mirror of
https://github.com/KhronosGroup/SPIRV-Tools
synced 2024-12-25 17:21:06 +00:00
50300450af
* Generate ext inst table for reflection * Change build to use grammar files from SPIRV-Headers instead of SPIRV-Tools * Add enum for clspv reflection extended instruction set * count it as non-semantic * validate clspv reflection extended instruction set * Remove local extended inst sets * update headers deps * Update nbuilds to use grammars from SPIRV-Headers instead of local duplicates
844 lines
38 KiB
C
844 lines
38 KiB
C
// Copyright (c) 2015-2020 The Khronos Group Inc.
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// Modifications Copyright (C) 2020 Advanced Micro Devices, Inc. All rights
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// reserved.
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//
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// Licensed under the Apache License, Version 2.0 (the "License");
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// you may not use this file except in compliance with the License.
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// You may obtain a copy of the License at
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//
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// http://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing, software
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// distributed under the License is distributed on an "AS IS" BASIS,
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// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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// See the License for the specific language governing permissions and
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// limitations under the License.
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#ifndef INCLUDE_SPIRV_TOOLS_LIBSPIRV_H_
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#define INCLUDE_SPIRV_TOOLS_LIBSPIRV_H_
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#ifdef __cplusplus
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extern "C" {
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#else
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#include <stdbool.h>
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#endif
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#include <stddef.h>
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#include <stdint.h>
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#if defined(SPIRV_TOOLS_SHAREDLIB)
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#if defined(_WIN32)
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#if defined(SPIRV_TOOLS_IMPLEMENTATION)
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#define SPIRV_TOOLS_EXPORT __declspec(dllexport)
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#else
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#define SPIRV_TOOLS_EXPORT __declspec(dllimport)
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#endif
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#else
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#if defined(SPIRV_TOOLS_IMPLEMENTATION)
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#define SPIRV_TOOLS_EXPORT __attribute__((visibility("default")))
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#else
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#define SPIRV_TOOLS_EXPORT
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#endif
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#endif
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#else
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#define SPIRV_TOOLS_EXPORT
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#endif
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// Helpers
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#define SPV_BIT(shift) (1 << (shift))
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#define SPV_FORCE_16_BIT_ENUM(name) SPV_FORCE_16BIT_##name = 0x7fff
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#define SPV_FORCE_32_BIT_ENUM(name) SPV_FORCE_32BIT_##name = 0x7fffffff
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// Enumerations
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typedef enum spv_result_t {
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SPV_SUCCESS = 0,
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SPV_UNSUPPORTED = 1,
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SPV_END_OF_STREAM = 2,
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SPV_WARNING = 3,
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SPV_FAILED_MATCH = 4,
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SPV_REQUESTED_TERMINATION = 5, // Success, but signals early termination.
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SPV_ERROR_INTERNAL = -1,
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SPV_ERROR_OUT_OF_MEMORY = -2,
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SPV_ERROR_INVALID_POINTER = -3,
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SPV_ERROR_INVALID_BINARY = -4,
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SPV_ERROR_INVALID_TEXT = -5,
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SPV_ERROR_INVALID_TABLE = -6,
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SPV_ERROR_INVALID_VALUE = -7,
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SPV_ERROR_INVALID_DIAGNOSTIC = -8,
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SPV_ERROR_INVALID_LOOKUP = -9,
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SPV_ERROR_INVALID_ID = -10,
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SPV_ERROR_INVALID_CFG = -11,
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SPV_ERROR_INVALID_LAYOUT = -12,
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SPV_ERROR_INVALID_CAPABILITY = -13,
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SPV_ERROR_INVALID_DATA = -14, // Indicates data rules validation failure.
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SPV_ERROR_MISSING_EXTENSION = -15,
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SPV_ERROR_WRONG_VERSION = -16, // Indicates wrong SPIR-V version
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SPV_FORCE_32_BIT_ENUM(spv_result_t)
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} spv_result_t;
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// Severity levels of messages communicated to the consumer.
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typedef enum spv_message_level_t {
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SPV_MSG_FATAL, // Unrecoverable error due to environment.
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// Will exit the program immediately. E.g.,
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// out of memory.
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SPV_MSG_INTERNAL_ERROR, // Unrecoverable error due to SPIRV-Tools
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// internals.
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// Will exit the program immediately. E.g.,
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// unimplemented feature.
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SPV_MSG_ERROR, // Normal error due to user input.
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SPV_MSG_WARNING, // Warning information.
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SPV_MSG_INFO, // General information.
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SPV_MSG_DEBUG, // Debug information.
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} spv_message_level_t;
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typedef enum spv_endianness_t {
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SPV_ENDIANNESS_LITTLE,
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SPV_ENDIANNESS_BIG,
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SPV_FORCE_32_BIT_ENUM(spv_endianness_t)
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} spv_endianness_t;
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// The kinds of operands that an instruction may have.
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//
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// Some operand types are "concrete". The binary parser uses a concrete
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// operand type to describe an operand of a parsed instruction.
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//
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// The assembler uses all operand types. In addition to determining what
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// kind of value an operand may be, non-concrete operand types capture the
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// fact that an operand might be optional (may be absent, or present exactly
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// once), or might occur zero or more times.
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//
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// Sometimes we also need to be able to express the fact that an operand
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// is a member of an optional tuple of values. In that case the first member
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// would be optional, and the subsequent members would be required.
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typedef enum spv_operand_type_t {
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// A sentinel value.
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SPV_OPERAND_TYPE_NONE = 0,
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// Set 1: Operands that are IDs.
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SPV_OPERAND_TYPE_ID,
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SPV_OPERAND_TYPE_TYPE_ID,
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SPV_OPERAND_TYPE_RESULT_ID,
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SPV_OPERAND_TYPE_MEMORY_SEMANTICS_ID, // SPIR-V Sec 3.25
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SPV_OPERAND_TYPE_SCOPE_ID, // SPIR-V Sec 3.27
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// Set 2: Operands that are literal numbers.
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SPV_OPERAND_TYPE_LITERAL_INTEGER, // Always unsigned 32-bits.
