumented. Add to +Q later */
case 'Y':
case 'y':
Use_Slabs = Add_Option;
break;
case 'K':
case 'k':
sscanf (&Option_String[1], DBL_FORMAT_STRING, &Clock_Value);
break;
default:
fprintf (stderr, "\nInvalid option: %s\n\n", --Option_String);
}
if (Option_Number != 0)
if (Add_Option)
Options |= Option_Number;
else Options &= ~Option_Number;
}
void Print_Options()
{
int i;
fprintf (stdout,"\nPOV-Ray Options in effect: ");
if (Options & CONTINUE_TRACE)
fprintf (stdout,"+c ");
if (Options & DISPLAY)
fprintf (stdout,"+d%c%c ", DisplayFormat, PaletteOption);
if (Options & VERBOSE)
fprintf (stdout,"+v%c ", VerboseFormat);
if (Options & VERBOSE_FILE)
fprintf (stdout,"+@%s ", Stat_File_Name);
if (Options & DISKWRITE)
fprintf (stdout,"+f%c ", OutputFormat);
if (Options & PROMPTEXIT)
fprintf (stdout,"+p ");
if (Options & EXITENABLE)
fprintf (stdout,"+x ");
if (Use_Slabs)
fprintf (stdout,"+mb%d ", Bounds_Threshold);
else
fprintf (stdout,"-mb ");
if (Options & DEBUGGING)
fprintf (stdout,"+z ");
if (File_Buffer_Size != 0)
fprintf (stdout,"-b%d ", File_Buffer_Size/1024);
if (Options & ANTIALIAS)
{
fprintf (stdout,"+a%.3f ", Antialias_Threshold);
if (Options & JITTER)
fprintf (stdout,"+j%.3f ", JitterScale);
fprintf (stdout,"+r%ld ",AntialiasDepth);
}
/* quality flags rewrite in progress by CEY */
fprintf (stdout,"-q%d -w%d -h%d -s%d -e%d\n",Quality,
Frame.Screen_Width, Frame.Screen_Height, First_Line+1, Last_Line);
fprintf (stdout, "-k%.3f -mv%.1f -i%s ", Clock_Value, Language_Version,
Input_File_Name);
if (Options & DISKWRITE)
fprintf (stdout,"-o%s ", Output_File_Name);
for (i = 0 ; i < Library_Path_Index ; i++)
fprintf (stdout,"-l%s ", Library_Paths[i]);
fprintf (stdout,"\n");
}
void parse_file_name (File_Name)
char *File_Name;
{
FILE *defaults_file;
char Option_String[256];
if (inflag) /* file names may now be separated by spaces from cmdline option */
{
strncpy (Input_File_Name, File_Name, FILE_NAME_LENGTH);
inflag = FALSE;
return;
}
if (outflag) /* file names may now be separated by spaces from cmdline option */
{
strncpy (Output_File_Name, File_Name, FILE_NAME_LENGTH);
outflag = FALSE;
return;
}
if (++Number_Of_Files > MAX_FILE_NAMES)
{
fprintf (stderr, "\nOnly %d option file names are allowed in a command line.",
MAX_FILE_NAMES);
exit(1);
}
if ((defaults_file = Locate_File(File_Name, "r")) != NULL)
{
while (fgets(Option_String, 256, defaults_file) != NULL)
read_options(Option_String);
fclose (defaults_file);
}
else
printf("\nError opening option file %s.",File_Name);
}
void print_stats()
{
long hours,min;
DBL sec;
FILE *stat_out;
long Pixels_In_Image;
if (Options & VERBOSE_FILE)
stat_out = fopen(Stat_File_Name,"w+t");
else
stat_out = stdout;
Pixels_In_Image = (long)Frame.Screen_Width * (long)Frame.Screen_Height;
fprintf (stat_out,"\n%s statistics\n",Input_File_Name);
if(Pixels_In_Image > Number_Of_Pixels)
fprintf (stat_out," Partial Image Rendered");
