2 * Copyright (c) 2020 Samsung Electronics Co., Ltd.
4 * Licensed under the Apache License, Version 2.0 (the "License");
5 * you may not use this file except in compliance with the License.
6 * You may obtain a copy of the License at
8 * http://www.apache.org/licenses/LICENSE-2.0
10 * Unless required by applicable law or agreed to in writing, software
11 * distributed under the License is distributed on an "AS IS" BASIS,
12 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
13 * See the License for the specific language governing permissions and
14 * limitations under the License.
19 #include "dali-scene-loader/public-api/material-definition.h"
22 #include "dali-toolkit/public-api/image-loader/sync-image-loader.h"
26 using namespace Toolkit;
33 constexpr SamplerFlags::Type FILTER_MODES_FROM_DALI[]{
34 SamplerFlags::FILTER_LINEAR | SamplerFlags::FILTER_MIPMAP_NEAREST,
35 SamplerFlags::FILTER_LINEAR,
36 SamplerFlags::FILTER_NEAREST,
37 SamplerFlags::FILTER_LINEAR,
38 SamplerFlags::FILTER_NEAREST | SamplerFlags::FILTER_MIPMAP_NEAREST,
39 SamplerFlags::FILTER_LINEAR | SamplerFlags::FILTER_MIPMAP_NEAREST,
40 SamplerFlags::FILTER_NEAREST | SamplerFlags::FILTER_MIPMAP_LINEAR,
41 SamplerFlags::FILTER_LINEAR | SamplerFlags::FILTER_MIPMAP_LINEAR,
44 constexpr SamplerFlags::Type WRAP_MODES_FROM_DALI[]{
45 SamplerFlags::WRAP_CLAMP,
46 SamplerFlags::WRAP_CLAMP,
47 SamplerFlags::WRAP_REPEAT,
48 SamplerFlags::WRAP_MIRROR,
51 constexpr FilterMode::Type FILTER_MODES_TO_DALI[]{
54 FilterMode::NEAREST_MIPMAP_NEAREST,
55 FilterMode::LINEAR_MIPMAP_NEAREST,
56 FilterMode::NEAREST_MIPMAP_LINEAR,
57 FilterMode::LINEAR_MIPMAP_LINEAR,
60 constexpr WrapMode::Type WRAP_MODES_TO_DALI[]{
62 WrapMode::CLAMP_TO_EDGE,
63 WrapMode::MIRRORED_REPEAT
66 const SamplerFlags::Type SINGLE_VALUE_SAMPLER = SamplerFlags::Encode(FilterMode::NEAREST, FilterMode::NEAREST, WrapMode::CLAMP_TO_EDGE, WrapMode::CLAMP_TO_EDGE);
69 SamplerFlags::Type SamplerFlags::Encode(FilterMode::Type minFilter, FilterMode::Type magFilter, WrapMode::Type wrapS, WrapMode::Type wrapT)
71 return FILTER_MODES_FROM_DALI[minFilter] | ((FILTER_MODES_FROM_DALI[magFilter] & FILTER_MAG_BITS) << FILTER_MAG_SHIFT) |
72 (WRAP_MODES_FROM_DALI[wrapS] << WRAP_S_SHIFT) | (WRAP_MODES_FROM_DALI[wrapT] << WRAP_T_SHIFT);
75 FilterMode::Type SamplerFlags::GetMinFilter(Type flags)
77 return FILTER_MODES_TO_DALI[flags & FILTER_MIN_MASK];
80 FilterMode::Type SamplerFlags::GetMagFilter(Type flags)
82 return FILTER_MODES_TO_DALI[(flags >> FILTER_MAG_SHIFT) & FILTER_MAG_MASK];
85 WrapMode::Type SamplerFlags::GetWrapS(Type flags)
87 return WRAP_MODES_TO_DALI[(flags >> WRAP_S_SHIFT) & WRAP_S_MASK];
90 WrapMode::Type SamplerFlags::GetWrapT(Type flags)
92 return WRAP_MODES_TO_DALI[(flags >> WRAP_T_SHIFT) & WRAP_T_MASK];
95 Sampler SamplerFlags::MakeSampler(Type flags)
97 auto sampler = Sampler::New();
98 sampler.SetFilterMode(GetMinFilter(flags), GetMagFilter(flags));
99 sampler.SetWrapMode(GetWrapS(flags), GetWrapT(flags));
103 TextureDefinition::TextureDefinition(const std::string& imageUri, SamplerFlags::Type samplerFlags)
104 : mImageUri(imageUri),
105 mSamplerFlags(samplerFlags)
108 MaterialDefinition::RawData
109 MaterialDefinition::LoadRaw(const std::string& imagesPath) const
113 const bool hasTransparency = MaskMatch(mFlags, TRANSPARENCY);
114 uint32_t numBuffers = mTextureStages.size() + (hasTransparency ?
