return (a.x && a.y && a.z);
}
+static GMQCC_INLINE vec3_t vec3_cross(vec3_t a, vec3_t b) {
+ vec3_t out;
+ out.x = a.y * b.z - a.z * b.y;
+ out.y = a.z * b.x - a.x * b.z;
+ out.z = a.x * b.y - a.y * b.x;
+ return out;
+}
+
static lex_ctx_t fold_ctx(fold_t *fold) {
lex_ctx_t ctx;
if (fold->parser->lex)
((ast_expression*)(X))->vtype != TYPE_FUNCTION)
#define fold_can_2(X, Y) (fold_can_1(X) && fold_can_1(Y))
-#define fold_can_div(X) (fold_immvalue_float(X) != 0.0f)
#define fold_immvalue_float(E) ((E)->constval.vfloat)
#define fold_immvalue_vector(E) ((E)->constval.vvec)
#define fold_immvalue_string(E) ((E)->constval.vstring)
-#ifdef INFINITY
-# define fold_infinity_float INFINITY
-#else
-# define fold_infinity_float (1.0 / 0.0)
-#endif /*! INFINITY */
-
-#define fold_infinity_vector \
- vec3_create( \
- fold_infinity_float, \
- fold_infinity_float, \
- fold_infinity_float \
- )
-
fold_t *fold_init(parser_t *parser) {
fold_t *fold = (fold_t*)mem_a(sizeof(fold_t));
fold->parser = parser;
(void)fold_constgen_float (fold, 0.0f);
(void)fold_constgen_float (fold, 1.0f);
(void)fold_constgen_float (fold, -1.0f);
- (void)fold_constgen_float (fold, fold_infinity_float); /* +inf */
(void)fold_constgen_vector(fold, vec3_create(0.0f, 0.0f, 0.0f));
(void)fold_constgen_vector(fold, vec3_create(-1.0f, -1.0f, -1.0f));
- (void)fold_constgen_vector(fold, fold_infinity_vector); /* +inf */
return fold;
}
size_t i;
for (i = 0; i < vec_size(fold->imm_float); i++) {
- if (fold->imm_float[i]->constval.vfloat == value)
+ if (!memcmp(&fold->imm_float[i]->constval.vfloat, &value, sizeof(qcfloat_t)))
return (ast_expression*)fold->imm_float[i];
}
out = (ast_expression*)ast_member_new(fold_ctx(fold), (ast_expression*)sel, set[0]-'x', NULL);
out->node.keep = false;
((ast_member*)out)->rvalue = true;
- if (x != -1)
+ if (x != -1.0f)
return (ast_expression*)ast_binary_new(fold_ctx(fold), INSTR_MUL_F, fold_constgen_float(fold, x), out);
}
return NULL;
static GMQCC_INLINE ast_expression *fold_op_div(fold_t *fold, ast_value *a, ast_value *b) {
if (isfloat(a)) {
if (fold_can_2(a, b)) {
- if (fold_can_div(b))
- return fold_constgen_float(fold, fold_immvalue_float(a) / fold_immvalue_float(b));
- else
- return (ast_expression*)fold->imm_float[3]; /* inf */
+ return fold_constgen_float(fold, fold_immvalue_float(a) / fold_immvalue_float(b));
+ } else if (fold_can_1(b)) {
+ return (ast_expression*)ast_binary_new(
+ fold_ctx(fold),
+ INSTR_MUL_F,
+ (ast_expression*)a,
+ fold_constgen_float(fold, 1.0f / fold_immvalue_float(b))
+ );
}
} else if (isvector(a)) {
if (fold_can_2(a, b)) {
- if (fold_can_div(b)) {
- printf("hit wrong logic\n");
- return fold_constgen_vector(fold, vec3_mulvf(fold_immvalue_vector(a), 1.0f / fold_immvalue_float(b)));
- }
- else {
- printf("hit logic\n");
- return (ast_expression*)fold->imm_vector[2]; /* inf */
- }
+ return fold_constgen_vector(fold, vec3_mulvf(fold_immvalue_vector(a), 1.0f / fold_immvalue_float(b)));
} else {
return (ast_expression*)ast_binary_new(
fold_ctx(fold),
}
static GMQCC_INLINE ast_expression *fold_op_mod(fold_t *fold, ast_value *a, ast_value *b) {
- if (fold_can_2(a, b)) {
- if (fold_can_div(b))
- return fold_constgen_float(fold, (qcfloat_t)(((qcint_t)fold_immvalue_float(a)) % ((qcint_t)fold_immvalue_float(b))));
- else
- return (ast_expression*)fold->imm_float[3]; /* inf */
- }
- return NULL;
+ return (fold_can_2(a, b))
+ ? fold_constgen_float(fold, fmod(fold_immvalue_float(a), fold_immvalue_float(b)))
+ : NULL;
}
static GMQCC_INLINE ast_expression *fold_op_bor(fold_t *fold, ast_value *a, ast_value *b) {
return NULL;
}
+static GMQCC_INLINE ast_expression *fold_op_cross(fold_t *fold, ast_value *a, ast_value *b) {
+ if (fold_can_2(a, b))
+ return fold_constgen_vector(fold, vec3_cross(fold_immvalue_vector(a), fold_immvalue_vector(b)));
+ return NULL;
+}
+
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];
fold_op_case(2, ('!', '='), cmp, (fold, a, b, true));
