// Copyright 2021 The Tint Authors. // // 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. #include "src/transform/multiplanar_external_texture.h" #include "src/transform/test_helper.h" namespace tint { namespace transform { namespace { using MultiplanarExternalTextureTest = TransformTest; // Running the transform without passing in data for the new bindings should // result in an error. TEST_F(MultiplanarExternalTextureTest, ErrorNoPassedData) { auto* src = R"( [[group(0), binding(0)]] var s : sampler; [[group(0), binding(1)]] var ext_tex : texture_external; [[stage(fragment)]] fn main([[builtin(position)]] coord : vec4) -> [[location(0)]] vec4 { return textureSampleLevel(ext_tex, s, coord.xy); } )"; auto* expect = R"(error: missing new binding point data for tint::transform::MultiplanarExternalTexture)"; auto got = Run(src); EXPECT_EQ(expect, str(got)); } // Running the transform with incorrect binding data should result in an error. TEST_F(MultiplanarExternalTextureTest, ErrorIncorrectBindingPont) { auto* src = R"( [[group(0), binding(0)]] var s : sampler; [[group(0), binding(1)]] var ext_tex : texture_external; [[stage(fragment)]] fn main([[builtin(position)]] coord : vec4) -> [[location(0)]] vec4 { return textureSampleLevel(ext_tex, s, coord.xy); } )"; auto* expect = R"(error: missing new binding points for texture_external at binding {0,1})"; DataMap data; // This bindings map specifies 0,0 as the location of the texture_external, // which is incorrect. data.Add( MultiplanarExternalTexture::BindingsMap{{{0, 0}, {{0, 1}, {0, 2}}}}); auto got = Run(src, data); EXPECT_EQ(expect, str(got)); } // Tests that the transform works with a textureDimensions call. TEST_F(MultiplanarExternalTextureTest, Dimensions) { auto* src = R"( [[group(0), binding(0)]] var ext_tex : texture_external; [[stage(fragment)]] fn main([[builtin(position)]] coord : vec4) -> [[location(0)]] vec4 { var dim : vec2; dim = textureDimensions(ext_tex); return vec4(0.0, 0.0, 0.0, 0.0); } )"; auto* expect = R"( struct ExternalTextureParams { numPlanes : u32; vr : f32; ug : f32; vg : f32; ub : f32; } [[group(0), binding(1)]] var ext_tex_plane_1 : texture_2d; [[group(0), binding(2)]] var ext_tex_params : ExternalTextureParams; [[group(0), binding(0)]] var ext_tex : texture_2d; [[stage(fragment)]] fn main([[builtin(position)]] coord : vec4) -> [[location(0)]] vec4 { var dim : vec2; dim = textureDimensions(ext_tex); return vec4(0.0, 0.0, 0.0, 0.0); } )"; DataMap data; data.Add( MultiplanarExternalTexture::BindingsMap{{{0, 0}, {{0, 1}, {0, 2}}}}); auto got = Run(src, data); EXPECT_EQ(expect, str(got)); } // Test that the transform works with a textureSampleLevel call. TEST_F(MultiplanarExternalTextureTest, BasicTextureSampleLevel) { auto* src = R"( [[group(0), binding(0)]] var s : sampler; [[group(0), binding(1)]] var ext_tex : texture_external; [[stage(fragment)]] fn main([[builtin(position)]] coord : vec4) -> [[location(0)]] vec4 { return textureSampleLevel(ext_tex, s, coord.xy); } )"; auto* expect = R"( [[group(0), binding(0)]] var s : sampler; struct ExternalTextureParams { numPlanes : u32; vr : f32; ug : f32; vg : f32; ub : f32; } [[group(0), binding(2)]] var ext_tex_plane_1 : texture_2d; [[group(0), binding(3)]] var ext_tex_params : ExternalTextureParams; [[group(0), binding(1)]] var ext_tex : texture_2d; fn textureSampleExternal(plane0 : texture_2d, plane1 : texture_2d, smp : sampler, coord : vec2, params : ExternalTextureParams) -> vec4 { if ((params.numPlanes == 1u)) { return textureSampleLevel(plane0, smp, coord, 0.0); } let y = (textureSampleLevel(plane0, smp, coord, 0.0).r - 0.0625); let uv = (textureSampleLevel(plane1, smp, coord, 0.0).rg - 0.5); let u = uv.x; let v = uv.y; let r = ((1.164000034 * y) + (params.vr * v)); let g = (((1.164000034 * y) - (params.ug * u)) - (params.vg * v)); let b = ((1.164000034 * y) + (params.ub * u)); return vec4(r, g, b, 1.0); } [[stage(fragment)]] fn main([[builtin(position)]] coord : vec4) -> [[location(0)]] vec4 { return textureSampleExternal(ext_tex, ext_tex_plane_1, s, coord.xy, ext_tex_params); } )"; DataMap data; data.Add( MultiplanarExternalTexture::BindingsMap{{{0, 1}, {{0, 2}, {0, 3}}}}); auto got = Run(src, data); EXPECT_EQ(expect, str(got)); } // Tests that the transform works with a textureLoad call. TEST_F(MultiplanarExternalTextureTest, BasicTextureLoad) { auto* src = R"( [[group(0), binding(0)]] var ext_tex : texture_external; [[stage(fragment)]] fn main([[builtin(position)]] coord : vec4) -> [[location(0)]] vec4 { return textureLoad(ext_tex, vec2(1, 1)); } )"; auto* expect = R"( struct ExternalTextureParams { numPlanes : u32; vr : f32; ug : f32; vg : f32; ub : f32; } [[group(0), binding(1)]] var ext_tex_plane_1 : texture_2d; [[group(0), binding(2)]] var ext_tex_params : ExternalTextureParams; [[group(0), binding(0)]] var ext_tex : texture_2d; fn textureLoadExternal(plane0 : texture_2d, plane1 : texture_2d, coord : vec2, params : ExternalTextureParams) -> vec4 { if ((params.numPlanes == 1u)) { return textureLoad(plane0, coord, 0); } let y = (textureLoad(plane0, coord, 0).r - 0.0625); let uv = (textureLoad(plane1, coord, 0).rg - 0.5); let u = uv.x; let v = uv.y; let r = ((1.164000034 * y) + (params.vr * v)); let g = (((1.164000034 * y) - (params.ug * u)) - (params.vg * v)); let b = ((1.164000034 * y) + (params.ub * u)); return vec4(r, g, b, 1.0); } [[stage(fragment)]] fn main([[builtin(position)]] coord : vec4) -> [[location(0)]] vec4 { return textureLoadExternal(ext_tex, ext_tex_plane_1, vec2(1, 1), ext_tex_params); } )"; DataMap data; data.Add( MultiplanarExternalTexture::BindingsMap{{{0, 0}, {{0, 1}, {0, 2}}}}); auto got = Run(src, data); EXPECT_EQ(expect, str(got)); } // Tests that the transform works with both a textureSampleLevel and textureLoad // call. TEST_F(MultiplanarExternalTextureTest, TextureSampleAndTextureLoad) { auto* src = R"( [[group(0), binding(0)]] var s : sampler; [[group(0), binding(1)]] var ext_tex : texture_external; [[stage(fragment)]] fn main([[builtin(position)]] coord : vec4) -> [[location(0)]] vec4 { return textureSampleLevel(ext_tex, s, coord.xy) + textureLoad(ext_tex, vec2(1, 1)); } )"; auto* expect = R"( [[group(0), binding(0)]] var s : sampler; struct ExternalTextureParams { numPlanes : u32; vr : f32; ug : f32; vg : f32; ub : f32; } [[group(0), binding(2)]] var ext_tex_plane_1 : texture_2d; [[group(0), binding(3)]] var ext_tex_params : ExternalTextureParams; [[group(0), binding(1)]] var ext_tex : texture_2d; fn textureSampleExternal(plane0 : texture_2d, plane1 : texture_2d, smp : sampler, coord : vec2, params : ExternalTextureParams) -> vec4 { if ((params.numPlanes == 1u)) { return textureSampleLevel(plane0, smp, coord, 0.0); } let y = (textureSampleLevel(plane0, smp, coord, 0.0).r - 0.0625); let uv = (textureSampleLevel(plane1, smp, coord, 0.0).rg - 0.5); let u = uv.x; let v = uv.y; let r = ((1.164000034 * y) + (params.vr * v)); let g = (((1.164000034 * y) - (params.ug * u)) - (params.vg * v)); let b = ((1.164000034 * y) + (params.ub * u)); return vec4(r, g, b, 1.0); } fn textureLoadExternal(plane0 : texture_2d, plane1 : texture_2d, coord : vec2, params : ExternalTextureParams) -> vec4 { if ((params.numPlanes == 1u)) { return textureLoad(plane0, coord, 0); } let y = (textureLoad(plane0, coord, 0).r - 0.0625); let uv = (textureLoad(plane1, coord, 0).rg - 0.5); let u = uv.x; let v = uv.y; let r = ((1.164000034 * y) + (params.vr * v)); let g = (((1.164000034 * y) - (params.ug * u)) - (params.vg * v)); let b = ((1.164000034 * y) + (params.ub * u)); return vec4(r, g, b, 1.0); } [[stage(fragment)]] fn main([[builtin(position)]] coord : vec4) -> [[location(0)]] vec4 { return (textureSampleExternal(ext_tex, ext_tex_plane_1, s, coord.xy, ext_tex_params) + textureLoadExternal(ext_tex, ext_tex_plane_1, vec2(1, 1), ext_tex_params)); } )"; DataMap data; data.Add( MultiplanarExternalTexture::BindingsMap{{{0, 1}, {{0, 2}, {0, 3}}}}); auto got = Run(src, data); EXPECT_EQ(expect, str(got)); } // Tests that the transform works with many instances of texture_external. TEST_F(MultiplanarExternalTextureTest, ManyTextureSampleLevel) { auto* src = R"( [[group(0), binding(0)]] var s : sampler; [[group(0), binding(1)]] var ext_tex : texture_external; [[group(0), binding(2)]] var ext_tex_1 : texture_external; [[group(0), binding(3)]] var ext_tex_2 : texture_external; [[group(1), binding(0)]] var ext_tex_3 : texture_external; [[stage(fragment)]] fn main([[builtin(position)]] coord : vec4) -> [[location(0)]] vec4 { return textureSampleLevel(ext_tex, s, coord.xy) + textureSampleLevel(ext_tex_1, s, coord.xy) + textureSampleLevel(ext_tex_2, s, coord.xy) + textureSampleLevel(ext_tex_3, s, coord.xy); } )"; auto* expect = R"( [[group(0), binding(0)]] var s : sampler; struct ExternalTextureParams { numPlanes : u32; vr : f32; ug : f32; vg : f32; ub : f32; } [[group(0), binding(4)]] var ext_tex_plane_1 : texture_2d; [[group(0), binding(5)]] var ext_tex_params : ExternalTextureParams; [[group(0), binding(1)]] var ext_tex : texture_2d; [[group(0), binding(6)]] var ext_tex_plane_1_1 : texture_2d; [[group(0), binding(7)]] var ext_tex_params_1 : ExternalTextureParams; [[group(0), binding(2)]] var ext_tex_1 : texture_2d; [[group(0), binding(8)]] var ext_tex_plane_1_2 : texture_2d; [[group(0), binding(9)]] var ext_tex_params_2 : ExternalTextureParams; [[group(0), binding(3)]] var ext_tex_2 : texture_2d; [[group(1), binding(1)]] var