mirror of https://github.com/axmolengine/axmol.git
347 lines
12 KiB
Plaintext
347 lines
12 KiB
Plaintext
/****************************************************************************
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Copyright (c) 2018-2019 Xiamen Yaji Software Co., Ltd.
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https://axmolengine.github.io/
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Permission is hereby granted, free of charge, to any person obtaining a copy
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of this software and associated documentation files (the "Software"), to deal
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in the Software without restriction, including without limitation the rights
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to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
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copies of the Software, and to permit persons to whom the Software is
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furnished to do so, subject to the following conditions:
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The above copyright notice and this permission notice shall be included in
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all copies or substantial portions of the Software.
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THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
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IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
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FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
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AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
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LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
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OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
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THE SOFTWARE.
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****************************************************************************/
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#include "ShaderModuleMTL.h"
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#include "DeviceMTL.h"
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#include "yasio/ibstream.hpp"
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#include "yasio/sz.hpp"
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#include "glslcc/sgs-spec.h"
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NS_AX_BACKEND_BEGIN
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struct SLCReflectContext {
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sgs_chunk_refl* refl;
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yasio::fast_ibstream_view* data;
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};
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ShaderModuleMTL::ShaderModuleMTL(id<MTLDevice> mtlDevice, ShaderStage stage, std::string_view source)
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: ShaderModule(stage)
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{
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yasio::fast_ibstream_view ibs(source.data(), source.length());
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uint32_t fourccId = ibs.read<uint32_t>();
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if(fourccId != SGS_CHUNK) {
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assert(false);
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return;
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}
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auto sgs_size = ibs.read<uint32_t>(); // always 0, doesn't matter
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struct sgs_chunk chunk;
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ibs.read_bytes(&chunk, static_cast<int>(sizeof(chunk)));
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std::string_view mslCode;
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do {
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fourccId = ibs.read<uint32_t>();
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if(fourccId != SGS_CHUNK_STAG) {
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assert(false);
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return; // error
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}
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auto stage_size = ibs.read<uint32_t>(); // stage_size
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auto stage_id = ibs.read<uint32_t>(); // stage_id
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ShaderStage ref_stage = (ShaderStage)-1;
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if (stage_id == SGS_STAGE_VERTEX)
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ref_stage = ShaderStage::VERTEX;
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else if(stage_id == SGS_STAGE_FRAGMENT)
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ref_stage = ShaderStage::FRAGMENT;
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assert(ref_stage == stage);
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int code_size = 0;
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fourccId = ibs.read<uint32_t>();
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if (fourccId == SGS_CHUNK_CODE) {
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code_size = ibs.read<int>();
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mslCode = ibs.read_bytes(code_size);
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}
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else if(fourccId == SGS_CHUNK_DATA) {
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code_size = ibs.read<int>();
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mslCode = ibs.read_bytes(code_size);
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}
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else {
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// no text or binary code chunk
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assert(false);
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}
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sgs_chunk_refl refl;
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size_t refl_size = 0;
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if(!ibs.eof()) { // try read reflect info
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fourccId = ibs.read<uint32_t>();
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if(fourccId == SGS_CHUNK_REFL) {
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/*
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REFL: Reflection data for the shader stage
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struct sgs_chunk_refl: reflection data header
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struct sgs_refl_input[]: array of vertex-shader input attributes (see sgs_chunk_refl for number of inputs)
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struct sgs_refl_uniformbuffer[]: array of uniform buffer objects (see sgs_chunk_refl for number of uniform buffers)
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struct sgs_refl_texture[]: array of texture objects (see sgs_chunk_refl for number of textures)
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struct sgs_refl_texture[]: array of storage image objects (see sgs_chunk_refl for number of storage images)
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struct sgs_refl_buffer[]: array of storage buffer objects (see sgs_chunk_refl for number of storage buffers)
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*/
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refl_size = ibs.read<uint32_t>();
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ibs.read_bytes(&refl, static_cast<int>(sizeof(refl)));
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SLCReflectContext context{&refl, &ibs};
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// refl_inputs
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parseAttibute(&context);
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// refl_uniformbuffers
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parseUniform(&context);
