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author | marha <marha@users.sourceforge.net> | 2012-05-09 15:52:33 +0200 |
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committer | marha <marha@users.sourceforge.net> | 2012-05-09 15:52:33 +0200 |
commit | 8a448108ec0bc3a0a488b2234e0d12aee503c67c (patch) | |
tree | 22e71069622608062b2f5eab3ef485438cd32122 /mesalib/src/glsl/ir_constant_expression.cpp | |
parent | 62068b3bc534d504e40df34847b4436f1a496f35 (diff) | |
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libX11 mesa xserver xkeyboard-config
Diffstat (limited to 'mesalib/src/glsl/ir_constant_expression.cpp')
-rw-r--r-- | mesalib/src/glsl/ir_constant_expression.cpp | 673 |
1 files changed, 267 insertions, 406 deletions
diff --git a/mesalib/src/glsl/ir_constant_expression.cpp b/mesalib/src/glsl/ir_constant_expression.cpp index 4e1714a84..08a33285b 100644 --- a/mesalib/src/glsl/ir_constant_expression.cpp +++ b/mesalib/src/glsl/ir_constant_expression.cpp @@ -38,6 +38,7 @@ #include "ir.h" #include "ir_visitor.h" #include "glsl_types.h" +#include "program/hash_table.h" /* Using C99 rounding functions for roundToEven() implementation is * difficult, because round(), rint, and nearbyint() are affected by @@ -71,14 +72,14 @@ dot(ir_constant *op0, ir_constant *op1) } ir_constant * -ir_rvalue::constant_expression_value() +ir_rvalue::constant_expression_value(struct hash_table *variable_context) { assert(this->type->is_error()); return NULL; } ir_constant * -ir_expression::constant_expression_value() +ir_expression::constant_expression_value(struct hash_table *variable_context) { if (this->type->is_error()) return NULL; @@ -89,7 +90,7 @@ ir_expression::constant_expression_value() memset(&data, 0, sizeof(data)); for (unsigned operand = 0; operand < this->get_num_operands(); operand++) { - op[operand] = this->operands[operand]->constant_expression_value(); + op[operand] = this->operands[operand]->constant_expression_value(variable_context); if (!op[operand]) return NULL; } @@ -640,13 +641,13 @@ ir_expression::constant_expression_value() for (unsigned c = 0; c < op[0]->type->components(); c++) { switch (op[0]->type->base_type) { case GLSL_TYPE_UINT: - data.b[0] = op[0]->value.u[0] < op[1]->value.u[0]; + data.b[c] = op[0]->value.u[c] < op[1]->value.u[c]; break; case GLSL_TYPE_INT: - data.b[0] = op[0]->value.i[0] < op[1]->value.i[0]; + data.b[c] = op[0]->value.i[c] < op[1]->value.i[c]; break; case GLSL_TYPE_FLOAT: - data.b[0] = op[0]->value.f[0] < op[1]->value.f[0]; + data.b[c] = op[0]->value.f[c] < op[1]->value.f[c]; break; default: assert(0); @@ -676,13 +677,13 @@ ir_expression::constant_expression_value() for (unsigned c = 0; c < op[0]->type->components(); c++) { switch (op[0]->type->base_type) { case GLSL_TYPE_UINT: - data.b[0] = op[0]->value.u[0] <= op[1]->value.u[0]; + data.b[c] = op[0]->value.u[c] <= op[1]->value.u[c]; break; case GLSL_TYPE_INT: - data.b[0] = op[0]->value.i[0] <= op[1]->value.i[0]; + data.b[c] = op[0]->value.i[c] <= op[1]->value.i[c]; break; case GLSL_TYPE_FLOAT: - data.b[0] = op[0]->value.f[0] <= op[1]->value.f[0]; + data.b[c] = op[0]->value.f[c] <= op[1]->value.f[c]; break; default: assert(0); @@ -694,13 +695,13 @@ ir_expression::constant_expression_value() for (unsigned c = 0; c < op[0]->type->components(); c++) { switch (op[0]->type->base_type) { case GLSL_TYPE_UINT: - data.b[0] = op[0]->value.u[0] >= op[1]->value.u[0]; + data.b[c] = op[0]->value.u[c] >= op[1]->value.u[c]; break; case GLSL_TYPE_INT: - data.b[0] = op[0]->value.i[0] >= op[1]->value.i[0]; + data.b[c] = op[0]->value.i[c] >= op[1]->value.i[c]; break; case GLSL_TYPE_FLOAT: - data.b[0] = op[0]->value.f[0] >= op[1]->value.f[0]; + data.b[c] = op[0]->value.f[c] >= op[1]->value.f[c]; break; default: assert(0); @@ -886,7 +887,7 @@ ir_expression::constant_expression_value() ir_constant * -ir_texture::constant_expression_value() +ir_texture::constant_expression_value(struct hash_table *variable_context) { /* texture lookups aren't constant expressions */ return NULL; @@ -894,9 +895,9 @@ ir_texture::constant_expression_value() ir_constant * -ir_swizzle::constant_expression_value() +ir_swizzle::constant_expression_value(struct hash_table *variable_context) { - ir_constant *v = this->val->constant_expression_value(); + ir_constant *v = this->val->constant_expression_value(variable_context); if (v != NULL) { ir_constant_data data = { { 0 } }; @@ -922,13 +923,33 @@ ir_swizzle::constant_expression_value() } +void +ir_dereference_variable::constant_referenced(struct hash_table *variable_context, + ir_constant *&store, int &offset) const +{ + if (variable_context) { + store = (ir_constant *)hash_table_find(variable_context, var); + offset = 0; + } else { + store = NULL; + offset = 0; + } +} + ir_constant * -ir_dereference_variable::constant_expression_value() +ir_dereference_variable::constant_expression_value(struct hash_table *variable_context) { /* This may occur during compile and var->type is glsl_type::error_type */ if (!var) return NULL; + /* Give priority to the context hashtable, if it exists */ + if (variable_context) { + ir_constant *value = (ir_constant *)hash_table_find(variable_context, var); + if(value) + return value; + } + /* The constant_value of a uniform variable is its initializer, * not the lifetime constant value of the uniform. */ @@ -942,11 +963,65 @@ ir_dereference_variable::constant_expression_value() } +void +ir_dereference_array::constant_referenced(struct hash_table *variable_context, + ir_constant *&store, int &offset) const +{ + ir_constant *index_c = array_index->constant_expression_value(variable_context); + + if (!index_c || !index_c->type->is_scalar() || !index_c->type->is_integer()) { + store = 0; + offset = 0; + return; + } + + int index = index_c->type->base_type == GLSL_TYPE_INT ? + index_c->get_int_component(0) : + index_c->get_uint_component(0); + + ir_constant *substore; + int suboffset; + const ir_dereference *deref = array->as_dereference(); + if (!deref) { + store = 0; + offset = 0; + return; + } + + deref->constant_referenced(variable_context, substore, suboffset); + + if (!substore) { + store = 0; + offset = 0; + return; + } + + const glsl_type *vt = substore->type; + if (vt->is_array()) { + store = substore->get_array_element(index); + offset = 0; + return; + } + if (vt->is_matrix()) { + store = substore; + offset = index * vt->vector_elements; + return; + } + if (vt->is_vector()) { + store = substore; + offset = suboffset + index; + return; + } + + store = 0; + offset = 0; +} + ir_constant * -ir_dereference_array::constant_expression_value() +ir_dereference_array::constant_expression_value(struct hash_table *variable_context) { - ir_constant *array = this->array->constant_expression_value(); - ir_constant *idx = this->array_index->constant_expression_value(); + ir_constant *array = this->array->constant_expression_value(variable_context); + ir_constant *idx = this->array_index->constant_expression_value(variable_context); if ((array != NULL) && (idx != NULL)) { void *ctx = ralloc_parent(this); @@ -997,8 +1072,33 @@ ir_dereference_array::constant_expression_value() } +void +ir_dereference_record::constant_referenced(struct hash_table *variable_context, + ir_constant *&store, int &offset) const +{ + ir_constant *substore; + int suboffset; + const ir_dereference *deref = record->as_dereference(); + if (!deref) { + store = 0; + offset = 0; + return; + } + + deref->constant_referenced(variable_context, substore, suboffset); + + if (!substore) { + store = 0; + offset = 0; + return; + } + + store = substore->get_record_field(field); + offset = 0; +} + ir_constant * -ir_dereference_record::constant_expression_value() +ir_dereference_record::constant_expression_value(struct hash_table *variable_context) { ir_constant *v = this->record->constant_expression_value(); @@ -1007,7 +1107,7 @@ ir_dereference_record::constant_expression_value() ir_constant * -ir_assignment::constant_expression_value() +ir_assignment::constant_expression_value(struct hash_table *variable_context) { /* FINISHME: Handle CEs involving assignment (return RHS) */ return NULL; @@ -1015,21 +1115,130 @@ ir_assignment::constant_expression_value() ir_constant * -ir_constant::constant_expression_value() +ir_constant::constant_expression_value(struct hash_table *variable_context) { return this; } ir_constant * -ir_call::constant_expression_value() +ir_call::constant_expression_value(struct hash_table *variable_context) { - return this->callee->constant_expression_value(&this->actual_parameters); + return this->callee->constant_expression_value(&this->actual_parameters, variable_context); } +bool ir_function_signature::constant_expression_evaluate_expression_list(const struct exec_list &body, + struct hash_table *variable_context, + ir_constant **result) +{ + foreach_list(n, &body) { + ir_instruction *inst = (ir_instruction *)n; + switch(inst->ir_type) { + + /* (declare () type symbol) */ + case ir_type_variable: { + ir_variable *var = inst->as_variable(); + hash_table_insert(variable_context, ir_constant::zero(this, var->type), var); + break; + } + + /* (assign [condition] (write-mask) (ref) (value)) */ + case ir_type_assignment: { + ir_assignment *asg = inst->as_assignment(); + if (asg->condition) { + ir_constant *cond = asg->condition->constant_expression_value(variable_context); + if (!cond) + return false; + if (!cond->get_bool_component(0)) + break; + } + + ir_constant *store = NULL; + int offset = 0; + asg->lhs->constant_referenced(variable_context, store, offset); + + if (!store) + return false; + + ir_constant *value = asg->rhs->constant_expression_value(variable_context); + + if (!value) + return false; + + store->copy_masked_offset(value, offset, asg->write_mask); + break; + } + + /* (return (expression)) */ + case ir_type_return: + assert (result); + *result = inst->as_return()->value->constant_expression_value(variable_context); + return *result != NULL; + + /* (call name (ref) (params))*/ + case ir_type_call: { + ir_call *call = inst->as_call(); + + /* Just say no to void functions in constant expressions. We + * don't need them at that point. + */ + + if (!call->return_deref) + return false; + + ir_constant *store = NULL; + int offset = 0; + call->return_deref->constant_referenced(variable_context, store, offset); + + if (!store) + return false; + + ir_constant *value = call->constant_expression_value(variable_context); + + if(!value) + return false; + + store->copy_offset(value, offset); + break; + } + + /* (if condition (then-instructions) (else-instructions)) */ + case ir_type_if: { + ir_if *iif = inst->as_if(); + + ir_constant *cond = iif->condition->constant_expression_value(variable_context); + if (!cond || !cond->type->is_boolean()) + return false; + + exec_list &branch = cond->get_bool_component(0) ? iif->then_instructions : iif->else_instructions; + + *result = NULL; + if (!constant_expression_evaluate_expression_list(branch, variable_context, result)) + return false; + + /* If there was a return in the branch chosen, drop out now. */ + if (*result) + return true; + + break; + } + + /* Every other expression type, we drop out. */ + default: + return false; + } + } + + /* Reaching the end of the block is not an error condition */ + if (result) + *result = NULL; + + return true; +} + ir_constant * -ir_function_signature::constant_expression_value(exec_list *actual_parameters) +ir_function_signature::constant_expression_value(exec_list *actual_parameters, struct hash_table *variable_context) { const glsl_type *type = this->return_type; if (type == glsl_type::void_type) @@ -1042,396 +1251,48 @@ ir_function_signature::constant_expression_value(exec_list *actual_parameters) if (!this->is_builtin) return NULL; - unsigned num_parameters = 0; + /* + * Of the builtin functions, only the texture lookups and the noise + * ones must not be used in constant expressions. They all include + * specific opcodes so they don't need to be special-cased at this + * point. + */ + + /* Initialize the table of dereferencable names with the function + * parameters. Verify their const-ness on the way. + * + * We expect the correctness of the number of parameters to have + * been checked earlier. + */ + hash_table *deref_hash = hash_table_ctor(8, hash_table_pointer_hash, + hash_table_pointer_compare); + + /* If "origin" is non-NULL, then the function body is there. So we + * have to use the variable objects from the object with the body, + * but the parameter instanciation on the current object. + */ + const exec_node *parameter_info = origin ? origin->parameters.head : parameters.head; - /* Check if all parameters are constant */ - ir_constant *op[3]; foreach_list(n, actual_parameters) { - ir_constant *constant = ((ir_rvalue *) n)->constant_expression_value(); + ir_constant *constant = ((ir_rvalue *) n)->constant_expression_value(variable_context); if (constant == NULL) return NULL; - op[num_parameters] = constant; + ir_variable *var = (ir_variable *)parameter_info; + hash_table_insert(deref_hash, constant, var); - assert(num_parameters < 3); - num_parameters++; + parameter_info = parameter_info->next; } - /* Individual cases below can either: - * - Assign "expr" a new ir_expression to evaluate (for basic opcodes) - * - Fill "data" with appopriate constant data - * - Return an ir_constant directly. - */ - void *mem_ctx = ralloc_parent(this); - ir_expression *expr = NULL; - - ir_constant_data data; - memset(&data, 0, sizeof(data)); - - const char *callee = this->function_name(); - if (strcmp(callee, "abs") == 0) { - expr = new(mem_ctx) ir_expression(ir_unop_abs, type, op[0], NULL); - } else if (strcmp(callee, "all") == 0) { - assert(op[0]->type->is_boolean()); - for (unsigned c = 0; c < op[0]->type->components(); c++) { - if (!op[0]->value.b[c]) - return new(mem_ctx) ir_constant(false); - } - return new(mem_ctx) ir_constant(true); - } else if (strcmp(callee, "any") == 0) { - assert(op[0]->type->is_boolean()); - for (unsigned c = 0; c < op[0]->type->components(); c++) { - if (op[0]->value.b[c]) - return