mirror of
https://github.com/KhronosGroup/SPIRV-Tools
synced 2024-12-11 11:20:05 +00:00
359 lines
13 KiB
C++
359 lines
13 KiB
C++
// Copyright (c) 2018 Google LLC.
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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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#include <algorithm>
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#include "source/opcode.h"
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#include "source/val/instruction.h"
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#include "source/val/validate.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 true if |a| and |b| are instructions defining pointers that point to
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// types logically match and the decorations that apply to |b| are a subset
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// of the decorations that apply to |a|.
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bool DoPointeesLogicallyMatch(val::Instruction* a, val::Instruction* b,
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ValidationState_t& _) {
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if (a->opcode() != SpvOpTypePointer || b->opcode() != SpvOpTypePointer) {
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return false;
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}
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const auto& dec_a = _.id_decorations(a->id());
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const auto& dec_b = _.id_decorations(b->id());
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for (const auto& dec : dec_b) {
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if (std::find(dec_a.begin(), dec_a.end(), dec) == dec_a.end()) {
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return false;
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}
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}
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uint32_t a_type = a->GetOperandAs<uint32_t>(2);
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uint32_t b_type = b->GetOperandAs<uint32_t>(2);
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if (a_type == b_type) {
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return true;
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}
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Instruction* a_type_inst = _.FindDef(a_type);
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Instruction* b_type_inst = _.FindDef(b_type);
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return _.LogicallyMatch(a_type_inst, b_type_inst, true);
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}
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spv_result_t ValidateFunction(ValidationState_t& _, const Instruction* inst) {
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const auto function_type_id = inst->GetOperandAs<uint32_t>(3);
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const auto function_type = _.FindDef(function_type_id);
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if (!function_type || SpvOpTypeFunction != function_type->opcode()) {
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return _.diag(SPV_ERROR_INVALID_ID, inst)
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<< "OpFunction Function Type <id> '" << _.getIdName(function_type_id)
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<< "' is not a function type.";
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}
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const auto return_id = function_type->GetOperandAs<uint32_t>(1);
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if (return_id != inst->type_id()) {
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return _.diag(SPV_ERROR_INVALID_ID, inst)
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<< "OpFunction Result Type <id> '" << _.getIdName(inst->type_id())
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<< "' does not match the Function Type's return type <id> '"
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<< _.getIdName(return_id) << "'.";
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}
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const std::vector<SpvOp> acceptable = {
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SpvOpGroupDecorate,
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SpvOpDecorate,
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SpvOpEnqueueKernel,
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SpvOpEntryPoint,
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SpvOpExecutionMode,
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SpvOpExecutionModeId,
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SpvOpFunctionCall,
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SpvOpGetKernelNDrangeSubGroupCount,
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SpvOpGetKernelNDrangeMaxSubGroupSize,
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SpvOpGetKernelWorkGroupSize,
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SpvOpGetKernelPreferredWorkGroupSizeMultiple,
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SpvOpGetKernelLocalSizeForSubgroupCount,
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SpvOpGetKernelMaxNumSubgroups,
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SpvOpName};
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for (auto& pair : inst->uses()) {
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const auto* use = pair.first;
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if (std::find(acceptable.begin(), acceptable.end(), use->opcode()) ==
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acceptable.end() &&
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!use->IsNonSemantic() && !use->IsDebugInfo()) {
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return _.diag(SPV_ERROR_INVALID_ID, use)
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<< "Invalid use of function result id " << _.getIdName(inst->id())
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<< ".";
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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 ValidateFunctionParameter(ValidationState_t& _,
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const Instruction* inst) {
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// NOTE: Find OpFunction & ensure OpFunctionParameter is not out of place.
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size_t param_index = 0;
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size_t inst_num = inst->LineNum() - 1;
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if (inst_num == 0) {
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return _.diag(SPV_ERROR_INVALID_LAYOUT, inst)
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<< "Function parameter cannot be the first instruction.";
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}
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auto func_inst = &_.ordered_instructions()[inst_num];
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while (--inst_num) {
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func_inst = &_.ordered_instructions()[inst_num];
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if (func_inst->opcode() == SpvOpFunction) {
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break;
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} else if (func_inst->opcode() == SpvOpFunctionParameter) {
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++param_index;
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}
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}
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if (func_inst->opcode() != SpvOpFunction) {
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return _.diag(SPV_ERROR_INVALID_LAYOUT, inst)
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<< "Function parameter must be preceded by a function.";
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}
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const auto function_type_id = func_inst->GetOperandAs<uint32_t>(3);
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const auto function_type = _.FindDef(function_type_id);
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if (!function_type) {
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return _.diag(SPV_ERROR_INVALID_ID, func_inst)
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<< "Missing function type definition.";
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}
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if (param_index >= function_type->words().size() - 3) {
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return _.diag(SPV_ERROR_INVALID_ID, inst)
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<< "Too many OpFunctionParameters for " << func_inst->id()
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<< ": expected " << function_type->words().size() - 3
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<< " based on the function's type";
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}
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const auto param_type =
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_.FindDef(function_type->GetOperandAs<uint32_t>(param_index + 2));
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if (!param_type || inst->type_id() != param_type->id()) {
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return _.diag(SPV_ERROR_INVALID_ID, inst)
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<< "OpFunctionParameter Result Type <id> '"
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<< _.getIdName(inst->type_id())
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<< "' does not match the OpTypeFunction parameter "
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"type of the same index.";
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}
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// Validate that PhysicalStorageBufferEXT have one of Restrict, Aliased,
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// RestrictPointerEXT, or AliasedPointerEXT.
