Shareware Overload Trio 2

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Text File | 1994-02-11 | 25KB | 843 lines

/*** fit2.c last modified 17 AUG 1993 ***/ #include <stdio.h> #include <stdlib.h> #include <string.h> #include <math.h> #include "fit.h" #ifdef ICC FILE *popen(char *, char *); void pclose(FILE *); void sleep(int); #endif /* GLOBAL DATA */ int grflag = 1; /* do we graph data and fit? */ int gnuopen = 0; /* is there a stream to gnuplot open */ FILE *pstream; /* stream to gnuplot */ FILE *pstream2; /* stream to fitplot */ double *xmin, *xmax; /* min and max independent variables used in windowing */ int wiflag = 0; /* windowing flag */ int veflag = 1; /* verbosity flag */ int debug = 0; /* debugging flag */ char GNUPLOT[60]; /* gnuplot command line */ int MYPLOT = 0; /* flag for using fitplot */ int doflag = 0; /* flag for command file processing */ int noset = 0; /* flag so we do not set any gnuplot labels or titles */ /* static data */ static double *a; /* array of parameters for fit */ static double **covar; /* covariant matrix for fit */ static double chisq; /* squared error for fit */ static double **data; /* matrix which holds data */ static int i, j, k; /* indices for loops */ static int ndata=0; /* number of data points */ static int ma; /* number of parameters */ static int *lista; /* array which has the list of parameters to vary */ static int mfit; /* number of parameters being varied */ static int itmax=20; /* number of iterations */ static int iopt1, iopt2; /* integers used in command options */ static char file[30]; /* name of file for reading or writing parameters*/ static char inbuf[80]=""; /* buffers used for input and output of strings */ static char buf[25]; static char fname[20]; /* function name */ static char cmdargs[NUM_ARGS][30]; /* command line arguments */ static char gnubuf[COMMAND_SIZE]; /* command which is sent to gnuplot */ static char syscmd[COMMAND_SIZE]; /* command which is sent to system */ static char filename[80]; /* name of data file */ static char topic[20]; /* help topic */ static int *co_lista; /* lista for writing covariant matrix */ static double **alpha; /* matrix and vectors used in LM algorithm */ static double *beta, *da; static int num_indep = 1; /* number of independent variables */ static int last_ma; /* ma for last function */ static int last_num_indep; /* num_indep for last function */ static int linflag = 0; /* is function linear */ static int failed; /* did function fail? */ /* each function has a comment, this holds the comment of the */ /* current function. If function is plotted using gnuplot, comment */ /* should be f(x) = .... , where the comment defines the function */ /* as it would on the gnuplot command line */ static char comment[160]; /* mode in which file is opened for reading and writing parameters */ char mode[5]; /* see description of data_order in fit.h */ /* note that the order is the assignment of the data columns */ /* internally. */ static struct data_order order; static FILE *stream; /* stream for reading and writing parameters to a file */ static int datarows = 1024; /* number of rows in the data matrix */ static int datacols = 6; /* number of columns in the data matrix */ static int echo = 0; int (*func)(double *x, double *a, double *y, double *dyda, int na, int dyda_flag, int *fita, int dydx_flag, double *dydx, double ydat); void process_command(char *); main(int argc, char **argv){ char command[COMMAND_SIZE]=""; /* what was typed at command line */ /* assign these pointers to point to NULL */ a=NULL; covar=NULL; lista=NULL; func=NULL; pstream = NULL; pstream2 = NULL; help("NOTE",100); /* assign the proper command string to GNUPLOT */ strcpy(GNUPLOT,"gnuplot"); #ifdef OS2 strcpy(GNUPLOT,"gnuplot 2> gnuout"); if(argc > 1){ MYPLOT = 1; fitcmd("doiky\n"); } #endif #ifdef DOS grflag = 0; #endif /* under UNIX, this rather complicated command string is needed. */ /* If modified, you should comment this one out and make another */ /* so you can go back to this one if needed. */ /* Things work pretty well with just a "gnuplot" command, */ /* except that some of the things gnuplot writes to stderr */ /* make it to the user's screen. Simply using "gnuplot >& gnuout" */ /* does not work, because popen() uses sh commands, and */ /* "gnuplot >& gnuout" uses csh redirection. */ #ifdef UNIX strcpy(GNUPLOT,"/bin/csh -f -c \"gnuplot >& /tmp/gnuout\""); /* strcpy(GNUPLOT,"gnuplot"); */ if(debug)printf("*%s*\n", GNUPLOT); #endif /* set up for one independent variable by default */ order.x = ivector(num_indep); order.x[0] = 0; order.xsig = ivector(num_indep); for(i = 0; i < num_indep; i++) order.xsig[i] = -1; xmin = dvector(num_indep); xmax = dvector(num_indep); last_num_indep = num_indep; last_ma = ma = 0; /* allocate space for data matrix */ data=dmatrix(datacols,datarows); /* command processing loop */ while(strncmp(command,"quit",4) != 0){ strcpy(command,"\x0\x0\x0\x0\x0\x0\x0\x0"); printf("fit2> "); fflush(stdout); gets(command); process_command(command); } /* free allocated arrays and close open pipe to gnuplot */ free_dmatrix(data,datacols,datarows); if(a != NULL) free(a); if(covar != NULL) free_dmatrix(covar,ma,ma); if(lista != NULL) free(lista); free(order.x); free(order.xsig); free(xmin); free(xmax); #ifndef DOS if(pstream != NULL){ sprintf(gnubuf,"quit\n"); gnucmd(gnubuf); pclose(pstream); } #endif #ifdef OS2 if(pstream2 != NULL){ sprintf(gnubuf,"quit\n"); fitcmd(gnubuf); pclose(pstream2); } #endif #ifdef UNIX if(!debug){ system("rm /tmp/fit.tmp"); system("rm /tmp/gnuout"); } #endif printf("\n"); return 0; } int gnucmd(char *command){ #ifndef DOS grflag = 1; /* open the pipe */ if(pstream == NULL){ if(debug) printf("attempting to open pipe to gnuplot\n"); pstream = popen(GNUPLOT,"w"); } if(pstream == NULL){ printf("Failed to open pipe to gnuplot\n"); return 1; } fprintf(pstream, command); if(debug) printf("command to gnuplot: %s\n", command); fflush(pstream); #endif #ifdef DOS printf("The DOS version of this program does not support gnuplot\n"); printf("directly. You need a real operating system for that. \n"); printf("I suggest OS/2 2.1. You can use wf to write the fit \n"); printf("to a file and use gnuplot by itself for plotting \n\n"); grflag = 0; #endif return 0; } #ifdef OS2 int fitcmd(char *command){ grflag = 1; /* open the pipe */ if(pstream2 == NULL){ if(debug) printf("attempting to open pipe to fitplot\n"); pstream2 = popen("fitplot.cmd > nul","w"); } if(pstream2 == NULL){ printf("Failed to open pipe to fitplot\n"); return 1; } fprintf(pstream2, command); if(debug) printf("command to fitplot: %s\n", command); fflush(pstream2); return 