third_party/shaderc/shaderc.h - platform/external/skia - Gitiles

 // Copyright 2015 The Shaderc Authors. All rights reserved.
 //
 // 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.

 #ifndef SHADERC_H_
 #define SHADERC_H_

 #ifdef __cplusplus
 extern "C" {
 #endif

 #include <stdbool.h>
 #include <stddef.h>
 #include <stdint.h>

 typedef enum {
   // Forced shader kinds. These shader kinds force the compiler to compile the
   // source code as the specified kind of shader.
   shaderc_glsl_vertex_shader,
   shaderc_glsl_fragment_shader,
   shaderc_glsl_compute_shader,
   shaderc_glsl_geometry_shader,
   shaderc_glsl_tess_control_shader,
   shaderc_glsl_tess_evaluation_shader,
   // Deduce the shader kind from #pragma annotation in the source code. Compiler
   // will emit error if #pragma annotation is not found.
   shaderc_glsl_infer_from_source,
   // Default shader kinds. Compiler will fall back to compile the source code as
   // the specified kind of shader when #pragma annotation is not found in the
   // source code.
   shaderc_glsl_default_vertex_shader,
   shaderc_glsl_default_fragment_shader,
   shaderc_glsl_default_compute_shader,
   shaderc_glsl_default_geometry_shader,
   shaderc_glsl_default_tess_control_shader,
   shaderc_glsl_default_tess_evaluation_shader,
 } shaderc_shader_kind;

 typedef enum {
   shaderc_target_env_vulkan,         // create SPIR-V under Vulkan semantics
   shaderc_target_env_opengl,         // create SPIR-V under OpenGL semantics
   shaderc_target_env_opengl_compat,  // create SPIR-V under OpenGL semantics,
                                      // including compatibility profile
                                      // functions
   shaderc_target_env_default = shaderc_target_env_vulkan
 } shaderc_target_env;

 typedef enum {
   shaderc_profile_none,  // Used if and only if GLSL version did not specify
                          // profiles.
   shaderc_profile_core,
   shaderc_profile_compatibility,
   shaderc_profile_es,
 } shaderc_profile;

 // Used in the result module (shaderc_spv_module) to indicate the status of an
 // compilation.
 typedef enum {
   shaderc_compilation_status_success = 0,
   shaderc_compilation_status_invalid_stage,  // error stage deduction
   shaderc_compilation_status_compilation_error,
   shaderc_compilation_status_internal_error, // unexpected failure
   shaderc_compilation_status_null_result_module,
 } shaderc_compilation_status;

 // Usage examples:
 //
 // Aggressively release compiler resources, but spend time in initialization
 // for each new use.
 //      shaderc_compiler_t compiler = shaderc_compiler_initialize();
 //      shader_spv_module_t module = shaderc_compile_into_spv(compiler,
 //                    "int main() {}", 13, shaderc_glsl_vertex_shader, "main");
 //      // Do stuff with module compilation results.
 //      shaderc_module_release(module);
 //      shaderc_compiler_release(compiler);
 //
 // Keep the compiler object around for a long time, but pay for extra space
 // occupied.
 //      shaderc_compiler_t compiler = shaderc_compiler_initialize();
 //      // On the same, other or multiple simultaneous threads.
 //      shader_spv_module_t module = shaderc_compile_into_spv(compiler,
 //                    "int main() {}", 13, shaderc_glsl_vertex_shader, "main");
 //      // Do stuff with module compilation results.
 //      shaderc_module_release(module);
 //      // Once no more compilations are to happen.
 //      shaderc_compiler_release(compiler);

 // An opaque handle to an object that manages all compiler state.
 typedef struct shaderc_compiler* shaderc_compiler_t;

 // Returns a shaderc_compiler_t that can be used to compile modules.
 // A return of NULL indicates that there was an error initializing the compiler.
 // Any function operating on shaderc_compiler_t must offer the basic
 // thread-safety guarantee.
 // [http://herbsutter.com/2014/01/13/gotw-95-solution-thread-safety-and-synchronization/]
 // That is: concurrent invocation of these functions on DIFFERENT objects needs
 // no synchronization; concurrent invocation of these functions on the SAME
 // object requires synchronization IF AND ONLY IF some of them take a non-const
 // argument.
 shaderc_compiler_t shaderc_compiler_initialize(void);

