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authorIan Romanick <[email protected]>2010-06-25 17:36:17 -0700
committerIan Romanick <[email protected]>2010-06-29 11:15:26 -0700
commit699b247661b1c70e890e478dba88253cad035969 (patch)
tree730f9f20996ddd2b0b8c081be413848e274ce922 /src
parent81c7e94466da19f9295b8eb5e4b5e587fea96284 (diff)
glsl2: Don't flatten constructor parameters to scalars
Now that all scalar, vector, and matrix constructors are emitted in-line, the parameters to these constructors should not be flattened to a pile of scalars. Instead, the functions that emit the in-line constructor bodies can directly write the parameters to the correct locations in the objects being constructed.
Diffstat (limited to 'src')
-rw-r--r--src/glsl/ast_function.cpp188
1 files changed, 59 insertions, 129 deletions
diff --git a/src/glsl/ast_function.cpp b/src/glsl/ast_function.cpp
index 3828d3273fd..e23d789fa98 100644
--- a/src/glsl/ast_function.cpp
+++ b/src/glsl/ast_function.cpp
@@ -903,19 +903,6 @@ ast_function_expression::hir(exec_list *instructions,
* matching rules as functions.
*/
if (constructor_type->is_numeric() || constructor_type->is_boolean()) {
- /* Constructing a numeric type has a couple steps. First all values
- * passed to the constructor are broken into individual parameters
- * and type converted to the base type of the thing being constructed.
- *
- * At that point we have some number of values that match the base
- * type of the thing being constructed. Now the constructor can be
- * treated like a function call. Each numeric type has a small set
- * of constructor functions. The set of new parameters will either
- * match one of those functions or the original constructor is
- * invalid.
- */
- const glsl_type *const base_type = constructor_type->get_base_type();
-
/* Total number of components of the type being constructed.
*/
const unsigned type_components = constructor_type->components();
@@ -944,19 +931,6 @@ ast_function_expression::hir(exec_list *instructions,
ast_node *ast = exec_node_data(ast_node, n, link);
ir_rvalue *result =
ast->hir(instructions, state)->as_rvalue();
- ir_variable *result_var = NULL;
-
- /* Attempt to convert the parameter to a constant valued expression.
- * After doing so, track whether or not all the parameters to the
- * constructor are trivially constant valued expressions.
- */
- ir_rvalue *const constant =
- result->constant_expression_value();
-
- if (constant != NULL)
- result = constant;
- else
- all_parameters_are_constant = false;
/* From page 50 (page 56 of the PDF) of the GLSL 1.50 spec:
*
@@ -985,58 +959,28 @@ ast_function_expression::hir(exec_list *instructions,
else
nonmatrix_parameters++;
- /* We can't use the same instruction node in the multiple
- * swizzle dereferences that happen, so assign it to a
- * variable and deref that. Plus it saves computation for
- * complicated expressions and handles
- * glsl-vs-constructor-call.shader_test.
+ /* Type cast the parameter and add it to the parameter list for
+ * the constructor.
*/
- if (result->type->components() >= 1 && !result->as_constant()) {
- result_var = new(ctx) ir_variable(result->type,
- "constructor_tmp");
- ir_dereference_variable *lhs;
-
- lhs = new(ctx) ir_dereference_variable(result_var);
- instructions->push_tail(new(ctx) ir_assignment(lhs,
- result, NULL));
- }
+ const glsl_type *desired_type =
+ glsl_type::get_instance(constructor_type->base_type,
+ result->type->vector_elements,
+ result->type->matrix_columns);
+ result = convert_component(result, desired_type);
- /* Process each of the components of the parameter. Dereference
- * each component individually, perform any type conversions, and
- * add it to the parameter list for the constructor.
+ /* Attempt to convert the parameter to a constant valued expression.
+ * After doing so, track whether or not all the parameters to the
+ * constructor are trivially constant valued expressions.
*/
- for (unsigned i = 0; i < result->type->components(); i++) {
- if (components_used >= type_components)
- break;
-
- ir_rvalue *component;
-
- if (result_var) {
- ir_dereference *d = new(ctx) ir_dereference_variable(result_var);
- component = dereference_component(d, i);
- } else {
- component = dereference_component(result, i);
- }
- component = convert_component(component, base_type);
-
- /* All cases that could result in component->type being the
- * error type should have already been caught above.
