FreeCalypso > hg > ueda-linux
view ueda/migration/g2uschem.c @ 113:43a2bebe7f00
USB_CONN_1734035.fp: mask opening for non-plated holes
author | Mychaela Falconia <falcon@freecalypso.org> |
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date | Fri, 12 Jun 2020 03:08:14 +0000 |
parents | cd92449fdb51 |
children |
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#include <ctype.h> #include <stdio.h> #include <strings.h> #define MAXLINE 256 #define MAXATTRS 16 #define ATTRBUF_SIZE 4096 struct attr { int graphparams[8]; char *name; char *value; }; FILE *inf, *outf; char *infname, *outfname; int lineno; int x_offset, y_offset; main(argc, argv) char **argv; { char line[MAXLINE]; int objlineno; struct attr attrs[MAXATTRS]; char attrbuf[ATTRBUF_SIZE]; int nattrs; register int c; if (argc > 1) { infname = argv[1]; inf = fopen(infname, "r"); if (!inf) { perror(infname); exit(1); } } else { inf = stdin; infname = "stdin"; } if (argc > 2) { outfname = argv[2]; outf = fopen(outfname, "w"); if (!outf) { perror(outfname); exit(1); } } else { outf = stdout; outfname = "stdout"; } while (getline(line)) { if (!isalpha(line[0])) { fprintf(stderr, "%s: line %d: gschem object expected\n", infname, lineno); exit(1); } objlineno = lineno; /* check for attached attributes */ c = getc(inf); if (c == '{') { skipline(); nattrs = read_attrs(attrs, attrbuf); } else { if (c != EOF) ungetc(c, inf); nattrs = 0; } /* dispatch by object type */ switch (line[0]) { case 'v': continue; /* ignore */ /* simple graphics */ case 'L': case 'B': case 'V': case 'A': if (nattrs) fprintf(stderr, "%s: line %d: attributes attached to %c object (ignored)\n", infname, objlineno, line[0]); handle_simple_graph(line, objlineno); continue; case 'T': handle_T_obj(line, objlineno); continue; case 'N': handle_net(line, objlineno, attrs, nattrs); continue; case 'U': handle_bus(line, objlineno, attrs, nattrs); continue; case 'C': handle_component(line, objlineno, attrs, nattrs); continue; default: fprintf(stderr, "%s: line %d: object type %c not supported\n", infname, objlineno, line[0]); } } exit(0); } handle_component(objline, objlineno, attrs, nattrs) char *objline; struct attr *attrs; { int numparams[5]; char *cp, *symname; struct attr *refdes; register int i; parse_numline(objline, objlineno, numparams, 5, &cp); if (!isspace(*cp)) { inv: fprintf(stderr, "%s: line %d: invalid C line\n", infname, objlineno); exit(1); } while (isspace(*cp)) cp++; if (!isalnum(*cp)) goto inv; for (symname = cp; isalnum(*cp) || *cp == '-' || *cp == '_'; cp++) ; if (strcmp(cp, ".sym")) goto inv; *cp = '\0'; /* weed some out based on the symbol name */ if (!strcmp(symname, "nc-x")) return; /* we'll do that differently */ if (strlen(symname) == 7 && !strncmp(symname, "title-", 6)) { /* handle titleblock */ fprintf(outf, "Schem graph %c;\n", symname[6]); x_offset = numparams[0]; y_offset = numparams[1]; return; } /* do we have a refdes? */ refdes = NULL; for (i = 0; i < nattrs; i++) if (!strcmp(attrs[i].name, "refdes")) { refdes = attrs + i; break; } if (refdes) emit_component_instance(numparams, symname, attrs, nattrs, refdes, objlineno); else emit_graph_symbol(numparams, symname, attrs, nattrs, objlineno); } emit_component_instance(numparams, symname, attrs, nattrs, refdes, objlineno) int *numparams; char *symname; struct attr *attrs, *refdes; { register struct attr *ap; register int i; fprintf(outf, "Component %s graph \"%s\" %d %d", refdes->value, symname, numparams[0] - x_offset, numparams[1] - y_offset); if (numparams[3]) fprintf(outf, " rot %d", numparams[3]); if (numparams[4]) fputs(" mirror", outf); fputs(" {\n", outf); /* attribute data */ for (ap = attrs, i = 0; i < nattrs; ap++, i++) if (ap != refdes) fprintf(outf, "\t(%s=\"%s\")\n", ap->name, ap->value); /* attribute graphics */ for (ap = attrs, i = 0; i < nattrs; ap++, i++) if (ap->graphparams[4]) fprintf(outf, "\tDisplayAttr %s %d %d %d %d %d;\n", ap->name, ap->graphparams[0] - x_offset, ap->graphparams[1] - y_offset, ap->graphparams[3], ap->graphparams[6], ap->graphparams[7]); fputs("};\n", outf); } emit_graph_symbol(numparams, symname, attrs, nattrs, objlineno) int *numparams; char *symname; struct attr *attrs; { register struct attr *ap; register int i; fprintf(outf, "GraphSym \"%s\" %d %d", symname, numparams[0] - x_offset, numparams[1] - y_offset); if (numparams[3]) fprintf(outf, " rot %d", numparams[3]); if (numparams[4]) fputs(" mirror", outf); if (nattrs) fputs(" {\n", outf); else { fputs(";\n", outf); return; } /* attribute data */ for (ap = attrs, i = 0; i < nattrs; ap++, i++) fprintf(outf, "\t(%s=\"%s\")\n", ap->name, ap->value); /* attribute graphics */ for (ap = attrs, i = 0; i < nattrs; ap++, i++) if (ap->graphparams[4]) fprintf(outf, "\tDisplayAttr %s %d %d %d %d %d;\n", ap->name, ap->graphparams[0] - x_offset, ap->graphparams[1] - y_offset, ap->graphparams[3], ap->graphparams[6], ap->graphparams[7]); fputs("};\n", outf); } handle_net(objline, objlineno, attrs, nattrs) char *objline; struct attr *attrs; { int numparams[5]; register struct attr *ap; register int i; parse_numline(objline, objlineno, numparams, 5, NULL); fprintf(outf, "NetLine (%d,%d) (%d,%d)", numparams[0] - x_offset, numparams[1] - y_offset, numparams[2] - x_offset, numparams[3] - y_offset); if (nattrs) fputs(" {\n", outf); else { fputs(";\n", outf); return; } /* attribute data */ for (ap = attrs, i = 0; i < nattrs; ap++, i++) fprintf(outf, "\t(%s=\"%s\")\n", ap->name, ap->value); /* attribute graphics */ for (ap = attrs, i = 0; i < nattrs; ap++, i++) if (ap->graphparams[4]) fprintf(outf, "\tDisplayAttr %s %d %d %d %d %d;\n", ap->name, ap->graphparams[0] - x_offset, ap->graphparams[1] - y_offset, ap->graphparams[3], ap->graphparams[6], ap->graphparams[7]); fputs("};\n", outf); } handle_bus(objline, objlineno, attrs, nattrs) char *objline; struct attr *attrs; { int numparams[6]; register struct attr *ap; register int i; parse_numline(objline, objlineno, numparams, 6, NULL); fprintf(outf, "BusSeg (%d,%d) (%d,%d)", numparams[0] - x_offset, numparams[1] - y_offset, numparams[2] - x_offset, numparams[3] - y_offset); if (nattrs) fputs(" {\n", outf); else { fputs(";\n", outf); return; } /* attribute data */ for (ap = attrs, i = 0; i < nattrs; ap++, i++) fprintf(outf, "\t(%s=\"%s\")\n", ap->name, ap->value); /* attribute graphics */ for (ap = attrs, i = 0; i < nattrs; ap++, i++) if (ap->graphparams[4]) fprintf(outf, "\tDisplayAttr %s %d %d %d %d %d;\n", ap->name, ap->graphparams[0] - x_offset, ap->graphparams[1] - y_offset, ap->graphparams[3], ap->graphparams[6], ap->graphparams[7]); fputs("};\n", outf); } handle_simple_graph(objline, objlineno) char *objline; { translate_simple_graph_line(objline, objlineno); fprintf(outf, "GraphBlockG {\n%s\n}\n", objline); } translate_simple_graph_line(objline, objlineno) char *objline; { int numparams[16]; switch (objline[0]) { case 'L': parse_numline(objline, objlineno, numparams, 10, NULL); numparams[0] -= x_offset; numparams[1] -= y_offset; numparams[2] -= x_offset; numparams[3] -= y_offset; sprintf(objline, "L %d %d %d %d %d %d %d %d %d %d", numparams[0], numparams[1], numparams[2], numparams[3], numparams[4], numparams[5], numparams[6], numparams[7], numparams[8], numparams[9]); return; case 'B': parse_numline(objline, objlineno, numparams, 16, NULL); numparams[0] -= x_offset; numparams[1] -= y_offset; sprintf(objline, "B %d %d %d %d %d %d %d %d %d %d %d %d %d %d %d %d", numparams[0], numparams[1], numparams[2], numparams[3], numparams[4], numparams[5], numparams[6], numparams[7], numparams[8], numparams[9], numparams[10],numparams[11], numparams[12],numparams[13],numparams[14], numparams[15]); return; case 'V': parse_numline(objline, objlineno, numparams, 