gmqcc/intrin.cpp

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#include <string.h>
#include "parser.h"
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#define intrin_ctx(I) parser_ctx((I)->parser)
static GMQCC_INLINE ast_function *intrin_value(intrin_t *intrin, ast_value **out, const char *name, qcint_t vtype) {
ast_value *value = NULL;
ast_function *func = NULL;
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char buffer[1024];
char stype [1024];
util_snprintf(buffer, sizeof(buffer), "__builtin_%s", name);
util_snprintf(stype, sizeof(stype), "<%s>", type_name[vtype]);
value = ast_value_new(intrin_ctx(intrin), buffer, TYPE_FUNCTION);
value->intrinsic = true;
value->expression.next = (ast_expression*)ast_value_new(intrin_ctx(intrin), stype, vtype);
func = ast_function_new(intrin_ctx(intrin), buffer, value);
value->expression.flags |= AST_FLAG_ERASEABLE;
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*out = value;
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return func;
}
static GMQCC_INLINE void intrin_reg(intrin_t *intrin, ast_value *const value, ast_function *const func) {
vec_push(intrin->parser->functions, func);
vec_push(intrin->parser->globals, (ast_expression*)value);
}
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#define QC_POW_EPSILON 0.00001f
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/*
* since some intrinsics depend on each other there is the possibility
* that an intrinsic will fail to get a 'depended' function that a
* builtin needs, causing some dependency in the chain to have a NULL
* function. This will cause a segmentation fault at code generation,
* even though an error was raised. To contiue to allow it (instead
* of stopping compilation right away). We need to return from the
* parser, before compilation stops after all the collected errors.
*/
static ast_expression *intrin_func_self(intrin_t *intrin, const char *name, const char *from);
static ast_expression *intrin_nullfunc(intrin_t *intrin) {
ast_value *value = NULL;
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ast_function *func = intrin_value(intrin, &value, NULL, TYPE_VOID);
intrin_reg(intrin, value, func);
return (ast_expression*)value;
}
static ast_expression *intrin_isfinite(intrin_t *intrin) {
/*
* float isfinite(float x) {
* return !(isnan(x) || isinf(x));
* }
*/
ast_value *value = NULL;
ast_value *x = ast_value_new(intrin_ctx(intrin), "x", TYPE_FLOAT);
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ast_function *func = intrin_value(intrin, &value, "isfinite", TYPE_FLOAT);
ast_call *callisnan = ast_call_new(intrin_ctx(intrin), intrin_func_self(intrin, "isnan", "isfinite"));
ast_call *callisinf = ast_call_new(intrin_ctx(intrin), intrin_func_self(intrin, "isinf", "isfinite"));
ast_block *block = ast_block_new(intrin_ctx(intrin));
/* float x; */
vec_push(value->expression.params, x);
/* <callisnan> = isnan(x); */
vec_push(callisnan->params, (ast_expression*)x);
/* <callisinf> = isinf(x); */
vec_push(callisinf->params, (ast_expression*)x);
/* return (!<callisnan> || <callisinf>); */
vec_push(block->exprs,
(ast_expression*)ast_return_new(
intrin_ctx(intrin),
(ast_expression*)ast_unary_new(
intrin_ctx(intrin),
INSTR_NOT_F,
(ast_expression*)ast_binary_new(
intrin_ctx(intrin),
INSTR_OR,
(ast_expression*)callisnan,
(ast_expression*)callisinf
)
)
)
);
vec_push(func->blocks, block);
intrin_reg(intrin, value, func);
return (ast_expression*)value;;
}
static ast_expression *intrin_isinf(intrin_t *intrin) {
/*
* float isinf(float x) {
* return (x != 0.0) && (x + x == x);
* }
*/
ast_value *value = NULL;
ast_value *x = ast_value_new(intrin_ctx(intrin), "x", TYPE_FLOAT);
ast_block *body = ast_block_new(intrin_ctx(intrin));
ast_function *func = intrin_value(intrin, &value, "isinf", TYPE_FLOAT);
vec_push(body->exprs,
(ast_expression*)ast_return_new(
intrin_ctx(intrin),
(ast_expression*)ast_binary_new(
intrin_ctx(intrin),
INSTR_AND,
(ast_expression*)ast_binary_new(
intrin_ctx(intrin),
INSTR_NE_F,
(ast_expression*)x,
(ast_expression*)intrin->fold->imm_float[0]
),
(ast_expression*)ast_binary_new(
intrin_ctx(intrin),
INSTR_EQ_F,
(ast_expression*)ast_binary_new(
intrin_ctx(intrin),
INSTR_ADD_F,
(ast_expression*)x,
(ast_expression*)x
),
(ast_expression*)x
)
)
)
);
vec_push(value->expression.params, x);
vec_push(func->blocks, body);
intrin_reg(intrin, value, func);
return (ast_expression*)value;
}
static ast_expression *intrin_isnan(intrin_t *intrin) {
/*
* float isnan(float x) {
* float local;
* local = x;
*
* return (x != local);
* }
*/
ast_value *value = NULL;
ast_value *arg1 = ast_value_new(intrin_ctx(intrin), "x", TYPE_FLOAT);
ast_value *local = ast_value_new(intrin_ctx(intrin), "local", TYPE_FLOAT);
ast_block *body = ast_block_new(intrin_ctx(intrin));
ast_function *func = intrin_value(intrin, &value, "isnan", TYPE_FLOAT);
vec_push(body->locals, local);
vec_push(body->exprs,
(ast_expression*)ast_store_new(
intrin_ctx(intrin),
INSTR_STORE_F,
(ast_expression*)local,
(ast_expression*)arg1
)
);
vec_push(body->exprs,
(ast_expression*)ast_return_new(
intrin_ctx(intrin),
(ast_expression*)ast_binary_new(
intrin_ctx(intrin),
INSTR_NE_F,
(ast_expression*)arg1,
(ast_expression*)local
)
)
);
vec_push(value->expression.params, arg1);
vec_push(func->blocks, body);
intrin_reg(intrin, value, func);
return (ast_expression*)value;
}
static ast_expression *intrin_isnormal(intrin_t *intrin) {
/*
* float isnormal(float x) {
* return isfinite(x);
* }
*/
ast_value *value = NULL;
ast_call *callisfinite = ast_call_new (intrin_ctx(intrin), intrin_func_self(intrin, "isfinite", "isnormal"));
ast_value *x = ast_value_new(intrin_ctx(intrin), "x", TYPE_FLOAT);
ast_block *body = ast_block_new(intrin_ctx(intrin));
ast_function *func = intrin_value(intrin, &value, "isnormal", TYPE_FLOAT);
vec_push(value->expression.params, x);
vec_push(callisfinite->params, (ast_expression*)x);
/* return <callisfinite> */
vec_push(body->exprs,
(ast_expression*)ast_return_new(
intrin_ctx(intrin),
(ast_expression*)callisfinite
)
);
vec_push(func->blocks, body);
intrin_reg(intrin, value, func);
return (ast_expression*)value;
}
