# SPIR-V Tools ## Overview The project includes an assembler, disassembler, and validator for SPIR-V, all based on a common static library. The library contains all of the implementation details and is used in the standalone tools whilst also enabling integration into other code bases directly. Currently, the assembler and disassembler only support the core SPIR-V specification (i.e. nothing Vulkan or OpenCL-specific) and the validator is a work in progress. See the Future Work section for more information. The repository is maintained by Kenneth Benzie `k.benzie@codeplay.com`, please submit any merge requests as stated in these [instructions](https://cvs.khronos.org/wiki/index.php/How_to_access_and_use_the_Khronos_Gitlab_Repository). ## Build The project uses CMake to generate platform-specific build configurations. To generate these build files issue the following commands. ``` mkdir /build cd /build cmake [-G] .. ``` Once the build files have been generated, build using your preferred development environment. ### CMake Options * `SPIRV_USE_SANITIZER=` - on UNIX platforms with an appropriate version of `clang` this option enables the use of the sanitizers documented [here](http://clang.llvm.org/docs/UsersManual.html#controlling-code-generation), this should only be used with a debug build, disabled by default * `SPIRV_COLOR_TERMINAL=ON` - enables color console output, enabled by default * `SPIRV_WARN_EVERYTHING=OFF` - on UNIX platforms enable the `-Weverything` compiler front end option, disabled by default * `SPIRV_WERROR=OFF` - on UNIX platforms enable the `-Werror` compiler front end option, disabled by default ## Library ### Usage In order to use the library from an application, the include path should point to `/include`, which will enable the application to include the header `/include/libspirv/libspirv.h` then linking against the static library in `/bin/libSPIRV.a` or `/bin/SPIRV.lib`. The intention is for this to be a C API, however currently it relies on the generated header `spirv.h` meaning this is currently a C++ API. * `SPIRV` - the static library CMake target outputs `/lib/libSPIRV.a` on Linux/Mac or `/lib/SPIRV.lib` on Windows. #### Entry Points There are three main entry points into the library. * `spvTextToBinary` implements the assembler functionality. * `spvBinaryToText` implements the disassembler functionality. * `spvValidate` implements the validator functionality. ### Source In addition to the interface header `/include/libspirv/libspirv.h` the implementation source files reside in `/source/*`. ## Tools ### Assembler The standalone assembler is the binary called `spirv-as` and is located in `/bin/spirv-as`. The functionality of the assembler is implemented by the `spvTextToBinary` library function. The assembler operates on the textual form. * `spirv-as` - the standalone assembler * `/bin/spirv-as` #### Options * `-o ` is used to specify the output file, otherwise this is set to `out.spv`. #### Format The assembly attempts to adhere to the binary form as closely as possible using text names from that specification. Here is an example. ``` OpCapability Shader OpMemoryModel Logical Simple OpEntryPoint GLCompute %3 "main" OpExecutionMode %3 LocalSize 64 64 1 OpTypeVoid %1 OpTypeFunction %2 %1 OpFunction %1 %3 None %2 OpLabel %4 OpReturn OpFunctionEnd ``` In order to improve the text's readability, the `` generated by an instruction can be moved to the beginning of that instruction and followed by an `=` sign. This allows us to distinguish between variable defs and uses and locate variable defs more easily. So, the above example can also be written as: ``` OpCapability Shader OpMemoryModel Logical Simple OpEntryPoint GLCompute %3 "main" OpExecutionMode %3 LocalSize 64 64 1 %1 = OpTypeVoid %2 = OpTypeFunction %1 %3 = OpFunction %1 None %2 %4 = OpLabel OpReturn OpFunctionEnd ``` Each line encapsulates one and only one instruction, or an OpCode and all of its operands. OpCodes use the names provided in section 3.28 Instructions of the SPIR-V specification, immediate values such as Addressing Model, Memory Model, etc. use the names provided in sections 3.2 Source Language through 3.27 Capability of the SPIR-V specification. Literals strings are enclosed in quotes `""` while literal numbers have no special formatting. ##### ID Definitions & Usage An ID definition pertains to the `` of an OpCode, and ID usage is any input to an OpCode. All IDs are prefixed with `%`. To differentiate between defs and uses, we suggest using the second format shown in the above. ##### Named IDs The assembler also supports named IDs, or virtual IDs, which greatly improves the readability of the assembly. The same ID definition and usage prefixes apply. Names must begin with an character in the range `[a-z|A-Z]`. The following example will result in identical SPIR-V binary as the example above. ``` OpCapability Shader OpMemoryModel Logical Simple OpEntryPoint GLCompute %main "main" OpExecutionMode %main LocalSize 64 64 1 %void = OpTypeVoid %fnMain = OpTypeFunction %void %main = OpFunction %void None %fnMain %lbMain = OpLabel OpReturn OpFunctionEnd ``` ##### Arbitrary Integers When writing tests it can be useful to emit an invalid 32 bit word into the binary stream at arbitrary positions within the assembly. To specify an arbitrary word into the stream the prefix `!` is used, this takes the form `!`. Here is an example. ``` OpCapability !0x0000FF00 ``` ### Disassembler The standalone disassembler is the binary called `spirv-dis` and is located in `/bin/spirv-dis`. The functionality of the disassembler is implemented by the `spvBinaryToText` library function. The disassembler operates on the binary form. * `spirv-dis` - the standalone disassembler * `/bin/spirv-dis` #### Options * `-o ` is used to specify the output file, otherwise this is set to `out.spvasm`. * `-p` prints the assembly to the console on stdout, this includes colored output on Linux, Windows, and Mac. ### Validator The standalone validator is the binary called `spirv-val` and is located in `/bin/spirv-val`. The functionality of the validator is implemented by the `spvValidate` library function. The validator operates on the binary form. * `spirv-val` - the standalone validator * `/bin/spirv-val` #### Options * `-basic` performs basic stream validation, currently not implemented. * `-layout` performs logical layout validation as described in section 2.16 Validation Rules, currently not implemented. * `-id` performs ID validation according to the instruction rules in sections 3.28.1 through 3.28.22, enabled but is a work in progress. * `-capability` performs capability validation and or reporting, currently not implemented. ## Tests The project contains a number of tests, implemented in the `UnitSPIRV` executable, used to drive the development and correctness of the tools, these use the [googletest](https://code.google.com/p/googletest/) framework. The [googletest](https://code.google.com/p/googletest/) source is not provided with this project, to enable the tests place the [googletest](https://code.google.com/p/googletest/) source in the `/external/googletest` directory, rerun CMake if you have already done so previously, CMake will detect the existence of `/external/googletest` then build as normal. ## Future Work * Support extension libraries in `spirv-as`, `spirv-dis`, and `spirv-val`. * Complete implementation of ID validation rules in `spirv-val`. * Implement section 2.16 Validation Rules in `spirv-val`. * Implement Capability validation and or report in `spirv-val`. * Improve assembly output from `spirv-dis`. * Improve diagnostic reports. ## Known Issues * Improve literal parsing in the assembler, currently only decimal integers and floating-point numbers are supported as literal operands and the parser is not contextually aware of the desired width of the operand. ## Licence Copyright (c) 2015 The Khronos Group Inc. 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