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Implemented smart intrinsic / builtin system. When you use trivial math functions like "pow", if they don't exist as a builtin, the compiler will implement its own versions, likewise, if a compiler builtin depends on a function that exists, it will use it, likewise if it doesn't it will implement it. If you explicitally use __builtin_ (prefixed) versions, the compiler again will select the best option it can, be it a combination of both builtins and compiler builtins, all compiler builtins, OR, all builtins (most performant).

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This commit is contained in:
Dale Weiler 2013-03-09 08:53:39 +00:00
parent 9bb586fb5a
commit cbeac3e5f2
3 changed files with 216 additions and 261 deletions
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8
Makefile
View file

@ -219,9 +219,15 @@ fs.o: gmqcc.h opts.def
main.o: gmqcc.h opts.def lexer.h main.o: gmqcc.h opts.def lexer.h
lexer.o: gmqcc.h opts.def lexer.h lexer.o: gmqcc.h opts.def lexer.h
parser.o: gmqcc.h opts.def lexer.h ast.h ir.h parser.o: gmqcc.h opts.def lexer.h ast.h ir.h intrin.h
fs.o: gmqcc.h opts.def fs.o: gmqcc.h opts.def
util.o: gmqcc.h opts.def util.o: gmqcc.h opts.def
conout.o: gmqcc.h opts.def conout.o: gmqcc.h opts.def
fs.o: gmqcc.h opts.def fs.o: gmqcc.h opts.def
util.o: gmqcc.h opts.def
fs.o: gmqcc.h opts.def
conout.o: gmqcc.h opts.def
opts.o: gmqcc.h opts.def
pak.o: gmqcc.h opts.def

193
intrin.c Normal file
View file

@ -0,0 +1,193 @@
/*
* 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 "ast.h"
/*
* Provides all the "intrinsics" / "builtins" for GMQCC. These can do
* a few things, they can provide fall back implementations for math
* functions if the definitions don't exist for some given engine. Or
* then can determine definitions for existing builtins, and simply
* wrap back to them instead. This is like a "portable" intrface that
* is entered when -fintrin is used (causing all existing builtins to
* be ignored by the compiler and instead interface through here.
*/
typedef struct {
ast_expression (*intrin)(parser_t *);
const char *name;
const char *alias;
} intrin_t;
/*
* Some helper macros for generating def, doing ast_value from func, with
* assignment, and a nice aggregate builder for generating the intrinsic
* table at the bottom of this file, and for registering functions and
* globals with the parser (so that they can be codegen'ed)
*/
#define INTRIN_IMP(NAME) \
ast_expression intrin_##NAME (parser_t *parser)
/*
* For intrinsics that are not to take precedence over a builtin, leave
* ALIAS as an empty string.
*/
#define INTRIN_DEF(NAME, ALIAS) \
{ &intrin_##NAME, #NAME, ALIAS }
#define INTRIN_VAL(NAME, FUNC, STYPE, VTYPE) \
do { \
(NAME) = ast_value_new ( \
parser_ctx(parser), \
"__builtin_" #NAME, \
TYPE_FUNCTION \
); \
(NAME)->expression.next = (ast_expression*)ast_value_new ( \
parser_ctx(parser), \
STYPE, \
VTYPE \
); \
(FUNC) = ast_function_new ( \
parser_ctx(parser), \
"__builtin_" #NAME, \
(NAME) \
); \
} while (0)
#define INTRIN_REG(FUNC, VALUE) \
do { \
vec_push(parser->functions, (FUNC)); \
vec_push(parser->globals, (ast_expression*)(VALUE)); \
} while (0)
typedef enum {
QC_FP_NAN,
QC_FP_INFINITE,
QC_FP_ZERO,
QC_FP_SUBNORMAL,
QC_FP_NORMAL
} intrin_fp_t;
#if 0
/*
* Implementation of intrinsics. Each new intrinsic needs to be added
* to the intrinsic table below.