 // Releases the resources held by the shaderc_compiler_t.
 // After this call it is invalid to make any future calls to functions
 // involving this shaderc_compiler_t.
 void shaderc_compiler_release(shaderc_compiler_t);

 // An opaque handle to an object that manages options to a single compilation
 // result.
 typedef struct shaderc_compile_options* shaderc_compile_options_t;

 // Returns a default-initialized shaderc_compile_options_t that can be used
 // to modify the functionality of a compiled module.
 // A return of NULL indicates that there was an error initializing the options.
 // Any function operating on shaderc_compile_options_t must offer the
 // basic thread-safety guarantee.
 shaderc_compile_options_t shaderc_compile_options_initialize(void);

 // Returns a copy of the given shaderc_compile_options_t.
 // If NULL is passed as the parameter the call is the same as
 // shaderc_compile_options_init.
 shaderc_compile_options_t shaderc_compile_options_clone(
     const shaderc_compile_options_t options);

 // Releases the compilation options. It is invalid to use the given
 // shaderc_compile_options_t object in any future calls. It is safe to pass
 // NULL to this function, and doing such will have no effect.
 void shaderc_compile_options_release(shaderc_compile_options_t options);

 // Adds a predefined macro to the compilation options. This has the
 // same effect as passing -Dname=value to the command-line compiler.
 // If value is NULL, it has the effect same as passing -Dname to the
 // command-line compiler. If a macro definition with the same name has
 // previously been added, the value is replaced with the new value.
 // The null-terminated strings that the name and value parameters point to
 // must remain valid for the duration of the call, but can be modified or
 // deleted after this function has returned.
 void shaderc_compile_options_add_macro_definition(
     shaderc_compile_options_t options, const char* name, const char* value);

 // Sets the compiler mode to generate debug information in the output.
 void shaderc_compile_options_set_generate_debug_info(
     shaderc_compile_options_t options);

 // Sets the compiler mode to emit a disassembly text instead of a binary. In
 // this mode, the byte array result in the shaderc_spv_module returned
 // from shaderc_compile_into_spv() will consist of SPIR-V assembly text.
 // Note the preprocessing only mode overrides this option, and this option
 // overrides the default mode generating a SPIR-V binary.
 void shaderc_compile_options_set_disassembly_mode(
     shaderc_compile_options_t options);

 // Forces the GLSL language version and profile to a given pair. The version
 // number is the same as would appear in the #version annotation in the source.
 // Version and profile specified here overrides the #version annotation in the
 // source. Use profile: 'shaderc_profile_none' for GLSL versions that do not
 // define profiles, e.g. versions below 150.
 void shaderc_compile_options_set_forced_version_profile(
     shaderc_compile_options_t options, int version, shaderc_profile profile);

 // To support file inclusion, libshaderc invokes a callback into its client to
 // resolve the full path and content of the included file.
 // The client callback should follow the specified function signature below, and
 // it should be passed to libshaderc through the corresponding setter function.
 // When the including of a file is done, libshaderc will call another client
 // callback to clean up the resources used for the including process. The client
 // should implement the clean up method and pass it to libshaderc together with
 // the response method.

 // The struct that contains the information to be returned to the libshaderc.
 // The client-side implemented response method should return a pointer of this
 // struct. The underlying data is owned by client code.
 struct shaderc_includer_response {
   const char* path;
   size_t path_length;
   const char* content;
   size_t content_length;
 };

 // The function signature of the client-side implemented response method. It
 // returns a pointer to shaderc_includer_response struct.
 typedef shaderc_includer_response* (*shaderc_includer_response_get_fn)(
     void* user_data, const char* filename);

 // The function signature of the client-side implemented clean-up method.
 // Includer will call this callback function when the including process is done
 // with the fullpath and content data.
 typedef void (*shaderc_includer_response_release_fn)(
     void* user_data, shaderc_includer_response* data);

