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/*===================================================================*/
//
// place_test.c
//
// Aaron P. Hurst, 2003-2007
// ahurst@eecs.berkeley.edu
//
/*===================================================================*/
#include <stdlib.h>
#include <stdio.h>
#include <string.h>
#include <assert.h>
#include "place_base.h"
ABC_NAMESPACE_IMPL_START
// --------------------------------------------------------------------
// Hash type/functions
//
// --------------------------------------------------------------------
struct hash_element {
ConcreteCell *obj;
struct hash_element *next;
} hash_element;
int hash_string(int hash_max, const char *str) {
unsigned int hash = 0;
int p;
for(p = 0; p<strlen(str); p++)
hash += str[p]*p;
return hash % hash_max;
}
void hash_add(struct hash_element **hash, int hash_max,
ConcreteCell *cell) {
int key = hash_string(hash_max, cell->m_label);
// printf("adding %s key = %d\n", cell->m_label, key);
struct hash_element *element = malloc(sizeof(struct hash_element));
assert(element);
element->obj = cell;
element->next = hash[key];
hash[key] = element;
}
ConcreteCell *hash_find(struct hash_element **hash, int hash_max, const char *str) {
int key = hash_string(hash_max, str);
// printf("looking for %s key = %d\n", str, key);
struct hash_element *next = hash[key];
while(next) {
if (!strcmp(str, next->obj->m_label))
return next->obj;
next = next->next;
}
return 0;
}
// --------------------------------------------------------------------
// Global variables
//
// --------------------------------------------------------------------
struct hash_element **hash_cellname;
int numCells = 0, numNets = 0;
AbstractCell *abstractCells;
ConcreteCell *concreteCells;
ConcreteNet *concreteNets;
// --------------------------------------------------------------------
// Function implementations
//
// --------------------------------------------------------------------
void readBookshelfNets(char *filename) {
char *tok;
char buf[1024];
const char *DELIMITERS = " \n\t:";
int id = 0;
int t;
ConcreteCell *cell;
FILE *netsFile = fopen(filename, "r");
if (!netsFile) {
printf("ERROR: Could not open .nets file\n");
exit(1);
}
// line 1 : version
while (fgets(buf, 1024, netsFile) && (buf[0] == '\n' || buf[0] == '#'));
// line 2 : number of nets
while (fgets(buf, 1024, netsFile) && (buf[0] == '\n' || buf[0] == '#'));
tok = strtok(buf, DELIMITERS);
tok = strtok(NULL, DELIMITERS);
numNets = atoi(tok);
printf("READ-20 : number of nets = %d\n", numNets);
concreteNets = malloc(sizeof(ConcreteNet)*numNets);
// line 3 : number of pins
while (fgets(buf, 1024, netsFile) && (buf[0] == '\n' || buf[0] == '#'));
// line XXX : net definitions
while(fgets(buf, 1024, netsFile)) {
if (buf[0] == '\n' || buf[0] == '#') continue;
concreteNets[id].m_id = id;
concreteNets[id].m_weight = 1.0;
tok = strtok(buf, DELIMITERS);
if (!!strcmp(tok, "NetDegree")) {
printf("%s\n",buf);
printf("ERROR: Incorrect format in .nets file\n");
exit(1);
}
tok = strtok(NULL, DELIMITERS);
concreteNets[id].m_numTerms = atoi(tok);
if (concreteNets[id].m_numTerms < 0 ||
concreteNets[id].m_numTerms > 100000) {
printf("ERROR: Bad net degree\n");
exit(1);
}
concreteNets[id].m_terms = malloc(sizeof(ConcreteCell*)*
concreteNets[id].m_numTerms);
// read terms
t = 0;
while(t < concreteNets[id].m_numTerms &&
fgets(buf, 1024, netsFile)) {
if (buf[0] == '\n' || buf[0] == '#') continue;
// cell name
tok = strtok(buf, DELIMITERS);
cell = hash_find(hash_cellname, numCells, tok);
if (!cell) {
printf("ERROR: Could not find cell %s in .nodes file\n", tok);
exit(1);
}
concreteNets[id].m_terms[t] = cell;
t++;
}
// add!
addConcreteNet(&(concreteNets[id]));
id++;
}
fclose(netsFile);
}
void readBookshelfNodes(char *filename) {
char *tok;
char buf[1024];
const char *DELIMITERS = " \n\t:";
int id = 0;
FILE *nodesFile = fopen(filename, "r");
if (!nodesFile) {
printf("ERROR: Could not open .nodes file\n");
exit(1);
}
// line 1 : version
while (fgets(buf, 1024, nodesFile) && (buf[0] == '\n' || buf[0] == '#'));
// line 2 : num nodes
while (fgets(buf, 1024, nodesFile) && (buf[0] == '\n' || buf[0] == '#'));
tok = strtok(buf, DELIMITERS);
tok = strtok(NULL, DELIMITERS);
numCells = atoi(tok);
printf("READ-10 : number of cells = %d\n", numCells);
concreteCells = malloc(sizeof(ConcreteCell)*numCells);
abstractCells = malloc(sizeof(AbstractCell)*numCells);
hash_cellname = calloc(numCells, sizeof(struct hash_element*));
// line 3 : num terminals
while (fgets(buf, 1024, nodesFile) && (buf[0] == '\n' || buf[0] == '#'));
// line XXX : cell definitions
while(fgets(buf, 1024, nodesFile)) {
if (buf[0] == '\n' || buf[0] == '#') continue;
tok = strtok(buf, DELIMITERS);
concreteCells[id].m_id = id;;
// label
concreteCells[id].m_parent = &(abstractCells[id]);
concreteCells[id].m_label = malloc(sizeof(char)*strlen(tok)+1);
strcpy(concreteCells[id].m_label, tok);
abstractCells[id].m_label = concreteCells[id].m_label;
hash_add(hash_cellname, numCells,
&(concreteCells[id]));
// dimensions
tok = strtok(NULL, DELIMITERS);
abstractCells[id].m_width = atof(tok);
tok = strtok(NULL, DELIMITERS);
abstractCells[id].m_height = atof(tok);
tok = strtok(NULL, DELIMITERS);
// terminal
abstractCells[id].m_pad = tok && !strcmp(tok, "terminal");
// add!
