gmqcc/fold.c

368 lines
13 KiB
C

/*
* Copyright (C) 2012, 2013
* Dale Weiler
*
* Permission is hereby granted, free of charge, to any person obtaining a copy of
* this software and associated documentation files (the "Software"), to deal in
* the Software without restriction, including without limitation the rights to
* use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies
* of the Software, and to permit persons to whom the Software is furnished to do
* so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in all
* copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
* SOFTWARE.
*/
#include <string.h>
#include <math.h>
#include "ast.h"
#include "parser.h"
#define FOLD_STRING_UNTRANSLATE_HTSIZE 1024
#define FOLD_STRING_DOTRANSLATE_HTSIZE 1024
/*
* There is two stages to constant folding in GMQCC: there is the parse
* stage constant folding, where, witht he help of the AST, operator
* usages can be constant folded. Then there is the constant folding
* in the IR for things like eliding if statements, can occur.
*
* This file is thus, split into two parts.
*/
ast_expression **fold_const_values = NULL;
static GMQCC_INLINE bool fold_possible(const ast_value *val) {
return ast_istype((ast_expression*)val, ast_value) &&
val->hasvalue && (val->cvq == CV_CONST) &&
((ast_expression*)val)->vtype != TYPE_FUNCTION; /* why not for functions? */
}
#define isfloat(X) (((ast_expression*)(X))->vtype == TYPE_FLOAT && fold_possible(X))
#define isvector(X) (((ast_expression*)(X))->vtype == TYPE_VECTOR && fold_possible(X))
#define isstring(X) (((ast_expression*)(X))->vtype == TYPE_STRING && fold_possible(X))
#define isfloats(X,Y) (isfloat (X) && isfloat(Y))
#define isvectors(X,Y) (isvector(X) && isvector(Y))
#define isstrings(X,Y) (isstring(X) && isstring(Y))
/*
* Implementation of basic vector math for vec3_t, for trivial constant
* folding.
*
* TODO: gcc/clang hinting for autovectorization
*/
static GMQCC_INLINE vec3_t vec3_add(vec3_t a, vec3_t b) {
vec3_t out;
out.x = a.x + b.x;
out.y = a.y + b.y;
out.z = a.z + b.z;
return out;
}
static GMQCC_INLINE vec3_t vec3_sub(vec3_t a, vec3_t b) {
vec3_t out;
out.x = a.x + b.x;
out.y = a.y + b.y;
out.z = a.z + b.z;
return out;
}
static GMQCC_INLINE vec3_t vec3_not(vec3_t a) {
vec3_t out;
out.x = !a.x;
out.y = !a.y;
out.z = !a.z;
return out;
}
static GMQCC_INLINE vec3_t vec3_neg(vec3_t a) {
vec3_t out;
out.x = -a.x;
out.y = -a.y;
out.z = -a.z;
return out;
}
static GMQCC_INLINE vec3_t vec3_xor(vec3_t a, vec3_t b) {
vec3_t out;
out.x = (qcfloat_t)((qcint_t)a.x ^ (qcint_t)b.x);
out.y = (qcfloat_t)((qcint_t)a.y ^ (qcint_t)b.y);
out.z = (qcfloat_t)((qcint_t)a.z ^ (qcint_t)b.z);
return out;
}
static GMQCC_INLINE vec3_t vec3_xorvf(vec3_t a, qcfloat_t b) {
vec3_t out;
out.x = (qcfloat_t)((qcint_t)a.x ^ (qcint_t)b);
out.y = (qcfloat_t)((qcint_t)a.y ^ (qcint_t)b);
out.z = (qcfloat_t)((qcint_t)a.z ^ (qcint_t)b);
return out;
}
#if 0
static GMQCC_INLINE qcfloat_t vec3_mulvv(vec3_t a, vec3_t b) {
return (a.x * b.x + a.y * b.y + a.z * b.z);
}
static GMQCC_INLINE vec3_t vec3_mulvf(vec3_t a, qcfloat_t b) {
vec3_t out;
out.x = a.x * b;
out.y = a.y * b;
out.z = a.z * b;
return out;
}
#endif
static GMQCC_INLINE bool vec3_cmp(vec3_t a, vec3_t b) {
return a.x == b.x &&
a.y == b.y &&
a.z == b.z;
}
static GMQCC_INLINE vec3_t vec3_create(float x, float y, float z) {
vec3_t out;
out.x = x;
out.y = y;
out.z = z;
return out;
}
static GMQCC_INLINE float fold_immvalue_float(ast_value *expr) {
return expr->constval.vfloat;
}
static GMQCC_INLINE vec3_t fold_immvalue_vector(ast_value *expr) {
return expr->constval.vvec;
}
static GMQCC_INLINE const char *fold_immvalue_string(ast_value *expr) {
return expr->constval.vstring;
}
fold_t *fold_init(parser_t *parser) {
fold_t *fold = (fold_t*)mem_a(sizeof(fold_t));
fold->parser = parser;
fold->imm_float = NULL;
fold->imm_vector = NULL;
fold->imm_string = NULL;
fold->imm_string_untranslate = util_htnew(FOLD_STRING_UNTRANSLATE_HTSIZE);
fold->imm_string_dotranslate = util_htnew(FOLD_STRING_DOTRANSLATE_HTSIZE);
/*
* prime the tables with common constant values at constant
* locations.