static ast_expression *intrin_signbit(intrin_t *intrin) {
/*
* float signbit(float x) {
* return (x < 0);
* }
*/
ast_value *value = NULL;
ast_value *x = ast_value_new(intrin_ctx(intrin), "x", TYPE_FLOAT);
ast_block *body = ast_block_new(intrin_ctx(intrin));
ast_function *func = intrin_value(intrin, &value, "signbit", TYPE_FLOAT);
vec_push(value->expression.params, x);
/* return (x < 0); */
vec_push(body->exprs,
(ast_expression*)ast_return_new(
intrin_ctx(intrin),
(ast_expression*)ast_ternary_new(
intrin_ctx(intrin),
(ast_expression*)ast_binary_new(
intrin_ctx(intrin),
INSTR_LT,
(ast_expression*)x,
(ast_expression*)intrin->fold->imm_float[0]
),
(ast_expression*)intrin->fold->imm_float[1],
(ast_expression*)intrin->fold->imm_float[0]
)
)
);
vec_push(func->blocks, body);
intrin_reg(intrin, value, func);
return (ast_expression*)value;
}
static ast_expression *intrin_acosh(intrin_t *intrin) {
/*
* float acosh(float x) {
* return log(x + sqrt((x * x) - 1));
* }
*/
ast_value *value = NULL;
ast_value *x = ast_value_new(intrin_ctx(intrin), "x", TYPE_FLOAT);
ast_call *calllog = ast_call_new(intrin_ctx(intrin), intrin_func_self(intrin, "log", "acosh"));
ast_call *callsqrt = ast_call_new(intrin_ctx(intrin), intrin_func_self(intrin, "sqrt", "acosh"));
ast_block *body = ast_block_new(intrin_ctx(intrin));
ast_function *func = intrin_value(intrin, &value, "acosh", TYPE_FLOAT);
vec_push(value->expression.params, x);
/* <callsqrt> = sqrt((x * x) - 1); */
vec_push(callsqrt->params,
(ast_expression*)ast_binary_new(
intrin_ctx(intrin),
INSTR_SUB_F,
(ast_expression*)ast_binary_new(
intrin_ctx(intrin),
INSTR_MUL_F,
(ast_expression*)x,
(ast_expression*)x
),
(ast_expression*)intrin->fold->imm_float[1]
)
);
/* <calllog> = log(x + <callsqrt>); */
vec_push(calllog->params,
(ast_expression*)ast_binary_new(
intrin_ctx(intrin),
INSTR_ADD_F,
(ast_expression*)x,
(ast_expression*)callsqrt
)
);
/* return <calllog>; */
vec_push(body->exprs,
(ast_expression*)ast_return_new(
intrin_ctx(intrin),
(ast_expression*)calllog
)
);
vec_push(func->blocks, body);
intrin_reg(intrin, value, func);
return (ast_expression*)value;
}
static ast_expression *intrin_asinh(intrin_t *intrin) {
/*
* float asinh(float x) {
* return log(x + sqrt((x * x) + 1));
* }
*/
ast_value *value = NULL;
ast_value *x = ast_value_new(intrin_ctx(intrin), "x", TYPE_FLOAT);
ast_call *calllog = ast_call_new(intrin_ctx(intrin), intrin_func_self(intrin, "log", "asinh"));
ast_call *callsqrt = ast_call_new(intrin_ctx(intrin), intrin_func_self(intrin, "sqrt", "asinh"));
ast_block *body = ast_block_new(intrin_ctx(intrin));
ast_function *func = intrin_value(intrin, &value, "asinh", TYPE_FLOAT);
vec_push(value->expression.params, x);
/* <callsqrt> = sqrt((x * x) + 1); */
vec_push(callsqrt->params,
(ast_expression*)ast_binary_new(
intrin_ctx(intrin),
INSTR_ADD_F,
(ast_expression*)ast_binary_new(
intrin_ctx(intrin),
INSTR_MUL_F,
(ast_expression*)x,
(ast_expression*)x
),
(ast_expression*)intrin->fold->imm_float[1]
)
);
/* <calllog> = log(x + <callsqrt>); */
vec_push(calllog->params,
(ast_expression*)ast_binary_new(
intrin_ctx(intrin),
INSTR_ADD_F,
(ast_expression*)x,
(ast_expression*)callsqrt
)
);
/* return <calllog>; */
vec_push(body->exprs,
(ast_expression*)ast_return_new(
intrin_ctx(intrin),
(ast_expression*)calllog
)
);
vec_push(func->blocks, body);
intrin_reg(intrin, value, func);
return (ast_expression*)value;
}
static ast_expression *intrin_atanh(intrin_t *intrin) {
/*
* float atanh(float x) {
* return 0.5 * log((1 + x) / (1 - x))
* }
*/
ast_value *value = NULL;
ast_value *x = ast_value_new(intrin_ctx(intrin), "x", TYPE_FLOAT);
ast_call *calllog = ast_call_new(intrin_ctx(intrin), intrin_func_self(intrin, "log", "atanh"));
ast_block *body = ast_block_new(intrin_ctx(intrin));
ast_function *func = intrin_value(intrin, &value, "atanh", TYPE_FLOAT);
vec_push(value->expression.params, x);
/* <callog> = log((1 + x) / (1 - x)); */
vec_push(calllog->params,
(ast_expression*)ast_binary_new(
intrin_ctx(intrin),
INSTR_DIV_F,
(ast_expression*)ast_binary_new(
intrin_ctx(intrin),
INSTR_ADD_F,
(ast_expression*)intrin->fold->imm_float[1],
(ast_expression*)x
),
(ast_expression*)ast_binary_new(
intrin_ctx(intrin),
INSTR_SUB_F,
(ast_expression*)intrin->fold->imm_float[1],
(ast_expression*)x
)
)
);
/* return 0.5 * <calllog>; */
vec_push(body->exprs,
(ast_expression*)ast_binary_new(
intrin_ctx(intrin),
INSTR_MUL_F,
(ast_expression*)fold_constgen_float(intrin->fold, 0.5, false),
(ast_expression*)calllog
)
);
vec_push(func->blocks, body);
intrin_reg(intrin, value, func);
return (ast_expression*)value;
}
static ast_expression *intrin_exp(intrin_t *intrin) {
/*
* float exp(float x) {
* float sum = 1.0;
* float acc = 1.0;
* float i;
* for (i = 1; i < 200; ++i)
* sum += (acc *= x / i);
*
* return sum;
* }
*/
ast_value *value = NULL;
ast_value *x = ast_value_new(intrin_ctx(intrin), "x", TYPE_FLOAT);
ast_value *sum = ast_value_new(intrin_ctx(intrin), "sum", TYPE_FLOAT);
ast_value *acc = ast_value_new(intrin_ctx(intrin), "acc", TYPE_FLOAT);
ast_value *i = ast_value_new(intrin_ctx(intrin), "i", TYPE_FLOAT);
ast_block *body = ast_block_new(intrin_ctx(intrin));
ast_function *func = intrin_value(intrin, &value, "exp", TYPE_FLOAT);
vec_push(value->expression.params, x);
vec_push(body->locals, sum);
vec_push(body->locals, acc);
vec_push(body->locals, i);
/* sum = 1.0; */
vec_push(body->exprs,
(ast_expression*)ast_store_new(
intrin_ctx(intrin),
INSTR_STORE_F,
(ast_expression*)sum,
(ast_expression*)intrin->fold->imm_float[1]
)
);
/* acc = 1.0; */
vec_push(body->exprs,
(ast_expression*)ast_store_new(
intrin_ctx(intrin),
INSTR_STORE_F,
(ast_expression*)acc,
(ast_expression*)intrin->fold->imm_float[1]
)
);
/*
* for (i = 1; i < 200; ++i)
* sum += (acc *= x / i);
*/
vec_push(body->exprs,
(ast_expression*)ast_loop_new(
intrin_ctx(intrin),
/* i = 1; */
(ast_expression*)ast_store_new(
intrin_ctx(intrin),
INSTR_STORE_F,
(ast_expression*)i,
(ast_expression*)intrin->fold->imm_float[1]
),
/* i < 200; */
(ast_expression*)ast_binary_new(
intrin_ctx(intrin),
INSTR_LT,
(ast_expression*)i,
(ast_expression*)fold_constgen_float(intrin->fold, 200.0f, false)
),
false,
NULL,
false,