15, NULL); numparams[0] -= x_offset; numparams[1] -= y_offset; sprintf(objline, "V %d %d %d %d %d %d %d %d %d %d %d %d %d %d %d", numparams[0], numparams[1], numparams[2], numparams[3], numparams[4], numparams[5], numparams[6], numparams[7], numparams[8], numparams[9], numparams[10],numparams[11], numparams[12],numparams[13],numparams[14]); return; case 'A': parse_numline(objline, objlineno, numparams, 11, NULL); numparams[0] -= x_offset; numparams[1] -= y_offset; sprintf(objline, "A %d %d %d %d %d %d %d %d %d %d %d", numparams[0], numparams[1], numparams[2], numparams[3], numparams[4], numparams[5], numparams[6], numparams[7], numparams[8], numparams[9], numparams[10]); return; default: fprintf(stderr, "unknown type in translate_simple_graph_line()\n"); exit(1); } } handle_T_obj(objline, objlineno) char *objline; { int numparams[9]; char textline[MAXLINE]; register int i; parse_numline(objline, objlineno, numparams, 9, NULL); if (numparams[8] < 1) { fprintf(stderr, "%s: line %d: T object: num_lines<1!\n", infname, objlineno); exit(1); } fprintf(outf, "GraphBlockG {\nT %d %d %d %d %d %d %d %d %d\n", numparams[0] - x_offset, numparams[1] - y_offset, numparams[2], numparams[3], numparams[4], numparams[5], numparams[6], numparams[7], numparams[8]); for (i = numparams[8]; i; i--) { if (!getline(textline)) { fprintf(stderr, "%s: EOF in T object\n", infname); exit(1); } fprintf(outf, "%s\n", textline); } fputs("}\n", outf); } read_attrs(attrs, attrbuf) struct attr *attrs; char *attrbuf; { char Tline[MAXLINE]; int Tline_parsed[9]; char attrline[MAXLINE]; int nattrs, chars_used; char *bufptr; register char *cp; register int i; for (nattrs = 0, chars_used = 0, bufptr = attrbuf; ; ) { if (!getline(Tline)) { badeof: fprintf(stderr, "%s: EOF in attribute block\n", infname); exit(1); } switch (Tline[0]) { case 'T': break; case '}': return(nattrs); default: fprintf(stderr, "%s: line %d: wrong line type in attribute block\n", infname, lineno); exit(1); } parse_numline(Tline, lineno, Tline_parsed, 9, NULL); if (Tline_parsed[8] < 1) { fprintf(stderr, "%s: line %d: T object: num_lines<1!\n", infname, lineno); exit(1); } if (Tline_parsed[8] > 1) { fprintf(stderr, "%s: line %d: multiline text object in attribute block not supported\n", infname, lineno); exit(1); } if (!getline(attrline)) goto badeof; cp = index(attrline, '='); if (!cp) /* non-attribute text item */ continue; /* ignore these */ /* break name and value */ *cp++ = '\0'; if (nattrs >= MAXATTRS) { fprintf(stderr, "%s: line %d: too many attributes\n", infname, lineno); exit(1); } for (i = 0; i < 8; i++) attrs[nattrs].graphparams[i] = Tline_parsed[i]; i = strlen(attrline) + 1; chars_used += i; if (chars_used > ATTRBUF_SIZE) { bufovflo: fprintf(stderr, "%s: line %d: attr text buf overflow\n", infname, lineno); exit(1); } bcopy(attrline, bufptr, i); attrs[nattrs].name = bufptr; bufptr += i; i = strlen(cp) + 1; chars_used += i; if (chars_used > ATTRBUF_SIZE) goto bufovflo; bcopy(cp, bufptr, i); attrs[nattrs].value = bufptr; bufptr += i; nattrs++; } } parse_numline(line, lineno, numarray, nfields, endp) char *line; int lineno; int *numarray; int nfields; char **endp; { register char *cp, *np; register int i; for (i = 0, cp = line+1; i < nfields; i++) { if (!isspace(*cp)) { inv: fprintf(stderr, "%s: line %d: invalid numeric line\n", infname, lineno); exit(1); } while (isspace(*cp)) cp++; np = cp; if (*cp == '-') cp++; if (!isdigit(*cp)) goto inv; while (isdigit(*cp)) cp++; numarray[i] = atoi(np); } if (endp) *endp = cp; else if (*cp) goto inv; } getline(linebuf) char *linebuf; { register char *cp; if (fgets(linebuf, MAXLINE, inf) == NULL) return(0); lineno++; /* strip trailing newline or other whitespace */ cp = index(linebuf, '\0'); while (cp > linebuf && isspace(cp[-1])) cp--; *cp = '\0'; return(1); } skipline() { char junkline[MAXLINE]; getline(junkline); }