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// The Instruction argument to OpExtInst. It's an unsigned 32-bit literal
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// number indicating which instruction to use from an extended instruction
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// set.
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SPV_OPERAND_TYPE_EXTENSION_INSTRUCTION_NUMBER,
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// The Opcode argument to OpSpecConstantOp. It determines the operation
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// to be performed on constant operands to compute a specialization constant
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// result.
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SPV_OPERAND_TYPE_SPEC_CONSTANT_OP_NUMBER,
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// A literal number whose format and size are determined by a previous operand
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// in the same instruction. It's a signed integer, an unsigned integer, or a
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// floating point number. It also has a specified bit width. The width
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// may be larger than 32, which would require such a typed literal value to
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// occupy multiple SPIR-V words.
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SPV_OPERAND_TYPE_TYPED_LITERAL_NUMBER,
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// Set 3: The literal string operand type.
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SPV_OPERAND_TYPE_LITERAL_STRING,
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// Set 4: Operands that are a single word enumerated value.
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SPV_OPERAND_TYPE_SOURCE_LANGUAGE, // SPIR-V Sec 3.2
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SPV_OPERAND_TYPE_EXECUTION_MODEL, // SPIR-V Sec 3.3
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SPV_OPERAND_TYPE_ADDRESSING_MODEL, // SPIR-V Sec 3.4
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SPV_OPERAND_TYPE_MEMORY_MODEL, // SPIR-V Sec 3.5
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SPV_OPERAND_TYPE_EXECUTION_MODE, // SPIR-V Sec 3.6
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SPV_OPERAND_TYPE_STORAGE_CLASS, // SPIR-V Sec 3.7
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SPV_OPERAND_TYPE_DIMENSIONALITY, // SPIR-V Sec 3.8
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SPV_OPERAND_TYPE_SAMPLER_ADDRESSING_MODE, // SPIR-V Sec 3.9
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SPV_OPERAND_TYPE_SAMPLER_FILTER_MODE, // SPIR-V Sec 3.10
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SPV_OPERAND_TYPE_SAMPLER_IMAGE_FORMAT, // SPIR-V Sec 3.11
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SPV_OPERAND_TYPE_IMAGE_CHANNEL_ORDER, // SPIR-V Sec 3.12
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SPV_OPERAND_TYPE_IMAGE_CHANNEL_DATA_TYPE, // SPIR-V Sec 3.13
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SPV_OPERAND_TYPE_FP_ROUNDING_MODE, // SPIR-V Sec 3.16
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SPV_OPERAND_TYPE_LINKAGE_TYPE, // SPIR-V Sec 3.17
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SPV_OPERAND_TYPE_ACCESS_QUALIFIER, // SPIR-V Sec 3.18
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SPV_OPERAND_TYPE_FUNCTION_PARAMETER_ATTRIBUTE, // SPIR-V Sec 3.19
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SPV_OPERAND_TYPE_DECORATION, // SPIR-V Sec 3.20
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SPV_OPERAND_TYPE_BUILT_IN, // SPIR-V Sec 3.21
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SPV_OPERAND_TYPE_GROUP_OPERATION, // SPIR-V Sec 3.28
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SPV_OPERAND_TYPE_KERNEL_ENQ_FLAGS, // SPIR-V Sec 3.29
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SPV_OPERAND_TYPE_KERNEL_PROFILING_INFO, // SPIR-V Sec 3.30
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SPV_OPERAND_TYPE_CAPABILITY, // SPIR-V Sec 3.31
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SPV_OPERAND_TYPE_RAY_FLAGS, // SPIR-V Sec 3.RF
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SPV_OPERAND_TYPE_RAY_QUERY_INTERSECTION, // SPIR-V Sec 3.RQIntersection
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SPV_OPERAND_TYPE_RAY_QUERY_COMMITTED_INTERSECTION_TYPE, // SPIR-V Sec
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// 3.RQCommitted
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SPV_OPERAND_TYPE_RAY_QUERY_CANDIDATE_INTERSECTION_TYPE, // SPIR-V Sec
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// 3.RQCandidate
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// Set 5: Operands that are a single word bitmask.
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// Sometimes a set bit indicates the instruction requires still more operands.
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SPV_OPERAND_TYPE_IMAGE, // SPIR-V Sec 3.14
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SPV_OPERAND_TYPE_FP_FAST_MATH_MODE, // SPIR-V Sec 3.15
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SPV_OPERAND_TYPE_SELECTION_CONTROL, // SPIR-V Sec 3.22
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SPV_OPERAND_TYPE_LOOP_CONTROL, // SPIR-V Sec 3.23
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SPV_OPERAND_TYPE_FUNCTION_CONTROL, // SPIR-V Sec 3.24
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SPV_OPERAND_TYPE_MEMORY_ACCESS, // SPIR-V Sec 3.26
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// The remaining operand types are only used internally by the assembler.
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// There are two categories:
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// Optional : expands to 0 or 1 operand, like ? in regular expressions.
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// Variable : expands to 0, 1 or many operands or pairs of operands.
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// This is similar to * in regular expressions.
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// NOTE: These FIRST_* and LAST_* enum values are DEPRECATED.
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// The concept of "optional" and "variable" operand types are only intended
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// for use as an implementation detail of parsing SPIR-V, either in text or
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// binary form. Instead of using enum ranges, use characteristic function
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// spvOperandIsConcrete.
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// The use of enum value ranges in a public API makes it difficult to insert
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// new values into a range without also breaking binary compatibility.
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//
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// Macros for defining bounds on optional and variable operand types.
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// Any variable operand type is also optional.
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// TODO(dneto): Remove SPV_OPERAND_TYPE_FIRST_* and SPV_OPERAND_TYPE_LAST_*
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#define FIRST_OPTIONAL(ENUM) ENUM, SPV_OPERAND_TYPE_FIRST_OPTIONAL_TYPE = ENUM
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#define FIRST_VARIABLE(ENUM) ENUM, SPV_OPERAND_TYPE_FIRST_VARIABLE_TYPE = ENUM
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#define LAST_VARIABLE(ENUM) \
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ENUM, SPV_OPERAND_TYPE_LAST_VARIABLE_TYPE = ENUM, \
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SPV_OPERAND_TYPE_LAST_OPTIONAL_TYPE = ENUM
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// An optional operand represents zero or one logical operands.