 // Sets the callback functions for the includer. When the includer queries for
 // the full path and content of a file, client's method will be called to
 // response. And when the query is done, client will be notified to clean up.
 // TODO: File inclusion needs to be context-aware.
 // e.g.
 //  In file: /path/to/main_shader.vert:
 //  #include "include/a"
 //  In file: /path/to/include/a":
 //  #include "b"
 //  When compiling /path/to/main_shader.vert, the compiler should be able to
 //  go to /path/to/include/b to find the file b.
 //  This needs context info from compiler to client includer, and may needs
 //  interface changes.
 void shaderc_compile_options_set_includer_callbacks(
     shaderc_compile_options_t options, shaderc_includer_response_get_fn getter,
     shaderc_includer_response_release_fn releasor, void* user_data);

 // Sets the compiler mode to do only preprocessing. The byte array result in the
 // module returned by the compilation is the text of the preprocessed shader.
 // This option overrides all other compilation modes, such as disassembly mode
 // and the default mode of compilation to SPIR-V binary.
 void shaderc_compile_options_set_preprocessing_only_mode(
     shaderc_compile_options_t options);

 // Sets the compiler mode to suppress warnings, overriding warnings-as-errors
 // mode. When both suppress-warnings and warnings-as-errors modes are
 // turned on, warning messages will be inhibited, and will not be emitted
 // as error messages.
 void shaderc_compile_options_set_suppress_warnings(
     shaderc_compile_options_t options);

 // Sets the target shader environment, affecting which warnings or errors will
 // be issued.  The version will be for distinguishing between different versions
 // of the target environment.  "0" is the only supported version at this point
 void shaderc_compile_options_set_target_env(shaderc_compile_options_t options,
                                             shaderc_target_env target,
                                             uint32_t version);

 // Sets the compiler mode to treat all warnings as errors. Note the
 // suppress-warnings mode overrides this option, i.e. if both
 // warning-as-errors and suppress-warnings modes are set, warnings will not
 // be emitted as error messages.
 void shaderc_compile_options_set_warnings_as_errors(
     shaderc_compile_options_t options);

 // An opaque handle to the results of a call to shaderc_compile_into_spv().
 typedef struct shaderc_spv_module* shaderc_spv_module_t;

 // Takes a GLSL source string and the associated shader kind, input file
 // name, compiles it according to the given additional_options. If the shader
 // kind is not set to a specified kind, but shaderc_glslc_infer_from_source,
 // the compiler will try to deduce the shader kind from the source
 // string and a failure in deducing will generate an error. Currently only
 // #pragma annotation is supported. If the shader kind is set to one of the
 // default shader kinds, the compiler will fall back to the default shader
 // kind in case it failed to deduce the shader kind from source string.
 // The input_file_name is a null-termintated string. It is used as a tag to
 // identify the source string in cases like emitting error messages. It
 // doesn't have to be a 'file name'.
 // By default the source string will be compiled into SPIR-V binary
 // and a shaderc_spv_module will be returned to hold the results of the
 // compilation. When disassembly mode or preprocessing only mode is enabled
 // in the additional_options, the source string will be compiled into char
 // strings and held by the returned shaderc_spv_module.  The entry_point_name
 // null-terminated string defines the name of the entry point to associate
 // with this GLSL source. If the additional_options parameter is not NULL,
 // then the compilation is modified by any options present. May be safely
 // called from multiple threads without explicit synchronization. If there
 // was failure in allocating the compiler object NULL will be returned.
 shaderc_spv_module_t shaderc_compile_into_spv(
     const shaderc_compiler_t compiler, const char* source_text,
     size_t source_text_size, shaderc_shader_kind shader_kind,
     const char* input_file_name, const char* entry_point_name,
     const shaderc_compile_options_t additional_options);

 // The following functions, operating on shaderc_spv_module_t objects, offer
 // only the basic thread-safety guarantee.

