bgfx/3rdparty/spirv-cross/spirv_cross_c.cpp

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/*
* Copyright 2019 Hans-Kristian Arntzen
*
* 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 "spirv_cross_c.h"
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#if SPIRV_CROSS_C_API_CPP
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#include "spirv_cpp.hpp"
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#endif
#if SPIRV_CROSS_C_API_GLSL
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#include "spirv_glsl.hpp"
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#else
#include "spirv_cross.hpp"
#endif
#if SPIRV_CROSS_C_API_HLSL
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#include "spirv_hlsl.hpp"
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#endif
#if SPIRV_CROSS_C_API_MSL
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#include "spirv_msl.hpp"
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#endif
#if SPIRV_CROSS_C_API_REFLECT
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#include "spirv_reflect.hpp"
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#endif
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#ifdef HAVE_SPIRV_CROSS_GIT_VERSION
#include "gitversion.h"
#endif
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#include "spirv_parser.hpp"
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#include <memory>
#include <new>
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#include <string.h>
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// clang-format off
#ifdef _MSC_VER
#pragma warning(push)
#pragma warning(disable : 4996)
#endif
#ifndef SPIRV_CROSS_EXCEPTIONS_TO_ASSERTIONS
#define SPVC_BEGIN_SAFE_SCOPE try
#else
#define SPVC_BEGIN_SAFE_SCOPE
#endif
#ifndef SPIRV_CROSS_EXCEPTIONS_TO_ASSERTIONS
#define SPVC_END_SAFE_SCOPE(context, error) \
catch (const std::exception &e) \
{ \
(context)->report_error(e.what()); \
return (error); \
}
#else
#define SPVC_END_SAFE_SCOPE(context, error)
#endif
using namespace std;
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using namespace SPIRV_CROSS_NAMESPACE;
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struct ScratchMemoryAllocation
{
virtual ~ScratchMemoryAllocation() = default;
};
struct StringAllocation : ScratchMemoryAllocation
{
explicit StringAllocation(const char *name)
: str(name)
{
}
explicit StringAllocation(std::string name)
: str(std::move(name))
{
}
std::string str;
};
template <typename T>
struct TemporaryBuffer : ScratchMemoryAllocation
{
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SmallVector<T> buffer;
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};
template <typename T, typename... Ts>
static inline std::unique_ptr<T> spvc_allocate(Ts &&... ts)
{
return std::unique_ptr<T>(new T(std::forward<Ts>(ts)...));
}
struct spvc_context_s
{
string last_error;
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SmallVector<unique_ptr<ScratchMemoryAllocation>> allocations;
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const char *allocate_name(const std::string &name);
spvc_error_callback callback = nullptr;
void *callback_userdata = nullptr;
void report_error(std::string msg);
};
void spvc_context_s::report_error(std::string msg)
{
last_error = std::move(msg);
if (callback)
callback(callback_userdata, last_error.c_str());
}
const char *spvc_context_s::allocate_name(const std::string &name)
{
SPVC_BEGIN_SAFE_SCOPE
{
auto alloc = spvc_allocate<StringAllocation>(name);
auto *ret = alloc->str.c_str();
allocations.emplace_back(std::move(alloc));
return ret;
}
SPVC_END_SAFE_SCOPE(this, nullptr)
}
struct spvc_parsed_ir_s : ScratchMemoryAllocation
{
spvc_context context = nullptr;
ParsedIR parsed;
};
struct spvc_compiler_s : ScratchMemoryAllocation
{
spvc_context context = nullptr;
unique_ptr<Compiler> compiler;
spvc_backend backend = SPVC_BACKEND_NONE;
};
struct spvc_compiler_options_s : ScratchMemoryAllocation
{
spvc_context context = nullptr;
uint32_t backend_flags = 0;
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#if SPIRV_CROSS_C_API_GLSL
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CompilerGLSL::Options glsl;
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#endif
#if SPIRV_CROSS_C_API_MSL
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CompilerMSL::Options msl;
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#endif
#if SPIRV_CROSS_C_API_HLSL
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CompilerHLSL::Options hlsl;
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#endif
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};
struct spvc_set_s : ScratchMemoryAllocation
{
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std::unordered_set<VariableID> set;
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};
// Dummy-inherit to we can keep our opaque type handle type safe in C-land as well,
// and avoid just throwing void * around.
struct spvc_type_s : SPIRType
{
};
struct spvc_constant_s : SPIRConstant
{
};
struct spvc_resources_s : ScratchMemoryAllocation
{
spvc_context context = nullptr;
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SmallVector<spvc_reflected_resource> uniform_buffers;
SmallVector<spvc_reflected_resource> storage_buffers;
SmallVector<spvc_reflected_resource> stage_inputs;
SmallVector<spvc_reflected_resource> stage_outputs;
SmallVector<spvc_reflected_resource> subpass_inputs;
SmallVector<spvc_reflected_resource> storage_images;
SmallVector<spvc_reflected_resource> sampled_images;
SmallVector<spvc_reflected_resource> atomic_counters;
SmallVector<spvc_reflected_resource> push_constant_buffers;
SmallVector<spvc_reflected_resource> separate_images;
SmallVector<spvc_reflected_resource> separate_samplers;
SmallVector<spvc_reflected_resource> acceleration_structures;
bool copy_resources(SmallVector<spvc_reflected_resource> &outputs, const SmallVector<Resource> &inputs);
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bool copy_resources(const ShaderResources &resources);
};
spvc_result spvc_context_create(spvc_context *context)
{
auto *ctx = new (std::nothrow) spvc_context_s;
if (!ctx)
return SPVC_ERROR_OUT_OF_MEMORY;
*context = ctx;
return SPVC_SUCCESS;
}
void spvc_context_destroy(spvc_context context)
{
delete context;
}
void spvc_context_release_allocations(spvc_context context)
{
context->allocations.clear();
}
const char *spvc_context_get_last_error_string(spvc_context context)
{
return context->last_error.c_str();
}
SPVC_PUBLIC_API void spvc_context_set_error_callback(spvc_context context, spvc_error_callback cb, void *userdata)
{
context->callback = cb;
context->callback_userdata = userdata;
}
spvc_result spvc_context_parse_spirv(spvc_context context, const SpvId *spirv, size_t word_count,
spvc_parsed_ir *parsed_ir)
{
SPVC_BEGIN_SAFE_SCOPE
{
std::unique_ptr<spvc_parsed_ir_s> pir(new (std::nothrow) spvc_parsed_ir_s);
if (!pir)
{
context->report_error("Out of memory.");
return SPVC_ERROR_OUT_OF_MEMORY;
}
pir->context = context;
Parser parser(spirv, word_count);
parser.parse();
pir->parsed = move(parser.get_parsed_ir());
*parsed_ir = pir.get();
context->allocations.push_back(std::move(pir));
}
SPVC_END_SAFE_SCOPE(context, SPVC_ERROR_INVALID_SPIRV)
return SPVC_SUCCESS;
}
spvc_result spvc_context_create_compiler(spvc_context context, spvc_backend backend, spvc_parsed_ir parsed_ir,
spvc_capture_mode mode, spvc_compiler *compiler)
{
SPVC_BEGIN_SAFE_SCOPE
{
std::unique_ptr<spvc_compiler_s> comp(new (std::nothrow) spvc_compiler_s);
if (!comp)
{
context->report_error("Out of memory.");
return SPVC_ERROR_OUT_OF_MEMORY;
}
comp->backend = backend;
comp->context = context;
if (mode != SPVC_CAPTURE_MODE_COPY && mode != SPVC_CAPTURE_MODE_TAKE_OWNERSHIP)
{
context->report_error("Invalid argument for capture mode.");
return SPVC_ERROR_INVALID_ARGUMENT;
}
switch (backend)
{
case SPVC_BACKEND_NONE:
if (mode == SPVC_CAPTURE_MODE_TAKE_OWNERSHIP)
comp->compiler.reset(new Compiler(move(parsed_ir->parsed)));
else if (mode == SPVC_CAPTURE_MODE_COPY)
comp->compiler.reset(new Compiler(parsed_ir->parsed));
break;
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#if SPIRV_CROSS_C_API_GLSL
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case SPVC_BACKEND_GLSL:
if (mode == SPVC_CAPTURE_MODE_TAKE_OWNERSHIP)
comp->compiler.reset(new CompilerGLSL(move(parsed_ir->parsed)));
else if (mode == SPVC_CAPTURE_MODE_COPY)
comp->compiler.reset(new CompilerGLSL(parsed_ir->parsed));
break;
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#endif
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#if SPIRV_CROSS_C_API_HLSL
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case SPVC_BACKEND_HLSL:
if (mode == SPVC_CAPTURE_MODE_TAKE_OWNERSHIP)
comp->compiler.reset(new CompilerHLSL(move(parsed_ir->parsed)));
else if (mode == SPVC_CAPTURE_MODE_COPY)
comp->compiler.reset(new CompilerHLSL(parsed_ir->parsed));
break;
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#endif
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#if SPIRV_CROSS_C_API_MSL
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case SPVC_BACKEND_MSL:
if (mode == SPVC_CAPTURE_MODE_TAKE_OWNERSHIP)
comp->compiler.reset(new CompilerMSL(move(parsed_ir->parsed)));
else if (mode == SPVC_CAPTURE_MODE_COPY)
comp->compiler.reset(new CompilerMSL(parsed_ir->parsed));
break;
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#endif
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#if SPIRV_CROSS_C_API_CPP
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case SPVC_BACKEND_CPP:
if (mode == SPVC_CAPTURE_MODE_TAKE_OWNERSHIP)
comp->compiler.reset(new CompilerCPP(move(parsed_ir->parsed)));
else if (mode == SPVC_CAPTURE_MODE_COPY)
comp->compiler.reset(new CompilerCPP(parsed_ir->parsed));
break;