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// In an instruction definition, this may only appear at the end of the
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// operand types.
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FIRST_OPTIONAL(SPV_OPERAND_TYPE_OPTIONAL_ID),
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// An optional image operand type.
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SPV_OPERAND_TYPE_OPTIONAL_IMAGE,
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// An optional memory access type.
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SPV_OPERAND_TYPE_OPTIONAL_MEMORY_ACCESS,
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// An optional literal integer.
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SPV_OPERAND_TYPE_OPTIONAL_LITERAL_INTEGER,
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// An optional literal number, which may be either integer or floating point.
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SPV_OPERAND_TYPE_OPTIONAL_LITERAL_NUMBER,
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// Like SPV_OPERAND_TYPE_TYPED_LITERAL_NUMBER, but optional, and integral.
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SPV_OPERAND_TYPE_OPTIONAL_TYPED_LITERAL_INTEGER,
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// An optional literal string.
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SPV_OPERAND_TYPE_OPTIONAL_LITERAL_STRING,
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// An optional access qualifier
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SPV_OPERAND_TYPE_OPTIONAL_ACCESS_QUALIFIER,
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// An optional context-independent value, or CIV. CIVs are tokens that we can
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// assemble regardless of where they occur -- literals, IDs, immediate
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// integers, etc.
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SPV_OPERAND_TYPE_OPTIONAL_CIV,
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// A variable operand represents zero or more logical operands.
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// In an instruction definition, this may only appear at the end of the
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// operand types.
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FIRST_VARIABLE(SPV_OPERAND_TYPE_VARIABLE_ID),
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SPV_OPERAND_TYPE_VARIABLE_LITERAL_INTEGER,
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// A sequence of zero or more pairs of (typed literal integer, Id).
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// Expands to zero or more:
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// (SPV_OPERAND_TYPE_TYPED_LITERAL_INTEGER, SPV_OPERAND_TYPE_ID)
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// where the literal number must always be an integer of some sort.
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SPV_OPERAND_TYPE_VARIABLE_LITERAL_INTEGER_ID,
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// A sequence of zero or more pairs of (Id, Literal integer)
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LAST_VARIABLE(SPV_OPERAND_TYPE_VARIABLE_ID_LITERAL_INTEGER),
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// The following are concrete enum types from the DebugInfo extended
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// instruction set.
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SPV_OPERAND_TYPE_DEBUG_INFO_FLAGS, // DebugInfo Sec 3.2. A mask.
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SPV_OPERAND_TYPE_DEBUG_BASE_TYPE_ATTRIBUTE_ENCODING, // DebugInfo Sec 3.3
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SPV_OPERAND_TYPE_DEBUG_COMPOSITE_TYPE, // DebugInfo Sec 3.4
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SPV_OPERAND_TYPE_DEBUG_TYPE_QUALIFIER, // DebugInfo Sec 3.5
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SPV_OPERAND_TYPE_DEBUG_OPERATION, // DebugInfo Sec 3.6
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// The following are concrete enum types from the OpenCL.DebugInfo.100
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// extended instruction set.
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SPV_OPERAND_TYPE_CLDEBUG100_DEBUG_INFO_FLAGS, // Sec 3.2. A Mask
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SPV_OPERAND_TYPE_CLDEBUG100_DEBUG_BASE_TYPE_ATTRIBUTE_ENCODING, // Sec 3.3
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SPV_OPERAND_TYPE_CLDEBUG100_DEBUG_COMPOSITE_TYPE, // Sec 3.4
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SPV_OPERAND_TYPE_CLDEBUG100_DEBUG_TYPE_QUALIFIER, // Sec 3.5
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SPV_OPERAND_TYPE_CLDEBUG100_DEBUG_OPERATION, // Sec 3.6
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SPV_OPERAND_TYPE_CLDEBUG100_DEBUG_IMPORTED_ENTITY, // Sec 3.7
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// This is a sentinel value, and does not represent an operand type.
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// It should come last.
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SPV_OPERAND_TYPE_NUM_OPERAND_TYPES,
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SPV_FORCE_32_BIT_ENUM(spv_operand_type_t)
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} spv_operand_type_t;
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// Returns true if the given type is concrete.
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bool spvOperandIsConcrete(spv_operand_type_t type);
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// Returns true if the given type is concrete and also a mask.
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bool spvOperandIsConcreteMask(spv_operand_type_t type);
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typedef enum spv_ext_inst_type_t {
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SPV_EXT_INST_TYPE_NONE = 0,
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SPV_EXT_INST_TYPE_GLSL_STD_450,
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SPV_EXT_INST_TYPE_OPENCL_STD,
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SPV_EXT_INST_TYPE_SPV_AMD_SHADER_EXPLICIT_VERTEX_PARAMETER,
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SPV_EXT_INST_TYPE_SPV_AMD_SHADER_TRINARY_MINMAX,
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SPV_EXT_INST_TYPE_SPV_AMD_GCN_SHADER,
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SPV_EXT_INST_TYPE_SPV_AMD_SHADER_BALLOT,
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SPV_EXT_INST_TYPE_DEBUGINFO,
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SPV_EXT_INST_TYPE_OPENCL_DEBUGINFO_100,
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SPV_EXT_INST_TYPE_NONSEMANTIC_CLSPVREFLECTION,
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// Multiple distinct extended instruction set types could return this
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// value, if they are prefixed with NonSemantic. and are otherwise
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// unrecognised
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SPV_EXT_INST_TYPE_NONSEMANTIC_UNKNOWN,
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SPV_FORCE_32_BIT_ENUM(spv_ext_inst_type_t)
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} spv_ext_inst_type_t;
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// This determines at a high level the kind of a binary-encoded literal
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// number, but not the bit width.
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// In principle, these could probably be folded into new entries in
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// spv_operand_type_t. But then we'd have some special case differences
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// between the assembler and disassembler.
