SPIRV-Cross/spirv_cross_c.h

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/*
* Copyright 2019-2021 Hans-Kristian Arntzen
* SPDX-License-Identifier: Apache-2.0 OR MIT
*
* 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.
*/
/*
* At your option, you may choose to accept this material under either:
* 1. The Apache License, Version 2.0, found at <http://www.apache.org/licenses/LICENSE-2.0>, or
* 2. The MIT License, found at <http://opensource.org/licenses/MIT>.
*/
#ifndef SPIRV_CROSS_C_API_H
#define SPIRV_CROSS_C_API_H
#include <stddef.h>
#include "spirv.h"
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/*
* C89-compatible wrapper for SPIRV-Cross' API.
* Documentation here is sparse unless the behavior does not map 1:1 with C++ API.
* It is recommended to look at the canonical C++ API for more detailed information.
*/
#ifdef __cplusplus
extern "C" {
#endif
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/* Bumped if ABI or API breaks backwards compatibility. */
#define SPVC_C_API_VERSION_MAJOR 0
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/* Bumped if APIs or enumerations are added in a backwards compatible way. */
#define SPVC_C_API_VERSION_MINOR 58
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/* Bumped if internal implementation details change. */
#define SPVC_C_API_VERSION_PATCH 0
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#if !defined(SPVC_PUBLIC_API)
#if defined(SPVC_EXPORT_SYMBOLS)
/* Exports symbols. Standard C calling convention is used. */
#if defined(__GNUC__)
#define SPVC_PUBLIC_API __attribute__((visibility("default")))
#elif defined(_MSC_VER)
#define SPVC_PUBLIC_API __declspec(dllexport)
#else
#define SPVC_PUBLIC_API
#endif
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#else
#define SPVC_PUBLIC_API
#endif
#endif
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/*
* Gets the SPVC_C_API_VERSION_* used to build this library.
* Can be used to check for ABI mismatch if so-versioning did not catch it.
*/
SPVC_PUBLIC_API void spvc_get_version(unsigned *major, unsigned *minor, unsigned *patch);
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/* Gets a human readable version string to identify which commit a particular binary was created from. */
SPVC_PUBLIC_API const char *spvc_get_commit_revision_and_timestamp(void);
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/* These types are opaque to the user. */
typedef struct spvc_context_s *spvc_context;
typedef struct spvc_parsed_ir_s *spvc_parsed_ir;
typedef struct spvc_compiler_s *spvc_compiler;
typedef struct spvc_compiler_options_s *spvc_compiler_options;
typedef struct spvc_resources_s *spvc_resources;
struct spvc_type_s;
typedef const struct spvc_type_s *spvc_type;
typedef struct spvc_constant_s *spvc_constant;
struct spvc_set_s;
typedef const struct spvc_set_s *spvc_set;
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/*
* Shallow typedefs. All SPIR-V IDs are plain 32-bit numbers, but this helps communicate which data is used.
* Maps to a SPIRType.
*/
typedef SpvId spvc_type_id;
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/* Maps to a SPIRVariable. */
typedef SpvId spvc_variable_id;
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/* Maps to a SPIRConstant. */
typedef SpvId spvc_constant_id;
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/* See C++ API. */
typedef struct spvc_reflected_resource
{
spvc_variable_id id;
spvc_type_id base_type_id;
spvc_type_id type_id;
const char *name;
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} spvc_reflected_resource;
typedef struct spvc_reflected_builtin_resource
{
SpvBuiltIn builtin;
spvc_type_id value_type_id;
spvc_reflected_resource resource;
} spvc_reflected_builtin_resource;
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/* See C++ API. */
typedef struct spvc_entry_point
{
SpvExecutionModel execution_model;
const char *name;
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} spvc_entry_point;
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/* See C++ API. */
typedef struct spvc_combined_image_sampler
{
spvc_variable_id combined_id;
spvc_variable_id image_id;
spvc_variable_id sampler_id;
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} spvc_combined_image_sampler;
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/* See C++ API. */
typedef struct spvc_specialization_constant
{
spvc_constant_id id;
unsigned constant_id;
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} spvc_specialization_constant;
/* See C++ API. */
typedef struct spvc_buffer_range
{
unsigned index;
size_t offset;
size_t range;
} spvc_buffer_range;
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/* See C++ API. */
typedef struct spvc_hlsl_root_constants
{
unsigned start;
unsigned end;
unsigned binding;
unsigned space;
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} spvc_hlsl_root_constants;
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/* See C++ API. */
typedef struct spvc_hlsl_vertex_attribute_remap
{
unsigned location;
const char *semantic;
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} spvc_hlsl_vertex_attribute_remap;
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/*
* Be compatible with non-C99 compilers, which do not have stdbool.
* Only recent MSVC compilers supports this for example, and ideally SPIRV-Cross should be linkable
* from a wide range of compilers in its C wrapper.
*/
typedef unsigned char spvc_bool;
#define SPVC_TRUE ((spvc_bool)1)
#define SPVC_FALSE ((spvc_bool)0)
typedef enum spvc_result
{
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/* Success. */
SPVC_SUCCESS = 0,
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/* The SPIR-V is invalid. Should have been caught by validation ideally. */
SPVC_ERROR_INVALID_SPIRV = -1,
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/* The SPIR-V might be valid or invalid, but SPIRV-Cross currently cannot correctly translate this to your target language. */
SPVC_ERROR_UNSUPPORTED_SPIRV = -2,
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/* If for some reason we hit this, new or malloc failed. */
SPVC_ERROR_OUT_OF_MEMORY = -3,
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/* Invalid API argument. */
SPVC_ERROR_INVALID_ARGUMENT = -4,
SPVC_ERROR_INT_MAX = 0x7fffffff
} spvc_result;
typedef enum spvc_capture_mode
{
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/* The Parsed IR payload will be copied, and the handle can be reused to create other compiler instances. */
SPVC_CAPTURE_MODE_COPY = 0,
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/*
* The payload will now be owned by the compiler.
* parsed_ir should now be considered a dead blob and must not be used further.
* This is optimal for performance and should be the go-to option.
*/
SPVC_CAPTURE_MODE_TAKE_OWNERSHIP = 1,
SPVC_CAPTURE_MODE_INT_MAX = 0x7fffffff
} spvc_capture_mode;
typedef enum spvc_backend
{
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/* This backend can only perform reflection, no compiler options are supported. Maps to spirv_cross::Compiler. */
SPVC_BACKEND_NONE = 0,
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SPVC_BACKEND_GLSL = 1, /* spirv_cross::CompilerGLSL */
SPVC_BACKEND_HLSL = 2, /* CompilerHLSL */
SPVC_BACKEND_MSL = 3, /* CompilerMSL */
SPVC_BACKEND_CPP = 4, /* CompilerCPP */
SPVC_BACKEND_JSON = 5, /* CompilerReflection w/ JSON backend */
SPVC_BACKEND_INT_MAX = 0x7fffffff
} spvc_backend;
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/* Maps to C++ API. */
typedef enum spvc_resource_type
{
SPVC_RESOURCE_TYPE_UNKNOWN = 0,
SPVC_RESOURCE_TYPE_UNIFORM_BUFFER = 1,
SPVC_RESOURCE_TYPE_STORAGE_BUFFER = 2,
SPVC_RESOURCE_TYPE_STAGE_INPUT = 3,
SPVC_RESOURCE_TYPE_STAGE_OUTPUT = 4,
SPVC_RESOURCE_TYPE_SUBPASS_INPUT = 5,
SPVC_RESOURCE_TYPE_STORAGE_IMAGE = 6,
SPVC_RESOURCE_TYPE_SAMPLED_IMAGE = 7,
SPVC_RESOURCE_TYPE_ATOMIC_COUNTER = 8,
SPVC_RESOURCE_TYPE_PUSH_CONSTANT = 9,
SPVC_RESOURCE_TYPE_SEPARATE_IMAGE = 10,
SPVC_RESOURCE_TYPE_SEPARATE_SAMPLERS = 11,
SPVC_RESOURCE_TYPE_ACCELERATION_STRUCTURE = 12,
SPVC_RESOURCE_TYPE_RAY_QUERY = 13,
SPVC_RESOURCE_TYPE_SHADER_RECORD_BUFFER = 14,
SPVC_RESOURCE_TYPE_INT_MAX = 0x7fffffff
} spvc_resource_type;
typedef enum spvc_builtin_resource_type
{
SPVC_BUILTIN_RESOURCE_TYPE_UNKNOWN = 0,
SPVC_BUILTIN_RESOURCE_TYPE_STAGE_INPUT = 1,
SPVC_BUILTIN_RESOURCE_TYPE_STAGE_OUTPUT = 2,
SPVC_BUILTIN_RESOURCE_TYPE_INT_MAX = 0x7fffffff
} spvc_builtin_resource_type;
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/* Maps to spirv_cross::SPIRType::BaseType. */
typedef enum spvc_basetype
{
SPVC_BASETYPE_UNKNOWN = 0,
SPVC_BASETYPE_VOID = 1,
SPVC_BASETYPE_BOOLEAN = 2,
SPVC_BASETYPE_INT8 = 3,
SPVC_BASETYPE_UINT8 = 4,
SPVC_BASETYPE_INT16 = 5,
SPVC_BASETYPE_UINT16 = 6,
SPVC_BASETYPE_INT32 = 7,
SPVC_BASETYPE_UINT32 = 8,
SPVC_BASETYPE_INT64 = 9,
SPVC_BASETYPE_UINT64 = 10,
SPVC_BASETYPE_ATOMIC_COUNTER = 11,
SPVC_BASETYPE_FP16 = 12,
SPVC_BASETYPE_FP32 = 13,
SPVC_BASETYPE_FP64 = 14,
SPVC_BASETYPE_STRUCT = 15,
SPVC_BASETYPE_IMAGE = 16,
SPVC_BASETYPE_SAMPLED_IMAGE = 17,
SPVC_BASETYPE_SAMPLER = 18,
SPVC_BASETYPE_ACCELERATION_STRUCTURE = 19,
SPVC_BASETYPE_INT_MAX = 0x7fffffff
} spvc_basetype;
#define SPVC_COMPILER_OPTION_COMMON_BIT 0x1000000
#define SPVC_COMPILER_OPTION_GLSL_BIT 0x2000000
#define SPVC_COMPILER_OPTION_HLSL_BIT 0x4000000
#define SPVC_COMPILER_OPTION_MSL_BIT 0x8000000
#define SPVC_COMPILER_OPTION_LANG_BITS 0x0f000000
#define SPVC_COMPILER_OPTION_ENUM_BITS 0xffffff
#define SPVC_MAKE_MSL_VERSION(major, minor, patch) ((major) * 10000 + (minor) * 100 + (patch))
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/* Maps to C++ API. */
typedef enum spvc_msl_platform
{
SPVC_MSL_PLATFORM_IOS = 0,
SPVC_MSL_PLATFORM_MACOS = 1,
SPVC_MSL_PLATFORM_MAX_INT = 0x7fffffff
} spvc_msl_platform;
MSL: Add support for processing more than one patch per workgroup. This should hopefully reduce underutilization of the GPU, especially on GPUs where the thread execution width is greater than the number of control points. This also simplifies initialization by reading the buffer directly instead of using Metal's vertex-attribute-in-compute support. It turns out the only way in which shader stages are allowed to differ in their interfaces is in the number of components per vector; the base type must be the same. Since we are using the raw buffer instead of attributes, we can now also emit arrays and matrices directly into the buffer, instead of flattening them and then unpacking them. Structs are still flattened, however; this is due to the need to handle vectors with fewer components than were output, and I think handling this while also directly emitting structs could get ugly. Another advantage of this scheme is that the extra invocations needed to read the attributes when there were more input than output points are now no more. The number of threads per workgroup is now lcm(SIMD-size, output control points). This should ensure we always process a whole number of patches per workgroup. To avoid complexity handling indices in the tessellation control shader, I've also changed the way vertex shaders for tessellation are handled. They are now compute kernels using Metal's support for vertex-style stage input. This lets us always emit vertices into the buffer in order of vertex shader execution. Now we no longer have to deal with indexing in the tessellation control shader. This also fixes a long-standing issue where if an index were greater than the number of vertices to draw, the vertex shader would wind up writing outside the buffer, and the vertex would be lost. This is a breaking change, and I know SPIRV-Cross has other clients, so I've hidden this behind an option for now. In the future, I want to remove this option and make it the default.
