quakeforge/tools/qfcc/source/dot_expr.c

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/*
dot_expr.c
"emit" expressions to dot (graphvis).
Copyright (C) 2011 Bill Currie <bill@taniwha.org>
Author: Bill Currie <bill@taniwha.org>
Date: 2011/01/20
This program is free software; you can redistribute it and/or
modify it under the terms of the GNU General Public License
as published by the Free Software Foundation; either version 2
of the License, or (at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
See the GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to:
Free Software Foundation, Inc.
59 Temple Place - Suite 330
Boston, MA 02111-1307, USA
*/
#ifdef HAVE_CONFIG_H
# include "config.h"
#endif
#ifdef HAVE_STRING_H
# include <string.h>
#endif
#ifdef HAVE_STRINGS_H
# include <strings.h>
#endif
#include <stdlib.h>
#include <QF/dstring.h>
#include <QF/mathlib.h>
#include <QF/quakeio.h>
#include <QF/va.h>
#include "qfalloca.h"
#include "tools/qfcc/include/expr.h"
#include "tools/qfcc/include/symtab.h"
#include "tools/qfcc/include/type.h"
#include "tools/qfcc/include/strpool.h"
#include "tools/qfcc/source/qc-parse.h"
const char *expr_names[] =
{
"error",
"state",
"bool",
"label",
"labelref",
"block",
"expr",
"uexpr",
"def",
"symbol",
"temp",
"vector",
"nil",
"value",
"compound",
"memset",
};
const char *
get_op_string (int op)
{
switch (op) {
case OR: return "||";
case AND: return "&&";
case EQ: return "==";
case NE: return "!=";
case LE: return "<=";
case GE: return ">=";
case LT: return "<";
case GT: return ">";
case '=': return "=";
case '+': return "+";
case '-': return "-";
case '*': return "*";
case '/': return "/";
case '%': return "%";
case MOD: return "%%";
case '&': return "&";
case '|': return "|";
case '^': return "^";
case '~': return "~";
case '!': return "!";
case SHL: return "<<";
case SHR: return ">>";
case '.': return ".";
case 'i': return "<if>";
case 'n': return "<ifnot>";
case IFBE: return "<ifbe>";
case IFB: return "<ifb>";
case IFAE: return "<ifae>";
case IFA: return "<ifa>";
case 'g': return "<goto>";
case 'r': return "<return>";
case 's': return "<state>";
case 'c': return "<call>";
case 'A': return "<alias>";
case 'C': return "<cast>";
case 'M': return "<move>";
case 'm': return "<move>";
default:
return "unknown";
}
}
typedef void (*print_f) (dstring_t *dstr, expr_t *, int, int, expr_t *);
static void _print_expr (dstring_t *dstr, expr_t *e, int level, int id,
expr_t *next);
static void
print_error (dstring_t *dstr, expr_t *e, int level, int id, expr_t *next)
{
int indent = level * 2 + 2;
dasprintf (dstr, "%*se_%p [label=\"(error)\\n%d\"];\n", indent, "", e,
e->line);
}
static void
print_state (dstring_t *dstr, expr_t *e, int level, int id, expr_t *next)
{
int indent = level * 2 + 2;
_print_expr (dstr, e->e.state.frame, level, id, next);
_print_expr (dstr, e->e.state.think, level, id, next);
if (e->e.state.step)
_print_expr (dstr, e->e.state.step, level, id, next);
dasprintf (dstr, "%*se_%p:f -> \"e_%p\";\n", indent, "", e,
e->e.state.frame);
dasprintf (dstr, "%*se_%p:t -> \"e_%p\";\n", indent, "", e,
e->e.state.think);
if (e->e.state.step)
dasprintf (dstr, "%*se_%p:s -> e_%p;\n", indent, "", e,
e->e.state.step);
dasprintf (dstr,