addConcreteCell(&(concreteCells[id]));
// DEBUG
/*
printf("\"%s\" : %f x %f\n", concreteCells[id].m_label,
abstractCells[id].m_width,
abstractCells[id].m_height);
*/
id++;
}
fclose(nodesFile);
}
void readBookshelfPlacement(char *filename) {
char *tok;
char buf[1024];
const char *DELIMITERS = " \n\t:";
ConcreteCell *cell;
FILE *plFile = fopen(filename, "r");
FILE *netsFile = fopen(filename, "r");
if (!plFile) {
printf("ERROR: Could not open .pl file\n");
exit(1);
}
if (!netsFile) {
printf("ERROR: Could not open .nets file\n");
exit(1);
}
// line 1 : version
while (fgets(buf, 1024, plFile) && (buf[0] == '\n' || buf[0] == '#'));
// line XXX : placement definitions
while(fgets(buf, 1024, plFile)) {
if (buf[0] == '\n' || buf[0] == '#') continue;
tok = strtok(buf, DELIMITERS);
// cell name
cell = hash_find(hash_cellname, numCells, tok);
if (!cell) {
printf("ERROR: Could not find cell %s in .nodes file\n",tok);
exit(1);
}
// position
tok = strtok(NULL, DELIMITERS);
cell->m_x = atof(tok);
tok = strtok(NULL, DELIMITERS);
cell->m_y = atof(tok);
// hfixed
cell->m_fixed = strtok(NULL, DELIMITERS) &&
(tok = strtok(NULL, DELIMITERS)) &&
!strcmp(tok, "\\FIXED");
}
fclose(plFile);
}
void writeBookshelfPlacement(char *filename) {
int c = 0;
FILE *plFile = fopen(filename, "w");
if (!plFile) {
printf("ERROR: Could not open .pl file\n");
exit(1);
}
fprintf(plFile, "UCLA pl 1.0\n");
for(c=0; c<numCells; c++) {
fprintf(plFile, "%s %f %f : N %s\n",
concreteCells[c].m_label,
concreteCells[c].m_x,
concreteCells[c].m_y,
(concreteCells[c].m_fixed ? "\\FIXED" : ""));
}
fclose(plFile);
}
// deletes all connections to a cell
void delNetConnections(ConcreteCell *cell) {
int n, t, t2, count = 0;
ConcreteCell **old = malloc(sizeof(ConcreteCell*)*g_place_numCells);
for(n=0; n<g_place_numNets; n++) if (g_place_concreteNets[n]) {
ConcreteNet *net = g_place_concreteNets[n];
count = 0;
for(t=0; t<net->m_numTerms; t++)
if (net->m_terms[t] == cell) count++;
if (count) {
memcpy(old, net->m_terms, sizeof(ConcreteCell*)*net->m_numTerms);
net->m_terms = realloc(net->m_terms,
sizeof(ConcreteCell*)*(net->m_numTerms-count));
t2 = 0;
for(t=0; t<net->m_numTerms; t++)
if (old[t] != cell) net->m_terms[t2++] = old[t];
net->m_numTerms -= count;
}
}
free(old);
}
int main(int argc, char **argv) {
if (argc != 4) {
printf("Usage: %s [nodes] [nets] [pl]\n", argv[0]);
exit(1);
}
readBookshelfNodes(argv[1]);
readBookshelfNets(argv[2]);
readBookshelfPlacement(argv[3]);
globalPreplace(0.8);
globalPlace();
// DEBUG net/cell removal/addition
/*
int i;
for(i=1000; i<2000; i++) {
delConcreteNet(g_place_concreteNets[i]);
delNetConnections(g_place_concreteCells[i]);
delConcreteCell(g_place_concreteCells[i]);
}
ConcreteCell newCell[2];
newCell[0].m_id = g_place_numCells+1;
newCell[0].m_x = 1000;
newCell[0].m_y = 1000;
newCell[0].m_fixed = false;
newCell[0].m_parent = &(abstractCells[1000]);
newCell[0].m_label = " ";
addConcreteCell(&newCell[0]);
newCell[1].m_id = g_place_numCells+3;
newCell[1].m_x = 1000;
newCell[1].m_y = 1000;
newCell[1].m_fixed = false;
newCell[1].m_parent = &(abstractCells[1000]);
newCell[1].m_label = " ";
addConcreteCell(&newCell[1]);
*/
globalIncremental();
writeBookshelfPlacement(argv[3]);
free(hash_cellname);
return 0;
}
ABC_NAMESPACE_IMPL_END
|