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/* Maps to C++ API. */
typedef enum spvc_msl_index_type
{
SPVC_MSL_INDEX_TYPE_NONE = 0,
SPVC_MSL_INDEX_TYPE_UINT16 = 1,
SPVC_MSL_INDEX_TYPE_UINT32 = 2,
SPVC_MSL_INDEX_TYPE_MAX_INT = 0x7fffffff
} spvc_msl_index_type;
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/* Maps to C++ API. */
typedef enum spvc_msl_shader_variable_format
{
SPVC_MSL_SHADER_VARIABLE_FORMAT_OTHER = 0,
SPVC_MSL_SHADER_VARIABLE_FORMAT_UINT8 = 1,
SPVC_MSL_SHADER_VARIABLE_FORMAT_UINT16 = 2,
SPVC_MSL_SHADER_VARIABLE_FORMAT_ANY16 = 3,
SPVC_MSL_SHADER_VARIABLE_FORMAT_ANY32 = 4,
/* Deprecated names. */
SPVC_MSL_VERTEX_FORMAT_OTHER = SPVC_MSL_SHADER_VARIABLE_FORMAT_OTHER,
SPVC_MSL_VERTEX_FORMAT_UINT8 = SPVC_MSL_SHADER_VARIABLE_FORMAT_UINT8,
SPVC_MSL_VERTEX_FORMAT_UINT16 = SPVC_MSL_SHADER_VARIABLE_FORMAT_UINT16,
SPVC_MSL_SHADER_INPUT_FORMAT_OTHER = SPVC_MSL_SHADER_VARIABLE_FORMAT_OTHER,
SPVC_MSL_SHADER_INPUT_FORMAT_UINT8 = SPVC_MSL_SHADER_VARIABLE_FORMAT_UINT8,
SPVC_MSL_SHADER_INPUT_FORMAT_UINT16 = SPVC_MSL_SHADER_VARIABLE_FORMAT_UINT16,
SPVC_MSL_SHADER_INPUT_FORMAT_ANY16 = SPVC_MSL_SHADER_VARIABLE_FORMAT_ANY16,
SPVC_MSL_SHADER_INPUT_FORMAT_ANY32 = SPVC_MSL_SHADER_VARIABLE_FORMAT_ANY32,
SPVC_MSL_SHADER_INPUT_FORMAT_INT_MAX = 0x7fffffff
} spvc_msl_shader_variable_format, spvc_msl_shader_input_format, spvc_msl_vertex_format;
/* Maps to C++ API. Deprecated; use spvc_msl_shader_interface_var. */
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typedef struct spvc_msl_vertex_attribute
{
unsigned location;
/* Obsolete, do not use. Only lingers on for ABI compatibility. */
unsigned msl_buffer;
/* Obsolete, do not use. Only lingers on for ABI compatibility. */
unsigned msl_offset;
/* Obsolete, do not use. Only lingers on for ABI compatibility. */
unsigned msl_stride;
/* Obsolete, do not use. Only lingers on for ABI compatibility. */
spvc_bool per_instance;
spvc_msl_vertex_format format;
SpvBuiltIn builtin;
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} spvc_msl_vertex_attribute;
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/*
* Initializes the vertex attribute struct.
*/
SPVC_PUBLIC_API void spvc_msl_vertex_attribute_init(spvc_msl_vertex_attribute *attr);
/* Maps to C++ API. Deprecated; use spvc_msl_shader_interface_var_2. */
typedef struct spvc_msl_shader_interface_var
{
unsigned location;
spvc_msl_vertex_format format;
SpvBuiltIn builtin;
unsigned vecsize;
} spvc_msl_shader_interface_var, spvc_msl_shader_input;
/*
* Initializes the shader input struct.
* Deprecated. Use spvc_msl_shader_interface_var_init_2().
*/
SPVC_PUBLIC_API void spvc_msl_shader_interface_var_init(spvc_msl_shader_interface_var *var);
/*
* Deprecated. Use spvc_msl_shader_interface_var_init_2().
*/
SPVC_PUBLIC_API void spvc_msl_shader_input_init(spvc_msl_shader_input *input);
/* Maps to C++ API. */
typedef enum spvc_msl_shader_variable_rate
{
SPVC_MSL_SHADER_VARIABLE_RATE_PER_VERTEX = 0,
SPVC_MSL_SHADER_VARIABLE_RATE_PER_PRIMITIVE = 1,
SPVC_MSL_SHADER_VARIABLE_RATE_PER_PATCH = 2,
SPVC_MSL_SHADER_VARIABLE_RATE_INT_MAX = 0x7fffffff,
} spvc_msl_shader_variable_rate;
/* Maps to C++ API. */
typedef struct spvc_msl_shader_interface_var_2
{
unsigned location;
spvc_msl_shader_variable_format format;
SpvBuiltIn builtin;
unsigned vecsize;
spvc_msl_shader_variable_rate rate;
} spvc_msl_shader_interface_var_2;
/*
* Initializes the shader interface variable struct.
*/
SPVC_PUBLIC_API void spvc_msl_shader_interface_var_init_2(spvc_msl_shader_interface_var_2 *var);
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/* Maps to C++ API. */
typedef struct spvc_msl_resource_binding
{
SpvExecutionModel stage;
unsigned desc_set;
unsigned binding;
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unsigned msl_buffer;
unsigned msl_texture;
unsigned msl_sampler;
} spvc_msl_resource_binding;
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/*
* Initializes the resource binding struct.
* The defaults are non-zero.
