/** * Contrast Characterization Unit Test Cases. */ TInt32 test_metric_contrast_characterization(TUint8* aDirPath) { TAlgoError ret = EErrorNone; TAlgoMetricParams aMetricParams; TUint8 dir[128]; TUint8 dir1[128]; aMetricParams.iErrorTolerance.iErrorToleranceR = 0; aMetricParams.iErrorTolerance.iErrorToleranceG = 0; aMetricParams.iErrorTolerance.iErrorToleranceB = 0; aMetricParams.iType = ETypeContrast; aMetricParams.iTestCoordinates.iStartIndexX = 0; aMetricParams.iTestCoordinates.iStartIndexY = 0; aMetricParams.iTestCoordinates.iPixelsToGrabX = 640; aMetricParams.iTestCoordinates.iPixelsToGrabY = 480; ALGO_Log_0("*************CONTRAST METRIC TEST 1************ \n"); AlgoStrcpy(dir, aDirPath); AlgoStrcat(dir, "\\Contrast\\CONTRAST_IM1_Disable.bmp"); AlgoStrcpy(dir1, aDirPath); AlgoStrcat(dir1, "\\Contrast\\CONTRAST_IM1_Enable.bmp"); ret = ValidationMetricInterfaceWithFiles(NULL, NULL, dir, dir1, &aMetricParams ); Metrcis_Print_Result(ret); ALGO_Log_0("*************CONTRAST METRIC TEST 2************ \n"); AlgoStrcpy(dir, aDirPath); AlgoStrcat(dir, "\\Contrast\\CONTRAST_IM2_Disable.bmp"); AlgoStrcpy(dir1, aDirPath); AlgoStrcat(dir1, "\\Contrast\\CONTRAST_IM2_Enable.bmp"); ret = ValidationMetricInterfaceWithFiles(NULL, NULL, dir, dir1, &aMetricParams ); Metrcis_Print_Result(ret); ALGO_Log_0("*************CONTRAST METRIC TEST 3************ \n"); AlgoStrcpy(dir, aDirPath); AlgoStrcat(dir, "\\Contrast\\CONTRAST_IM3_Disable.bmp"); AlgoStrcpy(dir1, aDirPath); AlgoStrcat(dir1, "\\Contrast\\CONTRAST_IM3_Enable.bmp"); ret = ValidationMetricInterfaceWithFiles(NULL, NULL, dir, dir1, &aMetricParams ); Metrcis_Print_Result(ret); ALGO_Log_0("*************CONTRAST METRIC TEST 4************ \n"); AlgoStrcpy(dir, aDirPath); AlgoStrcat(dir, "\\Contrast\\CONTRAST_IM4_Disable.bmp"); AlgoStrcpy(dir1, aDirPath); AlgoStrcat(dir1, "\\Contrast\\CONTRAST_IM4_Enable.bmp"); ret = ValidationMetricInterfaceWithFiles(NULL, NULL, dir, dir1, &aMetricParams ); Metrcis_Print_Result(ret); ALGO_Log_0("*************CONTRAST METRIC TEST 5************ \n"); AlgoStrcpy(dir, aDirPath); AlgoStrcat(dir, "\\Contrast\\CONTRAST_IM5_Disable.bmp"); AlgoStrcpy(dir1, aDirPath); AlgoStrcat(dir1, "\\Contrast\\CONTRAST_IM5_Enable.bmp"); ret = ValidationMetricInterfaceWithFiles(NULL, NULL, dir, dir1, &aMetricParams ); Metrcis_Print_Result(ret); return 0; }