 // Releases the resources held by module.  It is invalid to use module for any
 // further operations.
 void shaderc_module_release(shaderc_spv_module_t module);

 // Returns true if the result in module was a successful compilation.
 bool shaderc_module_get_success(const shaderc_spv_module_t module);

 // Returns the number of bytes in a SPIR-V module result string. When the module
 // is compiled with disassembly mode or preprocessing only mode, the result
 // string is a char string. Otherwise, the result string is binary string.
 size_t shaderc_module_get_length(const shaderc_spv_module_t module);

 // Returns the number of warnings generated during the compilation.
 size_t shaderc_module_get_num_warnings(const shaderc_spv_module_t module);

 // Returns the number of errors generated during the compilation.
 size_t shaderc_module_get_num_errors(const shaderc_spv_module_t module);

 // Returns the compilation status, indicating whether the compilation succeeded,
 // or failed due to some reasons, like invalid shader stage or compilation
 // errors.
 shaderc_compilation_status shaderc_module_get_compilation_status(
     const shaderc_spv_module_t);

 // Returns a pointer to the start of the SPIR-V bytes, either SPIR-V binary or
 // char string. When the source string is compiled into SPIR-V binary, this is
 // guaranteed to be castable to a uint32_t*. If the source string is compiled in
 // disassembly mode or preprocessing only mode, the pointer will point to the
 // result char string.
 const char* shaderc_module_get_bytes(const shaderc_spv_module_t module);

 // Returns a null-terminated string that contains any error messages generated
 // during the compilation.
 const char* shaderc_module_get_error_message(const shaderc_spv_module_t module);

 // Provides the version & revision of the SPIR-V which will be produced
 void shaderc_get_spv_version(unsigned int* version, unsigned int* revision);

 // Parses the version and profile from a given null-terminated string
 // containing both version and profile, like: '450core'. Returns false if
 // the string can not be parsed. Returns true when the parsing succeeds. The
 // parsed version and profile are returned through arguments.
 bool shaderc_parse_version_profile(const char* str, int* version,
                                    shaderc_profile* profile);

 #ifdef __cplusplus
 }
 #endif  // __cplusplus

 #endif  // SHADERC_H_
	// Copyright 2015 The Shaderc Authors. All rights reserved.
	//
	// 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.

	#ifndef SHADERC_H_
	#define SHADERC_H_

	#ifdef __cplusplus
	extern "C" {
	#endif

	#include <stdbool.h>
	#include <stddef.h>
	#include <stdint.h>

	typedef enum {
	// Forced shader kinds. These shader kinds force the compiler to compile the
	// source code as the specified kind of shader.
	shaderc_glsl_vertex_shader,
	shaderc_glsl_fragment_shader,
	shaderc_glsl_compute_shader,
	shaderc_glsl_geometry_shader,
	shaderc_glsl_tess_control_shader,
	shaderc_glsl_tess_evaluation_shader,
	// Deduce the shader kind from #pragma annotation in the source code. Compiler
	// will emit error if #pragma annotation is not found.
	shaderc_glsl_infer_from_source,
	// Default shader kinds. Compiler will fall back to compile the source code as
	// the specified kind of shader when #pragma annotation is not found in the
	// source code.
	shaderc_glsl_default_vertex_shader,
	shaderc_glsl_default_fragment_shader,
	shaderc_glsl_default_compute_shader,
	shaderc_glsl_default_geometry_shader,
	shaderc_glsl_default_tess_control_shader,
	shaderc_glsl_default_tess_evaluation_shader,
	} shaderc_shader_kind;

	typedef enum {
	shaderc_target_env_vulkan, // create SPIR-V under Vulkan semantics
	shaderc_target_env_opengl, // create SPIR-V under OpenGL semantics
	shaderc_target_env_opengl_compat, // create SPIR-V under OpenGL semantics,
	// including compatibility profile
	// functions
	shaderc_target_env_default = shaderc_target_env_vulkan
	} shaderc_target_env;

	typedef enum {
	shaderc_profile_none, // Used if and only if GLSL version did not specify
	// profiles.
	shaderc_profile_core,
	shaderc_profile_compatibility,
	shaderc_profile_es,
	} shaderc_profile;