*/
SPVC_PUBLIC_API void spvc_msl_resource_binding_init(spvc_msl_resource_binding *binding);
#define SPVC_MSL_PUSH_CONSTANT_DESC_SET (~(0u))
#define SPVC_MSL_PUSH_CONSTANT_BINDING (0)
#define SPVC_MSL_SWIZZLE_BUFFER_BINDING (~(1u))
#define SPVC_MSL_BUFFER_SIZE_BUFFER_BINDING (~(2u))
#define SPVC_MSL_ARGUMENT_BUFFER_BINDING (~(3u))
/* Obsolete. Sticks around for backwards compatibility. */
#define SPVC_MSL_AUX_BUFFER_STRUCT_VERSION 1
/* Runtime check for incompatibility. Obsolete. */
SPVC_PUBLIC_API unsigned spvc_msl_get_aux_buffer_struct_version(void);
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/* Maps to C++ API. */
typedef enum spvc_msl_sampler_coord
{
SPVC_MSL_SAMPLER_COORD_NORMALIZED = 0,
SPVC_MSL_SAMPLER_COORD_PIXEL = 1,
SPVC_MSL_SAMPLER_INT_MAX = 0x7fffffff
} spvc_msl_sampler_coord;
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/* Maps to C++ API. */
typedef enum spvc_msl_sampler_filter
{
SPVC_MSL_SAMPLER_FILTER_NEAREST = 0,
SPVC_MSL_SAMPLER_FILTER_LINEAR = 1,
SPVC_MSL_SAMPLER_FILTER_INT_MAX = 0x7fffffff
} spvc_msl_sampler_filter;
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/* Maps to C++ API. */
typedef enum spvc_msl_sampler_mip_filter
{
SPVC_MSL_SAMPLER_MIP_FILTER_NONE = 0,
SPVC_MSL_SAMPLER_MIP_FILTER_NEAREST = 1,
SPVC_MSL_SAMPLER_MIP_FILTER_LINEAR = 2,
SPVC_MSL_SAMPLER_MIP_FILTER_INT_MAX = 0x7fffffff
} spvc_msl_sampler_mip_filter;
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/* Maps to C++ API. */
typedef enum spvc_msl_sampler_address
{
SPVC_MSL_SAMPLER_ADDRESS_CLAMP_TO_ZERO = 0,
SPVC_MSL_SAMPLER_ADDRESS_CLAMP_TO_EDGE = 1,
SPVC_MSL_SAMPLER_ADDRESS_CLAMP_TO_BORDER = 2,
SPVC_MSL_SAMPLER_ADDRESS_REPEAT = 3,
SPVC_MSL_SAMPLER_ADDRESS_MIRRORED_REPEAT = 4,
SPVC_MSL_SAMPLER_ADDRESS_INT_MAX = 0x7fffffff
} spvc_msl_sampler_address;
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/* Maps to C++ API. */
typedef enum spvc_msl_sampler_compare_func
{
SPVC_MSL_SAMPLER_COMPARE_FUNC_NEVER = 0,
SPVC_MSL_SAMPLER_COMPARE_FUNC_LESS = 1,
SPVC_MSL_SAMPLER_COMPARE_FUNC_LESS_EQUAL = 2,
SPVC_MSL_SAMPLER_COMPARE_FUNC_GREATER = 3,
SPVC_MSL_SAMPLER_COMPARE_FUNC_GREATER_EQUAL = 4,
SPVC_MSL_SAMPLER_COMPARE_FUNC_EQUAL = 5,
SPVC_MSL_SAMPLER_COMPARE_FUNC_NOT_EQUAL = 6,
SPVC_MSL_SAMPLER_COMPARE_FUNC_ALWAYS = 7,
SPVC_MSL_SAMPLER_COMPARE_FUNC_INT_MAX = 0x7fffffff
} spvc_msl_sampler_compare_func;
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/* Maps to C++ API. */
typedef enum spvc_msl_sampler_border_color
{
SPVC_MSL_SAMPLER_BORDER_COLOR_TRANSPARENT_BLACK = 0,
SPVC_MSL_SAMPLER_BORDER_COLOR_OPAQUE_BLACK = 1,
SPVC_MSL_SAMPLER_BORDER_COLOR_OPAQUE_WHITE = 2,
SPVC_MSL_SAMPLER_BORDER_COLOR_INT_MAX = 0x7fffffff
} spvc_msl_sampler_border_color;
MSL: Add support for sampler Y'CbCr conversion. This change introduces functions and in one case, a class, to support the `VK_KHR_sampler_ycbcr_conversion` extension. Except in the case of GBGR8 and BGRG8 formats, for which Metal natively supports implicit chroma reconstruction, we're on our own here. We have to do everything ourselves. Much of the complexity comes from the need to support multiple planes, which must now be passed to functions that use the corresponding combined image-samplers. The rest is from the actual Y'CbCr conversion itself, which requires additional post-processing of the sample retrieved from the image. Passing sampled images to a function was a particular problem. To support this, I've added a new class which is emitted to MSL shaders that pass sampled images with Y'CbCr conversions attached around. It can handle sampled images with or without Y'CbCr conversion. This is an awful abomination that should not exist, but I'm worried that there's some shader out there which does this. This support requires Metal 2.0 to work properly, because it uses default-constructed texture objects, which were only added in MSL 2. I'm not even going to get into arrays of combined image-samplers--that's a whole other can of worms. They are deliberately unsupported in this change. I've taken the liberty of refactoring the support for texture swizzling while I'm at it. It's now treated as a post-processing step similar to Y'CbCr conversion. I'd like to think this is cleaner than having everything in `to_function_name()`/`to_function_args()`. It still looks really hairy, though. I did, however, get rid of the explicit type arguments to `spvGatherSwizzle()`/`spvGatherCompareSwizzle()`. Update the C API. In addition to supporting this new functionality, add some compiler options that I added in previous changes, but for which I neglected to update the C API.
2019-08-02 20:11:19 +00:00
/* Maps to C++ API. */
typedef enum spvc_msl_format_resolution
{
SPVC_MSL_FORMAT_RESOLUTION_444 = 0,
SPVC_MSL_FORMAT_RESOLUTION_422,
SPVC_MSL_FORMAT_RESOLUTION_420,
SPVC_MSL_FORMAT_RESOLUTION_INT_MAX = 0x7fffffff
} spvc_msl_format_resolution;
/* Maps to C++ API. */
typedef enum spvc_msl_chroma_location
{
SPVC_MSL_CHROMA_LOCATION_COSITED_EVEN = 0,
SPVC_MSL_CHROMA_LOCATION_MIDPOINT,
SPVC_MSL_CHROMA_LOCATION_INT_MAX = 0x7fffffff
} spvc_msl_chroma_location;
/* Maps to C++ API. */
typedef enum spvc_msl_component_swizzle
{
SPVC_MSL_COMPONENT_SWIZZLE_IDENTITY = 0,
SPVC_MSL_COMPONENT_SWIZZLE_ZERO,
SPVC_MSL_COMPONENT_SWIZZLE_ONE,
SPVC_MSL_COMPONENT_SWIZZLE_R,
SPVC_MSL_COMPONENT_SWIZZLE_G,
SPVC_MSL_COMPONENT_SWIZZLE_B,
SPVC_MSL_COMPONENT_SWIZZLE_A,
SPVC_MSL_COMPONENT_SWIZZLE_INT_MAX = 0x7fffffff
} spvc_msl_component_swizzle;
/* Maps to C++ API. */
typedef enum spvc_msl_sampler_ycbcr_model_conversion
{
SPVC_MSL_SAMPLER_YCBCR_MODEL_CONVERSION_RGB_IDENTITY = 0,
SPVC_MSL_SAMPLER_YCBCR_MODEL_CONVERSION_YCBCR_IDENTITY,
SPVC_MSL_SAMPLER_YCBCR_MODEL_CONVERSION_YCBCR_BT_709,
SPVC_MSL_SAMPLER_YCBCR_MODEL_CONVERSION_YCBCR_BT_601,
SPVC_MSL_SAMPLER_YCBCR_MODEL_CONVERSION_YCBCR_BT_2020,
SPVC_MSL_SAMPLER_YCBCR_MODEL_CONVERSION_INT_MAX = 0x7fffffff
} spvc_msl_sampler_ycbcr_model_conversion;
/* Maps to C+ API. */
typedef enum spvc_msl_sampler_ycbcr_range
{
SPVC_MSL_SAMPLER_YCBCR_RANGE_ITU_FULL = 0,
SPVC_MSL_SAMPLER_YCBCR_RANGE_ITU_NARROW,
SPVC_MSL_SAMPLER_YCBCR_RANGE_INT_MAX = 0x7fffffff
} spvc_msl_sampler_ycbcr_range;
2019-03-04 09:08:31 +00:00
/* Maps to C++ API. */
typedef struct spvc_msl_constexpr_sampler
{
spvc_msl_sampler_coord coord;
spvc_msl_sampler_filter min_filter;
spvc_msl_sampler_filter mag_filter;
spvc_msl_sampler_mip_filter mip_filter;
spvc_msl_sampler_address s_address;
spvc_msl_sampler_address t_address;
spvc_msl_sampler_address r_address;
spvc_msl_sampler_compare_func compare_func;
spvc_msl_sampler_border_color border_color;
float lod_clamp_min;
float lod_clamp_max;
int max_anisotropy;
spvc_bool compare_enable;
spvc_bool lod_clamp_enable;
spvc_bool anisotropy_enable;
2019-03-04 09:08:31 +00:00
} spvc_msl_constexpr_sampler;
2019-03-04 09:08:31 +00:00
/*
* Initializes the constexpr sampler struct.
* The defaults are non-zero.
*/
SPVC_PUBLIC_API void spvc_msl_constexpr_sampler_init(spvc_msl_constexpr_sampler *sampler);
MSL: Add support for sampler Y'CbCr conversion. This change introduces functions and in one case, a class, to support the `VK_KHR_sampler_ycbcr_conversion` extension. Except in the case of GBGR8 and BGRG8 formats, for which Metal natively supports implicit chroma reconstruction, we're on our own here. We have to do everything ourselves. Much of the complexity comes from the need to support multiple planes, which must now be passed to functions that use the corresponding combined image-samplers. The rest is from the actual Y'CbCr conversion itself, which requires additional post-processing of the sample retrieved from the image. Passing sampled images to a function was a particular problem. To support this, I've added a new class which is emitted to MSL shaders that pass sampled images with Y'CbCr conversions attached around. It can handle sampled images with or without Y'CbCr conversion. This is an awful abomination that should not exist, but I'm worried that there's some shader out there which does this. This support requires Metal 2.0 to work properly, because it uses default-constructed texture objects, which were only added in MSL 2. I'm not even going to get into arrays of combined image-samplers--that's a whole other can of worms. They are deliberately unsupported in this change. I've taken the liberty of refactoring the support for texture swizzling while I'm at it. It's now treated as a post-processing step similar to Y'CbCr conversion. I'd like to think this is cleaner than having everything in `to_function_name()`/`to_function_args()`. It still looks really hairy, though. I did, however, get rid of the explicit type arguments to `spvGatherSwizzle()`/`spvGatherCompareSwizzle()`. Update the C API. In addition to supporting this new functionality, add some compiler options that I added in previous changes, but for which I neglected to update the C API.
2019-08-02 20:11:19 +00:00
/* Maps to the sampler Y'CbCr conversion-related portions of MSLConstexprSampler. See C++ API for defaults and details. */
typedef struct spvc_msl_sampler_ycbcr_conversion
{
unsigned planes;
spvc_msl_format_resolution resolution;
spvc_msl_sampler_filter chroma_filter;
spvc_msl_chroma_location x_chroma_offset;
spvc_msl_chroma_location y_chroma_offset;
spvc_msl_component_swizzle swizzle[4];
spvc_msl_sampler_ycbcr_model_conversion ycbcr_model;
spvc_msl_sampler_ycbcr_range ycbcr_range;
unsigned bpc;
} spvc_msl_sampler_ycbcr_conversion;
/*
* Initializes the constexpr sampler struct.
* The defaults are non-zero.