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typedef enum spv_number_kind_t {
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SPV_NUMBER_NONE = 0, // The default for value initialization.
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SPV_NUMBER_UNSIGNED_INT,
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SPV_NUMBER_SIGNED_INT,
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SPV_NUMBER_FLOATING,
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} spv_number_kind_t;
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typedef enum spv_text_to_binary_options_t {
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SPV_TEXT_TO_BINARY_OPTION_NONE = SPV_BIT(0),
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// Numeric IDs in the binary will have the same values as in the source.
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// Non-numeric IDs are allocated by filling in the gaps, starting with 1
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// and going up.
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SPV_TEXT_TO_BINARY_OPTION_PRESERVE_NUMERIC_IDS = SPV_BIT(1),
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SPV_FORCE_32_BIT_ENUM(spv_text_to_binary_options_t)
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} spv_text_to_binary_options_t;
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typedef enum spv_binary_to_text_options_t {
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SPV_BINARY_TO_TEXT_OPTION_NONE = SPV_BIT(0),
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SPV_BINARY_TO_TEXT_OPTION_PRINT = SPV_BIT(1),
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SPV_BINARY_TO_TEXT_OPTION_COLOR = SPV_BIT(2),
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SPV_BINARY_TO_TEXT_OPTION_INDENT = SPV_BIT(3),
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SPV_BINARY_TO_TEXT_OPTION_SHOW_BYTE_OFFSET = SPV_BIT(4),
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// Do not output the module header as leading comments in the assembly.
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SPV_BINARY_TO_TEXT_OPTION_NO_HEADER = SPV_BIT(5),
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// Use friendly names where possible. The heuristic may expand over
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// time, but will use common names for scalar types, and debug names from
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// OpName instructions.
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SPV_BINARY_TO_TEXT_OPTION_FRIENDLY_NAMES = SPV_BIT(6),
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SPV_FORCE_32_BIT_ENUM(spv_binary_to_text_options_t)
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} spv_binary_to_text_options_t;
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// Constants
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// The default id bound is to the minimum value for the id limit
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// in the spir-v specification under the section "Universal Limits".
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const uint32_t kDefaultMaxIdBound = 0x3FFFFF;
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// Structures
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// Information about an operand parsed from a binary SPIR-V module.
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// Note that the values are not included. You still need access to the binary
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// to extract the values.
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typedef struct spv_parsed_operand_t {
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// Location of the operand, in words from the start of the instruction.
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uint16_t offset;
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// Number of words occupied by this operand.
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uint16_t num_words;
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// The "concrete" operand type. See the definition of spv_operand_type_t
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// for details.
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spv_operand_type_t type;
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// If type is a literal number type, then number_kind says whether it's
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// a signed integer, an unsigned integer, or a floating point number.
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spv_number_kind_t number_kind;
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// The number of bits for a literal number type.
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uint32_t number_bit_width;
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} spv_parsed_operand_t;
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// An instruction parsed from a binary SPIR-V module.
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typedef struct spv_parsed_instruction_t {
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// An array of words for this instruction, in native endianness.
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const uint32_t* words;
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// The number of words in this instruction.
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uint16_t num_words;
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uint16_t opcode;
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// The extended instruction type, if opcode is OpExtInst. Otherwise
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// this is the "none" value.
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spv_ext_inst_type_t ext_inst_type;
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// The type id, or 0 if this instruction doesn't have one.
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uint32_t type_id;
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// The result id, or 0 if this instruction doesn't have one.
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uint32_t result_id;
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// The array of parsed operands.
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const spv_parsed_operand_t* operands;
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uint16_t num_operands;
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} spv_parsed_instruction_t;
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typedef struct spv_const_binary_t {
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const uint32_t* code;
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const size_t wordCount;
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} spv_const_binary_t;
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typedef struct spv_binary_t {
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uint32_t* code;
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size_t wordCount;
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} spv_binary_t;
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typedef struct spv_text_t {
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const char* str;
|
|
size_t length;
|
|
} spv_text_t;
|
|
|
|
typedef struct spv_position_t {
|
|
size_t line;
|
|
size_t column;
|
|
size_t index;
|
|
} spv_position_t;
|
|
|
|
typedef struct spv_diagnostic_t {
|
|
spv_position_t position;
|
|
char* error;
|
|
bool isTextSource;
|
|
} spv_diagnostic_t;
|
|
|
|
// Opaque struct containing the context used to operate on a SPIR-V module.
|
|
// Its object is used by various translation API functions.
|
|
typedef struct spv_context_t spv_context_t;
|
|
|
|
typedef struct spv_validator_options_t spv_validator_options_t;
|
|
|
|
typedef struct spv_optimizer_options_t spv_optimizer_options_t;
|
|
|
|
typedef struct spv_reducer_options_t spv_reducer_options_t;
|
|
|
|
typedef struct spv_fuzzer_options_t spv_fuzzer_options_t;
|
|
|
|
// Type Definitions
|
|
|
|
typedef spv_const_binary_t* spv_const_binary;
|
|
typedef spv_binary_t* spv_binary;
|
|
typedef spv_text_t* spv_text;
|
|
typedef spv_position_t* spv_position;
|
|
typedef spv_diagnostic_t* spv_diagnostic;
|
|
typedef const spv_context_t* spv_const_context;
|
|
typedef spv_context_t* spv_context;
|
|
typedef spv_validator_options_t* spv_validator_options;
|
|
typedef const spv_validator_options_t* spv_const_validator_options;
|
|
typedef spv_optimizer_options_t* spv_optimizer_options;
|
|
typedef const spv_optimizer_options_t* spv_const_optimizer_options;
|
|
typedef spv_reducer_options_t* spv_reducer_options;
|
|
typedef const spv_reducer_options_t* spv_const_reducer_options;
|
|
typedef spv_fuzzer_options_t* spv_fuzzer_options;
|
|
typedef const spv_fuzzer_options_t* spv_const_fuzzer_options;
|
|
|
|
// Platform API
|
|
|
|
// Returns the SPIRV-Tools software version as a null-terminated string.