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auto param_nonarray_type_id = param_type->id();
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while (_.GetIdOpcode(param_nonarray_type_id) == SpvOpTypeArray) {
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param_nonarray_type_id =
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_.FindDef(param_nonarray_type_id)->GetOperandAs<uint32_t>(1u);
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}
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if (_.GetIdOpcode(param_nonarray_type_id) == SpvOpTypePointer) {
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auto param_nonarray_type = _.FindDef(param_nonarray_type_id);
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if (param_nonarray_type->GetOperandAs<uint32_t>(1u) ==
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SpvStorageClassPhysicalStorageBufferEXT) {
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// check for Aliased or Restrict
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const auto& decorations = _.id_decorations(inst->id());
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bool foundAliased = std::any_of(
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decorations.begin(), decorations.end(), [](const Decoration& d) {
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return SpvDecorationAliased == d.dec_type();
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});
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bool foundRestrict = std::any_of(
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decorations.begin(), decorations.end(), [](const Decoration& d) {
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return SpvDecorationRestrict == d.dec_type();
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});
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if (!foundAliased && !foundRestrict) {
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return _.diag(SPV_ERROR_INVALID_ID, inst)
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<< "OpFunctionParameter " << inst->id()
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<< ": expected Aliased or Restrict for PhysicalStorageBufferEXT "
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"pointer.";
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}
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if (foundAliased && foundRestrict) {
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return _.diag(SPV_ERROR_INVALID_ID, inst)
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<< "OpFunctionParameter " << inst->id()
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<< ": can't specify both Aliased and Restrict for "
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"PhysicalStorageBufferEXT pointer.";
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}
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} else {
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const auto pointee_type_id =
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param_nonarray_type->GetOperandAs<uint32_t>(2);
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const auto pointee_type = _.FindDef(pointee_type_id);
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if (SpvOpTypePointer == pointee_type->opcode() &&
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pointee_type->GetOperandAs<uint32_t>(1u) ==
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SpvStorageClassPhysicalStorageBufferEXT) {
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// check for AliasedPointerEXT/RestrictPointerEXT
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const auto& decorations = _.id_decorations(inst->id());
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bool foundAliased = std::any_of(
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decorations.begin(), decorations.end(), [](const Decoration& d) {
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return SpvDecorationAliasedPointerEXT == d.dec_type();
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});
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bool foundRestrict = std::any_of(
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decorations.begin(), decorations.end(), [](const Decoration& d) {
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return SpvDecorationRestrictPointerEXT == d.dec_type();
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});
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if (!foundAliased && !foundRestrict) {
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return _.diag(SPV_ERROR_INVALID_ID, inst)
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<< "OpFunctionParameter " << inst->id()
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<< ": expected AliasedPointerEXT or RestrictPointerEXT for "
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"PhysicalStorageBufferEXT pointer.";
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}
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if (foundAliased && foundRestrict) {
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return _.diag(SPV_ERROR_INVALID_ID, inst)
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<< "OpFunctionParameter " << inst->id()
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<< ": can't specify both AliasedPointerEXT and "
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"RestrictPointerEXT for PhysicalStorageBufferEXT pointer.";
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}
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}
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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 ValidateFunctionCall(ValidationState_t& _,
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const Instruction* inst) {
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const auto function_id = inst->GetOperandAs<uint32_t>(2);
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const auto function = _.FindDef(function_id);
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if (!function || SpvOpFunction != function->opcode()) {
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return _.diag(SPV_ERROR_INVALID_ID, inst)
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<< "OpFunctionCall Function <id> '" << _.getIdName(function_id)
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<< "' is not a function.";
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}
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auto return_type = _.FindDef(function->type_id());
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if (!return_type || return_type->id() != inst->type_id()) {
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return _.diag(SPV_ERROR_INVALID_ID, inst)
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<< "OpFunctionCall Result Type <id> '"
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<< _.getIdName(inst->type_id())
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<< "'s type does not match Function <id> '"
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<< _.getIdName(return_type->id()) << "'s return type.";
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}
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const auto function_type_id = function->GetOperandAs<uint32_t>(3);
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const auto function_type = _.FindDef(function_type_id);
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if (!function_type || function_type->opcode() != SpvOpTypeFunction) {
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return _.diag(SPV_ERROR_INVALID_ID, inst)
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<< "Missing function type definition.";
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}
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const auto function_call_arg_count = inst->words().size() - 4;
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const auto function_param_count = function_type->words().size() - 3;
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if (function_param_count != function_call_arg_count) {
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return _.diag(SPV_ERROR_INVALID_ID, inst)