*/
INTRIN_IMP(isnan) {
/*
* float isnan(float x) {
* float y;
*
* y = x;
* return (x != y);
*/
}
INTRIN_IMP(isinf) {
/*
* float isinf(float x) {
* return (x != 0) && (x + x == x);
* }
*/
}
INTRIN_IMP(fpclassify) {
/*
* float __builtin_fpclassify(float x) {
* if (isnan(x)) {
* return QC_FP_NAN;
* }
* if (isinf(x)) {
* return QC_FP_INFINITE;
* }
* if (x == 0.0f) {
* return QC_FP_ZERO;
* }
* return QC_FP_NORMAL;
* }
*/
}
#endif
INTRIN_IMP(exp) {
/*
* float __builtin_exp(float x) {
* return __builtin_pow(QC_M_E, x);
* }
*/
static ast_value *value = NULL;
if (!value) {
ast_call *call = ast_call_new (parser_ctx(parser), intrin_func(parser, "pow"));
ast_value *arg1 = ast_value_new (parser_ctx(parser), "x", TYPE_FLOAT);
ast_block *body = ast_block_new (parser_ctx(parser));
ast_function *func = NULL;
INTRIN_VAL("exp", func, "<float>", TYPE_FLOAT);
/* push arguments for params to call */
vec_push(call->params, (ast_expression*)parser_const_float(parser, QC_M_E));
vec_push(call->params, (ast_expression*)arg1);
/* return pow(QC_M_E, x) */
vec_push(body->exprs,
(ast_expression*)ast_return_new(
parser_ctx(parser),
(ast_expression*)call
)
);
vec_push(value->expressions.param, arg1); /* float x (for param) */
vec_push(func ->blocks, body); /* {{{ body }}} */
INTRIN_REG(func, value);
}
return (ast_expression*)value;
}
#if 0
INTRIN_IMP(exp2) {
/*
* float __builtin_exp2(float x) {
* return __builin_pow(2, x);
* }
*/
}
INTRIN_IMP(expm1) {
/*
* float __builtin_expm1(float x) {
* return __builtin_exp(x) - 1;
* }
*/
}
#endif
intrin_t intrin_intrinsics[] = {
INTRIN_DEF(exp, "exp")
};

276
parser.c
View file

@ -121,10 +121,6 @@ static ast_value* parser_create_array_setter_proto(parser_t *parser, ast_value *
static ast_value* parser_create_array_getter_proto(parser_t *parser, ast_value *array, const ast_expression *elemtype, const char *funcname); static ast_value* parser_create_array_getter_proto(parser_t *parser, ast_value *array, const ast_expression *elemtype, const char *funcname);
static ast_value *parse_typename(parser_t *parser, ast_value **storebase, ast_value *cached_typedef); static ast_value *parse_typename(parser_t *parser, ast_value **storebase, ast_value *cached_typedef);
static ast_expression *parser_builtin_pow(parser_t *);
static ast_expression *parser_builtin_exp(parser_t *);
static ast_expression *parser_builtin_mod(parser_t *);
static void parseerror(parser_t *parser, const char *fmt, ...) static void parseerror(parser_t *parser, const char *fmt, ...)
{ {
va_list ap; va_list ap;
@ -384,6 +380,9 @@ static ast_value* parser_find_typedef(parser_t *parser, const char *name, size_t
return NULL; return NULL;
} }
/* include intrinsics */
#include "intrin.h"
typedef struct typedef struct
{ {
size_t etype; /* 0 = expression, others are operators */ size_t etype; /* 0 = expression, others are operators */
@ -979,7 +978,7 @@ static bool parser_sy_apply_operator(parser_t *parser, shunt *sy)
(float)(((qcint)ConstF(0)) % ((qcint)ConstF(1)))); (float)(((qcint)ConstF(0)) % ((qcint)ConstF(1))));
} else { } else {
/* generate a call to __builtin_mod */ /* generate a call to __builtin_mod */
ast_expression *mod = parser_builtin_mod(parser); ast_expression *mod = intrin_func(parser, "mod");
ast_call *call = NULL; ast_call *call = NULL;
if (!mod) return false; /* can return null for missing floor */ if (!mod) return false; /* can return null for missing floor */
@ -1114,7 +1113,7 @@ static bool parser_sy_apply_operator(parser_t *parser, shunt *sy)
if (CanConstFold(exprs[0], exprs[1])) { if (CanConstFold(exprs[0], exprs[1])) {
out = (ast_expression*)parser_const_float(parser, powf(ConstF(0), ConstF(1))); out = (ast_expression*)parser_const_float(parser, powf(ConstF(0), ConstF(1)));
} else { } else {
ast_call *gencall = ast_call_new(parser_ctx(parser), parser_builtin_pow(parser)); ast_call *gencall = ast_call_new(parser_ctx(parser), intrin_func(parser, "pow"));
vec_push(gencall->params, exprs[0]); vec_push(gencall->params, exprs[0]);
vec_push(gencall->params, exprs[1]); vec_push(gencall->params, exprs[1]);
out = (ast_expression*)gencall; out = (ast_expression*)gencall;
@ -1881,12 +1880,15 @@ static bool parse_sya_operand(parser_t *parser, shunt *sy, bool with_labels)
if (!strcmp(parser_tokval(parser), "__builtin_debug_typestring")) { if (!strcmp(parser_tokval(parser), "__builtin_debug_typestring")) {
var = (ast_expression*)intrinsic_debug_typestring; var = (ast_expression*)intrinsic_debug_typestring;
} }
if (!strcmp(parser_tokval(parser), "__builtin_pow")) /* now we try for the real intrinsic hashtable. If the string
var = parser_builtin_pow(parser); * begins with __builtin, we simply skip past it, otherwise we
if (!strcmp(parser_tokval(parser), "__builtin_exp")) * use the identifier as is.
