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cotton_double/Include/ClassicMIL/MILDyn/mil3dreg.h

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//==============================================================================
//!
//! \brief Mil3dreg CAPI header (M3dreg...)
//!
//! AUTHOR: Matrox Imaging
//!
//! COPYRIGHT NOTICE:
//! Copyright (c) Matrox Electronic Systems Ltd., 1992-2023.
//! All Rights Reserved
// Revision: 10.60.0776
//==============================================================================
#ifndef __MIL_3DREG_H__
#define __MIL_3DREG_H__
#if (!M_MIL_LITE) /* MIL FULL ONLY */
/* C++ directive if needed */
#ifdef __cplusplus
extern "C"
{
#endif
//==============================================================================
// M3dregAlloc ContextTypes
#define M_PAIRWISE_REGISTRATION_CONTEXT 3507
#define M_DRAW_3D_CONTEXT 3815 // already defined in milcal.h
//==============================================================================
// Indexing, used in other M3dreg functions (M3dregInquire(), M3dregControl(), ...)
#define M_DEFAULT 0x10000000L // already defined in mil.h
#define M_CONTEXT 0x08000000L // already defined in mil.h
#define M_GENERAL 0x20000000L // already defined in milmod.h, ..
#define M_ALL 0x40000000L // already defined in mil.h
#define M_REGISTRATION_INDEX_FLAG 0x00200000L
#define M_REGISTRATION_INDEX_VALUE 3534
#define M_MODIFICATION_COUNT 5010L // already defined in mil.h
//==============================================================================
//==============================================================================
// M3dregControl / M3dregInquire
// Context
#define M_ENABLE -9997L // also in mil.h
#define M_DISABLE -9999L // also in mil.h
#define M_TRUE 1L // Already defined in mil.h, milmeas.h, miledge.h
#define M_FALSE 0L // Already defined in mil.h, milmeas.h, miledge.h
#define M_AUTO 444L // also in mil.h
#define M_USER_DEFINED 21L // also in mil.h
#define M_TIMEOUT 2077L
#define M_MIN 0x02000000L // Already defined in milmeas.h, mil.h, miledge.h
#define M_MAX 0x04000000L // also in mil.h
#define M_AVERAGE 0x00000020L // also in milim.h
#define M_CENTER 0x00000080L // already defined in milim.h
#define M_SAVE_PAIRS_INFO 5549L
#define M_ALLOCATION_FAILURE_REAL_TEST_FLAG 971L // also in milblob.h, milstr.h
// Context
#define M_COMPUTATION_DIRECTION 3587
#define M_TO_REFERENCE 3588
#define M_FROM_REFERENCE 3589
#define M_STOP_CALCULATE 116L // also in milblob.h
#define M_CENTROID 1956L // already defined in mil3dim
#define M_POINT_TO_POINT 1957L
#define M_POINT_TO_PLANE 1958L
//==============================================================================
// M3dregInquire
// Context
#define M_NUMBER_OF_REGISTRATION_ELEMENTS 2L //already defined in milreg.h
#define M_PREREGISTRATION_MODE 3564
#define M_RMS_ERROR_THRESHOLD 3565
#define M_RMS_ERROR_RELATIVE_THRESHOLD 3566
#define M_ITERATION_INDEX 3568
#define M_ERROR_MINIMIZATION_METRIC 1946L
#define M_OVERLAP 1966L
#define M_ANTICIPATE_OCCLUSIONS 5606L
#define M_UNORGANIZED 1919L // already defined in mil3dmap.h
#define M_PAIRS_REJECTION_FACTOR 5552L
#define M_PAIRS_REJECTION_MODE 5553L
#define M_PAIRS_CREATION_MAX_POINT_DISTANCE 5649L
#define M_MAX_ITERATIONS 1504L // Already defined in milmeas.h
#define M_ALL_ITERATIONS 0x01000000L
#define M_INVALID -1 // also in mil.h
#define M_SUBSAMPLE 5091L