/** * Gamma Characterization Unit Test Cases. */ TInt32 test_metric_gamma_characterization(TUint8* aDirPath) { TAlgoError ret = EErrorNone; TAlgoMetricParams aMetricParams; TUint8 dir[128]; TUint8 dir1[128]; TUint32 memDisable = 0; TUint32 memEnable = 0; //TAlgoImageParams aImageParams; TUint64 size = 0; aMetricParams.iErrorTolerance.iErrorToleranceR = 0; aMetricParams.iErrorTolerance.iErrorToleranceG = 0; aMetricParams.iErrorTolerance.iErrorToleranceB = 0; aMetricParams.iType = ETypeGamma; aMetricParams.iTestCoordinates.iStartIndexX = 0; aMetricParams.iTestCoordinates.iStartIndexY = 0; aMetricParams.iTestCoordinates.iPixelsToGrabX = 640; aMetricParams.iTestCoordinates.iPixelsToGrabY = 480; /* ALGO_Log_0("*************GAMMA METRIC TEST 1************ \n"); AlgoStrcpy(dir, aDirPath); AlgoStrcat(dir, "\\Gamma\\GAMMA_IM1_Disable.gam"); AlgoStrcpy(dir1, aDirPath); AlgoStrcat(dir1, "\\Gamma\\GAMMA_IM1_Enable.gam"); ret = ValidationMetricInterfaceWithFiles(NULL, NULL, dir, dir1, &aMetricParams ); Metrcis_Print_Result(ret); ALGO_Log_0("*************GAMMA METRIC TEST 2************ \n"); AlgoStrcpy(dir, aDirPath); AlgoStrcat(dir, "\\Gamma\\GAMMA_IM2_Disable.yuv"); AlgoStrcpy(dir1, aDirPath); AlgoStrcat(dir1, "\\Gamma\\GAMMA_IM2_Enable.yuv"); aImageParams.iImageFormat = EImageFormatYUV422Interleaved; aImageParams.iImageHeight = 480; aImageParams.iImageWidth = 640; aImageParams.iImageHeaderLength = 0; ret = ValidationMetricInterfaceWithFiles(&aImageParams, &aImageParams, dir, dir1, &aMetricParams ); Metrcis_Print_Result(ret); */ ALGO_Log_0("*************GAMMA METRIC TEST 3************ \n"); AlgoStrcpy(dir, aDirPath); AlgoStrcat(dir, "\\Gamma\\GAMMA_IM3_Disable.gam"); AlgoStrcpy(dir1, aDirPath); AlgoStrcat(dir1, "\\Gamma\\GAMMA_IM3_Enable.gam"); ret = ValidationMetricInterfaceWithFiles(NULL, NULL, dir, dir1, &aMetricParams ); Metrcis_Print_Result(ret); return 0; }
/** * Spatial Similar Unit Test Cases. */ TInt32 test_metric_spatialsimilar(char *aFileNameImageEffectDisable, char *aFileNameImageEffectEnable) { TAlgoError ret = EErrorNone; TAlgoMetricParams aMetricParams; ALGO_Log_0("************* SPATIAL SIMILAR METRIC TEST ************ \n"); aMetricParams.iErrorTolerance.iErrorToleranceR = 0; aMetricParams.iErrorTolerance.iErrorToleranceG = 0; aMetricParams.iErrorTolerance.iErrorToleranceB = 0; aMetricParams.iType = ETypeSpatialSimilar; aMetricParams.iMetricRange.iRangeR = 0; aMetricParams.iMetricRange.iRangeG = 0; aMetricParams.iMetricRange.iRangeB = 0; aMetricParams.iParams = (TAny*)NULL; ret = ValidationMetricInterfaceWithFiles(NULL, NULL, aFileNameImageEffectDisable, aFileNameImageEffectEnable, &aMetricParams); Metrcis_Print_Result(ret); return 0; }
