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- /*****************************************************************************
- * HMacro.h
- *****************************************************************************
- *
- * Project: HALCON/libhalcon
- * Description: Definition of macros
- *
- * (c) 1996-2022 by MVTec Software GmbH
- * www.mvtec.com
- *
- *****************************************************************************/
- #ifndef HMACRO_H
- #define HMACRO_H
- /*
- * HALCON traditionally used 'FAST' instead of 'HC_FAST', but that clashes
- * with VxWorks.
- */
- #if !defined(__vxworks) && defined(FAST) && !defined(HC_FAST)
- # define HC_FAST
- #endif
- /*
- * If SMALL is defined, file names and line number information should not be
- * included in the binary.
- */
- #ifndef SMALL
- # define H__FILE__ __FILE__
- # define H__LINE__ __LINE__
- #else
- # define H__FILE__ ""
- # define H__LINE__ -1
- #endif
- /* Macro to mark functions as deprecated. */
- #if !defined(HC_DEPRECATED)
- # if !defined(HC_NO_LEGACY_WARNING)
- # if defined(__GNUC__)
- # if (__GNUC__ * 100 + __GNUC_MINOR__ < 405)
- # define HC_DEPRECATED(MSG) __attribute__((deprecated(MSG)))
- # else
- # define HC_DEPRECATED(MSG) __attribute__((deprecated))
- # endif
- # elif defined(_MSC_VER)
- # define HC_DEPRECATED(MSG) __declspec(deprecated(MSG))
- # endif
- # endif
- # if !defined(HC_DEPRECATED)
- # define HC_DEPRECATED(MSG)
- # endif
- #endif
- #define HDFImage(VAR, IMAGE_IN, KOOR) \
- { \
- VAR = 0.0; \
- switch ((IMAGE_IN)->kind) \
- { \
- case BYTE_IMAGE: \
- VAR = (double)(IMAGE_IN)->pixel.b[KOOR]; \
- break; \
- case INT1_IMAGE: \
- VAR = (double)(IMAGE_IN)->pixel.i[KOOR]; \
- break; \
- case INT2_IMAGE: \
- VAR = (double)(IMAGE_IN)->pixel.s.p[KOOR]; \
- break; \
- case UINT2_IMAGE: \
- VAR = (double)(IMAGE_IN)->pixel.u.p[KOOR]; \
- break; \
- case DIR_IMAGE: \
- VAR = (double)(IMAGE_IN)->pixel.d[KOOR]; \
- break; \
- case CYCLIC_IMAGE: \
- VAR = (double)(IMAGE_IN)->pixel.z[KOOR]; \
- break; \
- case INT4_IMAGE: \
- VAR = (double)(IMAGE_IN)->pixel.l[KOOR]; \
- break; \
- case INT8_IMAGE: \
- VAR = (double)(IMAGE_IN)->pixel.i8[KOOR]; \
- break; \
- case FLOAT_IMAGE: \
- VAR = (double)(IMAGE_IN)->pixel.f[KOOR]; \
- break; \
- case COMPLEX_IMAGE: \
- return (H_ERR_WITFO); /* wrong image type */ \
- case VF_IMAGE: \
- return (H_ERR_WITFO); /* wrong image type */ \
- default: \
- return (H_ERR_NIIT); /* not implemented image type */ \
- } \
- }
- #define HAbsImage(VAR, IMAGE_IN, KOOR) \
- switch ((IMAGE_IN)->kind) \
- { \
- case BYTE_IMAGE: \
- VAR = ABS((double)(IMAGE_IN)->pixel.b[KOOR]); \
- break; \
- default:; \
- }
- #define HImageFD(IMAGE_OUT, VAR, KOOR) \
- switch ((IMAGE_OUT)->kind) \
- { \
- case BYTE_IMAGE: \
- { \
- int HHH; \
- HHH = HIRound(VAR); \
- if (HHH > 255) \
- HHH = 255; \
- else if (HHH < 0) \
- HHH = 0; \
- (IMAGE_OUT)->pixel.b[KOOR] = (uint8_t)HHH; \
- break; \
- } \
- case CYCLIC_IMAGE: \
- (IMAGE_OUT)->pixel.z[KOOR] = HMOD(HLRound(VAR), (int)(UCHAR_MAX + 1)); \
- break; \
- case INT1_IMAGE: \
- { \
- int HHH; \
- HHH = HIRound(VAR); \
- if (HHH > INT8_MAX) \
- HHH = INT8_MAX; \
- else if (HHH < INT8_MIN) \
- HHH = INT8_MIN; \
- (IMAGE_OUT)->pixel.i[KOOR] = (int8_t)HHH; \
- break; \
- } \
- case INT2_IMAGE: \
- { \
- double DDD = (VAR); \
- if (DDD > (double)INT16_MAX) \
- DDD = INT16_MAX; \
- else if (DDD < INT16_MIN) \
- DDD = INT16_MIN; \
- (IMAGE_OUT)->pixel.s.p[KOOR] = (int16_t)HLRound(DDD); \
- break; \
- } \
- case UINT2_IMAGE: \
- { \
- double DDD = (VAR); \
- if (DDD > (double)UINT16_MAX) \
- DDD = UINT16_MAX; \
- else if (DDD < 0) \
- DDD = 0; \
- (IMAGE_OUT)->pixel.s.p[KOOR] = (uint16_t)HLRound(DDD); \
- break; \
- } \
- case LONG_IMAGE: \
- { \
- double DDD = (VAR); \
- if (DDD > (double)INT32_MAX) \
- DDD = INT32_MAX; \
- else if (DDD < INT32_MIN) \
- DDD = INT32_MIN; \
- (IMAGE_OUT)->pixel.l[KOOR] = (int32_t)HLRound(DDD); \
- break; \
- } \
- case INT8_IMAGE: \
- { \
- double DDD = (VAR); \
- if (DDD > (double)INT64_MAX) \
- DDD = (double)INT64_MAX; \
- else if (DDD < INT64_MIN) \
- DDD = INT64_MIN; \
- (IMAGE_OUT)->pixel.i8[KOOR] = (int64_t)HI8Round(DDD); \
- break; \
- } \
- case FLOAT_IMAGE: \
- { \
- double DDD = (VAR); \
- if (DDD > (double)FLT_MAX) \
- DDD = FLT_MAX; \
- else if (DDD < -(double)FLT_MAX) \
- DDD = -(double)FLT_MAX; \
- (IMAGE_OUT)->pixel.f[KOOR] = (float)DDD; \
- break; \
- } \
- case COMPLEX_IMAGE: \
- { \
- double DDD = (VAR); \
- if (DDD > (double)FLT_MAX) \
- DDD = FLT_MAX; \
- else if (DDD < -(double)FLT_MAX) \
- DDD = -(double)FLT_MAX; \
- (IMAGE_OUT)->pixel.c[KOOR].re = (float)DDD; \
- (IMAGE_OUT)->pixel.c[KOOR].im = (float)0.0; \
- break; \
- } \
- case DIR_IMAGE: \
- return (H_ERR_WITFO); \
- case VF_IMAGE: \
- return (H_ERR_WITFO); /* wrong image type */ \
- default: \
- return (H_ERR_NIIT); /* not implemented image type */ \
- }
- #define HCkFilterSize(IMAGE_WIDTH, IMAGE_HEIGHT, FILTER_WIDTH, FILTER_HEIGHT) \
- if (((IMAGE_WIDTH) < ((FILTER_WIDTH) >> 1) + 1) || \
- ((IMAGE_HEIGHT) < ((FILTER_HEIGHT) >> 1) + 1)) \
- return (H_ERR_FSEIS);
- #define HCkFilterSize_2(IMAGE_WIDTH, IMAGE_HEIGHT, FILTER_WIDTH_2, \
- FILTER_HEIGHT_2) \
- if (((IMAGE_WIDTH) < (FILTER_WIDTH_2) + 1) || \
- ((IMAGE_HEIGHT) < (FILTER_HEIGHT_2) + 1)) \
- return (H_ERR_FSEIS);
- #define DIST(PIX, PIX2, ABSDIF, IMAGE_IN_KIND) \
- switch (IMAGE_IN_KIND) \
- { \
- case BYTE_IMAGE: \
- case LONG_IMAGE: \
- case INT8_IMAGE: \
- case INT1_IMAGE: \
- case INT2_IMAGE: \
- case UINT2_IMAGE: \
- case FLOAT_IMAGE: \
- ABSDIF = ABS((PIX) - (PIX2)); \
- break; \
- case CYCLIC_IMAGE: \
- { \
- double dmax, dmaxh; \
- dmax = (double)UCHAR_MAX + 1.; \
- dmaxh = (double)(int)(dmax / 2.); \
- ABSDIF = ABS((PIX) - (PIX2)); \
- if ((ABSDIF) > dmaxh) \
- ABSDIF = dmax - (ABSDIF); \
- } \
- break; \
- case DIR_IMAGE: \
- if ((PIX) > 200. || (PIX2) > 200.) \
- ABSDIF = (double)UCHAR_MAX; \
- else \
- { \
- ABSDIF = ABS((PIX) - (PIX2)); \
- if ((ABSDIF) > 90.) \
- ABSDIF = 181. - (ABSDIF); \
- } \
- break; \
- default: \
- return (H_ERR_NIIT); \
- }
- #define HiType2iIDX(iTYPE, iIDX) \
- switch (iTYPE) \
- { \
- case UNDEF_IMAGE: \
- iIDX = iUNDEF; \
- break; \
- case BYTE_IMAGE: \
- iIDX = iBYTE; \
- break; \
- case INT4_IMAGE: \
- iIDX = iINT4; \
- break; \
- case FLOAT_IMAGE: \
- iIDX = iFLOAT; \
- break; \
- case DIR_IMAGE: \
- iIDX = iDIR; \
- break; \
- case CYCLIC_IMAGE: \
- iIDX = iCYCLIC; \
- break; \
- case INT1_IMAGE: \
- iIDX = iINT1; \
- break; \
- case COMPLEX_IMAGE: \
- iIDX = iCOMPLEX; \
- break; \
- case INT2_IMAGE: \
- iIDX = iINT2; \
- break; \
- case UINT2_IMAGE: \
- iIDX = iUINT2; \
- break; \
- case VF_IMAGE: \
- iIDX = iVF; \
- break; \
- default: \
- iIDX = UNDEF_IMAGE; \
- break; \
- }
- #define HMOD(VAL, VALMAX) \
- (((VAL) < 0) \
- ? ((unsigned char)(((VALMAX) - (-(VAL) % (VALMAX))) % (VALMAX))) \
- : ((unsigned char)((VAL) % (VALMAX))))
- /* Gray value component of a gray value image */
- #define IMAGE_INDEX 1
- #define HBitImageSize(WIDTH, HEIGHT) (size_t)((HIMGCNT)WIDTH * HEIGHT / 8 + 1)
- #define WarningCompl(Proc) \
- (void)printf("warning: is_compl not yet full implemented (%s)\n", Proc)
- /*****************************************************************************
- * Routines for freeing and reallocating "permanent","local", or "temporary"
- * memory.