/* ++i; */
(ast_expression*)ast_binstore_new(
intrin_ctx(intrin),
INSTR_STORE_F,
INSTR_ADD_F,
(ast_expression*)i,
(ast_expression*)intrin->fold->imm_float[1]
),
/* sum += (acc *= (x / i)) */
(ast_expression*)ast_binstore_new(
intrin_ctx(intrin),
INSTR_STORE_F,
INSTR_ADD_F,
(ast_expression*)sum,
(ast_expression*)ast_binstore_new(
intrin_ctx(intrin),
INSTR_STORE_F,
INSTR_MUL_F,
(ast_expression*)acc,
(ast_expression*)ast_binary_new(
intrin_ctx(intrin),
INSTR_DIV_F,
(ast_expression*)x,
(ast_expression*)i
)
)
)
)
);
/* return sum; */
vec_push(body->exprs,
(ast_expression*)ast_return_new(
intrin_ctx(intrin),
(ast_expression*)sum
)
);
vec_push(func->blocks, body);
intrin_reg(intrin, value, func);
return (ast_expression*)value;
}
static ast_expression *intrin_exp2(intrin_t *intrin) {
/*
* float exp2(float x) {
* return pow(2, x);
* }
*/
ast_value *value = NULL;
ast_call *callpow = ast_call_new (intrin_ctx(intrin), intrin_func_self(intrin, "pow", "exp2"));
ast_value *arg1 = ast_value_new(intrin_ctx(intrin), "x", TYPE_FLOAT);
ast_block *body = ast_block_new(intrin_ctx(intrin));
ast_function *func = intrin_value(intrin, &value, "exp2", TYPE_FLOAT);
vec_push(value->expression.params, arg1);
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vec_push(callpow->params, (ast_expression*)intrin->fold->imm_float[3]);
vec_push(callpow->params, (ast_expression*)arg1);
/* return <callpow> */
vec_push(body->exprs,
(ast_expression*)ast_return_new(
intrin_ctx(intrin),
(ast_expression*)callpow
)
);
vec_push(func->blocks, body);
intrin_reg(intrin, value, func);
return (ast_expression*)value;
}
static ast_expression *intrin_expm1(intrin_t *intrin) {
/*
* float expm1(float x) {
* return exp(x) - 1;
* }
*/
ast_value *value = NULL;
ast_call *callexp = ast_call_new (intrin_ctx(intrin), intrin_func_self(intrin, "exp", "expm1"));
ast_value *x = ast_value_new(intrin_ctx(intrin), "x", TYPE_FLOAT);
ast_block *body = ast_block_new(intrin_ctx(intrin));
ast_function *func = intrin_value(intrin, &value, "expm1", TYPE_FLOAT);
vec_push(value->expression.params, x);
/* <callexp> = exp(x); */
vec_push(callexp->params, (ast_expression*)x);
/* return <callexp> - 1; */
vec_push(body->exprs,
(ast_expression*)ast_return_new(
intrin_ctx(intrin),
(ast_expression*)ast_binary_new(
intrin_ctx(intrin),
INSTR_SUB_F,
(ast_expression*)callexp,
(ast_expression*)intrin->fold->imm_float[1]
)
)
);
vec_push(func->blocks, body);
intrin_reg(intrin, value, func);
return (ast_expression*)value;
}
static ast_expression *intrin_pow(intrin_t *intrin) {
/*
*
* float pow(float base, float exp) {
* float result;
* float low;
* float high;
* float mid;
* float square;
* float accumulate;
*
* if (exp == 0.0)
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* return 1;
* if (exp == 1.0)
* return base;
* if (exp < 0)
* return 1.0 / pow(base, -exp);
* if (exp >= 1) {
* result = pow(base, exp / 2);
* return result * result;
* }
*
* low = 0.0f;
* high = 1.0f;
* square = sqrt(base);
* accumulate = square;
* mid = high / 2.0f
*
* while (fabs(mid - exp) > QC_POW_EPSILON) {
* square = sqrt(square);
* if (mid < exp) {
* low = mid;
* accumulate *= square;
* } else {
* high = mid;
* accumulate *= (1.0f / square);
* }
* mid = (low + high) / 2;
* }
* return accumulate;
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* }
*/
ast_value *value = NULL;
ast_function *func = intrin_value(intrin, &value, "pow", TYPE_FLOAT);
/* prepare some calls for later */
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ast_call *callpow1 = ast_call_new(intrin_ctx(intrin), (ast_expression*)value); /* for pow(base, -exp) */
ast_call *callpow2 = ast_call_new(intrin_ctx(intrin), (ast_expression*)value); /* for pow(vase, exp / 2) */
ast_call *callsqrt1 = ast_call_new(intrin_ctx(intrin), intrin_func_self(intrin, "sqrt", "pow")); /* for sqrt(base) */
ast_call *callsqrt2 = ast_call_new(intrin_ctx(intrin), intrin_func_self(intrin, "sqrt", "pow")); /* for sqrt(square) */
ast_call *callfabs = ast_call_new(intrin_ctx(intrin), intrin_func_self(intrin, "fabs", "pow")); /* for fabs(mid - exp) */
/* prepare some blocks for later */
ast_block *expgt1 = ast_block_new(intrin_ctx(intrin));
ast_block *midltexp = ast_block_new(intrin_ctx(intrin));
ast_block *midltexpelse = ast_block_new(intrin_ctx(intrin));
ast_block *whileblock = ast_block_new(intrin_ctx(intrin));
/* float pow(float base, float exp) */
ast_value *base = ast_value_new(intrin_ctx(intrin), "base", TYPE_FLOAT);
ast_value *exp = ast_value_new(intrin_ctx(intrin), "exp", TYPE_FLOAT);
/* { */
ast_block *body = ast_block_new(intrin_ctx(intrin));
/*
* float result;
* float low;
* float high;
* float square;
* float accumulate;
* float mid;
*/
ast_value *result = ast_value_new(intrin_ctx(intrin), "result", TYPE_FLOAT);
ast_value *low = ast_value_new(intrin_ctx(intrin), "low", TYPE_FLOAT);
ast_value *high = ast_value_new(intrin_ctx(intrin), "high", TYPE_FLOAT);
ast_value *square = ast_value_new(intrin_ctx(intrin), "square", TYPE_FLOAT);
ast_value *accumulate = ast_value_new(intrin_ctx(intrin), "accumulate", TYPE_FLOAT);
ast_value *mid = ast_value_new(intrin_ctx(intrin), "mid", TYPE_FLOAT);
vec_push(body->locals, result);
vec_push(body->locals, low);
vec_push(body->locals, high);
vec_push(body->locals, square);
vec_push(body->locals, accumulate);
vec_push(body->locals, mid);
vec_push(value->expression.params, base);
vec_push(value->expression.params, exp);
/*
* if (exp == 0.0)
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* return 1;
*/
vec_push(body->exprs,
(ast_expression*)ast_ifthen_new(
intrin_ctx(intrin),
(ast_expression*)ast_binary_new(
intrin_ctx(intrin),
INSTR_EQ_F,
(ast_expression*)exp,
(ast_expression*)intrin->fold->imm_float[0]
),
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(ast_expression*)ast_return_new(
intrin_ctx(intrin),
(ast_expression*)intrin->fold->imm_float[1]
),
NULL
)
);
/*
* if (exp == 1.0)
* return base;
*/
vec_push(body->exprs,
(ast_expression*)ast_ifthen_new(
intrin_ctx(intrin),
(ast_expression*)ast_binary_new(
intrin_ctx(intrin),
INSTR_EQ_F,
(ast_expression*)exp,
(ast_expression*)intrin->fold->imm_float[1]
),
(ast_expression*)ast_return_new(