*/
SPVC_PUBLIC_API void spvc_msl_sampler_ycbcr_conversion_init(spvc_msl_sampler_ycbcr_conversion *conv);
/* Maps to C++ API. */
typedef enum spvc_hlsl_binding_flag_bits
{
SPVC_HLSL_BINDING_AUTO_NONE_BIT = 0,
SPVC_HLSL_BINDING_AUTO_PUSH_CONSTANT_BIT = 1 << 0,
SPVC_HLSL_BINDING_AUTO_CBV_BIT = 1 << 1,
SPVC_HLSL_BINDING_AUTO_SRV_BIT = 1 << 2,
SPVC_HLSL_BINDING_AUTO_UAV_BIT = 1 << 3,
SPVC_HLSL_BINDING_AUTO_SAMPLER_BIT = 1 << 4,
SPVC_HLSL_BINDING_AUTO_ALL = 0x7fffffff
} spvc_hlsl_binding_flag_bits;
typedef unsigned spvc_hlsl_binding_flags;
#define SPVC_HLSL_PUSH_CONSTANT_DESC_SET (~(0u))
#define SPVC_HLSL_PUSH_CONSTANT_BINDING (0)
/* Maps to C++ API. */
typedef struct spvc_hlsl_resource_binding_mapping
{
unsigned register_space;
unsigned register_binding;
} spvc_hlsl_resource_binding_mapping;
typedef struct spvc_hlsl_resource_binding
{
SpvExecutionModel stage;
unsigned desc_set;
unsigned binding;
spvc_hlsl_resource_binding_mapping cbv, uav, srv, sampler;
} spvc_hlsl_resource_binding;
/*
* Initializes the resource binding struct.
* The defaults are non-zero.
*/
SPVC_PUBLIC_API void spvc_hlsl_resource_binding_init(spvc_hlsl_resource_binding *binding);
2019-03-04 09:08:31 +00:00
/* Maps to the various spirv_cross::Compiler*::Option structures. See C++ API for defaults and details. */
typedef enum spvc_compiler_option
{
SPVC_COMPILER_OPTION_UNKNOWN = 0,
SPVC_COMPILER_OPTION_FORCE_TEMPORARY = 1 | SPVC_COMPILER_OPTION_COMMON_BIT,
SPVC_COMPILER_OPTION_FLATTEN_MULTIDIMENSIONAL_ARRAYS = 2 | SPVC_COMPILER_OPTION_COMMON_BIT,
SPVC_COMPILER_OPTION_FIXUP_DEPTH_CONVENTION = 3 | SPVC_COMPILER_OPTION_COMMON_BIT,
SPVC_COMPILER_OPTION_FLIP_VERTEX_Y = 4 | SPVC_COMPILER_OPTION_COMMON_BIT,
SPVC_COMPILER_OPTION_GLSL_SUPPORT_NONZERO_BASE_INSTANCE = 5 | SPVC_COMPILER_OPTION_GLSL_BIT,
SPVC_COMPILER_OPTION_GLSL_SEPARATE_SHADER_OBJECTS = 6 | SPVC_COMPILER_OPTION_GLSL_BIT,
SPVC_COMPILER_OPTION_GLSL_ENABLE_420PACK_EXTENSION = 7 | SPVC_COMPILER_OPTION_GLSL_BIT,
SPVC_COMPILER_OPTION_GLSL_VERSION = 8 | SPVC_COMPILER_OPTION_GLSL_BIT,
SPVC_COMPILER_OPTION_GLSL_ES = 9 | SPVC_COMPILER_OPTION_GLSL_BIT,
SPVC_COMPILER_OPTION_GLSL_VULKAN_SEMANTICS = 10 | SPVC_COMPILER_OPTION_GLSL_BIT,
SPVC_COMPILER_OPTION_GLSL_ES_DEFAULT_FLOAT_PRECISION_HIGHP = 11 | SPVC_COMPILER_OPTION_GLSL_BIT,
SPVC_COMPILER_OPTION_GLSL_ES_DEFAULT_INT_PRECISION_HIGHP = 12 | SPVC_COMPILER_OPTION_GLSL_BIT,
SPVC_COMPILER_OPTION_HLSL_SHADER_MODEL = 13 | SPVC_COMPILER_OPTION_HLSL_BIT,
SPVC_COMPILER_OPTION_HLSL_POINT_SIZE_COMPAT = 14 | SPVC_COMPILER_OPTION_HLSL_BIT,
SPVC_COMPILER_OPTION_HLSL_POINT_COORD_COMPAT = 15 | SPVC_COMPILER_OPTION_HLSL_BIT,
SPVC_COMPILER_OPTION_HLSL_SUPPORT_NONZERO_BASE_VERTEX_BASE_INSTANCE = 16 | SPVC_COMPILER_OPTION_HLSL_BIT,
SPVC_COMPILER_OPTION_MSL_VERSION = 17 | SPVC_COMPILER_OPTION_MSL_BIT,
SPVC_COMPILER_OPTION_MSL_TEXEL_BUFFER_TEXTURE_WIDTH = 18 | SPVC_COMPILER_OPTION_MSL_BIT,
/* Obsolete, use SWIZZLE_BUFFER_INDEX instead. */
SPVC_COMPILER_OPTION_MSL_AUX_BUFFER_INDEX = 19 | SPVC_COMPILER_OPTION_MSL_BIT,
SPVC_COMPILER_OPTION_MSL_SWIZZLE_BUFFER_INDEX = 19 | SPVC_COMPILER_OPTION_MSL_BIT,
SPVC_COMPILER_OPTION_MSL_INDIRECT_PARAMS_BUFFER_INDEX = 20 | SPVC_COMPILER_OPTION_MSL_BIT,
SPVC_COMPILER_OPTION_MSL_SHADER_OUTPUT_BUFFER_INDEX = 21 | SPVC_COMPILER_OPTION_MSL_BIT,
SPVC_COMPILER_OPTION_MSL_SHADER_PATCH_OUTPUT_BUFFER_INDEX = 22 | SPVC_COMPILER_OPTION_MSL_BIT,
SPVC_COMPILER_OPTION_MSL_SHADER_TESS_FACTOR_OUTPUT_BUFFER_INDEX = 23 | SPVC_COMPILER_OPTION_MSL_BIT,
SPVC_COMPILER_OPTION_MSL_SHADER_INPUT_WORKGROUP_INDEX = 24 | SPVC_COMPILER_OPTION_MSL_BIT,
SPVC_COMPILER_OPTION_MSL_ENABLE_POINT_SIZE_BUILTIN = 25 | SPVC_COMPILER_OPTION_MSL_BIT,
SPVC_COMPILER_OPTION_MSL_DISABLE_RASTERIZATION = 26 | SPVC_COMPILER_OPTION_MSL_BIT,
SPVC_COMPILER_OPTION_MSL_CAPTURE_OUTPUT_TO_BUFFER = 27 | SPVC_COMPILER_OPTION_MSL_BIT,
SPVC_COMPILER_OPTION_MSL_SWIZZLE_TEXTURE_SAMPLES = 28 | SPVC_COMPILER_OPTION_MSL_BIT,
SPVC_COMPILER_OPTION_MSL_PAD_FRAGMENT_OUTPUT_COMPONENTS = 29 | SPVC_COMPILER_OPTION_MSL_BIT,
SPVC_COMPILER_OPTION_MSL_TESS_DOMAIN_ORIGIN_LOWER_LEFT = 30 | SPVC_COMPILER_OPTION_MSL_BIT,
SPVC_COMPILER_OPTION_MSL_PLATFORM = 31 | SPVC_COMPILER_OPTION_MSL_BIT,
SPVC_COMPILER_OPTION_MSL_ARGUMENT_BUFFERS = 32 | SPVC_COMPILER_OPTION_MSL_BIT,
SPVC_COMPILER_OPTION_GLSL_EMIT_PUSH_CONSTANT_AS_UNIFORM_BUFFER = 33 | SPVC_COMPILER_OPTION_GLSL_BIT,
SPVC_COMPILER_OPTION_MSL_TEXTURE_BUFFER_NATIVE = 34 | SPVC_COMPILER_OPTION_MSL_BIT,
SPVC_COMPILER_OPTION_GLSL_EMIT_UNIFORM_BUFFER_AS_PLAIN_UNIFORMS = 35 | SPVC_COMPILER_OPTION_GLSL_BIT,
SPVC_COMPILER_OPTION_MSL_BUFFER_SIZE_BUFFER_INDEX = 36 | SPVC_COMPILER_OPTION_MSL_BIT,
SPVC_COMPILER_OPTION_EMIT_LINE_DIRECTIVES = 37 | SPVC_COMPILER_OPTION_COMMON_BIT,
MSL: Add support for sampler Y'CbCr conversion. This change introduces functions and in one case, a class, to support the `VK_KHR_sampler_ycbcr_conversion` extension. Except in the case of GBGR8 and BGRG8 formats, for which Metal natively supports implicit chroma reconstruction, we're on our own here. We have to do everything ourselves. Much of the complexity comes from the need to support multiple planes, which must now be passed to functions that use the corresponding combined image-samplers. The rest is from the actual Y'CbCr conversion itself, which requires additional post-processing of the sample retrieved from the image. Passing sampled images to a function was a particular problem. To support this, I've added a new class which is emitted to MSL shaders that pass sampled images with Y'CbCr conversions attached around. It can handle sampled images with or without Y'CbCr conversion. This is an awful abomination that should not exist, but I'm worried that there's some shader out there which does this. This support requires Metal 2.0 to work properly, because it uses default-constructed texture objects, which were only added in MSL 2. I'm not even going to get into arrays of combined image-samplers--that's a whole other can of worms. They are deliberately unsupported in this change. I've taken the liberty of refactoring the support for texture swizzling while I'm at it. It's now treated as a post-processing step similar to Y'CbCr conversion. I'd like to think this is cleaner than having everything in `to_function_name()`/`to_function_args()`. It still looks really hairy, though. I did, however, get rid of the explicit type arguments to `spvGatherSwizzle()`/`spvGatherCompareSwizzle()`. Update the C API. In addition to supporting this new functionality, add some compiler options that I added in previous changes, but for which I neglected to update the C API.