- *****************************************************************************/
- #if defined(_HLIB) || !defined(_LIntStatic)
- # define HFreeGeneral(PROC_HANDLE, VOID_PTR) \
- (HTraceMemory ? HXFreeGeneralMemCheck(PROC_HANDLE, (void*)VOID_PTR, \
- H__FILE__, (INT4_8)H__LINE__) \
- : HXFreeGeneral(PROC_HANDLE, (void*)VOID_PTR))
- #else
- /* In case of static language interfaces, do not use HTraceMemory to allow
- * delayed loading */
- # define HFreeGeneral(PROC_HANDLE, VOID_PTR) \
- HXFreeGeneral(PROC_HANDLE, (void*)VOID_PTR)
- #endif
- #define HReallocGeneral(PROC_HANDLE, VOID_PTR, SIZE, NEW_PTR) \
- HXReallocGeneral(PROC_HANDLE, (void*)(VOID_PTR), SIZE, (void*)(NEW_PTR), \
- H__FILE__, (INT4_8)H__LINE__)
- #define HFreeRLGeneral(PROC_HANDLE, REGION) \
- HXFreeRLGeneral(PROC_HANDLE, REGION, H__FILE__, (INT4_8)H__LINE__)
- #define HReallocRLNumGeneral(PROC_HANDLE, REGION, SIZE, NEW_REGION) \
- HXReallocRLNumGeneral(PROC_HANDLE, REGION, SIZE, NEW_REGION, H__FILE__, \
- (INT4_8)H__LINE__)
- /*****************************************************************************
- * Routines for allocating "permanent" memory from the heap. This memory is
- * _not_ freed automatically after each call to a HALCON operator.
- *****************************************************************************/
- #if defined(_HLIB) || !defined(_LIntStatic)
- # define HAlloc(PROC_HANDLE, SIZE, VOID_PTR) \
- (HTraceMemory \
- ? HXAllocMemCheck(PROC_HANDLE, SIZE, H__FILE__, (INT4_8)H__LINE__, \
- H_GLOBAL_ALLOC, (void*)(VOID_PTR)) \
- : HXAlloc(PROC_HANDLE, SIZE, (void*)(VOID_PTR)))
- #else
- /* In case of static language interfaces, do not use HTraceMemory to allow
- * delayed loading */
- # define HAlloc(PROC_HANDLE, SIZE, VOID_PTR) \
- HXAlloc(PROC_HANDLE, SIZE, (void*)(VOID_PTR))
- #endif
- #define HIsAligned(VOID_PTR, ALIGNMENT) (((UINT4_8)ptr & (ALIGNMENT - 1)) == 0)
- #if defined(_HLIB) || !defined(_LIntStatic)
- # define HAllocAlign(PROC_HANDLE, SIZE, ALIGNMENT, VOID_PTR) \
- (HTraceMemory \
- ? HXAllocAlignMemCheck(PROC_HANDLE, SIZE, ALIGNMENT, H__FILE__, \
- (INT4_8)H__LINE__, H_GLOBAL_ALLOC, \
- (void*)(VOID_PTR)) \
- : HXAllocAlign(PROC_HANDLE, SIZE, ALIGNMENT, (void*)(VOID_PTR)))
- #else
- /* In case of static language interfaces, do not use HTraceMemory to allow
- * delayed loading */
- # define HAllocAlign(PROC_HANDLE, SIZE, ALIGNMENT, VOID_PTR) \
- HXAllocAlign(PROC_HANDLE, SIZE, ALIGNMENT, (void*)(VOID_PTR))
- #endif
- #define HRealloc(PROC_HANDLE, VOID_PTR, SIZE, NEW_PTR) \
- HXRealloc(PROC_HANDLE, (void*)(VOID_PTR), SIZE, (void*)(NEW_PTR), \
- H__FILE__, (INT4_8)H__LINE__)
- #define HReallocToGlobal(PROC_HANDLE, VOID_PTR, SIZE, NEW_PTR) \
- HXReallocToGlobal(PROC_HANDLE, (void*)(VOID_PTR), SIZE, (void*)(NEW_PTR), \
- H__FILE__, (INT4_8)H__LINE__)
- #if defined(_HLIB) || !defined(_LIntStatic)
- # define HFree(PROC_HANDLE, VOID_PTR) \
- (HTraceMemory ? HXFreeMemCheck(PROC_HANDLE, (void*)(VOID_PTR), H__FILE__, \
- (INT4_8)H__LINE__) \
- : HXFree(PROC_HANDLE, (void*)(VOID_PTR)))
- #else
- /* In case of static language interfaces, do not use HTraceMemory to allow
- * delayed loading */
- # define HFree(PROC_HANDLE, VOID_PTR) HXFree(PROC_HANDLE, (void*)(VOID_PTR))
- #endif
- #define HAllocRLNum(PROC_HANDLE, REGION, SIZE) \
- HXAllocRLNum(PROC_HANDLE, REGION, SIZE, H__FILE__, (INT4_8)H__LINE__)
- #define HReallocRLNum(PROC_HANDLE, REGION, SIZE, NEW_REGION) \
- HXReallocRLNum(PROC_HANDLE, REGION, SIZE, NEW_REGION, H__FILE__, \
- (INT4_8)H__LINE__)
- #define HReallocRLNumToGlobal(PROC_HANDLE, REGION, SIZE, NEW_REGION) \
- HXReallocRLNumToGlobal(PROC_HANDLE, REGION, SIZE, NEW_REGION, H__FILE__, \
- (INT4_8)H__LINE__)
- #define HAllocRL(PROC_HANDLE, REGION) \
- HXAllocRL(PROC_HANDLE, REGION, H__FILE__, (INT4_8)H__LINE__)
- #define HFreeRL(PROC_HANDLE, REGION) \
- HXFreeRL(PROC_HANDLE, REGION, H__FILE__, (INT4_8)H__LINE__)
- /*****************************************************************************
- * Routines for allocating temporary memory from a "stack" of memory. This
- * memory is freed automatically after each call to a HALCON operator.
- *****************************************************************************/
- #define HAllocTmp(PROC_HANDLE, PTR, SIZE) \
- HXAllocTmp(PROC_HANDLE, (void*)(PTR), SIZE, H__FILE__, (INT4_8)H__LINE__)
- #define HAllocTmpAlign(PROC_HANDLE, PTR, SIZE, ALIGNMENT) \
- HXAllocTmpAlign(PROC_HANDLE, (void*)(PTR), SIZE, ALIGNMENT, H__FILE__, \
- (INT4_8)H__LINE__)
- #define HAllocDomainImageTmp(PROC_HANDLE, MEM_PTR, IMAGE_PTR, REGION, WIDTH, \
- HEIGHT, BYTE_PER_PIXEL, BORDER_ROWS, \
- BORDER_BYTES) \
- HXAllocDomainImageTmp(PROC_HANDLE, (void*)(MEM_PTR), (void*)(IMAGE_PTR), \
- REGION, WIDTH, HEIGHT, BYTE_PER_PIXEL, BORDER_ROWS, \
- BORDER_BYTES, H__FILE__, (INT4_8)H__LINE__)
- #define HFreeTmp(PROC_HANDLE, VOID_PTR) \
- HXFreeTmp(PROC_HANDLE, (void*)(VOID_PTR), H__FILE__, (INT4_8)H__LINE__)
- #define HFreeNTmp(PROC_HANDLE, NUM) \
- HXFreeNTmp(PROC_HANDLE, NUM, H__FILE__, (INT4_8)H__LINE__)
- #define HFreeAllTmp(PROC_HANDLE) \
- HXFreeAllTmp(PROC_HANDLE, H__FILE__, (INT4_8)H__LINE__)
- #define HFreeUpToTmp(PROC_HANDLE, VOID_PTR) \
- HXFreeUpToTmp(PROC_HANDLE, (void*)(VOID_PTR), H__FILE__, (INT4_8)H__LINE__)
- #define HFreeUpToTmpExcl(PROC_HANDLE, VOID_PTR) \
- HXFreeUpToTmpExcl(PROC_HANDLE, (void*)(VOID_PTR), H__FILE__, \
- (INT4_8)H__LINE__)
- #define HAllocRLNumTmp(PROC_HANDLE, REGION, SIZE) \
- HXAllocRLNumTmp(PROC_HANDLE, REGION, SIZE, H__FILE__, (INT4_8)H__LINE__)
- #define HAllocRLTmp(PROC_HANDLE, REGION) \
- HXAllocRLTmp(PROC_HANDLE, REGION, H__FILE__, (INT4_8)H__LINE__)
- #define HFreeRLTmp(PROC_HANDLE, REGION) \
- HXFreeRLTmp(PROC_HANDLE, REGION, H__FILE__, (INT4_8)H__LINE__)
- #define HTestTmp(PROC_HANDLE, VOID_PTR) \
- HXTestTmp(PROC_HANDLE, VOID_PTR, H__FILE__, (INT4_8)H__LINE__, true)
- #define HTestPtr(VOID_PTR) HXTestPtr(VOID_PTR, H__FILE__, (INT4_8)H__LINE__)
- #define HTestAllTmp(VOID_PTR) \
- HXTestAllTmp(VOID_PTR, H__FILE__, (INT4_8)H__LINE__)
- /*****************************************************************************
- * Routines for allocating temporary memory from the heap. This memory is
- * freed automatically after each call to a HALCON operator.
- *****************************************************************************/
- #define HAllocLocal(PROC_HANDLE, SIZE, VOID_PTR) \
- HXAllocLocal(PROC_HANDLE, SIZE, H__FILE__, (INT4_8)H__LINE__, \
- (void*)(VOID_PTR))
- /*
- * HAllocLocalGC: Operator local, garbage collecting memory allocation. In
- * comparison to HAllocLocal, HAllocLocalGC does not prompt low error messages
- * when freeing memory if HDoLowErrors and HTraceMemory are turned on.