	// Used in the result module (shaderc_spv_module) to indicate the status of an
	// compilation.
	typedef enum {
	shaderc_compilation_status_success = 0,
	shaderc_compilation_status_invalid_stage, // error stage deduction
	shaderc_compilation_status_compilation_error,
	shaderc_compilation_status_internal_error, // unexpected failure
	shaderc_compilation_status_null_result_module,
	} shaderc_compilation_status;

	// Usage examples:
	//
	// Aggressively release compiler resources, but spend time in initialization
	// for each new use.
	// shaderc_compiler_t compiler = shaderc_compiler_initialize();
	// shader_spv_module_t module = shaderc_compile_into_spv(compiler,
	// "int main() {}", 13, shaderc_glsl_vertex_shader, "main");
	// // Do stuff with module compilation results.
	// shaderc_module_release(module);
	// shaderc_compiler_release(compiler);
	//
	// Keep the compiler object around for a long time, but pay for extra space
	// occupied.
	// shaderc_compiler_t compiler = shaderc_compiler_initialize();
	// // On the same, other or multiple simultaneous threads.
	// shader_spv_module_t module = shaderc_compile_into_spv(compiler,
	// "int main() {}", 13, shaderc_glsl_vertex_shader, "main");
	// // Do stuff with module compilation results.
	// shaderc_module_release(module);
	// // Once no more compilations are to happen.
	// shaderc_compiler_release(compiler);

	// An opaque handle to an object that manages all compiler state.
	typedef struct shaderc_compiler* shaderc_compiler_t;

	// Returns a shaderc_compiler_t that can be used to compile modules.
	// A return of NULL indicates that there was an error initializing the compiler.
	// Any function operating on shaderc_compiler_t must offer the basic
	// thread-safety guarantee.
	// [http://herbsutter.com/2014/01/13/gotw-95-solution-thread-safety-and-synchronization/]
	// That is: concurrent invocation of these functions on DIFFERENT objects needs
	// no synchronization; concurrent invocation of these functions on the SAME
	// object requires synchronization IF AND ONLY IF some of them take a non-const
	// argument.
	shaderc_compiler_t shaderc_compiler_initialize(void);

	// Releases the resources held by the shaderc_compiler_t.
	// After this call it is invalid to make any future calls to functions
	// involving this shaderc_compiler_t.
	void shaderc_compiler_release(shaderc_compiler_t);

	// An opaque handle to an object that manages options to a single compilation
	// result.
	typedef struct shaderc_compile_options* shaderc_compile_options_t;

	// Returns a default-initialized shaderc_compile_options_t that can be used
	// to modify the functionality of a compiled module.
	// A return of NULL indicates that there was an error initializing the options.
	// Any function operating on shaderc_compile_options_t must offer the
	// basic thread-safety guarantee.
	shaderc_compile_options_t shaderc_compile_options_initialize(void);

	// Returns a copy of the given shaderc_compile_options_t.
	// If NULL is passed as the parameter the call is the same as
	// shaderc_compile_options_init.
	shaderc_compile_options_t shaderc_compile_options_clone(
	const shaderc_compile_options_t options);

	// Releases the compilation options. It is invalid to use the given
	// shaderc_compile_options_t object in any future calls. It is safe to pass
	// NULL to this function, and doing such will have no effect.
	void shaderc_compile_options_release(shaderc_compile_options_t options);

	// Adds a predefined macro to the compilation options. This has the
	// same effect as passing -Dname=value to the command-line compiler.
	// If value is NULL, it has the effect same as passing -Dname to the
	// command-line compiler. If a macro definition with the same name has
	// previously been added, the value is replaced with the new value.
	// The null-terminated strings that the name and value parameters point to
	// must remain valid for the duration of the call, but can be modified or
	// deleted after this function has returned.
	void shaderc_compile_options_add_macro_definition(
	shaderc_compile_options_t options, const char* name, const char* value);