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#endif
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#if SPIRV_CROSS_C_API_REFLECT
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case SPVC_BACKEND_JSON:
if (mode == SPVC_CAPTURE_MODE_TAKE_OWNERSHIP)
comp->compiler.reset(new CompilerReflection(move(parsed_ir->parsed)));
else if (mode == SPVC_CAPTURE_MODE_COPY)
comp->compiler.reset(new CompilerReflection(parsed_ir->parsed));
break;
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#endif
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default:
context->report_error("Invalid backend.");
return SPVC_ERROR_INVALID_ARGUMENT;
}
*compiler = comp.get();
context->allocations.push_back(std::move(comp));
}
SPVC_END_SAFE_SCOPE(context, SPVC_ERROR_OUT_OF_MEMORY)
return SPVC_SUCCESS;
}
spvc_result spvc_compiler_create_compiler_options(spvc_compiler compiler, spvc_compiler_options *options)
{
SPVC_BEGIN_SAFE_SCOPE
{
std::unique_ptr<spvc_compiler_options_s> opt(new (std::nothrow) spvc_compiler_options_s);
if (!opt)
{
compiler->context->report_error("Out of memory.");
return SPVC_ERROR_OUT_OF_MEMORY;
}
opt->context = compiler->context;
opt->backend_flags = 0;
switch (compiler->backend)
{
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#if SPIRV_CROSS_C_API_MSL
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case SPVC_BACKEND_MSL:
opt->backend_flags |= SPVC_COMPILER_OPTION_MSL_BIT | SPVC_COMPILER_OPTION_COMMON_BIT;
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opt->glsl = static_cast<CompilerMSL *>(compiler->compiler.get())->get_common_options();
opt->msl = static_cast<CompilerMSL *>(compiler->compiler.get())->get_msl_options();
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break;
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#endif
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#if SPIRV_CROSS_C_API_HLSL
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case SPVC_BACKEND_HLSL:
opt->backend_flags |= SPVC_COMPILER_OPTION_HLSL_BIT | SPVC_COMPILER_OPTION_COMMON_BIT;
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opt->glsl = static_cast<CompilerHLSL *>(compiler->compiler.get())->get_common_options();
opt->hlsl = static_cast<CompilerHLSL *>(compiler->compiler.get())->get_hlsl_options();
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break;
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#endif
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#if SPIRV_CROSS_C_API_GLSL
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case SPVC_BACKEND_GLSL:
opt->backend_flags |= SPVC_COMPILER_OPTION_GLSL_BIT | SPVC_COMPILER_OPTION_COMMON_BIT;
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opt->glsl = static_cast<CompilerGLSL *>(compiler->compiler.get())->get_common_options();
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break;
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#endif
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default:
break;
}
*options = opt.get();
compiler->context->allocations.push_back(std::move(opt));
}
SPVC_END_SAFE_SCOPE(compiler->context, SPVC_ERROR_OUT_OF_MEMORY)
return SPVC_SUCCESS;
}
spvc_result spvc_compiler_options_set_bool(spvc_compiler_options options, spvc_compiler_option option,
spvc_bool value)
{
return spvc_compiler_options_set_uint(options, option, value ? 1 : 0);
}
spvc_result spvc_compiler_options_set_uint(spvc_compiler_options options, spvc_compiler_option option, unsigned value)
{
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(void)value;
(void)option;
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uint32_t supported_mask = options->backend_flags;
uint32_t required_mask = option & SPVC_COMPILER_OPTION_LANG_BITS;
if ((required_mask | supported_mask) != supported_mask)
{
options->context->report_error("Option is not supported by current backend.");
return SPVC_ERROR_INVALID_ARGUMENT;
}
switch (option)
{
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#if SPIRV_CROSS_C_API_GLSL
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case SPVC_COMPILER_OPTION_FORCE_TEMPORARY:
options->glsl.force_temporary = value != 0;
break;
case SPVC_COMPILER_OPTION_FLATTEN_MULTIDIMENSIONAL_ARRAYS:
options->glsl.flatten_multidimensional_arrays = value != 0;
break;
case SPVC_COMPILER_OPTION_FIXUP_DEPTH_CONVENTION:
options->glsl.vertex.fixup_clipspace = value != 0;
break;
case SPVC_COMPILER_OPTION_FLIP_VERTEX_Y:
options->glsl.vertex.flip_vert_y = value != 0;
break;
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case SPVC_COMPILER_OPTION_EMIT_LINE_DIRECTIVES:
options->glsl.emit_line_directives = value != 0;
break;
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case SPVC_COMPILER_OPTION_GLSL_SUPPORT_NONZERO_BASE_INSTANCE:
options->glsl.vertex.support_nonzero_base_instance = value != 0;
break;
case SPVC_COMPILER_OPTION_GLSL_SEPARATE_SHADER_OBJECTS:
options->glsl.separate_shader_objects = value != 0;
break;
case SPVC_COMPILER_OPTION_GLSL_ENABLE_420PACK_EXTENSION:
options->glsl.enable_420pack_extension = value != 0;
break;
case SPVC_COMPILER_OPTION_GLSL_VERSION:
options->glsl.version = value;
break;
case SPVC_COMPILER_OPTION_GLSL_ES:
options->glsl.es = value != 0;
break;
case SPVC_COMPILER_OPTION_GLSL_VULKAN_SEMANTICS:
options->glsl.vulkan_semantics = value != 0;
break;
case SPVC_COMPILER_OPTION_GLSL_ES_DEFAULT_FLOAT_PRECISION_HIGHP:
options->glsl.fragment.default_float_precision =
value != 0 ? CompilerGLSL::Options::Precision::Highp : CompilerGLSL::Options::Precision::Mediump;
break;
case SPVC_COMPILER_OPTION_GLSL_ES_DEFAULT_INT_PRECISION_HIGHP:
options->glsl.fragment.default_int_precision =
value != 0 ? CompilerGLSL::Options::Precision::Highp : CompilerGLSL::Options::Precision::Mediump;
break;
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case SPVC_COMPILER_OPTION_GLSL_EMIT_PUSH_CONSTANT_AS_UNIFORM_BUFFER:
options->glsl.emit_push_constant_as_uniform_buffer = value != 0;
break;
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case SPVC_COMPILER_OPTION_GLSL_EMIT_UNIFORM_BUFFER_AS_PLAIN_UNIFORMS:
options->glsl.emit_uniform_buffer_as_plain_uniforms = value != 0;
break;
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#endif
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#if SPIRV_CROSS_C_API_HLSL
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case SPVC_COMPILER_OPTION_HLSL_SHADER_MODEL:
options->hlsl.shader_model = value;
break;
case SPVC_COMPILER_OPTION_HLSL_POINT_SIZE_COMPAT:
options->hlsl.point_size_compat = value != 0;
break;
case SPVC_COMPILER_OPTION_HLSL_POINT_COORD_COMPAT:
options->hlsl.point_coord_compat = value != 0;
break;
case SPVC_COMPILER_OPTION_HLSL_SUPPORT_NONZERO_BASE_VERTEX_BASE_INSTANCE:
options->hlsl.support_nonzero_base_vertex_base_instance = value != 0;
break;
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#endif
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#if SPIRV_CROSS_C_API_MSL
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case SPVC_COMPILER_OPTION_MSL_VERSION:
options->msl.msl_version = value;
break;
case SPVC_COMPILER_OPTION_MSL_TEXEL_BUFFER_TEXTURE_WIDTH:
options->msl.texel_buffer_texture_width = value;
break;
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case SPVC_COMPILER_OPTION_MSL_SWIZZLE_BUFFER_INDEX:
options->msl.swizzle_buffer_index = value;
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break;
case SPVC_COMPILER_OPTION_MSL_INDIRECT_PARAMS_BUFFER_INDEX:
options->msl.indirect_params_buffer_index = value;
break;
case SPVC_COMPILER_OPTION_MSL_SHADER_OUTPUT_BUFFER_INDEX:
options->msl.shader_output_buffer_index = value;
break;
case SPVC_COMPILER_OPTION_MSL_SHADER_PATCH_OUTPUT_BUFFER_INDEX:
options->msl.shader_patch_output_buffer_index = value;
break;
case SPVC_COMPILER_OPTION_MSL_SHADER_TESS_FACTOR_OUTPUT_BUFFER_INDEX:
options->msl.shader_tess_factor_buffer_index = value;
break;
case SPVC_COMPILER_OPTION_MSL_SHADER_INPUT_WORKGROUP_INDEX:
options->msl.shader_input_wg_index = value;
break;
case SPVC_COMPILER_OPTION_MSL_ENABLE_POINT_SIZE_BUILTIN:
options->msl.enable_point_size_builtin = value != 0;
break;
case SPVC_COMPILER_OPTION_MSL_DISABLE_RASTERIZATION:
options->msl.disable_rasterization = value != 0;
break;
case SPVC_COMPILER_OPTION_MSL_CAPTURE_OUTPUT_TO_BUFFER:
options->msl.capture_output_to_buffer = value != 0;
break;
case SPVC_COMPILER_OPTION_MSL_SWIZZLE_TEXTURE_SAMPLES:
options->msl.swizzle_texture_samples = value != 0;
break;
case SPVC_COMPILER_OPTION_MSL_PAD_FRAGMENT_OUTPUT_COMPONENTS:
options->msl.pad_fragment_output_components = value != 0;
break;
case SPVC_COMPILER_OPTION_MSL_TESS_DOMAIN_ORIGIN_LOWER_LEFT:
options->msl.tess_domain_origin_lower_left = value != 0;
break;
case SPVC_COMPILER_OPTION_MSL_PLATFORM:
options->msl.platform = static_cast<CompilerMSL::Options::Platform>(value);
break;
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case SPVC_COMPILER_OPTION_MSL_ARGUMENT_BUFFERS:
options->msl.argument_buffers = value != 0;
break;
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case SPVC_COMPILER_OPTION_MSL_TEXTURE_BUFFER_NATIVE:
options->msl.texture_buffer_native = value != 0;
break;
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case SPVC_COMPILER_OPTION_MSL_BUFFER_SIZE_BUFFER_INDEX:
options->msl.buffer_size_buffer_index = value;
break;
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case SPVC_COMPILER_OPTION_MSL_MULTIVIEW:
options->msl.multiview = value != 0;
break;
case SPVC_COMPILER_OPTION_MSL_VIEW_MASK_BUFFER_INDEX:
options->msl.view_mask_buffer_index = value;
break;
case SPVC_COMPILER_OPTION_MSL_DEVICE_INDEX:
options->msl.device_index = value;
break;
case SPVC_COMPILER_OPTION_MSL_VIEW_INDEX_FROM_DEVICE_INDEX:
options->msl.view_index_from_device_index = value != 0;
break;
case SPVC_COMPILER_OPTION_MSL_DISPATCH_BASE:
options->msl.dispatch_base = value != 0;
break;
case SPVC_COMPILER_OPTION_MSL_DYNAMIC_OFFSETS_BUFFER_INDEX:
options->msl.dynamic_offsets_buffer_index = value;
break;
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#endif
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default:
options->context->report_error("Unknown option.");
return SPVC_ERROR_INVALID_ARGUMENT;
}
return SPVC_SUCCESS;
}
spvc_result spvc_compiler_install_compiler_options(spvc_compiler compiler, spvc_compiler_options options)
{
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(void)options;
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switch (compiler->backend)
{
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#if SPIRV_CROSS_C_API_GLSL
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case SPVC_BACKEND_GLSL:
static_cast<CompilerGLSL &>(*compiler->compiler).set_common_options(options->glsl);
break;
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#endif
#if SPIRV_CROSS_C_API_HLSL
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case SPVC_BACKEND_HLSL:
static_cast<CompilerHLSL &>(*compiler->compiler).set_common_options(options->glsl);
static_cast<CompilerHLSL &>(*compiler->compiler).set_hlsl_options(options->hlsl);
break;
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#endif
#if SPIRV_CROSS_C_API_MSL
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case SPVC_BACKEND_MSL:
static_cast<CompilerMSL &>(*compiler->compiler).set_common_options(options->glsl);
static_cast<CompilerMSL &>(*compiler->compiler).set_msl_options(options->msl);
break;
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#endif
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default:
break;
}
return SPVC_SUCCESS;
}
spvc_result spvc_compiler_add_header_line(spvc_compiler compiler, const char *line)
{
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#if SPIRV_CROSS_C_API_GLSL
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if (compiler->backend == SPVC_BACKEND_NONE)
{
compiler->context->report_error("Cross-compilation related option used on NONE backend which only supports reflection.");
return SPVC_ERROR_INVALID_ARGUMENT;
}
static_cast<CompilerGLSL *>(compiler->compiler.get())->add_header_line(line);
return SPVC_SUCCESS;
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#else
(void)line;
compiler->context->report_error("Cross-compilation related option used on NONE backend which only supports reflection.");
return SPVC_ERROR_INVALID_ARGUMENT;
#endif
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}
spvc_result spvc_compiler_require_extension(spvc_compiler compiler, const char *line)
{
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#if SPIRV_CROSS_C_API_GLSL
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if (compiler->backend == SPVC_BACKEND_NONE)
{
compiler->context->report_error("Cross-compilation related option used on NONE backend which only supports reflection.");
return SPVC_ERROR_INVALID_ARGUMENT;
}
static_cast<CompilerGLSL *>(compiler->compiler.get())->require_extension(line);
return SPVC_SUCCESS;
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#else
(void)line;
compiler->context->report_error("Cross-compilation related option used on NONE backend which only supports reflection.");
return SPVC_ERROR_INVALID_ARGUMENT;
#endif
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}
spvc_result spvc_compiler_flatten_buffer_block(spvc_compiler compiler, spvc_variable_id id)
{
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#if SPIRV_CROSS_C_API_GLSL
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if (compiler->backend == SPVC_BACKEND_NONE)
{
compiler->context->report_error("Cross-compilation related option used on NONE backend which only supports reflection.");
return SPVC_ERROR_INVALID_ARGUMENT;
}
static_cast<CompilerGLSL *>(compiler->compiler.get())->flatten_buffer_block(id);
return SPVC_SUCCESS;
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#else
(void)id;
compiler->context->report_error("Cross-compilation related option used on NONE backend which only supports reflection.");
return SPVC_ERROR_INVALID_ARGUMENT;
#endif
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}
spvc_result spvc_compiler_hlsl_set_root_constants_layout(spvc_compiler compiler,
const spvc_hlsl_root_constants *constant_info,
size_t count)
{
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#if SPIRV_CROSS_C_API_HLSL
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if (compiler->backend != SPVC_BACKEND_HLSL)
{
compiler->context->report_error("HLSL function used on a non-HLSL backend.");
return SPVC_ERROR_INVALID_ARGUMENT;
}
auto &hlsl = *static_cast<CompilerHLSL *>(compiler->compiler.get());
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vector<RootConstants> roots;
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roots.reserve(count);
for (size_t i = 0; i < count; i++)
{
RootConstants root;
root.binding = constant_info[i].binding;
root.space = constant_info[i].space;
root.start = constant_info[i].start;
root.end = constant_info[i].end;
roots.push_back(root);
}
hlsl.set_root_constant_layouts(std::move(roots));
return SPVC_SUCCESS;
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#else
(void)constant_info;
(void)count;
compiler->context->report_error("HLSL function used on a non-HLSL backend.");
return SPVC_ERROR_INVALID_ARGUMENT;
#endif
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}
spvc_result spvc_compiler_hlsl_add_vertex_attribute_remap(spvc_compiler compiler,
const spvc_hlsl_vertex_attribute_remap *remap,
size_t count)
{
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#if SPIRV_CROSS_C_API_HLSL
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if (compiler->backend != SPVC_BACKEND_HLSL)
{
compiler->context->report_error("HLSL function used on a non-HLSL backend.");
return SPVC_ERROR_INVALID_ARGUMENT;
}
HLSLVertexAttributeRemap re;
auto &hlsl = *static_cast<CompilerHLSL *>(compiler->compiler.get());
for (size_t i = 0; i < count; i++)
{
re.location = remap[i].location;
re.semantic = remap[i].semantic;
hlsl.add_vertex_attribute_remap(re);
}
return SPVC_SUCCESS;
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#else
(void)remap;
(void)count;
compiler->context->report_error("HLSL function used on a non-HLSL backend.");
return SPVC_ERROR_INVALID_ARGUMENT;
#endif
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}
spvc_variable_id spvc_compiler_hlsl_remap_num_workgroups_builtin(spvc_compiler compiler)
{
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#if SPIRV_CROSS_C_API_HLSL
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if (compiler->backend != SPVC_BACKEND_HLSL)
{
compiler->context->report_error("HLSL function used on a non-HLSL backend.");
return 0;
}
auto &hlsl = *static_cast<CompilerHLSL *>(compiler->compiler.get());
return hlsl.remap_num_workgroups_builtin();
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#else
compiler->context->report_error("HLSL function used on a non-HLSL backend.");
return 0;
#endif
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}
spvc_bool spvc_compiler_msl_is_rasterization_disabled(spvc_compiler compiler)
{
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#if SPIRV_CROSS_C_API_MSL
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if (compiler->backend != SPVC_BACKEND_MSL)
{
compiler->context->report_error("MSL function used on a non-MSL backend.");
return SPVC_FALSE;
}
auto &msl = *static_cast<CompilerMSL *>(compiler->compiler.get());
return msl.get_is_rasterization_disabled() ? SPVC_TRUE : SPVC_FALSE;
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#else
compiler->context->report_error("MSL function used on a non-MSL backend.");
return SPVC_FALSE;
#endif
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}
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spvc_bool spvc_compiler_msl_needs_swizzle_buffer(spvc_compiler compiler)
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{
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#if SPIRV_CROSS_C_API_MSL
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if (compiler->backend != SPVC_BACKEND_MSL)
{
compiler->context->report_error("MSL function used on a non-MSL backend.");
return SPVC_FALSE;
}
auto &msl = *static_cast<CompilerMSL *>(compiler->compiler.get());
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return msl.needs_swizzle_buffer() ? SPVC_TRUE : SPVC_FALSE;
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#else
compiler->context->report_error("MSL function used on a non-MSL backend.");
return SPVC_FALSE;
#endif
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}
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spvc_bool spvc_compiler_msl_needs_buffer_size_buffer(spvc_compiler compiler)
{
#if SPIRV_CROSS_C_API_MSL
if (compiler->backend != SPVC_BACKEND_MSL)
{
compiler->context->report_error("MSL function used on a non-MSL backend.");
return SPVC_FALSE;
}
auto &msl = *static_cast<CompilerMSL *>(compiler->compiler.get());
return msl.needs_buffer_size_buffer() ? SPVC_TRUE : SPVC_FALSE;
#else
compiler->context->report_error("MSL function used on a non-MSL backend.");
return SPVC_FALSE;
#endif
}
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spvc_bool spvc_compiler_msl_needs_aux_buffer(spvc_compiler compiler)
{
return spvc_compiler_msl_needs_swizzle_buffer(compiler);
}
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spvc_bool spvc_compiler_msl_needs_output_buffer(spvc_compiler compiler)
{
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#if SPIRV_CROSS_C_API_MSL
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if (compiler->backend != SPVC_BACKEND_MSL)
{
compiler->context->report_error("MSL function used on a non-MSL backend.");
return SPVC_FALSE;
}
