614 lines
23 KiB
C++
614 lines
23 KiB
C++
// Copyright (c) 2017 Google Inc.
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//
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// Licensed under the Apache License, Version 2.0 (the "License");
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// you may not use this file except in compliance with the License.
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// You may obtain a copy of the License at
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//
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// http://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing, software
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// distributed under the License is distributed on an "AS IS" BASIS,
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// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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// See the License for the specific language governing permissions and
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// limitations under the License.
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// Validates correctness of composite SPIR-V instructions.
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#include "source/val/validate.h"
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#include "source/diagnostic.h"
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#include "source/opcode.h"
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#include "source/spirv_target_env.h"
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#include "source/val/instruction.h"
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#include "source/val/validation_state.h"
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namespace spvtools {
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namespace val {
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namespace {
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// Returns the type of the value accessed by OpCompositeExtract or
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// OpCompositeInsert instruction. The function traverses the hierarchy of
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// nested data structures (structs, arrays, vectors, matrices) as directed by
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// the sequence of indices in the instruction. May return error if traversal
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// fails (encountered non-composite, out of bounds, nesting too deep).
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// Returns the type of Composite operand if the instruction has no indices.
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spv_result_t GetExtractInsertValueType(ValidationState_t& _,
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const Instruction* inst,
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uint32_t* member_type) {
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const SpvOp opcode = inst->opcode();
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assert(opcode == SpvOpCompositeExtract || opcode == SpvOpCompositeInsert);
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uint32_t word_index = opcode == SpvOpCompositeExtract ? 4 : 5;
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const uint32_t num_words = static_cast<uint32_t>(inst->words().size());
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const uint32_t composite_id_index = word_index - 1;
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const uint32_t num_indices = num_words - word_index;
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const uint32_t kCompositeExtractInsertMaxNumIndices = 255;
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if (num_indices > kCompositeExtractInsertMaxNumIndices) {
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return _.diag(SPV_ERROR_INVALID_DATA, inst)
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<< "The number of indexes in Op" << spvOpcodeString(opcode)
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<< " may not exceed " << kCompositeExtractInsertMaxNumIndices
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<< ". Found " << num_indices << " indexes.";
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}
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*member_type = _.GetTypeId(inst->word(composite_id_index));
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if (*member_type == 0) {
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return _.diag(SPV_ERROR_INVALID_DATA, inst)
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<< "Expected Composite to be an object of composite type";
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}
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for (; word_index < num_words; ++word_index) {
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const uint32_t component_index = inst->word(word_index);
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const Instruction* const type_inst = _.FindDef(*member_type);
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assert(type_inst);
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switch (type_inst->opcode()) {
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case SpvOpTypeVector: {
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*member_type = type_inst->word(2);
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const uint32_t vector_size = type_inst->word(3);
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if (component_index >= vector_size) {
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return _.diag(SPV_ERROR_INVALID_DATA, inst)
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<< "Vector access is out of bounds, vector size is "
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<< vector_size << ", but access index is " << component_index;
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}
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break;
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}
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case SpvOpTypeMatrix: {
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*member_type = type_inst->word(2);
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const uint32_t num_cols = type_inst->word(3);
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if (component_index >= num_cols) {
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return _.diag(SPV_ERROR_INVALID_DATA, inst)
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<< "Matrix access is out of bounds, matrix has " << num_cols
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<< " columns, but access index is " << component_index;
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}
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break;
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}
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case SpvOpTypeArray: {
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uint64_t array_size = 0;
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auto size = _.FindDef(type_inst->word(3));
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*member_type = type_inst->word(2);
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if (spvOpcodeIsSpecConstant(size->opcode())) {
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// Cannot verify against the size of this array.
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break;
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}
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if (!_.GetConstantValUint64(type_inst->word(3), &array_size)) {
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assert(0 && "Array type definition is corrupt");
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}
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if (component_index >= array_size) {
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return _.diag(SPV_ERROR_INVALID_DATA, inst)
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<< "Array access is out of bounds, array size is "
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<< array_size << ", but access index is " << component_index;
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}
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break;
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}
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case SpvOpTypeRuntimeArray: {
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*member_type = type_inst->word(2);
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// Array size is unknown.