"%*se_%p [label=\"<f>state|<t>think|<s>step\",shape=record];\n",
indent, "", e);
}
static void
print_bool (dstring_t *dstr, expr_t *e, int level, int id, expr_t *next)
{
int indent = level * 2 + 2;
int i, count;
int tl_count = 0, fl_count = 0;
ex_bool_t *bool = &e->e.bool;
dasprintf (dstr, "%*se_%p [shape=none,label=<\n", indent, "", e);
dasprintf (dstr, "%*s<table border=\"0\" cellborder=\"1\" "
"cellspacing=\"0\">\n",
indent + 2, "");
dasprintf (dstr, "%*s<tr><td colspan=\"2\">&lt;bool&gt;(%d)</td></tr>\n",
indent + 4, "", e->line);
dasprintf (dstr, "%*s<tr><td>true</td><td>false</td></tr>\n",
indent + 4, "");
if (bool->true_list)
tl_count = bool->true_list->size;
if (bool->false_list)
fl_count = bool->false_list->size;
count = min (tl_count, fl_count);
for (i = 0; i < count; i++)
dasprintf (dstr, "%*s<tr><td port=\"t%d\">t</td>"
"<td port=\"f%d\">f</td></tr>\n", indent, "", i, i);
for ( ; i < tl_count; i++)
dasprintf (dstr, "%*s<tr><td port=\"t%d\">t</td>%s</tr>\n",
indent, "", i,
i == count ? va (0, "<td rowspan=\"%d\"></td>",
bool->true_list->size - count)
: "");
for ( ; i < fl_count; i++)
dasprintf (dstr, "%*s<tr>%s<td port=\"f%d\">f</td></tr>\n",
indent, "",
i == count ? va (0, "<td rowspan=\"%d\"></td>",
bool->false_list->size - count)
: "",
i);
dasprintf (dstr, "%*s</table>\n", indent + 2, "");
dasprintf (dstr, "%*s>];\n", indent, "");
if (e->next)
next = e->next;
_print_expr (dstr, e->e.bool.e, level, id, next);
for (i = 0; i < tl_count; i++)
dasprintf (dstr, "%*se_%p:t%d -> e_%p;\n", indent, "", e, i,
bool->true_list->e[i]);
for (i = 0; i < fl_count; i++)
dasprintf (dstr, "%*se_%p:f%d -> e_%p;\n", indent, "", e, i,
bool->false_list->e[i]);
dasprintf (dstr, "%*se_%p -> e_%p;\n", indent, "", e, e->e.bool.e);
}
static void
print_label (dstring_t *dstr, expr_t *e, int level, int id, expr_t *next)
{
int indent = level * 2 + 2;
if (e->next)
next = e->next;
if (next)
dasprintf (dstr, "%*se_%p -> e_%p [constraint=true,style=dashed];\n",
indent, "", e, next);
dasprintf (dstr, "%*se_%p [label=\"%s\\n%d\"];\n", indent, "", e,
e->e.label.name, e->line);
}
static void
print_labelref (dstring_t *dstr, expr_t *e, int level, int id, expr_t *next)
{
int indent = level * 2 + 2;
if (e->next)
next = e->next;
if (next)
dasprintf (dstr, "%*se_%p -> e_%p [constraint=true,style=dashed];\n",
indent, "", e, e->next);
dasprintf (dstr, "%*se_%p [label=\"&%s\\n%d\"];\n", indent, "", e,
e->e.label.name, e->line);
}
static void
print_block (dstring_t *dstr, expr_t *e, int level, int id, expr_t *next)
{
int indent = level * 2 + 2;
int i;
expr_t *se;
dasprintf (dstr, "%*se_%p [shape=none,label=<\n", indent, "", e);
dasprintf (dstr, "%*s<table border=\"0\" cellborder=\"1\" "
"cellspacing=\"0\">\n", indent + 2, "");
dasprintf (dstr, "%*s<tr><td colspan=\"2\">&lt;block&gt;(%d)%s</td>"
"</tr>\n", indent + 4, "", e->line,
e->e.block.is_call ? "c" : "");
if (e->e.block.result)
dasprintf (dstr, "%*s<tr><td colspan=\"2\" port=\"result\">=</td>"
"</tr>\n", indent + 4, "");
for (se = e->e.block.head, i = 0; se; se = se->next, i++)
dasprintf (dstr, "%*s<tr><td>%d</td><td port=\"b%d\">%s</td></tr>\n",
indent + 4, "", se->line, i, expr_names[se->type]);
dasprintf (dstr, "%*s</table>\n", indent + 2, "");