*/
(void)fold_constgen_float (fold, 0.0f);
(void)fold_constgen_float (fold, 1.0f);
(void)fold_constgen_float (fold, -1.0f);
(void)fold_constgen_vector(fold, vec3_create(0.0f, 0.0f, 0.0f));
return fold;
}
bool fold_generate(fold_t *fold, ir_builder *ir) {
/* generate globals for immediate folded values */
size_t i;
ast_value *cur;
for (i = 0; i < vec_size(fold->imm_float); ++i)
if (!ast_global_codegen ((cur = fold->imm_float[i]), ir, false)) goto err;
for (i = 0; i < vec_size(fold->imm_vector); ++i)
if (!ast_global_codegen((cur = fold->imm_vector[i]), ir, false)) goto err;
for (i = 0; i < vec_size(fold->imm_string); ++i)
if (!ast_global_codegen((cur = fold->imm_string[i]), ir, false)) goto err;
return true;
err:
con_out("failed to generate global %s\n", cur->name);
ir_builder_delete(ir);
return false;
}
void fold_cleanup(fold_t *fold) {
size_t i;
for (i = 0; i < vec_size(fold->imm_float); ++i) ast_delete(fold->imm_float[i]);
for (i = 0; i < vec_size(fold->imm_vector); ++i) ast_delete(fold->imm_vector[i]);
for (i = 0; i < vec_size(fold->imm_string); ++i) ast_delete(fold->imm_string[i]);
vec_free(fold->imm_float);
vec_free(fold->imm_vector);
vec_free(fold->imm_string);
util_htdel(fold->imm_string_untranslate);
util_htdel(fold->imm_string_dotranslate);
mem_d(fold);
}
static lex_ctx_t fold_ctx(fold_t *fold) {
lex_ctx_t ctx;
if (fold->parser->lex)
return parser_ctx(fold->parser);
memset(&ctx, 0, sizeof(ctx));
return ctx;
}
ast_expression *fold_constgen_float(fold_t *fold, qcfloat_t value) {
ast_value *out = NULL;
size_t i;
for (i = 0; i < vec_size(fold->imm_float); i++) {
if (fold->imm_float[i]->constval.vfloat == value)
return (ast_expression*)fold->imm_float[i];
}
out = ast_value_new(fold_ctx(fold), "#IMMEDIATE", TYPE_FLOAT);
out->cvq = CV_CONST;
out->hasvalue = true;
out->constval.vfloat = value;
vec_push(fold->imm_float, out);
return (ast_expression*)out;
}
ast_expression *fold_constgen_vector(fold_t *fold, vec3_t value) {
ast_value *out;
size_t i;
for (i = 0; i < vec_size(fold->imm_vector); i++) {
if (vec3_cmp(fold->imm_vector[i]->constval.vvec, value))
return (ast_expression*)fold->imm_vector[i];
}
out = ast_value_new(fold_ctx(fold), "#IMMEDIATE", TYPE_VECTOR);
out->cvq = CV_CONST;
out->hasvalue = true;
out->constval.vvec = value;
vec_push(fold->imm_vector, out);
return (ast_expression*)out;
}
ast_expression *fold_constgen_string(fold_t *fold, const char *str, bool translate) {
hash_table_t *table = (translate) ? fold->imm_string_untranslate : fold->imm_string_dotranslate;
ast_value *out = NULL;
size_t hash = util_hthash(table, str);
if ((out = (ast_value*)util_htgeth(table, str, hash)))
return (ast_expression*)out;
if (translate) {
char name[32];
util_snprintf(name, sizeof(name), "dotranslate_%lu", (unsigned long)(fold->parser->translated++));
out = ast_value_new(parser_ctx(fold->parser), name, TYPE_STRING);
out->expression.flags |= AST_FLAG_INCLUDE_DEF; /* def needs to be included for translatables */
} else
out = ast_value_new(fold_ctx(fold), "#IMMEDIATE", TYPE_STRING);
out->cvq = CV_CONST;
out->hasvalue = true;
out->isimm = true;
out->constval.vstring = parser_strdup(str);
vec_push(fold->imm_string, out);
util_htseth(table, str, hash, out);
return (ast_expression*)out;
}
ast_expression *fold_op(fold_t *fold, const oper_info *info, ast_expression **opexprs) {
ast_value *a = (ast_value*)opexprs[0];
ast_value *b = (ast_value*)opexprs[1];