- */
- assert(component->type == base_type);
-
- if (component->as_constant() == NULL)
- all_parameters_are_constant = false;
+ ir_rvalue *const constant = result->constant_expression_value();
- /* Don't actually generate constructor calls for scalars.
- * Instead, do the usual component selection and conversion,
- * and return the single component.
- */
- if (constructor_type->is_scalar())
- return component;
+ if (constant != NULL)
+ result = constant;
+ else
+ all_parameters_are_constant = false;
- actual_parameters.push_tail(component);
- components_used++;
- }
+ actual_parameters.push_tail(result);
+ components_used += result->type->components();
}
/* From page 28 (page 34 of the PDF) of the GLSL 1.10 spec:
@@ -1079,65 +1023,51 @@ ast_function_expression::hir(exec_list *instructions,
return ir_call::get_error_instruction(ctx);
}
- ir_function *f = state->symbols->get_function(constructor_type->name);
- if (f == NULL) {
- _mesa_glsl_error(& loc, state, "no constructor for type `%s'",
- constructor_type->name);
- return ir_call::get_error_instruction(ctx);
- }
- const ir_function_signature *sig =
- f->matching_signature(& actual_parameters);
- if (sig != NULL) {
- /* If all of the parameters are trivially constant, create a
- * constant representing the complete collection of parameters.
+ /* If all of the parameters are trivially constant, create a
+ * constant representing the complete collection of parameters.
+ */
+ if (all_parameters_are_constant) {
+ if (components_used >= type_components)
+ return new(ctx) ir_constant(constructor_type,
+ & actual_parameters);
+
+ /* The above case must handle all scalar constructors.
*/
- if (all_parameters_are_constant) {
- if (components_used >= type_components)
- return new(ctx) ir_constant(sig->return_type,
- & actual_parameters);
-
- assert(sig->return_type->is_vector()
- || sig->return_type->is_matrix());
-
- /* Constructors with exactly one component are special for
- * vectors and matrices. For vectors it causes all elements of
- * the vector to be filled with the value. For matrices it
- * causes the matrix to be filled with 0 and the diagonal to be
- * filled with the value.
- */
- ir_constant_data data;
- ir_constant *const initializer =
- (ir_constant *) actual_parameters.head;
- if (sig->return_type->is_matrix())
- generate_constructor_matrix(sig->return_type, initializer,
- &data);
- else
- generate_constructor_vector(sig->return_type, initializer,
- &data);
-
- return new(ctx) ir_constant(sig->return_type, &data);
- } else if (constructor_type->is_vector()) {
- return emit_inline_vector_constructor(constructor_type,
- instructions,
- &actual_parameters,
- ctx);
- } else {
- assert(constructor_type->is_matrix());
- return emit_inline_matrix_constructor(constructor_type,
- instructions,
- &actual_parameters,
- ctx);
- }
- } else {
- /* FINISHME: Log a better error message here. G++ will show the
- * FINSIHME: types of the actual parameters and the set of
- * FINSIHME: candidate functions. A different error should also be
- * FINSIHME: logged when multiple functions match.
+ assert(constructor_type->is_vector()
+ || constructor_type->is_matrix());
+
+ /* Constructors with exactly one component are special for
+ * vectors and matrices. For vectors it causes all elements of
+ * the vector to be filled with the value. For matrices it
+ * causes the matrix to be filled with 0 and the diagonal to be
+ * filled with the value.
*/
- _mesa_glsl_error(& loc, state, "no matching constructor for `%s'",
- constructor_type->name);
- return ir_call::get_error_instruction(ctx);
+ ir_constant_data data;
+ ir_constant *const initializer =
+ (ir_constant *) actual_parameters.head;
+ if (constructor_type->is_matrix())
+ generate_constructor_matrix(constructor_type, initializer,
+ &data);
+ else
+ generate_constructor_vector(constructor_type, initializer,
+ &data);
+
+ return new(ctx) ir_constant(constructor_type, &data);
+ } else if (constructor_type->is_scalar()) {
+ return dereference_component((ir_rvalue *) actual_parameters.head,
+ 0);
+ } else if (constructor_type->is_vector()) {
+ return emit_inline_vector_constructor(constructor_type,
+ instructions,
+ &actual_parameters,
+ ctx);
+ } else {
+ assert(constructor_type->is_matrix());
+ return emit_inline_matrix_constructor(constructor_type,
+ instructions,
+ &actual_parameters,
+ ctx);
}
}