- */
- #define HAllocLocalGC(PROC_HANDLE, SIZE, VOID_PTR) \
- HXAllocLocalGC(PROC_HANDLE, SIZE, H__FILE__, (INT4_8)H__LINE__, \
- (void*)(VOID_PTR))
- #define HAllocLocalAlign(PROC_HANDLE, SIZE, ALIGNMENT, VOID_PTR) \
- HXAllocLocalAlign(PROC_HANDLE, SIZE, ALIGNMENT, H__FILE__, \
- (INT4_8)H__LINE__, (void*)(VOID_PTR))
- #define HReallocLocal(PROC_HANDLE, VOID_PTR, SIZE, NEW_PTR) \
- HXReallocLocal(PROC_HANDLE, (void*)(VOID_PTR), SIZE, (void*)(NEW_PTR), \
- H__FILE__, (INT4_8)H__LINE__)
- #define HFreeLocal(PROC_HANDLE, VOID_PTR) \
- HXFreeLocal(PROC_HANDLE, (void*)(VOID_PTR), H__FILE__, (INT4_8)H__LINE__)
- #define HAllocRLNumLocal(PROC_HANDLE, REGION, SIZE) \
- HXAllocRLNumLocal(PROC_HANDLE, REGION, SIZE, H__FILE__, (INT4_8)H__LINE__)
- #define HReallocRLNumLocal(PROC_HANDLE, REGION, SIZE, NEW_REGION) \
- HXReallocRLNumLocal(PROC_HANDLE, REGION, SIZE, NEW_REGION, H__FILE__, \
- (INT4_8)H__LINE__)
- #define HAllocRLLocal(PROC_HANDLE, REGION) \
- HXAllocRLLocal(PROC_HANDLE, REGION, H__FILE__, (INT4_8)H__LINE__)
- #define HFreeRLLocal(PROC_HANDLE, REGION) \
- HXFreeRLLocal(PROC_HANDLE, REGION, H__FILE__, (INT4_8)H__LINE__)
- #ifndef ABS
- # define ABS(A) (((A) >= 0) ? (A) : (-(A)))
- #endif
- /* Conversion radian measure to degree and reverse. */
- #define RadToDeg(x) (double)(x) * 57.295779513082
- #define DegToRad(x) (double)(x) / 57.295779513082
- #define HIRound(Val) \
- (((Val) < 0.0) ? ((int)((Val)-0.5)) : ((int)((Val) + 0.5)))
- #define HI4Round(Val) \
- (((Val) < 0.0) ? ((int32_t)((Val)-0.5)) : ((int32_t)((Val) + 0.5)))
- #define HLRound(Val) \
- (((Val) < 0.0) ? ((INT4_8)((Val)-0.5)) : ((INT4_8)((Val) + 0.5)))
- #define HI8Round(Val) \
- (((Val) < 0.0) ? ((int64_t)((Val)-0.5)) : ((int64_t)((Val) + 0.5)))
- #define HIMGCOORRound(Val) \
- (((Val) < 0.0) ? ((HIMGCOOR)((Val)-0.5)) : ((HIMGCOOR)((Val) + 0.5)))
- #define HFIRound(Val) \
- (((Val) < 0.0f) ? ((int)((Val)-0.5f)) : ((int)((Val) + 0.5f)))
- /*
- * Edge handling for images by mirroring.
- *
- * IMPORTANT: 'width' and 'height' are assumed to be defined for any code
- * using these macros.
- */
- #define BR(ROW) \
- (((ROW) < 0) ? (-(ROW)) \
- : (((ROW) >= height) ? (height - (ROW) + height - 2) : (ROW)))
- #define BC(COL) \
- (((COL) < 0) ? (-(COL)) \
- : (((COL) >= width) ? (width - (COL) + width - 2) : (COL)))
- /*
- * Optimized variants of the BR and BC macros above when the bound to check
- * against (upper or lower) is known by the caller.
- */
- #define BRL(ROW) (((ROW) < 0) ? -(ROW) : (ROW))
- #define BRU(ROW) (((ROW) >= height) ? (height - (ROW) + height - 2) : (ROW))
- #define BCL(COL) (((COL) < 0) ? -(COL) : (COL))
- #define BCU(COL) (((COL) >= width) ? (width - (COL) + width - 2) : (COL))
- /* Hrlregion */
- #define HRLReset(RL) \
- { \
- (RL)->feature.def.all = 0; \
- (RL)->feature.shape = 0; \
- (RL)->is_compl = false; \
- (RL)->num = 0; \
- (RL)->rl = (Hrun*)(((uint8_t*)(void*)&(RL)->rl) + sizeof((RL)->rl)); \
- }
- #define HRLSize(NumRuns) \
- ((size_t)((NumRuns) * sizeof(Hrun) + (sizeof(Hrlregion))))
- /* Maximum possible number of runs in an image of size W×H. */
- #define HRLNumMaxImage(W, H) (((size_t)(W) + 1) * (H) / 2)
- /* Binary image. */
- #define HTestBit(D, P) ((D)[(P) >> 3] & (1 << (7 - ((P)&7))))
- #define HDelBit(D, P) (D)[(P) >> 3] &= (uint8_t)(~(1 << (7 - ((P)&7))))
- #define HSetBit(D, P) (D)[(P) >> 3] |= (uint8_t)(1 << (7 - ((P)&7)))
- /* Coordinates. */
- #define HLinCoor(L, C, W) (((INT4_8)(L) * (INT4_8)(W)) + (INT4_8)(C))
- #define HXLinCoor(L, C, W) HLinCoor(L, C, W)
- #define HCol(K, W) (HIMGCOOR)(((K) % (W)))
- #define HRow(K, W) (HIMGCOOR)(((K) / (W)))
- #define CB(RL, I, W) HLinCoor((RL)[I].l, (RL)[I].cb, W)
- #define CE(RL, I, W) HLinCoor((RL)[I].l, (RL)[I].ce, W)
- #define FLinCoor(R, C, H) ((C) * (H) + (R))
- /* Misc */
- #ifndef SGN
- # define SGN(X) (((X) == 0) ? 0 : (((X) > 0) ? 1 : (-1)))
- #endif
- #ifndef ODD
- # define ODD(X) ((X) % 2)
- #endif
- #ifndef EVEN
- # define EVEN(X) (!((X) % 2))
- #endif
- #ifndef MIN
- # define MIN(X, Y) (((X) > (Y)) ? (Y) : (X))
- #endif
- #ifndef MAX
- # define MAX(X, Y) (((X) > (Y)) ? (X) : (Y))
- #endif
- #define DToINT4_8(Val) \
- (((Val) < INT4_8_MINDOUBLE) \
- ? INT4_8_MIN \
- : (((Val) > INT4_8_MAXDOUBLE) ? INT4_8_MAX : ((INT4_8)(Val))))
- #define DToINT8(Val) \
- (((Val) < INT8_MINDOUBLE) \
- ? INT64_MIN \
- : (((Val) > INT8_MAXDOUBLE) ? INT64_MAX : ((int64_t)(Val))))
- #define DToINT4(Val) \
- (((Val) < INT4_MINDOUBLE) \
- ? INT32_MIN \
- : (((Val) > INT4_MAXDOUBLE) ? INT32_MAX : ((int32_t)(Val))))
- #define DToINT2(Val) \
- (((Val) < INT2_MINDOUBLE) \
- ? INT16_MIN \
- : (((Val) > INT2_MAXDOUBLE) ? INT16_MAX : ((int16_t)(Val))))
- #define DToINT(Val) \
- (((Val) < INT_MINDOUBLE) \
- ? INT_MIN \
- : (((Val) > INT_MAXDOUBLE) ? INT_MAX : ((int)(Val))))
- #define HInsideImage(R, C, WIDTH, HEIGHT) \
- ((((R) >= 0) && ((C) >= 0) && ((R) < (HEIGHT)) && ((C) < (WIDTH))) ? true \
- : false)
- #if !defined HCkP
- # if !defined(NO_SPY) && !defined(HC_FAST)
- # define HCkP(Proc) XHCkP(Proc)
- # define XHCkP(Proc) \
- do \
- { \
- Herror _H_ERR; \
- Herror _H_ERR_P; \
- if (IOGetSpyProcCallSwitch()) \
- IOSpyProcCall(#Proc, __LINE__, __FILE__); \
- if (HIsError(_H_ERR = (Proc))) \
- { \
- if (HIsError(_H_ERR_P = \
- HProcessErr(#Proc, _H_ERR, __LINE__, __FILE__))) \
- return (_H_ERR_P); \
- return (_H_ERR); \
- } \
- } while (0)
- # else
- # define HCkP(Proc) XHCkP(Proc)
- # define XHCkP(Proc) \
- do \
- { \
- Herror _H_ERR; \
- if (HIsError(_H_ERR = (Proc))) \
- { \
- return (_H_ERR); \
- } \
- } while (0)
- # endif
- #endif /* If not defined HCkP */
- #if !defined(NO_SPY) && !defined(HC_FAST)
- # define HCkPCloseFile(Proc, File) XHCkPCloseFile(Proc, File)
- # define XHCkPCloseFile(Proc, File) \
- do \
- { \
- Herror ERR; \
- Herror H_ERR_P; \
- if (IOGetSpyProcCallSwitch()) \
- IOSpyProcCall(#Proc, __LINE__, __FILE__); \
- if ((ERR = (Proc)) != H_MSG_OK) \
- { \
- fclose(File); \
- if ((H_ERR_P = HProcessErr(#Proc, ERR, __LINE__, __FILE__)) != \
- H_MSG_OK) \
- return (H_ERR_P); \
- return (ERR); \
- } \
- } while (0)
- #else
- # define HCkPCloseFile(Proc, File) XHCkPCloseFile(Proc, File)
- # define XHCkPCloseFile(Proc, File) \
- do \
- { \
- Herror ERR; \
- if ((ERR = (Proc)) != H_MSG_OK) \
- { \
- fclose(File); \
- return (ERR); \
- } \
- } while (0)
- #endif
- #if !defined(NO_SPY) && !defined(HC_FAST)
- # define HCkPasync(Proc, GapingFlag, ComplFlag, ErrFlag) \
- do \
- { \
- Herror ERR, H_ERR_P; \
- if (IOGetSpyProcCallSwitch()) \
- IOSpyProcCall(#Proc, __LINE__, __FILE__); \
- if ((ERR = Proc) != H_MSG_OK) \
- { \
- if ((H_ERR_P = HProcessErr(#Proc, ERR, __LINE__, __FILE__)) != \
- H_MSG_OK) \
- { \
- if (GapingFlag == false) \
- { \
- *ErrFlag = H_ERR_P; \
- *ComplFlag = true; \
- } \
- return (H_ERR_P); \
- } \
- if (GapingFlag == false) \
- { \
- *ErrFlag = ERR; \
- *ComplFlag = true; \
- } \
- return (ERR); \
- } \
- } while (0)
- #else
- # define HCkPasync(Proc, GapingFlag, ComplFlag, ErrFlag) \
- do \
- { \
- Herror ERR; \
- if ((ERR = Proc) != H_MSG_OK) \
- { \
- if (GapingFlag == false) \
- { \
- *ErrFlag = ERR; \
- *ComplFlag = true; \
- } \
- return (ERR); \
- } \
- } while (0)
- #endif
- #define HCkE(ERR) XHCkE(ERR)
- #if defined(HC_FAST) || defined(NO_SPY)
- # define XHCkE(ERR) \
- { \
- if (ERR != H_MSG_OK) \
- return (ERR); \
- }
- #else
- # define XHCkE(ERR) \
- do \
- { \
- if (ERR != H_MSG_OK) \
- { \
- if (IOGetSpyProcCallSwitch()) \
- (void)HProcessErr("-", ERR, __LINE__, __FILE__); \
- return (ERR); \
- } \
- } while (0)
- #endif
- #define HCkPME(ERR, PROC) XHCkPME(ERR, PROC)
- #if defined(HC_FAST) || defined(NO_SPY)
- # define XHCkPME(ERR, PROC) \
- do \
- { \
- Herror _terr; \
- if (H_MSG_OK != (_terr = (PROC))) \
- (ERR) = _terr; \
- } while (0)
- #else
- # define XHCkPME(ERR, PROC) \
- { \
- Herror _terr; \
- if (H_MSG_OK != (_terr = (PROC))) \
- { \
- if (IOGetSpyProcCallSwitch()) \
- (void)HProcessErr("-", ERR, __LINE__, __FILE__); \
- (ERR) = _terr; \
- } \
- }
- #endif