dasprintf (dstr, "%*s>];\n", indent, "");
if (e->e.block.result) {
_print_expr (dstr, e->e.block.result, level + 1, id, next);
dasprintf (dstr, "%*se_%p:result -> e_%p;\n", indent, "", e,
e->e.block.result);
}
if (e->next)
next = e->next;
for (se = e->e.block.head, i = 0; se; se = se->next, i++) {
_print_expr (dstr, se, level + 1, id, next);
dasprintf (dstr, "%*se_%p:b%d -> e_%p;\n", indent, "", e,
i, se);
}
}
static void
print_call (dstring_t *dstr, expr_t *e, int level, int id, expr_t *next)
{
int indent = level * 2 + 2;
expr_t *p;
int i, count;
expr_t **args;
for (count = 0, p = e->e.expr.e2; p; p = p->next)
count++;
args = alloca (count * sizeof (expr_t *));
for (i = 0, p = e->e.expr.e2; p; p = p->next, i++)
args[count - 1 - i] = p;
_print_expr (dstr, e->e.expr.e1, level, id, next);
dasprintf (dstr, "%*se_%p [label=\"<c>call", indent, "", e);
for (i = 0; i < count; i++)
dasprintf (dstr, "|<p%d>p%d", i, i);
dasprintf (dstr, "\",shape=record];\n");
for (i = 0; i < count; i++) {
_print_expr (dstr, args[i], level + 1, id, next);
dasprintf (dstr, "%*se_%p:p%d -> e_%p;\n", indent + 2, "", e, i,
args[i]);
}
dasprintf (dstr, "%*se_%p:c -> e_%p;\n", indent, "", e, e->e.expr.e1);
}
static void
print_subexpr (dstring_t *dstr, expr_t *e, int level, int id, expr_t *next)
{
int indent = level * 2 + 2;
if (e->e.expr.op == 'c') {
print_call (dstr, e, level, id, next);
return;
} else if (e->e.expr.op == 'i' || e->e.expr.op == 'n'
|| e->e.expr.op == IFB || e->e.expr.op ==IFBE
|| e->e.expr.op == IFA || e->e.expr.op ==IFAE) {
_print_expr (dstr, e->e.expr.e1, level, id, next);
dasprintf (dstr, "%*se_%p -> \"e_%p\" [label=\"t\"];\n", indent, "", e,
e->e.expr.e1);
dasprintf (dstr, "%*se_%p -> \"e_%p\" [label=\"g\"];\n", indent, "", e,
e->e.expr.e2);
if (e->next)
next = e->next;
if (next)
dasprintf (dstr, "%*se_%p -> e_%p [constraint=true,"
"style=dashed];\n", indent, "", e, next);
} else {
_print_expr (dstr, e->e.expr.e1, level, id, next);
_print_expr (dstr, e->e.expr.e2, level, id, next);
dasprintf (dstr, "%*se_%p -> \"e_%p\" [label=\"l\"];\n", indent, "", e,
e->e.expr.e1);
dasprintf (dstr, "%*se_%p -> \"e_%p\" [label=\"r\"];\n", indent, "", e,
e->e.expr.e2);
}
if (e->e.expr.op == 'A') {
dstring_t *typestr = dstring_newstr();
print_type_str (typestr, e->e.expr.type);
dasprintf (dstr, "%*se_%p [label=\"%s (%s)\\n%d\"];\n", indent, "", e,
get_op_string (e->e.expr.op), typestr->str, e->line);
dstring_delete (typestr);
} else {
dasprintf (dstr, "%*se_%p [label=\"%s\\n%d\"];\n", indent, "", e,
get_op_string (e->e.expr.op), e->line);
}
}
static void
print_uexpr (dstring_t *dstr, expr_t *e, int level, int id, expr_t *next)
{
int indent = level * 2 + 2;
dstring_t *typestr = dstring_newstr();
if (e->e.expr.op != 'g' && e->e.expr.e1)
_print_expr (dstr, e->e.expr.e1, level, id, next);
if (e->e.expr.op == 'A') {
dstring_copystr (typestr, "\\n");
print_type_str (typestr, e->e.expr.type);
}
if (e->e.expr.op != 'r' || e->e.expr.e1)
dasprintf (dstr, "%*se_%p -> \"e_%p\";\n", indent, "", e,
e->e.expr.e1);
dasprintf (dstr, "%*se_%p [label=\"%s%s\\n%d\"];\n", indent, "", e,
get_op_string (e->e.expr.op), typestr->str, e->line);
dstring_delete (typestr);
}
static void
print_def (dstring_t *dstr, expr_t *e, int level, int id, expr_t *next)
