FreeCalypso > hg > ueda-linux
view pads2gpcb/parttype.c @ 94:73029295c4dd
ifctf-part-lib/uschem-symbols: added Si1032R.pinout and ipc-diode.pinout
author | Mychaela Falconia <falcon@freecalypso.org> |
---|---|
date | Sat, 24 Aug 2019 08:54:11 +0000 |
parents | ac13abc7dc0d |
children |
line wrap: on
line source
#include <stdio.h> #include <stdlib.h> #include <ctype.h> #include <string.h> #include <strings.h> #include "globals.h" #include "struct.h" extern struct part_decal *find_decal_by_name(); extern char *savestr(); static struct part_type *our_parttype; static int ngates, nsignals; static void enter_parttype() { struct part_type *p, **pp; char *name = input_line_fields[0]; for (pp = &part_type_list; p = *pp; pp = &p->next) if (!strcmp(p->name, name)) { fprintf(stderr, "%s line %d: part type name \"%s\" already defined\n", input_filename, input_lineno, name); exit(1); } p = malloc(sizeof(struct part_type) + strlen(name) + 1); if (!p) { perror("malloc of struct part_type"); exit(1); } bzero(p, sizeof(struct part_type)); p->name = (char *)(p + 1); strcpy(p->name, name); *pp = p; our_parttype = p; } static void find_decals() { char *cp, *np; struct part_decal *decal; for (cp = input_line_fields[1]; cp; cp = np) { np = index(cp, ':'); if (np) *np++ = '\0'; if (!*cp) continue; decal = find_decal_by_name(cp); if (!decal) { fprintf(stderr, "%s line %d: part type definition refers to unknown decal name \"%s\"\n", input_filename, input_lineno, cp); exit(1); } if (our_parttype->ndecals >= MAX_DECALS_PER_PART_TYPE) { fprintf(stderr, "%s line %d: MAX_DECALS_PER_PART_TYPE exceeded\n", input_filename, input_lineno); exit(1); } our_parttype->decals[our_parttype->ndecals++] = decal; } if (!our_parttype->ndecals) { fprintf(stderr, "%s line %d: empty list of decals in part type def\n", input_filename, input_lineno); exit(1); } } static void process_header_line() { if (input_line_nfields < 6) { fprintf(stderr, "%s line %d: expected beginning of part type definition, wrong # of fields\n", input_filename, input_lineno); exit(1); } enter_parttype(); printf("Processing part type %s\n", our_parttype->name); find_decals(); ngates = atoi(input_line_fields[3]); nsignals = atoi(input_line_fields[4]); our_parttype->num_alpha_pins = atoi(input_line_fields[5]); } static void get_line_internal() { if (!get_input_line()) { fprintf(stderr, "error: EOF in the middle of a part type definition\n"); exit(1); } } static void process_one_gate_def() { int gatepins; get_line_internal(); parse_input_line_fields(); if (input_line_nfields != 3 || strcmp(input_line_fields[0], "G")) { fprintf(stderr, "%s line %d: expected gate def header line\n", input_filename, input_lineno); exit(1); } gatepins = atoi(input_line_fields[2]); while (gatepins > 0) { get_line_internal(); parse_input_line_fields(); gatepins -= input_line_nfields; } } static void alloc_alpha_pins_array() { our_parttype->alpha_pins = malloc(sizeof(char *) * our_parttype->num_alpha_pins); if (!our_parttype->alpha_pins) { perror("malloc of alpha_pins array"); exit(1); } } static void read_alpha_pins() { int idx, i; for (idx = 0; idx < our_parttype->num_alpha_pins; ) { get_line_internal(); parse_input_line_fields(); for (i = 0; i < input_line_nfields; i++) { if (idx >= our_parttype->num_alpha_pins) { fprintf(stderr, "%s line %d: alpha_pins array overflow\n", input_filename, input_lineno); exit(1); } our_parttype->alpha_pins[idx++] = savestr(input_line_fields[i]); } } } static void write_alpha_pins_footprint() { struct footprint_body *fpbody; char *filename, *cp, *dp; int c; FILE *outf; if (our_parttype->ndecals != 1) { printf( "Warning: part type with alpha pins and multiple decals: save not supported\n"); return; } fpbody = our_parttype->decals[0]->body; if (!fpbody) return; if (our_parttype->num_alpha_pins != fpbody->npins) { printf("Error: # of alpha pin names != # of actual pins\n"); return; } filename = malloc(strlen(our_parttype->name) * 3 + 11); if (!filename) { perror("malloc for output file name"); exit(1); } strcpy(filename, "alphapins/"); dp = filename + 10; for (cp = our_parttype->name; *cp; ) { c = *cp++; if (isalnum(c) || c == '-' || c == '.' || c == '_') *dp++ = c; else { sprintf(dp, "%%%02X", c); dp += 3; } } *dp = '\0'; outf = fopen(filename, "w"); if (!outf) { perror(filename); exit(1); } write_gpcb_element(outf, fpbody, our_parttype->alpha_pins, "", "", "", 0); fclose(outf); printf("Written to %s\n", filename); free(filename); } static void process_one_parttype() { int i; process_header_line(); for (i = 0; i < ngates; i++) process_one_gate_def(); for (i = 0; i < nsignals; i++) get_line_internal(); if (our_parttype->num_alpha_pins) { alloc_alpha_pins_array(); read_alpha_pins(); if (write_footprint_files) write_alpha_pins_footprint(); } } process_parttype_section() { for (;;) { if (!get_input_line()) { fprintf(stderr, "error: EOF in PARTTYPE section\n"); exit(1); } if (input_line_buf[0] == '*') { parse_starline(); if (strcmp(input_line_starkw, "REMARK")) break; else continue; } parse_input_line_fields(); if (input_line_nfields) process_one_parttype(); } } struct part_type * find_parttype_by_name(name) char *name; { struct part_type *p; for (p = part_type_list; p; p = p->next) if (!strcmp(p->name, name)) break; return(p); }