- #define HCkNoObj(PROC_HANDLE) \
- do \
- { \
- bool BOOL_PTR; \
- if ((HNoInpObj(PROC_HANDLE, &BOOL_PTR) != H_MSG_OK) || \
- (BOOL_PTR == true)) \
- { \
- Herror N_OBJ_RESULT; \
- HReadGV(PROC_HANDLE, HGNoObjResult, &N_OBJ_RESULT); \
- return (N_OBJ_RESULT); \
- } \
- } while (0)
- #define HCkSingleInputObj(PROC_HANDLE, OBJ_NUM) \
- HCkP(HPCheckSingleInputObject(PROC_HANDLE, OBJ_NUM))
- #define HCkOnlySqr(width, height) \
- if (!HIs2Pot(width) || (!HIs2Pot(height))) \
- return (H_ERR_NPOT)
- #define HIsError(ERR) ((ERR) != H_MSG_OK)
- #define HIsMessage(ERR) ((ERR) == H_MSG_OK)
- #ifdef HC_FAST
- # define HCkRL(PROC_HANDLE, RL, PROC, IN_OUT)
- #else
- # define HCkRL(PROC_HANDLE, RL, PROC, IN_OUT) \
- do \
- { \
- Herror H_ERR_RL; \
- int32_t CHECK_F; \
- HReadGV(PROC_HANDLE, HGcheck, &CHECK_F); \
- if (CHECK_F & CHECK_CHORD) \
- { \
- H_ERR_RL = HRLTest(PROC_HANDLE, RL, false); \
- if (H_ERR_RL != H_MSG_OK) \
- { \
- (void)fprintf(stderr, "runlength error (%s) %s: #%u\n", IN_OUT, \
- PROC, H_ERR_RL); \
- (void)fprintf(stderr, "runlength data dump in file: <<%s>>\n", \
- RL_DUMP); \
- HCkP(HRLDump(PROC_HANDLE, RL, RL_DUMP)); \
- return (H_ERR_RL); \
- } \
- } \
- } while (0)
- #endif
- #define LongToNet(L, N) \
- { \
- unsigned char* HH; \
- HH = (unsigned char*)&(N); \
- HH[0] = ((L) >> 24) & 255; \
- HH[1] = ((L) >> 16) & 255; \
- HH[2] = ((L) >> 8) & 255; \
- HH[3] = (L)&255; \
- }
- #define NetToLong(N, L) \
- { \
- unsigned char* HH; \
- HH = (unsigned char*)&(N); \
- L = ((int32_t)(HH[0]) << 24) | ((int32_t)(HH[1]) << 16) | \
- ((int32_t)(HH[2]) << 8) | ((int32_t)(HH[3])); \
- }
- #define ShortToNet(S, N) \
- { \
- unsigned char* HH; \
- HH = (unsigned char*)&(N); \
- HH[0] = ((S) >> 8) & 255; \
- HH[1] = (S)&255; \
- }
- #define NetToShort(N, S) \
- { \
- unsigned char* HH; \
- HH = (unsigned char*)&(N); \
- S = ((short)(HH[0]) << 8) | ((short)(HH[1])); \
- }
- #define HAllocStringMem(PROC_HANDLE, SIZE) \
- HCkP(HPAllocStringMem(PROC_HANDLE, (size_t)SIZE))
- /* Macros for accessing input ctrl parameters
- * - without copying
- * - with type and/or number check
- *===========================================================================*/
- #define HGetCParNum(PROC_HANDLE, Par, Num) \
- { \
- Herror ERR; \
- ERR = HPGetCParNum(PROC_HANDLE, Par, Num); \
- if (ERR != H_MSG_OK) \
- return (ERR); \
- }
- #if !defined(NO_SPY) && !defined(SMALL)
- # define HGetPElemL(PROC_HANDLE, PAR, CONVERT, ELEM, N) \
- do \
- { \
- Herror _ERR; \
- _ERR = HPGetPElemL(PROC_HANDLE, PAR, CONVERT, ELEM, N); \
- if (_ERR != H_MSG_OK) \
- return (_ERR); \
- _ERR = IOSpyElem(PROC_HANDLE, PAR, *(INT4_8**)(ELEM), *(INT4_8*)(N), \
- LONG_PAR, true); \
- if (_ERR != H_MSG_OK) \
- return (_ERR); \
- } while (0)
- #else
- # define HGetPElemL(PROC_HANDLE, PAR, CONVERT, ELEM, N) \
- HCkP(HPGetPElemL(PROC_HANDLE, PAR, CONVERT, ELEM, N))
- #endif
- #if !defined(NO_SPY) && !defined(SMALL)
- # define HGetPElemD(PROC_HANDLE, PAR, CONVERT, ELEM, N) \
- do \
- { \
- Herror _ERR; \
- _ERR = HPGetPElemD(PROC_HANDLE, PAR, CONVERT, ELEM, N); \
- if (_ERR != H_MSG_OK) \
- return (_ERR); \
- _ERR = IOSpyElem(PROC_HANDLE, PAR, *(double**)(ELEM), *(INT4_8*)(N), \
- DOUBLE_PAR, true); \
- if (_ERR != H_MSG_OK) \
- return (_ERR); \
- } while (0)
- #else
- # define HGetPElemD(PROC_HANDLE, PAR, CONVERT, ELEM, N) \
- HCkP(HPGetPElemD(PROC_HANDLE, PAR, CONVERT, ELEM, N))
- #endif
- #if !defined(NO_SPY) && !defined(SMALL)
- # define HGetPElemS(PROC_HANDLE, PAR, CONVERT, ELEM, N) \
- do \
- { \
- Herror _ERR; \
- _ERR = HPGetPElemS(PROC_HANDLE, PAR, CONVERT, ELEM, N); \
- if (_ERR != H_MSG_OK) \
- return (_ERR); \
- _ERR = IOSpyElem(PROC_HANDLE, PAR, *(char***)(ELEM), *(INT4_8*)(N), \
- STRING_PAR, true); \
- if (_ERR != H_MSG_OK) \
- return (_ERR); \
- } while (0)
- #else
- # define HGetPElemS(PROC_HANDLE, PAR, CONVERT, ELEM, N) \
- HCkP(HPGetPElemS(PROC_HANDLE, PAR, CONVERT, ELEM, N))
- #endif
- /* Retrieves a single handle from an input parameter */
- #define HGetCElemH1(PROC_HANDLE, PAR, HTYPE, ELEM) \
- HCkP(HPGetPElemH(PROC_HANDLE, PAR, HTYPE, 1, (void**)ELEM, NULL, false))
- /* Retrieves all handles from an input parameter. The returned array contains
- * pointers to the data stored in the handles. It is freed automatically
- * when the operator finishes. */
- #define HGetCElemH(PROC_HANDLE, PAR, HTYPE, ELEM, N) \
- HCkP(HPGetPElemH(PROC_HANDLE, PAR, HTYPE, -1, (void**)ELEM, N, true))
- /* Retrieves given number of handles from an input parameter. The returned
- * array contains pointers to the data stored in the handles. It is freed
- * automatically when the operator finishes. */
- #define HGetCElemHN(PROC_HANDLE, PAR, HTYPE, N, ELEM) \
- HCkP(HPGetPElemH(PROC_HANDLE, PAR, HTYPE, N, ELEM, true))
- #if !defined(NO_SPY) && !defined(SMALL)
- # define HGetPElem(PROC_HANDLE, PAR, ELEM, N, TYPE) \
- do \
- { \
- Herror _ERR; \
- HPGetPElem(PROC_HANDLE, PAR, ELEM, N, TYPE); \
- _ERR = IOSpyElem(PROC_HANDLE, PAR, *(void**)(ELEM), *(INT4_8*)(N), \
- *(int*)(TYPE), true); \
- if (_ERR != H_MSG_OK) \
- return (_ERR); \
- } while (0)
- #else
- # define HGetPElem(PROC_HANDLE, PAR, ELEM, N, TYPE) \
- HPGetPElem(PROC_HANDLE, PAR, ELEM, N, TYPE)
- #endif
- #if !defined(NO_SPY) && !defined(SMALL)
- # define HGetElemL(PROC_HANDLE, PAR, CONVERT, MEM_TYPE, ELEM, N) \
- do \
- { \
- Herror _ERR; \
- _ERR = HPGetElemL(PROC_HANDLE, PAR, CONVERT, MEM_TYPE, ELEM, N); \
- if (_ERR != H_MSG_OK) \
- return (_ERR); \
- _ERR = IOSpyElem(PROC_HANDLE, PAR, *(INT4_8**)(ELEM), *(INT4_8*)(N), \
- LONG_PAR, true); \
- if (_ERR != H_MSG_OK) \
- return (_ERR); \
- } while (0)
- #else
- # define HGetElemL(PROC_HANDLE, PAR, CONVERT, MEM_TYPE, ELEM, N) \
- HCkP(HPGetElemL(PROC_HANDLE, PAR, CONVERT, MEM_TYPE, ELEM, N))
- #endif
- #if !defined(NO_SPY) && !defined(SMALL)
- # define HGetElemD(PROC_HANDLE, PAR, CONVERT, MEM_TYPE, ELEM, N) \
- do \
- { \
- Herror _ERR; \
- _ERR = HPGetElemD(PROC_HANDLE, PAR, CONVERT, MEM_TYPE, ELEM, N); \
- if (_ERR != H_MSG_OK) \
- return (_ERR); \
- _ERR = IOSpyElem(PROC_HANDLE, PAR, *(double**)(ELEM), *(INT4_8*)(N), \
- DOUBLE_PAR, true); \
- if (_ERR != H_MSG_OK) \
- return (_ERR); \
- } while (0)
- #else
- # define HGetElemD(PROC_HANDLE, PAR, CONVERT, MEM_TYPE, ELEM, N) \
- HCkP(HPGetElemD(PROC_HANDLE, PAR, CONVERT, MEM_TYPE, ELEM, N))
- #endif
- #if !defined(NO_SPY) && !defined(SMALL)
- # define HGetElemS(PROC_HANDLE, PAR, CONVERT, MEM_TYPE, ELEM, N) \
- do \
- { \
- Herror _ERR; \
- _ERR = HPGetElemS(PROC_HANDLE, PAR, CONVERT, MEM_TYPE, ELEM, N); \
- if (_ERR != H_MSG_OK) \
- return (_ERR); \
- _ERR = IOSpyElem(PROC_HANDLE, PAR, *(char***)(ELEM), *(INT4_8*)(N), \
- STRING_PAR, true); \
- if (_ERR != H_MSG_OK) \
- return (_ERR); \
- } while (0)
- #else
- # define HGetElemS(PROC_HANDLE, PAR, CONVERT, MEM_TYPE, ELEM, N) \
- HCkP(HPGetElemS(PROC_HANDLE, PAR, CONVERT, MEM_TYPE, ELEM, N))
- #endif
- #if !defined(NO_SPY) && !defined(SMALL)
- # define HCopyElemL(PROC_HANDLE, PAR, CONVERT, ELEM, N) \
- do \
- { \
- Herror _ERR; \
- _ERR = HPCopyElemL(PROC_HANDLE, PAR, CONVERT, ELEM, N); \
- if (_ERR != H_MSG_OK) \
- return (_ERR); \
- _ERR = \
- IOSpyElem(PROC_HANDLE, PAR, ELEM, *(INT4_8*)(N), LONG_PAR, true); \
- if (_ERR != H_MSG_OK) \
- return (_ERR); \
- } while (0)
- #else
- # define HCopyElemL(PROC_HANDLE, PAR, CONVERT, ELEM, N) \
- HCkP(HPCopyElemL(PROC_HANDLE, PAR, CONVERT, ELEM, N))
- #endif
- #if !defined(NO_SPY) && !defined(SMALL)
- # define HCopyElemD(PROC_HANDLE, PAR, CONVERT, ELEM, N) \
- do \
- { \
- Herror _ERR; \
- _ERR = HPCopyElemD(PROC_HANDLE, PAR, CONVERT, ELEM, N); \
- if (_ERR != H_MSG_OK) \
- return (_ERR); \
- _ERR = \
- IOSpyElem(PROC_HANDLE, PAR, ELEM, *(INT4_8*)(N), DOUBLE_PAR, true); \
- if (_ERR != H_MSG_OK) \
- return (_ERR); \
- } while (0)
- #else
- # define HCopyElemD(PROC_HANDLE, PAR, CONVERT, ELEM, N) \
- HCkP(HPCopyElemD(PROC_HANDLE, PAR, CONVERT, ELEM, N))
- #endif
- /*
- * Note: since there is no easy way to implement the SPY functionality
- * for HCopyElemF, we don't bother.