#define M_SUBSAMPLE_CONTEXT_ID 3641
#define M_SUBSAMPLE_REFERENCE 5567L
#define M_SUBSAMPLE_REFERENCE_CONTEXT_ID 5568L
#define M_SUBSAMPLE_TARGET 5569L
#define M_SUBSAMPLE_TARGET_CONTEXT_ID 5570L
#define M_SET_LOCATION_REFERENCE 1010L
#define M_PAIRS_LIMIT_PER_TARGET_POINT_MODE 5555L
#define M_PAIRS_CREATION_FROM_TARGET 5556L
#define M_PAIRS_CREATION_PER_REFERENCE_POINT_MODE 5564L
#define M_ROBUST_STANDARD_DEVIATION 5565L
#define M_PAIRS_RANK 5574L
#define M_SINGLE 0x01000000L // Also defined in Mil.h
#define M_MULTIPLE 0x00400000L // Also defined in milpat.h
#define M_GEOMETRIC_STABLE_PARTITIONING 5706L
#define M_CACHE_REFERENCE 5750L
//Result
#define M_MERGE_LOCATION 4771
//==============================================================================
// M3dregAllocResult ResultTypes
#define M_PAIRWISE_REGISTRATION_RESULT 3500
#define M_REGISTRATION_COMPLETED 3501
#define M_RMS_ERROR 3502
#define M_RMS_ERROR_RELATIVE 3503
#define M_REGISTRATION_MATRIX 3504
#define M_PREREGISTRATION_MATRIX 3560
#define M_RMS_ERROR_THRESHOLD_REACHED 3569
#define M_RMS_ERROR_RELATIVE_THRESHOLD_REACHED 3570
#define M_MAX_ITERATIONS_REACHED 1965L
#define M_NOT_ENOUGH_POINT_PAIRS 1972L
#define M_NO_VALID_POINTS 2097L
#define M_LAST_ITERATION -1
#define M_REGISTRATION_GLOBAL 0x02000000L
#define M_STATUS_REGISTRATION_ELEMENT 3925
#define M_INTERMEDIATE_ITERATION 0x00050000L
#define M_NB_ITERATIONS 1893L // Already defined in milim.h
//==============================================================================
// M3dregGetResult ResultTypes
// General
#define M_STATUS 0x00008002L // already defined
#define M_EMPTY 236L // also in milmod.h, mildmr.h
#define M_CURRENTLY_CALCULATING 2718L //already defined in milreg
#define M_TIMEOUT_REACHED 2554L // also in milmod.h, mildmr.h
#define M_STOPPED_BY_REQUEST 2555L // also in milmod.h, mildmr.h
#define M_NOT_ENOUGH_MEMORY 4L // also in mil.h, mildmr.h
#define M_COMPLETE 0x00000000L // also in mil.h, milmod.h, mildmr.h
#define M_INTERNAL_ERROR 5L // also in milcal.h, mildmr.h
#define M_MAX_PAIRS_RANK 5575L
#define M_RESULT_IMAGE_SIZE_X 5226L // already defined in mil3dmet.h
#define M_RESULT_IMAGE_SIZE_Y 5227L // already defined in mil3dmet.h
//==============================================================================
// M3dregSetLocation
#define M_PREVIOUS 0x40000003L
#define M_NEXT 0x40000004L
#define M_UNCHANGED 0x40000005L
//==============================================================================
// M3dregMerge
#define M_APPLY_TO_ALL_COMPONENTS 0x0001000L // already defined in mil3dim.h
//==============================================================================
// M3dregCopyResult
#define M_DISTANCE_IMAGE 5576L
#define M_PAIR_INDEX_IMAGE 5577L
#define M_OVERLAP_MASK 5578L
#define M_SUBSAMPLED_CONTAINER_REFERENCE 5579L
#define M_SUBSAMPLED_CONTAINER_TARGET 5581L
// Draw context
#define M_ROOT_NODE 0 // already defined in mil3dgra.h
#define M_GLOBAL_DRAW_SETTINGS M_CONTEXT
#define M_DRAW_OVERLAP_POINTS 0x00000400L
#define M_DRAW_EXCLUDED_POINTS 0x00003000L // already defined in mil3dblob
#define M_DRAW_PAIRS 0x00000020L
#define M_PSEUDO_COLOR 0x4000L // already defined in milclass.h
#define M_PSEUDO_COLOR_OFFSET 5439L
#define M_GRAPHIC_LIST_DEFAULT 0x04005526L // already defined in mil3dblob.h
#define M_ACTIVE 1534L // already defined in milmetrol.h
#define M_THICKNESS 3L // already defined in mil3dgra.h
