/* test_alphaComp.c * vi:ts=4 sw=4 * * (c) Copyright 2012 Hewlett-Packard Development Company, L.P. * 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. */ #ifdef HAVE_CONFIG_H #include "config.h" #endif #include #include "prim_test.h" static const int ALPHA_PRETEST_ITERATIONS = 5000000; static const float TEST_TIME = 5.0; static const int block_size[] = { 4, 64, 256 }; #define NUM_BLOCK_SIZES (sizeof(block_size)/sizeof(int)) #define MAX_BLOCK_SIZE 256 #define SIZE_SQUARED (MAX_BLOCK_SIZE*MAX_BLOCK_SIZE) /* ========================================================================= */ #define ALF(_c_) (((_c_) & 0xFF000000U) >> 24) #define RED(_c_) (((_c_) & 0x00FF0000U) >> 16) #define GRN(_c_) (((_c_) & 0x0000FF00U) >> 8) #define BLU(_c_) ((_c_) & 0x000000FFU) #define TOLERANCE 1 static inline const UINT32* PIXEL(const BYTE* _addr_, UINT32 _bytes_, UINT32 _x_, UINT32 _y_) { const BYTE* addr = _addr_ + _x_ * sizeof(UINT32) + _y_ * _bytes_; return (const UINT32*)addr; } #define SRC1_WIDTH 6 #define SRC1_HEIGHT 6 #define SRC2_WIDTH 7 #define SRC2_HEIGHT 7 #define DST_WIDTH 9 #define DST_HEIGHT 9 #define TEST_WIDTH 4 #define TEST_HEIGHT 5 /* ------------------------------------------------------------------------- */ static UINT32 alpha_add( UINT32 c1, UINT32 c2) { UINT32 a1 = ALF(c1); UINT32 r1 = RED(c1); UINT32 g1 = GRN(c1); UINT32 b1 = BLU(c1); UINT32 a2 = ALF(c2); UINT32 r2 = RED(c2); UINT32 g2 = GRN(c2); UINT32 b2 = BLU(c2); UINT32 a3 = ((a1 * a1 + (255 - a1) * a2) / 255) & 0xff; UINT32 r3 = ((a1 * r1 + (255 - a1) * r2) / 255) & 0xff; UINT32 g3 = ((a1 * g1 + (255 - a1) * g2) / 255) & 0xff; UINT32 b3 = ((a1 * b1 + (255 - a1) * b2) / 255) & 0xff; return (a3 << 24) | (r3 << 16) | (g3 << 8) | b3; } /* ------------------------------------------------------------------------- */ static UINT32 colordist( UINT32 c1, UINT32 c2) { int d, maxd = 0; d = ABS(ALF(c1) - ALF(c2)); if (d > maxd) maxd = d; d = ABS(RED(c1) - RED(c2)); if (d > maxd) maxd = d; d = ABS(GRN(c1) - GRN(c2)); if (d > maxd) maxd = d; d = ABS(BLU(c1) - BLU(c2)); if (d > maxd) maxd = d; return maxd; } /* ------------------------------------------------------------------------- */ static BOOL check(const BYTE* pSrc1, UINT32 src1Step, const BYTE* pSrc2, UINT32 src2Step, BYTE* pDst, UINT32 dstStep, UINT32 width, UINT32 height) { UINT32 x, y; for (y = 0; y < height; ++y) { for (x = 0; x < width; ++x) { UINT32 s1 = *PIXEL(pSrc1, src1Step, x, y); UINT32 s2 = *PIXEL(pSrc2, src2Step, x, y); UINT32 c0 = alpha_add(s1, s2); UINT32 c1 = *PIXEL(pDst, dstStep, x, y); if (colordist(c0, c1) > TOLERANCE) { printf("alphaComp-general: [%"PRIu32",%"PRIu32"] 0x%08"PRIx32"+0x%08"PRIx32"=0x%08"PRIx32", got 0x%08"PRIx32"\n", x, y, s1, s2, c0, c1); return FALSE; } } } return TRUE; } static BOOL test_alphaComp_func(void) { pstatus_t status; BYTE ALIGN(src1[SRC1_WIDTH * SRC1_HEIGHT * 4]); BYTE ALIGN(src2[SRC2_WIDTH * SRC2_HEIGHT * 4]); BYTE ALIGN(dst1[DST_WIDTH * DST_HEIGHT * 4]); UINT32* ptr; UINT32 i; winpr_RAND((BYTE*)src1, sizeof(src1)); /* Special-case the first two values */ src1[0] &= 0x00FFFFFFU; src1[1] |= 0xFF000000U; winpr_RAND((BYTE*)src2, sizeof(src2)); /* Set the second operand to fully-opaque. */ ptr = (UINT32*)src2; for (i = 0; i < sizeof(src2) / 4; ++i) *ptr++ |= 0xFF000000U; memset(dst1, 0, sizeof(dst1)); status = generic->alphaComp_argb(src1, 4 * SRC1_WIDTH, src2, 4 * SRC2_WIDTH, dst1, 4 * DST_WIDTH, TEST_WIDTH, TEST_HEIGHT); if (status != PRIMITIVES_SUCCESS) return FALSE; if (!check(src1, 4 * SRC1_WIDTH, src2, 4 * SRC2_WIDTH, dst1, 4 * DST_WIDTH, TEST_WIDTH, TEST_HEIGHT)) return FALSE; status = optimized->alphaComp_argb((const BYTE*) src1, 4 * SRC1_WIDTH, (const BYTE*) src2, 4 * SRC2_WIDTH, (BYTE*) dst1, 4 * DST_WIDTH, TEST_WIDTH, TEST_HEIGHT); if (status != PRIMITIVES_SUCCESS) return FALSE; if (!check(src1, 4 * SRC1_WIDTH, src2, 4 * SRC2_WIDTH, dst1, 4 * DST_WIDTH, TEST_WIDTH, TEST_HEIGHT)) return FALSE; return TRUE; } static int test_alphaComp_speed(void) { BYTE ALIGN(src1[SRC1_WIDTH * SRC1_HEIGHT]); BYTE ALIGN(src2[SRC2_WIDTH * SRC2_HEIGHT]); BYTE ALIGN(dst1[DST_WIDTH * DST_HEIGHT]); char testStr[256]; UINT32* ptr; UINT32 i; testStr[0] = '\0'; winpr_RAND((BYTE*)src1, sizeof(src1)); /* Special-case the first two values */ src1[0] &= 0x00FFFFFFU; src1[1] |= 0xFF000000U; winpr_RAND((BYTE*)src2, sizeof(src2)); /* Set the second operand to fully-opaque. */ ptr = (UINT32*)src2; for (i = 0; i < sizeof(src2) / 4; ++i) *ptr++ |= 0xFF000000U; memset(dst1, 0, sizeof(dst1)); if (!speed_test("add16s", "aligned", g_Iterations, (speed_test_fkt)generic->alphaComp_argb, (speed_test_fkt)optimized->alphaComp_argb, src1, 4 * SRC1_WIDTH, src2, 4 * SRC2_WIDTH, dst1, 4 * DST_WIDTH, TEST_WIDTH, TEST_HEIGHT)) return FALSE; return TRUE; } int TestPrimitivesAlphaComp(int argc, char* argv[]) { prim_test_setup(FALSE); if (!test_alphaComp_func()) return -1; if (g_TestPrimitivesPerformance) { if (!test_alphaComp_speed()) return -1; } return 0; }