2019-08-02 20:11:19 +00:00
SPVC_COMPILER_OPTION_MSL_MULTIVIEW = 38 | SPVC_COMPILER_OPTION_MSL_BIT,
SPVC_COMPILER_OPTION_MSL_VIEW_MASK_BUFFER_INDEX = 39 | SPVC_COMPILER_OPTION_MSL_BIT,
SPVC_COMPILER_OPTION_MSL_DEVICE_INDEX = 40 | SPVC_COMPILER_OPTION_MSL_BIT,
SPVC_COMPILER_OPTION_MSL_VIEW_INDEX_FROM_DEVICE_INDEX = 41 | SPVC_COMPILER_OPTION_MSL_BIT,
SPVC_COMPILER_OPTION_MSL_DISPATCH_BASE = 42 | SPVC_COMPILER_OPTION_MSL_BIT,
2019-09-06 08:17:31 +00:00
SPVC_COMPILER_OPTION_MSL_DYNAMIC_OFFSETS_BUFFER_INDEX = 43 | SPVC_COMPILER_OPTION_MSL_BIT,
2019-11-04 09:42:20 +00:00
SPVC_COMPILER_OPTION_MSL_TEXTURE_1D_AS_2D = 44 | SPVC_COMPILER_OPTION_MSL_BIT,
SPVC_COMPILER_OPTION_MSL_ENABLE_BASE_INDEX_ZERO = 45 | SPVC_COMPILER_OPTION_MSL_BIT,
/* Obsolete. Use MSL_FRAMEBUFFER_FETCH_SUBPASS instead. */
2019-11-04 09:42:20 +00:00
SPVC_COMPILER_OPTION_MSL_IOS_FRAMEBUFFER_FETCH_SUBPASS = 46 | SPVC_COMPILER_OPTION_MSL_BIT,
SPVC_COMPILER_OPTION_MSL_FRAMEBUFFER_FETCH_SUBPASS = 46 | SPVC_COMPILER_OPTION_MSL_BIT,
2019-11-04 09:42:20 +00:00
SPVC_COMPILER_OPTION_MSL_INVARIANT_FP_MATH = 47 | SPVC_COMPILER_OPTION_MSL_BIT,
SPVC_COMPILER_OPTION_MSL_EMULATE_CUBEMAP_ARRAY = 48 | SPVC_COMPILER_OPTION_MSL_BIT,
SPVC_COMPILER_OPTION_MSL_ENABLE_DECORATION_BINDING = 49 | SPVC_COMPILER_OPTION_MSL_BIT,
SPVC_COMPILER_OPTION_MSL_FORCE_ACTIVE_ARGUMENT_BUFFER_RESOURCES = 50 | SPVC_COMPILER_OPTION_MSL_BIT,
SPVC_COMPILER_OPTION_MSL_FORCE_NATIVE_ARRAYS = 51 | SPVC_COMPILER_OPTION_MSL_BIT,
MSL: Add support for sampler Y'CbCr conversion. This change introduces functions and in one case, a class, to support the `VK_KHR_sampler_ycbcr_conversion` extension. Except in the case of GBGR8 and BGRG8 formats, for which Metal natively supports implicit chroma reconstruction, we're on our own here. We have to do everything ourselves. Much of the complexity comes from the need to support multiple planes, which must now be passed to functions that use the corresponding combined image-samplers. The rest is from the actual Y'CbCr conversion itself, which requires additional post-processing of the sample retrieved from the image. Passing sampled images to a function was a particular problem. To support this, I've added a new class which is emitted to MSL shaders that pass sampled images with Y'CbCr conversions attached around. It can handle sampled images with or without Y'CbCr conversion. This is an awful abomination that should not exist, but I'm worried that there's some shader out there which does this. This support requires Metal 2.0 to work properly, because it uses default-constructed texture objects, which were only added in MSL 2. I'm not even going to get into arrays of combined image-samplers--that's a whole other can of worms. They are deliberately unsupported in this change. I've taken the liberty of refactoring the support for texture swizzling while I'm at it. It's now treated as a post-processing step similar to Y'CbCr conversion. I'd like to think this is cleaner than having everything in `to_function_name()`/`to_function_args()`. It still looks really hairy, though. I did, however, get rid of the explicit type arguments to `spvGatherSwizzle()`/`spvGatherCompareSwizzle()`. Update the C API. In addition to supporting this new functionality, add some compiler options that I added in previous changes, but for which I neglected to update the C API.
2019-08-02 20:11:19 +00:00
SPVC_COMPILER_OPTION_ENABLE_STORAGE_IMAGE_QUALIFIER_DEDUCTION = 52 | SPVC_COMPILER_OPTION_COMMON_BIT,
SPVC_COMPILER_OPTION_HLSL_FORCE_STORAGE_BUFFER_AS_UAV = 53 | SPVC_COMPILER_OPTION_HLSL_BIT,
SPVC_COMPILER_OPTION_FORCE_ZERO_INITIALIZED_VARIABLES = 54 | SPVC_COMPILER_OPTION_COMMON_BIT,
SPVC_COMPILER_OPTION_HLSL_NONWRITABLE_UAV_TEXTURE_AS_SRV = 55 | SPVC_COMPILER_OPTION_HLSL_BIT,
SPVC_COMPILER_OPTION_MSL_ENABLE_FRAG_OUTPUT_MASK = 56 | SPVC_COMPILER_OPTION_MSL_BIT,
SPVC_COMPILER_OPTION_MSL_ENABLE_FRAG_DEPTH_BUILTIN = 57 | SPVC_COMPILER_OPTION_MSL_BIT,
SPVC_COMPILER_OPTION_MSL_ENABLE_FRAG_STENCIL_REF_BUILTIN = 58 | SPVC_COMPILER_OPTION_MSL_BIT,
SPVC_COMPILER_OPTION_MSL_ENABLE_CLIP_DISTANCE_USER_VARYING = 59 | SPVC_COMPILER_OPTION_MSL_BIT,
SPVC_COMPILER_OPTION_HLSL_ENABLE_16BIT_TYPES = 60 | SPVC_COMPILER_OPTION_HLSL_BIT,
MSL: Add support for processing more than one patch per workgroup. This should hopefully reduce underutilization of the GPU, especially on GPUs where the thread execution width is greater than the number of control points. This also simplifies initialization by reading the buffer directly instead of using Metal's vertex-attribute-in-compute support. It turns out the only way in which shader stages are allowed to differ in their interfaces is in the number of components per vector; the base type must be the same. Since we are using the raw buffer instead of attributes, we can now also emit arrays and matrices directly into the buffer, instead of flattening them and then unpacking them. Structs are still flattened, however; this is due to the need to handle vectors with fewer components than were output, and I think handling this while also directly emitting structs could get ugly. Another advantage of this scheme is that the extra invocations needed to read the attributes when there were more input than output points are now no more. The number of threads per workgroup is now lcm(SIMD-size, output control points). This should ensure we always process a whole number of patches per workgroup. To avoid complexity handling indices in the tessellation control shader, I've also changed the way vertex shaders for tessellation are handled. They are now compute kernels using Metal's support for vertex-style stage input. This lets us always emit vertices into the buffer in order of vertex shader execution. Now we no longer have to deal with indexing in the tessellation control shader. This also fixes a long-standing issue where if an index were greater than the number of vertices to draw, the vertex shader would wind up writing outside the buffer, and the vertex would be lost. This is a breaking change, and I know SPIRV-Cross has other clients, so I've hidden this behind an option for now. In the future, I want to remove this option and make it the default.