|
|
// The contents of the underlying storage is valid for the remainder of
|
|
// the process.
|
|
SPIRV_TOOLS_EXPORT const char* spvSoftwareVersionString(void);
|
|
// Returns a null-terminated string containing the name of the project,
|
|
// the software version string, and commit details.
|
|
// The contents of the underlying storage is valid for the remainder of
|
|
// the process.
|
|
SPIRV_TOOLS_EXPORT const char* spvSoftwareVersionDetailsString(void);
|
|
|
|
// Certain target environments impose additional restrictions on SPIR-V, so it's
|
|
// often necessary to specify which one applies. SPV_ENV_UNIVERSAL_* implies an
|
|
// environment-agnostic SPIR-V.
|
|
//
|
|
// When an API method needs to derive a SPIR-V version from a target environment
|
|
// (from the spv_context object), the method will choose the highest version of
|
|
// SPIR-V supported by the target environment. Examples:
|
|
// SPV_ENV_VULKAN_1_0 -> SPIR-V 1.0
|
|
// SPV_ENV_VULKAN_1_1 -> SPIR-V 1.3
|
|
// SPV_ENV_VULKAN_1_1_SPIRV_1_4 -> SPIR-V 1.4
|
|
// SPV_ENV_VULKAN_1_2 -> SPIR-V 1.5
|
|
// Consult the description of API entry points for specific rules.
|
|
typedef enum {
|
|
SPV_ENV_UNIVERSAL_1_0, // SPIR-V 1.0 latest revision, no other restrictions.
|
|
SPV_ENV_VULKAN_1_0, // Vulkan 1.0 latest revision.
|
|
SPV_ENV_UNIVERSAL_1_1, // SPIR-V 1.1 latest revision, no other restrictions.
|
|
SPV_ENV_OPENCL_2_1, // OpenCL Full Profile 2.1 latest revision.
|
|
SPV_ENV_OPENCL_2_2, // OpenCL Full Profile 2.2 latest revision.
|
|
SPV_ENV_OPENGL_4_0, // OpenGL 4.0 plus GL_ARB_gl_spirv, latest revisions.
|
|
SPV_ENV_OPENGL_4_1, // OpenGL 4.1 plus GL_ARB_gl_spirv, latest revisions.
|
|
SPV_ENV_OPENGL_4_2, // OpenGL 4.2 plus GL_ARB_gl_spirv, latest revisions.
|
|
SPV_ENV_OPENGL_4_3, // OpenGL 4.3 plus GL_ARB_gl_spirv, latest revisions.
|
|
// There is no variant for OpenGL 4.4.
|
|
SPV_ENV_OPENGL_4_5, // OpenGL 4.5 plus GL_ARB_gl_spirv, latest revisions.
|
|
SPV_ENV_UNIVERSAL_1_2, // SPIR-V 1.2, latest revision, no other restrictions.
|
|
SPV_ENV_OPENCL_1_2, // OpenCL Full Profile 1.2 plus cl_khr_il_program,
|
|
// latest revision.
|
|
SPV_ENV_OPENCL_EMBEDDED_1_2, // OpenCL Embedded Profile 1.2 plus
|
|
// cl_khr_il_program, latest revision.
|
|
SPV_ENV_OPENCL_2_0, // OpenCL Full Profile 2.0 plus cl_khr_il_program,
|
|
// latest revision.
|
|
SPV_ENV_OPENCL_EMBEDDED_2_0, // OpenCL Embedded Profile 2.0 plus
|
|
// cl_khr_il_program, latest revision.
|
|
SPV_ENV_OPENCL_EMBEDDED_2_1, // OpenCL Embedded Profile 2.1 latest revision.
|
|
SPV_ENV_OPENCL_EMBEDDED_2_2, // OpenCL Embedded Profile 2.2 latest revision.
|
|
SPV_ENV_UNIVERSAL_1_3, // SPIR-V 1.3 latest revision, no other restrictions.
|
|
SPV_ENV_VULKAN_1_1, // Vulkan 1.1 latest revision.
|
|
SPV_ENV_WEBGPU_0, // Work in progress WebGPU 1.0.
|
|
SPV_ENV_UNIVERSAL_1_4, // SPIR-V 1.4 latest revision, no other restrictions.
|
|
|
|
// Vulkan 1.1 with VK_KHR_spirv_1_4, i.e. SPIR-V 1.4 binary.
|
|
SPV_ENV_VULKAN_1_1_SPIRV_1_4,
|
|
|
|
SPV_ENV_UNIVERSAL_1_5, // SPIR-V 1.5 latest revision, no other restrictions.
|
|
SPV_ENV_VULKAN_1_2, // Vulkan 1.2 latest revision.
|
|
} spv_target_env;
|
|
|
|
// SPIR-V Validator can be parameterized with the following Universal Limits.
|
|
typedef enum {
|
|
spv_validator_limit_max_struct_members,
|
|
spv_validator_limit_max_struct_depth,
|
|
spv_validator_limit_max_local_variables,
|
|
spv_validator_limit_max_global_variables,
|
|
spv_validator_limit_max_switch_branches,
|
|
spv_validator_limit_max_function_args,
|
|
spv_validator_limit_max_control_flow_nesting_depth,
|
|
spv_validator_limit_max_access_chain_indexes,
|
|
spv_validator_limit_max_id_bound,
|
|
} spv_validator_limit;
|
|
|
|
// Returns a string describing the given SPIR-V target environment.
|
|
SPIRV_TOOLS_EXPORT const char* spvTargetEnvDescription(spv_target_env env);
|
|
|
|
// Parses s into *env and returns true if successful. If unparsable, returns
|
|
// false and sets *env to SPV_ENV_UNIVERSAL_1_0.
|
|
SPIRV_TOOLS_EXPORT bool spvParseTargetEnv(const char* s, spv_target_env* env);
|
|
|
|
// Determines the target env value with the least features but which enables
|
|
// the given Vulkan and SPIR-V versions. If such a target is supported, returns
|
|
// true and writes the value to |env|, otherwise returns false.