0; } #endif void process_command(char *command){ char cmd[COMMAND_SIZE]; FILE *dostream; /* if there is no command, reprompt */ if(strcmp(command,"")==0) return; if(echo) printf("%s\n",command); /* gd stands for get data */ if(strncmp(command,"gd",2) == 0){ if(debug) printf("in main, calling get_data()\n"); ndata=get_data(data,command,num_indep,inbuf,&order,filename, datarows, datacols); if(debug) printf("in main, get_data() returned %d\n", ndata); if(ndata ==0) printf("NO DATA, check filename\n"); printf("gd: %d data points\n", ndata); } /* do executes commands from a file */ else if(strncmp(command,"do",2) == 0){ doflag = 1; if(parse(command,cmdargs) < 1) help("do", 1); else{ if((dostream = fopen(cmdargs[0],"r")) == NULL){ printf("cannot open file %s\n", cmdargs[0]); return; } while(fgets(cmd, COMMAND_SIZE, dostream) != NULL) if(cmd[0] != '#') process_command(cmd); } fclose(dostream); doflag = 0; } /* md stands for make data */ else if(strncmp(command,"md",2) == 0){ if(debug) printf("in main, calling make_data()\n"); failed=make_data(func, num_indep, a, ma, command,inbuf); if(debug) printf("in main, make_data() returned %d\n", failed); } /* sh stands for show */ else if(strncmp(command,"sh",2) == 0){ for(i = 0; i < num_indep; i++)printf("order.x[%d]: %d\n", i, order.x[i]); printf("order.y: %d\n", order.y); printf("order.yfit: %d\n", order.yfit); printf("order.sig: %d\n", order.sig); printf("order.nsig: %d\n", order.nsig); printf("order.ssig: %d\n", order.ssig); printf("order.isig: %d\n", order.isig); printf("order.osig: %d\n", order.osig); for(i = 0; i < num_indep; i++)printf("order.xsig[%d]: %d\n", i, order.xsig[i]); if(func != NULL){ printf("function: %s %s\n", fname, comment); printf("varying parameters: "); for(i = 0; i < mfit; i++) printf(" %d",lista[i]); printf("\n"); } if(ndata) printf("data file: %s # data points: %d\n", filename, ndata); if(wiflag){ printf("\n windowing on. "); for(i = 0; i < num_indep; i++) printf("xmin%d: %g xmax%d: %g\n", i, xmin[i], i, xmax[i]); printf("\n"); } else printf("windowing off\n"); if(grflag)printf("graphing turned on\n"); else printf("graphing turned off\n"); } /* fn command tells us which function to fit to */ else if(strncmp(command,"fn",2) == 0){ last_ma = ma; last_num_indep = num_indep; iopt2 = sscanf(command,"%s %s %d ", inbuf, fname, &iopt1); if(debug)printf("in main, calling getfcnptr()\n"); if((func = (int *)getfcnptr(fname,&num_indep, &linflag,&ma, comment)) != NULL){ if(debug)printf("in main, returned from getfcnptr()\n"); /* get ma from command line or prompt for it if needed */ if( ma == -1){ if(iopt2 > 2) ma = iopt1; else{ printf("\n Enter number of parameters: "); fflush(stdout); gets(inbuf); sscanf(inbuf,"%d",&ma); } } if(debug)("ma: %d last_ma: %d", ma, last_ma); /* if covar, a, and lista are allocated and need to change size, we free them */ if(covar != NULL && ma != last_ma){ if(debug)printf("free_dmatrix(covar,ma,ma)\n"); free_dmatrix(covar,last_ma,last_ma); } if(lista !