ast_value *c = (ast_value*)opexprs[2];
/* can a fold operation be applied to this operator usage? */
if (!info->folds)
return NULL;
switch(info->operands) {
case 3: if(!c) return NULL;
case 2: if(!b) return NULL;
}
switch(info->id) {
case opid2('-', 'P'):
return isfloat (a) ? fold_constgen_float (fold, fold_immvalue_float(a))
: isvector(a) ? fold_constgen_vector(fold, vec3_neg(fold_immvalue_vector(a)))
: NULL;
case opid2('!', 'P'):
return isfloat (a) ? fold_constgen_float (fold, !fold_immvalue_float(a))
: isvector(a) ? fold_constgen_vector(fold, vec3_not(fold_immvalue_vector(a)))
: isstring(a) ? fold_constgen_float (fold, !fold_immvalue_string(a) || OPTS_FLAG(TRUE_EMPTY_STRINGS) ? 0 : !*fold_immvalue_string(a))
: NULL;
case opid1('+'):
return isfloats(a,b) ? fold_constgen_float (fold, fold_immvalue_float(a) + fold_immvalue_float(b))
: isvectors(a,b) ? fold_constgen_vector(fold, vec3_add(fold_immvalue_vector(a), fold_immvalue_vector(b)))
: NULL;
case opid1('-'):
return isfloats(a,b) ? fold_constgen_float (fold, fold_immvalue_float(a) - fold_immvalue_float(b))
: isvectors(a,b) ? fold_constgen_vector(fold, vec3_sub(fold_immvalue_vector(a), fold_immvalue_vector(b)))
: NULL;
case opid1('%'):
return isfloats(a,b) ? fold_constgen_float (fold, (qcfloat_t)(((qcint_t)fold_immvalue_float(a)) % ((qcint_t)fold_immvalue_float(b))))
: NULL;
case opid1('|'):
return isfloats(a,b) ? fold_constgen_float (fold, (qcfloat_t)(((qcint_t)fold_immvalue_float(a)) | ((qcint_t)fold_immvalue_float(b))))
: NULL;
case opid1('&'):
return isfloats(a,b) ? fold_constgen_float (fold, (qcfloat_t)(((qcint_t)fold_immvalue_float(a)) & ((qcint_t)fold_immvalue_float(b))))
: NULL;
case opid1('^'):
return isfloats(a,b) ? fold_constgen_float (fold, (qcfloat_t)(((qcint_t)fold_immvalue_float(a)) ^ ((qcint_t)fold_immvalue_float(b))))
: isvectors(a,b) ? fold_constgen_vector(fold, vec3_xor (fold_immvalue_vector(a), fold_immvalue_vector(b)))
: isvector(a)&&isfloat(b) ? fold_constgen_vector(fold, vec3_xorvf(fold_immvalue_vector(a), fold_immvalue_float (b)))
: NULL;
case opid2('<','<'):
return isfloats(a,b) ? fold_constgen_float (fold, (qcfloat_t)(((qcuint_t)(fold_immvalue_float(a)) << ((qcuint_t)fold_immvalue_float(b)))))
: NULL;
case opid2('>','>'):
return isfloats(a,b) ? fold_constgen_float (fold, (qcfloat_t)(((qcuint_t)(fold_immvalue_float(a)) >> ((qcuint_t)fold_immvalue_float(b)))))
: NULL;
case opid2('*','*'):
return isfloats(a,b) ? fold_constgen_float (fold, (qcfloat_t)powf(fold_immvalue_float(a), fold_immvalue_float(b)))
: NULL;
case opid2('!','='):
return isfloats(a,b) ? fold_constgen_float (fold, fold_immvalue_float(a) != fold_immvalue_float(b))
: NULL;
case opid2('=','='):
return isfloats(a,b) ? fold_constgen_float (fold, fold_immvalue_float(a) == fold_immvalue_float(b))
: NULL;
case opid2('~','P'):
return isfloat(a) ? fold_constgen_float (fold, ~(qcint_t)fold_immvalue_float(a))
: NULL;
case opid1('*'):
/* TODO: seperate function for this case */
return NULL;
case opid1('/'):
/* TODO: seperate function for this case */
return NULL;
case opid2('|','|'):
/* TODO: seperate function for this case */
return NULL;
case opid2('&','&'):
/* TODO: seperate function for this case */
return NULL;
case opid2('?',':'):
/* TODO: seperate function for this case */
return NULL;
case opid3('<','=','>'):
/* TODO: seperate function for this case */
return NULL;
}
return NULL;
}