var = parser_builtin_exp(parser); */
if (!strcmp(parser_tokval(parser), "__builtin_mod")) else if (!strncmp(parser_tokval(parser), "__builtin_", 10)) {
var = parser_builtin_mod(parser); var = intrin_func(parser, parser_tokval(parser) + 10 /* skip __builtin */);
} else {
var = intrin_func(parser, parser_tokval(parser));
}
if (!var) { if (!var) {
char *correct = NULL; char *correct = NULL;
@ -3351,254 +3353,6 @@ static bool parse_switch_go(parser_t *parser, ast_block *block, ast_expression *
return true; return true;
} }
ast_expression *parser_builtin_pow(parser_t *parser) {
/*
* float __builtin_pow(float x, float y) {
* float value = 1.0f;
* while (y > 0) {
* while (!(y&1)) {
* y *= 0.25f;
* x *= x;
* }
* y--;
* value *= x;
* }
* return value;
* }
*/
static ast_function *pow_func = NULL;
static ast_value *pow_func_val = NULL;
if (!pow_func) {
ast_value *pow_arguments[2];
ast_value *pow_value = ast_value_new (parser_ctx(parser), "value", TYPE_FLOAT);
ast_block *pow_body = ast_block_new (parser_ctx(parser));
ast_block *pow_loop_body = ast_block_new (parser_ctx(parser));
ast_block *pow_loop_nest_body = ast_block_new (parser_ctx(parser));
ast_loop *pow_loop = NULL;
ast_loop *pow_loop_nest = NULL;
pow_arguments[0] = ast_value_new (parser_ctx(parser), "x", TYPE_FLOAT);
pow_arguments[1] = ast_value_new (parser_ctx(parser), "x", TYPE_FLOAT);
pow_func_val = ast_value_new (parser_ctx(parser), "__builtin_pow", TYPE_FUNCTION);
pow_func_val->expression.next = (ast_expression*)ast_value_new(parser_ctx(parser), "<float>", TYPE_FLOAT);
vec_push(pow_func_val->expression.params, pow_arguments[0]);
vec_push(pow_func_val->expression.params, pow_arguments[1]);
pow_func = ast_function_new(parser_ctx(parser), "__builtin_pow", pow_func_val);
/* float value; */
vec_push(pow_body->locals, pow_value);
/* value = 1.0f; */
vec_push(pow_body->exprs,
(ast_expression*)ast_store_new(
parser_ctx(parser),
INSTR_STORE_F,
(ast_expression*)pow_value,
(ast_expression*)parser_const_float_1(parser)
)
);
/* y >>= 2 */
vec_push(pow_loop_nest_body->exprs,
(ast_expression*)ast_binstore_new(
parser_ctx(parser),
INSTR_STORE_F,
INSTR_MUL_F,
(ast_expression*)pow_arguments[1],
(ast_expression*)parser_const_float(parser, 0.25f)
)
);
vec_push(pow_loop_nest_body->exprs,
(ast_expression*)ast_binstore_new(
parser_ctx(parser),
INSTR_STORE_F,
INSTR_MUL_F,
(ast_expression*)pow_arguments[0],
(ast_expression*)pow_arguments[0]
)
);
/* while (!(y&1)) */
pow_loop_nest = ast_loop_new (
parser_ctx(parser),
NULL,
(ast_expression*)ast_binary_new(
parser_ctx(parser),
INSTR_AND,
(ast_expression*)pow_arguments[1],
(ast_expression*)parser_const_float_1(parser)
),
true,
NULL,
false,
NULL,
(ast_expression*)pow_loop_nest_body
);
vec_push(pow_loop_body->exprs, (ast_expression*)pow_loop_nest);
vec_push(pow_loop_body->exprs,
(ast_expression*)ast_binstore_new(
parser_ctx(parser),
INSTR_STORE_F,
INSTR_SUB_F,
(ast_expression*)pow_arguments[1],
(ast_expression*)parser_const_float_1(parser)
)
);
vec_push(pow_loop_body->exprs,
(ast_expression*)ast_binstore_new(
parser_ctx(parser),
INSTR_STORE_F,
INSTR_MUL_F,
(ast_expression*)pow_value,
(ast_expression*)pow_arguments[0]
)
);
/* while (y > 0) { */
pow_loop = ast_loop_new(
parser_ctx(parser),
NULL,
(ast_expression*)ast_binary_new(
parser_ctx(parser),
INSTR_GT,
(ast_expression*)pow_arguments[1],
(ast_expression*)parser_const_float_0(parser)
),
false,
NULL,
false,
NULL,
(ast_expression*)pow_loop_body
);
/* } */
vec_push(pow_body->exprs, (ast_expression*)pow_loop);
/* return value; */
vec_push(pow_body->exprs,
(ast_expression*)ast_return_new(
parser_ctx(parser),
(ast_expression*)pow_value
)
);
vec_push(pow_func->blocks, pow_body);
