*/
static void append_calls (graph_info_t *info, ir_node *call, lset_t *callEds)
{
- call_info_t *cinfo = (call_info_t*) xmalloc (sizeof (call_info_t));
+ call_info_t *cinfo = xmalloc (sizeof(*cinfo));
+ ir_graph *callEd;
/* setup */
cinfo->call = call;
cinfo->callEds = NULL;
/* enter */
- ir_graph *callEd = lset_first (callEds);
- while (callEd) {
+ for (callEd = lset_first (callEds); callEd; callEd = lset_next(callEds))
cinfo->callEds = append_callEd_info (cinfo->callEds, callEd);
-
- callEd = lset_next (callEds);
- }
}
/**
*/
static void append_call (graph_info_t *info, ir_node *call, ir_graph *callEd)
{
- call_info_t *cinfo = (call_info_t*) xmalloc (sizeof (call_info_t));
+ call_info_t *cinfo = xmalloc (sizeof(*cinfo));
cinfo->call = call;
cinfo->prev = info->calls;
*/
static lset_t *get_implementing_graphs (entity *method, ir_node *select)
{
+ int n_graphs;
lset_t *set = lset_create ();
{
ir_graph *impl = _get_implementing_graph (method);
}
/* void *tmp = lset_first (set); */
- int n_graphs = lset_n_entries (set);
+ n_graphs = lset_n_entries (set);
/* typalise select_in */
if (do_typalise) {
/* fprintf (stdout, "typalyse res = %s\n", res); */
if (1 != n_graphs) {
- set = filter_for_ta (set, ta);
+ int n_filtered_graphs;
- int n_filtered_graphs = lset_n_entries (set);
+ set = filter_for_ta (set, ta);
+ n_filtered_graphs = lset_n_entries (set);
/*
fprintf (stdout, "%s: %02d %02d\n",
*/
static void ecg_calls_act (ir_node *node, void *env)
{
- opcode op = get_irn_opcode (node);
+ ir_op *op = get_irn_op(node);
graph_info_t *graph_info = (graph_info_t*) env;
- if (iro_Call == op) { /* CALL */
+ if (op_Call == op) { /* CALL */
entity *ent = NULL;
ir_node *ptr = get_Call_ptr (node);
/* CALL SEL */
- if (iro_Sel == get_irn_opcode (ptr)) {
+ if (op_Sel == get_irn_op(ptr)) {
+ lset_t *graphs;
ent = get_Sel_entity (ptr);
- lset_t *graphs = get_implementing_graphs (ent, ptr);
+ graphs = get_implementing_graphs (ent, ptr);
append_calls (graph_info, node, graphs);
- } else if (iro_SymConst == get_irn_opcode (ptr)) {
+ } else if (op_SymConst == get_irn_op(ptr)) {
if (get_SymConst_kind (ptr) == symconst_addr_ent) {
+ ir_graph *graph;
ent = get_SymConst_entity (ptr);
- ir_graph *graph = get_entity_irg (ent);
+ graph = get_entity_irg (ent);
if (graph) {
append_call (graph_info, node, graph);
DDMN (ptr);
assert (0 && "Unexpected address expression");
}
- } else if (iro_Alloc == op) {
+ } else if (op_Alloc == op) {
type *tp = get_Alloc_type (node);
/* const char *name = get_type_name (tp); */
/* count how many ctxs we have per graph */
if (0 == ginfo->ecg_seen) {
+ call_info_t *cinfo = ginfo->calls;
ginfo->ecg_seen = 1;
- call_info_t *cinfo = ginfo->calls;
while (NULL != cinfo) {
callEd_info_t *ced = cinfo->callEds;
/* enter a new ctx for all callEds along the call edges of this graph */
if (0 == ginfo->ecg_seen) {
- ginfo->ecg_seen = 1;
call_info_t *cinfo = ginfo->calls;
+ ginfo->ecg_seen = 1;
while (NULL != cinfo) {