#define M_OPACITY 4728 // already defined in mil3dgra.h
#define M_APPEARANCE 4679 // already defined in mil3dgra.h
#define M_COLOR 0x00000100L // already defined in mil3dgra.h
//==============================================================================
// Other defines
//==============================================================================
// CAPI function prototypes
MIL_ID MFTYPE M3dregAlloc(MIL_ID SysId,
MIL_INT64 ContextType,
MIL_INT64 ControlFlag,
MIL_ID* Context3dregIdPtr);
MIL_ID MFTYPE M3dregAllocResult(MIL_ID SysId,
MIL_INT64 ResultType,
MIL_INT64 ControlFlag,
MIL_ID* Result3dregIdPtr);
void MFTYPE M3dregFree(MIL_ID ContextOrResult3dregId);
void MFTYPE M3dregCopyResult(MIL_ID SrcResult3dregId,
MIL_INT SrcIndex ,
MIL_INT SrcReference ,
MIL_ID DstMilObjectId ,
MIL_INT64 CopyType ,
MIL_INT64 ControlFlag);
void MFTYPE M3dregCalculate(MIL_ID Context3dregId,
const MIL_ID* ContainerBufIdArrayPtr,
MIL_INT NumContainers,
MIL_ID Result3dregId,
MIL_INT64 ControlFlag);
void MFTYPE M3dregCopy(MIL_ID SrcContext3dregId,
MIL_INT SrcIndex,
MIL_ID DstMatrix3dgeoId,
MIL_INT DstIndex,
MIL_INT64 CopyType,
MIL_INT64 ControlFlag);
void MFTYPE M3dregSetLocation(MIL_ID Context3dregId,
MIL_INT Index,
MIL_INT Reference,
MIL_ID ParamId,
MIL_INT ParamIndex,
MIL_INT ParamReference,
MIL_INT64 ControlFlag);
void MFTYPE M3dregMerge(MIL_ID Result3dregId,
const MIL_ID* ContainerBufIdArrayPtr,
MIL_INT NumContainers,
MIL_ID DstContainerBufId,
MIL_ID SubsampleContext3dimId,
MIL_INT64 ControlFlag);
//#if M_MIL_USE_64BIT
void MFTYPE M3dregControlInt64(MIL_ID ContextOrResult3dregId,
MIL_INT64 Index,
MIL_INT64 ControlType,
MIL_INT64 ControlValue);
void MFTYPE M3dregControlDouble(MIL_ID ContextOrResult3dregId,
MIL_INT64 Index,
MIL_INT64 ControlType,
MIL_DOUBLE ControlValue);
MIL_INT64 MFTYPE M3dregInquire(MIL_ID ContextOrResult3dregId,
MIL_INT64 Index,
MIL_INT64 InquireType,
void* UserVarPtr);
void MFTYPE M3dregControlDrawInt64(MIL_ID DrawContext3dregId,
MIL_INT64 Operation,
MIL_INT64 ControlType,
MIL_INT64 ControlValue);
void MFTYPE M3dregControlDrawDouble(MIL_ID DrawContext3dregId,
MIL_INT64 Operation,
MIL_INT64 ControlType,
MIL_DOUBLE ControlValue);
MIL_INT64 MFTYPE M3dregInquireDraw(MIL_ID DrawContext3dregId,
MIL_INT64 Operation,
MIL_INT64 InquireType,
void* UserVarPtr);
MIL_DOUBLE MFTYPE M3dregGetResult(MIL_ID Result3dregId,
MIL_INT64 ResultIndex,
MIL_INT64 ResultType,
void* ResultArrayPtr);
MIL_INT64 MFTYPE M3dregDraw3d(MIL_ID OperationDraw3dContext3dregId,
MIL_ID SrcResult3dregId,
MIL_INT Index,
MIL_INT IterationIndex,
MIL_INT PairsRank,
MIL_ID DstList3dgraId,
MIL_INT64 DstParentLabel,
MIL_INT64 ControlFlag);
#if M_MIL_USE_UNICODE
void MFTYPE M3dregSaveA(MIL_CONST_TEXTA_PTR FileName,
MIL_ID ContextOrResult3dregId,
MIL_INT64 ControlFlag);
MIL_ID MFTYPE M3dregRestoreA(MIL_CONST_TEXTA_PTR FileName,
MIL_ID SysId,
MIL_INT64 ControlFlag,
MIL_ID* ContextOrResult3dregIdPtr);
void MFTYPE M3dregStreamA(MIL_TEXTA_PTR MemPtrOrFileName,
MIL_ID SysId,
MIL_INT64 Operation,
MIL_INT64 StreamType,
MIL_DOUBLE Version,
MIL_INT64 ControlFlag,
MIL_ID* ContextOrResult3dregIdPtr,
MIL_INT* SizeByteVarPtr);
void MFTYPE M3dregSaveW(MIL_CONST_TEXTW_PTR FileName,
MIL_ID ContextOrResult3dregId,
MIL_INT64 ControlFlag);
MIL_ID MFTYPE M3dregRestoreW(MIL_CONST_TEXTW_PTR FileName,
MIL_ID SysId,
MIL_INT64 ControlFlag,
MIL_ID* ContextOrResult3dregIdPtr);