auto &msl = *static_cast<CompilerMSL *>(compiler->compiler.get());
return msl.needs_output_buffer() ? SPVC_TRUE : SPVC_FALSE;
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#else
compiler->context->report_error("MSL function used on a non-MSL backend.");
return SPVC_FALSE;
#endif
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}
spvc_bool spvc_compiler_msl_needs_patch_output_buffer(spvc_compiler compiler)
{
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#if SPIRV_CROSS_C_API_MSL
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if (compiler->backend != SPVC_BACKEND_MSL)
{
compiler->context->report_error("MSL function used on a non-MSL backend.");
return SPVC_FALSE;
}
auto &msl = *static_cast<CompilerMSL *>(compiler->compiler.get());
return msl.needs_patch_output_buffer() ? SPVC_TRUE : SPVC_FALSE;
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#else
compiler->context->report_error("MSL function used on a non-MSL backend.");
return SPVC_FALSE;
#endif
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}
spvc_bool spvc_compiler_msl_needs_input_threadgroup_mem(spvc_compiler compiler)
{
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#if SPIRV_CROSS_C_API_MSL
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if (compiler->backend != SPVC_BACKEND_MSL)
{
compiler->context->report_error("MSL function used on a non-MSL backend.");
return SPVC_FALSE;
}
auto &msl = *static_cast<CompilerMSL *>(compiler->compiler.get());
return msl.needs_input_threadgroup_mem() ? SPVC_TRUE : SPVC_FALSE;
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#else
compiler->context->report_error("MSL function used on a non-MSL backend.");
return SPVC_FALSE;
#endif
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}
spvc_result spvc_compiler_msl_add_vertex_attribute(spvc_compiler compiler, const spvc_msl_vertex_attribute *va)
{
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#if SPIRV_CROSS_C_API_MSL
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if (compiler->backend != SPVC_BACKEND_MSL)
{
compiler->context->report_error("MSL function used on a non-MSL backend.");
return SPVC_ERROR_INVALID_ARGUMENT;
}
auto &msl = *static_cast<CompilerMSL *>(compiler->compiler.get());
MSLVertexAttr attr;
attr.location = va->location;
attr.msl_buffer = va->msl_buffer;
attr.msl_offset = va->msl_offset;
attr.msl_stride = va->msl_stride;
attr.format = static_cast<MSLVertexFormat>(va->format);
attr.builtin = static_cast<spv::BuiltIn>(va->builtin);
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attr.per_instance = va->per_instance != 0;
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msl.add_msl_vertex_attribute(attr);
return SPVC_SUCCESS;
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#else
(void)va;
compiler->context->report_error("MSL function used on a non-MSL backend.");
return SPVC_ERROR_INVALID_ARGUMENT;
#endif
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}
spvc_result spvc_compiler_msl_add_resource_binding(spvc_compiler compiler,
const spvc_msl_resource_binding *binding)
{
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#if SPIRV_CROSS_C_API_MSL
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if (compiler->backend != SPVC_BACKEND_MSL)
{
compiler->context->report_error("MSL function used on a non-MSL backend.");
return SPVC_ERROR_INVALID_ARGUMENT;
}
auto &msl = *static_cast<CompilerMSL *>(compiler->compiler.get());
MSLResourceBinding bind;
bind.binding = binding->binding;
bind.desc_set = binding->desc_set;
bind.stage = static_cast<spv::ExecutionModel>(binding->stage);
bind.msl_buffer = binding->msl_buffer;
bind.msl_texture = binding->msl_texture;
bind.msl_sampler = binding->msl_sampler;
msl.add_msl_resource_binding(bind);
return SPVC_SUCCESS;
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#else
(void)binding;
compiler->context->report_error("MSL function used on a non-MSL backend.");
return SPVC_ERROR_INVALID_ARGUMENT;
#endif
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}
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spvc_result spvc_compiler_msl_add_dynamic_buffer(spvc_compiler compiler, unsigned desc_set, unsigned binding, unsigned index)
{
#if SPIRV_CROSS_C_API_MSL
if (compiler->backend != SPVC_BACKEND_MSL)
{
compiler->context->report_error("MSL function used on a non-MSL backend.");
return SPVC_ERROR_INVALID_ARGUMENT;
}
auto &msl = *static_cast<CompilerMSL *>(compiler->compiler.get());
msl.add_dynamic_buffer(desc_set, binding, index);
return SPVC_SUCCESS;
#else
(void)binding;
(void)desc_set;
(void)index;
compiler->context->report_error("MSL function used on a non-MSL backend.");
return SPVC_ERROR_INVALID_ARGUMENT;
#endif
}
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spvc_result spvc_compiler_msl_add_discrete_descriptor_set(spvc_compiler compiler, unsigned desc_set)
{
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#if SPIRV_CROSS_C_API_MSL
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if (compiler->backend != SPVC_BACKEND_MSL)
{
compiler->context->report_error("MSL function used on a non-MSL backend.");
return SPVC_ERROR_INVALID_ARGUMENT;
}
auto &msl = *static_cast<CompilerMSL *>(compiler->compiler.get());
msl.add_discrete_descriptor_set(desc_set);
return SPVC_SUCCESS;
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#else
(void)desc_set;
compiler->context->report_error("MSL function used on a non-MSL backend.");
return SPVC_ERROR_INVALID_ARGUMENT;
#endif
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}
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spvc_result spvc_compiler_msl_set_argument_buffer_device_address_space(spvc_compiler compiler, unsigned desc_set, spvc_bool device_address)
{
#if SPIRV_CROSS_C_API_MSL
if (compiler->backend != SPVC_BACKEND_MSL)
{
compiler->context->report_error("MSL function used on a non-MSL backend.");
return SPVC_ERROR_INVALID_ARGUMENT;
}
auto &msl = *static_cast<CompilerMSL *>(compiler->compiler.get());
msl.set_argument_buffer_device_address_space(desc_set, bool(device_address));
return SPVC_SUCCESS;
#else
(void)desc_set;
(void)device_address;
compiler->context->report_error("MSL function used on a non-MSL backend.");
return SPVC_ERROR_INVALID_ARGUMENT;
#endif
}
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spvc_bool spvc_compiler_msl_is_vertex_attribute_used(spvc_compiler compiler, unsigned location)
{
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#if SPIRV_CROSS_C_API_MSL
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if (compiler->backend != SPVC_BACKEND_MSL)
{
compiler->context->report_error("MSL function used on a non-MSL backend.");
return SPVC_FALSE;
}
auto &msl = *static_cast<CompilerMSL *>(compiler->compiler.get());
return msl.is_msl_vertex_attribute_used(location) ? SPVC_TRUE : SPVC_FALSE;
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#else
(void)location;
compiler->context->report_error("MSL function used on a non-MSL backend.");
return SPVC_FALSE;
#endif
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}
spvc_bool spvc_compiler_msl_is_resource_used(spvc_compiler compiler, SpvExecutionModel model, unsigned set,
unsigned binding)
{
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#if SPIRV_CROSS_C_API_MSL
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if (compiler->backend != SPVC_BACKEND_MSL)
{
compiler->context->report_error("MSL function used on a non-MSL backend.");
return SPVC_FALSE;
}
auto &msl = *static_cast<CompilerMSL *>(compiler->compiler.get());
return msl.is_msl_resource_binding_used(static_cast<spv::ExecutionModel>(model), set, binding) ? SPVC_TRUE :
SPVC_FALSE;
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#else
(void)model;
(void)set;
(void)binding;
compiler->context->report_error("MSL function used on a non-MSL backend.");
return SPVC_FALSE;
#endif
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}
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#if SPIRV_CROSS_C_API_MSL
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static void spvc_convert_msl_sampler(MSLConstexprSampler &samp, const spvc_msl_constexpr_sampler *sampler)
{
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samp.s_address = static_cast<MSLSamplerAddress>(sampler->s_address);
samp.t_address = static_cast<MSLSamplerAddress>(sampler->t_address);
samp.r_address = static_cast<MSLSamplerAddress>(sampler->r_address);
samp.lod_clamp_min = sampler->lod_clamp_min;
samp.lod_clamp_max = sampler->lod_clamp_max;
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samp.lod_clamp_enable = sampler->lod_clamp_enable != 0;
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samp.min_filter = static_cast<MSLSamplerFilter>(sampler->min_filter);
samp.mag_filter = static_cast<MSLSamplerFilter>(sampler->mag_filter);
samp.mip_filter = static_cast<MSLSamplerMipFilter>(sampler->mip_filter);
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samp.compare_enable = sampler->compare_enable != 0;
samp.anisotropy_enable = sampler->anisotropy_enable != 0;
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samp.max_anisotropy = sampler->max_anisotropy;
samp.compare_func = static_cast<MSLSamplerCompareFunc>(sampler->compare_func);
samp.coord = static_cast<MSLSamplerCoord>(sampler->coord);
samp.border_color = static_cast<MSLSamplerBorderColor>(sampler->border_color);
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}
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static void spvc_convert_msl_sampler_ycbcr_conversion(MSLConstexprSampler &samp, const spvc_msl_sampler_ycbcr_conversion *conv)
{
samp.ycbcr_conversion_enable = conv != nullptr;
if (conv == nullptr) return;
samp.planes = conv->planes;
samp.resolution = static_cast<MSLFormatResolution>(conv->resolution);
samp.chroma_filter = static_cast<MSLSamplerFilter>(conv->chroma_filter);