2020-02-21 03:38:28 +00:00
SPVC_COMPILER_OPTION_MSL_MULTI_PATCH_WORKGROUP = 61 | SPVC_COMPILER_OPTION_MSL_BIT,
SPVC_COMPILER_OPTION_MSL_SHADER_INPUT_BUFFER_INDEX = 62 | SPVC_COMPILER_OPTION_MSL_BIT,
SPVC_COMPILER_OPTION_MSL_SHADER_INDEX_BUFFER_INDEX = 63 | SPVC_COMPILER_OPTION_MSL_BIT,
SPVC_COMPILER_OPTION_MSL_VERTEX_FOR_TESSELLATION = 64 | SPVC_COMPILER_OPTION_MSL_BIT,
SPVC_COMPILER_OPTION_MSL_VERTEX_INDEX_TYPE = 65 | SPVC_COMPILER_OPTION_MSL_BIT,
SPVC_COMPILER_OPTION_GLSL_FORCE_FLATTENED_IO_BLOCKS = 66 | SPVC_COMPILER_OPTION_GLSL_BIT,
SPVC_COMPILER_OPTION_MSL_MULTIVIEW_LAYERED_RENDERING = 67 | SPVC_COMPILER_OPTION_MSL_BIT,
SPVC_COMPILER_OPTION_MSL_ARRAYED_SUBPASS_INPUT = 68 | SPVC_COMPILER_OPTION_MSL_BIT,
SPVC_COMPILER_OPTION_MSL_R32UI_LINEAR_TEXTURE_ALIGNMENT = 69 | SPVC_COMPILER_OPTION_MSL_BIT,
SPVC_COMPILER_OPTION_MSL_R32UI_ALIGNMENT_CONSTANT_ID = 70 | SPVC_COMPILER_OPTION_MSL_BIT,
SPVC_COMPILER_OPTION_HLSL_FLATTEN_MATRIX_VERTEX_INPUT_SEMANTICS = 71 | SPVC_COMPILER_OPTION_HLSL_BIT,
SPVC_COMPILER_OPTION_MSL_IOS_USE_SIMDGROUP_FUNCTIONS = 72 | SPVC_COMPILER_OPTION_MSL_BIT,
SPVC_COMPILER_OPTION_MSL_EMULATE_SUBGROUPS = 73 | SPVC_COMPILER_OPTION_MSL_BIT,
SPVC_COMPILER_OPTION_MSL_FIXED_SUBGROUP_SIZE = 74 | SPVC_COMPILER_OPTION_MSL_BIT,
SPVC_COMPILER_OPTION_MSL_FORCE_SAMPLE_RATE_SHADING = 75 | SPVC_COMPILER_OPTION_MSL_BIT,
SPVC_COMPILER_OPTION_MSL_IOS_SUPPORT_BASE_VERTEX_INSTANCE = 76 | SPVC_COMPILER_OPTION_MSL_BIT,
SPVC_COMPILER_OPTION_GLSL_OVR_MULTIVIEW_VIEW_COUNT = 77 | SPVC_COMPILER_OPTION_GLSL_BIT,
SPVC_COMPILER_OPTION_RELAX_NAN_CHECKS = 78 | SPVC_COMPILER_OPTION_COMMON_BIT,
SPVC_COMPILER_OPTION_MSL_RAW_BUFFER_TESE_INPUT = 79 | SPVC_COMPILER_OPTION_MSL_BIT,
SPVC_COMPILER_OPTION_MSL_SHADER_PATCH_INPUT_BUFFER_INDEX = 80 | SPVC_COMPILER_OPTION_MSL_BIT,
SPVC_COMPILER_OPTION_MSL_MANUAL_HELPER_INVOCATION_UPDATES = 81 | SPVC_COMPILER_OPTION_MSL_BIT,
SPVC_COMPILER_OPTION_MSL_CHECK_DISCARDED_FRAG_STORES = 82 | SPVC_COMPILER_OPTION_MSL_BIT,
SPVC_COMPILER_OPTION_GLSL_ENABLE_ROW_MAJOR_LOAD_WORKAROUND = 83 | SPVC_COMPILER_OPTION_GLSL_BIT,
SPVC_COMPILER_OPTION_MSL_ARGUMENT_BUFFERS_TIER = 84 | SPVC_COMPILER_OPTION_MSL_BIT,
SPVC_COMPILER_OPTION_MSL_SAMPLE_DREF_LOD_ARRAY_AS_GRAD = 85 | SPVC_COMPILER_OPTION_MSL_BIT,
SPVC_COMPILER_OPTION_MSL_READWRITE_TEXTURE_FENCES = 86 | SPVC_COMPILER_OPTION_MSL_BIT,
SPVC_COMPILER_OPTION_MSL_REPLACE_RECURSIVE_INPUTS = 87 | SPVC_COMPILER_OPTION_MSL_BIT,
SPVC_COMPILER_OPTION_MSL_AGX_MANUAL_CUBE_GRAD_FIXUP = 88 | SPVC_COMPILER_OPTION_MSL_BIT,
SPVC_COMPILER_OPTION_INT_MAX = 0x7fffffff
} spvc_compiler_option;
2019-03-04 09:08:31 +00:00
/*
* Context is the highest-level API construct.
* The context owns all memory allocations made by its child object hierarchy, including various non-opaque structs and strings.
* This means that the API user only has to care about one "destroy" call ever when using the C API.
* All pointers handed out by the APIs are only valid as long as the context
* is alive and spvc_context_release_allocations has not been called.
*/
SPVC_PUBLIC_API spvc_result spvc_context_create(spvc_context *context);
2019-03-04 09:08:31 +00:00
/* Frees all memory allocations and objects associated with the context and its child objects. */
SPVC_PUBLIC_API void spvc_context_destroy(spvc_context context);
2019-03-04 09:08:31 +00:00
/* Frees all memory allocations and objects associated with the context and its child objects, but keeps the context alive. */
SPVC_PUBLIC_API void spvc_context_release_allocations(spvc_context context);
2019-03-04 09:08:31 +00:00
/* Get the string for the last error which was logged. */
SPVC_PUBLIC_API const char *spvc_context_get_last_error_string(spvc_context context);
2019-03-04 09:08:31 +00:00
/* Get notified in a callback when an error triggers. Useful for debugging. */
typedef void (*spvc_error_callback)(void *userdata, const char *error);
SPVC_PUBLIC_API void spvc_context_set_error_callback(spvc_context context, spvc_error_callback cb, void *userdata);
2019-03-04 09:08:31 +00:00
/* SPIR-V parsing interface. Maps to Parser which then creates a ParsedIR, and that IR is extracted into the handle. */
SPVC_PUBLIC_API spvc_result spvc_context_parse_spirv(spvc_context context, const SpvId *spirv, size_t word_count,
spvc_parsed_ir *parsed_ir);
2019-03-04 09:08:31 +00:00
/*
* Create a compiler backend. Capture mode controls if we construct by copy or move semantics.
* It is always recommended to use SPVC_CAPTURE_MODE_TAKE_OWNERSHIP if you only intend to cross-compile the IR once.
*/
SPVC_PUBLIC_API spvc_result spvc_context_create_compiler(spvc_context context, spvc_backend backend,
spvc_parsed_ir parsed_ir, spvc_capture_mode mode,
spvc_compiler *compiler);
2019-03-04 09:08:31 +00:00
/* Maps directly to C++ API. */
SPVC_PUBLIC_API unsigned spvc_compiler_get_current_id_bound(spvc_compiler compiler);
2019-03-04 09:08:31 +00:00
/* Create compiler options, which will initialize defaults. */
SPVC_PUBLIC_API spvc_result spvc_compiler_create_compiler_options(spvc_compiler compiler,
spvc_compiler_options *options);
2019-03-04 09:08:31 +00:00
/* Override options. Will return error if e.g. MSL options are used for the HLSL backend, etc. */
SPVC_PUBLIC_API spvc_result spvc_compiler_options_set_bool(spvc_compiler_options options,
spvc_compiler_option option, spvc_bool value);
SPVC_PUBLIC_API spvc_result spvc_compiler_options_set_uint(spvc_compiler_options options,
spvc_compiler_option option, unsigned value);
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/* Set compiler options. */
SPVC_PUBLIC_API spvc_result spvc_compiler_install_compiler_options(spvc_compiler compiler,
spvc_compiler_options options);
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/* Compile IR into a string. *source is owned by the context, and caller must not free it themselves. */
SPVC_PUBLIC_API spvc_result spvc_compiler_compile(spvc_compiler compiler, const char **source);
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/* Maps to C++ API. */
SPVC_PUBLIC_API spvc_result spvc_compiler_add_header_line(spvc_compiler compiler, const char *line);
SPVC_PUBLIC_API spvc_result spvc_compiler_require_extension(spvc_compiler compiler, const char *ext);
SPVC_PUBLIC_API size_t spvc_compiler_get_num_required_extensions(spvc_compiler compiler);
SPVC_PUBLIC_API const char *spvc_compiler_get_required_extension(spvc_compiler compiler, size_t index);
SPVC_PUBLIC_API spvc_result spvc_compiler_flatten_buffer_block(spvc_compiler compiler, spvc_variable_id id);
SPVC_PUBLIC_API spvc_bool spvc_compiler_variable_is_depth_or_compare(spvc_compiler compiler, spvc_variable_id id);
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SPVC_PUBLIC_API spvc_result spvc_compiler_mask_stage_output_by_location(spvc_compiler compiler,
unsigned location, unsigned component);
SPVC_PUBLIC_API spvc_result spvc_compiler_mask_stage_output_by_builtin(spvc_compiler compiler, SpvBuiltIn builtin);
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/*
* HLSL specifics.
* Maps to C++ API.
*/
SPVC_PUBLIC_API spvc_result spvc_compiler_hlsl_set_root_constants_layout(spvc_compiler compiler,
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const spvc_hlsl_root_constants *constant_info,
size_t count);
SPVC_PUBLIC_API spvc_result spvc_compiler_hlsl_add_vertex_attribute_remap(spvc_compiler compiler,
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const spvc_hlsl_vertex_attribute_remap *remap,
size_t remaps);
SPVC_PUBLIC_API spvc_variable_id spvc_compiler_hlsl_remap_num_workgroups_builtin(spvc_compiler compiler);
SPVC_PUBLIC_API spvc_result spvc_compiler_hlsl_set_resource_binding_flags(spvc_compiler compiler,
spvc_hlsl_binding_flags flags);
SPVC_PUBLIC_API spvc_result spvc_compiler_hlsl_add_resource_binding(spvc_compiler compiler,
const spvc_hlsl_resource_binding *binding);
SPVC_PUBLIC_API spvc_bool spvc_compiler_hlsl_is_resource_used(spvc_compiler compiler,
SpvExecutionModel model,
unsigned set,
unsigned binding);
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/*
* MSL specifics.
* Maps to C++ API.
