Lines Matching defs:triR
667 const tcu::Vec3 triR[2] = { rq.swizzle(0, 1, 2), rq.swizzle(3, 2, 1) };
687 triangleInterpolate(triR[triNdx], triNx, triNy));
690 triDerivateX(triR[triNdx], triW[triNdx], wx, dstW, triNy));
693 triDerivateY(triR[triNdx], triW[triNdx], wy, dstH, triNx));
736 tcu::Vec3 triR[2] = { rq.swizzle(0, 1, 2), rq.swizzle(3, 2, 1) };
753 float r = triangleInterpolate(triR[triNdx].x(), triR[triNdx].y(), triR[triNdx].z(), triX, triY);
831 tcu::Vec3 triR[2] = { rq.swizzle(0, 1, 2), rq.swizzle(3, 2, 1) };
832 float triLod[2] = { de::clamp(computeNonProjectedTriLod(params.lodMode, dstSize, srcSize, triS[0], triT[0], triR[0]) + lodBias, params.minLod, params.maxLod),
833 de::clamp(computeNonProjectedTriLod(params.lodMode, dstSize, srcSize, triS[1], triT[1], triR[1]) + lodBias, params.minLod, params.maxLod) };
848 float r = triangleInterpolate(triR[triNdx].x(), triR[triNdx].y(), triR[triNdx].z(), triX, triY);
875 tcu::Vec3 triR[2] = { rq.swizzle(0, 1, 2), rq.swizzle(3, 2, 1) };
898 float r = projectedTriInterpolate(triR[triNdx], triP[triNdx], triNx, triNy);
942 tcu::Vec3 triR[2] = { rq.swizzle(0, 1, 2), rq.swizzle(3, 2, 1) };
963 triangleInterpolate(triR[triNdx], triNx, triNy));
969 triDerivateX(triR[triNdx], triW[triNdx], wx, dstW, triNy));
972 triDerivateY(triR[triNdx], triW[triNdx], wy, dstH, triNx));
1650 const tcu::Vec3 triR[2] = { rq.swizzle(0, 1, 2), rq.swizzle(3, 2, 1) };
1718 projectedTriInterpolate(triR[triNdx], triW[triNdx], triNx, triNy));
1721 triDerivateX(triR[triNdx], triW[triNdx], wx, dstW, triNy));
1724 triDerivateY(triR[triNdx], triW[triNdx], wy, dstH, triNx));
1738 projectedTriInterpolate(triR[triNdx], triW[triNdx], nxo, nyo));
1741 triDerivateX(triR[triNdx], triW[triNdx], wxo, dstW, nyo));
1744 triDerivateY(triR[triNdx], triW[triNdx], wyo, dstH, nxo));
1847 const tcu::Vec3 triR[2] = { rq.swizzle(0, 1, 2), rq.swizzle(3, 2, 1) };
1909 projectedTriInterpolate(triR[triNdx], triW[triNdx], triNx, triNy));
1912 triDerivateX(triR[triNdx], triW[triNdx], wx, dstW, triNy)) * srcSize.asFloat();
1915 triDerivateY(triR[triNdx], triW[triNdx], wy, dstH, triNx)) * srcSize.asFloat();
1929 triDerivateX(triR[triNdx], triW[triNdx], wxo, dstW, nyo)) * srcSize.asFloat();
1932 triDerivateY(triR[triNdx], triW[triNdx], wyo, dstH, nxo)) * srcSize.asFloat();
2132 const tcu::Vec3 triR[2] = { rq.swizzle(0, 1, 2), rq.swizzle(3, 2, 1) };
2176 projectedTriInterpolate(triR[triNdx], triW[triNdx], triNx, triNy));
2330 const tcu::Vec3 triR[2] = { rq.swizzle(0, 1, 2), rq.swizzle(3, 2, 1) };
2392 projectedTriInterpolate(triR[triNdx], triW[triNdx], triNx, triNy),
2396 triDerivateX(triR[triNdx], triW[triNdx], wx, dstW, triNy));
2399 triDerivateY(triR[triNdx], triW[triNdx], wy, dstH, triNx));
2413 projectedTriInterpolate(triR[triNdx], triW[triNdx], nxo, nyo));
2416 triDerivateX(triR[triNdx], triW[triNdx], wxo, dstW, nyo));
2419 triDerivateY(triR[triNdx], triW[triNdx], wyo, dstH, nxo));
2625 const tcu::Vec3 triR[2] = { rq.swizzle(0, 1, 2), rq.swizzle(3, 2, 1) };
2676 projectedTriInterpolate(triR[triNdx], triW[triNdx], triNx, triNy));
2679 triDerivateX(triR[triNdx], triW[triNdx], wx, dstW, triNy));
2682 triDerivateY(triR[triNdx], triW[triNdx], wy, dstH, triNx));
2696 projectedTriInterpolate(triR[triNdx], triW[triNdx], nxo, nyo));
2699 triDerivateX(triR[triNdx], triW[triNdx], wxo, dstW, nyo));
2702 triDerivateY(triR[triNdx], triW[triNdx], wyo, dstH, nxo));
2749 const tcu::Vec3 triR[2] = { rq.swizzle(0, 1, 2), rq.swizzle(3, 2, 1) };
2798 projectedTriInterpolate(triR[triNdx], triW[triNdx], triNx, triNy));
3078 const tcu::Vec3 triR[2] = { rq.swizzle(0, 1, 2), rq.swizzle(3, 2, 1) };
3128 projectedTriInterpolate(triR[triNdx], triW[triNdx], triNx, triNy),
3132 triDerivateX(triR[triNdx], triW[triNdx], wx, dstW, triNy));
3135 triDerivateY(triR[triNdx], triW[triNdx], wy, dstH, triNx));
3149 projectedTriInterpolate(triR[triNdx], triW[triNdx], nxo, nyo));
3152 triDerivateX(triR[triNdx], triW[triNdx], wxo, dstW, nyo));
3155 triDerivateY(triR[triNdx], triW[triNdx], wyo, dstH, nxo));