intrin_ctx(intrin),
(ast_expression*)base
),
NULL
)
);
/* <callpow1> = pow(base, -exp) */
vec_push(callpow1->params, (ast_expression*)base);
vec_push(callpow1->params,
(ast_expression*)ast_unary_new(
intrin_ctx(intrin),
VINSTR_NEG_F,
(ast_expression*)exp
)
);
/*
* if (exp < 0)
* return 1.0 / <callpow1>;
*/
vec_push(body->exprs,
(ast_expression*)ast_ifthen_new(
intrin_ctx(intrin),
(ast_expression*)ast_binary_new(
intrin_ctx(intrin),
INSTR_LT,
(ast_expression*)exp,
(ast_expression*)intrin->fold->imm_float[0]
),
(ast_expression*)ast_return_new(
intrin_ctx(intrin),
(ast_expression*)ast_binary_new(
intrin_ctx(intrin),
INSTR_DIV_F,
(ast_expression*)intrin->fold->imm_float[1],
(ast_expression*)callpow1
)
),
NULL
)
);
/* <callpow2> = pow(base, exp / 2) */
vec_push(callpow2->params, (ast_expression*)base);
vec_push(callpow2->params,
(ast_expression*)ast_binary_new(
intrin_ctx(intrin),
INSTR_DIV_F,
(ast_expression*)exp,
(ast_expression*)intrin->fold->imm_float[3] /* 2.0f */
)
);
/*
* <expgt1> = {
* result = <callpow2>;
* return result * result;
* }
*/
vec_push(expgt1->exprs,
(ast_expression*)ast_store_new(
intrin_ctx(intrin),
INSTR_STORE_F,
(ast_expression*)result,
(ast_expression*)callpow2
)
);
vec_push(expgt1->exprs,
(ast_expression*)ast_return_new(
intrin_ctx(intrin),
(ast_expression*)ast_binary_new(
intrin_ctx(intrin),
INSTR_MUL_F,
(ast_expression*)result,
(ast_expression*)result
)
)
);
/*
* if (exp >= 1) {
* <expgt1>
* }
*/
vec_push(body->exprs,
(ast_expression*)ast_ifthen_new(
intrin_ctx(intrin),
(ast_expression*)ast_binary_new(
intrin_ctx(intrin),
INSTR_GE,
(ast_expression*)exp,
(ast_expression*)intrin->fold->imm_float[1]
),
(ast_expression*)expgt1,
NULL
)
);
/*
* <callsqrt1> = sqrt(base)
*/
vec_push(callsqrt1->params, (ast_expression*)base);
/*
* low = 0.0f;
* high = 1.0f;
* square = sqrt(base);
* accumulate = square;
* mid = high / 2.0f;
*/
vec_push(body->exprs,
(ast_expression*)ast_store_new(intrin_ctx(intrin),
INSTR_STORE_F,
(ast_expression*)low,
(ast_expression*)intrin->fold->imm_float[0]
)
);
vec_push(body->exprs,
(ast_expression*)ast_store_new(
intrin_ctx(intrin),
INSTR_STORE_F,
(ast_expression*)high,
(ast_expression*)intrin->fold->imm_float[1]
)
);
2013-11-25 07:11:45 +00:00
vec_push(body->exprs,
(ast_expression*)ast_store_new(
intrin_ctx(intrin),
INSTR_STORE_F,
(ast_expression*)square,
(ast_expression*)callsqrt1
)
);
2013-11-25 07:11:45 +00:00
vec_push(body->exprs,
(ast_expression*)ast_store_new(
intrin_ctx(intrin),
INSTR_STORE_F,
(ast_expression*)accumulate,
(ast_expression*)square
)
);
vec_push(body->exprs,
(ast_expression*)ast_store_new(
intrin_ctx(intrin),
INSTR_STORE_F,
(ast_expression*)mid,
(ast_expression*)ast_binary_new(
intrin_ctx(intrin),
INSTR_DIV_F,
(ast_expression*)high,
(ast_expression*)intrin->fold->imm_float[3] /* 2.0f */
)
)
);
/*
* <midltexp> = {
* low = mid;
* accumulate *= square;
* }
*/
vec_push(midltexp->exprs,
(ast_expression*)ast_store_new(
intrin_ctx(intrin),
INSTR_STORE_F,
(ast_expression*)low,
(ast_expression*)mid
)
);
vec_push(midltexp->exprs,
(ast_expression*)ast_binstore_new(
intrin_ctx(intrin),
INSTR_STORE_F,
INSTR_MUL_F,
(ast_expression*)accumulate,
(ast_expression*)square
)
);
/*
* <midltexpelse> = {
* high = mid;
* accumulate *= (1.0 / square);
* }
*/
vec_push(midltexpelse->exprs,
(ast_expression*)ast_store_new(
intrin_ctx(intrin),
INSTR_STORE_F,
(ast_expression*)high,
(ast_expression*)mid
)
);
vec_push(midltexpelse->exprs,
(ast_expression*)ast_binstore_new(
intrin_ctx(intrin),
INSTR_STORE_F,
INSTR_MUL_F,
(ast_expression*)accumulate,
(ast_expression*)ast_binary_new(
intrin_ctx(intrin),
INSTR_DIV_F,
(ast_expression*)intrin->fold->imm_float[1],
(ast_expression*)square
)
)
);
/*
* <callsqrt2> = sqrt(square)
*/
vec_push(callsqrt2->params, (ast_expression*)square);
/*
* <whileblock> = {
* square = <callsqrt2>;
* if (mid < exp)
* <midltexp>;
* else
* <midltexpelse>;
*
* mid = (low + high) / 2;
* }
*/
vec_push(whileblock->exprs,
(ast_expression*)ast_store_new(
intrin_ctx(intrin),
INSTR_STORE_F,
(ast_expression*)square,
(ast_expression*)callsqrt2
)
);
vec_push(whileblock->exprs,
(ast_expression*)ast_ifthen_new(
intrin_ctx(intrin),
(ast_expression*)ast_binary_new(
intrin_ctx(intrin),
INSTR_LT,
(ast_expression*)mid,
(ast_expression*)exp
),
(ast_expression*)midltexp,
(ast_expression*)midltexpelse
)
);
vec_push(whileblock->exprs,
(ast_expression*)ast_store_new(
intrin_ctx(intrin),
INSTR_STORE_F,
(ast_expression*)mid,
(ast_expression*)ast_binary_new(
intrin_ctx(intrin),
INSTR_DIV_F,
(ast_expression*)ast_binary_new(
intrin_ctx(intrin),
INSTR_ADD_F,
(ast_expression*)low,
(ast_expression*)high
),
(ast_expression*)intrin->fold->imm_float[3] /* 2.0f */
)
)
);
/*
* <callabs> = fabs(mid - exp)
*/
vec_push(callfabs->params,
(ast_expression*)ast_binary_new(
intrin_ctx(intrin),
INSTR_SUB_F,
(ast_expression*)mid,
(ast_expression*)exp
)
);
/*
* while (<callfabs> > epsilon)
* <whileblock>
*/
vec_push(body->exprs,
(ast_expression*)ast_loop_new(
intrin_ctx(intrin),
/* init */
NULL,
/* pre condition */
(ast_expression*)ast_binary_new(
intrin_ctx(intrin),
INSTR_GT,
(ast_expression*)callfabs,
(ast_expression*)fold_constgen_float(intrin->fold, QC_POW_EPSILON, false)
),
/* pre not */
false,
/* post condition */
NULL,
/* post not */
false,
/* increment expression */
NULL,
/* code block */
(ast_expression*)whileblock
)
);
2013-11-23 16:15:28 +00:00
/* return accumulate */
vec_push(body->exprs,
(ast_expression*)ast_return_new(
intrin_ctx(intrin),
(ast_expression*)accumulate
)
);
/* } */
vec_push(func->blocks, body);
intrin_reg(intrin, value, func);
2013-03-09 08:57:37 +00:00
return (ast_expression*)value;
}
static ast_expression *intrin_mod(intrin_t *intrin) {
/*
2013-11-23 08:53:07 +00:00
* float mod(float a, float b) {
* float div = a / b;
* float sign = (div < 0.0f) ? -1 : 1;
* return a - b * sign * floor(sign * div);
* }
2013-04-21 10:24:55 +00:00
*/
ast_value *value = NULL;
ast_call *call = ast_call_new (intrin_ctx(intrin), intrin_func_self(intrin, "floor", "mod"));
2013-11-23 08:53:07 +00:00
ast_value *a = ast_value_new(intrin_ctx(intrin), "a", TYPE_FLOAT);
ast_value *b = ast_value_new(intrin_ctx(intrin), "b", TYPE_FLOAT);