*/
SPVC_PUBLIC_API spvc_bool spvc_compiler_msl_is_rasterization_disabled(spvc_compiler compiler);
/* Obsolete. Renamed to needs_swizzle_buffer. */
SPVC_PUBLIC_API spvc_bool spvc_compiler_msl_needs_aux_buffer(spvc_compiler compiler);
SPVC_PUBLIC_API spvc_bool spvc_compiler_msl_needs_swizzle_buffer(spvc_compiler compiler);
SPVC_PUBLIC_API spvc_bool spvc_compiler_msl_needs_buffer_size_buffer(spvc_compiler compiler);
SPVC_PUBLIC_API spvc_bool spvc_compiler_msl_needs_output_buffer(spvc_compiler compiler);
SPVC_PUBLIC_API spvc_bool spvc_compiler_msl_needs_patch_output_buffer(spvc_compiler compiler);
SPVC_PUBLIC_API spvc_bool spvc_compiler_msl_needs_input_threadgroup_mem(spvc_compiler compiler);
SPVC_PUBLIC_API spvc_result spvc_compiler_msl_add_vertex_attribute(spvc_compiler compiler,
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const spvc_msl_vertex_attribute *attrs);
SPVC_PUBLIC_API spvc_result spvc_compiler_msl_add_resource_binding(spvc_compiler compiler,
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const spvc_msl_resource_binding *binding);
/* Deprecated; use spvc_compiler_msl_add_shader_input_2(). */
SPVC_PUBLIC_API spvc_result spvc_compiler_msl_add_shader_input(spvc_compiler compiler,
const spvc_msl_shader_interface_var *input);
SPVC_PUBLIC_API spvc_result spvc_compiler_msl_add_shader_input_2(spvc_compiler compiler,
const spvc_msl_shader_interface_var_2 *input);
/* Deprecated; use spvc_compiler_msl_add_shader_output_2(). */
SPVC_PUBLIC_API spvc_result spvc_compiler_msl_add_shader_output(spvc_compiler compiler,
const spvc_msl_shader_interface_var *output);
SPVC_PUBLIC_API spvc_result spvc_compiler_msl_add_shader_output_2(spvc_compiler compiler,
const spvc_msl_shader_interface_var_2 *output);
SPVC_PUBLIC_API spvc_result spvc_compiler_msl_add_discrete_descriptor_set(spvc_compiler compiler, unsigned desc_set);
SPVC_PUBLIC_API spvc_result spvc_compiler_msl_set_argument_buffer_device_address_space(spvc_compiler compiler, unsigned desc_set, spvc_bool device_address);
/* Obsolete, use is_shader_input_used. */
SPVC_PUBLIC_API spvc_bool spvc_compiler_msl_is_vertex_attribute_used(spvc_compiler compiler, unsigned location);
SPVC_PUBLIC_API spvc_bool spvc_compiler_msl_is_shader_input_used(spvc_compiler compiler, unsigned location);
SPVC_PUBLIC_API spvc_bool spvc_compiler_msl_is_shader_output_used(spvc_compiler compiler, unsigned location);
SPVC_PUBLIC_API spvc_bool spvc_compiler_msl_is_resource_used(spvc_compiler compiler,
SpvExecutionModel model,
unsigned set,
unsigned binding);
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SPVC_PUBLIC_API spvc_result spvc_compiler_msl_remap_constexpr_sampler(spvc_compiler compiler, spvc_variable_id id, const spvc_msl_constexpr_sampler *sampler);
SPVC_PUBLIC_API spvc_result spvc_compiler_msl_remap_constexpr_sampler_by_binding(spvc_compiler compiler, unsigned desc_set, unsigned binding, const spvc_msl_constexpr_sampler *sampler);
MSL: Add support for sampler Y'CbCr conversion. This change introduces functions and in one case, a class, to support the `VK_KHR_sampler_ycbcr_conversion` extension. Except in the case of GBGR8 and BGRG8 formats, for which Metal natively supports implicit chroma reconstruction, we're on our own here. We have to do everything ourselves. Much of the complexity comes from the need to support multiple planes, which must now be passed to functions that use the corresponding combined image-samplers. The rest is from the actual Y'CbCr conversion itself, which requires additional post-processing of the sample retrieved from the image. Passing sampled images to a function was a particular problem. To support this, I've added a new class which is emitted to MSL shaders that pass sampled images with Y'CbCr conversions attached around. It can handle sampled images with or without Y'CbCr conversion. This is an awful abomination that should not exist, but I'm worried that there's some shader out there which does this. This support requires Metal 2.0 to work properly, because it uses default-constructed texture objects, which were only added in MSL 2. I'm not even going to get into arrays of combined image-samplers--that's a whole other can of worms. They are deliberately unsupported in this change. I've taken the liberty of refactoring the support for texture swizzling while I'm at it. It's now treated as a post-processing step similar to Y'CbCr conversion. I'd like to think this is cleaner than having everything in `to_function_name()`/`to_function_args()`. It still looks really hairy, though. I did, however, get rid of the explicit type arguments to `spvGatherSwizzle()`/`spvGatherCompareSwizzle()`. Update the C API. In addition to supporting this new functionality, add some compiler options that I added in previous changes, but for which I neglected to update the C API.
2019-08-02 20:11:19 +00:00
SPVC_PUBLIC_API 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);
SPVC_PUBLIC_API 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);
SPVC_PUBLIC_API spvc_result spvc_compiler_msl_set_fragment_output_components(spvc_compiler compiler, unsigned location, unsigned components);
SPVC_PUBLIC_API unsigned spvc_compiler_msl_get_automatic_resource_binding(spvc_compiler compiler, spvc_variable_id id);
SPVC_PUBLIC_API unsigned spvc_compiler_msl_get_automatic_resource_binding_secondary(spvc_compiler compiler, spvc_variable_id id);
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SPVC_PUBLIC_API spvc_result spvc_compiler_msl_add_dynamic_buffer(spvc_compiler compiler, unsigned desc_set, unsigned binding, unsigned index);
SPVC_PUBLIC_API spvc_result spvc_compiler_msl_add_inline_uniform_block(spvc_compiler compiler, unsigned desc_set, unsigned binding);
SPVC_PUBLIC_API spvc_result spvc_compiler_msl_set_combined_sampler_suffix(spvc_compiler compiler, const char *suffix);
SPVC_PUBLIC_API const char *spvc_compiler_msl_get_combined_sampler_suffix(spvc_compiler compiler);
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/*
* Reflect resources.
* Maps almost 1:1 to C++ API.
*/
SPVC_PUBLIC_API spvc_result spvc_compiler_get_active_interface_variables(spvc_compiler compiler, spvc_set *set);
SPVC_PUBLIC_API spvc_result spvc_compiler_set_enabled_interface_variables(spvc_compiler compiler, spvc_set set);
SPVC_PUBLIC_API spvc_result spvc_compiler_create_shader_resources(spvc_compiler compiler, spvc_resources *resources);
SPVC_PUBLIC_API spvc_result spvc_compiler_create_shader_resources_for_active_variables(spvc_compiler compiler,
spvc_resources *resources,
spvc_set active);
SPVC_PUBLIC_API spvc_result spvc_resources_get_resource_list_for_type(spvc_resources resources, spvc_resource_type type,
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const spvc_reflected_resource **resource_list,
size_t *resource_size);
SPVC_PUBLIC_API spvc_result spvc_resources_get_builtin_resource_list_for_type(
spvc_resources resources, spvc_builtin_resource_type type,
const spvc_reflected_builtin_resource **resource_list,
size_t *resource_size);
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/*
* Decorations.
* Maps to C++ API.
*/
SPVC_PUBLIC_API void spvc_compiler_set_decoration(spvc_compiler compiler, SpvId id, SpvDecoration decoration,
unsigned argument);
SPVC_PUBLIC_API void spvc_compiler_set_decoration_string(spvc_compiler compiler, SpvId id, SpvDecoration decoration,
const char *argument);
SPVC_PUBLIC_API void spvc_compiler_set_name(spvc_compiler compiler, SpvId id, const char *argument);
SPVC_PUBLIC_API void spvc_compiler_set_member_decoration(spvc_compiler compiler, spvc_type_id id, unsigned member_index,
SpvDecoration decoration, unsigned argument);
SPVC_PUBLIC_API void spvc_compiler_set_member_decoration_string(spvc_compiler compiler, spvc_type_id id,
unsigned member_index, SpvDecoration decoration,
const char *argument);
SPVC_PUBLIC_API void spvc_compiler_set_member_name(spvc_compiler compiler, spvc_type_id id, unsigned member_index,
const char *argument);
SPVC_PUBLIC_API void spvc_compiler_unset_decoration(spvc_compiler compiler, SpvId id, SpvDecoration decoration);
SPVC_PUBLIC_API void spvc_compiler_unset_member_decoration(spvc_compiler compiler, spvc_type_id id,
unsigned member_index, SpvDecoration decoration);
SPVC_PUBLIC_API spvc_bool spvc_compiler_has_decoration(spvc_compiler compiler, SpvId id, SpvDecoration decoration);
SPVC_PUBLIC_API spvc_bool spvc_compiler_has_member_decoration(spvc_compiler compiler, spvc_type_id id,
unsigned member_index, SpvDecoration decoration);
SPVC_PUBLIC_API const char *spvc_compiler_get_name(spvc_compiler compiler, SpvId id);
SPVC_PUBLIC_API unsigned spvc_compiler_get_decoration(spvc_compiler compiler, SpvId id, SpvDecoration decoration);
SPVC_PUBLIC_API const char *spvc_compiler_get_decoration_string(spvc_compiler compiler, SpvId id,
SpvDecoration decoration);
SPVC_PUBLIC_API unsigned spvc_compiler_get_member_decoration(spvc_compiler compiler, spvc_type_id id,
unsigned member_index, SpvDecoration decoration);
SPVC_PUBLIC_API const char *spvc_compiler_get_member_decoration_string(spvc_compiler compiler, spvc_type_id id,
unsigned member_index, SpvDecoration decoration);
SPVC_PUBLIC_API const char *spvc_compiler_get_member_name(spvc_compiler compiler, spvc_type_id id, unsigned member_index);
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/*
* Entry points.
* Maps to C++ API.
*/
SPVC_PUBLIC_API spvc_result spvc_compiler_get_entry_points(spvc_compiler compiler,
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const spvc_entry_point **entry_points,
size_t *num_entry_points);
SPVC_PUBLIC_API spvc_result spvc_compiler_set_entry_point(spvc_compiler compiler, const char *name,
SpvExecutionModel model);
SPVC_PUBLIC_API spvc_result spvc_compiler_rename_entry_point(spvc_compiler compiler, const char *old_name,
const char *new_name, SpvExecutionModel model);
SPVC_PUBLIC_API const char *spvc_compiler_get_cleansed_entry_point_name(spvc_compiler compiler, const char *name,
SpvExecutionModel model);
SPVC_PUBLIC_API void spvc_compiler_set_execution_mode(spvc_compiler compiler, SpvExecutionMode mode);
SPVC_PUBLIC_API void spvc_compiler_unset_execution_mode(spvc_compiler compiler, SpvExecutionMode mode);
SPVC_PUBLIC_API void spvc_compiler_set_execution_mode_with_arguments(spvc_compiler compiler, SpvExecutionMode mode,
unsigned arg0, unsigned arg1, unsigned arg2);
SPVC_PUBLIC_API spvc_result spvc_compiler_get_execution_modes(spvc_compiler compiler, const SpvExecutionMode **modes,
size_t *num_modes);
SPVC_PUBLIC_API unsigned spvc_compiler_get_execution_mode_argument(spvc_compiler compiler, SpvExecutionMode mode);
SPVC_PUBLIC_API unsigned spvc_compiler_get_execution_mode_argument_by_index(spvc_compiler compiler,
SpvExecutionMode mode, unsigned index);
SPVC_PUBLIC_API SpvExecutionModel spvc_compiler_get_execution_model(spvc_compiler compiler);
SPVC_PUBLIC_API void spvc_compiler_update_active_builtins(spvc_compiler compiler);
SPVC_PUBLIC_API spvc_bool spvc_compiler_has_active_builtin(spvc_compiler compiler, SpvBuiltIn builtin, SpvStorageClass storage);
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/*
* Type query interface.