samp.x_chroma_offset = static_cast<MSLChromaLocation>(conv->x_chroma_offset);
samp.y_chroma_offset = static_cast<MSLChromaLocation>(conv->y_chroma_offset);
for (int i = 0; i < 4; i++)
samp.swizzle[i] = static_cast<MSLComponentSwizzle>(conv->swizzle[i]);
samp.ycbcr_model = static_cast<MSLSamplerYCbCrModelConversion>(conv->ycbcr_model);
samp.ycbcr_range = static_cast<MSLSamplerYCbCrRange>(conv->ycbcr_range);
samp.bpc = conv->bpc;
}
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#endif
spvc_result spvc_compiler_msl_remap_constexpr_sampler(spvc_compiler compiler, spvc_variable_id id,
const spvc_msl_constexpr_sampler *sampler)
{
#if SPIRV_CROSS_C_API_MSL
if (compiler->backend != SPVC_BACKEND_MSL)
{
compiler->context->report_error("MSL function used on a non-MSL backend.");
return SPVC_ERROR_INVALID_ARGUMENT;
}
auto &msl = *static_cast<CompilerMSL *>(compiler->compiler.get());
MSLConstexprSampler samp;
spvc_convert_msl_sampler(samp, sampler);
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msl.remap_constexpr_sampler(id, samp);
return SPVC_SUCCESS;
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#else
(void)id;
(void)sampler;
compiler->context->report_error("MSL function used on a non-MSL backend.");
return SPVC_ERROR_INVALID_ARGUMENT;
#endif
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}
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spvc_result spvc_compiler_msl_remap_constexpr_sampler_by_binding(spvc_compiler compiler,
unsigned desc_set, unsigned binding,
const spvc_msl_constexpr_sampler *sampler)
{
#if SPIRV_CROSS_C_API_MSL
if (compiler->backend != SPVC_BACKEND_MSL)
{
compiler->context->report_error("MSL function used on a non-MSL backend.");
return SPVC_ERROR_INVALID_ARGUMENT;
}
auto &msl = *static_cast<CompilerMSL *>(compiler->compiler.get());
MSLConstexprSampler samp;
spvc_convert_msl_sampler(samp, sampler);
msl.remap_constexpr_sampler_by_binding(desc_set, binding, samp);
return SPVC_SUCCESS;
#else
(void)desc_set;
(void)binding;
(void)sampler;
compiler->context->report_error("MSL function used on a non-MSL backend.");
return SPVC_ERROR_INVALID_ARGUMENT;
#endif
}
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spvc_result spvc_compiler_msl_remap_constexpr_sampler_ycbcr(spvc_compiler compiler, spvc_variable_id id,
const spvc_msl_constexpr_sampler *sampler,
const spvc_msl_sampler_ycbcr_conversion *conv)
{
#if SPIRV_CROSS_C_API_MSL
if (compiler->backend != SPVC_BACKEND_MSL)
{
compiler->context->report_error("MSL function used on a non-MSL backend.");
return SPVC_ERROR_INVALID_ARGUMENT;
}
auto &msl = *static_cast<CompilerMSL *>(compiler->compiler.get());
MSLConstexprSampler samp;
spvc_convert_msl_sampler(samp, sampler);
spvc_convert_msl_sampler_ycbcr_conversion(samp, conv);
msl.remap_constexpr_sampler(id, samp);
return SPVC_SUCCESS;
#else
(void)id;
(void)sampler;
(void)conv;
compiler->context->report_error("MSL function used on a non-MSL backend.");
return SPVC_ERROR_INVALID_ARGUMENT;
#endif
}
spvc_result spvc_compiler_msl_remap_constexpr_sampler_by_binding_ycbcr(spvc_compiler compiler,
unsigned desc_set, unsigned binding,
const spvc_msl_constexpr_sampler *sampler,
const spvc_msl_sampler_ycbcr_conversion *conv)
{
#if SPIRV_CROSS_C_API_MSL
if (compiler->backend != SPVC_BACKEND_MSL)
{
compiler->context->report_error("MSL function used on a non-MSL backend.");
return SPVC_ERROR_INVALID_ARGUMENT;
}
auto &msl = *static_cast<CompilerMSL *>(compiler->compiler.get());
MSLConstexprSampler samp;
spvc_convert_msl_sampler(samp, sampler);
spvc_convert_msl_sampler_ycbcr_conversion(samp, conv);
msl.remap_constexpr_sampler_by_binding(desc_set, binding, samp);
return SPVC_SUCCESS;
#else
(void)desc_set;
(void)binding;
(void)sampler;
(void)conv;
compiler->context->report_error("MSL function used on a non-MSL backend.");
return SPVC_ERROR_INVALID_ARGUMENT;
#endif
}
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spvc_result spvc_compiler_msl_set_fragment_output_components(spvc_compiler compiler, unsigned location,
unsigned components)
{
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#if SPIRV_CROSS_C_API_MSL
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if (compiler->backend != SPVC_BACKEND_MSL)
{
compiler->context->report_error("MSL function used on a non-MSL backend.");
return SPVC_ERROR_INVALID_ARGUMENT;
}
auto &msl = *static_cast<CompilerMSL *>(compiler->compiler.get());
msl.set_fragment_output_components(location, components);
return SPVC_SUCCESS;
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#else
(void)location;
(void)components;
compiler->context->report_error("MSL function used on a non-MSL backend.");
return SPVC_ERROR_INVALID_ARGUMENT;
#endif
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}
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unsigned spvc_compiler_msl_get_automatic_resource_binding(spvc_compiler compiler, spvc_variable_id id)
{
#if SPIRV_CROSS_C_API_MSL
if (compiler->backend != SPVC_BACKEND_MSL)
{
compiler->context->report_error("MSL function used on a non-MSL backend.");
return uint32_t(-1);
}
auto &msl = *static_cast<CompilerMSL *>(compiler->compiler.get());
return msl.get_automatic_msl_resource_binding(id);
#else
(void)id;
compiler->context->report_error("MSL function used on a non-MSL backend.");
return uint32_t(-1);
#endif
}
unsigned spvc_compiler_msl_get_automatic_resource_binding_secondary(spvc_compiler compiler, spvc_variable_id id)
{
#if SPIRV_CROSS_C_API_MSL
if (compiler->backend != SPVC_BACKEND_MSL)
{
compiler->context->report_error("MSL function used on a non-MSL backend.");
return uint32_t(-1);
}
auto &msl = *static_cast<CompilerMSL *>(compiler->compiler.get());
return msl.get_automatic_msl_resource_binding_secondary(id);
#else
(void)id;
compiler->context->report_error("MSL function used on a non-MSL backend.");
return uint32_t(-1);
#endif
}
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spvc_result spvc_compiler_compile(spvc_compiler compiler, const char **source)
{
SPVC_BEGIN_SAFE_SCOPE
{
auto result = compiler->compiler->compile();
if (result.empty())
{
compiler->context->report_error("Unsupported SPIR-V.");
return SPVC_ERROR_UNSUPPORTED_SPIRV;
}
*source = compiler->context->allocate_name(result);
if (!*source)
{
compiler->context->report_error("Out of memory.");
return SPVC_ERROR_OUT_OF_MEMORY;
}
return SPVC_SUCCESS;
}
SPVC_END_SAFE_SCOPE(compiler->context, SPVC_ERROR_UNSUPPORTED_SPIRV)
}
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bool spvc_resources_s::copy_resources(SmallVector<spvc_reflected_resource> &outputs,
const SmallVector<Resource> &inputs)
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{
for (auto &i : inputs)
{
spvc_reflected_resource r;
r.base_type_id = i.base_type_id;
r.type_id = i.type_id;
r.id = i.id;
r.name = context->allocate_name(i.name);
if (!r.name)
return false;
outputs.push_back(r);
}
return true;
}
bool spvc_resources_s::copy_resources(const ShaderResources &resources)
{
if (!copy_resources(uniform_buffers, resources.uniform_buffers))
return false;
if (!copy_resources(storage_buffers, resources.storage_buffers))
return false;
if (!copy_resources(stage_inputs, resources.stage_inputs))
return false;
if (!copy_resources(stage_outputs, resources.stage_outputs))
return false;
if (!copy_resources(subpass_inputs, resources.subpass_inputs))
return false;
if (!copy_resources(storage_images, resources.storage_images))
return false;
if (!copy_resources(sampled_images, resources.sampled_images))
return false;
if (!copy_resources(atomic_counters, resources.atomic_counters))
return false;
if (!copy_resources(push_constant_buffers, resources.push_constant_buffers))
return false;
if (!copy_resources(separate_images, resources.separate_images))
return false;
if (!copy_resources(separate_samplers, resources.separate_samplers))
return false;
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if (!copy_resources(acceleration_structures, resources.acceleration_structures))
return false;
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return true;
}
spvc_result spvc_compiler_get_active_interface_variables(spvc_compiler compiler, spvc_set *set)
{
SPVC_BEGIN_SAFE_SCOPE
{
std::unique_ptr<spvc_set_s> ptr(new (std::nothrow) spvc_set_s);
if (!ptr)
{
compiler->context->report_error("Out of memory.");
return SPVC_ERROR_OUT_OF_MEMORY;
}
auto active = compiler->compiler->get_active_interface_variables();
ptr->set = std::move(active);
*set = ptr.get();
compiler->context->allocations.push_back(std::move(ptr));
}
SPVC_END_SAFE_SCOPE(compiler->context, SPVC_ERROR_INVALID_ARGUMENT)
return SPVC_SUCCESS;
}
spvc_result spvc_compiler_set_enabled_interface_variables(spvc_compiler compiler, spvc_set set)
{
SPVC_BEGIN_SAFE_SCOPE
{
compiler->compiler->set_enabled_interface_variables(set->set);
}
SPVC_END_SAFE_SCOPE(compiler->context, SPVC_ERROR_INVALID_ARGUMENT)
return SPVC_SUCCESS;
}
spvc_result spvc_compiler_create_shader_resources_for_active_variables(spvc_compiler compiler, spvc_resources *resources,
spvc_set set)
{
SPVC_BEGIN_SAFE_SCOPE
{
std::unique_ptr<spvc_resources_s> res(new (std::nothrow) spvc_resources_s);
if (!res)
{
compiler->context->report_error("Out of memory.");
return SPVC_ERROR_OUT_OF_MEMORY;
}
res->context = compiler->context;
auto accessed_resources = compiler->compiler->get_shader_resources(set->set);
if (!res->copy_resources(accessed_resources))
{
res->context->report_error("Out of memory.");
return SPVC_ERROR_OUT_OF_MEMORY;
}
*resources = res.get();
compiler->context->allocations.push_back(std::move(res));
}
SPVC_END_SAFE_SCOPE(compiler->context, SPVC_ERROR_OUT_OF_MEMORY)
return SPVC_SUCCESS;
}
spvc_result spvc_compiler_create_shader_resources(spvc_compiler compiler, spvc_resources *resources)
{
SPVC_BEGIN_SAFE_SCOPE
{