ast_value *div = ast_value_new(intrin_ctx(intrin), "div", TYPE_FLOAT);
ast_value *sign = ast_value_new(intrin_ctx(intrin), "sign", TYPE_FLOAT);
ast_block *body = ast_block_new(intrin_ctx(intrin));
ast_function *func = intrin_value(intrin, &value, "mod", TYPE_FLOAT);
2013-11-23 08:53:07 +00:00
vec_push(value->expression.params, a);
vec_push(value->expression.params, b);
vec_push(body->locals, div);
vec_push(body->locals, sign);
/* div = a / b; */
vec_push(body->exprs,
(ast_expression*)ast_store_new(
intrin_ctx(intrin),
INSTR_STORE_F,
(ast_expression*)div,
(ast_expression*)ast_binary_new(
intrin_ctx(intrin),
INSTR_DIV_F,
(ast_expression*)a,
(ast_expression*)b
)
)
);
/* sign = (div < 0.0f) ? -1 : 1; */
vec_push(body->exprs,
(ast_expression*)ast_store_new(
intrin_ctx(intrin),
INSTR_STORE_F,
(ast_expression*)sign,
(ast_expression*)ast_ternary_new(
intrin_ctx(intrin),
(ast_expression*)ast_binary_new(
intrin_ctx(intrin),
INSTR_LT,
(ast_expression*)div,
(ast_expression*)intrin->fold->imm_float[0]
),
(ast_expression*)intrin->fold->imm_float[2],
(ast_expression*)intrin->fold->imm_float[1]
)
)
);
/* floor(sign * div) */
vec_push(call->params,
2013-11-23 08:53:07 +00:00
(ast_expression*)ast_binary_new(
intrin_ctx(intrin),
2013-11-23 08:53:07 +00:00
INSTR_MUL_F,
(ast_expression*)sign,
(ast_expression*)div
)
);
2013-11-23 08:53:07 +00:00
/* return a - b * sign * <call> */
vec_push(body->exprs,
(ast_expression*)ast_return_new(
intrin_ctx(intrin),
(ast_expression*)ast_binary_new(
intrin_ctx(intrin),
INSTR_SUB_F,
2013-11-23 08:53:07 +00:00
(ast_expression*)a,
2013-03-09 08:57:37 +00:00
(ast_expression*)ast_binary_new(
intrin_ctx(intrin),
INSTR_MUL_F,
2013-11-23 08:53:07 +00:00
(ast_expression*)b,
(ast_expression*)ast_binary_new(
intrin_ctx(intrin),
INSTR_MUL_F,
(ast_expression*)sign,
(ast_expression*)call
)
2013-03-09 08:57:37 +00:00
)
)
)
);
2013-03-09 08:57:37 +00:00
vec_push(func->blocks, body);
intrin_reg(intrin, value, func);
return (ast_expression*)value;
}
static ast_expression *intrin_fabs(intrin_t *intrin) {
/*
* float fabs(float x) {
* return x < 0 ? -x : x;
* }
*/
ast_value *value = NULL;
ast_value *arg1 = ast_value_new(intrin_ctx(intrin), "x", TYPE_FLOAT);
ast_block *body = ast_block_new(intrin_ctx(intrin));
ast_function *func = intrin_value(intrin, &value, "fabs", TYPE_FLOAT);
vec_push(body->exprs,
(ast_expression*)ast_return_new(
intrin_ctx(intrin),
(ast_expression*)ast_ternary_new(
intrin_ctx(intrin),
(ast_expression*)ast_binary_new(
intrin_ctx(intrin),
INSTR_LE,
(ast_expression*)arg1,
(ast_expression*)intrin->fold->imm_float[0]
),
(ast_expression*)ast_unary_new(
intrin_ctx(intrin),
VINSTR_NEG_F,
(ast_expression*)arg1
),
(ast_expression*)arg1
)
)
);
vec_push(value->expression.params, arg1);
vec_push(func->blocks, body);
intrin_reg(intrin, value, func);
return (ast_expression*)value;
}
static ast_expression *intrin_epsilon(intrin_t *intrin) {
/*
* float epsilon(void) {
* float eps = 1.0f;
* do { eps /= 2.0f; } while ((1.0f + (eps / 2.0f)) != 1.0f);
* return eps;
* }
*/
ast_value *value = NULL;
ast_value *eps = ast_value_new(intrin_ctx(intrin), "eps", TYPE_FLOAT);
ast_block *body = ast_block_new(intrin_ctx(intrin));
ast_function *func = intrin_value(intrin, &value, "epsilon", TYPE_FLOAT);
vec_push(body->locals, eps);
/* eps = 1.0f; */
vec_push(body->exprs,
(ast_expression*)ast_store_new(
intrin_ctx(intrin),
INSTR_STORE_F,
(ast_expression*)eps,
(ast_expression*)intrin->fold->imm_float[0]
)
);
vec_push(body->exprs,
(ast_expression*)ast_loop_new(
intrin_ctx(intrin),
NULL,
NULL,
false,
(ast_expression*)ast_binary_new(
intrin_ctx(intrin),
INSTR_NE_F,
(ast_expression*)ast_binary_new(
intrin_ctx(intrin),
INSTR_ADD_F,
(ast_expression*)intrin->fold->imm_float[1],
(ast_expression*)ast_binary_new(
intrin_ctx(intrin),
INSTR_MUL_F,
(ast_expression*)eps,
(ast_expression*)intrin->fold->imm_float[3] /* 2.0f */
)
),
(ast_expression*)intrin->fold->imm_float[1]
),
false,
NULL,
(ast_expression*)ast_binstore_new(
intrin_ctx(intrin),
INSTR_STORE_F,
INSTR_DIV_F,
(ast_expression*)eps,
(ast_expression*)intrin->fold->imm_float[3] /* 2.0f */
)
)
);
/* return eps; */
vec_push(body->exprs,
(ast_expression*)ast_return_new(
intrin_ctx(intrin),
(ast_expression*)eps
)
);
vec_push(func->blocks, body);
intrin_reg(intrin, value, func);
return (ast_expression*)value;
}
static ast_expression *intrin_nan(intrin_t *intrin) {
/*
* float nan(void) {
* float x = 0.0f;
* return x / x;
* }
*/
ast_value *value = NULL;
ast_value *x = ast_value_new(intrin_ctx(intrin), "x", TYPE_FLOAT);
ast_function *func = intrin_value(intrin, &value, "nan", TYPE_FLOAT);
ast_block *block = ast_block_new(intrin_ctx(intrin));
vec_push(block->locals, x);
vec_push(block->exprs,
(ast_expression*)ast_store_new(
intrin_ctx(intrin),
INSTR_STORE_F,
(ast_expression*)x,
(ast_expression*)intrin->fold->imm_float[0]
)
);
vec_push(block->exprs,
(ast_expression*)ast_return_new(
intrin_ctx(intrin),
(ast_expression*)ast_binary_new(
intrin_ctx(intrin),
INSTR_DIV_F,
(ast_expression*)x,
(ast_expression*)x
)
)
);
vec_push(func->blocks, block);
intrin_reg(intrin, value, func);
return (ast_expression*)value;
}
static ast_expression *intrin_inf(intrin_t *intrin) {
/*
* float inf(void) {
* float x = 1.0f;
* float y = 0.0f;
* return x / y;
* }
*/
ast_value *value = NULL;
ast_value *x = ast_value_new(intrin_ctx(intrin), "x", TYPE_FLOAT);
ast_value *y = ast_value_new(intrin_ctx(intrin), "y", TYPE_FLOAT);
2013-11-25 16:29:36 +00:00
ast_function *func = intrin_value(intrin, &value, "inf", TYPE_FLOAT);
ast_block *block = ast_block_new(intrin_ctx(intrin));
size_t i;
vec_push(block->locals, x);
vec_push(block->locals, y);
/* to keep code size down */
for (i = 0; i <= 1; i++) {
vec_push(block->exprs,
(ast_expression*)ast_store_new(
intrin_ctx(intrin),
INSTR_STORE_F,
(ast_expression*)((i == 0) ? x : y),
(ast_expression*)intrin->fold->imm_float[i]
)
);
}
vec_push(block->exprs,
(ast_expression*)ast_return_new(
intrin_ctx(intrin),
(ast_expression*)ast_binary_new(
intrin_ctx(intrin),
INSTR_DIV_F,
(ast_expression*)x,
(ast_expression*)y
)
)
);
vec_push(func->blocks, block);
intrin_reg(intrin, value, func);