=NULL && ma != last_ma){ if(debug)printf("free(lista)\n"); free(lista); } if(a != NULL && ma != last_ma){ if(debug)printf("free(a)\n"); free(a); } /* if num_indep changed, we reallocate some stuff */ if(num_indep != last_num_indep){ free(order.x); free(order.xsig); free(xmin); free(xmax); order.x = ivector(num_indep); order.xsig = ivector(num_indep); xmin = dvector(num_indep); xmax = dvector(num_indep); /* assign default values */ for(i = 0; i < num_indep; i++){ order.xsig[i] = -1; order.x[i] = i; } } /* allocate space for covar, lista, and a */ if(ma != last_ma){ covar=dmatrix(ma,ma); lista=ivector(ma); a=dvector(ma); /* initialize a's to 5, default to fitting all of the parameters */ for(i=0;i<ma;i++){ lista[i] = i; a[i] = 5; } mfit=ma; printf("%s: %d parameters\n", command, ma); } } else printf("Function %s not found, try lf to list functions\n", fname); } /* fit command does the fit */ else if(strncmp(command,"fit",2) == 0){ if(func == NULL)printf("fi failed, choose function first\n"); else if(ndata == 0)printf("fi failed, no data\n"); else{ sscanf(command,"%s %d ", inbuf, &itmax); /* nonzero returns 1 if all sigma's are non-zero */ if(nonzero(data[order.sig], ndata)){ if(debug)printf("in main, calling mrqfit(), itmax: %d\n", itmax); failed = mrqfit(data,order,num_indep,ndata,itmax,a,ma, lista,mfit,covar,&chisq,func,filename,comment); if(debug)printf("in main, mrqfit() returned %d\n", failed); } else{ failed = 1; printf("all sigmay's must be non-zero, check weighting and order\n"); } if(failed == 0)printf("fit done\n"); if(failed != 0)printf("fit failed\n"); printf("%s\n",comment); } } /* ip command initializes the parameters */ else if(strncmp(command,"ip",2) == 0){ if(debug)printf("in main, calling ip()\n"); ip(command, inbuf, func, a, ma); if(debug)printf("in main, returned from ip()\n"); } /* cp command changes one of the parameters */ else if(strncmp(command,"cp",2) == 0){ if(debug)printf("in main, calling ip()\n"); cp(command, inbuf, func, a, ma); if(debug)printf("in main, returned from ip()\n"); } /* sp command selects the parameters */ else if(strncmp(command,"sp",2) == 0){ if(debug)printf("in main, calling sp()\n"); mfit = sp(command, inbuf, func, lista, ma); if(debug)printf("in main, sp() returned %d\n", mfit); } /* pp command prints the parameters */ else if(strncmp(command,"pp",2) == 0){ if(func == NULL)printf("pp failed, you must select a function first\n"); else{ printf("%s\n",comment); for(i = 0; i < ma; i++) printf("a%d= %15.9g\n", i, a[i]); printf("chisqr = %g\n", chisq); printf("%s\n",command); } } /* wp command writes the parameters to a file */ else if(strncmp(command,"wp",2) == 0){ if(func == NULL)printf("wp failed, you must select a function first\n"); else{ strcpy(file,"a.dat"); /* filename defaults to a.dat */ if(sscanf(command,"%s %s %s", inbuf, file,mode) < 3) strcpy(mode,"w"); /* mode defaults to overwriting */ stream = fopen(file,mode); if(stream){ for(i=0; i < ma; i++) fprintf(stream,"%19.14e\n", a[i]); fclose(stream); } else printf("cannot open file %s in mode %s\n", file, mode); printf("%s\n",command); } } /* wf writes the fitting function data to a file */ else if(strncmp(command,"wf",2) == 0){ if(func == NULL)printf("wf failed, you must select a function first\n"); else{ if(debug)printf("in main, calling calc_yfit()\n"); failed = calc_yfit(func, data, order, num_indep, a, ndata, ma, &chisq); if(debug)printf("in main, calc_yfit() returned %d\n", failed); if(!failed){ strcpy(file,"fit.dat"); /* filename defaults to fit.dat */ sscanf(command,"%s %s", inbuf, file); stream = fopen(file,"w"); if(stream){ for(i=0; i < ndata; i++){ for(j = 0; j < num_indep; j++) fprintf(stream,"%g ", data[order.x[j]][i]); fprintf(stream,"%g\n", data[order.yfit][i]); } fclose(stream); } else printf("cannot open file %s\n", file); } else printf("%s failed \n",command); } } /* rp reads parameters from a file */ else if(strncmp(command,"rp",2) == 0){ if(func == NULL)printf("rp failed, you must select a function first\n"); else{ strcpy(file,"a.dat"); /* filename defaults to a.dat */ sscanf(command,"%s %s", inbuf, file); stream = fopen(file,"r"); i = 0; if(stream){ while(fgets(inbuf,28,stream) && i < ma){ a[i] = atof(inbuf); i++; } fclose(stream); printf("%s: %d parameters read in\n", command, i); } else printf("cannot open file %s\n", file); } } /* plot opens a pipe to gnuplot and tells it to plot the data and fit */ else if(strncmp(command,"plot",2) == 0){ if(func == NULL) printf("plot failed, you must select a function first\n"); else{ grflag = 1; if(MYPLOT){ #ifdef OS2 if(debug) printf("in main, about to call calc_yfit()\n"); failed = calc_yfit(func, data, order, num_indep, a, ndata, ma, &chisq); if(debug) printf("in main, returned from calc_yfit()\n"); if(debug)printf("in main, calling myplot()\n"); failed=myplot(func, data, order, num_indep, ndata, filename, comment, a, ma); if(debug)printf("in main, myplot() returned %d\n", failed); #endif } else{ if(debug)printf("in main, calling plot()\n"); failed=plot(func, data, order, num_indep, ndata, filename, comment, a, ma); if(debug)printf("in main, plot() returned %d\n", failed); } printf("%s\n",command); if(failed)printf("%s failed\n",command); } } else if(strncmp(command,"help",1) == 0){ strcpy(topic,""); sscanf(command,"%*s %s", topic); if(debug)printf("in main, calling help()\n"); help(topic,100); if(debug)printf("in main, returned from help()\n"); } /* pr opens a pipe to gnuplot and tells it to plot the residual error */ /* "pr 1" plots bestfit vs y, "pr 2" plots (bestfit-y) vs x */ else if(strncmp(command,"pr",2) == 0){ if(func == NULL)printf("pr failed, you must select a function first\n"); else{ grflag = 1; if(debug)printf("in main, calling pr()\n"); failed=pr(command,func, data, order, num_indep, ndata, filename, comment, a, ma); if(debug)printf("in main, pr() returned %d\n", failed); if(failed) printf("%s failed\n",command); } } else if(strncmp(command,"",1) == 0){ strcpy(topic,""); sscanf(command,"%*s %s", topic); if(debug)printf("in main, calling help()\n"); help(topic,100); if(debug)printf("in main, returned from help()\n"); } /* send commands beginning with set or load to gnuplot */ else if(strncmp(command,"set",2) == 0 || strncmp(command,"lo",2) == 0){ sprintf(gnubuf,"%s\n",command); gnucmd(gnubuf); } /* wt select weighting for fit */ else if(strncmp(command,"wt",2) == 0){ if(ndata == 0) printf("wt failed, you must get data first\n"); else{ sscanf(command,"%*s %s", inbuf); if(strncmp(inbuf,"statistical",1) == 0){ order.sig = order.ssig; for(i=0; i<ndata; i++){ if(data[order.y][i] > 1e-30) data[order.sig][i] = sqrt(fabs(data[order.y][i])); else data[order.sig][i] = 1; } } else if(strncmp(inbuf,"instrumental",1) == 0) order.sig = order.isig; else if(strncmp(inbuf,"none",1) == 0) order.sig = order.nsig; else if(strncmp(inbuf,"other",1) == 0) order.sig = order.y; else help("wt",1); } } /* or redefines order of colums in data */ else if(strncmp(command,"or",2) == 0){ if(ndata == 0)printf("or failed, you must