|
|
//
|
|
// The Vulkan version is given as an unsigned 32-bit number as specified in
|
|
// Vulkan section "29.2.1 Version Numbers": the major version number appears
|
|
// in bits 22 to 21, and the minor version is in bits 12 to 21. The SPIR-V
|
|
// version is given in the SPIR-V version header word: major version in bits
|
|
// 16 to 23, and minor version in bits 8 to 15.
|
|
SPIRV_TOOLS_EXPORT bool spvParseVulkanEnv(uint32_t vulkan_ver,
|
|
uint32_t spirv_ver,
|
|
spv_target_env* env);
|
|
|
|
// Creates a context object for most of the SPIRV-Tools API.
|
|
// Returns null if env is invalid.
|
|
//
|
|
// See specific API calls for how the target environment is interpeted
|
|
// (particularly assembly and validation).
|
|
SPIRV_TOOLS_EXPORT spv_context spvContextCreate(spv_target_env env);
|
|
|
|
// Destroys the given context object.
|
|
SPIRV_TOOLS_EXPORT void spvContextDestroy(spv_context context);
|
|
|
|
// Creates a Validator options object with default options. Returns a valid
|
|
// options object. The object remains valid until it is passed into
|
|
// spvValidatorOptionsDestroy.
|
|
SPIRV_TOOLS_EXPORT spv_validator_options spvValidatorOptionsCreate(void);
|
|
|
|
// Destroys the given Validator options object.
|
|
SPIRV_TOOLS_EXPORT void spvValidatorOptionsDestroy(
|
|
spv_validator_options options);
|
|
|
|
// Records the maximum Universal Limit that is considered valid in the given
|
|
// Validator options object. <options> argument must be a valid options object.
|
|
SPIRV_TOOLS_EXPORT void spvValidatorOptionsSetUniversalLimit(
|
|
spv_validator_options options, spv_validator_limit limit_type,
|
|
uint32_t limit);
|
|
|
|
// Record whether or not the validator should relax the rules on types for
|
|
// stores to structs. When relaxed, it will allow a type mismatch as long as
|
|
// the types are structs with the same layout. Two structs have the same layout
|
|
// if
|
|
//
|
|
// 1) the members of the structs are either the same type or are structs with
|
|
// same layout, and
|
|
//
|
|
// 2) the decorations that affect the memory layout are identical for both
|
|
// types. Other decorations are not relevant.
|
|
SPIRV_TOOLS_EXPORT void spvValidatorOptionsSetRelaxStoreStruct(
|
|
spv_validator_options options, bool val);
|
|
|
|
// Records whether or not the validator should relax the rules on pointer usage
|
|
// in logical addressing mode.
|
|
//
|
|
// When relaxed, it will allow the following usage cases of pointers:
|
|
// 1) OpVariable allocating an object whose type is a pointer type
|
|
// 2) OpReturnValue returning a pointer value
|
|
SPIRV_TOOLS_EXPORT void spvValidatorOptionsSetRelaxLogicalPointer(
|
|
spv_validator_options options, bool val);
|
|
|
|
// Records whether or not the validator should relax the rules because it is
|
|
// expected that the optimizations will make the code legal.
|
|
//
|
|
// When relaxed, it will allow the following:
|
|
// 1) It will allow relaxed logical pointers. Setting this option will also
|
|
// set that option.
|
|
// 2) Pointers that are pass as parameters to function calls do not have to
|
|
// match the storage class of the formal parameter.
|
|
// 3) Pointers that are actaul parameters on function calls do not have to point
|
|
// to the same type pointed as the formal parameter. The types just need to
|
|
// logically match.
|
|
SPIRV_TOOLS_EXPORT void spvValidatorOptionsSetBeforeHlslLegalization(
|
|
spv_validator_options options, bool val);
|
|
|
|
// Records whether the validator should use "relaxed" block layout rules.
|
|
// Relaxed layout rules are described by Vulkan extension
|
|
// VK_KHR_relaxed_block_layout, and they affect uniform blocks, storage blocks,
|
|
// and push constants.
|
|
//
|
|
// This is enabled by default when targeting Vulkan 1.1 or later.
|
|
// Relaxed layout is more permissive than the default rules in Vulkan 1.0.
|
|
SPIRV_TOOLS_EXPORT void spvValidatorOptionsSetRelaxBlockLayout(
|
|
spv_validator_options options, bool val);
|
|
|
|
// Records whether the validator should use standard block layout rules for
|
|
// uniform blocks.
|
|
SPIRV_TOOLS_EXPORT void spvValidatorOptionsSetUniformBufferStandardLayout(
|
|
spv_validator_options options, bool val);
|
|
|
|
// Records whether the validator should use "scalar" block layout rules.
|
|
// Scalar layout rules are more permissive than relaxed block layout.
|
|
//
|
|
// See Vulkan extnesion VK_EXT_scalar_block_layout. The scalar alignment is
|
|
// defined as follows:
|
|
// - scalar alignment of a scalar is the scalar size
|
|
// - scalar alignment of a vector is the scalar alignment of its component
|
|
// - scalar alignment of a matrix is the scalar alignment of its component
|
|
// - scalar alignment of an array is the scalar alignment of its element
|
|
// - scalar alignment of a struct is the max scalar alignment among its
|
|
// members
|
|
//
|
|
// For a struct in Uniform, StorageClass, or PushConstant:
|
|
// - a member Offset must be a multiple of the member's scalar alignment
|
|
// - ArrayStride or MatrixStride must be a multiple of the array or matrix
|
|
// scalar alignment
|
|
SPIRV_TOOLS_EXPORT void spvValidatorOptionsSetScalarBlockLayout(
|
|
spv_validator_options options, bool val);
|
|
|
|
// Records whether or not the validator should skip validating standard
|
|
// uniform/storage block layout.
|
|
SPIRV_TOOLS_EXPORT void spvValidatorOptionsSetSkipBlockLayout(
|
|
spv_validator_options options, bool val);
|
|
|
|
// Creates an optimizer options object with default options. Returns a valid
|
|
// options object. The object remains valid until it is passed into
|
|
// |spvOptimizerOptionsDestroy|.
