| /third_party/skia/third_party/externals/swiftshader/src/Pipeline/ |
| H A D | SetupRoutine.cpp | 63 X[0] = *Pointer<Int>(v0 + OFFSET(Vertex, projected.x)); in generate()
64 X[1] = *Pointer<Int>(v1 + OFFSET(Vertex, projected.x)); in generate()
65 X[2] = *Pointer<Int>(v2 + OFFSET(Vertex, projected.x)); in generate()
67 Y[0] = *Pointer<Int>(v0 + OFFSET(Vertex, projected.y)); in generate()
68 Y[1] = *Pointer<Int>(v1 + OFFSET(Vertex, projected.y)); in generate()
69 Y[2] = *Pointer<Int>(v2 + OFFSET(Vertex, projected.y)); in generate()
307 Float rhw0 = *Pointer<Float>(v0 + OFFSET(Vertex, projected.w)); in generate()
309 Int X0 = *Pointer<Int>(v0 + OFFSET(Vertex, projected.x)); in generate()
310 Int X1 = *Pointer<Int>(v1 + OFFSET(Vertex, projected.x)); in generate()
311 Int X2 = *Pointer<Int>(v2 + OFFSET(Vertex, projected in generate()
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| H A D | VertexRoutine.cpp | 623 *Pointer<Float4>(vertexCache + sizeof(Vertex) * cacheIndex3 + OFFSET(Vertex, projected), 16) = proj.w; in writeCache()
624 *Pointer<Float4>(vertexCache + sizeof(Vertex) * cacheIndex2 + OFFSET(Vertex, projected), 16) = proj.z; in writeCache()
625 *Pointer<Float4>(vertexCache + sizeof(Vertex) * cacheIndex1 + OFFSET(Vertex, projected), 16) = proj.y; in writeCache()
626 *Pointer<Float4>(vertexCache + sizeof(Vertex) * cacheIndex0 + OFFSET(Vertex, projected), 16) = proj.x; in writeCache()
704 *Pointer<Int4>(vertex + OFFSET(Vertex, projected)) = *Pointer<Int4>(cacheEntry + OFFSET(Vertex, projected)); in writeVertex()
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| /third_party/mesa3d/src/gallium/frontends/nine/ |
| H A D | nine_ff.h | 68 uint16_t projected = 0; in nine_ff_get_projected_key() local
105 projected |= (dim-1) << (2 * s); in nine_ff_get_projected_key()
107 return projected; in nine_ff_get_projected_key()
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| H A D | pixelshader9.h | 81 uint8_t projected; in NinePixelShader9_UpdateKey() local
100 * ps < 1.4: samplers_shadow 4b, samplers_ps1_types 8b, projected 8b in NinePixelShader9_UpdateKey()
107 projected = nine_ff_get_projected_key_programmable(context); in NinePixelShader9_UpdateKey()
108 key |= ((uint64_t) projected) << 12; in NinePixelShader9_UpdateKey()
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| H A D | pixelshader9.c | 63 info.projected = 0; in NinePixelShader9_ctor()
203 info.projected = (key >> 12) & 0xff; in NinePixelShader9_GetVariant()
206 info.projected = 0; in NinePixelShader9_GetVariant()
210 info.projected = 0; in NinePixelShader9_GetVariant()
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| H A D | nine_shader.h | 73 uint8_t projected; /* ps 1.1 to 1.3 */ member
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| H A D | nine_ff.c | 111 uint32_t projected : 16; member
1446 if (key->projected & (3 << (s *2))) { in nine_ff_build_ps()
1447 unsigned dim = 1 + ((key->projected >> (2 * s)) & 3); in nine_ff_build_ps()
1827 key.projected = nine_ff_get_projected_key_ff(context); in nine_ff_get_ps()
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| H A D | nine_shader.c | 858 unsigned dim = 1 + ((tx->info->projected >> (2 * idx)) & 3); in apply_ps1x_projection()
875 unsigned dim = 1 + ((tx->info->projected >> (2 * idx)) & 3); in TEX_with_ps1x_projection()
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| /third_party/libwebsockets/lib/misc/ |
| H A D | diskcache.c | 443 uint64_t avg = 4096, capacity, projected; in lws_diskcache_trim() local
459 projected = (lds->agg_size * 11) / 10; in lws_diskcache_trim()
460 if (projected < cache_size_limit) in lws_diskcache_trim()