ext_tex_plane_1_3 : texture_2d; [[group(1), binding(2)]] var ext_tex_params_3 : ExternalTextureParams; [[group(1), binding(0)]] var ext_tex_3 : texture_2d; fn textureSampleExternal(plane0 : texture_2d, plane1 : texture_2d, smp : sampler, coord : vec2, params : ExternalTextureParams) -> vec4 { if ((params.numPlanes == 1u)) { return textureSampleLevel(plane0, smp, coord, 0.0); } let y = (textureSampleLevel(plane0, smp, coord, 0.0).r - 0.0625); let uv = (textureSampleLevel(plane1, smp, coord, 0.0).rg - 0.5); let u = uv.x; let v = uv.y; let r = ((1.164000034 * y) + (params.vr * v)); let g = (((1.164000034 * y) - (params.ug * u)) - (params.vg * v)); let b = ((1.164000034 * y) + (params.ub * u)); return vec4(r, g, b, 1.0); } [[stage(fragment)]] fn main([[builtin(position)]] coord : vec4) -> [[location(0)]] vec4 { return (((textureSampleExternal(ext_tex, ext_tex_plane_1, s, coord.xy, ext_tex_params) + textureSampleExternal(ext_tex_1, ext_tex_plane_1_1, s, coord.xy, ext_tex_params_1)) + textureSampleExternal(ext_tex_2, ext_tex_plane_1_2, s, coord.xy, ext_tex_params_2)) + textureSampleExternal(ext_tex_3, ext_tex_plane_1_3, s, coord.xy, ext_tex_params_3)); } )"; DataMap data; data.Add( MultiplanarExternalTexture::BindingsMap{ {{0, 1}, {{0, 4}, {0, 5}}}, {{0, 2}, {{0, 6}, {0, 7}}}, {{0, 3}, {{0, 8}, {0, 9}}}, {{1, 0}, {{1, 1}, {1, 2}}}, }); auto got = Run(src, data); EXPECT_EQ(expect, str(got)); } // Tests that the texture_external passed as a function parameter produces the // correct output. TEST_F(MultiplanarExternalTextureTest, ExternalTexturePassedAsParam) { auto* src = R"( fn f(t : texture_external, s : sampler) { textureSampleLevel(t, s, vec2(1.0, 2.0)); } [[group(0), binding(0)]] var ext_tex : texture_external; [[group(0), binding(1)]] var smp : sampler; [[stage(fragment)]] fn main() { f(ext_tex, smp); } )"; auto* expect = R"( struct ExternalTextureParams { numPlanes : u32; vr : f32; ug : f32; vg : f32; ub : f32; } fn textureSampleExternal(plane0 : texture_2d, plane1 : texture_2d, smp : sampler, coord : vec2, params : ExternalTextureParams) -> vec4 { if ((params.numPlanes == 1u)) { return textureSampleLevel(plane0, smp, coord, 0.0); } let y = (textureSampleLevel(plane0, smp, coord, 0.0).r - 0.0625); let uv = (textureSampleLevel(plane1, smp, coord, 0.0).rg - 0.5); let u = uv.x; let v = uv.y; let r = ((1.164000034 * y) + (params.vr * v)); let g = (((1.164000034 * y) - (params.ug * u)) - (params.vg * v)); let b = ((1.164000034 * y) + (params.ub * u)); return vec4(r, g, b, 1.0); } fn f(t : texture_2d, ext_tex_plane_1 : texture_2d, ext_tex_params : ExternalTextureParams, s : sampler) { textureSampleExternal(t, ext_tex_plane_1, s, vec2(1.0, 2.0), ext_tex_params); } [[group(0), binding(2)]] var ext_tex_plane_1_1 : texture_2d; [[group(0), binding(3)]] var ext_tex_params_1 : ExternalTextureParams; [[group(0), binding(0)]] var ext_tex : texture_2d; [[group(0), binding(1)]] var smp : sampler; [[stage(fragment)]] fn main() { f(ext_tex, ext_tex_plane_1_1, ext_tex_params_1, smp); } )"; DataMap data; data.Add( MultiplanarExternalTexture::BindingsMap{ {{0, 0}, {{0, 2}, {0, 3}}}, }); auto