|
|
SPIRV_TOOLS_EXPORT spv_optimizer_options spvOptimizerOptionsCreate(void);
|
|
|
|
// Destroys the given optimizer options object.
|
|
SPIRV_TOOLS_EXPORT void spvOptimizerOptionsDestroy(
|
|
spv_optimizer_options options);
|
|
|
|
// Records whether or not the optimizer should run the validator before
|
|
// optimizing. If |val| is true, the validator will be run.
|
|
SPIRV_TOOLS_EXPORT void spvOptimizerOptionsSetRunValidator(
|
|
spv_optimizer_options options, bool val);
|
|
|
|
// Records the validator options that should be passed to the validator if it is
|
|
// run.
|
|
SPIRV_TOOLS_EXPORT void spvOptimizerOptionsSetValidatorOptions(
|
|
spv_optimizer_options options, spv_validator_options val);
|
|
|
|
// Records the maximum possible value for the id bound.
|
|
SPIRV_TOOLS_EXPORT void spvOptimizerOptionsSetMaxIdBound(
|
|
spv_optimizer_options options, uint32_t val);
|
|
|
|
// Records whether all bindings within the module should be preserved.
|
|
SPIRV_TOOLS_EXPORT void spvOptimizerOptionsSetPreserveBindings(
|
|
spv_optimizer_options options, bool val);
|
|
|
|
// Records whether all specialization constants within the module
|
|
// should be preserved.
|
|
SPIRV_TOOLS_EXPORT void spvOptimizerOptionsSetPreserveSpecConstants(
|
|
spv_optimizer_options options, bool val);
|
|
|
|
// Creates a reducer options object with default options. Returns a valid
|
|
// options object. The object remains valid until it is passed into
|
|
// |spvReducerOptionsDestroy|.
|
|
SPIRV_TOOLS_EXPORT spv_reducer_options spvReducerOptionsCreate();
|
|
|
|
// Destroys the given reducer options object.
|
|
SPIRV_TOOLS_EXPORT void spvReducerOptionsDestroy(spv_reducer_options options);
|
|
|
|
// Sets the maximum number of reduction steps that should run before the reducer
|
|
// gives up.
|
|
SPIRV_TOOLS_EXPORT void spvReducerOptionsSetStepLimit(
|
|
spv_reducer_options options, uint32_t step_limit);
|
|
|
|
// Sets the fail-on-validation-error option; if true, the reducer will return
|
|
// kStateInvalid if a reduction step yields a state that fails SPIR-V
|
|
// validation. Otherwise, an invalid state is treated as uninteresting and the
|
|
// reduction backtracks and continues.
|
|
SPIRV_TOOLS_EXPORT void spvReducerOptionsSetFailOnValidationError(
|
|
spv_reducer_options options, bool fail_on_validation_error);
|
|
|
|
// Creates a fuzzer options object with default options. Returns a valid
|
|
// options object. The object remains valid until it is passed into
|
|
// |spvFuzzerOptionsDestroy|.
|
|
SPIRV_TOOLS_EXPORT spv_fuzzer_options spvFuzzerOptionsCreate();
|
|
|
|
// Destroys the given fuzzer options object.
|
|
SPIRV_TOOLS_EXPORT void spvFuzzerOptionsDestroy(spv_fuzzer_options options);
|
|
|
|
// Enables running the validator after every transformation is applied during
|
|
// a replay.
|
|
SPIRV_TOOLS_EXPORT void spvFuzzerOptionsEnableReplayValidation(
|
|
spv_fuzzer_options options);
|
|
|
|
// Sets the seed with which the random number generator used by the fuzzer
|
|
// should be initialized.
|
|
SPIRV_TOOLS_EXPORT void spvFuzzerOptionsSetRandomSeed(
|
|
spv_fuzzer_options options, uint32_t seed);
|
|
|
|
// Sets the range of transformations that should be applied during replay: 0
|
|
// means all transformations, +N means the first N transformations, -N means all
|
|
// except the final N transformations.
|
|
SPIRV_TOOLS_EXPORT void spvFuzzerOptionsSetReplayRange(
|
|
spv_fuzzer_options options, int32_t replay_range);
|
|
|
|
// Sets the maximum number of steps that the shrinker should take before giving
|
|
// up.
|
|
SPIRV_TOOLS_EXPORT void spvFuzzerOptionsSetShrinkerStepLimit(
|
|
spv_fuzzer_options options, uint32_t shrinker_step_limit);
|
|
|
|
// Enables running the validator after every pass is applied during a fuzzing
|
|
// run.
|
|
SPIRV_TOOLS_EXPORT void spvFuzzerOptionsEnableFuzzerPassValidation(
|
|
spv_fuzzer_options options);
|
|
|
|
// Encodes the given SPIR-V assembly text to its binary representation. The
|
|
// length parameter specifies the number of bytes for text. Encoded binary will
|
|
// be stored into *binary. Any error will be written into *diagnostic if
|
|
// diagnostic is non-null, otherwise the context's message consumer will be
|
|
// used. The generated binary is independent of the context and may outlive it.
|
|
// The SPIR-V binary version is set to the highest version of SPIR-V supported
|
|
// by the context's target environment.
|
|
SPIRV_TOOLS_EXPORT spv_result_t spvTextToBinary(const spv_const_context context,
|
|
const char* text,
|
|
const size_t length,
|
|
spv_binary* binary,
|
|
spv_diagnostic* diagnostic);
|
|
|
|
// Encodes the given SPIR-V assembly text to its binary representation. Same as
|
|
// spvTextToBinary but with options. The options parameter is a bit field of
|
|
// spv_text_to_binary_options_t.
|
|
SPIRV_TOOLS_EXPORT spv_result_t spvTextToBinaryWithOptions(
|
|
const spv_const_context context, const char* text, const size_t length,
|
|
const uint32_t options, spv_binary* binary, spv_diagnostic* diagnostic);
|
|
|
|
// Frees an allocated text stream. This is a no-op if the text parameter
|
|
// is a null pointer.
