// Copyright 2017 The Dawn Authors // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. #include "dawn_native/Sampler.h" #include "common/HashUtils.h" #include "dawn_native/Device.h" #include "dawn_native/ValidationUtils_autogen.h" #include namespace dawn_native { MaybeError ValidateSamplerDescriptor(DeviceBase*, const SamplerDescriptor* descriptor) { if (descriptor->nextInChain != nullptr) { return DAWN_VALIDATION_ERROR("nextInChain must be nullptr"); } if (!std::isfinite(descriptor->lodMinClamp) || !std::isfinite(descriptor->lodMaxClamp)) { return DAWN_VALIDATION_ERROR("LOD must be finite"); } if (descriptor->lodMinClamp < 0 || descriptor->lodMaxClamp < 0) { return DAWN_VALIDATION_ERROR("LOD must be positive"); } if (descriptor->lodMinClamp > descriptor->lodMaxClamp) { return DAWN_VALIDATION_ERROR( "Min lod clamp value cannot greater than max lod clamp value"); } DAWN_TRY(ValidateFilterMode(descriptor->minFilter)); DAWN_TRY(ValidateFilterMode(descriptor->magFilter)); DAWN_TRY(ValidateFilterMode(descriptor->mipmapFilter)); DAWN_TRY(ValidateAddressMode(descriptor->addressModeU)); DAWN_TRY(ValidateAddressMode(descriptor->addressModeV)); DAWN_TRY(ValidateAddressMode(descriptor->addressModeW)); DAWN_TRY(ValidateCompareFunction(descriptor->compare)); return {}; } // SamplerBase SamplerBase::SamplerBase(DeviceBase* device, const SamplerDescriptor* descriptor, bool blueprint) : ObjectBase(device), mAddressModeU(descriptor->addressModeU), mAddressModeV(descriptor->addressModeV), mAddressModeW(descriptor->addressModeW), mMagFilter(descriptor->magFilter), mMinFilter(descriptor->minFilter), mMipmapFilter(descriptor->mipmapFilter), mLodMinClamp(descriptor->lodMinClamp), mLodMaxClamp(descriptor->lodMaxClamp), mCompareFunction(descriptor->compare), mIsBlueprint(blueprint) { } SamplerBase::SamplerBase(DeviceBase* device, ObjectBase::ErrorTag tag) : ObjectBase(device, tag) { } SamplerBase::~SamplerBase() { // Do not uncache the actual cached object if we are a blueprint if (!mIsBlueprint && !IsError()) { GetDevice()->UncacheSampler(this); } } // static SamplerBase* SamplerBase::MakeError(DeviceBase* device) { return new SamplerBase(device, ObjectBase::kError); } size_t SamplerBase::HashFunc::operator()(const SamplerBase* module) const { size_t hash = 0; HashCombine(&hash, module->mAddressModeU); HashCombine(&hash, module->mAddressModeV); HashCombine(&hash, module->mAddressModeW); HashCombine(&hash, module->mMagFilter); HashCombine(&hash, module->mMinFilter); HashCombine(&hash, module->mMipmapFilter); HashCombine(&hash, module->mLodMinClamp); HashCombine(&hash, module->mLodMaxClamp); HashCombine(&hash, module->mCompareFunction); return hash; } bool SamplerBase::EqualityFunc::operator()(const SamplerBase* a, const SamplerBase* b) const { if (a == b) { return true; } ASSERT(std::isfinite(a->mLodMinClamp)); ASSERT(std::isfinite(b->mLodMinClamp)); ASSERT(std::isfinite(a->mLodMaxClamp)); ASSERT(std::isfinite(b->mLodMaxClamp)); return a->mAddressModeU == b->mAddressModeU && a->mAddressModeV == b->mAddressModeV && a->mAddressModeW == b->mAddressModeW && a->mMagFilter == b->mMagFilter && a->mMinFilter == b->mMinFilter && a->mMipmapFilter == b->mMipmapFilter && a->mLodMinClamp == b->mLodMinClamp && a->mLodMaxClamp == b->mLodMaxClamp && a->mCompareFunction == b->mCompareFunction; } } // namespace dawn_native