fold_op_case(2, ('=', '='), cmp, (fold, a, b, false));
fold_op_case(2, ('~', 'P'), bnot, (fold, a));
+ fold_op_case(2, ('>', '<'), cross, (fold, a, b));
}
#undef fold_op_case
compile_error(fold_ctx(fold), "internal error: attempted to constant-fold for unsupported operator");
}
ast_expression *fold_intrin(fold_t *fold, const char *intrin, ast_expression **arg) {
- if (!strcmp(intrin, "mod")) return fold_intrin_mod (fold, (ast_value*)arg[0], (ast_value*)arg[1]);
- if (!strcmp(intrin, "pow")) return fold_intrin_pow (fold, (ast_value*)arg[0], (ast_value*)arg[1]);
- if (!strcmp(intrin, "exp")) return fold_intrin_exp (fold, (ast_value*)arg[0]);
- if (!strcmp(intrin, "isnan")) return fold_intrin_isnan(fold, (ast_value*)arg[0]);
- if (!strcmp(intrin, "fabs")) return fold_intrin_fabs (fold, (ast_value*)arg[0]);
+ ast_expression *ret = NULL;
- return NULL;
+ if (!strcmp(intrin, "mod")) ret = fold_intrin_mod (fold, (ast_value*)arg[0], (ast_value*)arg[1]);
+ if (!strcmp(intrin, "pow")) ret = fold_intrin_pow (fold, (ast_value*)arg[0], (ast_value*)arg[1]);
+ if (!strcmp(intrin, "exp")) ret = fold_intrin_exp (fold, (ast_value*)arg[0]);
+ if (!strcmp(intrin, "isnan")) ret = fold_intrin_isnan(fold, (ast_value*)arg[0]);
+ if (!strcmp(intrin, "fabs")) ret = fold_intrin_fabs (fold, (ast_value*)arg[0]);
+
+ if (ret)
+ ++opts_optimizationcount[OPTIM_CONST_FOLD];
+
+ return ret;
}
/*
/*#define isstring(X) ((X)->vtype == TYPE_STRING)*/
/*#define isvector(X) ((X)->vtype == TYPE_VECTOR)*/
#define fold_immvalue_float(X) ((X)->constval.vfloat)
-/*#define fold_immvalue_vector(X) ((X)->constval.vvec)*/
+#define fold_immvalue_vector(X) ((X)->constval.vvec)
/*#define fold_immvalue_string(X) ((X)->constval.vstring)*/
#define fold_can_1(X) ((X)->hasvalue && (X)->cvq == CV_CONST)
/*#define fold_can_2(X,Y) (fold_can_1(X) && fold_can_1(Y))*/
+static ast_expression *fold_superfluous(ast_expression *left, ast_expression *right, int op) {
+ ast_expression *swapped = NULL; /* using this as bool */
+ ast_value *load;
+
+ if (!ast_istype(right, ast_value) || !fold_can_1((load = (ast_value*)right))) {
+ swapped = left;
+ left = right;
+ right = swapped;
+ }
+
+ if (!ast_istype(right, ast_value) || !fold_can_1((load = (ast_value*)right)))
+ return NULL;
-int fold_cond(ir_value *condval, ast_function *func, ast_ifthen *branch) {
+ switch (op) {
+ case INSTR_DIV_F:
+ if (swapped)
+ return NULL;
+ case INSTR_MUL_F:
+ if (fold_immvalue_float(load) == 1.0f) {
+ ++opts_optimizationcount[OPTIM_PEEPHOLE];
+ ast_unref(right);
+ return left;
+ }
+ break;
+
+
+ case INSTR_ADD_F:
+ case INSTR_SUB_F:
+ if (fold_immvalue_float(load) == 0.0f) {
+ ++opts_optimizationcount[OPTIM_PEEPHOLE];
+ ast_unref(right);
+ return left;
+ }
+ break;
+
+ case INSTR_MUL_V:
+ if (vec3_cmp(fold_immvalue_vector(load), vec3_create(1, 1, 1))) {
+ ++opts_optimizationcount[OPTIM_PEEPHOLE];
+ ast_unref(right);
+ return left;
+ }
+ break;
+
+ case INSTR_ADD_V:
+ case INSTR_SUB_V:
+ if (vec3_cmp(fold_immvalue_vector(load), vec3_create(0, 0, 0))) {
+ ++opts_optimizationcount[OPTIM_PEEPHOLE];
+ ast_unref(right);
+ return left;
+ }
+ break;
+ }
+
+ return NULL;
+}
+
+ast_expression *fold_binary(lex_ctx_t ctx, int op, ast_expression *left, ast_expression *right) {
+ ast_expression *ret = fold_superfluous(left, right, op);
+ if (ret)
+ return ret;
+ return (ast_expression*)ast_binary_new(ctx, op, left, right);
+}
+
+static GMQCC_INLINE int fold_cond(ir_value *condval, ast_function *func, ast_ifthen *branch) {
if (isfloat(condval) && fold_can_1(condval) && OPTS_OPTIMIZATION(OPTIM_CONST_FOLD_DCE)) {
ast_expression_codegen *cgen;
ir_block *elide;
}
return -1; /* nothing done */
}
+
+int fold_cond_ternary(ir_value *condval, ast_function *func, ast_ternary *branch) {
+ return fold_cond(condval, func, (ast_ifthen*)branch);
+}
+
+int fold_cond_ifthen(ir_value *condval, ast_function *func, ast_ifthen *branch) {
+ return fold_cond(condval, func, branch);
+}
projects / xonotic / gmqcc.git / blobdiff