|
|
SPIRV_TOOLS_EXPORT void spvTextDestroy(spv_text text);
|
|
|
|
// Decodes the given SPIR-V binary representation to its assembly text. The
|
|
// word_count parameter specifies the number of words for binary. The options
|
|
// parameter is a bit field of spv_binary_to_text_options_t. Decoded text will
|
|
// be stored into *text. Any error will be written into *diagnostic if
|
|
// diagnostic is non-null, otherwise the context's message consumer will be
|
|
// used.
|
|
SPIRV_TOOLS_EXPORT spv_result_t spvBinaryToText(const spv_const_context context,
|
|
const uint32_t* binary,
|
|
const size_t word_count,
|
|
const uint32_t options,
|
|
spv_text* text,
|
|
spv_diagnostic* diagnostic);
|
|
|
|
// Frees a binary stream from memory. This is a no-op if binary is a null
|
|
// pointer.
|
|
SPIRV_TOOLS_EXPORT void spvBinaryDestroy(spv_binary binary);
|
|
|
|
// Validates a SPIR-V binary for correctness. Any errors will be written into
|
|
// *diagnostic if diagnostic is non-null, otherwise the context's message
|
|
// consumer will be used.
|
|
//
|
|
// Validate for SPIR-V spec rules for the SPIR-V version named in the
|
|
// binary's header (at word offset 1). Additionally, if the context target
|
|
// environment is a client API (such as Vulkan 1.1), then validate for that
|
|
// client API version, to the extent that it is verifiable from data in the
|
|
// binary itself.
|
|
SPIRV_TOOLS_EXPORT spv_result_t spvValidate(const spv_const_context context,
|
|
const spv_const_binary binary,
|
|
spv_diagnostic* diagnostic);
|
|
|
|
// Validates a SPIR-V binary for correctness. Uses the provided Validator
|
|
// options. Any errors will be written into *diagnostic if diagnostic is
|
|
// non-null, otherwise the context's message consumer will be used.
|
|
//
|
|
// Validate for SPIR-V spec rules for the SPIR-V version named in the
|
|
// binary's header (at word offset 1). Additionally, if the context target
|
|
// environment is a client API (such as Vulkan 1.1), then validate for that
|
|
// client API version, to the extent that it is verifiable from data in the
|
|
// binary itself, or in the validator options.
|
|
SPIRV_TOOLS_EXPORT spv_result_t spvValidateWithOptions(
|
|
const spv_const_context context, const spv_const_validator_options options,
|
|
const spv_const_binary binary, spv_diagnostic* diagnostic);
|
|
|
|
// Validates a raw SPIR-V binary for correctness. Any errors will be written
|
|
// into *diagnostic if diagnostic is non-null, otherwise the context's message
|
|
// consumer will be used.
|
|
SPIRV_TOOLS_EXPORT spv_result_t
|
|
spvValidateBinary(const spv_const_context context, const uint32_t* words,
|
|
const size_t num_words, spv_diagnostic* diagnostic);
|
|
|
|
// Creates a diagnostic object. The position parameter specifies the location in
|
|
// the text/binary stream. The message parameter, copied into the diagnostic
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// object, contains the error message to display.
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SPIRV_TOOLS_EXPORT spv_diagnostic
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spvDiagnosticCreate(const spv_position position, const char* message);
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// Destroys a diagnostic object. This is a no-op if diagnostic is a null
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// pointer.
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SPIRV_TOOLS_EXPORT void spvDiagnosticDestroy(spv_diagnostic diagnostic);
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// Prints the diagnostic to stderr.
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SPIRV_TOOLS_EXPORT spv_result_t
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spvDiagnosticPrint(const spv_diagnostic diagnostic);
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// Gets the name of an instruction, without the "Op" prefix.
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SPIRV_TOOLS_EXPORT const char* spvOpcodeString(const uint32_t opcode);
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// The binary parser interface.
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// A pointer to a function that accepts a parsed SPIR-V header.
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// The integer arguments are the 32-bit words from the header, as specified
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// in SPIR-V 1.0 Section 2.3 Table 1.
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// The function should return SPV_SUCCESS if parsing should continue.
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typedef spv_result_t (*spv_parsed_header_fn_t)(
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void* user_data, spv_endianness_t endian, uint32_t magic, uint32_t version,
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uint32_t generator, uint32_t id_bound, uint32_t reserved);
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// A pointer to a function that accepts a parsed SPIR-V instruction.
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// The parsed_instruction value is transient: it may be overwritten
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// or released immediately after the function has returned. That also
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// applies to the words array member of the parsed instruction. The
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// function should return SPV_SUCCESS if and only if parsing should
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// continue.
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typedef spv_result_t (*spv_parsed_instruction_fn_t)(
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void* user_data, const spv_parsed_instruction_t* parsed_instruction);
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// Parses a SPIR-V binary, specified as counted sequence of 32-bit words.
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// Parsing feedback is provided via two callbacks provided as function
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// pointers. Each callback function pointer can be a null pointer, in
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// which case it is never called. Otherwise, in a valid parse the
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// parsed-header callback is called once, and then the parsed-instruction
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// callback once for each instruction in the stream. The user_data parameter
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// is supplied as context to the callbacks. Returns SPV_SUCCESS on successful
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// parse where the callbacks always return SPV_SUCCESS. For an invalid parse,
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// returns a status code other than SPV_SUCCESS, and if diagnostic is non-null
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// also emits a diagnostic. If diagnostic is null the context's message consumer
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// will be used to emit any errors. If a callback returns anything other than
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// SPV_SUCCESS, then that status code is returned, no further callbacks are
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// issued, and no additional diagnostics are emitted.
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SPIRV_TOOLS_EXPORT spv_result_t spvBinaryParse(
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const spv_const_context context, void* user_data, const uint32_t* words,
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const size_t num_words, spv_parsed_header_fn_t parse_header,
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spv_parsed_instruction_fn_t parse_instruction, spv_diagnostic* diagnostic);
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#ifdef __cplusplus
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}
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#endif
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#endif // INCLUDE_SPIRV_TOOLS_LIBSPIRV_H_
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