void MFTYPE M3dregStreamW(MIL_TEXTW_PTR MemPtrOrFileName,
MIL_ID SysId,
MIL_INT64 Operation,
MIL_INT64 StreamType,
MIL_DOUBLE Version,
MIL_INT64 ControlFlag,
MIL_ID* ContextOrResult3dregIdPtr,
MIL_INT* SizeByteVarPtr);
#if M_MIL_UNICODE_API
#define M3dregSave M3dregSaveW
#define M3dregRestore M3dregRestoreW
#define M3dregStream M3dregStreamW
#else
#define M3dregSave M3dregSaveA
#define M3dregRestore M3dregRestoreA
#define M3dregStream M3dregStreamA
#endif //M_MIL_UNICODE_API
#else
void MFTYPE M3dregSave(MIL_CONST_TEXT_PTR FileName,
MIL_ID ContextOrResult3dregId,
MIL_INT64 ControlFlag);
MIL_ID MFTYPE M3dregRestore(MIL_CONST_TEXT_PTR FileName,
MIL_ID SysId,
MIL_INT64 ControlFlag,
MIL_ID* ContextOrResult3dregIdPtr);
void MFTYPE M3dregStream(MIL_TEXT_PTR MemPtrOrFileName,
MIL_ID SysId,
MIL_INT64 Operation,
MIL_INT64 StreamType,
MIL_DOUBLE Version,
MIL_INT64 ControlFlag,
MIL_ID* ContextOrResult3dregIdPtr,
MIL_INT* SizeByteVarPtr);
#endif //M_MIL_USE_UNICODE
/* C++ directive if needed */
#ifdef __cplusplus
}
#endif
////////////////////////////////////////////////////////////////////////////////
#ifdef __cplusplus
//C++ overloads
inline void MFTYPE M3dregStreamCpp(MilStreamParam MemPtrOrFileName,
MIL_ID SysId,
MIL_INT64 Operation,
MIL_INT64 StreamType,
MIL_DOUBLE Version,
MIL_INT64 ControlFlag,
MIL_ID* ContextOrResult3dregIdPtr,
MIL_INT* SizeByteVarPtr)
{
M3dregStream(MemPtrOrFileName.m_Param, SysId, Operation, StreamType, Version, ControlFlag, ContextOrResult3dregIdPtr, SizeByteVarPtr);
}
#undef M3dregStream
#define M3dregStream M3dregStreamCpp
#else
#endif // __cplusplus
//==============================================================================
#ifdef __cplusplus
#if M_MIL_USE_SAFE_TYPE
//=========================================================
// See milos.h for explanation about these functions.
//=========================================================
// ----------------------------------------------------------
// M3dregInquire
inline MIL_INT64 MFTYPE M3dregInquireSafeType(MIL_ID ContextOrResult3dregId, MIL_INT64 Index, MIL_INT64 InquireType, MilVoidPtr UserVarPtr)
{
MIL_INT64 RequiredParamType = M_PARAM_TYPE_MIL_INT64;
if(!(M_DEFAULT_DATA_TYPE_BIT_SET(InquireType) || M_RECOMMENDED_DATA_TYPE_BIT_SET(InquireType)))
{
M3dregInquire(ContextOrResult3dregId, Index, InquireType | M_DEFAULT_DATA_TYPE, &RequiredParamType);
}
if(!MfuncPointerIsCompatible(RequiredParamType, UserVarPtr.Type, InquireType))
{
SafeTypeError(MIL_TEXT("M3dregInquire"));
}
return M3dregInquire(ContextOrResult3dregId, Index, InquireType, UserVarPtr.Ptr);
}
inline MIL_INT64 MFTYPE M3dregInquireUnsafe(MIL_ID ContextOrResult3dregId, MIL_INT64 Index, MIL_INT64 InquireType, void* UserVarPtr)
{
return M3dregInquire(ContextOrResult3dregId,Index, InquireType, UserVarPtr);
}
inline MIL_INT64 MFTYPE M3dregInquireDrawSafeType(MIL_ID DrawContext3dregId, MIL_INT64 Operation, MIL_INT64 InquireType, MilVoidPtr UserVarPtr)
{
MIL_INT64 RequiredParamType = M_PARAM_TYPE_MIL_INT64;
if(!(M_DEFAULT_DATA_TYPE_BIT_SET(InquireType) || M_RECOMMENDED_DATA_TYPE_BIT_SET(InquireType)))
{
M3dregInquireDraw(DrawContext3dregId, Operation, InquireType | M_DEFAULT_DATA_TYPE, &RequiredParamType);
}
if(!MfuncPointerIsCompatible(RequiredParamType, UserVarPtr.Type, InquireType))
{
SafeTypeError(MIL_TEXT("M3dblobInquireDraw"));
}
return M3dregInquireDraw(DrawContext3dregId, Operation, InquireType, UserVarPtr.Ptr);