463 projected) / capacity)); in lws_diskcache_trim()
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| /third_party/skia/third_party/externals/swiftshader/src/Device/ |
| H A D | Renderer.cpp | 716 float A = ((float)v0.projected.y - (float)v2.projected.y) * (float)v1.projected.x + in setupWireframeTriangles()
717 ((float)v2.projected.y - (float)v1.projected.y) * (float)v0.projected.x + in setupWireframeTriangles()
718 ((float)v1.projected.y - (float)v0.projected.y) * (float)v2.projected.x; // Area in setupWireframeTriangles()
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| H A D | Vertex.hpp | 51 } projected; variable
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| /third_party/mesa3d/src/compiler/nir/ |
| H A D | nir_lower_tex.c | 123 nir_ssa_def *projected = nir_fmul(b, unprojected, inv_proj); in project_src() local
125 /* Array indices don't get projected, so make an new vector with the in project_src()
131 projected = nir_vec4(b, in project_src()
132 nir_channel(b, projected, 0), in project_src()
133 nir_channel(b, projected, 1), in project_src()
134 nir_channel(b, projected, 2), in project_src()
138 projected = nir_vec3(b, in project_src()
139 nir_channel(b, projected, 0), in project_src()
140 nir_channel(b, projected, 1), in project_src()
144 projected in project_src()
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| /third_party/vk-gl-cts/modules/gles2/functional/ |
| H A D | es2fRasterizationTests.cpp | 1815 // line interpolation weights are otherwise correct, but they are projected onto major axis
1817 << "Interpolation was calculated using coordinates projected onto major axis. "
1820 m_result.addResult(QP_TEST_RESULT_QUALITY_WARNING, "Interpolation was calculated using projected coordinateds");
1996 fillRules->addChild(new FillRuleCase(m_context, "projected", "Verify fill rules", FillRuleCase::FILLRULECASE_PROJECTED));
2068 // .projected
2070 tcu::TestCaseGroup* const projected = new tcu::TestCaseGroup(m_testCtx, "projected", "Projective interpolation");
2072 interpolation->addChild(projected);
2074 projected->addChild(new TriangleInterpolationTest (m_context, "triangles", "Verify triangle interpolation", GL_TRIANGLES, INTERPOLATIONFLAGS_PROJECTED));
2075 projected
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| /third_party/vk-gl-cts/modules/gles3/functional/ |
| H A D | es3fRasterizationTests.cpp | 2037 // line interpolation weights are otherwise correct, but they are projected onto major axis
2039 << "Interpolation was calculated using coordinates projected onto major axis. "
2042 m_result.addResult(QP_TEST_RESULT_QUALITY_WARNING, "Interpolation was calculated using projected coordinateds");
2241 fillRules->addChild(new FillRuleCase(m_context, "projected", "Verify fill rules", FillRuleCase::FILLRULECASE_PROJECTED));
2313 // .projected
2315 tcu::TestCaseGroup* const projected = new tcu::TestCaseGroup(m_testCtx, "projected", "Projective interpolation");
2317 interpolation->addChild(projected);
2319 projected->addChild(new TriangleInterpolationTest (m_context, "triangles", "Verify triangle interpolation", GL_TRIANGLES, INTERPOLATIONFLAGS_PROJECTED));
2320 projected
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| /third_party/skia/src/gpu/geometry/ |
| H A D | GrQuadUtils.cpp | 326 // Bounds of just the projected points in front of w = epsilon in projectedBounds()
663 // Calculate all projected edge vector values for this quad. in reset()
978 // When the projected device quad is not degenerate, the vertex corners can move
1146 // the distance of the inset's projected corners to the original edges.