return (ast_expression*)value;
}
static ast_expression *intrin_ln(intrin_t *intrin) {
/*
* float log(float power, float base) {
* float whole;
* float nth
* float sign = 1.0f;
* float eps = epsilon();
*
* if (power <= 1.0f || bbase <= 1.0) {
* if (power <= 0.0f || base <= 0.0f)
* return nan();
*
* if (power < 1.0f) {
* power = 1.0f / power;
* sign *= -1.0f;
* }
*
* if (base < 1.0f) {
* sign *= -1.0f;
* base = 1.0f / base;
* }
* }
*
* float A_i = 1;
* float B_i = 0;
* float A_iminus1 = 0;
* float B_iminus1 = 1;
*
* for (;;) {
* whole = power;
* nth = 0.0f;
*
* while (whole >= base) {
* float base2 = base;
* float n2 = 1.0f;
* float newbase2 = base2 * base2;
*
* while (whole >= newbase2) {
* base2 = newbase2;
* n2 *= 2;
* newbase2 *= newbase2;
* }
*
* whole /= base2;
* nth += n2;
* }
*
* float b_iplus1 = n;
* float A_iplus1 = b_iplus1 * A_i + A_iminus1;
* float B_iplus1 = b_iplus1 * B_i + B_iminus1;
*
* A_iminus1 = A_i;
* B_iminus1 = B_i;
* A_i = A_iplus1;
* B_i = B_iplus1;
*
* if (whole <= 1.0f + eps)
* break;
*
* power = base;
* bower = whole;
* }
* return sign * A_i / B_i;
* }
*/
ast_value *value = NULL;
ast_value *power = ast_value_new(intrin_ctx(intrin), "power", TYPE_FLOAT);
ast_value *base = ast_value_new(intrin_ctx(intrin), "base", TYPE_FLOAT);
ast_value *whole = ast_value_new(intrin_ctx(intrin), "whole", TYPE_FLOAT);
ast_value *nth = ast_value_new(intrin_ctx(intrin), "nth", TYPE_FLOAT);
ast_value *sign = ast_value_new(intrin_ctx(intrin), "sign", TYPE_FLOAT);
ast_value *A_i = ast_value_new(intrin_ctx(intrin), "A_i", TYPE_FLOAT);
ast_value *B_i = ast_value_new(intrin_ctx(intrin), "B_i", TYPE_FLOAT);
ast_value *A_iminus1 = ast_value_new(intrin_ctx(intrin), "A_iminus1", TYPE_FLOAT);
ast_value *B_iminus1 = ast_value_new(intrin_ctx(intrin), "B_iminus1", TYPE_FLOAT);
ast_value *b_iplus1 = ast_value_new(intrin_ctx(intrin), "b_iplus1", TYPE_FLOAT);
ast_value *A_iplus1 = ast_value_new(intrin_ctx(intrin), "A_iplus1", TYPE_FLOAT);
ast_value *B_iplus1 = ast_value_new(intrin_ctx(intrin), "B_iplus1", TYPE_FLOAT);
ast_value *eps = ast_value_new(intrin_ctx(intrin), "eps", TYPE_FLOAT);
ast_value *base2 = ast_value_new(intrin_ctx(intrin), "base2", TYPE_FLOAT);
ast_value *n2 = ast_value_new(intrin_ctx(intrin), "n2", TYPE_FLOAT);
ast_value *newbase2 = ast_value_new(intrin_ctx(intrin), "newbase2", TYPE_FLOAT);
ast_block *block = ast_block_new(intrin_ctx(intrin));
ast_block *plt1orblt1 = ast_block_new(intrin_ctx(intrin)); /* (power <= 1.0f || base <= 1.0f) */
ast_block *plt1 = ast_block_new(intrin_ctx(intrin)); /* (power < 1.0f) */
ast_block *blt1 = ast_block_new(intrin_ctx(intrin)); /* (base < 1.0f) */
ast_block *forloop = ast_block_new(intrin_ctx(intrin)); /* for(;;) */
ast_block *whileloop = ast_block_new(intrin_ctx(intrin)); /* while (whole >= base) */
ast_block *nestwhile = ast_block_new(intrin_ctx(intrin)); /* while (whole >= newbase2) */
ast_function *func = intrin_value(intrin, &value, "ln", TYPE_FLOAT);
size_t i;
vec_push(value->expression.params, power);
vec_push(value->expression.params, base);
vec_push(block->locals, whole);
vec_push(block->locals, nth);
vec_push(block->locals, sign);
vec_push(block->locals, eps);
vec_push(block->locals, A_i);
vec_push(block->locals, B_i);
vec_push(block->locals, A_iminus1);
vec_push(block->locals, B_iminus1);
/* sign = 1.0f; */
vec_push(block->exprs,
(ast_expression*)ast_store_new(
intrin_ctx(intrin),
INSTR_STORE_F,
(ast_expression*)sign,
(ast_expression*)intrin->fold->imm_float[1]
)
);
/* eps = __builtin_epsilon(); */
vec_push(block->exprs,
(ast_expression*)ast_store_new(
intrin_ctx(intrin),
INSTR_STORE_F,
(ast_expression*)eps,
(ast_expression*)ast_call_new(
intrin_ctx(intrin),
intrin_func_self(intrin, "__builtin_epsilon", "ln")
)
)
);
/*
* A_i = 1;
* B_i = 0;
* A_iminus1 = 0;
* B_iminus1 = 1;
*/
for (i = 0; i <= 1; i++) {
int j;
for (j = 1; j >= 0; j--) {
vec_push(block->exprs,
(ast_expression*)ast_store_new(
intrin_ctx(intrin),
INSTR_STORE_F,
(ast_expression*)((j) ? ((i) ? B_iminus1 : A_i)
: ((i) ? A_iminus1 : B_i)),
(ast_expression*)intrin->fold->imm_float[j]
)
);
}
}
/*
* <plt1> = {
* power = 1.0f / power;
* sign *= -1.0f;
* }
* <blt1> = {
* base = 1.0f / base;
* sign *= -1.0f;
* }
*/
for (i = 0; i <= 1; i++) {
vec_push(((i) ? blt1 : plt1)->exprs,
(ast_expression*)ast_store_new(
intrin_ctx(intrin),
INSTR_STORE_F,
(ast_expression*)((i) ? base : power),
(ast_expression*)ast_binary_new(
intrin_ctx(intrin),
INSTR_DIV_F,
(ast_expression*)intrin->fold->imm_float[1],
(ast_expression*)((i) ? base : power)
)
)
);
vec_push(plt1->exprs,
(ast_expression*)ast_binstore_new(
intrin_ctx(intrin),
INSTR_STORE_F,
INSTR_MUL_F,
(ast_expression*)sign,
(ast_expression*)intrin->fold->imm_float[2]
)
);
}
/*
* <plt1orblt1> = {
* if (power <= 0.0 || base <= 0.0f)
* return __builtin_nan();
* if (power < 1.0f)
* <plt1>
* if (base < 1.0f)
* <blt1>
* }
*/
vec_push(plt1orblt1->exprs,
(ast_expression*)ast_ifthen_new(
intrin_ctx(intrin),
(ast_expression*)ast_binary_new(
intrin_ctx(intrin),
INSTR_OR,
(ast_expression*)ast_binary_new(
intrin_ctx(intrin),
INSTR_LE,
(ast_expression*)power,
(ast_expression*)intrin->fold->imm_float[0]
),
(ast_expression*)ast_binary_new(
intrin_ctx(intrin),
INSTR_LE,
(ast_expression*)base,
(ast_expression*)intrin->fold->imm_float[0]
)
),
(ast_expression*)ast_return_new(
intrin_ctx(intrin),
(ast_expression*)ast_call_new(
intrin_ctx(intrin),
intrin_func_self(intrin, "__builtin_nan", "ln")
)
),
NULL
)
);
for (i = 0; i <= 1; i++) {
vec_push(plt1orblt1->exprs,
(ast_expression*)ast_ifthen_new(
intrin_ctx(intrin),
(ast_expression*)ast_binary_new(
intrin_ctx(intrin),
INSTR_LT,
(ast_expression*)((i) ? base : power),
(ast_expression*)intrin->fold->imm_float[1]
),
(ast_expression*)((i) ? blt1 : plt1),
NULL
)
);
}
vec_push(block->exprs, (ast_expression*)plt1orblt1);
/* whole = power; */
vec_push(forloop->exprs,
(ast_expression*)ast_store_new(
intrin_ctx(intrin),
INSTR_STORE_F,
(ast_expression*)whole,
(ast_expression*)power
)
);
/* nth = 0.0f; */
vec_push(forloop->exprs,
(ast_expression*)ast_store_new(
intrin_ctx(intrin),
INSTR_STORE_F,
(ast_expression*)nth,
(ast_expression*)intrin->fold->imm_float[0]
)
);