* Maps to C++ API, except it's read-only.
*/
SPVC_PUBLIC_API spvc_type spvc_compiler_get_type_handle(spvc_compiler compiler, spvc_type_id id);
/* Pulls out SPIRType::self. This effectively gives the type ID without array or pointer qualifiers.
* This is necessary when reflecting decoration/name information on members of a struct,
* which are placed in the base type, not the qualified type.
* This is similar to spvc_reflected_resource::base_type_id. */
SPVC_PUBLIC_API spvc_type_id spvc_type_get_base_type_id(spvc_type type);
SPVC_PUBLIC_API spvc_basetype spvc_type_get_basetype(spvc_type type);
SPVC_PUBLIC_API unsigned spvc_type_get_bit_width(spvc_type type);
SPVC_PUBLIC_API unsigned spvc_type_get_vector_size(spvc_type type);
SPVC_PUBLIC_API unsigned spvc_type_get_columns(spvc_type type);
SPVC_PUBLIC_API unsigned spvc_type_get_num_array_dimensions(spvc_type type);
SPVC_PUBLIC_API spvc_bool spvc_type_array_dimension_is_literal(spvc_type type, unsigned dimension);
SPVC_PUBLIC_API SpvId spvc_type_get_array_dimension(spvc_type type, unsigned dimension);
SPVC_PUBLIC_API unsigned spvc_type_get_num_member_types(spvc_type type);
SPVC_PUBLIC_API spvc_type_id spvc_type_get_member_type(spvc_type type, unsigned index);
SPVC_PUBLIC_API SpvStorageClass spvc_type_get_storage_class(spvc_type type);
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/* Image type query. */
SPVC_PUBLIC_API spvc_type_id spvc_type_get_image_sampled_type(spvc_type type);
SPVC_PUBLIC_API SpvDim spvc_type_get_image_dimension(spvc_type type);
SPVC_PUBLIC_API spvc_bool spvc_type_get_image_is_depth(spvc_type type);
SPVC_PUBLIC_API spvc_bool spvc_type_get_image_arrayed(spvc_type type);
SPVC_PUBLIC_API spvc_bool spvc_type_get_image_multisampled(spvc_type type);
SPVC_PUBLIC_API spvc_bool spvc_type_get_image_is_storage(spvc_type type);
SPVC_PUBLIC_API SpvImageFormat spvc_type_get_image_storage_format(spvc_type type);
SPVC_PUBLIC_API SpvAccessQualifier spvc_type_get_image_access_qualifier(spvc_type type);
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/*
* Buffer layout query.
* Maps to C++ API.
*/
SPVC_PUBLIC_API spvc_result spvc_compiler_get_declared_struct_size(spvc_compiler compiler, spvc_type struct_type, size_t *size);
SPVC_PUBLIC_API 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_PUBLIC_API spvc_result spvc_compiler_get_declared_struct_member_size(spvc_compiler compiler, spvc_type type, unsigned index, size_t *size);
SPVC_PUBLIC_API spvc_result spvc_compiler_type_struct_member_offset(spvc_compiler compiler,
spvc_type type, unsigned index, unsigned *offset);
SPVC_PUBLIC_API spvc_result spvc_compiler_type_struct_member_array_stride(spvc_compiler compiler,
spvc_type type, unsigned index, unsigned *stride);
SPVC_PUBLIC_API spvc_result spvc_compiler_type_struct_member_matrix_stride(spvc_compiler compiler,
spvc_type type, unsigned index, unsigned *stride);
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/*
* Workaround helper functions.
* Maps to C++ API.
*/
SPVC_PUBLIC_API spvc_result spvc_compiler_build_dummy_sampler_for_combined_images(spvc_compiler compiler, spvc_variable_id *id);
SPVC_PUBLIC_API spvc_result spvc_compiler_build_combined_image_samplers(spvc_compiler compiler);
SPVC_PUBLIC_API spvc_result spvc_compiler_get_combined_image_samplers(spvc_compiler compiler,
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const spvc_combined_image_sampler **samplers,
size_t *num_samplers);
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/*
* Constants
* Maps to C++ API.
*/
SPVC_PUBLIC_API spvc_result spvc_compiler_get_specialization_constants(spvc_compiler compiler,
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const spvc_specialization_constant **constants,
size_t *num_constants);
SPVC_PUBLIC_API spvc_constant spvc_compiler_get_constant_handle(spvc_compiler compiler,
spvc_constant_id id);
SPVC_PUBLIC_API spvc_constant_id spvc_compiler_get_work_group_size_specialization_constants(spvc_compiler compiler,
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spvc_specialization_constant *x,
spvc_specialization_constant *y,
spvc_specialization_constant *z);
/*
* Buffer ranges
* Maps to C++ API.
*/
SPVC_PUBLIC_API spvc_result spvc_compiler_get_active_buffer_ranges(spvc_compiler compiler,
spvc_variable_id id,
const spvc_buffer_range **ranges,
size_t *num_ranges);
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/*
* No stdint.h until C99, sigh :(
* For smaller types, the result is sign or zero-extended as appropriate.
* Maps to C++ API.
* TODO: The SPIRConstant query interface and modification interface is not quite complete.
*/
SPVC_PUBLIC_API float spvc_constant_get_scalar_fp16(spvc_constant constant, unsigned column, unsigned row);
SPVC_PUBLIC_API float spvc_constant_get_scalar_fp32(spvc_constant constant, unsigned column, unsigned row);
SPVC_PUBLIC_API double spvc_constant_get_scalar_fp64(spvc_constant constant, unsigned column, unsigned row);
SPVC_PUBLIC_API unsigned spvc_constant_get_scalar_u32(spvc_constant constant, unsigned column, unsigned row);
SPVC_PUBLIC_API int spvc_constant_get_scalar_i32(spvc_constant constant, unsigned column, unsigned row);
SPVC_PUBLIC_API unsigned spvc_constant_get_scalar_u16(spvc_constant constant, unsigned column, unsigned row);
SPVC_PUBLIC_API int spvc_constant_get_scalar_i16(spvc_constant constant, unsigned column, unsigned row);
SPVC_PUBLIC_API unsigned spvc_constant_get_scalar_u8(spvc_constant constant, unsigned column, unsigned row);
SPVC_PUBLIC_API int spvc_constant_get_scalar_i8(spvc_constant constant, unsigned column, unsigned row);
SPVC_PUBLIC_API void spvc_constant_get_subconstants(spvc_constant constant, const spvc_constant_id **constituents, size_t *count);
SPVC_PUBLIC_API spvc_type_id spvc_constant_get_type(spvc_constant constant);
/*
* C implementation of the C++ api.
*/
SPVC_PUBLIC_API void spvc_constant_set_scalar_fp16(spvc_constant constant, unsigned column, unsigned row, unsigned short value);
SPVC_PUBLIC_API void spvc_constant_set_scalar_fp32(spvc_constant constant, unsigned column, unsigned row, float value);
SPVC_PUBLIC_API void spvc_constant_set_scalar_fp64(spvc_constant constant, unsigned column, unsigned row, double value);
SPVC_PUBLIC_API void spvc_constant_set_scalar_u32(spvc_constant constant, unsigned column, unsigned row, unsigned value);
SPVC_PUBLIC_API void spvc_constant_set_scalar_i32(spvc_constant constant, unsigned column, unsigned row, int value);
SPVC_PUBLIC_API void spvc_constant_set_scalar_u16(spvc_constant constant, unsigned column, unsigned row, unsigned short value);
SPVC_PUBLIC_API void spvc_constant_set_scalar_i16(spvc_constant constant, unsigned column, unsigned row, signed short value);
SPVC_PUBLIC_API void spvc_constant_set_scalar_u8(spvc_constant constant, unsigned column, unsigned row, unsigned char value);
SPVC_PUBLIC_API void spvc_constant_set_scalar_i8(spvc_constant constant, unsigned column, unsigned row, signed char value);
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/*
* Misc reflection
* Maps to C++ API.
*/
SPVC_PUBLIC_API spvc_bool spvc_compiler_get_binary_offset_for_decoration(spvc_compiler compiler,
spvc_variable_id id,
SpvDecoration decoration,
unsigned *word_offset);
SPVC_PUBLIC_API spvc_bool spvc_compiler_buffer_is_hlsl_counter_buffer(spvc_compiler compiler, spvc_variable_id id);
SPVC_PUBLIC_API spvc_bool spvc_compiler_buffer_get_hlsl_counter_buffer(spvc_compiler compiler, spvc_variable_id id,
spvc_variable_id *counter_id);
SPVC_PUBLIC_API spvc_result spvc_compiler_get_declared_capabilities(spvc_compiler compiler,
const SpvCapability **capabilities,
size_t *num_capabilities);
SPVC_PUBLIC_API spvc_result spvc_compiler_get_declared_extensions(spvc_compiler compiler, const char ***extensions,
size_t *num_extensions);
SPVC_PUBLIC_API const char *spvc_compiler_get_remapped_declared_block_name(spvc_compiler compiler, spvc_variable_id id);
SPVC_PUBLIC_API spvc_result spvc_compiler_get_buffer_block_decorations(spvc_compiler compiler, spvc_variable_id id,
const SpvDecoration **decorations,
size_t *num_decorations);
#ifdef __cplusplus
}
#endif
#endif