/** * Color Tone Characterization Unit Test Cases. */ TInt32 test_metric_colortone_characterization(TUint8* aDirPath) { TAlgoError ret = EErrorNone; TAlgoMetricParams aMetricParams; TUint8 dir[128]; TUint8 dir1[128]; TAlgoMatrix matrix; TUint32 memDisable = 0; TUint32 memEnable = 0; //TUint8* bufferEffectDisable; //TUint8* bufferEffectEnable; //TAlgoImageParams aImageParams; //TAny* file; //TAny* file1; TUint64 size = 0; aMetricParams.iErrorTolerance.iErrorToleranceR = 20; aMetricParams.iErrorTolerance.iErrorToleranceG = 20; aMetricParams.iErrorTolerance.iErrorToleranceB = 20; aMetricParams.iType = ETypeColorTone; aMetricParams.iTestCoordinates.iStartIndexX = 0; aMetricParams.iTestCoordinates.iStartIndexY = 0; aMetricParams.iTestCoordinates.iPixelsToGrabX = 640; aMetricParams.iTestCoordinates.iPixelsToGrabY = 480; matrix.iMatrix[0][0] = (TReal32)2.5415; matrix.iMatrix[0][1] = (TReal32)-1.5587; matrix.iMatrix[0][2] = (TReal32)0.0173; matrix.iMatrix[1][0] = (TReal32)-0.6080; matrix.iMatrix[1][1] = (TReal32)2.2818; matrix.iMatrix[1][2] = (TReal32)-0.6739; matrix.iMatrix[2][0] = (TReal32)-0.0365; matrix.iMatrix[2][1] = (TReal32)-0.6038; matrix.iMatrix[2][2] = (TReal32)1.6403; aMetricParams.iParams = &matrix; ALGO_Log_0("*************COLOR TONE METRIC TEST 1************ \n"); AlgoStrcpy(dir, aDirPath); AlgoStrcat(dir, "\\ColorTone\\COLORTONE_IM1_Disable.bmp"); AlgoStrcpy(dir1, aDirPath); AlgoStrcat(dir1, "\\ColorTone\\COLORTONE_IM1_Enable.bmp"); ret = ValidationMetricInterfaceWithFiles(NULL, NULL, dir, dir1, &aMetricParams ); Metrcis_Print_Result(ret); ALGO_Log_0("*************COLOR TONE METRIC TEST 2************ \n"); AlgoStrcpy(dir, aDirPath); AlgoStrcat(dir, "\\ColorTone\\COLORTONE_IM2_Disable.bmp"); AlgoStrcpy(dir1, aDirPath); AlgoStrcat(dir1, "\\ColorTone\\COLORTONE_IM2_Enable.bmp"); ret = ValidationMetricInterfaceWithFiles(NULL, NULL, dir, dir1, &aMetricParams ); Metrcis_Print_Result(ret); ALGO_Log_0("*************COLOR TONE METRIC TEST 3************ \n"); AlgoStrcpy(dir, aDirPath); AlgoStrcat(dir, "\\ColorTone\\COLORTONE_IM3_Disable.bmp"); AlgoStrcpy(dir1, aDirPath); AlgoStrcat(dir1, "\\ColorTone\\COLORTONE_IM3_Enable.bmp"); ret = ValidationMetricInterfaceWithFiles(NULL, NULL, dir, dir1, &aMetricParams ); Metrcis_Print_Result(ret); Metrcis_Print_Result(ret); return 0; }
/** * centerfieldofview Unit Test Cases. */ TInt32 test_metric_centerfieldofview_characterization(TUint8* aDirPath) { TAlgoError ret = EErrorNone; TAlgoMetricParams aMetricParams; TInt8 *pString = NULL; TInt8 *pHandle = NULL; TInt32 nX = 0, nY = 0, nX1 = 0, nY1 = 0; TUint8 dir[128]; TUint8 dir1[128]; TAlgoParamCenterFieldOfView paramCenterFieldOfView; char cfow_patern[]="_cfow_"; ALGO_Log_0("*************CENTERFIELDOFVIEW METRIC TEST 1************ \n"); pString = dir; AlgoStrcpy(pString, aDirPath); AlgoStrcat(pString, "cfow//frame_1__reso_320_x_240_id_001_format_bmp_cfow_0_0.bmp"); pHandle = strstr(pString, cfow_patern); if(pHandle) { pHandle += strlen(cfow_patern); sscanf (pHandle,"%d_%d", &nX, &nY); ALGO_Log_2 ("detected nX %d , nY %d\n", nX, nY); } else { ALGO_Log_0("cfow not recognazied\n"); } pString = dir1; AlgoStrcpy(pString, aDirPath); AlgoStrcat(pString, "cfow//frame_1__reso_320_x_240_id_002_format_bmp_cfow_16_32.bmp"); pHandle = strstr(pString, cfow_patern); if(pHandle) { pHandle += strlen(cfow_patern); sscanf (pHandle,"%d_%d", &nX1, &nY1); ALGO_Log_2 ("detected nX %d , nY %d\n", nX1, nY1); } else { ALGO_Log_0("cfow not recognazied\n"); } aMetricParams.iType = ETypeCenterFieldOfView; aMetricParams.iErrorTolerance.iErrorToleranceR = 5; aMetricParams.iErrorTolerance.iErrorToleranceG = 0; aMetricParams.iErrorTolerance.iErrorToleranceB = 0; aMetricParams.iMetricRange.iRangeR = 0; aMetricParams.iMetricRange.iRangeG = 0; aMetricParams.iMetricRange.iRangeB = 0; aMetricParams.iTestCoordinates.iStartIndexX = 0; // not used aMetricParams.iTestCoordinates.iStartIndexY = 0; // not used aMetricParams.iTestCoordinates.iPixelsToGrabX = 0; // size max of common widow is computed by metric aMetricParams.iTestCoordinates.iPixelsToGrabY = 0; // size max of common widow is computed by metric paramCenterFieldOfView.iX = nX1 - nX; paramCenterFieldOfView.iY = nY1 - nY; paramCenterFieldOfView.iTolerance = 5; aMetricParams.iParams = ¶mCenterFieldOfView; ret = ValidationMetricInterfaceWithFiles(NULL, NULL, dir, dir1, &aMetricParams ); Metrcis_Print_Result(ret); ALGO_Log_0("*************CENTERFIELDOFVIEW METRIC TEST 2************ \n"); pString = dir; AlgoStrcpy(pString, aDirPath); AlgoStrcat(pString, "cfow//frame_1__reso_320_x_240_id_001_format_bmp_cfow_0_0.bmp"); pHandle = strstr(pString, cfow_patern); if(pHandle) { pHandle += strlen(cfow_patern); sscanf (pHandle,"%d_%d", &nX, &nY); ALGO_Log_2 ("detected nX %d , nY %d\n", nX, nY); } else { ALGO_Log_0("cfow not recognazied\n"); } pString = dir1; AlgoStrcpy(pString, aDirPath); AlgoStrcat(pString, "cfow//frame_1__reso_320_x_240_id_002_format_bmp_cfow_16_-32.bmp"); pHandle = strstr(pString, cfow_patern); if(pHandle) { pHandle += strlen(cfow_patern); sscanf (pHandle,"%d_%d", &nX1, &nY1); ALGO_Log_2 ("detected nX %d , nY %d\n", nX1, nY1); } else { ALGO_Log_0("cfow not recognazied\n"); } aMetricParams.iType = ETypeCenterFieldOfView; aMetricParams.iErrorTolerance.iErrorToleranceR = 5; aMetricParams.iErrorTolerance.iErrorToleranceG = 0; aMetricParams.iErrorTolerance.iErrorToleranceB = 0; aMetricParams.iMetricRange.iRangeR = 0; aMetricParams.iMetricRange.iRangeG = 0; aMetricParams.iMetricRange.iRangeB = 0; aMetricParams.iTestCoordinates.iStartIndexX = 0; // not used