	// Sets the compiler mode to generate debug information in the output.
	void shaderc_compile_options_set_generate_debug_info(
	shaderc_compile_options_t options);

	// Sets the compiler mode to emit a disassembly text instead of a binary. In
	// this mode, the byte array result in the shaderc_spv_module returned
	// from shaderc_compile_into_spv() will consist of SPIR-V assembly text.
	// Note the preprocessing only mode overrides this option, and this option
	// overrides the default mode generating a SPIR-V binary.
	void shaderc_compile_options_set_disassembly_mode(
	shaderc_compile_options_t options);

	// Forces the GLSL language version and profile to a given pair. The version
	// number is the same as would appear in the #version annotation in the source.
	// Version and profile specified here overrides the #version annotation in the
	// source. Use profile: 'shaderc_profile_none' for GLSL versions that do not
	// define profiles, e.g. versions below 150.
	void shaderc_compile_options_set_forced_version_profile(
	shaderc_compile_options_t options, int version, shaderc_profile profile);

	// To support file inclusion, libshaderc invokes a callback into its client to
	// resolve the full path and content of the included file.
	// The client callback should follow the specified function signature below, and
	// it should be passed to libshaderc through the corresponding setter function.
	// When the including of a file is done, libshaderc will call another client
	// callback to clean up the resources used for the including process. The client
	// should implement the clean up method and pass it to libshaderc together with
	// the response method.

	// The struct that contains the information to be returned to the libshaderc.
	// The client-side implemented response method should return a pointer of this
	// struct. The underlying data is owned by client code.
	struct shaderc_includer_response {
	const char* path;
	size_t path_length;
	const char* content;
	size_t content_length;
	};

	// The function signature of the client-side implemented response method. It
	// returns a pointer to shaderc_includer_response struct.
	typedef shaderc_includer_response* (*shaderc_includer_response_get_fn)(
	void* user_data, const char* filename);

	// The function signature of the client-side implemented clean-up method.
	// Includer will call this callback function when the including process is done
	// with the fullpath and content data.
	typedef void (*shaderc_includer_response_release_fn)(
	void* user_data, shaderc_includer_response* data);

	// Sets the callback functions for the includer. When the includer queries for
	// the full path and content of a file, client's method will be called to
	// response. And when the query is done, client will be notified to clean up.
	// TODO: File inclusion needs to be context-aware.
	// e.g.
	// In file: /path/to/main_shader.vert:
	// #include "include/a"
	// In file: /path/to/include/a":
	// #include "b"
	// When compiling /path/to/main_shader.vert, the compiler should be able to
	// go to /path/to/include/b to find the file b.
	// This needs context info from compiler to client includer, and may needs
	// interface changes.
	void shaderc_compile_options_set_includer_callbacks(
	shaderc_compile_options_t options, shaderc_includer_response_get_fn getter,
	shaderc_includer_response_release_fn releasor, void* user_data);

	// Sets the compiler mode to do only preprocessing. The byte array result in the
	// module returned by the compilation is the text of the preprocessed shader.
	// This option overrides all other compilation modes, such as disassembly mode
	// and the default mode of compilation to SPIR-V binary.
	void shaderc_compile_options_set_preprocessing_only_mode(
	shaderc_compile_options_t options);

	// Sets the compiler mode to suppress warnings, overriding warnings-as-errors
	// mode. When both suppress-warnings and warnings-as-errors modes are
	// turned on, warning messages will be inhibited, and will not be emitted
	// as error messages.
	void shaderc_compile_options_set_suppress_warnings(
	shaderc_compile_options_t options);

	// Sets the target shader environment, affecting which warnings or errors will
	// be issued. The version will be for distinguishing between different versions
	// of the target environment. "0" is the only supported version at this point
	void shaderc_compile_options_set_target_env(shaderc_compile_options_t options,
	shaderc_target_env target,
	uint32_t version);

	// Sets the compiler mode to treat all warnings as errors. Note the
	// suppress-warnings mode overrides this option, i.e. if both
	// warning-as-errors and suppress-warnings modes are set, warnings will not
	// be emitted as error messages.
	void shaderc_compile_options_set_warnings_as_errors(
	shaderc_compile_options_t options);