get data first\n"); else{ i = parse(command, cmdargs); if(debug) printf("num_indep: %d num args: %d\n", num_indep, i); for(j = 0; j < num_indep; j++) if(i > j){ if(debug) printf("cmdargs[%d]: %s\n",j, cmdargs[j]); order.x[j] = atoi(cmdargs[j]); if(debug) printf("order.x[%d]: %d\n", j, order.x[j]); } if(i > num_indep) order.y = atoi(cmdargs[num_indep]); if(i > num_indep + 1) order.isig = atoi(cmdargs[num_indep + 1]); for(j = 0; j < num_indep; j++) if(i > j+num_indep+2) order.xsig[j] = atoi(cmdargs[j+num_indep+2]); if(i == 0) help("or",1); } } /* co prints the covariant matrix from the fit */ /* if there are no arguments, output is to */ /* screen. An argument is taken as a filename */ /* and matrix is written to a file */ else if(strncmp(command,"co",2) == 0){ if(func == NULL)printf("co failed, you must select a function first\n"); else{ strcpy(file,""); sscanf(command,"%s %s", inbuf, file); co_lista = ivector(ma); beta = dvector(ma); da = dvector(ma); alpha=dmatrix(ma,ma); for(i = 0; i < ma; i++) co_lista[i] = i; if(debug)printf("in main, calling alpha_beta_chisqr()\n"); alpha_beta_chisq(data, order, num_indep, ndata,a,ma, co_lista,ma,alpha,beta,&chisq,func); if(debug)printf("in main, returned from alpha_beta_chisqr()\n"); if(debug)printf("in main, calling solve_for_da()\n"); solve_for_da(alpha, covar, beta, da, ma); if(debug)printf("in main, returned from solve_for_da()\n"); free(co_lista); free(beta); free(da); free_dmatrix(alpha,ma,ma); if( strcmp(file,"") == 0){ for(i = 0; i < ma; i++){ strcpy(inbuf,""); for(j = 0; j < ma; j++){ sprintf(buf,"%9.2g ",covar[i][j]); strcat(inbuf, buf); } printf("%s\n",inbuf); } } else{ stream = fopen(file,"w"); for(i = 0; i < ma; i++){ strcpy(inbuf,""); for(j = 0; j < ma; j++){ sprintf(buf,"%10g ",covar[i][j]); strcat(inbuf, buf); } fprintf(stream,"%s\n",inbuf); } fclose(stream); } } } /* ad allocates data matrix to a specified size */ else if(strncmp(command,"ad",2) == 0){ iopt1 = 0; iopt2 = 0; sscanf(command,"%s %d %d", inbuf, &iopt1, &iopt2); if(debug)printf("cols: %d rows: %d\n", iopt1, iopt2); if(iopt1 > 3 && iopt2 > 1 && iopt1 < 128){ if(debug) printf("calling free_dmatrix(data,datacols,datarows);\n"); free_dmatrix(data,datacols,datarows); datacols = iopt1; datarows = iopt2; if(debug) printf("calling data=dmatrix(data,datacols,datarows);\n"); data=dmatrix(datacols,datarows); if(debug) printf("returned from data=dmatrix(data,datacols,datarows);\n"); ndata = 0; } else printf("ad: columns rows, columns => columns in data file + 3\n"); } /* gr turns graphing on and off */ else if(strncmp(command,"gr",2) == 0){ sscanf(command,"%*s %d", &iopt1); if(iopt1 == 1|| iopt1 == 0){ grflag =iopt1; } else printf("must be \"gr 0\" (graphing off) or \"gr 1\" (graphing on)\n"); } /* lf lists the functions available for fitting */ else if(strncmp(command,"lf",2) == 0){ listfcns(); } /* wi with one parameter turns windowing on and off */ /* with two parameters, it selects xmin and xmax */ else if(strncmp(command,"wi",2) == 0){ iopt1 = parse(command,cmdargs); if(iopt1 < 1) printf("wi failed, try help wi\n"); else if(iopt1 == 1){ wiflag = atoi(cmdargs[0]); } else if(iopt1 > 2*num_indep) printf("wi failed, try help wi\n"); else{ if(debug)printf("%d arguments\n", iopt1); wiflag = 1; i = 0; while(i <= iopt1 && (i/2) < num_indep){ xmin[i/2] = atof(cmdargs[i]); xmax[i/2] = atof(cmdargs[i + 1]); i +=2; } } } /* ve selects verbosity */ else if(strncmp(command,"ve",2) == 0){ if(sscanf(command,"%*s %d",&iopt1) > 0 && ( iopt1 ==2 || iopt1 == 1|| iopt1 == 0)){ veflag =iopt1; } else printf("must be ve 0 1 or 2\n"); } #ifdef OS2 /* fp selects every iteration plotting */ else if(strncmp(command,"fp",2) == 0){ if(sscanf(command,"%*s %d",&iopt1) > 0 && ( iopt1 ==2 || iopt1 == 1|| iopt1 == 0)){ MYPLOT =iopt1; if(MYPLOT) fitcmd("doiky\n"); if(!MYPLOT && pstream2 != NULL){ fitcmd("quit\n"); pclose(pstream2); pstream2 = NULL; } } else printf("must be fp 0 1\n"); } #endif /* pa pauses for a number of seconds */ else if(strncmp(command,"pause",2) == 0){ if(sscanf(command,"%*s %d",&iopt1) > 0 && ( iopt1 > 0)){ sleep(iopt1); } else if(sscanf(command,"%*s %d",&iopt1) > 0 && (iopt1 < 0)){ printf("Hit Enter to continue\n"); fflush(stdout); getc(stdin); } else help("pause",1); } /* li does a linear least squares fit */ else if(strncmp(command,"li",2) == 0){ if(func == NULL){ printf("You must select a function first\n"); failed = 1; } else if(ndata < 1){ printf("No data\n"); failed = 1; } else if(linflag ==0){ printf("Not a linear function\n"); failed = 1; } else if(nonzero(data[order.sig], ndata)){ if(debug)printf("in main, calling linear_fit()\n"); failed = linear_fit(data,order,num_indep,ndata,itmax,a,ma, lista,mfit,covar,&chisq,func,filename,comment); if(debug)printf("in main, linear_fit() returned %d\n", failed); } else{ failed = 1; printf("all sigmay's must be non-zero, check weighting and order\n"); } if(failed == 0){ printf("fit done\n"); printf("%s\n",comment); } if(failed != 0)printf("fit failed\n"); } /* de selects debugging option */ else if(strncmp(command,"de",2) == 0){ if(sscanf(command,"%*s %d",&iopt1) > 0 && ( iopt1 ==2 || iopt1 == 1|| iopt1 == 0)){ debug =iopt1; } else printf("must be de 0 1 or 2\n"); } /* noset*/ else if(strncmp(command,"noset",5) == 0){ if(sscanf(command,"%*s %d",&iopt1) > 0 && ( iopt1 == 1|| iopt1 == 0)){ noset =iopt1; } else printf("must be noset 0 or 1\n"); } /* echo selects debugging option */ else if(strncmp(command,"echo",2) == 0){ if(sscanf(command,"%*s %d",&iopt1) > 0 && (iopt1 == 1|| iopt1 == 0)){ echo =iopt1; } else printf("must be echo 0 or 1\n"); } else if(strncmp(command,"run",2) == 0){ if((i = parse(command, cmdargs)) > 0){ strcpy(syscmd,""); for(j = 0; j < i; j++){ strcat(syscmd, cmdargs[j]); strcat(syscmd," "); if(debug) printf("j: %d syscmd *%s* \n",j,syscmd); } if(debug) printf("Sending command %s to system\n",syscmd); system(syscmd); } } else if(strncmp(command,"!",1) == 0){ if(debug) printf("Sending command %s to system\n",command + 1); system(command + 1); } /* gn send commands to gnuplot */ else if(strncmp(command,"gn",2) == 0){ if((i = parse(command, cmdargs)) > 0){ strcpy(gnubuf,""); for(j = 0; j < i; j++){ strcat(gnubuf, cmdargs[j]); strcat(gnubuf," "); if(debug) printf("j: %d gnubuf *%s* \n",j,gnubuf); } sprintf(gnubuf,"%s\n",gnubuf); gnucmd( gnubuf); } else help("gn",1); } /* er estimates errors in the parameters */ else if(strncmp(command,"er",2) == 0){ if(parse(command, cmdargs) > 0) est_errors(atof(cmdargs[0]),func, data, order, num_indep, a, ndata, ma, chisq); else help("er",1); } else if(strncmp(command,"quit",4)) printf("command %s not recognized\n",command); fflush(stdout); }