1228 // For perspective, non-degenerate quads, use moveAlong for the projected points and then
1230 Vertices projected = { fEdgeVectors.fX2D, fEdgeVectors.fY2D, /*w*/ 1.f, 0.f, 0.f, 0.f, 0 };
1231 projected.moveAlong(fEdgeVectors, signedEdgeDistances);
1232 vertices->moveTo(projected.fX, projected.fY, signedEdgeDistances != 0.f);
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| /third_party/vk-gl-cts/external/vulkancts/modules/vulkan/rasterization/ |
| H A D | vktRasterizationTests.cpp | 8220 fillRules->addChild(new FillRuleTestCase(testCtx, "projected", FillRuleTestInstance::FILLRULECASE_PROJECTED));
8646 // .projected
8648 tcu::TestCaseGroup* const projected = new tcu::TestCaseGroup(testCtx, "projected", "Projective interpolation");
8650 interpolation->addChild(projected);
8653 projected->addChild(new TriangleInterpolationTestCase (testCtx, "triangles", VK_PRIMITIVE_TOPOLOGY_TRIANGLE_LIST, INTERPOLATIONFLAGS_PROJECTED));
8655 projected->addChild(new TriangleInterpolationTestCase (testCtx, "triangle_strip", VK_PRIMITIVE_TOPOLOGY_TRIANGLE_STRIP, INTERPOLATIONFLAGS_PROJECTED));
8657 projected->addChild(new TriangleInterpolationTestCase (testCtx, "triangle_fan", VK_PRIMITIVE_TOPOLOGY_TRIANGLE_FAN, INTERPOLATIONFLAGS_PROJECTED));
8659 projected->addChild(new LineInterpolationTestCase (testCtx, "lines", VK_PRIMITIVE_TOPOLOGY_LINE_LIST, INTERPOLATIONFLAGS_PROJECTED, PRIMITIVEWIDENESS_NARROW, PRIMITIVESTRICTNESS_IGNORE));
8661 projected
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| /third_party/vk-gl-cts/external/vulkancts/modules_no_buildgn/vulkan/rasterization/ |
| H A D | vktRasterizationTests.cpp | 7095 fillRules->addChild(new FillRuleTestCase(testCtx, "projected", "Verify fill rules", FillRuleTestInstance::FILLRULECASE_PROJECTED));
7507 // .projected
7509 tcu::TestCaseGroup* const projected = new tcu::TestCaseGroup(testCtx, "projected", "Projective interpolation");
7511 interpolation->addChild(projected);
7513 projected->addChild(new TriangleInterpolationTestCase (testCtx, "triangles", "Verify triangle interpolation", VK_PRIMITIVE_TOPOLOGY_TRIANGLE_LIST, INTERPOLATIONFLAGS_PROJECTED));
7514 projected->addChild(new TriangleInterpolationTestCase (testCtx, "triangle_strip", "Verify triangle strip interpolation", VK_PRIMITIVE_TOPOLOGY_TRIANGLE_STRIP, INTERPOLATIONFLAGS_PROJECTED));
7515 projected->addChild(new TriangleInterpolationTestCase (testCtx, "triangle_fan", "Verify triangle fan interpolation", VK_PRIMITIVE_TOPOLOGY_TRIANGLE_FAN, INTERPOLATIONFLAGS_PROJECTED));
7516 projected->addChild(new LineInterpolationTestCase (testCtx, "lines", "Verify line interpolation", VK_PRIMITIVE_TOPOLOGY_LINE_LIST, INTERPOLATIONFLAGS_PROJECTED, PRIMITIVEWIDENESS_NARROW, PRIMITIVESTRICTNESS_IGNORE));
7517 projected
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