std::unique_ptr<spvc_resources_s> res(new (std::nothrow) spvc_resources_s);
if (!res)
{
compiler->context->report_error("Out of memory.");
return SPVC_ERROR_OUT_OF_MEMORY;
}
res->context = compiler->context;
auto accessed_resources = compiler->compiler->get_shader_resources();
if (!res->copy_resources(accessed_resources))
{
res->context->report_error("Out of memory.");
return SPVC_ERROR_OUT_OF_MEMORY;
}
*resources = res.get();
compiler->context->allocations.push_back(std::move(res));
}
SPVC_END_SAFE_SCOPE(compiler->context, SPVC_ERROR_OUT_OF_MEMORY)
return SPVC_SUCCESS;
}
spvc_result spvc_resources_get_resource_list_for_type(spvc_resources resources, spvc_resource_type type,
const spvc_reflected_resource **resource_list,
size_t *resource_size)
{
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const SmallVector<spvc_reflected_resource> *list = nullptr;
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switch (type)
{
case SPVC_RESOURCE_TYPE_UNIFORM_BUFFER:
list = &resources->uniform_buffers;
break;
case SPVC_RESOURCE_TYPE_STORAGE_BUFFER:
list = &resources->storage_buffers;
break;
case SPVC_RESOURCE_TYPE_STAGE_INPUT:
list = &resources->stage_inputs;
break;
case SPVC_RESOURCE_TYPE_STAGE_OUTPUT:
list = &resources->stage_outputs;
break;
case SPVC_RESOURCE_TYPE_SUBPASS_INPUT:
list = &resources->subpass_inputs;
break;
case SPVC_RESOURCE_TYPE_STORAGE_IMAGE:
list = &resources->storage_images;
break;
case SPVC_RESOURCE_TYPE_SAMPLED_IMAGE:
list = &resources->sampled_images;
break;
case SPVC_RESOURCE_TYPE_ATOMIC_COUNTER:
list = &resources->atomic_counters;
break;
case SPVC_RESOURCE_TYPE_PUSH_CONSTANT:
list = &resources->push_constant_buffers;
break;
case SPVC_RESOURCE_TYPE_SEPARATE_IMAGE:
list = &resources->separate_images;
break;
case SPVC_RESOURCE_TYPE_SEPARATE_SAMPLERS:
list = &resources->separate_samplers;
break;
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case SPVC_RESOURCE_TYPE_ACCELERATION_STRUCTURE:
list = &resources->acceleration_structures;
break;
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default:
break;
}
if (!list)
{
resources->context->report_error("Invalid argument.");
return SPVC_ERROR_INVALID_ARGUMENT;
}
*resource_size = list->size();
*resource_list = list->data();
return SPVC_SUCCESS;
}
void spvc_compiler_set_decoration(spvc_compiler compiler, SpvId id, SpvDecoration decoration, unsigned argument)
{
compiler->compiler->set_decoration(id, static_cast<spv::Decoration>(decoration), argument);
}
void spvc_compiler_set_decoration_string(spvc_compiler compiler, SpvId id, SpvDecoration decoration,
const char *argument)
{
compiler->compiler->set_decoration_string(id, static_cast<spv::Decoration>(decoration), argument);
}
void spvc_compiler_set_name(spvc_compiler compiler, SpvId id, const char *argument)
{
compiler->compiler->set_name(id, argument);
}
void spvc_compiler_set_member_decoration(spvc_compiler compiler, spvc_type_id id, unsigned member_index,
SpvDecoration decoration, unsigned argument)
{
compiler->compiler->set_member_decoration(id, member_index, static_cast<spv::Decoration>(decoration), argument);
}
void spvc_compiler_set_member_decoration_string(spvc_compiler compiler, spvc_type_id id, unsigned member_index,
SpvDecoration decoration, const char *argument)
{
compiler->compiler->set_member_decoration_string(id, member_index, static_cast<spv::Decoration>(decoration),
argument);
}
void spvc_compiler_set_member_name(spvc_compiler compiler, spvc_type_id id, unsigned member_index, const char *argument)
{
compiler->compiler->set_member_name(id, member_index, argument);
}
void spvc_compiler_unset_decoration(spvc_compiler compiler, SpvId id, SpvDecoration decoration)
{
compiler->compiler->unset_decoration(id, static_cast<spv::Decoration>(decoration));
}
void spvc_compiler_unset_member_decoration(spvc_compiler compiler, spvc_type_id id, unsigned member_index,
SpvDecoration decoration)
{
compiler->compiler->unset_member_decoration(id, member_index, static_cast<spv::Decoration>(decoration));
}
spvc_bool spvc_compiler_has_decoration(spvc_compiler compiler, SpvId id, SpvDecoration decoration)
{
return compiler->compiler->has_decoration(id, static_cast<spv::Decoration>(decoration)) ? SPVC_TRUE : SPVC_FALSE;
}
spvc_bool spvc_compiler_has_member_decoration(spvc_compiler compiler, spvc_type_id id, unsigned member_index,
SpvDecoration decoration)
{
return compiler->compiler->has_member_decoration(id, member_index, static_cast<spv::Decoration>(decoration)) ?
SPVC_TRUE :
SPVC_FALSE;
}
const char *spvc_compiler_get_name(spvc_compiler compiler, SpvId id)
{
return compiler->compiler->get_name(id).c_str();
}
unsigned spvc_compiler_get_decoration(spvc_compiler compiler, SpvId id, SpvDecoration decoration)
{
return compiler->compiler->get_decoration(id, static_cast<spv::Decoration>(decoration));
}
const char *spvc_compiler_get_decoration_string(spvc_compiler compiler, SpvId id, SpvDecoration decoration)
{
return compiler->compiler->get_decoration_string(id, static_cast<spv::Decoration>(decoration)).c_str();
}
unsigned spvc_compiler_get_member_decoration(spvc_compiler compiler, spvc_type_id id, unsigned member_index,
SpvDecoration decoration)
{
return compiler->compiler->get_member_decoration(id, member_index, static_cast<spv::Decoration>(decoration));
}
const char *spvc_compiler_get_member_decoration_string(spvc_compiler compiler, spvc_type_id id, unsigned member_index,
SpvDecoration decoration)
{
return compiler->compiler->get_member_decoration_string(id, member_index, static_cast<spv::Decoration>(decoration))
.c_str();
}
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const char *spvc_compiler_get_member_name(spvc_compiler compiler, spvc_type_id id, unsigned member_index)
{
return compiler->compiler->get_member_name(id, member_index).c_str();
}
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spvc_result spvc_compiler_get_entry_points(spvc_compiler compiler, const spvc_entry_point **entry_points,
size_t *num_entry_points)
{
SPVC_BEGIN_SAFE_SCOPE
{
auto entries = compiler->compiler->get_entry_points_and_stages();
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SmallVector<spvc_entry_point> translated;
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translated.reserve(entries.size());
for (auto &entry : entries)
{
spvc_entry_point new_entry;
new_entry.execution_model = static_cast<SpvExecutionModel>(entry.execution_model);
new_entry.name = compiler->context->allocate_name(entry.name);
if (!new_entry.name)
{
compiler->context->report_error("Out of memory.");
return SPVC_ERROR_OUT_OF_MEMORY;
}
translated.push_back(new_entry);
}
auto ptr = spvc_allocate<TemporaryBuffer<spvc_entry_point>>();
ptr->buffer = std::move(translated);
*entry_points = ptr->buffer.data();
*num_entry_points = ptr->buffer.size();
compiler->context->allocations.push_back(std::move(ptr));
}
SPVC_END_SAFE_SCOPE(compiler->context, SPVC_ERROR_OUT_OF_MEMORY)
return SPVC_SUCCESS;
}
spvc_result spvc_compiler_set_entry_point(spvc_compiler compiler, const char *name, SpvExecutionModel model)
{
compiler->compiler->set_entry_point(name, static_cast<spv::ExecutionModel>(model));
return SPVC_SUCCESS;
}
spvc_result spvc_compiler_rename_entry_point(spvc_compiler compiler, const char *old_name, const char *new_name,
SpvExecutionModel model)
{
SPVC_BEGIN_SAFE_SCOPE
{
compiler->compiler->rename_entry_point(old_name, new_name, static_cast<spv::ExecutionModel>(model));
}
SPVC_END_SAFE_SCOPE(compiler->context, SPVC_ERROR_INVALID_ARGUMENT)
return SPVC_SUCCESS;
}
const char *spvc_compiler_get_cleansed_entry_point_name(spvc_compiler compiler, const char *name,
SpvExecutionModel model)
{
SPVC_BEGIN_SAFE_SCOPE
{
auto cleansed_name =
compiler->compiler->get_cleansed_entry_point_name(name, static_cast<spv::ExecutionModel>(model));
return compiler->context->allocate_name(cleansed_name);
}
SPVC_END_SAFE_SCOPE(compiler->context, nullptr)
}
void spvc_compiler_set_execution_mode(spvc_compiler compiler, SpvExecutionMode mode)
{
compiler->compiler->set_execution_mode(static_cast<spv::ExecutionMode>(mode));
}
void spvc_compiler_set_execution_mode_with_arguments(spvc_compiler compiler, SpvExecutionMode mode, unsigned arg0,
unsigned arg1,
unsigned arg2)
{
compiler->compiler->set_execution_mode(static_cast<spv::ExecutionMode>(mode), arg0, arg1, arg2);
}
void spvc_compiler_unset_execution_mode(spvc_compiler compiler, SpvExecutionMode mode)
{
compiler->compiler->unset_execution_mode(static_cast<spv::ExecutionMode>(mode));
}
spvc_result spvc_compiler_get_execution_modes(spvc_compiler compiler, const SpvExecutionMode **modes, size_t *num_modes)
{
SPVC_BEGIN_SAFE_SCOPE
{
auto ptr = spvc_allocate<TemporaryBuffer<SpvExecutionMode>>();
compiler->compiler->get_execution_mode_bitset().for_each_bit(
[&](uint32_t bit) { ptr->buffer.push_back(static_cast<SpvExecutionMode>(bit)); });
*modes = ptr->buffer.data();
*num_modes = ptr->buffer.size();
compiler->context->allocations.push_back(std::move(ptr));
}
SPVC_END_SAFE_SCOPE(compiler->context, SPVC_ERROR_OUT_OF_MEMORY)
return SPVC_SUCCESS;
}
unsigned spvc_compiler_get_execution_mode_argument(spvc_compiler compiler, SpvExecutionMode mode)
{
return compiler->compiler->get_execution_mode_argument(static_cast<spv::ExecutionMode>(mode));
}
unsigned spvc_compiler_get_execution_mode_argument_by_index(spvc_compiler compiler, SpvExecutionMode mode,
unsigned index)
{
return compiler->compiler->get_execution_mode_argument(static_cast<spv::ExecutionMode>(mode), index);
}
SpvExecutionModel spvc_compiler_get_execution_model(spvc_compiler compiler)
{
return static_cast<SpvExecutionModel>(compiler->compiler->get_execution_model());
}
spvc_type spvc_compiler_get_type_handle(spvc_compiler compiler, spvc_type_id id)
{
// Should only throw if an intentionally garbage ID is passed, but the IDs are not type-safe.
