FreeCalypso > hg > ueda-linux
view ueda/uschem-print/printpage.c @ 106:7f764166f5db
SIM_Socket_SparkFun.fp created
author | Mychaela Falconia <falcon@freecalypso.org> |
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date | Wed, 29 Jan 2020 00:43:04 +0000 |
parents | cd92449fdb51 |
children |
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#include <sys/types.h> #include <stdio.h> #include <strings.h> #include "../libuschem/schemstruct.h" #include "../libuschem/graphsym.h" extern FILE *reopen_schem_for_graphblocks(); extern char *get_compinst_attr(); extern char *pinname_to_pinnumber(); extern struct schem **schem_pages; extern int npages; struct schem *schem_being_printed; FILE *schemfile_for_graphblocks; static enum {LINEWIDTH_UNDEF, LINEWIDTH_NET, LINEWIDTH_BUS} pagelevel_linewidth; print_schem_page(pageno) int pageno; /* zero-based */ { register struct schem *schem; register struct schemobj *obj; schem = schem_pages[pageno]; schem_being_printed = schem; schemfile_for_graphblocks = reopen_schem_for_graphblocks(schem); printf("%%%%Page: %s %d\n", schem->orig_filename, pageno + 1); puts("save $uschem begin"); printf("/drawingsize_x %d def\n", schem->graph_xsize); printf("/drawingsize_y %d def\n", schem->graph_ysize); puts("setscale"); pagelevel_linewidth = LINEWIDTH_UNDEF; reset_decor_font(); for (obj = schem->obj_next; obj != (struct schemobj *) schem; obj = obj->obj_next) print_schem_obj(obj); if (schemfile_for_graphblocks) fclose(schemfile_for_graphblocks); puts("end restore showpage"); return(0); } print_schem_obj(obj) register struct schemobj *obj; { switch (obj->obj_type) { case OBJTYPE_COMPINST: if (!obj->compobj_isgraph) return; /* FALL THRU */ case OBJTYPE_GRAPHSYM: print_graph_compinst(obj); return; case OBJTYPE_GRAPHNET: if (pagelevel_linewidth != LINEWIDTH_NET) { puts("netlinewidth setlinewidth"); pagelevel_linewidth = LINEWIDTH_NET; } print_graphnet(obj); print_obj_decors(obj); return; case OBJTYPE_NETLINE: if (pagelevel_linewidth != LINEWIDTH_NET) { puts("netlinewidth setlinewidth"); pagelevel_linewidth = LINEWIDTH_NET; } printf("%d %d moveto %d %d lineto stroke\n", obj->lineobj_x1, obj->lineobj_y1, obj->lineobj_x2, obj->lineobj_y2); print_obj_decors(obj); return; case OBJTYPE_BUSSEG: if (pagelevel_linewidth != LINEWIDTH_BUS) { puts("buslinewidth setlinewidth"); pagelevel_linewidth = LINEWIDTH_BUS; } printf("%d %d moveto %d %d lineto stroke\n", obj->lineobj_x1, obj->lineobj_y1, obj->lineobj_x2, obj->lineobj_y2); print_obj_decors(obj); return; case OBJTYPE_GRAPHBLOCK: print_graphblock(obj->graphblockobj_body); return; } } print_graph_compinst(obj) register struct schemobj *obj; { register struct graphsym *gs; char *slot; gs = obj->compobj_graphsym; printf("save %d %d translate", obj->compobj_x, obj->compobj_y); if (obj->compobj_rotate) printf(" %d rotate", obj->compobj_rotate); putchar('\n'); printf("/mirrored %s def\n", obj->compobj_mirror ? "true" : "false"); if (gs->gs_varpins) { if (obj->obj_type != OBJTYPE_COMPINST) { fprintf(stderr, "%s: line %d: symbol \"%s\" has variable pins; may not be used w/o component\n", schem_being_printed->orig_filename, obj->obj_lineno, gs->gs_name); exit(1); } slot = get_compinst_attr(obj, "slot"); define_varpins(gs, obj->compobj_mclcomp, slot); } printf("symbols /%s get exec restore\n", gs->gs_name); print_obj_decors(obj); } define_varpins(gs, comp, slot) struct graphsym *gs; struct component *comp; char *slot; { register struct graphsym_pindef *pin; register char *cp; puts("/pins ["); for (pin = gs->gs_pins; pin; pin = pin->gspd_next) if (pin->gspd_pinnumber && !strcmp(pin->gspd_pinnumber, "%d")) { if (pin->gspd_pinname) cp = pinname_to_pinnumber(comp, pin->gspd_pinname, slot); else { fprintf(stderr, "Symbol %s: variable pin has no pinname attribute\n", gs->gs_name); cp = NULL; } putchar(' '); if (cp) emit_ps_string(cp); else { putchar('('); putchar(')'); } putchar('\n'); } puts("] def"); } print_graphnet(obj) struct schemobj *obj; { register struct netpoint *netpt; register int first; for (netpt = obj->netobj_points, first = 1; netpt; netpt = netpt->netpt_next) { if (!netpt->netpt_coord_valid) { fprintf(stderr, "%s: line %d: GraphNet contains Pin w/o coordinates, not printed\n", schem_being_printed->orig_filename, obj->obj_lineno); puts("newpath"); /* kludge in lieu of abort */ return; } printf("%d %d %s\n", netpt->netpt_x, netpt->netpt_y, first ? "moveto" : "lineto"); first = 0; } puts("stroke"); /* connection dots */ for (netpt = obj->netobj_points, first = 1; netpt; netpt = netpt->netpt_next, first = 0) switch (netpt->netpt_type) { case NETPT_TYPE_PIN: case NETPT_TYPE_PSEUDO: if (first || !netpt->netpt_next) continue; /* FALL THRU */ case NETPT_TYPE_TJOIN: printf("%d %d conndot\n", netpt->netpt_x, netpt->netpt_y); continue; } } print_graphblock(blk) register struct graphblock *blk; { puts("save"); switch (blk->type) { case GRAPHBLOCK_TYPE_PS: write_graphblock_to_file(blk, schemfile_for_graphblocks, stdout); break; case GRAPHBLOCK_TYPE_GSCHEM: print_gschem_code_graphblk(schemfile_for_graphblocks, blk, schem_being_printed->orig_filename); break; default: fprintf(stderr, "Fatal internal error: unknown graphblock type %d (from %s line %d)\n", blk->type, schem_being_printed->orig_filename, blk->lineno); exit(1); } puts("restore"); }