aMetricParams.iTestCoordinates.iStartIndexY = 0; // not used aMetricParams.iTestCoordinates.iPixelsToGrabX = 0; // size max of common widow is computed by metric aMetricParams.iTestCoordinates.iPixelsToGrabY = 0; // size max of common widow is computed by metric paramCenterFieldOfView.iX = nX1 - nX; paramCenterFieldOfView.iY = nY1 - nY; paramCenterFieldOfView.iTolerance = 5; aMetricParams.iParams = ¶mCenterFieldOfView; ret = ValidationMetricInterfaceWithFiles(NULL, NULL, dir, dir1, &aMetricParams ); Metrcis_Print_Result(ret); return 0; }
/** * Negative Characterization Unit Test Cases. */ TInt32 test_metric_negative_characterization(TUint8* aDirPath) { TAlgoError ret = EErrorNone; TAlgoMetricRange metricRange; TAlgoMetricParams aMetricParams; TUint8 dir[128]; TUint8 dir1[128]; metricRange.iRangeR = 0; metricRange.iRangeG = 0; metricRange.iRangeB = 0; aMetricParams.iErrorTolerance.iErrorToleranceR = 2; aMetricParams.iErrorTolerance.iErrorToleranceG = 2; aMetricParams.iErrorTolerance.iErrorToleranceB = 2; aMetricParams.iType = ETypeNegativeImage; aMetricParams.iMetricRange = metricRange; aMetricParams.iTestCoordinates.iStartIndexX = 0; aMetricParams.iTestCoordinates.iStartIndexY = 0; aMetricParams.iTestCoordinates.iPixelsToGrabX = 2048; aMetricParams.iTestCoordinates.iPixelsToGrabY = 1536; ALGO_Log_0("*************NEGATIVE METRIC TEST 1************ \n"); AlgoStrcpy(dir, aDirPath); AlgoStrcat(dir, "\\Negative\\neg1\\Input_rgb16_2048_1536.bmp"); AlgoStrcpy(dir1, aDirPath); AlgoStrcat(dir1, "\\Negative\\neg1\\Output1_rgb16_2048_1536.bmp"); ret = ValidationMetricInterfaceWithFiles(NULL, NULL, dir, dir1, &aMetricParams ); Metrcis_Print_Result(ret); ALGO_Log_0("*************NEGATIVE METRIC TEST 2************ \n"); AlgoStrcpy(dir, aDirPath); AlgoStrcat(dir, "\\Negative\\neg1\\Input_rgb16_2048_1536.bmp"); AlgoStrcpy(dir1, aDirPath); AlgoStrcat(dir1, "\\Negative\\neg1\\Output2_rgb16_2048_1536.bmp"); ret = ValidationMetricInterfaceWithFiles(NULL, NULL, dir, dir1, &aMetricParams ); Metrcis_Print_Result(ret); ALGO_Log_0("*************NEGATIVE METRIC TEST 3************ \n"); AlgoStrcpy(dir, aDirPath); AlgoStrcat(dir, "\\Negative\\neg1\\Input_rgb16_2048_1536.bmp"); AlgoStrcpy(dir1, aDirPath); AlgoStrcat(dir1, "\\Negative\\neg1\\Output3_rgb16_2048_1536.bmp"); ret = ValidationMetricInterfaceWithFiles(NULL, NULL, dir, dir1, &aMetricParams ); Metrcis_Print_Result(ret); ALGO_Log_0("*************NEGATIVE METRIC TEST 4************ \n"); AlgoStrcpy(dir, aDirPath); AlgoStrcat(dir, "\\Negative\\neg2\\2592_1944_ColorTone_Normal.bmp"); AlgoStrcpy(dir1, aDirPath); AlgoStrcat(dir1, "\\Negative\\neg2\\2592_1944_ColorTone_Negative.bmp"); ret = ValidationMetricInterfaceWithFiles(NULL, NULL, dir, dir1, &aMetricParams ); Metrcis_Print_Result(ret); aMetricParams.iTestCoordinates.iPixelsToGrabX = 640; aMetricParams.iTestCoordinates.iPixelsToGrabY = 480; ALGO_Log_0("*************NEGATIVE METRIC TEST 5************ \n"); AlgoStrcpy(dir, aDirPath); AlgoStrcat(dir, "\\Negative\\neg3\\Image_no_effect.bmp"); AlgoStrcpy(dir1, aDirPath); AlgoStrcat(dir1, "\\Negative\\neg3\\Image_negative_enabled.bmp"); ret = ValidationMetricInterfaceWithFiles(NULL, NULL, dir, dir1, &aMetricParams ); Metrcis_Print_Result(ret); ALGO_Log_0("*************NEGATIVE METRIC TEST 6************ \n"); aMetricParams.iTestCoordinates.iPixelsToGrabX = 640; aMetricParams.iTestCoordinates.iPixelsToGrabY = 480; AlgoStrcpy(dir, aDirPath); AlgoStrcat(dir, "\\Negative\\neg4\\Image_normal.bmp"); AlgoStrcpy(dir1, aDirPath); AlgoStrcat(dir1, "\\Negative\\neg4\\Image_negative.bmp"); ret = ValidationMetricInterfaceWithFiles(NULL, NULL, dir, dir1, &aMetricParams ); Metrcis_Print_Result(ret); ALGO_Log_0("*************NEGATIVE METRIC TEST 7************ \n"); aMetricParams.iTestCoordinates.iPixelsToGrabX = 640; aMetricParams.iTestCoordinates.iPixelsToGrabY = 480; AlgoStrcpy(dir, aDirPath); AlgoStrcat(dir, "\\Negative\\neg5\\Image_normal.bmp"); AlgoStrcpy(dir1, aDirPath); AlgoStrcat(dir1, "\\Negative\\neg5\\Image_negative.bmp"); ret = ValidationMetricInterfaceWithFiles(NULL, NULL, dir, dir1, &aMetricParams ); Metrcis_Print_Result(ret); ALGO_Log_0("*************NEGATIVE METRIC TEST 8************ \n"); aMetricParams.iTestCoordinates.iPixelsToGrabX = 640; aMetricParams.iTestCoordinates.iPixelsToGrabY = 480; AlgoStrcpy(dir, aDirPath); AlgoStrcat(dir, "\\Negative\\neg6\\Image_Normal.gam"); AlgoStrcpy(dir1, aDirPath); AlgoStrcat(dir1, "\\Negative\\neg6\\Image_Negative.gam"); ret = ValidationMetricInterfaceWithFiles(NULL, NULL, dir, dir1, &aMetricParams ); Metrcis_Print_Result(ret); ALGO_Log_0("*************NEGATIVE METRIC TEST 9************ \n"); aMetricParams.iTestCoordinates.iPixelsToGrabX = 640; aMetricParams.iTestCoordinates.iPixelsToGrabY = 480; AlgoStrcpy(dir, aDirPath); AlgoStrcat(dir, "\\Negative\\neg7\\Image_normal.gam"); AlgoStrcpy(dir1, aDirPath); AlgoStrcat(dir1, "\\Negative\\neg7\\Image_negative.gam"); ret = ValidationMetricInterfaceWithFiles(NULL, NULL, dir, dir1, &aMetricParams ); Metrcis_Print_Result(ret); return 0; }