{
int indent = level * 2 + 2;
dasprintf (dstr, "%*se_%p [label=\"d %s\\n%d\"];\n", indent, "", e,
e->e.def->name, e->line);
}
static void
print_symbol (dstring_t *dstr, expr_t *e, int level, int id, expr_t *next)
{
int indent = level * 2 + 2;
dasprintf (dstr, "%*se_%p [label=\"%s\\n%d\"];\n", indent, "", e,
e->e.symbol->name, e->line);
}
static void
print_temp (dstring_t *dstr, expr_t *e, int level, int id, expr_t *next)
{
int indent = level * 2 + 2;
dasprintf (dstr, "%*se_%p [label=\"tmp_%p\\n%d\"];\n", indent, "", e, e,
e->line);
}
static void
print_vector (dstring_t *dstr, expr_t *e, int level, int id, expr_t *next)
{
int indent = level * 2 + 2;
if (is_vector(e->e.vector.type)) {
expr_t *x = e->e.vector.list;
expr_t *y = x->next;
expr_t *z = y->next;
_print_expr (dstr, x, level, id, next);
_print_expr (dstr, y, level, id, next);
_print_expr (dstr, z, level, id, next);
dasprintf (dstr, "%*se_%p -> \"e_%p\";\n", indent, "", e, x);
dasprintf (dstr, "%*se_%p -> \"e_%p\";\n", indent, "", e, y);
dasprintf (dstr, "%*se_%p -> \"e_%p\";\n", indent, "", e, z);
}
if (is_quaternion(e->e.vector.type)) {
if (e->e.vector.list->next->next) {
expr_t *x = e->e.vector.list;
expr_t *y = x->next;
expr_t *z = y->next;
expr_t *w = z->next;
_print_expr (dstr, x, level, id, next);
_print_expr (dstr, y, level, id, next);
_print_expr (dstr, z, level, id, next);
_print_expr (dstr, w, level, id, next);
dasprintf (dstr, "%*se_%p -> \"e_%p\";\n", indent, "", e, x);
dasprintf (dstr, "%*se_%p -> \"e_%p\";\n", indent, "", e, y);
dasprintf (dstr, "%*se_%p -> \"e_%p\";\n", indent, "", e, z);
dasprintf (dstr, "%*se_%p -> \"e_%p\";\n", indent, "", e, w);
} else {
expr_t *v = e->e.vector.list;
expr_t *s = v->next;
_print_expr (dstr, v, level, id, next);
_print_expr (dstr, s, level, id, next);
dasprintf (dstr, "%*se_%p -> \"e_%p\";\n", indent, "", e, v);
dasprintf (dstr, "%*se_%p -> \"e_%p\";\n", indent, "", e, s);
}
}
dasprintf (dstr, "%*se_%p [label=\"vector %d\"];\n", indent, "", e,
e->line);
}
static void
print_nil (dstring_t *dstr, expr_t *e, int level, int id, expr_t *next)
{
int indent = level * 2 + 2;
dasprintf (dstr, "%*se_%p [label=\"nil\\n%d\"];\n", indent, "", e,
e->line);
}
static void
print_value (dstring_t *dstr, expr_t *e, int level, int id, expr_t *next)
{
int indent = level * 2 + 2;
type_t *type;
const char *label = "?!?";
static dstring_t *type_str;
if (!type_str) {
type_str = dstring_newstr ();
}
switch (e->e.value->lltype) {
case ev_string:
label = va (0, "\\\"%s\\\"",
quote_string (e->e.value->v.string_val));
break;
case ev_double:
label = va (0, "f %g", e->e.value->v.double_val);
break;
case ev_float:
label = va (0, "f %g", e->e.value->v.float_val);
break;
case ev_vector:
label = va (0, "'%g %g %g'",
e->e.value->v.vector_val[0],
e->e.value->v.vector_val[1],
e->e.value->v.vector_val[2]);
break;
case ev_quat:
label = va (0, "'%g %g %g %g'",
e->e.value->v.quaternion_val[0],
e->e.value->v.quaternion_val[1],
e->e.value->v.quaternion_val[2],
e->e.value->v.quaternion_val[3]);
break;
case ev_pointer:
type = e->e.value->v.pointer.type;
dstring_clearstr(type_str);
if (type) {
print_type_str (type_str, type);
}
if (e->e.value->v.pointer.def)
label = va (0, "(*%s)[%d]<%s>",