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break;
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}
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case SpvOpTypeStruct: {
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const size_t num_struct_members = type_inst->words().size() - 2;
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if (component_index >= num_struct_members) {
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return _.diag(SPV_ERROR_INVALID_DATA, inst)
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<< "Index is out of bounds, can not find index "
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<< component_index << " in the structure <id> '"
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<< type_inst->id() << "'. This structure has "
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<< num_struct_members << " members. Largest valid index is "
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<< num_struct_members - 1 << ".";
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}
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*member_type = type_inst->word(component_index + 2);
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break;
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}
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case SpvOpTypeCooperativeMatrixNV: {
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*member_type = type_inst->word(2);
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break;
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}
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default:
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return _.diag(SPV_ERROR_INVALID_DATA, inst)
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<< "Reached non-composite type while indexes still remain to "
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"be traversed.";
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}
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}
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return SPV_SUCCESS;
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}
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spv_result_t ValidateVectorExtractDynamic(ValidationState_t& _,
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const Instruction* inst) {
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const uint32_t result_type = inst->type_id();
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const SpvOp result_opcode = _.GetIdOpcode(result_type);
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if (!spvOpcodeIsScalarType(result_opcode)) {
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return _.diag(SPV_ERROR_INVALID_DATA, inst)
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<< "Expected Result Type to be a scalar type";
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}
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const uint32_t vector_type = _.GetOperandTypeId(inst, 2);
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const SpvOp vector_opcode = _.GetIdOpcode(vector_type);
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if (vector_opcode != SpvOpTypeVector) {
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return _.diag(SPV_ERROR_INVALID_DATA, inst)
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<< "Expected Vector type to be OpTypeVector";
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}
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if (_.GetComponentType(vector_type) != result_type) {
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return _.diag(SPV_ERROR_INVALID_DATA, inst)
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<< "Expected Vector component type to be equal to Result Type";
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}
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const auto index = _.FindDef(inst->GetOperandAs<uint32_t>(3));
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if (!index || index->type_id() == 0 || !_.IsIntScalarType(index->type_id())) {
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return _.diag(SPV_ERROR_INVALID_DATA, inst)
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<< "Expected Index to be int scalar";
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}
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if (_.HasCapability(SpvCapabilityShader) &&
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_.ContainsLimitedUseIntOrFloatType(inst->type_id())) {
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return _.diag(SPV_ERROR_INVALID_DATA, inst)
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<< "Cannot extract from a vector of 8- or 16-bit types";
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}
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return SPV_SUCCESS;
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}
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spv_result_t ValidateVectorInsertDyanmic(ValidationState_t& _,
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const Instruction* inst) {
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const uint32_t result_type = inst->type_id();
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const SpvOp result_opcode = _.GetIdOpcode(result_type);
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if (result_opcode != SpvOpTypeVector) {
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return _.diag(SPV_ERROR_INVALID_DATA, inst)
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<< "Expected Result Type to be OpTypeVector";
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}
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const uint32_t vector_type = _.GetOperandTypeId(inst, 2);
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if (vector_type != result_type) {
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return _.diag(SPV_ERROR_INVALID_DATA, inst)
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<< "Expected Vector type to be equal to Result Type";
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}
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const uint32_t component_type = _.GetOperandTypeId(inst, 3);
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if (_.GetComponentType(result_type) != component_type) {
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return _.diag(SPV_ERROR_INVALID_DATA, inst)
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<< "Expected Component type to be equal to Result Type "
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<< "component type";
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}
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const uint32_t index_type = _.GetOperandTypeId(inst, 4);
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if (!_.IsIntScalarType(index_type)) {
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return _.diag(SPV_ERROR_INVALID_DATA, inst)
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<< "Expected Index to be int scalar";
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}
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if (_.HasCapability(SpvCapabilityShader) &&
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_.ContainsLimitedUseIntOrFloatType(inst->type_id())) {
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return _.diag(SPV_ERROR_INVALID_DATA, inst)
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<< "Cannot insert into a vector of 8- or 16-bit types";
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}
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return SPV_SUCCESS;