- */
- #define HCopyElemF(PROC_HANDLE, PAR, CONVERT, ELEM, N) \
- HCkP(HPCopyElemF(PROC_HANDLE, PAR, CONVERT, ELEM, N))
- /* HGetPParN:
- * specify the exact number of the read parameter (any type)
- *---------------------------------------------------------------------------*/
- #if !defined(NO_SPY) && !defined(SMALL)
- # define HGetPParN(PROC_HANDLE, PAR, NUM, VAL) \
- { \
- INT4_8 _NUM; \
- Herror ERR = HPGetPPar(PROC_HANDLE, PAR, VAL, &_NUM); \
- if (ERR != H_MSG_OK) \
- return ERR; \
- if (NUM != _NUM) \
- return (H_ERR_WIPN1 - 1) + (PAR); \
- ERR = IOSpyCPar(PROC_HANDLE, PAR, *VAL, _NUM, true); \
- if (ERR != H_MSG_OK) \
- return ERR; \
- }
- #else
- # define HGetPParN(PROC_HANDLE, PAR, NUM, VAL) \
- { \
- INT4_8 _NUM; \
- Herror ERR = HPGetPPar(PROC_HANDLE, PAR, VAL, &_NUM); \
- if (ERR != H_MSG_OK) \
- return ERR; \
- if (NUM != _NUM) \
- return (H_ERR_WIPN1 - 1) + (PAR); \
- }
- #endif
- /* HGetPParMM:
- * the value number of the read parameter is expected to be within a
- * certain range
- *---------------------------------------------------------------------------*/
- #if !defined(NO_SPY) && !defined(SMALL)
- # define HGetPParMM(PROC_HANDLE, PAR, MIN, MAX, VAL, NUM) \
- { \
- Herror ERR = HPGetPPar(PROC_HANDLE, PAR, VAL, NUM); \
- if (ERR != H_MSG_OK) \
- return ERR; \
- if (*NUM < MIN || *NUM > MAX) \
- return (H_ERR_WIPN1 - 1) + (PAR); \
- ERR = IOSpyCPar(PROC_HANDLE, PAR, *VAL, *(NUM), true); \
- if (ERR != H_MSG_OK) \
- return ERR; \
- }
- #else
- # define HGetPParMM(PROC_HANDLE, PAR, MIN, MAX, VAL, NUM) \
- { \
- Herror ERR = HPGetPPar(PROC_HANDLE, PAR, VAL, NUM); \
- if (ERR != H_MSG_OK) \
- return ERR; \
- if (*NUM < MIN || *NUM > MAX) \
- return (H_ERR_WIPN1 - 1) + (PAR); \
- }
- #endif
- /* HGetPParT:
- * specify the expected type(s) of the read parameter
- *---------------------------------------------------------------------------*/
- #if !defined(NO_SPY) && !defined(SMALL)
- # define HGetPParT(PROC_HANDLE, PAR, TYPE, VAL, NUM) \
- { \
- INT4_8 _IDX; \
- Herror ERR = HPGetPPar(PROC_HANDLE, PAR, VAL, NUM); \
- if (ERR != H_MSG_OK) \
- return ERR; \
- for (_IDX = 0; _IDX < *(NUM); _IDX++) \
- if (((TYPE) & (*(VAL))[_IDX].type) == 0) \
- return (H_ERR_WIPT1 - 1) + (PAR); \
- ERR = IOSpyCPar(PROC_HANDLE, PAR, *(VAL), *(NUM), true); \
- if (ERR != H_MSG_OK) \
- return ERR; \
- }
- #else
- # define HGetPParT(PROC_HANDLE, PAR, TYPE, VAL, NUM) \
- { \
- INT4_8 _IDX; \
- Herror ERR = HPGetPPar(PROC_HANDLE, PAR, VAL, NUM); \
- if (ERR != H_MSG_OK) \
- return ERR; \
- for (_IDX = 0; _IDX < *(NUM); _IDX++) \
- if (((TYPE) & (*(VAL))[_IDX].type) == 0) \
- return (H_ERR_WIPT1 - 1) + (PAR); \
- }
- #endif
- /* HGetPParTN:
- * specify the exact number and the expected type(s) of the read parameter
- *---------------------------------------------------------------------------*/
- #if !defined(NO_SPY) && !defined(SMALL)
- # define HGetPParTN(PROC_HANDLE, PAR, TYPE, NUM, VAL) \
- { \
- INT4_8 _IDX, _NUM; \
- Herror ERR = HPGetPPar(PROC_HANDLE, PAR, VAL, &_NUM); \
- if (ERR != H_MSG_OK) \
- return ERR; \
- if ((NUM) != _NUM) \
- return (H_ERR_WIPN1 - 1) + (PAR); \
- for (_IDX = 0; _IDX < _NUM; _IDX++) \
- if (((TYPE) & (*(VAL))[_IDX].type) == 0) \
- return (H_ERR_WIPT1 - 1) + (PAR); \
- ERR = IOSpyCPar(PROC_HANDLE, PAR, *(VAL), _NUM, true); \
- if (ERR != H_MSG_OK) \
- return ERR; \
- }
- #else
- # define HGetPParTN(PROC_HANDLE, PAR, TYPE, NUM, VAL) \
- { \
- INT4_8 _IDX, _NUM; \
- Herror ERR = HPGetPPar(PROC_HANDLE, PAR, VAL, &_NUM); \
- if (ERR != H_MSG_OK) \
- return ERR; \
- if ((NUM) != _NUM) \
- return (H_ERR_WIPN1 - 1) + (PAR); \
- for (_IDX = 0; _IDX < _NUM; _IDX++) \
- if (((TYPE) & (*(VAL))[_IDX].type) == 0) \
- return (H_ERR_WIPT1 - 1) + (PAR); \
- }
- #endif
- /* HGetPParTMM:
- * specify a range for the number of the read parameters as well as
- * the expected type(s)
- *---------------------------------------------------------------------------*/
- #if !defined(NO_SPY) && !defined(SMALL)
- # define HGetPParTMM(PROC_HANDLE, PAR, TYPE, MIN, MAX, VAL, NUM) \
- { \
- INT4_8 _IDX; \
- Herror ERR = HPGetPPar(PROC_HANDLE, PAR, VAL, NUM); \
- if (ERR != H_MSG_OK) \
- return ERR; \
- if (*(NUM) < MIN || *(NUM) > MAX) \
- return (H_ERR_WIPN1 - 1) + (PAR); \
- for (_IDX = 0; _IDX < *(NUM); _IDX++) \
- if (((TYPE) & (*(VAL))[_IDX].type) == 0) \
- return (H_ERR_WIPT1 - 1) + (PAR); \
- ERR = IOSpyCPar(PROC_HANDLE, PAR, *(VAL), *(NUM), true); \
- if (ERR != H_MSG_OK) \
- return ERR; \
- }
- #else
- # define HGetPParTMM(PROC_HANDLE, PAR, TYPE, MIN, MAX, VAL, NUM) \
- { \
- INT4_8 _IDX; \
- Herror ERR = HPGetPPar(PROC_HANDLE, PAR, VAL, NUM); \
- if (ERR != H_MSG_OK) \
- return ERR; \
- if (*(NUM) < MIN || *(NUM) > MAX) \
- return (H_ERR_WIPN1 - 1) + (PAR); \
- for (_IDX = 0; _IDX < *(NUM); _IDX++) \
- if (((TYPE) & (*(VAL))[_IDX].type) == 0) \
- return (H_ERR_WIPT1 - 1) + (PAR); \
- }
- #endif
- #if !defined(NO_SPY) && !defined(SMALL)
- # define HGetPPar(PROC_HANDLE, P, V, N) \
- { \
- Herror ERR; \
- ERR = HPGetPPar(PROC_HANDLE, P, V, N); \
- if (ERR != H_MSG_OK) \
- return (ERR); \
- ERR = IOSpyCPar(PROC_HANDLE, P, *V, *N, true); \
- if (ERR != H_MSG_OK) \
- return (ERR); \
- }
- #else
- # define HGetPPar(PROC_HANDLE, P, V, N) \
- { \
- Herror ERR; \
- ERR = HPGetPPar(PROC_HANDLE, P, V, N); \
- if (ERR != H_MSG_OK) \
- return (ERR); \
- }
- #endif
- #if !defined(NO_SPY) && !defined(SMALL)
- # define HGetPar(PROC_HANDLE, Par, Kind, Val, Num) \
- { \
- Herror ERR; \
- ERR = HPGetPar(PROC_HANDLE, Par, ANY_ELEM, Kind, Val, (INT4_8)0, \
- (INT4_8)10000000, Num); \
- if (ERR != H_MSG_OK) \
- return (ERR); \
- ERR = IOSpyCPar(PROC_HANDLE, Index, Val, *(Num), true); \
- if (ERR != H_MSG_OK) \
- return (ERR); \
- }
- #else
- # define HGetPar(Par, Kind, Val, Num) \
- { \
- Herror ERR; \
- ERR = HPGetPar(Par, ANY_ELEM, Kind, Val, (INT4_8)0, (INT4_8)10000000, \
- Num); \