new(mem_ctx) ir_constant(true); - } - return new(mem_ctx) ir_constant(false); - } else if (strcmp(callee, "acos") == 0) { - assert(op[0]->type->is_float()); - for (unsigned c = 0; c < op[0]->type->components(); c++) - data.f[c] = acosf(op[0]->value.f[c]); - } else if (strcmp(callee, "acosh") == 0) { - assert(op[0]->type->is_float()); - for (unsigned c = 0; c < op[0]->type->components(); c++) - data.f[c] = acoshf(op[0]->value.f[c]); - } else if (strcmp(callee, "asin") == 0) { - assert(op[0]->type->is_float()); - for (unsigned c = 0; c < op[0]->type->components(); c++) - data.f[c] = asinf(op[0]->value.f[c]); - } else if (strcmp(callee, "asinh") == 0) { - assert(op[0]->type->is_float()); - for (unsigned c = 0; c < op[0]->type->components(); c++) - data.f[c] = asinhf(op[0]->value.f[c]); - } else if (strcmp(callee, "atan") == 0) { - assert(op[0]->type->is_float()); - if (num_parameters == 2) { - assert(op[1]->type->is_float()); - for (unsigned c = 0; c < op[0]->type->components(); c++) - data.f[c] = atan2f(op[0]->value.f[c], op[1]->value.f[c]); - } else { - for (unsigned c = 0; c < op[0]->type->components(); c++) - data.f[c] = atanf(op[0]->value.f[c]); - } - } else if (strcmp(callee, "atanh") == 0) { - assert(op[0]->type->is_float()); - for (unsigned c = 0; c < op[0]->type->components(); c++) - data.f[c] = atanhf(op[0]->value.f[c]); - } else if (strcmp(callee, "dFdx") == 0 || strcmp(callee, "dFdy") == 0) { - return ir_constant::zero(mem_ctx, type); - } else if (strcmp(callee, "ceil") == 0) { - expr = new(mem_ctx) ir_expression(ir_unop_ceil, type, op[0], NULL); - } else if (strcmp(callee, "clamp") == 0) { - assert(num_parameters == 3); - unsigned c1_inc = op[1]->type->is_scalar() ? 0 : 1; - unsigned c2_inc = op[2]->type->is_scalar() ? 0 : 1; - for (unsigned c = 0, c1 = 0, c2 = 0; - c < op[0]->type->components(); - c1 += c1_inc, c2 += c2_inc, c++) { - - switch (op[0]->type->base_type) { - case GLSL_TYPE_UINT: - data.u[c] = CLAMP(op[0]->value.u[c], op[1]->value.u[c1], - op[2]->value.u[c2]); - break; - case GLSL_TYPE_INT: - data.i[c] = CLAMP(op[0]->value.i[c], op[1]->value.i[c1], - op[2]->value.i[c2]); - break; - case GLSL_TYPE_FLOAT: - data.f[c] = CLAMP(op[0]->value.f[c], op[1]->value.f[c1], - op[2]->value.f[c2]); - break; - default: - assert(!"Should not get here."); - } - } - } else if (strcmp(callee, "cos") == 0) { - expr = new(mem_ctx) ir_expression(ir_unop_cos, type, op[0], NULL); - } else if (strcmp(callee, "cosh") == 0) { - assert(op[0]->type->is_float()); - for (unsigned c = 0; c < op[0]->type->components(); c++) - data.f[c] = coshf(op[0]->value.f[c]); - } else if (strcmp(callee, "cross") == 0) { - assert(op[0]->type == glsl_type::vec3_type); - assert(op[1]->type == glsl_type::vec3_type); - data.f[0] = (op[0]->value.f[1] * op[1]->value.f[2] - - op[1]->value.f[1] * op[0]->value.f[2]); - data.f[1] = (op[0]->value.f[2] * op[1]->value.f[0] - - op[1]->value.f[2] * op[0]->value.f[0]); - data.f[2] = (op[0]->value.f[0] * op[1]->value.f[1] - - op[1]->value.f[0] * op[0]->value.f[1]); - } else if (strcmp(callee, "degrees") == 0) { - assert(op[0]->type->is_float()); - for (unsigned c = 0; c < op[0]->type->components(); c++) - data.f[c] = 180.0F / M_PI * op[0]->value.f[c]; - } else if (strcmp(callee, "distance") == 0) { - assert(op[0]->type->is_float() && op[1]->type->is_float()); - float length_squared = 0.0; - for (unsigned c = 0; c < op[0]->type->components(); c++) { - float t = op[0]->value.f[c] - op[1]->value.f[c]; - length_squared += t * t; - } - return