callEd_info_t *ced = cinfo->callEds;
*/
static void ecg_fill_ctxs (void)
{
+ ctx_info_t *main_ctx;
+ ir_graph *main_irg;
+ graph_info_t *ginfo;
+
ecg_fill_ctxs_count (get_irp_main_irg ());
ecg_fill_ctxs_alloc ();
- ctx_info_t *main_ctx = new_ctx (get_irp_main_irg (), NULL, NULL);
- ir_graph *main_irg = get_irp_main_irg ();
+ main_ctx = new_ctx (get_irp_main_irg (), NULL, NULL);
+ main_irg = get_irp_main_irg ();
set_main_ctx (main_ctx);
/* Grrr, have to add this ctx manually to main.ginfo ... */
- graph_info_t *ginfo = ecg_get_info (main_irg);
+ ginfo = ecg_get_info (main_irg);
ginfo->n_ctxs = 1;
- ginfo->ctxs = (ctx_info_t **) xmalloc (1 * sizeof (ctx_info_t*));
+ ginfo->ctxs = xmalloc (1 * sizeof (ctx_info_t*));
ginfo->ctxs [0] = main_ctx;
ecg_fill_ctxs_write (main_irg, main_ctx);
*/
void ecg_print_ctx (ctx_info_t *ctx, FILE *stream)
{
- entity *ent = get_irg_ent (ctx->graph);
+ entity *ent = get_irg_entity(ctx->graph);
ir_node *call = ctx->call;
- const char *ent_name = (char*) get_entity_name (ent);
- const char *own_name = (char*) get_type_name (get_entity_owner (ent));
+ const char *ent_name = get_entity_name (ent);
+ const char *own_name = get_type_name (get_entity_owner (ent));
fprintf (stream, "CTX[%i](%s.%s->%s[%li])",
ctx->id, own_name, ent_name,
*/
static int ecg_ecg_graph (FILE *dot, ir_graph *graph)
{
+ int graph_no;
+ call_info_t *cinfo;
+ alloc_info_t *ainfo;
const char *name = get_irg_entity (graph) ?
get_entity_name (get_irg_entity (graph)) : "noEntity";
const char *color =
assert (0L <= _graphs);
- const int graph_no = _graphs ++;
+ graph_no = _graphs ++;
ginfo->ecg_seen = graph_no;
fprintf (dot, "\t/* Graph of \"%s.%s\" */\n",
return (graph_no);
}
- call_info_t *cinfo = ginfo->calls;
+ cinfo = ginfo->calls;
while (NULL != cinfo) {
ir_node *call = cinfo->call;
callEd_info_t *ced = cinfo->callEds;
} /* done all calls (graph) */
/* now the allocs */
- alloc_info_t *ainfo = ecg_get_alloc_info (graph);
+ ainfo = ecg_get_alloc_info (graph);
if (ainfo) {
fprintf (dot, "\t/* now the allocs */\n");
} else {
/* write table of ctxs */
{
- fprintf (dot, "\tctx_%i [label=\"<HEAD>", graph_no);
-
int i;
const int max_ctxs = 30;
const int n_ctxs = (ginfo->n_ctxs > max_ctxs) ? max_ctxs : ginfo->n_ctxs;
+ fprintf (dot, "\tctx_%i [label=\"<HEAD>", graph_no);
+
assert (ginfo->ctxs && "no ctx");
for (i = 0; i < n_ctxs; i ++) {
ctx_info_t *ctx_info = ginfo->ctxs [i];
static void ecg_ecg_count (ir_graph *graph)
{
+ int graph_no;
+ call_info_t *cinfo;
graph_info_t *ginfo = (graph_info_t*) pmap_get (graph_infos, graph);
if (0 != ginfo->ecg_seen) {
}
*/
- const int graph_no = _graphs ++;
+ graph_no = _graphs ++;
ginfo->ecg_seen = graph_no;
fprintf (stdout, "%sMethod \"%s.%s\"\n",
get_type_name (get_entity_owner (get_irg_entity (graph))),
get_entity_name (get_irg_entity (graph)));
- call_info_t *cinfo = ginfo->calls;
+ cinfo = ginfo->calls;
while (NULL != cinfo) {
callEd_info_t *ced = cinfo->callEds;
/**
Clean up our mess.