- if (ERR != H_MSG_OK) \
- return (ERR); \
- }
- #endif
- #if !defined(NO_SPY) && !defined(SMALL)
- # define HGetSPar(PROC_HANDLE, Index, Type, Val, N) \
- { \
- INT4_8 _HN; \
- Herror ERR; \
- ERR = HPGetCPar(PROC_HANDLE, Index, Type, Val, (INT4_8)(N), \
- (INT4_8)(N), &_HN); \
- if (ERR != H_MSG_OK) \
- return (ERR); \
- ERR = IOSpyCPar(PROC_HANDLE, Index, Val, _HN, true); \
- if (ERR != H_MSG_OK) \
- return (ERR); \
- }
- #else
- # define HGetSPar(PROC_HANDLE, Index, Type, Val, N) \
- { \
- INT4_8 _HN; \
- Herror ERR; \
- ERR = HPGetCPar(PROC_HANDLE, Index, Type, Val, (INT4_8)(N), \
- (INT4_8)(N), &_HN); \
- if (ERR != H_MSG_OK) \
- return (ERR); \
- }
- #endif
- #if !defined(NO_SPY) && !defined(SMALL)
- # define HGetCPar(PROC_HANDLE, Index, InpType, Val, Min, Max, ResNum) \
- { \
- Herror ERR; \
- ERR = HPGetCPar(PROC_HANDLE, Index, InpType, Val, (INT4_8)(Min), \
- (INT4_8)(Max), ResNum); \
- if (ERR != H_MSG_OK) \
- return (ERR); \
- ERR = IOSpyCPar(PROC_HANDLE, Index, Val, (INT4_8)*ResNum, true); \
- if (ERR != H_MSG_OK) \
- return (ERR); \
- }
- #else
- # define HGetCPar(PROC_HANDLE, Index, InpType, Val, Min, Max, ResNum) \
- { \
- Herror ERR; \
- ERR = HPGetCPar(PROC_HANDLE, Index, InpType, Val, (INT4_8)(Min), \
- (INT4_8)(Max), ResNum); \
- if (ERR != H_MSG_OK) \
- return (ERR); \
- }
- #endif
- #if !defined(NO_SPY) && !defined(SMALL)
- # define HGetFPar(PROC_HANDLE, Index, Type, Val, Num) \
- { \
- int _HT; \
- INT4_8 _HN; \
- Herror ERR; \
- ERR = HPGetPar(PROC_HANDLE, Index, Type, &_HT, Val, (INT4_8)(Num), \
- (INT4_8)(Num), &_HN); \
- if (ERR != H_MSG_OK) \
- return (ERR); \
- ERR = IOSpyPar(PROC_HANDLE, Index, _HT, Val, _HN, true); \
- if (ERR != H_MSG_OK) \
- return (ERR); \
- }
- #else
- # define HGetFPar(PROC_HANDLE, Index, Type, Val, Num) \
- { \
- int _HT; \
- INT4_8 _HN; \
- Herror ERR; \
- ERR = HPGetPar(PROC_HANDLE, Index, Type, &_HT, Val, (INT4_8)(Num), \
- (INT4_8)(Num), &_HN); \
- if (ERR != H_MSG_OK) \
- return (ERR); \
- }
- #endif
- #if !defined(NO_SPY) && !defined(SMALL)
- # define HGetEPar(PROC_HANDLE, Index, InpType, ResType, Val, Min, Max, Num) \
- { \
- Herror ERR; \
- ERR = HPGetPar(PROC_HANDLE, Index, InpType, ResType, Val, \
- (INT4_8)(Min), (INT4_8)(Max), Num); \
- if (ERR != H_MSG_OK) \
- return (ERR); \
- ERR = IOSpyPar(PROC_HANDLE, Index, *ResType, Val, (INT4_8)*Num, true); \
- if (ERR != H_MSG_OK) \
- return (ERR); \
- }
- #else
- # define HGetEPar(PROC_HANDLE, Index, InpType, ResType, Val, Min, Max, Num) \
- { \
- Herror ERR; \
- ERR = HPGetPar(PROC_HANDLE, Index, InpType, ResType, Val, \
- (INT4_8)(Min), (INT4_8)(Max), Num); \
- if (ERR != H_MSG_OK) \
- return (ERR); \
- }
- #endif
- /* Macros for accessing ctrl output parameters.
- *===========================================================================*/
- #define HPutPElem(PROC_HANDLE, PAR, ELEM, NUM, TYPE) \
- do \
- { \
- HCkP(HPPutPElem(PROC_HANDLE, PAR, ELEM, NUM, TYPE)); \
- } while (0)
- #define HPutElem(PROC_HANDLE, PAR, ELEM, NUM, TYPE) \
- do \
- { \
- HCkP(HPPutElem(PROC_HANDLE, PAR, ELEM, NUM, TYPE)); \
- } while (0)
- #if !defined(NO_SPY) && !defined(SMALL)
- # define HPutPar(PROC_HANDLE, P, K, V, N) \
- { \
- Herror ERR; \
- ERR = IOSpyPar(PROC_HANDLE, P, K, V, (INT4_8)(N), false); \
- if (ERR != H_MSG_OK) \
- return (ERR); \
- ERR = HPPutPar(PROC_HANDLE, P, K, V, (INT4_8)(N)); \
- if (ERR != H_MSG_OK) \
- return (ERR); \
- }
- #else
- # define HPutPar(PROC_HANDLE, P, K, V, N) \
- { \
- Herror ERR; \
- ERR = HPPutPar(PROC_HANDLE, P, K, V, (INT4_8)(N)); \
- if (ERR != H_MSG_OK) \
- return (ERR); \
- }
- #endif
- #if !defined(NO_SPY) && !defined(SMALL)
- # define HPutCPar(PROC_HANDLE, P, V, N) \
- { \
- Herror ERR; \
- ERR = IOSpyCPar(PROC_HANDLE, P, V, (INT4_8)N, false); \
- if (ERR != H_MSG_OK) \
- return (ERR); \
- ERR = HPPutCPar(PROC_HANDLE, P, V, (INT4_8)(N)); \
- if (ERR != H_MSG_OK) \
- return (ERR); \
- }
- #else
- # define HPutCPar(PROC_HANDLE, P, V, N) \
- { \
- Herror ERR; \
- ERR = HPPutCPar(PROC_HANDLE, P, V, (INT4_8)(N)); \
- if (ERR != H_MSG_OK) \
- return (ERR); \
- }
- #endif
- #if !defined(NO_SPY) && !defined(SMALL)
- # define HPutPPar(PROC_HANDLE, P, V, N) \
- { \
- Herror ERR; \
- ERR = IOSpyCPar(PROC_HANDLE, P, V, (INT4_8)N, false); \
- if (ERR != H_MSG_OK) \
- return (ERR); \
- ERR = HPPutPPar(PROC_HANDLE, P, V, N); \
- if (ERR != H_MSG_OK) \
- return (ERR); \
- }
- #else
- # define HPutPPar(PROC_HANDLE, P, V, N) \
- { \
- Herror ERR; \
- ERR = HPPutPPar(PROC_HANDLE, P, V, N); \
- if (ERR != H_MSG_OK) \
- return (ERR); \
- }
- #endif
- /* Write NUM handle references in the output control PAR.
- * HANDLETYPE is the type of the corresponding handles (const HhandleInfo*).
- * ELEM points to an array that holds NUM elements.
- *
- * IMPORTANT: The output control variable gains ownership of all pointers that
- * are in ELEM. When aborting an operator with an error,
- * those values MUST NOT be cleared inside the operator's code,
- * but will be cleared automatically when cleaning the output
- * control variable.
- */
- #define HPutElemH(PROC_HANDLE, PAR, ELEM, NUM, HANDLETYPE) \
- do \
- { \
- HCkP(HPPutElemH(PROC_HANDLE, PAR, ELEM, NUM, HANDLETYPE)); \
- } while (0)
- /* Allocates one handle in the output control parameter PAR.
- * HANDLETYPE is the type of the corresponding handles (const HhandleInfo*).
- * ELEM is modified to point to where the new tool can be allocated.
- *
- * IMPORTANT: The output control variable gains ownership of the pointer in
- * ELEM. When aborting an operator with an error,
- * the value MUST NOT be cleared inside the operator's code,
- * but will be cleared automatically when cleaning the output
- * control variable.
- */
- #define HAllocOutputHandle(PROC_HANDLE, PAR, ELEM, HANDLETYPE) \
- HXAllocOutputHandle(PROC_HANDLE, PAR, (void***)ELEM, HANDLETYPE)
- /* Macros for accessing iconic object parameters.