115 !CheckTextures(ALBEDO) + !CheckTextures(METALLIC | ROUGHNESS) + !CheckTextures(NORMAL) :
116 !CheckTextures(ALBEDO | METALLIC) + !CheckTextures(NORMAL | ROUGHNESS));
121 raw.mTextures.reserve(numBuffers);
124 auto iTexture = mTextureStages.cbegin();
125 auto checkStage = [&](uint32_t flags) {
126 return iTexture != mTextureStages.end() && MaskMatch(iTexture->mSemantic, flags);
129 // Check for compulsory textures: Albedo, Metallic, Roughness, Normal
130 if (checkStage(ALBEDO | METALLIC))
132 raw.mTextures.push_back({ SyncImageLoader::Load(imagesPath + iTexture->mTexture.mImageUri), iTexture->mTexture.mSamplerFlags });
135 if (checkStage(NORMAL | ROUGHNESS))
137 raw.mTextures.push_back({ SyncImageLoader::Load(imagesPath + iTexture->mTexture.mImageUri), iTexture->mTexture.mSamplerFlags });
140 else // single value normal-roughness
142 const auto bufferSize = 4;
143 uint8_t* buffer = new uint8_t[bufferSize]{ 0x7f, 0x7f, 0xff, 0xff }; // normal of (0, 0, 1), roughness of 1
144 raw.mTextures.push_back({ PixelData::New(buffer, bufferSize, 1, 1, Pixel::RGBA8888, PixelData::DELETE_ARRAY), SINGLE_VALUE_SAMPLER });
149 if (checkStage(ALBEDO))
151 raw.mTextures.push_back({ SyncImageLoader::Load(imagesPath + iTexture->mTexture.mImageUri), iTexture->mTexture.mSamplerFlags });
154 else // single value albedo, albedo-alpha or albedo-metallic
156 uint32_t bufferSize = 4;
157 uint8_t* buffer = nullptr;
158 auto format = Pixel::Format::RGBA8888;
159 if (hasTransparency) // albedo-alpha
161 buffer = new uint8_t[bufferSize];
162 buffer[3] = static_cast<uint8_t>(mColor.a * 255.f);
164 else if (!checkStage(METALLIC | ROUGHNESS)) // albedo-metallic
166 buffer = new uint8_t[bufferSize];
167 buffer[3] = 0xff; // metallic of 1.0
172 buffer = new uint8_t[bufferSize];
173 format = Pixel::Format::RGB888;
175 buffer[0] = static_cast<uint8_t>(mColor.r * 255.f);
176 buffer[1] = static_cast<uint8_t>(mColor.g * 255.f);
177 buffer[2] = static_cast<uint8_t>(mColor.b * 255.f);
178 raw.mTextures.push_back({ PixelData::New(buffer, bufferSize, 1, 1, format, PixelData::DELETE_ARRAY), SINGLE_VALUE_SAMPLER });
181 // If we have transparency, or an image based albedo map, we will have to continue with separate metallicRoughness + normal.
182 const bool createMetallicRoughnessAndNormal = hasTransparency || std::distance(mTextureStages.begin(), iTexture) > 0;
183 if (checkStage(METALLIC | ROUGHNESS))
185 raw.mTextures.push_back({ SyncImageLoader::Load(imagesPath + iTexture->mTexture.mImageUri), iTexture->mTexture.mSamplerFlags });
188 else if (createMetallicRoughnessAndNormal)
190 // NOTE: we want to set both metallic and roughness to 1.0; dli uses the R & A channels,
191 // glTF2 uses B & G, so we might as well just set all components to 1.0.
