/* Last non-groff version: hdb.c 1.8 (Berkeley) 84/10/20 * * Copyright -C- 1982 Barry S. Roitblat * * This file contains database routines for the hard copy programs of the * gremlin picture editor. */ #include "gprint.h" #include #include #include #include "errarg.h" #include "error.h" #define MAXSTRING 128 #define MAXSTRING_S "127" /* imports from main.cpp */ extern int linenum; /* current line number in input file */ extern char gremlinfile[]; /* name of file currently reading */ extern int SUNFILE; /* TRUE if SUN gremlin file */ extern int compatibility_flag; /* TRUE if in compatibility mode */ extern void savebounds(double x, double y); /* imports from hpoint.cpp */ extern POINT *PTInit(); extern POINT *PTMakePoint(double x, double y, POINT ** pplist); int DBGetType(register char *s); /* * This routine returns a pointer to an initialized database element which * would be the only element in an empty list. */ ELT * DBInit() { return ((ELT *) NULL); } /* end DBInit */ /* * This routine creates a new element with the specified attributes and * links it into database. */ ELT * DBCreateElt(int type, POINT * pointlist, int brush, int size, char *text, ELT **db) { register ELT *temp; temp = (ELT *) malloc(sizeof(ELT)); temp->nextelt = *db; temp->type = type; temp->ptlist = pointlist; temp->brushf = brush; temp->size = size; temp->textpt = text; *db = temp; return (temp); } /* end CreateElt */ /* * This routine reads the specified file into a database and returns a * pointer to that database. */ ELT * DBRead(register FILE *file) { register int i; register int done; /* flag for input exhausted */ register double nx; /* x holder so x is not set before orienting */ int type; /* element type */ ELT *elist; /* pointer to the file's elements */ POINT *plist; /* pointer for reading in points */ char string[MAXSTRING], *txt; double x, y; /* x and y are read in point coords */ int len, brush, size; int lastpoint; SUNFILE = FALSE; elist = DBInit(); (void) fscanf(file, "%" MAXSTRING_S "s%*[^\n]\n", string); if (strcmp(string, "gremlinfile")) { if (strcmp(string, "sungremlinfile")) { error("`%1' is not a gremlin file", gremlinfile); return (elist); } SUNFILE = TRUE; } (void) fscanf(file, "%d%lf%lf\n", &size, &x, &y); /* ignore orientation and file positioning point */ done = FALSE; while (!done) { /* if (fscanf(file,"%" MAXSTRING_S "s\n", string) == EOF) */ /* I changed the scanf format because the element */ /* can have two words (e.g. CURVE SPLINE) */ if (fscanf(file, "\n%" MAXSTRING_S "[^\n]%*[^\n]\n", string) == EOF) { error("`%1', error in file format", gremlinfile); return (elist); } type = DBGetType(string); /* interpret element type */ if (type < 0) { /* no more data */ done = TRUE; } else { #ifdef UW_FASTSCAN (void) xscanf(file, &x, &y); /* always one point */ #else (void) fscanf(file, "%lf%lf\n", &x, &y); /* always one point */ #endif /* UW_FASTSCAN */ plist = PTInit(); /* NULL point list */ /* * Files created on the SUN have point lists terminated by a line * containing only an asterik ('*'). Files created on the AED have * point lists terminated by the coordinate pair (-1.00 -1.00). */ if (TEXT(type)) { /* read only first point for TEXT elements */ nx = xorn(x, y); y = yorn(x, y); (void) PTMakePoint(nx, y, &plist); savebounds(nx, y); #ifdef UW_FASTSCAN while (xscanf(file, &x, &y)); #else lastpoint = FALSE; do { fgets(string, MAXSTRING, file); if (string[0] == '*') { /* SUN gremlin file */ lastpoint = TRUE; } else { (void) sscanf(string, "%lf%lf", &x, &y); if ((x == -1.00 && y == -1.00) && (!SUNFILE)) lastpoint = TRUE; else { if (compatibility_flag) savebounds(xorn(x, y), yorn(x, y)); } } } while (!lastpoint); #endif /* UW_FASTSCAN */ } else { /* not TEXT element */ #ifdef UW_FASTSCAN do { nx = xorn(x, y); y = yorn(x, y); (void) PTMakePoint(nx, y, &plist); savebounds(nx, y); } while (xscanf(file, &x, &y)); #else lastpoint = FALSE; while (!lastpoint) { nx = xorn(x, y); y = yorn(x, y); (void) PTMakePoint(nx, y, &plist); savebounds(nx, y); fgets(string, MAXSTRING, file); if (string[0] == '*') { /* SUN gremlin file */ lastpoint = TRUE; } else { (void) sscanf(string, "%lf%lf", &x, &y); if ((x == -1.00 && y == -1.00) && (!SUNFILE)) lastpoint = TRUE; } } #endif /* UW_FASTSCAN */ } (void) fscanf(file, "%d%d\n", &brush, &size); (void) fscanf(file, "%d", &len); /* text length */ (void) getc(file); /* eat blank */ txt = (char *) malloc((unsigned) len + 1); for (i = 0; i < len; ++i) { /* read text */ int c = getc(file); if (c == EOF) break; txt[i] = c; } txt[len] = '\0'; (void) DBCreateElt(type, plist, brush, size, txt, &elist); } /* end else */ } /* end while not done */ ; return (elist); } /* end DBRead */ /* * Interpret element type in string s. * Old file format consisted of integer element types. * New file format has literal names for element types. */ int DBGetType(register char *s) { if (isdigit(s[0]) || (s[0] == '-')) /* old element format or EOF */ return (atoi(s)); switch (s[0]) { case 'P': return (POLYGON); case 'V': return (VECTOR); case 'A': return (ARC); case 'C': if (s[1] == 'U') { if (s[5] == '\n') return (CURVE); switch (s[7]) { case 'S': return(BSPLINE); case 'E': fprintf(stderr, "Warning: Bezier Curves will be printed as B-Splines\n"); return(BSPLINE); default: return(CURVE); } } switch (s[4]) { case 'L': return (CENTLEFT); case 'C': return (CENTCENT); case 'R': return (CENTRIGHT); default: fatal("unknown element type"); } case 'B': switch (s[3]) { case 'L': return (BOTLEFT); case 'C': return (BOTCENT); case 'R': return (BOTRIGHT); default: fatal("unknown element type"); } case 'T': switch (s[3]) { case 'L': return (TOPLEFT); case 'C': return (TOPCENT); case 'R': return (TOPRIGHT); default: fatal("unknown element type"); } default: fatal("unknown element type"); } return 0; /* never reached */ } #ifdef UW_FASTSCAN /* * Optimization hack added by solomon@crys.wisc.edu, 12/2/86. * A huge fraction of the time was spent reading floating point numbers from * the input file, but the numbers always have the format 'ddd.dd'. Thus * the following special-purpose version of fscanf. * * xscanf(f,xp,yp) does roughly what fscanf(f,"%f%f",xp,yp) does except: * -the next piece of input must be of the form * * *'.'* * *'.'* * -xscanf eats the character following the second number * -xscanf returns 0 for "end-of-data" indication, 1 otherwise, where * end-of-data is signalled by a '*' [in which case the rest of the * line is gobbled], or by '-1.00 -1.00' [but only if !SUNFILE]. */ int xscanf(FILE *f, double *xp, double *yp) { register int c, i, j, m, frac; int iscale = 1, jscale = 1; /* x = i/scale, y=j/jscale */ while ((c = getc(f)) == ' '); if (c == '*') { while ((c = getc(f)) != '\n'); return 0; } i = m = frac = 0; while (isdigit(c) || c == '.' || c == '-') { if (c == '-') { m++; c = getc(f); continue; } if (c == '.') frac = 1; else { if (frac) iscale *= 10; i = 10 * i + c - '0'; } c = getc(f); } if (m) i = -i; *xp = (double) i / (double) iscale; while ((c = getc(f)) == ' '); j = m = frac = 0; while (isdigit(c) || c == '.' || c == '-') { if (c == '-') { m++; c = getc(f); continue; } if (c == '.') frac = 1; else { if (frac) jscale *= 10; j = 10 * j + c - '0'; } c = getc(f); } if (m) j = -j; *yp = (double) j / (double) jscale; return (SUNFILE || i != -iscale || j != -jscale); } #endif /* UW_FASTSCAN */ /* EOF */