- *===========================================================================*/
- #define HNumOfChannels(PROC_HANDLE, OBJ, NUM) \
- HCkP(HPNumOfChannels(PROC_HANDLE, (int)1, (INT4_8)OBJ, NUM))
- #define HAllObj(PROC_HANDLE, VAR, Hkey, I) \
- I = 0; \
- while ((HCheckInpObjNum(PROC_HANDLE, VAR, I + 1) == true) && \
- (HPGetObj(PROC_HANDLE, VAR, (INT4_8)++I, &Hkey) == H_MSG_OK) && \
- (Hkey != H_UNDEFINED))
- #define HAllOutpObj(PROC_HANDLE, VAR, Hkey, I) \
- I = 0; \
- while ((HCheckOutpObjNum(PROC_HANDLE, VAR, I + 1) == true) && \
- (HPGetOutpObj(PROC_HANDLE, VAR, (INT4_8)++I, &Hkey) == H_MSG_OK) && \
- (Hkey != H_UNDEFINED))
- #define HAllSegm(PROC_HANDLE, RL, IMAGES, MAX_CHANNELS, I) \
- I = 0; \
- while ((HCheckInpObjNum(PROC_HANDLE, 1, I + 1) == true) && \
- (HPAllSegm(PROC_HANDLE, (INT4_8)++I, RL, IMAGES, MAX_CHANNELS) == \
- H_MSG_OK))
- #define HAllReg(PROC_HANDLE, RL, I) \
- I = 0; \
- while ((HCheckInpObjNum(PROC_HANDLE, 1, I + 1) == true) && \
- (HPAllReg(PROC_HANDLE, (INT4_8)++I, RL) == H_MSG_OK))
- #define HAllFilter(PROC_HANDLE, RL, IMA_IN, IMA_OUT, MAX_CHANNELS, I) \
- I = 0; \
- while ((HCheckInpObjNum(PROC_HANDLE, 1, I + 1) == true) && \
- (HPAllFilter(PROC_HANDLE, (INT4_8)++I, RL, IMA_IN, IMA_OUT, \
- MAX_CHANNELS) == H_MSG_OK))
- #define HAllComp(PROC_HANDLE, OBJ_IN, IM_IN_KEY, IM_IN, INDEX) \
- HPGetComp(PROC_HANDLE, OBJ_IN, IMAGE_INDEX, &IM_IN_KEY); \
- if (IM_IN_KEY == H_UNDEFINED) \
- return (H_ERR_AUDI); \
- for (INDEX = IMAGE_INDEX; \
- (HPGetComp(PROC_HANDLE, OBJ_IN, INDEX, &IM_IN_KEY) == H_MSG_OK) && \
- (IM_IN_KEY != H_UNDEFINED) && \
- HPGetImage(PROC_HANDLE, IM_IN_KEY, &IM_IN) == H_MSG_OK; \
- INDEX++)
- #define HAllCompChecked(PROC_HANDLE, OBJ_IN, IM_IN_KEY, IM_IN, INDEX) \
- HCkP(HPGetComp(PROC_HANDLE, OBJ_IN, IMAGE_INDEX, &IM_IN_KEY)); \
- if (IM_IN_KEY == H_UNDEFINED) \
- return (H_ERR_AUDI); \
- for (INDEX = IMAGE_INDEX; \
- (HPGetComp(PROC_HANDLE, OBJ_IN, INDEX, &IM_IN_KEY) == H_MSG_OK) && \
- (IM_IN_KEY != H_UNDEFINED) && \
- HPGetImage(PROC_HANDLE, IM_IN_KEY, &IM_IN) == H_MSG_OK; \
- INDEX++)
- #define HIfFirstComp(INDEX) if (INDEX == IMAGE_INDEX)
- #define HAllFilter2(PROC_HANDLE, RL, IMA_IN1, IMA_IN2, IMA_OUT, MAX_CHANNELS, \
- I) \
- I = 0; \
- while ((HCheckInpObjNum(PROC_HANDLE, 1, I + 1) == true) && \
- (HPAllFilter2(PROC_HANDLE, (INT4_8)++I, RL, IMA_IN1, IMA_IN2, \
- IMA_OUT, MAX_CHANNELS) == H_MSG_OK))
- #define HGetFRL(PROC_HANDLE, Key, region) \
- HCkP(HPGetFRL(PROC_HANDLE, Key, region))
- #define HGetRL(PROC_HANDLE, Key, region) \
- HCkP(HPGetRL(PROC_HANDLE, Key, region))
- #define HGetFDRL(PROC_HANDLE, Key, region) \
- HCkP(HPGetFDRL(PROC_HANDLE, Key, region))
- #define HGetDRL(PROC_HANDLE, Key, region) \
- HCkP(HPGetDRL(PROC_HANDLE, Key, region))
- #define HGetURL(PROC_HANDLE, Par, region) \
- HCkP(HPGetURL(PROC_HANDLE, Par, region))
- #define HGetImage(PROC_HANDLE, Key, Image) \
- HCkP(HPGetImage(PROC_HANDLE, Key, Image))
- #define HGetImageInfo(PROC_HANDLE, Key, Image) \
- HCkP(HP0GetCDImage(PROC_HANDLE, Key, Image))
- #define HGetDImage(PROC_HANDLE, Key, Comp, Image) \
- HCkP(HPGetDImage(PROC_HANDLE, Key, Comp, Image))
- #define HDelObj(PROC_HANDLE, Key) HCkP(HPDelObj(PROC_HANDLE, Key))
- #define HNewRegion(PROC_HANDLE, RL) HCkP(HPNewRegion(PROC_HANDLE, RL))
- #define HPushRegion(PROC_HANDLE, RL) HCkP(HPPushRegion(PROC_HANDLE, RL))
- #define HPushGlobalRegion(PROC_HANDLE, RL) \
- HCkP(HPPushGlobalRegion(PROC_HANDLE, RL))
- #define HDupObj(PROC_HANDLE, INDEX) HCkP(HPDupObj(PROC_HANDLE, INDEX))
- #define HPutDRL(PROC_HANDLE, Key, RL, KEY_PTR) \
- HCkP(HPPutDRL(PROC_HANDLE, Key, RL, KEY_PTR));
- #define HPutPRLComp(PROC_HANDLE, ObjKey, RL, KEY_PTR) \
- HCkP(HPPutPRLComp(PROC_HANDLE, ObjKey, RL, KEY_PTR));
- #define HPutRect(PROC_HANDLE, Key, W, H) \
- HCkP(HPPutRect(PROC_HANDLE, Key, W, H));
- #define HPutImage(PROC_HANDLE, Image, Copy, KEY_PTR) \
- HCkP(HPPutImage(PROC_HANDLE, Image, Copy, KEY_PTR));
- #define HPutDImage(PROC_HANDLE, Key, Comp, Image, Copy, KEY_PTR) \
- HCkP(HPPutDImage(PROC_HANDLE, Key, Comp, Image, Copy, KEY_PTR));
- #define HDefObj(PROC_HANDLE, Obj, Key, Comp) \
- HCkP(HPDefObj(PROC_HANDLE, Obj, Key, Comp));
- #define HCrObj(PROC_HANDLE, Par, KEY_PTR) \
- HCkP(HPCrObj(PROC_HANDLE, Par, KEY_PTR));
- #define HCopyObj(PROC_HANDLE, Key, Par, KEY_PTR) \
- HCkP(HPCopyObj(PROC_HANDLE, Key, Par, KEY_PTR));
- #define HGetObj(PROC_HANDLE, Par, Num, KEY_PTR) \
- HCkP(HPGetObj(PROC_HANDLE, Par, (INT4_8)Num, KEY_PTR));
- #define HGetObjNum(PROC_HANDLE, Par, Num) \
- HCkP(HPGetObjNum(PROC_HANDLE, Par, Num));
- #define HGetComp(PROC_HANDLE, Obj, CompId, Id) \
- HCkP(HPGetComp(PROC_HANDLE, Obj, CompId, Id));
- #define HGetXLD(PROC_HANDLE, DBKEY, TYPE, XLD) \
- { \
- int TMP_TYPE; \
- int NUM_USES; \
- Hkey* USES; \
- HCkP(HPGetXLD(PROC_HANDLE, DBKEY, &TMP_TYPE, XLD, &USES, &NUM_USES)); \
- if (TYPE != TMP_TYPE) \
- return (H_ERR_XLDWT); \
- }
- #define HGetSXLD(PROC_HANDLE, DBKEY, TYPE, XLD) \
- { \
- int NUM_USES; \
- Hkey* USES; \
- HCkP(HPGetXLD(PROC_HANDLE, DBKEY, TYPE, XLD, &USES, &NUM_USES)); \
- }
- #define HCrXLD(PROC_HANDLE, PAR, XLD, TYPE, USES, NUM_USES, FREE, KEY_PTR) \
- HCkP(HPCrXLD(PROC_HANDLE, PAR, XLD, TYPE, USES, NUM_USES, FREE, KEY_PTR));
- /* -------- Macros for accessing HALCON operator context information ------- */
- /* Write a global context Variable ('normal' variable). */
- #define HWriteGV(ProcHandle, Element, Value) \
- HCkP(HAccessGlVar(ProcHandle, Element, GV_WRITE_INFO, NULL, (double)Value, \
- (char*)NULL, (Hkey)NULL, 0))
- /* Write a global context Variable ('normal' variable) with index. */
- #define HWriteGVI(ProcHandle, Element, Value, Index) \
- HCkP(HAccessGlVar(ProcHandle, Element, GV_WRITE_INFO, NULL, (double)Value, \
- (char*)NULL, (Hkey)NULL, Index))
- /* Write a global context Variable (string). */
- #define HWriteGVS(ProcHandle, Element, String) \
- HCkP(HAccessGlVar(ProcHandle, Element, GV_WRITE_INFO, NULL, (double)0, \
- String, (Hkey)NULL, 0))
- /* Write a global context variable (string in element of array). */
- #define HWriteGVSA(ProcHandle, Element, String, Index) \
- HCkP(HAccessGlVar(ProcHandle, Element, GV_WRITE_INFO, NULL, (double)0, \
- String, (Hkey)NULL, Index))
- /* Write a global context variable (HALCON object key in element of array). */
- #define HWriteGVKA(ProcHandle, Element, Key, Index) \
- HCkP(HAccessGlVar(ProcHandle, Element, GV_WRITE_INFO, NULL, (double)0, \
- (char*)NULL, Key, Index))
- /* Write a global context variable (pointer in element of array). */
- #define HWriteGVPA(ProcHandle, Element, Pointer, Index) \
- HCkP(HAccessGlVar(ProcHandle, Element, GV_WRITE_INFO, Pointer, (double)0, \
- (char*)NULL, NULL, Index))
- /* Write a global context variable (element of array). */
- #define HWriteGVA(ProcHandle, Element, Value, Index) \
- HCkP(HAccessGlVar(ProcHandle, Element, GV_WRITE_INFO, NULL, (double)Value, \
- (char*)NULL, (Hkey)NULL, Index))
- /* Write a global context Variable ('normal' variable); force change of */
- /* the corresponding reference version. */
- #define HWriteGVR(ProcHandle, Element, Value) \
- HCkP(HAccessGlVar(ProcHandle, Element, GV_WRITE_REF, NULL, (double)Value, \
- (char*)NULL, (Hkey)NULL, 0))
- /* Write a global context Variable ('normal' variable) with index; */
- /* force change of the corresponding reference version. */
- #define HWriteGVRI(ProcHandle, Element, Value, Index) \
- HCkP(HAccessGlVar(ProcHandle, Element, GV_WRITE_REF, NULL, (double)Value, \
- (char*)NULL, (Hkey)NULL, Index))
- /* Read a global context Variable ('normal' variable). */
- #define HReadGV(ProcHandle, Element, Buffer) \
- HCkP(HAccessGlVar(ProcHandle, Element, GV_READ_INFO, Buffer, (double)0, \
- (char*)NULL, (Hkey)NULL, 0))
- /* Read a global context Variable (element of array). */
- #define HReadGVA(ProcHandle, Element, Buffer, Index) \
- HCkP(HAccessGlVar(ProcHandle, Element, GV_READ_INFO, Buffer, (double)0, \
- (char*)NULL, (Hkey)NULL, Index))
- /* Read a global context Variable from reference. */
- #define HReadGVR(ProcHandle, Element, Buffer) \
- HCkP(HAccessGlVar(ProcHandle, Element, GV_READ_REF, Buffer, (double)0, \
- (char*)NULL, (Hkey)NULL, 0))
- /* Read a global context Variable from reference with index. */
- #define HReadGVRI(ProcHandle, Element, Buffer, Index) \
- HCkP(HAccessGlVar(ProcHandle, Element, GV_READ_REF, Buffer, (double)0, \
- (char*)NULL, (Hkey)NULL, Index))
- /* initialize a global context Variable (array). */
- #define HInitGVA(ProcHandle, Element, Address) \
- HCkP(HAccessGlVar(ProcHandle, Element, GV_INIT_INFO, Address, (double)0, \
- (char*)NULL, (Hkey)NULL, 0))
- /* get the address of a global context Variable (array). */
- #define HGetAddrGVA(ProcHandle, Element, Buffer) \