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}
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spv_result_t ValidateCompositeConstruct(ValidationState_t& _,
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const Instruction* inst) {
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const uint32_t num_operands = static_cast<uint32_t>(inst->operands().size());
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const uint32_t result_type = inst->type_id();
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const SpvOp result_opcode = _.GetIdOpcode(result_type);
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switch (result_opcode) {
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case SpvOpTypeVector: {
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const uint32_t num_result_components = _.GetDimension(result_type);
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const uint32_t result_component_type = _.GetComponentType(result_type);
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uint32_t given_component_count = 0;
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if (num_operands <= 3) {
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return _.diag(SPV_ERROR_INVALID_DATA, inst)
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<< "Expected number of constituents to be at least 2";
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}
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for (uint32_t operand_index = 2; operand_index < num_operands;
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++operand_index) {
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const uint32_t operand_type = _.GetOperandTypeId(inst, operand_index);
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if (operand_type == result_component_type) {
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++given_component_count;
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} else {
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if (_.GetIdOpcode(operand_type) != SpvOpTypeVector ||
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_.GetComponentType(operand_type) != result_component_type) {
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return _.diag(SPV_ERROR_INVALID_DATA, inst)
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<< "Expected Constituents to be scalars or vectors of"
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<< " the same type as Result Type components";
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}
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given_component_count += _.GetDimension(operand_type);
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}
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}
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if (num_result_components != given_component_count) {
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return _.diag(SPV_ERROR_INVALID_DATA, inst)
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<< "Expected total number of given components to be equal "
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<< "to the size of Result Type vector";
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}
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break;
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}
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case SpvOpTypeMatrix: {
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uint32_t result_num_rows = 0;
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uint32_t result_num_cols = 0;
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uint32_t result_col_type = 0;
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uint32_t result_component_type = 0;
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if (!_.GetMatrixTypeInfo(result_type, &result_num_rows, &result_num_cols,
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&result_col_type, &result_component_type)) {
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assert(0);
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}
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if (result_num_cols + 2 != num_operands) {
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return _.diag(SPV_ERROR_INVALID_DATA, inst)
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<< "Expected total number of Constituents to be equal "
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<< "to the number of columns of Result Type matrix";
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}
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for (uint32_t operand_index = 2; operand_index < num_operands;
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++operand_index) {
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const uint32_t operand_type = _.GetOperandTypeId(inst, operand_index);
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if (operand_type != result_col_type) {
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return _.diag(SPV_ERROR_INVALID_DATA, inst)
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<< "Expected Constituent type to be equal to the column "
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<< "type Result Type matrix";
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}
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}
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break;
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}
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case SpvOpTypeArray: {
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const Instruction* const array_inst = _.FindDef(result_type);
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assert(array_inst);
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assert(array_inst->opcode() == SpvOpTypeArray);
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auto size = _.FindDef(array_inst->word(3));
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if (spvOpcodeIsSpecConstant(size->opcode())) {
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// Cannot verify against the size of this array.
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break;
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}
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uint64_t array_size = 0;
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if (!_.GetConstantValUint64(array_inst->word(3), &array_size)) {
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assert(0 && "Array type definition is corrupt");
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}
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if (array_size + 2 != num_operands) {
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return _.diag(SPV_ERROR_INVALID_DATA, inst)
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<< "Expected total number of Constituents to be equal "
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<< "to the number of elements of Result Type array";
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}
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const uint32_t result_component_type = array_inst->word(2);
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for (uint32_t operand_index = 2; operand_index < num_operands;
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++operand_index) {
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const uint32_t operand_type = _.GetOperandTypeId(inst, operand_index);
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if (operand_type != result_component_type) {