new(mem_ctx) ir_constant(sqrtf(length_squared)); - } else if (strcmp(callee, "dot") == 0) { - return new(mem_ctx) ir_constant(dot(op[0], op[1])); - } else if (strcmp(callee, "equal") == 0) { - assert(op[0]->type->is_vector() && op[1] && op[1]->type->is_vector()); - for (unsigned c = 0; c < op[0]->type->components(); c++) { - switch (op[0]->type->base_type) { - case GLSL_TYPE_UINT: - data.b[c] = op[0]->value.u[c] == op[1]->value.u[c]; - break; - case GLSL_TYPE_INT: - data.b[c] = op[0]->value.i[c] == op[1]->value.i[c]; - break; - case GLSL_TYPE_FLOAT: - data.b[c] = op[0]->value.f[c] == op[1]->value.f[c]; - break; - case GLSL_TYPE_BOOL: - data.b[c] = op[0]->value.b[c] == op[1]->value.b[c]; - break; - default: - assert(!"Should not get here."); - } - } - } else if (strcmp(callee, "exp") == 0) { - expr = new(mem_ctx) ir_expression(ir_unop_exp, type, op[0], NULL); - } else if (strcmp(callee, "exp2") == 0) { - expr = new(mem_ctx) ir_expression(ir_unop_exp2, type, op[0], NULL); - } else if (strcmp(callee, "faceforward") == 0) { - if (dot(op[2], op[1]) < 0) - return op[0]; - for (unsigned c = 0; c < op[0]->type->components(); c++) - data.f[c] = -op[0]->value.f[c]; - } else if (strcmp(callee, "floor") == 0) { - expr = new(mem_ctx) ir_expression(ir_unop_floor, type, op[0], NULL); - } else if (strcmp(callee, "fract") == 0) { - expr = new(mem_ctx) ir_expression(ir_unop_fract, type, op[0], NULL); - } else if (strcmp(callee, "fwidth") == 0) { - return ir_constant::zero(mem_ctx, type); - } else if (strcmp(callee, "greaterThan") == 0) { - assert(op[0]->type->is_vector() && op[1] && op[1]->type->is_vector()); - for (unsigned c = 0; c < op[0]->type->components(); c++) { - switch (op[0]->type->base_type) { - case GLSL_TYPE_UINT: - data.b[c] = op[0]->value.u[c] > op[1]->value.u[c]; - break; - case GLSL_TYPE_INT: - data.b[c] = op[0]->value.i[c] > op[1]->value.i[c]; - break; - case GLSL_TYPE_FLOAT: - data.b[c] = op[0]->value.f[c] > op[1]->value.f[c]; - break; - default: - assert(!"Should not get here."); - } - } - } else if (strcmp(callee, "greaterThanEqual") == 0) { - assert(op[0]->type->is_vector() && op[1] && op[1]->type->is_vector()); - for (unsigned c = 0; c < op[0]->type->components(); c++) { - switch (op[0]->type->base_type) { - case GLSL_TYPE_UINT: - data.b[c] = op[0]->value.u[c] >= op[1]->value.u[c]; - break; - case GLSL_TYPE_INT: - data.b[c] = op[0]->value.i[c] >= op[1]->value.i[c]; - break; - case GLSL_TYPE_FLOAT: - data.b[c] = op[0]->value.f[c] >= op[1]->value.f[c]; - break; - default: - assert(!"Should not get here."); - } - } - } else if (strcmp(callee, "inversesqrt") == 0) { - expr = new(mem_ctx) ir_expression(ir_unop_rsq, type, op[0], NULL); - } else if (strcmp(callee, "length") == 0) { - return new(mem_ctx) ir_constant(sqrtf(dot(op[0], op[0]))); - } else if (strcmp(callee, "lessThan") == 0) { - assert(op[0]->type->is_vector() && op[1] && op[1]->type->is_vector()); - for (unsigned c = 0; c < op[0]->type->components(); c++) { - switch (op[0]->type->base_type) { - case GLSL_TYPE_UINT: - data.b[c] = op[0]->value.u[c] < op[1]->value.u[c]; - break; - case GLSL_TYPE_INT: - data.b[c] = op[0]->value.i[c] < op[1]->value.i[c]; - break; - case GLSL_TYPE_FLOAT: - data.b[c] = op[0]->value.f[c] < op[1]->value.f[c]; - break; - default: - assert(!"Should not get here."); - } - } - } else if (strcmp(callee, "lessThanEqual") == 0) { - assert(op[0]->type->is_vector() && op[1] && op[1]->type->is_vector()); - for (unsigned c = 0; c < op[0]->type->components(); c++) { - switch (op[0]->type->base_type) { - case