*/
-void ecg_cleanup ()
+void ecg_cleanup (void)
{
- return;
-
int i;
+ return;
+
for (i = 0; i < get_irp_n_irgs (); i++) {
ir_graph *graph = get_irp_irg (i);
call_info_t *cinfo = info->calls;
while (NULL != cinfo) {
- cinfo->call = NULL;
-
callEd_info_t *ced = cinfo->callEds;
+ cinfo->call = NULL;
+
while (NULL != ced) {
callEd_info_t *nced = ced->prev;
free (ced);
graph_info_t *ginfo = (graph_info_t*) pmap_get (graph_infos, graph);
if (0 != ginfo->n_ctxs) {
+ call_info_t *cinfo;
+ alloc_info_t *ainfo;
+
const char *name = get_irg_entity (graph) ?
get_entity_name (get_irg_entity (graph)) : "noEntity";
(int) graph, oname, name, color);
fprintf (dot, "\n");
- call_info_t *cinfo = ginfo->calls;
+ cinfo = ginfo->calls;
if (cinfo) {
fprintf (dot, "\t/* now the calls */\n");
} else {
}
while (NULL != cinfo) {
+ callEd_info_t *ced;
ir_node *call = cinfo->call;
fprintf (dot, "\t/* call_0x%08x */\n", (int) call);
fprintf (dot, "\tgraph_0x%08x -> call_0x%08x;\n",
(int) graph, (int) call);
- callEd_info_t *ced = cinfo->callEds;
+ ced = cinfo->callEds;
while (NULL != ced) {
fprintf (dot, "\tcall_0x%08x -> graph_0x%08x;\n",
(int) call, (int) ced->callEd);
}
fprintf (dot, "\n");
- alloc_info_t *ainfo = ginfo->allocs;
+ ainfo = ginfo->allocs;
if (ainfo) {
fprintf (dot, "\t/* now the allocs */\n");
} else {
/* ctxs */
{
- fprintf (dot, "\t/* now the ctxs */\n");
- fprintf (dot, "\tctx_0x%08x [label=\"<HEAD>", (void*) graph);
-
int i;
const int max_ctxs = 30;
const int n_ctxs = (ginfo->n_ctxs > max_ctxs) ? max_ctxs : ginfo->n_ctxs;
+ fprintf (dot, "\t/* now the ctxs */\n");
+ fprintf (dot, "\tctx_0x%08x [label=\"<HEAD>", (void*) graph);
+
assert (ginfo->ctxs && "no ctx");
for (i = 0; i < n_ctxs; i ++) {
ctx_info_t *ctx_info = ginfo->ctxs [i];
/**
Experimental: Print the ecg
*/
-void ecg_ecg ()
+void ecg_ecg (void)
{
+ FILE *dot;
+ ir_graph *main_graph = get_irp_main_irg ();
+
_graphs = 0;
_calls = 0;
- ir_graph *main_graph = get_irp_main_irg ();
-
/*
memset (spaces, '.', BUF_SIZE);
spaces [BUF_SIZE-1] = '\0';
_graphs = 0;
_calls = 0;
- FILE *dot = fopen ("ecg.dot", "w");
+ dot = fopen ("ecg.dot", "w");
fprintf (dot, "digraph \"ecg\" {\n");
fprintf (dot, "\tgraph [rankdir=\"LR\", ordering=\"out\", size=\"11, 7\", rotate=\"90\", ratio=\"fill\"];\n");
/*
$Log$
+ Revision 1.13 2004/12/21 14:21:16 beck
+ removed C99 constructs
+
Revision 1.12 2004/12/20 17:34:34 liekweg
fix recursion handling