/* base2 = base; */
vec_push(whileloop->exprs,
(ast_expression*)ast_store_new(
intrin_ctx(intrin),
INSTR_STORE_F,
(ast_expression*)base2,
(ast_expression*)base
)
);
/* n2 = 1.0f; */
vec_push(whileloop->exprs,
(ast_expression*)ast_store_new(
intrin_ctx(intrin),
INSTR_STORE_F,
(ast_expression*)n2,
(ast_expression*)intrin->fold->imm_float[1]
)
);
/* newbase2 = base2 * base2; */
vec_push(whileloop->exprs,
(ast_expression*)ast_store_new(
intrin_ctx(intrin),
INSTR_STORE_F,
(ast_expression*)newbase2,
(ast_expression*)ast_binary_new(
intrin_ctx(intrin),
INSTR_MUL_F,
(ast_expression*)base2,
(ast_expression*)base2
)
)
);
/* while loop locals */
vec_push(whileloop->locals, base2);
vec_push(whileloop->locals, n2);
vec_push(whileloop->locals, newbase2);
/* base2 = newbase2; */
vec_push(nestwhile->exprs,
(ast_expression*)ast_store_new(
intrin_ctx(intrin),
INSTR_STORE_F,
(ast_expression*)base2,
(ast_expression*)newbase2
)
);
/* n2 *= 2; */
vec_push(nestwhile->exprs,
(ast_expression*)ast_binstore_new(
intrin_ctx(intrin),
INSTR_STORE_F,
INSTR_MUL_F,
(ast_expression*)n2,
(ast_expression*)intrin->fold->imm_float[3] /* 2.0f */
)
);
/* newbase2 *= newbase2; */
vec_push(nestwhile->exprs,
(ast_expression*)ast_binstore_new(
intrin_ctx(intrin),
INSTR_STORE_F,
INSTR_MUL_F,
(ast_expression*)newbase2,
(ast_expression*)newbase2
)
);
/* while (whole >= newbase2) */
vec_push(whileloop->exprs,
(ast_expression*)ast_loop_new(
intrin_ctx(intrin),
NULL,
(ast_expression*)ast_binary_new(
intrin_ctx(intrin),
INSTR_GE,
(ast_expression*)whole,
(ast_expression*)newbase2
),
false,
NULL,
false,
NULL,
(ast_expression*)nestwhile
)
);
/* whole /= base2; */
vec_push(whileloop->exprs,
(ast_expression*)ast_binstore_new(
intrin_ctx(intrin),
INSTR_STORE_F,
INSTR_DIV_F,
(ast_expression*)whole,
(ast_expression*)base2
)
);
/* nth += n2; */
vec_push(whileloop->exprs,
(ast_expression*)ast_binstore_new(
intrin_ctx(intrin),
INSTR_STORE_F,
INSTR_ADD_F,
(ast_expression*)nth,
(ast_expression*)n2
)
);
/* while (whole >= base) */
vec_push(forloop->exprs,
(ast_expression*)ast_loop_new(
intrin_ctx(intrin),
NULL,
(ast_expression*)ast_binary_new(
intrin_ctx(intrin),
INSTR_GE,
(ast_expression*)whole,
(ast_expression*)base
),
false,
NULL,
false,
NULL,
(ast_expression*)whileloop
)
);
vec_push(forloop->locals, b_iplus1);
vec_push(forloop->locals, A_iplus1);
vec_push(forloop->locals, B_iplus1);
/* b_iplus1 = nth; */
vec_push(forloop->exprs,
(ast_expression*)ast_store_new(
intrin_ctx(intrin),
INSTR_STORE_F,
(ast_expression*)b_iplus1,
(ast_expression*)nth
)
);
/*
* A_iplus1 = b_iplus1 * A_i + A_iminus1;
* B_iplus1 = b_iplus1 * B_i + B_iminus1;
*/
for (i = 0; i <= 1; i++) {
vec_push(forloop->exprs,
(ast_expression*)ast_store_new(
intrin_ctx(intrin),
INSTR_STORE_F,
(ast_expression*)((i) ? B_iplus1 : A_iplus1),
(ast_expression*)ast_binary_new(
intrin_ctx(intrin),
INSTR_ADD_F,
(ast_expression*)ast_binary_new(
intrin_ctx(intrin),
INSTR_MUL_F,
(ast_expression*)b_iplus1,
(ast_expression*) ((i) ? B_i : A_i)
),
(ast_expression*)((i) ? B_iminus1 : A_iminus1)
)
)
);
}
/*
* A_iminus1 = A_i;
* B_iminus1 = B_i;
*/
for (i = 0; i <= 1; i++) {
vec_push(forloop->exprs,
(ast_expression*)ast_store_new(
intrin_ctx(intrin),
INSTR_STORE_F,
(ast_expression*)((i) ? B_iminus1 : A_iminus1),
(ast_expression*)((i) ? B_i : A_i)
)
);
}
/*
* A_i = A_iplus1;
* B_i = B_iplus1;
*/
for (i = 0; i <= 1; i++) {
vec_push(forloop->exprs,
(ast_expression*)ast_store_new(
intrin_ctx(intrin),
INSTR_STORE_F,
(ast_expression*)((i) ? B_i : A_i),
(ast_expression*)((i) ? B_iplus1 : A_iplus1)
)
);
}
/*
* if (whole <= 1.0f + eps)
* break;
*/
vec_push(forloop->exprs,
(ast_expression*)ast_ifthen_new(
intrin_ctx(intrin),
(ast_expression*)ast_binary_new(
intrin_ctx(intrin),
INSTR_LE,
(ast_expression*)whole,
(ast_expression*)ast_binary_new(
intrin_ctx(intrin),
INSTR_ADD_F,
(ast_expression*)intrin->fold->imm_float[1],
(ast_expression*)eps
)
),
(ast_expression*)ast_breakcont_new(
intrin_ctx(intrin),
false,
0
),
NULL
)
);
/*
* power = base;
* base = whole;
*/
for (i = 0; i <= 1; i++) {
vec_push(forloop->exprs,
(ast_expression*)ast_store_new(
intrin_ctx(intrin),
INSTR_STORE_F,
(ast_expression*)((i) ? base : power),
(ast_expression*)((i) ? whole : base)
)
);
}
/* add the for loop block */
vec_push(block->exprs,
(ast_expression*)ast_loop_new(
intrin_ctx(intrin),
NULL,
/* for(; 1; ) ?? (can this be NULL too?) */
(ast_expression*)intrin->fold->imm_float[1],
false,
NULL,
false,
NULL,
(ast_expression*)forloop
)
);
/* return sign * A_i / B_il */
vec_push(block->exprs,
(ast_expression*)ast_return_new(
intrin_ctx(intrin),
(ast_expression*)ast_binary_new(
intrin_ctx(intrin),
INSTR_MUL_F,
(ast_expression*)sign,
(ast_expression*)ast_binary_new(
intrin_ctx(intrin),
INSTR_DIV_F,
(ast_expression*)A_i,
(ast_expression*)B_i
)
)
)
);
vec_push(func->blocks, block);
intrin_reg(intrin, value, func);
return (ast_expression*)value;
}
static ast_expression *intrin_log_variant(intrin_t *intrin, const char *name, float base) {
ast_value *value = NULL;
ast_call *callln = ast_call_new (intrin_ctx(intrin), intrin_func_self(intrin, "__builtin_ln", name));
ast_value *arg1 = ast_value_new(intrin_ctx(intrin), "x", TYPE_FLOAT);
ast_block *body = ast_block_new(intrin_ctx(intrin));
ast_function *func = intrin_value(intrin, &value, name, TYPE_FLOAT);
vec_push(value->expression.params, arg1);
vec_push(callln->params, (ast_expression*)arg1);
vec_push(callln->params, (ast_expression*)fold_constgen_float(intrin->fold, base, false));
vec_push(body->exprs,
(ast_expression*)ast_return_new(
intrin_ctx(intrin),
(ast_expression*)callln
)
);
vec_push(func->blocks, body);
intrin_reg(intrin, value, func);
return (ast_expression*)value;
}
static ast_expression *intrin_log(intrin_t *intrin) {
return intrin_log_variant(intrin, "log", 2.7182818284590452354);
}
static ast_expression *intrin_log10(intrin_t *intrin) {
return intrin_log_variant(intrin, "log10", 10);
}
static ast_expression *intrin_log2(intrin_t *intrin) {
return intrin_log_variant(intrin, "log2", 2);
}
static ast_expression *intrin_logb(intrin_t *intrin) {
/* FLT_RADIX == 2 for now */
return intrin_log_variant(intrin, "log2", 2);
}
