FreeCalypso > hg > ueda-linux
view ueda/sverp/output.c @ 54:a930e05cf908
pads2gpcb/decals.c: silk circle extraction implemented
author | Mychaela Falconia <falcon@ivan.Harhan.ORG> |
---|---|
date | Sun, 31 Jan 2016 01:57:38 +0000 |
parents | 7b4f78fcca08 |
children |
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/* * ueda-sverp netlist output */ #include <stdio.h> #include <stdlib.h> #include <string.h> #include <strings.h> #include "struct.h" extern struct output_net *output_net_head; extern struct output_element *output_element_head; extern int total_good_nets, total_singular_nets, total_null_nets; extern int total_output_elements; extern char *output_filename; static FILE *outF; static int net_comment_column; static void find_net_comment_column() { register struct output_net *net; register int len, maxlen; maxlen = 0; for (net = output_net_head; net; net = net->next) { if (net->npoints < 2) continue; len = strlen(net->name); if (len > maxlen) maxlen = len; } maxlen += 4; do maxlen++; while (maxlen % 8); net_comment_column = maxlen; } static void emit_good_nets() { register struct output_net *net; register int col; fprintf(outF, "\n# Elaborated net wires (%d total):\n#\n", total_good_nets); for (net = output_net_head; net; net = net->next) { if (net->npoints < 2) continue; fprintf(outF, "NET %s", net->name); col = 4 + strlen(net->name); do { fputc('\t', outF); col += 8; col &= ~7; } while (col < net_comment_column); fprintf(outF, "# %d points\n", net->npoints); } } static void emit_singular_nets() { register struct output_net *net; fprintf(outF, "\n# Singular nets converted into no-connects (%d total):\n#\n", total_singular_nets); for (net = output_net_head; net; net = net->next) { if (net->npoints != 1) continue; fprintf(outF, "# %s\n", net->name); } } static void emit_null_nets() { register struct output_net *net; fprintf(outF, "\n# Net wires declared but not used (%d total):\n#\n", total_null_nets); for (net = output_net_head; net; net = net->next) { if (net->npoints) continue; fprintf(outF, "# %s\n", net->name); } } static void emit_output_element(elem) struct output_element *elem; { register struct module_def *mod = elem->prim_def; register struct module_net_def *port; register struct output_net **connp = elem->connections, *conn; char *pinkw, *pinname; fprintf(outF, "\nCOMPONENT %s {\n PRIMITIVE %s\n\n", elem->hier_inst_name, mod->name); if (mod->prim_is_mapped) pinkw = "PINMAP"; else pinkw = "PIN"; for (port = mod->nets; port; port = port->next) { pinname = port->name; if (mod->prim_numeric_pins) pinname += 4; fprintf(outF, " %s %s = ", pinkw, pinname); conn = *connp++; if (conn->name) { if (conn->npoints > 1) fprintf(outF, "NET %s", conn->name); else fprintf(outF, "NC (singular net %s)", conn->name); } else fprintf(outF, "NC (module %s line %d inst %s)", conn->nc_module_name, conn->nc_module_lineno, conn->nc_module_inst); fputc('\n', outF); } fputs("}\n", outF); } static void emit_output_elements() { register struct output_element *elem; fprintf(outF, "\n# Total instantiated components: %d\n", total_output_elements); for (elem = output_element_head; elem; elem = elem->next) emit_output_element(elem); } generate_output() { outF = fopen(output_filename, "w"); if (!outF) { perror(output_filename); exit(1); } fputs("# This netlist has been generated by ueda-sverp\n", outF); fputs("# from structural Verilog sources\n", outF); if (total_good_nets) { find_net_comment_column(); emit_good_nets(); } if (total_singular_nets) emit_singular_nets(); if (total_null_nets) emit_null_nets(); emit_output_elements(); fclose(outF); }