Skip to content

wpmed92/shaderpulse

Repository files navigation

ShaderPulse

ShaderPulse is an experimental GLSL to SPIR-V dialect frontend. It consists of a lexer, a parser, a semantic analyzer and a code generator. The different parts of the compiler are at different stages of completion. The work is based on the GLSL 4.60.8 specifications.

Lexer

The lexer takes in the source code in text format and outputs valid GLSL tokens. It supports all the keyword, punctuator, identifier and literal tokens defined in the specs. There are tests for this component in test/Lexer/LexerTest.

Parser

Takes in the token stream generated by the Lexer and outputs an Abstract Syntax Tree. It is top-down recursive descent parser. It supports variable declarations, assignments, function declarations, function calls, unary and binary expressions, constructor expressions, member access (incomplete), structs (incomplete), and arrays (incomplete). There is a lot of work to do on this front to match sepcs.

Analysis

It supports basic type checking, break, continue, case placement check, function return type checking, if/while/do-while condition type checking. See examples for what is supported in test/Analysis. It works based on the visitor pattern, just like code generation. There is a lot of work to do on this front to match sepcs.

CodeGen

It takes in the AST generated by the parser, and using the visitor pattern visits the AST constructs and generates code for them. Check CodeGen/MLIRCodeGen.cpp for constructs that are supported.

The compute shader /example/compute.glsl compiles to the following spir-v mlir code:

layout(local_size_x = 16, local_size_y = 8, local_size_z = 4) in;

layout(binding = 0) buffer InputBuffer {
    float data[];
};

layout(binding = 1) buffer OutputBuffer {
    float result[];
};

void main() {
    uint index = gl_GlobalInvocationID.x;
    result[index] = data[index] * 2.0;
}
spirv.module Logical GLSL450 requires #spirv.vce<v1.0, [Shader], []> {
  spirv.GlobalVariable @gl_GlobalInvocationID built_in("GlobalInvocationId") : !spirv.ptr<vector<3xui32>, Input>
  spirv.GlobalVariable @gl_WorkGroupID built_in("WorkgroupId") : !spirv.ptr<vector<3xui32>, Input>
  spirv.GlobalVariable @gl_WorkGroupSize built_in("WorkgroupSize") : !spirv.ptr<vector<3xui32>, Input>
  spirv.GlobalVariable @gl_LocalInvocationID built_in("LocalInvocationId") : !spirv.ptr<vector<3xui32>, Input>
  spirv.GlobalVariable @data {binding = 0 : i32} : !spirv.ptr<!spirv.rtarray<f32>, StorageBuffer>
  spirv.GlobalVariable @result {binding = 1 : i32} : !spirv.ptr<!spirv.rtarray<f32>, StorageBuffer>
  spirv.func @main() "None" {
    %gl_GlobalInvocationID_addr = spirv.mlir.addressof @gl_GlobalInvocationID : !spirv.ptr<vector<3xui32>, Input>
    %0 = spirv.Load "Input" %gl_GlobalInvocationID_addr : vector<3xui32>
    %1 = spirv.CompositeExtract %0[0 : i32] : vector<3xui32>
    %2 = spirv.Variable : !spirv.ptr<ui32, Function>
    spirv.Store "Function" %2, %1 : ui32
    %result_addr = spirv.mlir.addressof @result : !spirv.ptr<!spirv.rtarray<f32>, StorageBuffer>
    %3 = spirv.Load "Function" %2 : ui32
    %4 = spirv.AccessChain %result_addr[%3] : !spirv.ptr<!spirv.rtarray<f32>, StorageBuffer>, ui32
    %data_addr = spirv.mlir.addressof @data : !spirv.ptr<!spirv.rtarray<f32>, StorageBuffer>
    %5 = spirv.Load "Function" %2 : ui32
    %6 = spirv.AccessChain %data_addr[%5] : !spirv.ptr<!spirv.rtarray<f32>, StorageBuffer>, ui32
    %cst_f32 = spirv.Constant 2.000000e+00 : f32
    %7 = spirv.Load "StorageBuffer" %6 : f32
    %8 = spirv.FMul %7, %cst_f32 : f32
    spirv.Store "StorageBuffer" %4, %8 : f32
    spirv.Return
  }
  spirv.ExecutionMode @main "LocalSize", 16, 8, 4
  spirv.EntryPoint "GLCompute" @main, @gl_GlobalInvocationID, @result, @data
}

Releases

No releases published

Packages

No packages published

Languages