// // Copyright (c) 2014 The ANGLE Project Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. // // CollectVariables_test.cpp: // Some tests for shader inspection // #include "angle_gl.h" #include "gtest/gtest.h" #include "GLSLANG/ShaderLang.h" namespace sh { TEST(ShaderVariableTest, FindInfoByMappedName) { // struct A { // float x[2]; // vec3 y; // }; // struct B { // A a[3]; // }; // B uni[2]; ShaderVariable uni; uni.arraySize = 2; uni.name = "uni"; uni.mappedName = "m_uni"; uni.structName = "B"; { ShaderVariable a; a.arraySize = 3; a.name = "a"; a.mappedName = "m_a"; a.structName = "A"; { ShaderVariable x(GL_FLOAT, 2); x.name = "x"; x.mappedName = "m_x"; a.fields.push_back(x); ShaderVariable y(GL_FLOAT_VEC3, 0); y.name = "y"; y.mappedName = "m_y"; a.fields.push_back(y); } uni.fields.push_back(a); } const ShaderVariable *leafVar = NULL; std::string originalFullName; std::string mappedFullName = "wrongName"; EXPECT_FALSE(uni.findInfoByMappedName( mappedFullName, &leafVar, &originalFullName)); mappedFullName = "m_uni"; EXPECT_TRUE(uni.findInfoByMappedName( mappedFullName, &leafVar, &originalFullName)); EXPECT_EQ(&uni, leafVar); EXPECT_STREQ("uni", originalFullName.c_str()); mappedFullName = "m_uni[0].m_a[1].wrongName"; EXPECT_FALSE(uni.findInfoByMappedName( mappedFullName, &leafVar, &originalFullName)); mappedFullName = "m_uni[0].m_a[1].m_x"; EXPECT_TRUE(uni.findInfoByMappedName( mappedFullName, &leafVar, &originalFullName)); EXPECT_EQ(&(uni.fields[0].fields[0]), leafVar); EXPECT_STREQ("uni[0].a[1].x", originalFullName.c_str()); mappedFullName = "m_uni[0].m_a[1].m_x[0]"; EXPECT_TRUE(uni.findInfoByMappedName( mappedFullName, &leafVar, &originalFullName)); EXPECT_EQ(&(uni.fields[0].fields[0]), leafVar); EXPECT_STREQ("uni[0].a[1].x[0]", originalFullName.c_str()); mappedFullName = "m_uni[0].m_a[1].m_y"; EXPECT_TRUE(uni.findInfoByMappedName( mappedFullName, &leafVar, &originalFullName)); EXPECT_EQ(&(uni.fields[0].fields[1]), leafVar); EXPECT_STREQ("uni[0].a[1].y", originalFullName.c_str()); } TEST(ShaderVariableTest, IsSameUniformWithDifferentFieldOrder) { // struct A { // float x; // float y; // }; // uniform A uni; Uniform vx_a; vx_a.arraySize = 0; vx_a.name = "uni"; vx_a.mappedName = "m_uni"; vx_a.structName = "A"; { ShaderVariable x(GL_FLOAT, 0); x.name = "x"; x.mappedName = "m_x"; vx_a.fields.push_back(x); ShaderVariable y(GL_FLOAT, 0); y.name = "y"; y.mappedName = "m_y"; vx_a.fields.push_back(y); } // struct A { // float y; // float x; // }; // uniform A uni; Uniform fx_a; fx_a.arraySize = 0; fx_a.name = "uni"; fx_a.mappedName = "m_uni"; fx_a.structName = "A"; { ShaderVariable y(GL_FLOAT, 0); y.name = "y"; y.mappedName = "m_y"; fx_a.fields.push_back(y); ShaderVariable x(GL_FLOAT, 0); x.name = "x"; x.mappedName = "m_x"; fx_a.fields.push_back(x); } EXPECT_FALSE(vx_a.isSameUniformAtLinkTime(fx_a)); } TEST(ShaderVariableTest, IsSameUniformWithDifferentStructNames) { // struct A { // float x; // float y; // }; // uniform A uni; Uniform vx_a; vx_a.arraySize = 0; vx_a.name = "uni"; vx_a.mappedName = "m_uni"; vx_a.structName = "A"; { ShaderVariable x(GL_FLOAT, 0); x.name = "x"; x.mappedName = "m_x"; vx_a.fields.push_back(x); ShaderVariable y(GL_FLOAT, 0); y.name = "y"; y.mappedName = "m_y"; vx_a.fields.push_back(y); } // struct B { // float x; // float y; // }; // uniform B uni; Uniform fx_a; fx_a.arraySize = 0; fx_a.name = "uni"; fx_a.mappedName = "m_uni"; { ShaderVariable x(GL_FLOAT, 0); x.name = "x"; x.mappedName = "m_x"; fx_a.fields.push_back(x); ShaderVariable y(GL_FLOAT, 0); y.name = "y"; y.mappedName = "m_y"; fx_a.fields.push_back(y); } fx_a.structName = "B"; EXPECT_FALSE(vx_a.isSameUniformAtLinkTime(fx_a)); fx_a.structName = "A"; EXPECT_TRUE(vx_a.isSameUniformAtLinkTime(fx_a)); fx_a.structName = ""; EXPECT_FALSE(vx_a.isSameUniformAtLinkTime(fx_a)); } TEST(ShaderVariableTest, IsSameVaryingWithDifferentInvariance) { // invariant varying float vary; Varying vx; vx.type = GL_FLOAT; vx.arraySize = 0; vx.precision = GL_MEDIUM_FLOAT; vx.name = "vary"; vx.mappedName = "m_vary"; vx.staticUse = true; vx.isInvariant = true; // varying float vary; Varying fx; fx.type = GL_FLOAT; fx.arraySize = 0; fx.precision = GL_MEDIUM_FLOAT; fx.name = "vary"; fx.mappedName = "m_vary"; fx.staticUse = true; fx.isInvariant = false; // Default to ESSL1 behavior: invariance must match EXPECT_FALSE(vx.isSameVaryingAtLinkTime(fx)); EXPECT_FALSE(vx.isSameVaryingAtLinkTime(fx, 100)); // ESSL3 behavior: invariance doesn't need to match EXPECT_TRUE(vx.isSameVaryingAtLinkTime(fx, 300)); // invariant varying float vary; fx.isInvariant = true; EXPECT_TRUE(vx.isSameVaryingAtLinkTime(fx)); EXPECT_TRUE(vx.isSameVaryingAtLinkTime(fx, 100)); EXPECT_TRUE(vx.isSameVaryingAtLinkTime(fx, 300)); } // Test that using invariant varyings doesn't trigger a double delete. TEST(ShaderVariableTest, InvariantDoubleDeleteBug) { ShBuiltInResources resources; ShInitBuiltInResources(&resources); ShHandle compiler = ShConstructCompiler(GL_VERTEX_SHADER, SH_GLES2_SPEC, SH_GLSL_COMPATIBILITY_OUTPUT, &resources); EXPECT_NE(static_cast(0), compiler); const char *program[] = { "attribute vec4 position;\n" "varying float v;\n" "invariant v;\n" "void main() {\n" " v = 1.0;\n" " gl_Position = position;\n" "}" }; EXPECT_TRUE(ShCompile(compiler, program, 1, SH_OBJECT_CODE)); EXPECT_TRUE(ShCompile(compiler, program, 1, SH_OBJECT_CODE)); ShDestruct(compiler); } } // namespace sh