SPVC_BEGIN_SAFE_SCOPE
{
return static_cast<spvc_type>(&compiler->compiler->get_type(id));
}
SPVC_END_SAFE_SCOPE(compiler->context, nullptr)
}
static spvc_basetype convert_basetype(SPIRType::BaseType type)
{
// For now the enums match up.
return static_cast<spvc_basetype>(type);
}
spvc_basetype spvc_type_get_basetype(spvc_type type)
{
return convert_basetype(type->basetype);
}
unsigned spvc_type_get_bit_width(spvc_type type)
{
return type->width;
}
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unsigned spvc_type_get_vector_size(spvc_type type)
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{
return type->vecsize;
}
unsigned spvc_type_get_columns(spvc_type type)
{
return type->columns;
}
unsigned spvc_type_get_num_array_dimensions(spvc_type type)
{
return unsigned(type->array.size());
}
spvc_bool spvc_type_array_dimension_is_literal(spvc_type type, unsigned dimension)
{
return type->array_size_literal[dimension] ? SPVC_TRUE : SPVC_FALSE;
}
SpvId spvc_type_get_array_dimension(spvc_type type, unsigned dimension)
{
return type->array[dimension];
}
unsigned spvc_type_get_num_member_types(spvc_type type)
{
return unsigned(type->member_types.size());
}
spvc_type_id spvc_type_get_member_type(spvc_type type, unsigned index)
{
return type->member_types[index];
}
SpvStorageClass spvc_type_get_storage_class(spvc_type type)
{
return static_cast<SpvStorageClass>(type->storage);
}
// Image type query.
spvc_type_id spvc_type_get_image_sampled_type(spvc_type type)
{
return type->image.type;
}
SpvDim spvc_type_get_image_dimension(spvc_type type)
{
return static_cast<SpvDim>(type->image.dim);
}
spvc_bool spvc_type_get_image_is_depth(spvc_type type)
{
return type->image.depth ? SPVC_TRUE : SPVC_FALSE;
}
spvc_bool spvc_type_get_image_arrayed(spvc_type type)
{
return type->image.arrayed ? SPVC_TRUE : SPVC_FALSE;
}
spvc_bool spvc_type_get_image_multisampled(spvc_type type)
{
return type->image.ms ? SPVC_TRUE : SPVC_FALSE;
}
spvc_bool spvc_type_get_image_is_storage(spvc_type type)
{
return type->image.sampled == 2 ? SPVC_TRUE : SPVC_FALSE;
}
SpvImageFormat spvc_type_get_image_storage_format(spvc_type type)
{
return static_cast<SpvImageFormat>(static_cast<const SPIRType *>(type)->image.format);
}
SpvAccessQualifier spvc_type_get_image_access_qualifier(spvc_type type)
{
return static_cast<SpvAccessQualifier>(static_cast<const SPIRType *>(type)->image.access);
}
spvc_result spvc_compiler_get_declared_struct_size(spvc_compiler compiler, spvc_type struct_type, size_t *size)
{
SPVC_BEGIN_SAFE_SCOPE
{
*size = compiler->compiler->get_declared_struct_size(*static_cast<const SPIRType *>(struct_type));
}
SPVC_END_SAFE_SCOPE(compiler->context, SPVC_ERROR_INVALID_ARGUMENT)
return SPVC_SUCCESS;
}
spvc_result spvc_compiler_get_declared_struct_size_runtime_array(spvc_compiler compiler, spvc_type struct_type,
size_t array_size, size_t *size)
{
SPVC_BEGIN_SAFE_SCOPE
{
*size = compiler->compiler->get_declared_struct_size_runtime_array(*static_cast<const SPIRType *>(struct_type),
array_size);
}
SPVC_END_SAFE_SCOPE(compiler->context, SPVC_ERROR_INVALID_ARGUMENT)
return SPVC_SUCCESS;
}
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spvc_result spvc_compiler_get_declared_struct_member_size(spvc_compiler compiler, spvc_type struct_type, unsigned index, size_t *size)
{
SPVC_BEGIN_SAFE_SCOPE
{
*size = compiler->compiler->get_declared_struct_member_size(*static_cast<const SPIRType *>(struct_type), index);
}
SPVC_END_SAFE_SCOPE(compiler->context, SPVC_ERROR_INVALID_ARGUMENT)
return SPVC_SUCCESS;
}
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spvc_result spvc_compiler_type_struct_member_offset(spvc_compiler compiler, spvc_type type, unsigned index, unsigned *offset)
{
SPVC_BEGIN_SAFE_SCOPE
{
*offset = compiler->compiler->type_struct_member_offset(*static_cast<const SPIRType *>(type), index);
}
SPVC_END_SAFE_SCOPE(compiler->context, SPVC_ERROR_INVALID_ARGUMENT)
return SPVC_SUCCESS;
}
spvc_result spvc_compiler_type_struct_member_array_stride(spvc_compiler compiler, spvc_type type, unsigned index, unsigned *stride)
{
SPVC_BEGIN_SAFE_SCOPE
{
*stride = compiler->compiler->type_struct_member_array_stride(*static_cast<const SPIRType *>(type), index);
}
SPVC_END_SAFE_SCOPE(compiler->context, SPVC_ERROR_INVALID_ARGUMENT)
return SPVC_SUCCESS;
}
spvc_result spvc_compiler_type_struct_member_matrix_stride(spvc_compiler compiler, spvc_type type, unsigned index, unsigned *stride)
{
SPVC_BEGIN_SAFE_SCOPE
{
*stride = compiler->compiler->type_struct_member_matrix_stride(*static_cast<const SPIRType *>(type), index);
}
SPVC_END_SAFE_SCOPE(compiler->context, SPVC_ERROR_INVALID_ARGUMENT)
return SPVC_SUCCESS;
}
spvc_result spvc_compiler_build_dummy_sampler_for_combined_images(spvc_compiler compiler, spvc_variable_id *id)
{
SPVC_BEGIN_SAFE_SCOPE
{
*id = compiler->compiler->build_dummy_sampler_for_combined_images();
}
SPVC_END_SAFE_SCOPE(compiler->context, SPVC_ERROR_INVALID_ARGUMENT)
return SPVC_SUCCESS;
}
spvc_result spvc_compiler_build_combined_image_samplers(spvc_compiler compiler)
{
SPVC_BEGIN_SAFE_SCOPE
{
compiler->compiler->build_combined_image_samplers();
}
SPVC_END_SAFE_SCOPE(compiler->context, SPVC_ERROR_UNSUPPORTED_SPIRV)
return SPVC_SUCCESS;
}
spvc_result spvc_compiler_get_combined_image_samplers(spvc_compiler compiler,
const spvc_combined_image_sampler **samplers,
size_t *num_samplers)
{
SPVC_BEGIN_SAFE_SCOPE
{
auto combined = compiler->compiler->get_combined_image_samplers();
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SmallVector<spvc_combined_image_sampler> translated;
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translated.reserve(combined.size());
for (auto &c : combined)
{
spvc_combined_image_sampler trans = { c.combined_id, c.image_id, c.sampler_id };
translated.push_back(trans);
}
auto ptr = spvc_allocate<TemporaryBuffer<spvc_combined_image_sampler>>();
ptr->buffer = std::move(translated);
*samplers = ptr->buffer.data();
*num_samplers = ptr->buffer.size();
compiler->context->allocations.push_back(std::move(ptr));
}
SPVC_END_SAFE_SCOPE(compiler->context, SPVC_ERROR_OUT_OF_MEMORY)
return SPVC_SUCCESS;
}
spvc_result spvc_compiler_get_specialization_constants(spvc_compiler compiler,
const spvc_specialization_constant **constants,
size_t *num_constants)
{
SPVC_BEGIN_SAFE_SCOPE
{
auto spec_constants = compiler->compiler->get_specialization_constants();
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SmallVector<spvc_specialization_constant> translated;
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translated.reserve(spec_constants.size());
for (auto &c : spec_constants)
{
spvc_specialization_constant trans = { c.id, c.constant_id };
translated.push_back(trans);
}
auto ptr = spvc_allocate<TemporaryBuffer<spvc_specialization_constant>>();
ptr->buffer = std::move(translated);
*constants = ptr->buffer.data();
*num_constants = ptr->buffer.size();
compiler->context->allocations.push_back(std::move(ptr));
}
SPVC_END_SAFE_SCOPE(compiler->context, SPVC_ERROR_OUT_OF_MEMORY)
return SPVC_SUCCESS;
}
spvc_constant spvc_compiler_get_constant_handle(spvc_compiler compiler, spvc_variable_id id)
{
SPVC_BEGIN_SAFE_SCOPE
{
return static_cast<spvc_constant>(&compiler->compiler->get_constant(id));
}
SPVC_END_SAFE_SCOPE(compiler->context, nullptr)
}
spvc_constant_id spvc_compiler_get_work_group_size_specialization_constants(spvc_compiler compiler,
spvc_specialization_constant *x,
spvc_specialization_constant *y,
spvc_specialization_constant *z)
{
SpecializationConstant tmpx;
SpecializationConstant tmpy;
SpecializationConstant tmpz;
spvc_constant_id ret = compiler->compiler->get_work_group_size_specialization_constants(tmpx, tmpy, tmpz);
x->id = tmpx.id;
x->constant_id = tmpx.constant_id;
y->id = tmpy.id;
y->constant_id = tmpy.constant_id;
z->id = tmpz.id;
z->constant_id = tmpz.constant_id;
return ret;
}
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spvc_result spvc_compiler_get_active_buffer_ranges(spvc_compiler compiler,
spvc_variable_id id,
const spvc_buffer_range **ranges,
size_t *num_ranges)
{
SPVC_BEGIN_SAFE_SCOPE
{
auto active_ranges = compiler->compiler->get_active_buffer_ranges(id);
SmallVector<spvc_buffer_range> translated;
translated.reserve(active_ranges.size());
for (auto &r : active_ranges)
{
spvc_buffer_range trans = { r.index, r.offset, r.range };
translated.push_back(trans);
}
auto ptr = spvc_allocate<TemporaryBuffer<spvc_buffer_range>>();
ptr->buffer = std::move(translated);
*ranges = ptr->buffer.data();
*num_ranges = ptr->buffer.size();
compiler->context->allocations.push_back(std::move(ptr));
}
SPVC_END_SAFE_SCOPE(compiler->context, SPVC_ERROR_OUT_OF_MEMORY)
return SPVC_SUCCESS;
}
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float spvc_constant_get_scalar_fp16(spvc_constant constant, unsigned column, unsigned row)
{
return constant->scalar_f16(column, row);
}
float spvc_constant_get_scalar_fp32(spvc_constant constant, unsigned column, unsigned row)
{
return constant->scalar_f32(column, row);
}
double spvc_constant_get_scalar_fp64(spvc_constant constant, unsigned column, unsigned row)