- HCkP(HAccessGlVar(ProcHandle, Element, GV_GET_ADRESS, Buffer, (double)0, \
- (char*)NULL, (Hkey)NULL, 0))
- /* Reallocate the memory of a global context Variable (array). */
- #define HReallocGVA(ProcHandle, Element, NewSize) \
- HCkP(HAccessGlVar(ProcHandle, Element, GV_REALLOC_A, NULL, (double)0, \
- (char*)NULL, (Hkey)NULL, NewSize))
- /* Lock a global context mutex variable. */
- #if defined H_PARALLEL
- # define HLockGVM(ProcHandle, Element) \
- HCkP(HAccessGlVar(ProcHandle, Element, GV_LOCK, NULL, (double)0, \
- (char*)NULL, (Hkey)NULL, 0))
- /* Lock a global context mutex variable and directly return Herror result. */
- # define HLockGVMdirect(ProcHandle, Element) \
- HAccessGlVar(ProcHandle, Element, GV_LOCK, NULL, (double)0, (char*)NULL, \
- (Hkey)NULL, 0)
- /* Unlock a global context mutex variable. */
- # define HUnlockGVM(ProcHandle, Element) \
- HCkP(HAccessGlVar(ProcHandle, Element, GV_UNLOCK, NULL, (double)0, \
- (char*)NULL, (Hkey)NULL, 0))
- /* Unlock a global context mutex variable and directly return Herror result. */
- # define HUnlockGVMdirect(ProcHandle, Element) \
- HAccessGlVar(ProcHandle, Element, GV_UNLOCK, NULL, (double)0, \
- (char*)NULL, (Hkey)NULL, 0)
- #else
- # define HLockGVM(ProcHandle, Element)
- # define HLockGVMdirect(ProcHandle, Element) H_MSG_OK
- # define HUnlockGVM(ProcHandle, Element)
- # define HUnlockGVMdirect(ProcHandle, Element) H_MSG_OK
- #endif
- /* Calculate 'bitwise OR' with the content of a global context variable. */
- #define HBOrGV(ProcHandle, Element, Value) \
- HCkP(HAccessGlVar(ProcHandle, Element, GV_BOR_INFO, NULL, (double)Value, \
- (char*)NULL, (Hkey)NULL, 0))
- /* Calculate 'bitwise AND' with the content of a global context variable. */
- #define HBAndGV(ProcHandle, Element, Value) \
- HCkP(HAccessGlVar(ProcHandle, Element, GV_BAND_INFO, NULL, (double)Value, \
- (char*)NULL, (Hkey)NULL, 0))
- /* - - - - Old Makros for accessing HALCON operator context information - - */
- /* (all accesses using the old makros should be replaced by the new ones in */
- /* the long term) */
- /* Write an element of the global structure HInterInfo. */
- #define HWriteInterInfo(ProcHandle, Element, Value) \
- HCkP(HAccessGlVar(ProcHandle, Element, GV_WRITE_INFO, NULL, (double)Value, \
- (char*)NULL, (Hkey)NULL, 0))
- /* Write an element of the global structure HInterInfo (string). */
- #define HWriteInterInfoS(ProcHandle, Element, Value) \
- HCkP(HAccessGlVar(ProcHandle, Element, GV_WRITE_INFO, NULL, (double)0, \
- Value, (Hkey)NULL, 0))
- /* Write an element of the global structure HInterInfo (string into array). */
- #define HWriteInterInfoSA(ProcHandle, Element, Value, Index) \
- HCkP(HAccessGlVar(ProcHandle, Element, GV_WRITE_INFO, NULL, (double)0, \
- Value, (Hkey)NULL, Index))
- /* Write an element of the global structure HInterInfo (array element). */
- #define HWriteInterInfoA(ProcHandle, Element, Value, Index) \
- HCkP(HAccessGlVar(ProcHandle, Element, GV_WRITE_INFO, NULL, (double)Value, \
- (char*)NULL, (Hkey)NULL, Index))
- /* Read an element of the global structure HInterInfo. */
- #define HReadInterInfo(ProcHandle, Element, Value) \
- HCkP(HAccessGlVar(ProcHandle, Element, GV_READ_INFO, Value, (double)0, \
- (char*)NULL, (Hkey)NULL, 0))
- /* Read an element of the global structure HInterInfo (array element). */
- #define HReadInterInfoA(ProcHandle, Element, Value, Index) \
- HCkP(HAccessGlVar(ProcHandle, Element, GV_READ_INFO, Value, (double)0, \
- (char*)NULL, (Hkey)NULL, Index))
- /* Initialize an element of the global structure HInterInfo (array element). */
- #define HInitInterInfoA(ProcHandle, Element, Value) \
- HCkP(HAccessGlVar(ProcHandle, Element, GV_INIT_INFO, Value, (double)0, \
- (char*)NULL, (Hkey)NULL, 0))
- /* Write an element of the global structure HSysComInfo. */
- #define HWriteSysComInfo(ProcHandle, Element, Value) \
- HCkP(HAccessGlVar(ProcHandle, Element, GV_WRITE_INFO, NULL, (double)Value, \
- (char*)NULL, (Hkey)NULL, 0))
- /* Write an element of the global structure HSysComInfo (string). */
- #define HWriteSysComInfoS(ProcHandle, Element, Value) \
- HCkP(HAccessGlVar(ProcHandle, Element, GV_WRITE_INFO, NULL, (double)0, \
- Value, (Hkey)NULL, 0))
- /* Write an element of the global structure HSysComInfo (string into array). */
- #define HWriteSysComInfoSA(ProcHandle, Element, Value, Index) \
- HCkP(HAccessGlVar(ProcHandle, Element, GV_WRITE_INFO, NULL, (double)0, \
- Value, (Hkey)NULL, Index))
- /* Write an element of the global structure HSysComInfo (array element). */
- #define HWriteSysComInfoA(ProcHandle, Element, Value, Index) \
- HCkP(HAccessGlVar(ProcHandle, Element, GV_WRITE_INFO, NULL, (double)Value, \
- (char*)NULL, (Hkey)NULL, Index))
- /* Write an element of the global structure HSysInfoShared. */
- #define HWriteSysInfoShared(ProcHandle, Element, Value) \
- HAccessGlVar(ProcHandle, Element, GV_WRITE_INFO, NULL, (double)Value, \
- (char*)NULL, (Hkey)NULL, 0)
- /* Write an element of the global structure HSysInfoShared (string). */
- #define HWriteSysInfoSharedS(ProcHandle, Element, Value) \
- HAccessGlVar(ProcHandle, Element, GV_WRITE_INFO, NULL, (double)0, Value, \
- (Hkey)NULL, 0)
- /* Write an element of the global structure HSysInfoShared */
- /* (string into array). */
- #define HWriteSysInfoSharedSA(ProcHandle, Element, Value, Index) \
- HAccessGlVar(ProcHandle, Element, GV_WRITE_INFO, NULL, (double)0, Value, \
- (Hkey)NULL, Index)
- /* Write an element of the global structure HSysComInfo (array element). */
- #define HWriteSysInfoSharedA(ProcHandle, Element, Value, Index) \
- HAccessGlVar(ProcHandle, Element, GV_WRITE_INFO, NULL, (double)Value, \
- (char*)NULL, (Hkey)NULL, Index)
- /* Read an element of the global structure HSysComInfo. */
- #define HReadSysComInfo(ProcHandle, Element, Value) \
- HCkP(HAccessGlVar(ProcHandle, Element, GV_READ_INFO, Value, (double)0, \
- (char*)NULL, (Hkey)NULL, 0))
- /* Read an element of the global structure HSysComInfo (array element). */
- #define HReadSysComInfoA(ProcHandle, Element, Value, Index) \
- HCkP(HAccessGlVar(ProcHandle, Element, GV_READ_INFO, Value, (double)0, \
- (char*)NULL, (Hkey)NULL, Index))
- /* Initialize an element of the global structure HSysComInfo (array element).*/
- #define HInitSysComInfoA(ProcHandle, Element, Value) \
- HCkP(HAccessGlVar(ProcHandle, Element, GV_INIT_INFO, Value, (double)0, \
- (char*)NULL, (Hkey)NULL, 0))
- /* Write an element of the global structure HProcCallInfo. */
- #define HWriteProcCallInfo(ProcHandle, Element, Value) \
- HCkP(HAccessGlVar(ProcHandle, Element, GV_WRITE_INFO, NULL, (double)Value, \
- (char*)NULL, (Hkey)NULL, 0))
- /* Write an element of the global structure HProcCallInfo (string) */
- #define HWriteProcCallInfoS(ProcHandle, Element, Value) \
- HCkP(HAccessGlVar(ProcHandle, Element, GV_WRITE_INFO, NULL, (double)0, \
- Value, (Hkey)NULL, 0))
- /* Write an element of the global structure HProcCallInfo */
- /* (string into array). */
- #define HWriteProcCallInfoSA(ProcHandle, Element, Value, Index) \
- HCkP(HAccessGlVar(ProcHandle, Element, GV_WRITE_INFO, NULL, (double)0, \
- Value, (Hkey)NULL, Index))
- /* Write an element of the global structure HProcCallInfo (key into array). */
- #define HWriteProcCallInfoKA(ProcHandle, Element, Value, Index) \
- HCkP(HAccessGlVar(ProcHandle, Element, GV_WRITE_INFO, NULL, (double)0, \
- (char*)NULL, Value, Index))
- /* Write an element of the global structure HProcCallInfo (array element). */
- #define HWriteProcCallInfoA(ProcHandle, Element, Value, Index) \
- HCkP(HAccessGlVar(ProcHandle, Element, GV_WRITE_INFO, NULL, (double)Value, \
- (char*)NULL, (Hkey)NULL, Index))
- /* Read an element of the global structure HProcCallInfo. */
- #define HReadProcCallInfo(ProcHandle, Element, Value) \
- HCkP(HAccessGlVar(ProcHandle, Element, GV_READ_INFO, Value, (double)0, \
- (char*)NULL, (Hkey)NULL, 0))
- /* Read an element of the global structure HProcCallInfo. */
- #define HReadProcCallInfoA(ProcHandle, Element, Value, Index) \
- HCkP(HAccessGlVar(ProcHandle, Element, GV_READ_INFO, Value, (double)0, \
- (char*)NULL, (Hkey)NULL, Index))
- /* Initialize an element of the global structure HProcCallInfo (array). */
- #define HInitProcCallInfoA(ProcHandle, Element, Value) \
- HCkP(HAccessGlVar(ProcHandle, Element, GV_INIT_INFO, Value, (double)0, \
- (char*)NULL, (Hkey)NULL, 0))
- /* Get the address of an array element of the global structure HProcCallInfo.*/
- #define HGetAdrProcCallInfoA(ProcHandle, Element, Value) \
- HCkP(HAccessGlVar(ProcHandle, Element, GV_GET_ADRESS, Value, (double)0, \
- (char*)NULL, (Hkey)NULL, 0))
- #endif /* HMACRO_H */
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