FreeCalypso > hg > ueda-linux
view pads2gpcb/partinst.c @ 145:5e91200bf609
netdiff: donl-pinreport utility written, compiles
author | Mychaela Falconia <falcon@freecalypso.org> |
---|---|
date | Sun, 15 Nov 2020 01:17:10 +0000 |
parents | a3d47129ebdc |
children |
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#include <stdio.h> #include <stdlib.h> #include <ctype.h> #include <string.h> #include <strings.h> #include "globals.h" #include "struct.h" extern struct part_type *find_parttype_by_name(); extern struct part_decal *find_decal_by_name(); extern long convert_input_dim(); extern void coordpair_mirror_x(); extern void coordpair_rot_90(); extern void coordpair_rot_180(); extern void coordpair_rot_270(); static struct part_instance *our_part; static void enter_part_inst() { struct part_instance *p, **pp; char *name = input_line_fields[0]; for (pp = &part_inst_list; p = *pp; pp = &p->next) if (!strcmp(p->name, name)) { fprintf(stderr, "%s line %d: part instance \"%s\" already defined\n", input_filename, input_lineno, name); exit(1); } p = malloc(sizeof(struct part_instance) + strlen(name) + 1); if (!p) { perror("malloc of struct part_instance"); exit(1); } bzero(p, sizeof(struct part_instance)); p->name = (char *)(p + 1); strcpy(p->name, name); *pp = p; our_part = p; } static void select_decal_by_name(decalname) char *decalname; { our_part->decal = find_decal_by_name(decalname); if (!our_part->decal) { fprintf(stderr, "%s line %d: part instantiation refers to unknown decal name \"%s\"\n", input_filename, input_lineno, decalname); exit(1); } } static void select_decal_by_number() { char *strnum = input_line_fields[7]; int num = atoi(strnum); if (num < 0 || num >= our_part->type->ndecals) { fprintf(stderr, "%s line %d: invalid decal number \"%s\" in PART line\n", input_filename, input_lineno, strnum); exit(1); } our_part->decal = our_part->type->decals[num]; } static void find_type_and_decal() { char *typename = input_line_fields[1]; char *decalname; decalname = index(typename, '@'); if (decalname) *decalname++ = '\0'; our_part->type = find_parttype_by_name(typename); if (!our_part->type) { fprintf(stderr, "%s line %d: part instantiation refers to unknown part type \"%s\"\n", input_filename, input_lineno, typename); exit(1); } if (decalname) select_decal_by_name(decalname); else select_decal_by_number(); } static void one_attr_label() { int i; /* just skip it for now */ for (i = 0; i < 3; i++) { if (!get_input_line()) { fprintf(stderr, "error: EOF when expecting a part label line\n"); exit(1); } } } static void read_one_part() { int num_attr_labels, i; if (input_line_nfields < 8 || input_line_nfields > 12) { fprintf(stderr, "%s line %d: expected beginning of part instance, wrong # of fields\n", input_filename, input_lineno); exit(1); } enter_part_inst(); printf("Processing part instance %s\n", our_part->name); find_type_and_decal(); our_part->mark_x = convert_input_dim(input_line_fields[2]); our_part->mark_y = convert_input_dim(input_line_fields[3]); our_part->ori = parse_input_angle_90s(input_line_fields[4]); if (!strcmp(input_line_fields[6], "N")) our_part->onbottom = 0; else if (!strcmp(input_line_fields[6], "M")) our_part->onbottom = 1; else { fprintf(stderr, "%s line %d: expected 'N' or 'M' in field 6\n", input_filename, input_lineno); exit(1); } if (input_line_nfields > 11) num_attr_labels = atoi(input_line_fields[11]); else num_attr_labels = 0; for (i = 0; i < num_attr_labels; i++) one_attr_label(); } static void copy_footprint_body() { struct footprint_body *origfp = our_part->decal->body; struct footprint_body *newbody; newbody = malloc(sizeof(struct footprint_body)); if (!newbody) { perror("malloc to copy footprint body"); exit(1); } bcopy(origfp, newbody, sizeof(struct footprint_body)); newbody->pins = malloc(sizeof(struct footprint_pad) * origfp->npins); if (!newbody->pins) { perror("malloc to copy footprint pads"); exit(1); } bcopy(origfp->pins, newbody->pins, sizeof(struct footprint_pad) * origfp->npins); if (origfp->silk_lines) { newbody->silk_lines = malloc(sizeof(struct element_line) * origfp->num_silk_lines); if (!newbody->silk_lines) { perror("malloc to copy footprint silk lines"); exit(1); } bcopy(origfp->silk_lines, newbody->silk_lines, sizeof(struct element_line) * origfp->num_silk_lines); } if (origfp->silk_arcs) { newbody->silk_arcs = malloc(sizeof(struct element_arc) * origfp->num_silk_arcs); if (!newbody->silk_arcs) { perror("malloc to copy footprint silk arcs"); exit(1); } bcopy(origfp->silk_arcs, newbody->silk_arcs, sizeof(struct element_arc) * origfp->num_silk_arcs); } our_part->body = newbody; } static void part_inst_fail(reason) char *reason; { printf("Omitting component %s: %s\n", our_part->name, reason); } static void process_one_part() { read_one_part(); /* analyze it */ if (!our_part->decal->body) { part_inst_fail("bad decal"); return; } if (our_part->type->num_alpha_pins && our_part->type->num_alpha_pins != our_part->decal->body->npins) { part_inst_fail("alpha pins count mismatch"); return; } if (our_part->ori < 0) { part_inst_fail("non-rectangular orientation"); return; } /* subsetting and renaming logic will go here */ our_part->newname = our_part->name; copy_footprint_body(); our_part->body->mark_x = our_part->mark_x; our_part->body->mark_y = our_part->mark_y; switch (our_part->ori) { case 0: break; case 90: manipulate_footprint_coord_pairs(our_part->body, coordpair_rot_90); break; case 180: manipulate_footprint_coord_pairs(our_part->body, coordpair_rot_180); break; case 270: manipulate_footprint_coord_pairs(our_part->body, coordpair_rot_270); } if (our_part->onbottom) manipulate_footprint_coord_pairs(our_part->body, coordpair_mirror_x); } process_part_section() { input_units_current = input_units_global; for (;;) { if (!get_input_line()) { fprintf(stderr, "error: EOF in PART 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_part(); } }