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return _.diag(SPV_ERROR_INVALID_DATA, inst)
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<< "Expected Constituent type to be equal to the column "
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<< "type Result Type array";
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}
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}
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break;
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}
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case SpvOpTypeStruct: {
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const Instruction* const struct_inst = _.FindDef(result_type);
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assert(struct_inst);
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assert(struct_inst->opcode() == SpvOpTypeStruct);
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if (struct_inst->operands().size() + 1 != num_operands) {
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return _.diag(SPV_ERROR_INVALID_DATA, inst)
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<< "Expected total number of Constituents to be equal "
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<< "to the number of members of Result Type struct";
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}
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for (uint32_t operand_index = 2; operand_index < num_operands;
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++operand_index) {
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const uint32_t operand_type = _.GetOperandTypeId(inst, operand_index);
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const uint32_t member_type = struct_inst->word(operand_index);
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if (operand_type != member_type) {
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return _.diag(SPV_ERROR_INVALID_DATA, inst)
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<< "Expected Constituent type to be equal to the "
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<< "corresponding member type of Result Type struct";
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}
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}
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break;
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}
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case SpvOpTypeCooperativeMatrixNV: {
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const auto result_type_inst = _.FindDef(result_type);
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assert(result_type_inst);
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const auto component_type_id =
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result_type_inst->GetOperandAs<uint32_t>(1);
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if (3 != num_operands) {
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return _.diag(SPV_ERROR_INVALID_DATA, inst)
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<< "Expected single constituent";
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}
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const uint32_t operand_type_id = _.GetOperandTypeId(inst, 2);
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if (operand_type_id != component_type_id) {
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return _.diag(SPV_ERROR_INVALID_DATA, inst)
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<< "Expected Constituent type to be equal to the component type";
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}
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break;
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}
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default: {
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return _.diag(SPV_ERROR_INVALID_DATA, inst)
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<< "Expected Result Type to be a composite type";
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}
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}
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if (_.HasCapability(SpvCapabilityShader) &&
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_.ContainsLimitedUseIntOrFloatType(inst->type_id())) {
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return _.diag(SPV_ERROR_INVALID_DATA, inst)
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<< "Cannot create a composite containing 8- or 16-bit types";
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}
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return SPV_SUCCESS;
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}
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spv_result_t ValidateCompositeExtract(ValidationState_t& _,
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const Instruction* inst) {
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uint32_t member_type = 0;
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if (spv_result_t error = GetExtractInsertValueType(_, inst, &member_type)) {
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return error;
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}
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const uint32_t result_type = inst->type_id();
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if (result_type != member_type) {
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return _.diag(SPV_ERROR_INVALID_DATA, inst)
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<< "Result type (Op" << spvOpcodeString(_.GetIdOpcode(result_type))
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<< ") does not match the type that results from indexing into "
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"the composite (Op"
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<< spvOpcodeString(_.GetIdOpcode(member_type)) << ").";
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}
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if (_.HasCapability(SpvCapabilityShader) &&
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_.ContainsLimitedUseIntOrFloatType(inst->type_id())) {
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return _.diag(SPV_ERROR_INVALID_DATA, inst)
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<< "Cannot extract from a composite of 8- or 16-bit types";
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}
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return SPV_SUCCESS;
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}
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spv_result_t ValidateCompositeInsert(ValidationState_t& _,
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const Instruction* inst) {
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const SpvOp opcode = inst->opcode();
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const uint32_t object_type = _.GetOperandTypeId(inst, 2);
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const uint32_t composite_type = _.GetOperandTypeId(inst, 3);
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const uint32_t result_type = inst->type_id();
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if (result_type != composite_type) {
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return _.diag(SPV_ERROR_INVALID_DATA, inst)
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<< "The Result Type must be the same as Composite type in Op"
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<< spvOpcodeString(opcode) << " yielding Result Id " << result_type