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<< "OpFunctionCall Function <id>'s parameter count does not match "
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"the argument count.";
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}
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for (size_t argument_index = 3, param_index = 2;
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argument_index < inst->operands().size();
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argument_index++, param_index++) {
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const auto argument_id = inst->GetOperandAs<uint32_t>(argument_index);
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const auto argument = _.FindDef(argument_id);
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if (!argument) {
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return _.diag(SPV_ERROR_INVALID_ID, inst)
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<< "Missing argument " << argument_index - 3 << " definition.";
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}
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const auto argument_type = _.FindDef(argument->type_id());
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if (!argument_type) {
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return _.diag(SPV_ERROR_INVALID_ID, inst)
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<< "Missing argument " << argument_index - 3
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<< " type definition.";
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}
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const auto parameter_type_id =
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function_type->GetOperandAs<uint32_t>(param_index);
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const auto parameter_type = _.FindDef(parameter_type_id);
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if (!parameter_type || argument_type->id() != parameter_type->id()) {
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if (!_.options()->before_hlsl_legalization ||
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!DoPointeesLogicallyMatch(argument_type, parameter_type, _)) {
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return _.diag(SPV_ERROR_INVALID_ID, inst)
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<< "OpFunctionCall Argument <id> '" << _.getIdName(argument_id)
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<< "'s type does not match Function <id> '"
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<< _.getIdName(parameter_type_id) << "'s parameter type.";
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}
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}
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if (_.addressing_model() == SpvAddressingModelLogical) {
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if (parameter_type->opcode() == SpvOpTypePointer &&
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!_.options()->relax_logical_pointer) {
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SpvStorageClass sc = parameter_type->GetOperandAs<SpvStorageClass>(1u);
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// Validate which storage classes can be pointer operands.
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switch (sc) {
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case SpvStorageClassUniformConstant:
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case SpvStorageClassFunction:
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case SpvStorageClassPrivate:
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case SpvStorageClassWorkgroup:
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case SpvStorageClassAtomicCounter:
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// These are always allowed.
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break;
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case SpvStorageClassStorageBuffer:
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if (!_.features().variable_pointers_storage_buffer) {
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return _.diag(SPV_ERROR_INVALID_ID, inst)
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<< "StorageBuffer pointer operand "
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<< _.getIdName(argument_id)
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<< " requires a variable pointers capability";
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}
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break;
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default:
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return _.diag(SPV_ERROR_INVALID_ID, inst)
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<< "Invalid storage class for pointer operand "
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<< _.getIdName(argument_id);
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}
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// Validate memory object declaration requirements.
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if (argument->opcode() != SpvOpVariable &&
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argument->opcode() != SpvOpFunctionParameter) {
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const bool ssbo_vptr =
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_.features().variable_pointers_storage_buffer &&
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sc == SpvStorageClassStorageBuffer;
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const bool wg_vptr =
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_.features().variable_pointers && sc == SpvStorageClassWorkgroup;
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const bool uc_ptr = sc == SpvStorageClassUniformConstant;
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if (!ssbo_vptr && !wg_vptr && !uc_ptr) {
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return _.diag(SPV_ERROR_INVALID_ID, inst)
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<< "Pointer operand " << _.getIdName(argument_id)
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<< " must be a memory object declaration";
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}
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}
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}
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}
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}
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return SPV_SUCCESS;
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}
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} // namespace
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spv_result_t FunctionPass(ValidationState_t& _, const Instruction* inst) {
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switch (inst->opcode()) {
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case SpvOpFunction:
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if (auto error = ValidateFunction(_, inst)) return error;
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break;
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case SpvOpFunctionParameter:
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if (auto error = ValidateFunctionParameter(_, inst)) return error;
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break;
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case SpvOpFunctionCall:
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if (auto error = ValidateFunctionCall(_, inst)) return error;
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break;
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default:
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break;
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}
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return SPV_SUCCESS;
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}
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} // namespace val
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} // namespace spvtools
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