type ? type_str->str : "???",
e->e.value->v.pointer.val,
e->e.value->v.pointer.def->name);
else
label = va (0, "(*%s)[%d]",
type ? type_str->str : "???",
e->e.value->v.pointer.val);
break;
case ev_field:
label = va (0, "field %d", e->e.value->v.pointer.val);
break;
case ev_entity:
label = va (0, "ent %d", e->e.value->v.integer_val);
break;
case ev_func:
label = va (0, "func %d", e->e.value->v.integer_val);
break;
case ev_integer:
label = va (0, "i %d", e->e.value->v.integer_val);
break;
case ev_uinteger:
label = va (0, "u %u", e->e.value->v.uinteger_val);
break;
case ev_short:
label = va (0, "s %d", e->e.value->v.short_val);
break;
case ev_void:
label = "<void>";
break;
case ev_invalid:
label = "<invalid>";
break;
case ev_type_count:
label = "<type_count>";
break;
}
dasprintf (dstr, "%*se_%p [label=\"%s\\n%d\"];\n", indent, "", e, label,
e->line);
}
static void
print_compound (dstring_t *dstr, expr_t *e, int level, int id, expr_t *next)
{
int indent = level * 2 + 2;
dasprintf (dstr, "%*se_%p [label=\"compound init\"];\n", indent, "", e);
}
static void
print_memset (dstring_t *dstr, expr_t *e, int level, int id, expr_t *next)
{
int indent = level * 2 + 2;
expr_t *dst = e->e.memset.dst;
expr_t *val = e->e.memset.val;
expr_t *count = e->e.memset.count;
_print_expr (dstr, dst, level, id, next);
_print_expr (dstr, val, level, id, next);
_print_expr (dstr, count, level, id, next);
dasprintf (dstr, "%*se_%p -> \"e_%p\";\n", indent, "", e, dst);
dasprintf (dstr, "%*se_%p -> \"e_%p\";\n", indent, "", e, val);
dasprintf (dstr, "%*se_%p -> \"e_%p\";\n", indent, "", e, count);
dasprintf (dstr, "%*se_%p [label=\"memset\"];\n", indent, "", e);
}
static void
_print_expr (dstring_t *dstr, expr_t *e, int level, int id, expr_t *next)
{
static print_f print_funcs[ex_count] = {
[ex_error] = print_error,
[ex_state] = print_state,
[ex_bool] = print_bool,
[ex_label] = print_label,
[ex_labelref] = print_labelref,
[ex_block] = print_block,
[ex_expr] = print_subexpr,
[ex_uexpr] = print_uexpr,
[ex_def] = print_def,
[ex_symbol] = print_symbol,
[ex_temp] = print_temp,
[ex_vector] = print_vector,
[ex_nil] = print_nil,
[ex_value] = print_value,
[ex_compound] = print_compound,
[ex_memset] = print_memset,
};
int indent = level * 2 + 2;
if (!e) {
dasprintf (dstr, "%*s\"e_%p\" [label=\"(null)\"];\n", indent, "", e);
return;
}
if (e->printid == id) // already printed this expression
return;
e->printid = id;
if ((int) e->type < 0 || e->type > ex_memset || !print_funcs[e->type]) {
dasprintf (dstr, "%*se_%p [label=\"(bad expr type)\\n%d\"];\n",
indent, "", e, e->line);
return;
}
print_funcs[e->type] (dstr, e, level, id, next);
}
void
dump_dot_expr (void *_e, const char *filename)
{
static int id = 0;
dstring_t *dstr = dstring_newstr ();
expr_t *e = (expr_t *) _e;
dasprintf (dstr, "digraph expr_%p {\n", e);
dasprintf (dstr, " graph [label=\"%s\"];\n", quote_string (filename));
dasprintf (dstr, " layout=dot; rankdir=TB; compound=true;\n");
_print_expr (dstr, e, 0, ++id, 0);
dasprintf (dstr, "}\n");
if (filename) {
QFile *file;
file = Qopen (filename, "wt");
Qwrite (file, dstr->str, dstr->size - 1);
Qclose (file);
} else {
fputs (dstr->str, stdout);
}
dstring_delete (dstr);
}
void
print_expr (expr_t *e)
{
dump_dot_expr (e, 0);
}