192 const auto bufferSize = 4;
193 uint8_t* buffer = new uint8_t[bufferSize]{ 0xff, 0xff, 0xff, 0xff };
194 raw.mTextures.push_back({ PixelData::New(buffer, bufferSize, 1, 1, Pixel::RGBA8888, PixelData::DELETE_ARRAY), SINGLE_VALUE_SAMPLER });
197 if (checkStage(NORMAL))
199 raw.mTextures.push_back({ SyncImageLoader::Load(imagesPath + iTexture->mTexture.mImageUri), iTexture->mTexture.mSamplerFlags });
202 else if (createMetallicRoughnessAndNormal)
204 const auto bufferSize = 3;
205 uint8_t* buffer = new uint8_t[bufferSize]{ 0x7f, 0x7f, 0xff }; // normal of (0, 0, 1)
206 raw.mTextures.push_back({ PixelData::New(buffer, bufferSize, 1, 1, Pixel::RGB888, PixelData::DELETE_ARRAY), SINGLE_VALUE_SAMPLER });
208 else // single-value normal-roughness
210 const auto bufferSize = 4;
211 uint8_t* buffer = new uint8_t[bufferSize]{ 0x7f, 0x7f, 0xff, 0xff }; // normal of (0, 0, 1), roughness of 1.0
212 raw.mTextures.push_back({ PixelData::New(buffer, bufferSize, 1, 1, Pixel::RGBA8888, PixelData::DELETE_ARRAY), SINGLE_VALUE_SAMPLER });
216 // Extra textures. TODO: emissive, occlusion etc.
217 if (checkStage(SUBSURFACE))
219 raw.mTextures.push_back({ SyncImageLoader::Load(imagesPath + iTexture->mTexture.mImageUri), iTexture->mTexture.mSamplerFlags });
226 TextureSet MaterialDefinition::Load(const EnvironmentDefinition::Vector& environments, RawData&& raw) const
228 auto textureSet = TextureSet::New();
231 for (auto& tData : raw.mTextures)
233 auto& pixels = tData.mPixels;
234 auto texture = Texture::New(TextureType::TEXTURE_2D, pixels.GetPixelFormat(), pixels.GetWidth(), pixels.GetHeight());
235 texture.Upload(tData.mPixels, 0, 0, 0, 0, pixels.GetWidth(), pixels.GetHeight());
236 if (tData.mSamplerFlags & SamplerFlags::MIPMAP_MASK)
238 texture.GenerateMipmaps();
241 textureSet.SetTexture(n, texture);
242 textureSet.SetSampler(n, SamplerFlags::MakeSampler(tData.mSamplerFlags));
247 // Assign textures to slots -- starting with 2D ones, then cubemaps, if any.
248 if (mEnvironmentIdx < environments.size())
250 auto& envTextures = environments[mEnvironmentIdx].second;
251 if (envTextures.mDiffuse)
253 textureSet.SetTexture(n, envTextures.mDiffuse);
257 if (envTextures.mSpecular)
259 auto specularSampler = Sampler::New();
260 specularSampler.SetWrapMode(WrapMode::CLAMP_TO_EDGE, WrapMode::CLAMP_TO_EDGE, WrapMode::CLAMP_TO_EDGE);
261 specularSampler.SetFilterMode(FilterMode::LINEAR_MIPMAP_LINEAR, FilterMode::LINEAR);
263 textureSet.SetTexture(n, envTextures.mSpecular);
264 textureSet.SetSampler(n, specularSampler);
269 ExceptionFlinger(ASSERT_LOCATION) << "Environment index (" << mEnvironmentIdx << ") out of bounds (" <<
270 environments.size() << ").";
276 bool MaterialDefinition::CheckTextures(uint32_t flags) const
278 return std::find_if(mTextureStages.begin(), mTextureStages.end(), [flags](const TextureStage& ts) {
279 return MaskMatch(ts.mSemantic, flags);
280 }) != mTextureStages.end();