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<< ".";
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}
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uint32_t member_type = 0;
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if (spv_result_t error = GetExtractInsertValueType(_, inst, &member_type)) {
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return error;
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}
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if (object_type != member_type) {
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return _.diag(SPV_ERROR_INVALID_DATA, inst)
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<< "The Object type (Op"
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<< spvOpcodeString(_.GetIdOpcode(object_type))
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<< ") does not match the type that results from indexing into the "
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"Composite (Op"
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<< spvOpcodeString(_.GetIdOpcode(member_type)) << ").";
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}
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if (_.HasCapability(SpvCapabilityShader) &&
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_.ContainsLimitedUseIntOrFloatType(inst->type_id())) {
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return _.diag(SPV_ERROR_INVALID_DATA, inst)
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<< "Cannot insert into a composite of 8- or 16-bit types";
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}
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return SPV_SUCCESS;
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}
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spv_result_t ValidateCopyObject(ValidationState_t& _, const Instruction* inst) {
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const uint32_t result_type = inst->type_id();
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const uint32_t operand_type = _.GetOperandTypeId(inst, 2);
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if (operand_type != result_type) {
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return _.diag(SPV_ERROR_INVALID_DATA, inst)
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<< "Expected Result Type and Operand type to be the same";
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}
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return SPV_SUCCESS;
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}
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spv_result_t ValidateTranspose(ValidationState_t& _, const Instruction* inst) {
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uint32_t result_num_rows = 0;
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uint32_t result_num_cols = 0;
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uint32_t result_col_type = 0;
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uint32_t result_component_type = 0;
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const uint32_t result_type = inst->type_id();
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if (!_.GetMatrixTypeInfo(result_type, &result_num_rows, &result_num_cols,
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&result_col_type, &result_component_type)) {
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return _.diag(SPV_ERROR_INVALID_DATA, inst)
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<< "Expected Result Type to be a matrix type";
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}
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const uint32_t matrix_type = _.GetOperandTypeId(inst, 2);
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uint32_t matrix_num_rows = 0;
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uint32_t matrix_num_cols = 0;
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uint32_t matrix_col_type = 0;
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uint32_t matrix_component_type = 0;
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if (!_.GetMatrixTypeInfo(matrix_type, &matrix_num_rows, &matrix_num_cols,
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&matrix_col_type, &matrix_component_type)) {
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return _.diag(SPV_ERROR_INVALID_DATA, inst)
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<< "Expected Matrix to be of type OpTypeMatrix";
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}
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if (result_component_type != matrix_component_type) {
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return _.diag(SPV_ERROR_INVALID_DATA, inst)
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<< "Expected component types of Matrix and Result Type to be "
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|
<< "identical";
|
|
}
|
|
|
|
if (result_num_rows != matrix_num_cols ||
|
|
result_num_cols != matrix_num_rows) {
|
|
return _.diag(SPV_ERROR_INVALID_DATA, inst)
|
|
<< "Expected number of columns and the column size of Matrix "
|
|
<< "to be the reverse of those of Result Type";
|
|
}
|
|
|
|
if (_.HasCapability(SpvCapabilityShader) &&
|
|
_.ContainsLimitedUseIntOrFloatType(inst->type_id())) {
|
|
return _.diag(SPV_ERROR_INVALID_DATA, inst)
|
|
<< "Cannot transpose matrices of 16-bit floats";
|
|
}
|
|
return SPV_SUCCESS;
|
|
}
|
|
|
|
spv_result_t ValidateVectorShuffle(ValidationState_t& _,
|
|
const Instruction* inst) {
|
|
auto resultType = _.FindDef(inst->type_id());
|
|
if (!resultType || resultType->opcode() != SpvOpTypeVector) {
|
|
return _.diag(SPV_ERROR_INVALID_ID, inst)
|
|
<< "The Result Type of OpVectorShuffle must be"
|
|
<< " OpTypeVector. Found Op"
|
|
<< spvOpcodeString(static_cast<SpvOp>(resultType->opcode())) << ".";
|
|
}
|
|
|
|
// The number of components in Result Type must be the same as the number of
|
|
// Component operands.
|
|
auto componentCount = inst->operands().size() - 4;
|
|
auto resultVectorDimension = resultType->GetOperandAs<uint32_t>(2);
|
|
if (componentCount != resultVectorDimension) {
|
|
return _.diag(SPV_ERROR_INVALID_ID, inst)
|
|
<< "OpVectorShuffle component literals count does not match "
|
|
"Result Type <id> '"
|
|
<< _.getIdName(resultType->id()) << "'s vector component count.";
|
|
}
|
|
|
|
// Vector 1 and Vector 2 must both have vector types, with the same Component
|
|
// Type as Result Type.
|
|
auto vector1Object = _.FindDef(inst->GetOperandAs<uint32_t>(2));
|
|
auto vector1Type = _.FindDef(vector1Object->type_id());
|
|
auto vector2Object = _.FindDef(inst->GetOperandAs<uint32_t>(3));
|
|
auto vector2Type = _.FindDef(vector2Object->type_id());
|
|
if (!vector1Type || vector1Type->opcode() != SpvOpTypeVector) {
|
|
return _.diag(SPV_ERROR_INVALID_ID, inst)
|
|
<< "The type of Vector 1 must be OpTypeVector.";
|
|
}
|
|
if (!vector2Type || vector2Type->opcode() != SpvOpTypeVector) {
|
|
return _.diag(SPV_ERROR_INVALID_ID, inst)
|
|
<< "The type of Vector 2 must be OpTypeVector.";
|
|
}
|
|
|
|
auto resultComponentType = resultType->GetOperandAs<uint32_t>(1);
|
|
if (vector1Type->GetOperandAs<uint32_t>(1) != resultComponentType) {
|
|
return _.diag(SPV_ERROR_INVALID_ID, inst)
|
|
<< "The Component Type of Vector 1 must be the same as ResultType.";
|
|
}
|
|
if (vector2Type->GetOperandAs<uint32_t>(1) != resultComponentType) {
|
|
return _.diag(SPV_ERROR_INVALID_ID, inst)
|
|
<< "The Component Type of Vector 2 must be the same as ResultType.";
|
|
}
|
|
|
|
// All Component literals must either be FFFFFFFF or in [0, N - 1].