/** * Spatial Similar Unit Test Cases. */ TInt32 test_metric_spatialsimilar_characterization(TUint8* aDirPath) { TAlgoError ret = EErrorNone; TAlgoMetricParams aMetricParams; TUint8 dir[128]; TUint8 dir1[128]; aMetricParams.iErrorTolerance.iErrorToleranceR = 1; aMetricParams.iErrorTolerance.iErrorToleranceG = 1; aMetricParams.iErrorTolerance.iErrorToleranceB = 1; aMetricParams.iTestCoordinates.iStartIndexX = 0; aMetricParams.iTestCoordinates.iStartIndexY = 0; aMetricParams.iTestCoordinates.iPixelsToGrabX = 640; aMetricParams.iTestCoordinates.iPixelsToGrabY = 480; ALGO_Log_0("*************SPATIAL SIMILAR METRIC TEST 1************ \n"); AlgoStrcpy(dir, aDirPath); AlgoStrcat(dir, "\\SpatialSimilar\\SS_IM1_Enable.bmp"); AlgoStrcpy(dir1, aDirPath); AlgoStrcat(dir1, "\\SpatialSimilar\\SS_IM1_Disable.bmp"); aMetricParams.iType = ETypeSpatialSimilar; ret = ValidationMetricInterfaceWithFiles(NULL, NULL, dir, dir1, &aMetricParams ); Metrcis_Print_Result(ret); ALGO_Log_0("*************SPATIAL SIMILAR METRIC TEST 2************ \n"); AlgoStrcpy(dir, aDirPath); AlgoStrcat(dir, "\\SpatialSimilar\\SS_IM2_Enable.bmp"); AlgoStrcpy(dir1, aDirPath); AlgoStrcat(dir1, "\\SpatialSimilar\\SS_IM2_Disable.bmp"); aMetricParams.iType = ETypeSpatialSimilar; ret = ValidationMetricInterfaceWithFiles(NULL, NULL, dir, dir1, &aMetricParams ); Metrcis_Print_Result(ret); ALGO_Log_0("*************SPATIAL SIMILAR METRIC TEST 3************ \n"); AlgoStrcpy(dir, aDirPath); AlgoStrcat(dir, "\\SpatialSimilar\\SS_IM3_Enable.bmp"); AlgoStrcpy(dir1, aDirPath); AlgoStrcat(dir1, "\\SpatialSimilar\\SS_IM3_Disable.bmp"); aMetricParams.iType = ETypeSpatialSimilar; ret = ValidationMetricInterfaceWithFiles(NULL, NULL, dir, dir1, &aMetricParams ); Metrcis_Print_Result(ret); ALGO_Log_0("*************SPATIAL SIMILAR METRIC TEST 4************ \n"); AlgoStrcpy(dir, aDirPath); AlgoStrcat(dir, "\\SpatialSimilar\\SS_IM4_Enable.bmp"); AlgoStrcpy(dir1, aDirPath); AlgoStrcat(dir1, "\\SpatialSimilar\\SS_IM4_Disable.bmp"); aMetricParams.iType = ETypeSpatialSimilar; ret = ValidationMetricInterfaceWithFiles(NULL, NULL, dir, dir1, &aMetricParams ); Metrcis_Print_Result(ret); ALGO_Log_0("*************SPATIAL SIMILAR METRIC TEST 5************ \n"); AlgoStrcpy(dir, aDirPath); AlgoStrcat(dir, "\\SpatialSimilar\\SS_IM5_Enable.bmp"); AlgoStrcpy(dir1, aDirPath); AlgoStrcat(dir1, "\\SpatialSimilar\\SS_IM5_Disable.bmp"); aMetricParams.iType = ETypeSpatialSimilar; ret = ValidationMetricInterfaceWithFiles(NULL, NULL, dir, dir1, &aMetricParams ); Metrcis_Print_Result(ret); ALGO_Log_0("*************SPATIAL SIMILAR METRIC TEST 6************ \n"); AlgoStrcpy(dir, aDirPath); AlgoStrcat(dir, "\\SpatialSimilar\\SS_IM6_Enable.bmp"); AlgoStrcpy(dir1, aDirPath); AlgoStrcat(dir1, "\\SpatialSimilar\\SS_IM6_Disable.bmp"); aMetricParams.iType = ETypeSpatialSimilar; ret = ValidationMetricInterfaceWithFiles(NULL, NULL, dir, dir1, &aMetricParams ); Metrcis_Print_Result(ret); return 0; }