static ast_expression *intrin_shift_variant(intrin_t *intrin, const char *name, size_t instr) {
/*
* float [shift] (float a, float b) {
* return floor(a [instr] pow(2, b));
*/
ast_value *value = NULL;
ast_call *callpow = ast_call_new (intrin_ctx(intrin), intrin_func_self(intrin, "pow", name));
ast_call *callfloor = ast_call_new (intrin_ctx(intrin), intrin_func_self(intrin, "floor", name));
ast_value *a = ast_value_new(intrin_ctx(intrin), "a", TYPE_FLOAT);
ast_value *b = ast_value_new(intrin_ctx(intrin), "b", TYPE_FLOAT);
ast_block *body = ast_block_new(intrin_ctx(intrin));
ast_function *func = intrin_value(intrin, &value, name, TYPE_FLOAT);
vec_push(value->expression.params, a);
vec_push(value->expression.params, b);
/* <callpow> = pow(2, b) */
vec_push(callpow->params, (ast_expression*)intrin->fold->imm_float[3]);
vec_push(callpow->params, (ast_expression*)b);
/* <callfloor> = floor(a [instr] <callpow>) */
vec_push(
callfloor->params,
(ast_expression*)ast_binary_new(
intrin_ctx(intrin),
instr,
(ast_expression*)a,
(ast_expression*)callpow
)
);
/* return <callfloor> */
vec_push(body->exprs,
(ast_expression*)ast_return_new(
intrin_ctx(intrin),
(ast_expression*)callfloor
)
);
vec_push(func->blocks, body);
intrin_reg(intrin, value, func);
return (ast_expression*)value;
}
static ast_expression *intrin_lshift(intrin_t *intrin) {
return intrin_shift_variant(intrin, "lshift", INSTR_MUL_F);
}
static ast_expression *intrin_rshift(intrin_t *intrin) {
return intrin_shift_variant(intrin, "rshift", INSTR_DIV_F);
}
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/*
* TODO: make static (and handle ast_type_string) here for the builtin
* instead of in SYA parse close.
*/
ast_expression *intrin_debug_typestring(intrin_t *intrin) {
(void)intrin;
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return (ast_expression*)0x1;
}
static const intrin_func_t intrinsics[] = {
{&intrin_isfinite, "__builtin_isfinite", "isfinite", 1},
{&intrin_isinf, "__builtin_isinf", "isinf", 1},
{&intrin_isnan, "__builtin_isnan", "isnan", 1},
{&intrin_isnormal, "__builtin_isnormal", "isnormal", 1},
{&intrin_signbit, "__builtin_signbit", "signbit", 1},
{&intrin_acosh, "__builtin_acosh", "acosh", 1},
{&intrin_asinh, "__builtin_asinh", "asinh", 1},
{&intrin_atanh, "__builtin_atanh", "atanh", 1},
{&intrin_exp, "__builtin_exp", "exp", 1},
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{&intrin_exp2, "__builtin_exp2", "exp2", 1},
{&intrin_expm1, "__builtin_expm1", "expm1", 1},
{&intrin_mod, "__builtin_mod", "mod", 2},
{&intrin_pow, "__builtin_pow", "pow", 2},
{&intrin_fabs, "__builtin_fabs", "fabs", 1},
{&intrin_log, "__builtin_log", "log", 1},
{&intrin_log10, "__builtin_log10", "log10", 1},
{&intrin_log2, "__builtin_log2", "log2", 1},
{&intrin_logb, "__builtin_logb", "logb", 1},
{&intrin_lshift, "__builtin_lshift", "", 2},
{&intrin_rshift, "__builtin_rshift", "", 2},
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{&intrin_epsilon, "__builtin_epsilon", "", 0},
{&intrin_nan, "__builtin_nan", "", 0},
{&intrin_inf, "__builtin_inf", "", 0},
{&intrin_ln, "__builtin_ln", "", 2},
{&intrin_debug_typestring, "__builtin_debug_typestring", "", 0},
{&intrin_nullfunc, "#nullfunc", "", 0}
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};
static void intrin_error(intrin_t *intrin, const char *fmt, ...) {
va_list ap;
va_start(ap, fmt);
vcompile_error(intrin->parser->lex->tok.ctx, fmt, ap);
va_end(ap);
}
/* exposed */
intrin_t *intrin_init(parser_t *parser) {
intrin_t *intrin = (intrin_t*)mem_a(sizeof(intrin_t));
size_t i;
intrin->parser = parser;
intrin->fold = parser->fold;
intrin->intrinsics = NULL;
intrin->generated = NULL;
vec_append(intrin->intrinsics, GMQCC_ARRAY_COUNT(intrinsics), intrinsics);
/* populate with null pointers for tracking generation */
for (i = 0; i < GMQCC_ARRAY_COUNT(intrinsics); i++)
vec_push(intrin->generated, NULL);
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return intrin;
}
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void intrin_cleanup(intrin_t *intrin) {
vec_free(intrin->intrinsics);
vec_free(intrin->generated);
mem_d(intrin);
}
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ast_expression *intrin_fold(intrin_t *intrin, ast_value *value, ast_expression **exprs) {
size_t i;
if (!value || !value->name)
return NULL;
for (i = 0; i < vec_size(intrin->intrinsics); i++)
if (!strcmp(value->name, intrin->intrinsics[i].name))
return (vec_size(exprs) != intrin->intrinsics[i].args)
? NULL
: fold_intrin(intrin->fold, value->name + 10, exprs);
return NULL;
}
static GMQCC_INLINE ast_expression *intrin_func_try(intrin_t *intrin, size_t offset, const char *compare) {
size_t i;
for (i = 0; i < vec_size(intrin->intrinsics); i++) {
if (strcmp(*(char **)((char *)&intrin->intrinsics[i] + offset), compare))
continue;
if (intrin->generated[i])
return intrin->generated[i];
return intrin->generated[i] = intrin->intrinsics[i].intrin(intrin);
}
return NULL;
}
static ast_expression *intrin_func_self(intrin_t *intrin, const char *name, const char *from) {
size_t i;
ast_expression *find;
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/* try current first */
if ((find = parser_find_global(intrin->parser, name)) && ((ast_value*)find)->expression.vtype == TYPE_FUNCTION)
for (i = 0; i < vec_size(intrin->parser->functions); ++i)
if (((ast_value*)find)->name && !strcmp(intrin->parser->functions[i]->name, ((ast_value*)find)->name) && intrin->parser->functions[i]->builtin < 0)
return find;
/* try name second */
if ((find = intrin_func_try(intrin, offsetof(intrin_func_t, name), name)))
return find;
/* try alias third */
if ((find = intrin_func_try(intrin, offsetof(intrin_func_t, alias), name)))
return find;
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if (from) {
intrin_error(intrin, "need function `%s', compiler depends on it for `__builtin_%s'", name, from);
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return intrin_func_self(intrin, "#nullfunc", NULL);
}
return NULL;
}
ast_expression *intrin_func(intrin_t *intrin, const char *name) {
return intrin_func_self(intrin, name, NULL);
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}