vec_push(parser->globals, (ast_expression*)pow_func_val);
vec_push(parser->functions, pow_func);
}
return (ast_expression*)pow_func_val;
}
#ifndef M_E
#define M_E 2.71828182845905
#endif
static ast_expression *parser_builtin_exp(parser_t *parser) {
/*
* float __builtin_exp(float x) {
* return __builtin_exp(E, x);
* }
*/
static ast_value *exp_func_val = NULL;
if (!exp_func_val) {
ast_function *exp_func = NULL;
ast_value *arg = ast_value_new (parser_ctx(parser), "x", TYPE_FLOAT);
ast_block *exp_body = ast_block_new (parser_ctx(parser));
ast_call *exp_call = ast_call_new (parser_ctx(parser), parser_builtin_pow(parser));
exp_func_val = ast_value_new (parser_ctx(parser), "__builtin_exp", TYPE_FUNCTION);
exp_func_val->expression.next = (ast_expression*)ast_value_new(parser_ctx(parser), "<float>", TYPE_FLOAT);
exp_func = ast_function_new(parser_ctx(parser), "__builtin_exp", exp_func_val);
vec_push(exp_call->params, (ast_expression*)parser_const_float(parser, M_E));
vec_push(exp_call->params, (ast_expression*)arg);
vec_push(exp_body->exprs,
(ast_expression*)ast_return_new(
parser_ctx(parser),
(ast_expression*)exp_call
)
);
vec_push(exp_func_val->expression.params, arg);
vec_push(exp_func->blocks, exp_body);
vec_push(parser->functions, exp_func);
vec_push(parser->globals, (ast_expression*)exp_func_val);
}
return (ast_expression*)exp_func_val;
}
static ast_expression *parser_builtin_mod(parser_t *parser) {
/*
* float __builtin_mod(float x, float y) {
* return x - y * floor(x / y);
* }
*/
static ast_value *mod_func_val = NULL;
static ast_expression *mod_floor = NULL;
if (!mod_floor) {
if (!(mod_floor = parser_find_global(parser, "floor"))) {
parseerror(parser,
"internal error: no suitable definition found for `floor`"
"(required for `%%` operator and `__builtin_mod` intrinsic)"
);
return NULL;
}
}
if (!mod_func_val) {
ast_value *mod_args[2];
ast_function *mod_func = NULL;
ast_block *mod_body = ast_block_new (parser_ctx(parser));
ast_call *mod_call = ast_call_new (parser_ctx(parser), mod_floor);
mod_func_val = ast_value_new (parser_ctx(parser), "__builtin_mod", TYPE_FUNCTION);
mod_func_val->expression.next = (ast_expression*)ast_value_new(parser_ctx(parser), "<float>", TYPE_FLOAT);
mod_func = ast_function_new(parser_ctx(parser), "__builtin_mod", mod_func_val);
mod_args[0] = ast_value_new (parser_ctx(parser), "x", TYPE_FLOAT);
mod_args[1] = ast_value_new (parser_ctx(parser), "x", TYPE_FLOAT);
/* floor(x/y) */
vec_push(mod_call->params,
(ast_expression*)ast_binary_new(
parser_ctx(parser),
INSTR_DIV_F,
(ast_expression*)mod_args[0],
(ast_expression*)mod_args[1]
)
);
vec_push(mod_body->exprs,
(ast_expression*)ast_return_new(
parser_ctx(parser),
(ast_expression*)ast_binary_new(
parser_ctx(parser),
INSTR_SUB_F,
(ast_expression*)mod_args[0],
(ast_expression*)ast_binary_new(
parser_ctx(parser),
INSTR_MUL_F,
(ast_expression*)mod_args[1],
(ast_expression*)mod_call
)
)
)
);
vec_push(mod_func_val->expression.params, mod_args[0]);
vec_push(mod_func_val->expression.params, mod_args[1]);
vec_push(mod_func->blocks, mod_body);
vec_push(parser->functions, mod_func);
vec_push(parser->globals, (ast_expression*)mod_func_val);
}
return (ast_expression*)mod_func_val;
}
/* parse computed goto sides */ /* parse computed goto sides */
static ast_expression *parse_goto_computed(parser_t *parser, ast_expression **side) { static ast_expression *parse_goto_computed(parser_t *parser, ast_expression **side) {
ast_expression *on_true; ast_expression *on_true;
@ -6339,6 +6093,8 @@ void parser_cleanup()
util_htdel(parser->aliases); util_htdel(parser->aliases);
intrin_intrinsics_destroy();
mem_d(parser); mem_d(parser);
} }