|
|
// For WebGPU specifically, Component literals cannot be FFFFFFFF.
|
|
auto vector1ComponentCount = vector1Type->GetOperandAs<uint32_t>(2);
|
|
auto vector2ComponentCount = vector2Type->GetOperandAs<uint32_t>(2);
|
|
auto N = vector1ComponentCount + vector2ComponentCount;
|
|
auto firstLiteralIndex = 4;
|
|
const auto is_webgpu_env = spvIsWebGPUEnv(_.context()->target_env);
|
|
for (size_t i = firstLiteralIndex; i < inst->operands().size(); ++i) {
|
|
auto literal = inst->GetOperandAs<uint32_t>(i);
|
|
if (literal != 0xFFFFFFFF && literal >= N) {
|
|
return _.diag(SPV_ERROR_INVALID_ID, inst)
|
|
<< "Component index " << literal << " is out of bounds for "
|
|
<< "combined (Vector1 + Vector2) size of " << N << ".";
|
|
}
|
|
|
|
if (is_webgpu_env && literal == 0xFFFFFFFF) {
|
|
return _.diag(SPV_ERROR_INVALID_ID, inst)
|
|
<< "Component literal at operand " << i - firstLiteralIndex
|
|
<< " cannot be 0xFFFFFFFF in WebGPU execution environment.";
|
|
}
|
|
}
|
|
|
|
if (_.HasCapability(SpvCapabilityShader) &&
|
|
_.ContainsLimitedUseIntOrFloatType(inst->type_id())) {
|
|
return _.diag(SPV_ERROR_INVALID_DATA, inst)
|
|
<< "Cannot shuffle a vector of 8- or 16-bit types";
|
|
}
|
|
|
|
return SPV_SUCCESS;
|
|
}
|
|
|
|
spv_result_t ValidateCopyLogical(ValidationState_t& _,
|
|
const Instruction* inst) {
|
|
const auto result_type = _.FindDef(inst->type_id());
|
|
const auto source = _.FindDef(inst->GetOperandAs<uint32_t>(2u));
|
|
const auto source_type = _.FindDef(source->type_id());
|
|
if (!source_type || !result_type || source_type == result_type) {
|
|
return _.diag(SPV_ERROR_INVALID_ID, inst)
|
|
<< "Result Type must not equal the Operand type";
|
|
}
|
|
|
|
if (!_.LogicallyMatch(source_type, result_type, false)) {
|
|
return _.diag(SPV_ERROR_INVALID_ID, inst)
|
|
<< "Result Type does not logically match the Operand type";
|
|
}
|
|
|
|
if (_.HasCapability(SpvCapabilityShader) &&
|
|
_.ContainsLimitedUseIntOrFloatType(inst->type_id())) {
|
|
return _.diag(SPV_ERROR_INVALID_DATA, inst)
|
|
<< "Cannot copy composites of 8- or 16-bit types";
|
|
}
|
|
|
|
return SPV_SUCCESS;
|
|
}
|
|
|
|
} // anonymous namespace
|
|
|
|
// Validates correctness of composite instructions.
|
|
spv_result_t CompositesPass(ValidationState_t& _, const Instruction* inst) {
|
|
switch (inst->opcode()) {
|
|
case SpvOpVectorExtractDynamic:
|
|
return ValidateVectorExtractDynamic(_, inst);
|
|
case SpvOpVectorInsertDynamic:
|
|
return ValidateVectorInsertDyanmic(_, inst);
|
|
case SpvOpVectorShuffle:
|
|
return ValidateVectorShuffle(_, inst);
|
|
case SpvOpCompositeConstruct:
|
|
return ValidateCompositeConstruct(_, inst);
|
|
case SpvOpCompositeExtract:
|
|
return ValidateCompositeExtract(_, inst);
|
|
case SpvOpCompositeInsert:
|
|
return ValidateCompositeInsert(_, inst);
|
|
case SpvOpCopyObject:
|
|
return ValidateCopyObject(_, inst);
|
|
case SpvOpTranspose:
|
|
return ValidateTranspose(_, inst);
|
|
case SpvOpCopyLogical:
|
|
return ValidateCopyLogical(_, inst);
|
|
default:
|
|
break;
|
|
}
|
|
|
|
return SPV_SUCCESS;
|
|
}
|
|
|
|
} // namespace val
|
|
} // namespace spvtools
|