fprintf (stat_out,"--------------------------------------\n");
fprintf (stat_out,"Resolution %d x %d\n",Frame.Screen_Width, Frame.Screen_Height);
fprintf (stat_out,"# Rays: %10ld # Pixels: %10ld # Pixels supersampled: %10ld\n",
Number_Of_Rays, Number_Of_Pixels, Number_Of_Pixels_Supersampled);
fprintf (stat_out," Ray->Shape Intersection Tests:\n");
fprintf (stat_out," Type Tests Succeeded Percentage\n");
fprintf (stat_out," -----------------------------------------------------------\n");
if(Ray_Sphere_Tests)
fprintf (stat_out," Sphere %10ld %10ld %10.2f\n", Ray_Sphere_Tests, Ray_Sphere_Tests_Succeeded, ( ((DBL)Ray_Sphere_Tests_Succeeded/(DBL)Ray_Sphere_Tests) *100.0 ) );
if(Ray_Plane_Tests)
fprintf (stat_out," Plane %10ld %10ld %10.2f\n", Ray_Plane_Tests, Ray_Plane_Tests_Succeeded, ( ((DBL)Ray_Plane_Tests_Succeeded/(DBL)Ray_Plane_Tests) *100.0 ));
if(Ray_Triangle_Tests)
fprintf (stat_out," Triangle %10ld %10ld %10.2f\n", Ray_Triangle_Tests, Ray_Triangle_Tests_Succeeded, ( ((DBL)Ray_Triangle_Tests_Succeeded/(DBL)Ray_Triangle_Tests) *100.0 ));
if(Ray_Quadric_Tests)
fprintf (stat_out," Quadric %10ld %10ld %10.2f\n", Ray_Quadric_Tests, Ray_Quadric_Tests_Succeeded, ( ((DBL)Ray_Quadric_Tests_Succeeded/(DBL)Ray_Quadric_Tests) *100.0 ));
if(Ray_Blob_Tests)
fprintf (stat_out," Blob %10ld %10ld %10.2f\n", Ray_Blob_Tests, Ray_Blob_Tests_Succeeded, ( ((DBL)Ray_Blob_Tests_Succeeded/(DBL)Ray_Blob_Tests) *100.0 ));
if(Ray_Box_Tests)
fprintf (stat_out," Box %10ld %10ld %10.2f\n", Ray_Box_Tests, Ray_Box_Tests_Succeeded, ( ((DBL)Ray_Box_Tests_Succeeded/(DBL)Ray_Box_Tests) *100.0 ));
if(Ray_Cone_Tests)
fprintf (stat_out," Cone %10ld %10ld %10.2f\n", Ray_Cone_Tests, Ray_Cone_Tests_Succeeded, ( ((DBL)Ray_Cone_Tests_Succeeded/(DBL)Ray_Cone_Tests) *100.0 ) );
if(Ray_Disc_Tests)
fprintf (stat_out," Disc %10ld %10ld %10.2f\n", Ray_Disc_Tests, Ray_Disc_Tests_Succeeded, ( ((DBL)Ray_Disc_Tests_Succeeded/(DBL)Ray_Disc_Tests) *100.0 ) );
if(Ray_Poly_Tests)
fprintf (stat_out," Quartic\\Poly %10ld %10ld %10.2f\n", Ray_Poly_Tests, Ray_Poly_Tests_Succeeded, ( ((DBL)Ray_Poly_Tests_Succeeded/(DBL)Ray_Poly_Tests) *100.0 ));
if(Ray_Bicubic_Tests)
fprintf (stat_out," Bezier Patch %10ld %10ld %10.2f\n", Ray_Bicubic_Tests, Ray_Bicubic_Tests_Succeeded, ( ((DBL)Ray_Bicubic_Tests_Succeeded/(DBL)Ray_Bicubic_Tests) *100.0 ));
if(Ray_Ht_Field_Tests)
fprintf (stat_out," Height Fld %10ld %10ld %10.2f\n", Ray_Ht_Field_Tests, Ray_Ht_Field_Tests_Succeeded, ( ((DBL)Ray_Ht_Field_Tests_Succeeded/(DBL)Ray_Ht_Field_Tests) *100.0 ));
if(Ray_Ht_Field_Box_Tests)
fprintf (stat_out," Hght Fld Box %10ld %10ld %10.2f\n", Ray_Ht_Field_Box_Tests, Ray_HField_Box_Tests_Succeeded, ( ((DBL)Ray_HField_Box_Tests_Succeeded/(DBL)Ray_Ht_Field_Box_Tests) *100.0 ));
if(Bounding_Region_Tests)
fprintf (stat_out," Bounds %10ld %10ld %10.2f\n", Bounding_Region_Tests, Bounding_Region_Tests_Succeeded, ( ((DBL)Bounding_Region_Tests_Succeeded/(DBL)Bounding_Region_Tests) *100.0 ));