got = Run(src, data); EXPECT_EQ(expect, str(got)); } // Tests that the texture_external passed as a parameter not in the first // position produces the correct output. TEST_F(MultiplanarExternalTextureTest, ExternalTexturePassedAsSecondParam) { auto* src = R"( fn f(s : sampler, t : texture_external) { textureSampleLevel(t, s, vec2(1.0, 2.0)); } [[group(0), binding(0)]] var ext_tex : texture_external; [[group(0), binding(1)]] var smp : sampler; [[stage(fragment)]] fn main() { f(smp, ext_tex); } )"; auto* expect = R"( struct ExternalTextureParams { numPlanes : u32; vr : f32; ug : f32; vg : f32; ub : f32; } fn textureSampleExternal(plane0 : texture_2d, plane1 : texture_2d, smp : sampler, coord : vec2, params : ExternalTextureParams) -> vec4 { if ((params.numPlanes == 1u)) { return textureSampleLevel(plane0, smp, coord, 0.0); } let y = (textureSampleLevel(plane0, smp, coord, 0.0).r - 0.0625); let uv = (textureSampleLevel(plane1, smp, coord, 0.0).rg - 0.5); let u = uv.x; let v = uv.y; let r = ((1.164000034 * y) + (params.vr * v)); let g = (((1.164000034 * y) - (params.ug * u)) - (params.vg * v)); let b = ((1.164000034 * y) + (params.ub * u)); return vec4(r, g, b, 1.0); } fn f(s : sampler, t : texture_2d, ext_tex_plane_1 : texture_2d, ext_tex_params : ExternalTextureParams) { textureSampleExternal(t, ext_tex_plane_1, s, vec2(1.0, 2.0), ext_tex_params); } [[group(0), binding(2)]] var ext_tex_plane_1_1 : texture_2d; [[group(0), binding(3)]] var ext_tex_params_1 : ExternalTextureParams; [[group(0), binding(0)]] var ext_tex : texture_2d; [[group(0), binding(1)]] var smp : sampler; [[stage(fragment)]] fn main() { f(smp, ext_tex, ext_tex_plane_1_1, ext_tex_params_1); } )"; DataMap data; data.Add( MultiplanarExternalTexture::BindingsMap{ {{0, 0}, {{0, 2}, {0, 3}}}, }); auto got = Run(src, data); EXPECT_EQ(expect, str(got)); } // Tests that multiple texture_external params passed to a function produces the // correct output. TEST_F(MultiplanarExternalTextureTest, ExternalTexturePassedAsParamMultiple) { auto* src = R"( fn f(t : texture_external, s : sampler, t2 : texture_external) { textureSampleLevel(t, s, vec2(1.0, 2.0)); textureSampleLevel(t2, s, vec2(1.0, 2.0)); } [[group(0), binding(0)]] var ext_tex : texture_external; [[group(0), binding(1)]] var smp : sampler; [[group(0), binding(2)]] var ext_tex2 : texture_external; [[stage(fragment)]] fn main() { f(ext_tex, smp, ext_tex2); } )"; auto* expect = R"( struct ExternalTextureParams { numPlanes : u32; vr : f32; ug : f32; vg : f32; ub : f32; } fn textureSampleExternal(plane0 : texture_2d, plane1 : texture_2d, smp : sampler, coord : vec2, params : ExternalTextureParams) -> vec4 { if ((params.numPlanes == 1u)) { return textureSampleLevel(plane0, smp, coord, 0.0); } let y = (textureSampleLevel(plane0, smp, coord, 0.0).r - 0.0625); let uv = (textureSampleLevel(plane1, smp, coord, 0.0).rg - 0.5); let u = uv.x; let v = uv.y; let r = ((1.164000034 * y) + (params.vr * v)); let g = (((1.164000034 * y) - (params.ug * u)) - (params.vg * v)); let b = ((1.164000034 * y) + (params.ub * u)); return vec4(r, g, b, 1.0); } fn f(t : texture_2d, ext_tex_plane_1 : texture_2d, ext_tex_params : ExternalTextureParams, s : sampler, t2 : texture_2d, ext_tex_plane_1_1 : texture_2d, ext_tex_params_1 : ExternalTextureParams) { textureSampleExternal(t, ext_tex_plane_1, s, vec2(1.0, 2.0), ext_tex_params); textureSampleExternal(t2, ext_tex_plane_1_1, s, vec2(1.0, 2.0), ext_tex_params_1); } [[group(0), binding(3)]] var ext_tex_plane_1_2 : texture_2d; [[group(0), binding(4)]] var ext_tex_params_2 : ExternalTextureParams; [[group(0), binding(0)]] var ext_tex : texture_2d; [[group(0), binding(1)]] var smp : sampler; [[group(0), binding(5)]] var ext_tex_plane_1_3 : texture_2d; [[group(0), binding(6)]] var ext_tex_params_3 : ExternalTextureParams; [[group(0), binding(2)]] var ext_tex2 : texture_2d; [[stage(fragment)]] fn main() { f(ext_tex, ext_tex_plane_1_2, ext_tex_params_2, smp, ext_tex2, ext_tex_plane_1_3, ext_tex_params_3); } )"; DataMap data; data.Add( MultiplanarExternalTexture::BindingsMap{ {{0, 0}, {{0, 3}, {0, 4}}}, {{0, 2}, {{0, 5}, {0, 6}}}, }); auto got = Run(src, data); EXPECT_EQ(expect, str(got)); } // Tests that the texture_external passed to as a parameter to multiple // functions produces the correct output. TEST_F(MultiplanarExternalTextureTest, ExternalTexturePassedAsParamNested) { auto* src = R"( fn nested(t : texture_external, s : sampler) { textureSampleLevel(t, s, vec2(1.0, 2.0)); } fn f(t : texture_external, s : sampler) { nested(t, s); } [[group(0), binding(0)]] var ext_tex : texture_external; [[group(0), binding(1)]] var smp : sampler; [[stage(fragment)]] fn main() { f(ext_tex, smp); } )"; auto* expect = R"( struct ExternalTextureParams { numPlanes : u32; vr : f32; ug : f32; vg : f32; ub : f32; } fn textureSampleExternal(plane0 : texture_2d, plane1 : texture_2d, smp : sampler, coord : vec2, params : ExternalTextureParams) -> vec4 { if ((params.numPlanes == 1u)) { return textureSampleLevel(plane0, smp, coord, 0.0); } let y = (textureSampleLevel(plane0, smp, coord, 0.0).r - 0.0625); let uv = (textureSampleLevel(plane1, smp, coord, 0.0).rg - 0.5); let u = uv.x; let v = uv.y; let r = ((1.164000034 * y) + (params.vr * v)); let g = (((1.164000034 * y) - (params.ug * u)) - (params.vg * v)); let b = ((1.164000034 * y) + (params.ub * u)); return vec4(r, g, b, 1.0); } fn nested(t : texture_2d, ext_tex_plane_1 : texture_2d, ext_tex_params : ExternalTextureParams, s : sampler) { textureSampleExternal(t, ext_tex_plane_1, s, vec2(1.0, 2.0), ext_tex_params); } fn f(t : texture_2d, ext_tex_plane_1_1 : texture_2d, ext_tex_params_1 : ExternalTextureParams, s : sampler) { nested(t, ext_tex_plane_1_1, ext_tex_params_1, s); } [[group(0), binding(2)]] var ext_tex_plane_1_2 : texture_2d; [[group(0), binding(3)]] var ext_tex_params_2 : ExternalTextureParams; [[group(0), binding(0)]] var ext_tex : texture_2d; [[group(0), binding(1)]] var smp : sampler; [[stage(fragment)]] fn main() { f(ext_tex, ext_tex_plane_1_2, ext_tex_params_2, smp); } )"; DataMap data; data.Add( MultiplanarExternalTexture::BindingsMap{ {{0, 0}, {{0, 2}, {0, 3}}}, }); auto got = Run(src, data); EXPECT_EQ(expect, str(got)); } } // namespace } // namespace transform } // namespace tint