GLSL_TYPE_UINT: - data.b[c] = op[0]->value.u[c] <= op[1]->value.u[c]; - break; - case GLSL_TYPE_INT: - data.b[c] = op[0]->value.i[c] <= op[1]->value.i[c]; - break; - case GLSL_TYPE_FLOAT: - data.b[c] = op[0]->value.f[c] <= op[1]->value.f[c]; - break; - default: - assert(!"Should not get here."); - } - } - } else if (strcmp(callee, "log") == 0) { - expr = new(mem_ctx) ir_expression(ir_unop_log, type, op[0], NULL); - } else if (strcmp(callee, "log2") == 0) { - expr = new(mem_ctx) ir_expression(ir_unop_log2, type, op[0], NULL); - } else if (strcmp(callee, "matrixCompMult") == 0) { - assert(op[0]->type->is_float() && op[1]->type->is_float()); - for (unsigned c = 0; c < op[0]->type->components(); c++) - data.f[c] = op[0]->value.f[c] * op[1]->value.f[c]; - } else if (strcmp(callee, "max") == 0) { - expr = new(mem_ctx) ir_expression(ir_binop_max, type, op[0], op[1]); - } else if (strcmp(callee, "min") == 0) { - expr = new(mem_ctx) ir_expression(ir_binop_min, type, op[0], op[1]); - } else if (strcmp(callee, "mix") == 0) { - assert(op[0]->type->is_float() && op[1]->type->is_float()); - if (op[2]->type->is_float()) { - unsigned c2_inc = op[2]->type->is_scalar() ? 0 : 1; - unsigned components = op[0]->type->components(); - for (unsigned c = 0, c2 = 0; c < components; c2 += c2_inc, c++) { - data.f[c] = op[0]->value.f[c] * (1 - op[2]->value.f[c2]) + - op[1]->value.f[c] * op[2]->value.f[c2]; - } - } else { - assert(op[2]->type->is_boolean()); - for (unsigned c = 0; c < op[0]->type->components(); c++) - data.f[c] = op[op[2]->value.b[c] ? 1 : 0]->value.f[c]; - } - } else if (strcmp(callee, "mod") == 0) { - expr = new(mem_ctx) ir_expression(ir_binop_mod, type, op[0], op[1]); - } else if (strcmp(callee, "normalize") == 0) { - assert(op[0]->type->is_float()); - float length = sqrtf(dot(op[0], op[0])); - - if (length == 0) - return ir_constant::zero(mem_ctx, type); + ir_constant *result = NULL; - for (unsigned c = 0; c < op[0]->type->components(); c++) - data.f[c] = op[0]->value.f[c] / length; - } else if (strcmp(callee, "not") == 0) { - expr = new(mem_ctx) ir_expression(ir_unop_logic_not, type, op[0], NULL); - } else if (strcmp(callee, "notEqual") == 0) { - assert(op[0]->type->is_vector() && op[1] && op[1]->type->is_vector()); - for (unsigned c = 0; c < op[0]->type->components(); c++) { - switch (op[0]->type->base_type) { - case GLSL_TYPE_UINT: - data.b[c] = op[0]->value.u[c] != op[1]->value.u[c]; - break; - case GLSL_TYPE_INT: - data.b[c] = op[0]->value.i[c] != op[1]->value.i[c]; - break; - case GLSL_TYPE_FLOAT: - data.b[c] = op[0]->value.f[c] != op[1]->value.f[c]; - break; - case GLSL_TYPE_BOOL: - data.b[c] = op[0]->value.b[c] != op[1]->value.b[c]; - break; - default: - assert(!"Should not get here."); - } - } - } else if (strcmp(callee, "outerProduct") == 0) { - assert(op[0]->type->is_vector() && op[1]->type->is_vector()); - const unsigned m = op[0]->type->vector_elements; - const unsigned n = op[1]->type->vector_elements; - for (unsigned j = 0; j < n; j++) { - for (unsigned i = 0; i < m; i++) { - data.f[i+m*j] = op[0]->value.f[i] * op[1]->value.f[j]; - } - } - } else if (strcmp(callee, "pow") == 0) { - expr = new(mem_ctx) ir_expression(ir_binop_pow, type, op[0], op[1]); - } else if (strcmp(callee, "radians") == 0) { - assert(op[0]->type->is_float()); - for (unsigned c = 0; c < op[0]->type->components(); c++) - data.f[c] = M_PI / 180.0F * op[0]->value.f[c]; - } else if (strcmp(callee, "reflect") == 0) { - assert(op[0]->type->is_float()); - float dot_NI = dot(op[1], op[0]); - for (unsigned c = 0; c < op[0]->type->components(); c++) - data.f[c] = op[0]->value.f[c] - 2 * dot_NI * op[1]->value.f[c]; - } else if (strcmp(callee, "refract") == 0) { - const float eta = op[2]->value.f[0]; - const float dot_NI = dot(op[1], op[0]); - const float k = 1.0F - eta * eta * (1.0F - dot_NI * dot_NI); - if (k < 0.0) { - return ir_constant::zero(mem_ctx, type); - } else { - for (unsigned c = 0; c < type->components(); c++) { - data.f[c] = eta * op[0]->value.f[c] - (eta * dot_NI + sqrtf(k)) - * op[1]->value.f[c]; - } - } - } else if (strcmp(callee, "round") == 0 || - strcmp(callee, "roundEven") == 0) { - expr = new(mem_ctx) ir_expression(ir_unop_round_even, op[0]); - } else if (strcmp(callee, "sign") == 0) { - expr = new(mem_ctx) ir_expression(ir_unop_sign, type, op[0], NULL); - } else if (strcmp(callee, "sin") == 0) { - expr = new(mem_ctx) ir_expression(ir_unop_sin, type, op[0], NULL); - } else if (strcmp(callee, "sinh") == 0) { - assert(op[0]->type->is_float()); - for (unsigned c = 0; c < op[0]->type->components(); c++) - data.f[c] = sinhf(op[0]->value.f[c]); - } else if (strcmp(callee, "smoothstep") == 0) { - assert(num_parameters == 3); - assert(op[1]->type == op[0]->type); - unsigned edge_inc = op[0]->type->is_scalar() ? 0 : 1; - for (unsigned c = 0, e = 0; c < type->components(); e += edge_inc, c++) { - const float edge0 = op[0]->value.f[e]; - const float edge1 = op[1]->value.f[e]; - if (edge0 == edge1) { - data.f[c] = 0.0; /* Avoid a crash - results are undefined anyway */ - } else { - const float numerator = op[2]->value.f[c] - edge0; - const float denominator = edge1 - edge0; - const float t = CLAMP(numerator/denominator, 0, 1); - data.f[c] = t * t * (3 - 2 * t); - } - } - } else if (strcmp(callee, "sqrt") == 0) { - expr = new(mem_ctx) ir_expression(ir_unop_sqrt, type, op[0], NULL); - } else if (strcmp(callee, "step") == 0) { - assert(op[0]->type->is_float() && op[1]->type->is_float()); - /* op[0] (edge) may be either a scalar or a vector */ - const unsigned c0_inc = op[0]->type->is_scalar() ? 0 : 1; - for (unsigned c = 0, c0 = 0; c < type->components(); c0 += c0_inc, c++) - data.f[c] = (op[1]->value.f[c] < op[0]->value.f[c0]) ? 0.0F : 1.0F; - } else if (strcmp(callee, "tan") == 0) { - assert(op[0]->type->is_float()); - for (unsigned c = 0; c < op[0]->type->components(); c++) - data.f[c] = tanf(op[0]->value.f[c]); - } else if (strcmp(callee, "tanh") == 0) { - assert(op[0]->type->is_float()); - for (unsigned c = 0; c < op[0]->type->components(); c++) - data.f[c] = tanhf(op[0]->value.f[c]); - } else if (strcmp(callee, "transpose") == 0) { - assert(op[0]->type->is_matrix()); - const unsigned n = op[0]->type->vector_elements; - const unsigned m = op[0]->type->matrix_columns; - for (unsigned j = 0; j < m; j++) { - for (unsigned i = 0; i < n; i++) { - data.f[m*i+j] += op[0]->value.f[i+n*j]; - } - } - } else if (strcmp(callee, "trunc") == 0) { - expr = new(mem_ctx) ir_expression(ir_unop_trunc, op[0]); - } else { - /* Unsupported builtin - some are not allowed in constant expressions. */ - return NULL; - } + /* Now run the builtin function until something non-constant + * happens or we get the result. + */ + if (constant_expression_evaluate_expression_list(origin ? origin->body : body, deref_hash, &result) && result) + result = result->clone(ralloc_parent(this), NULL); - if (expr != NULL) - return expr->constant_expression_value(); + hash_table_dtor(deref_hash); - return new(mem_ctx) ir_constant(type, &data); + return result; } |