{
return constant->scalar_f64(column, row);
}
unsigned spvc_constant_get_scalar_u32(spvc_constant constant, unsigned column, unsigned row)
{
return constant->scalar(column, row);
}
int spvc_constant_get_scalar_i32(spvc_constant constant, unsigned column, unsigned row)
{
return constant->scalar_i32(column, row);
}
unsigned spvc_constant_get_scalar_u16(spvc_constant constant, unsigned column, unsigned row)
{
return constant->scalar_u16(column, row);
}
int spvc_constant_get_scalar_i16(spvc_constant constant, unsigned column, unsigned row)
{
return constant->scalar_i16(column, row);
}
unsigned spvc_constant_get_scalar_u8(spvc_constant constant, unsigned column, unsigned row)
{
return constant->scalar_u8(column, row);
}
int spvc_constant_get_scalar_i8(spvc_constant constant, unsigned column, unsigned row)
{
return constant->scalar_i8(column, row);
}
void spvc_constant_get_subconstants(spvc_constant constant, const spvc_constant_id **constituents, size_t *count)
{
static_assert(sizeof(spvc_constant_id) == sizeof(constant->subconstants.front()), "ID size is not consistent.");
*constituents = reinterpret_cast<spvc_constant_id *>(constant->subconstants.data());
*count = constant->subconstants.size();
}
spvc_type_id spvc_constant_get_type(spvc_constant constant)
{
return constant->constant_type;
}
spvc_bool spvc_compiler_get_binary_offset_for_decoration(spvc_compiler compiler, spvc_variable_id id,
SpvDecoration decoration,
unsigned *word_offset)
{
uint32_t off = 0;
bool ret = compiler->compiler->get_binary_offset_for_decoration(id, static_cast<spv::Decoration>(decoration), off);
if (ret)
{
*word_offset = off;
return SPVC_TRUE;
}
else
return SPVC_FALSE;
}
spvc_bool spvc_compiler_buffer_is_hlsl_counter_buffer(spvc_compiler compiler, spvc_variable_id id)
{
return compiler->compiler->buffer_is_hlsl_counter_buffer(id) ? SPVC_TRUE : SPVC_FALSE;
}
spvc_bool spvc_compiler_buffer_get_hlsl_counter_buffer(spvc_compiler compiler, spvc_variable_id id,
spvc_variable_id *counter_id)
{
uint32_t buffer;
bool ret = compiler->compiler->buffer_get_hlsl_counter_buffer(id, buffer);
if (ret)
{
*counter_id = buffer;
return SPVC_TRUE;
}
else
return SPVC_FALSE;
}
spvc_result spvc_compiler_get_declared_capabilities(spvc_compiler compiler, const SpvCapability **capabilities,
size_t *num_capabilities)
{
auto &caps = compiler->compiler->get_declared_capabilities();
static_assert(sizeof(SpvCapability) == sizeof(spv::Capability), "Enum size mismatch.");
*capabilities = reinterpret_cast<const SpvCapability *>(caps.data());
*num_capabilities = caps.size();
return SPVC_SUCCESS;
}
spvc_result spvc_compiler_get_declared_extensions(spvc_compiler compiler, const char ***extensions,
size_t *num_extensions)
{
SPVC_BEGIN_SAFE_SCOPE
{
auto &exts = compiler->compiler->get_declared_extensions();
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SmallVector<const char *> duped;
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duped.reserve(exts.size());
for (auto &ext : exts)
duped.push_back(compiler->context->allocate_name(ext));
auto ptr = spvc_allocate<TemporaryBuffer<const char *>>();
ptr->buffer = std::move(duped);
*extensions = ptr->buffer.data();
*num_extensions = ptr->buffer.size();
compiler->context->allocations.push_back(std::move(ptr));
}
SPVC_END_SAFE_SCOPE(compiler->context, SPVC_ERROR_OUT_OF_MEMORY)
return SPVC_SUCCESS;
}
const char *spvc_compiler_get_remapped_declared_block_name(spvc_compiler compiler, spvc_variable_id id)
{
SPVC_BEGIN_SAFE_SCOPE
{
auto name = compiler->compiler->get_remapped_declared_block_name(id);
return compiler->context->allocate_name(name);
}
SPVC_END_SAFE_SCOPE(compiler->context, nullptr)
}
spvc_result spvc_compiler_get_buffer_block_decorations(spvc_compiler compiler, spvc_variable_id id,
const SpvDecoration **decorations, size_t *num_decorations)
{
SPVC_BEGIN_SAFE_SCOPE
{
auto flags = compiler->compiler->get_buffer_block_flags(id);
auto bitset = spvc_allocate<TemporaryBuffer<SpvDecoration>>();
flags.for_each_bit([&](uint32_t bit) { bitset->buffer.push_back(static_cast<SpvDecoration>(bit)); });
*decorations = bitset->buffer.data();
*num_decorations = bitset->buffer.size();
compiler->context->allocations.push_back(std::move(bitset));
}
SPVC_END_SAFE_SCOPE(compiler->context, SPVC_ERROR_INVALID_ARGUMENT)
return SPVC_SUCCESS;
}
unsigned spvc_msl_get_aux_buffer_struct_version(void)
{
return SPVC_MSL_AUX_BUFFER_STRUCT_VERSION;
}
void spvc_msl_vertex_attribute_init(spvc_msl_vertex_attribute *attr)
{
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#if SPIRV_CROSS_C_API_MSL
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// Crude, but works.
MSLVertexAttr attr_default;
attr->location = attr_default.location;
attr->per_instance = attr_default.per_instance ? SPVC_TRUE : SPVC_FALSE;
attr->format = static_cast<spvc_msl_vertex_format>(attr_default.format);
attr->builtin = static_cast<SpvBuiltIn>(attr_default.builtin);
attr->msl_buffer = attr_default.msl_buffer;
attr->msl_offset = attr_default.msl_offset;
attr->msl_stride = attr_default.msl_stride;
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#else
memset(attr, 0, sizeof(*attr));
#endif
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}
void spvc_msl_resource_binding_init(spvc_msl_resource_binding *binding)
{
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#if SPIRV_CROSS_C_API_MSL
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MSLResourceBinding binding_default;
binding->desc_set = binding_default.desc_set;
binding->binding = binding_default.binding;
binding->msl_buffer = binding_default.msl_buffer;
binding->msl_texture = binding_default.msl_texture;
binding->msl_sampler = binding_default.msl_sampler;
binding->stage = static_cast<SpvExecutionModel>(binding_default.stage);
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#else
memset(binding, 0, sizeof(*binding));
#endif
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}
void spvc_msl_constexpr_sampler_init(spvc_msl_constexpr_sampler *sampler)
{
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#if SPIRV_CROSS_C_API_MSL
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MSLConstexprSampler defaults;
sampler->anisotropy_enable = defaults.anisotropy_enable ? SPVC_TRUE : SPVC_FALSE;
sampler->border_color = static_cast<spvc_msl_sampler_border_color>(defaults.border_color);
sampler->compare_enable = defaults.compare_enable ? SPVC_TRUE : SPVC_FALSE;
sampler->coord = static_cast<spvc_msl_sampler_coord>(defaults.coord);
sampler->compare_func = static_cast<spvc_msl_sampler_compare_func>(defaults.compare_func);
sampler->lod_clamp_enable = defaults.lod_clamp_enable ? SPVC_TRUE : SPVC_FALSE;
sampler->lod_clamp_max = defaults.lod_clamp_max;
sampler->lod_clamp_min = defaults.lod_clamp_min;
sampler->mag_filter = static_cast<spvc_msl_sampler_filter>(defaults.mag_filter);
sampler->min_filter = static_cast<spvc_msl_sampler_filter>(defaults.min_filter);
sampler->mip_filter = static_cast<spvc_msl_sampler_mip_filter>(defaults.mip_filter);
sampler->max_anisotropy = defaults.max_anisotropy;
sampler->s_address = static_cast<spvc_msl_sampler_address>(defaults.s_address);
sampler->t_address = static_cast<spvc_msl_sampler_address>(defaults.t_address);
sampler->r_address = static_cast<spvc_msl_sampler_address>(defaults.r_address);
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#else
memset(sampler, 0, sizeof(*sampler));
#endif
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}
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void spvc_msl_sampler_ycbcr_conversion_init(spvc_msl_sampler_ycbcr_conversion *conv)
{
#if SPIRV_CROSS_C_API_MSL
MSLConstexprSampler defaults;
conv->planes = defaults.planes;
conv->resolution = static_cast<spvc_msl_format_resolution>(defaults.resolution);
conv->chroma_filter = static_cast<spvc_msl_sampler_filter>(defaults.chroma_filter);
conv->x_chroma_offset = static_cast<spvc_msl_chroma_location>(defaults.x_chroma_offset);
conv->y_chroma_offset = static_cast<spvc_msl_chroma_location>(defaults.y_chroma_offset);
for (int i = 0; i < 4; i++)
conv->swizzle[i] = static_cast<spvc_msl_component_swizzle>(defaults.swizzle[i]);
conv->ycbcr_model = static_cast<spvc_msl_sampler_ycbcr_model_conversion>(defaults.ycbcr_model);
conv->ycbcr_range = static_cast<spvc_msl_sampler_ycbcr_range>(defaults.ycbcr_range);
#else
memset(conv, 0, sizeof(*conv));
#endif
}
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unsigned spvc_compiler_get_current_id_bound(spvc_compiler compiler)
{
return compiler->compiler->get_current_id_bound();
}
void spvc_get_version(unsigned *major, unsigned *minor, unsigned *patch)
{
*major = SPVC_C_API_VERSION_MAJOR;
*minor = SPVC_C_API_VERSION_MINOR;
*patch = SPVC_C_API_VERSION_PATCH;
}
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const char *spvc_get_commit_revision_and_timestamp(void)
{
#ifdef HAVE_SPIRV_CROSS_GIT_VERSION
return SPIRV_CROSS_GIT_REVISION;
#else
return "";
#endif
}
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#ifdef _MSC_VER
#pragma warning(pop)
#endif