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// refl_textures
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parseTexture(&context);
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// refl_storage_images: ignore
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ibs.advance(refl.num_storage_images * sizeof(sgs_refl_texture));
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// refl_storage_buffers: ignore
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ibs.advance(refl.num_storage_buffers * sizeof(sgs_refl_buffer));
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}
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else {
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ibs.advance(-4); // move readptr back 4 bytes
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}
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}
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assert(ibs.eof());
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} while(false); // iterator stages, current only 1 stage
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auto metalShader = mslCode.data();
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NSString* shader = [NSString stringWithUTF8String:metalShader];
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NSError* error;
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id<MTLLibrary> library = [mtlDevice newLibraryWithSource:shader options:nil error:&error];
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if (!library)
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{
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NSLog(@"Can not compile metal shader: %@", error);
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NSLog(@"%s", metalShader);
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assert(false);
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return;
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}
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_mtlFunction = [library newFunctionWithName:@"main0"];
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if (!_mtlFunction)
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{
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NSLog(@"metal shader is ---------------");
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NSLog(@"%s", metalShader);
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// NSLog(@"%s", glslopt_get_log(glslShader));
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assert(false);
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}
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/*
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=== attrib: a_position, location: 0
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=== attrib: a_color, location: 1
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=== attrib: a_texCoord, location: 2
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*/
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auto vertexAttribs = [_mtlFunction vertexAttributes];
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for (MTLVertexAttribute* attrib in vertexAttribs) {
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std::string attribName = [[attrib name] UTF8String];
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int index = static_cast<int>([attrib attributeIndex]);
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auto& attrinfo = _attributeInfo[attribName];
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// !!!Fix attrib location due to glslcc reorder attribs, but reflect info not sync
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if (index != attrinfo.location) {
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attrinfo.location = index;
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ax::print("=== Fix attrib: %s, location from %d to %d", attribName.c_str(), (int)attrinfo.location, index);
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}
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}
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setBuiltinUniformLocation();
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setBuiltinAttributeLocation();
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[library release];
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}
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ShaderModuleMTL::~ShaderModuleMTL()
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{
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[_mtlFunction release];
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}
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void ShaderModuleMTL::parseAttibute(SLCReflectContext* context)
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{
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for(int i = 0; i < context->refl->num_inputs; ++i) {
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sgs_refl_input attrib{0};
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context->data->read_bytes(&attrib, sizeof(attrib));
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AttributeBindInfo attributeInfo;
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attributeInfo.attributeName = attrib.name;
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attributeInfo.location = attrib.loc;
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_attributeInfo[attributeInfo.attributeName] = attributeInfo;
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}
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}
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void ShaderModuleMTL::parseUniform(SLCReflectContext* context)
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{
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_uniformBufferSize = 0;
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for(int i = 0; i < context->refl->num_uniform_buffers; ++i) {
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sgs_refl_ub ub{0};
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context->data->read_bytes(&ub, sizeof(ub));
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for(int k = 0; k < ub.num_members; ++k) {
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sgs_refl_ub_member ubm {0};
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context->data->read_bytes(&ubm, sizeof(ubm));
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auto location = YASIO_SZ_ALIGN(ubm.offset, 16); // align offset
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auto alignedSize = YASIO_SZ_ALIGN(ubm.size_bytes, 16); // align sizeBytes
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UniformInfo uniform;
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uniform.count = ubm.array_size;
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uniform.location = location;
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uniform.isArray = ubm.array_size > 1;
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uniform.size = ubm.size_bytes; // ubm.size_bytes; // nextLocation - location;
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uniform.bufferOffset = location;
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uniform.needConvert = (ubm.format == SGS_VERTEXFORMAT_FLOAT3) ? true : false;
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uniform.type = // static_cast<unsigned int>(parType);
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uniform.isMatrix = ubm.format == SGS_VERTEXFORMAT_MAT4 || ubm.format == SGS_VERTEXFORMAT_MAT3 || ubm.format == SGS_VERTEXFORMAT_MAT34 || ubm.format == SGS_VERTEXFORMAT_MAT43;
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_uniformInfos[ubm.name] = uniform;
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_activeUniformInfos[location] = uniform;
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if (_maxLocation < location)
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_maxLocation = (location + 1);
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_uniformBufferSize += alignedSize;
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}
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}
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}
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void ShaderModuleMTL::parseTexture(SLCReflectContext* context)
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{