if(Clipping_Region_Tests)
fprintf (stat_out," Clips %10ld %10ld %10.2f\n", Clipping_Region_Tests, Clipping_Region_Tests_Succeeded, ( ((DBL)Clipping_Region_Tests_Succeeded/(DBL)Clipping_Region_Tests) *100.0 ));
if(Calls_To_Noise)
fprintf (stat_out," Calls to Noise: %10ld\n", Calls_To_Noise);
if(Calls_To_DNoise)
fprintf (stat_out," Calls to DNoise: %10ld\n", Calls_To_DNoise);
if(Shadow_Ray_Tests)
fprintf (stat_out," Shadow Ray Tests: %10ld Blocking Objects Found: %10ld\n",
Shadow_Ray_Tests, Shadow_Rays_Succeeded);
if(Reflected_Rays_Traced)
fprintf (stat_out," Reflected Rays: %10ld\n", Reflected_Rays_Traced);
if(Refracted_Rays_Traced)
fprintf (stat_out," Refracted Rays: %10ld\n", Refracted_Rays_Traced);
if(Transmitted_Rays_Traced)
fprintf (stat_out," Transmitted Rays: %10ld\n", Transmitted_Rays_Traced);
if(Istack_overflows)
fprintf (stat_out," I-Stack overflows:%10ld\n", Istack_overflows);
if(tused==0)
{
STOP_TIME /* Get trace done time. */
tused = TIME_ELAPSED /* Calc. elapsed time. Define TIME_ELAPSED as */
/* 0 in your specific CONFIG.H if unsupported */
}
if (tused != 0)
{
/* Convert seconds to hours, min & sec. CdW */
hours = (long) tused/3600;
min = (long) (tused - hours*3600)/60;
sec = tused - (DBL) (hours*3600 + min*60);
fprintf (stat_out," Time For Trace: %2ld hours %2ld minutes %4.2f seconds\n", hours,min,sec);
}
if (Options & VERBOSE_FILE)
fclose(stat_out);
}
/* Find a file in the search path. */
FILE *Locate_File (filename, mode)
char *filename, *mode;
{
FILE *f;
int i;
char pathname[FILE_NAME_LENGTH];
/* Check the current directory first. */
if ((f = fopen (filename, mode)) != NULL)
return (f);
for (i = 0 ; i < Library_Path_Index ; i++)
{
strcpy (pathname, Library_Paths[i]);
if (FILENAME_SEPARATOR != NULL)
strcat (pathname, FILENAME_SEPARATOR);
strcat (pathname, filename);
if ((f = fopen (pathname, mode)) != NULL)
return (f);
}
return (NULL);
}
void print_credits()
{
fprintf (stderr,"\n");
fprintf (stderr," Persistence of Vision Raytracer Ver %s%s\n",POV_RAY_VERSION,COMPILER_VER);
fprintf (stderr," %s\n",DISTRIBUTION_MESSAGE_1);
fprintf (stderr," %s\n",DISTRIBUTION_MESSAGE_2);
fprintf (stderr," %s\n",DISTRIBUTION_MESSAGE_3);
fprintf (stderr," Copyright 1993 POV-Team\n");
fprintf (stderr," ----------------------------------------------------------------------\n");
fprintf (stderr," POV-Ray is based on DKBTrace 2.12 by David K. Buck & Aaron A. Collins.\n");
fprintf (stderr," Contributing Authors: (Alphabetically)\n");
fprintf (stderr," Steve Anger Steve A. Bennett David K. Buck\n");
fprintf (stderr," Aaron A. Collins Alexander Enzmann Dan Farmer\n");
fprintf (stderr," Douglas Muir Bill Pulver Robert Skinner\n");
fprintf (stderr," Scott Taylor Drew Wells Chris Young\n");
fprintf (stderr," Other contributors listed in the documentation.\n");
fprintf (stderr," ----------------------------------------------------------------------\n");
}