	// An opaque handle to the results of a call to shaderc_compile_into_spv().
	typedef struct shaderc_spv_module* shaderc_spv_module_t;

	// Takes a GLSL source string and the associated shader kind, input file
	// name, compiles it according to the given additional_options. If the shader
	// kind is not set to a specified kind, but shaderc_glslc_infer_from_source,
	// the compiler will try to deduce the shader kind from the source
	// string and a failure in deducing will generate an error. Currently only
	// #pragma annotation is supported. If the shader kind is set to one of the
	// default shader kinds, the compiler will fall back to the default shader
	// kind in case it failed to deduce the shader kind from source string.
	// The input_file_name is a null-termintated string. It is used as a tag to
	// identify the source string in cases like emitting error messages. It
	// doesn't have to be a 'file name'.
	// By default the source string will be compiled into SPIR-V binary
	// and a shaderc_spv_module will be returned to hold the results of the
	// compilation. When disassembly mode or preprocessing only mode is enabled
	// in the additional_options, the source string will be compiled into char
	// strings and held by the returned shaderc_spv_module. The entry_point_name
	// null-terminated string defines the name of the entry point to associate
	// with this GLSL source. If the additional_options parameter is not NULL,
	// then the compilation is modified by any options present. May be safely
	// called from multiple threads without explicit synchronization. If there
	// was failure in allocating the compiler object NULL will be returned.
	shaderc_spv_module_t shaderc_compile_into_spv(
	const shaderc_compiler_t compiler, const char* source_text,
	size_t source_text_size, shaderc_shader_kind shader_kind,
	const char* input_file_name, const char* entry_point_name,
	const shaderc_compile_options_t additional_options);

	// The following functions, operating on shaderc_spv_module_t objects, offer
	// only the basic thread-safety guarantee.

	// Releases the resources held by module. It is invalid to use module for any
	// further operations.
	void shaderc_module_release(shaderc_spv_module_t module);

	// Returns true if the result in module was a successful compilation.
	bool shaderc_module_get_success(const shaderc_spv_module_t module);

	// Returns the number of bytes in a SPIR-V module result string. When the module
	// is compiled with disassembly mode or preprocessing only mode, the result
	// string is a char string. Otherwise, the result string is binary string.
	size_t shaderc_module_get_length(const shaderc_spv_module_t module);

	// Returns the number of warnings generated during the compilation.
	size_t shaderc_module_get_num_warnings(const shaderc_spv_module_t module);

	// Returns the number of errors generated during the compilation.
	size_t shaderc_module_get_num_errors(const shaderc_spv_module_t module);

	// Returns the compilation status, indicating whether the compilation succeeded,
	// or failed due to some reasons, like invalid shader stage or compilation
	// errors.
	shaderc_compilation_status shaderc_module_get_compilation_status(
	const shaderc_spv_module_t);

	// Returns a pointer to the start of the SPIR-V bytes, either SPIR-V binary or
	// char string. When the source string is compiled into SPIR-V binary, this is
	// guaranteed to be castable to a uint32_t*. If the source string is compiled in
	// disassembly mode or preprocessing only mode, the pointer will point to the
	// result char string.
	const char* shaderc_module_get_bytes(const shaderc_spv_module_t module);

	// Returns a null-terminated string that contains any error messages generated
	// during the compilation.
	const char* shaderc_module_get_error_message(const shaderc_spv_module_t module);

	// Provides the version & revision of the SPIR-V which will be produced
	void shaderc_get_spv_version(unsigned int* version, unsigned int* revision);

	// Parses the version and profile from a given null-terminated string
	// containing both version and profile, like: '450core'. Returns false if
	// the string can not be parsed. Returns true when the parsing succeeds. The
	// parsed version and profile are returned through arguments.
	bool shaderc_parse_version_profile(const char* str, int* version,
	shaderc_profile* profile);

	#ifdef __cplusplus
	}
	#endif // __cplusplus

	#endif // SHADERC_H_