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for(int i = 0; i < context->refl->num_textures; ++i) {
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sgs_refl_texture texinfo {0};
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context->data->read_bytes(&texinfo, sizeof(texinfo));
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UniformInfo uniform;
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uniform.count = -1;
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uniform.location = texinfo.binding;
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uniform.isArray = texinfo.is_array;
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_uniformInfos[texinfo.name] = uniform;
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}
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}
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int ShaderModuleMTL::getUniformLocation(Uniform name) const
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{
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return _uniformLocation[name];
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}
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int ShaderModuleMTL::getUniformLocation(std::string_view name) const
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{
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auto iter = _uniformInfos.find(name);
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if (iter != _uniformInfos.end())
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{
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return iter->second.location;
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}
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else
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return -1;
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}
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void ShaderModuleMTL::setBuiltinUniformLocation()
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{
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std::fill(_uniformLocation, _uniformLocation + UNIFORM_MAX, -1);
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/// u_mvpMatrix
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auto iter = _uniformInfos.find(UNIFORM_NAME_MVP_MATRIX);
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if (iter != _uniformInfos.end())
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{
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_uniformLocation[Uniform::MVP_MATRIX] = iter->second.location;
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}
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/// u_textColor
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iter = _uniformInfos.find(UNIFORM_NAME_TEXT_COLOR);
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if (iter != _uniformInfos.end())
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{
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_uniformLocation[Uniform::TEXT_COLOR] = iter->second.location;
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}
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/// u_effectColor
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iter = _uniformInfos.find(UNIFORM_NAME_EFFECT_COLOR);
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if (iter != _uniformInfos.end())
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{
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_uniformLocation[Uniform::EFFECT_COLOR] = iter->second.location;
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}
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/// u_effectType
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iter = _uniformInfos.find(UNIFORM_NAME_EFFECT_TYPE);
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if (iter != _uniformInfos.end())
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{
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_uniformLocation[Uniform::EFFECT_TYPE] = iter->second.location;
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}
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/// u_tex0
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iter = _uniformInfos.find(UNIFORM_NAME_TEXTURE);
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if (iter != _uniformInfos.end())
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{
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_uniformLocation[Uniform::TEXTURE] = iter->second.location;
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}
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/// u_tex1
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iter = _uniformInfos.find(UNIFORM_NAME_TEXTURE1);
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if (iter != _uniformInfos.end())
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{
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_uniformLocation[Uniform::TEXTURE1] = iter->second.location;
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}
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}
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int ShaderModuleMTL::getAttributeLocation(Attribute name) const
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{
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return _attributeLocation[name];
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}
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int ShaderModuleMTL::getAttributeLocation(std::string_view name)
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{
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auto iter = _attributeInfo.find(name);
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if (iter != _attributeInfo.end())
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return _attributeInfo[name].location;
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else
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return -1;
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}
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void ShaderModuleMTL::setBuiltinAttributeLocation()
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{
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std::fill(_attributeLocation, _attributeLocation + ATTRIBUTE_MAX, -1);
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/// a_position
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auto iter = _attributeInfo.find(ATTRIBUTE_NAME_POSITION);
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if (iter != _attributeInfo.end())
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{
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_attributeLocation[Attribute::POSITION] = iter->second.location;
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}
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/// a_color
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iter = _attributeInfo.find(ATTRIBUTE_NAME_COLOR);
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if (iter != _attributeInfo.end())
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{
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_attributeLocation[Attribute::COLOR] = iter->second.location;
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}
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/// a_texCoord
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iter = _attributeInfo.find(ATTRIBUTE_NAME_TEXCOORD);
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if (iter != _attributeInfo.end())
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{
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_attributeLocation[Attribute::TEXCOORD] = iter->second.location;
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}
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/// a_normal
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iter = _attributeInfo.find(ATTRIBUTE_NAME_NORMAL);
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if (iter != _attributeInfo.end())
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{
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_attributeLocation[Attribute::NORMAL] = iter->second.location;
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}
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}
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NS_AX_BACKEND_END
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