}
inline MIL_INT64 MFTYPE M3dregInquireDrawUnsafe(MIL_ID DrawContext3dblobId, MIL_INT64 Operation, MIL_INT64 InquireType, void* UserVarPtr)
{
return M3dregInquireDraw(DrawContext3dblobId, Operation, InquireType, UserVarPtr);
}
#define M3dregInquire M3dregInquireSafeType
#define M3dregInquireDraw M3dregInquireDrawSafeType
#else // #if M_MIL_USE_SAFE_TYPE
#define M3dregInquireUnsafe M3dregInquire
#define M3dregInquireDrawUnsafe M3dregInquireDraw
#endif // #if M_MIL_USE_SAFE_TYPE
#if M_MIL_USE_SAFE_TYPE
// -------------------------------------------------------------------------
// M3dregGetResult safe type definitions
//
inline MIL_DOUBLE MFTYPE M3dregGetResultSafeType(MIL_ID Result3dregId, MIL_INT64 ResultIndex, MIL_INT64 ResultType, MilVoidPtr ResultArrayPtr)
{
MIL_INT64 RequiredParamType = M_PARAM_TYPE_MIL_INT64;
if(!(M_DEFAULT_DATA_TYPE_BIT_SET(ResultType) || M_RECOMMENDED_DATA_TYPE_BIT_SET(ResultType)))
{
M3dregGetResult(Result3dregId, ResultIndex, ResultType | M_DEFAULT_DATA_TYPE, &RequiredParamType);
}
if(!MfuncPointerIsCompatible(RequiredParamType, ResultArrayPtr.Type, ResultType))
{
SafeTypeError(MIL_TEXT("M3dregGetResult"));
}
return M3dregGetResult(Result3dregId, ResultIndex, ResultType, ResultArrayPtr.Ptr);
}
inline MIL_DOUBLE MFTYPE M3dregGetResultUnsafe(MIL_ID Result3dregId, MIL_INT64 ResultIndex, MIL_INT64 ResultType, void* ResultArrayPtr)
{
return M3dregGetResult(Result3dregId, ResultIndex, ResultType, ResultArrayPtr);
}
#define M3dregGetResult M3dregGetResultSafeType
#else // #if M_MIL_USE_SAFE_TYPE
#define M3dregGetResultUnsafe M3dregGetResult
#endif // #if M_MIL_USE_SAFE_TYPE
#endif // __cplusplus
//#if M_MIL_USE_64BIT
#ifdef __cplusplus
//=========================================================
// M3dregControl function overloads when compiling c++ files
//=========================================================
template <typename T>
inline void M3dregControl(MIL_ID ContextOrResult3dregId, MIL_INT64 Index, MIL_INT64 ControlType, T ControlValue)
{
M3dregControlInt64(ContextOrResult3dregId, Index, ControlType, ControlValue);
}
inline void M3dregControl(MIL_ID ContextOrResult3dregId, MIL_INT64 Index, MIL_INT64 ControlType, float ControlValue)
{ M3dregControlDouble(ContextOrResult3dregId, Index, ControlType, ControlValue); }
inline void M3dregControl(MIL_ID ContextOrResult3dregId, MIL_INT64 Index, MIL_INT64 ControlType, MIL_DOUBLE ControlValue)
{ M3dregControlDouble(ContextOrResult3dregId, Index, ControlType, ControlValue); }
template <typename T>
inline void M3dregControlDraw(MIL_ID DrawContext3dregId, MIL_INT64 Operation, MIL_INT64 ControlType, T ControlValue)
{
M3dregControlDrawInt64(DrawContext3dregId, Operation, ControlType, ControlValue);
}
inline void M3dregControlDraw(MIL_ID DrawContext3dregId, MIL_INT64 Operation, MIL_INT64 ControlType, float ControlValue)
{
M3dregControlDrawDouble(DrawContext3dregId, Operation, ControlType, ControlValue);
}
inline void M3dregControlDraw(MIL_ID DrawContext3dregId, MIL_INT64 Operation, MIL_INT64 ControlType, MIL_DOUBLE ControlValue)
{
M3dregControlDrawDouble(DrawContext3dregId, Operation, ControlType, ControlValue);
}
#else // __cplusplus
//=========================================================
// For C file, call the default function, i.e. Double one
//=========================================================
#define M3dregControl M3dregControlDouble
#define M3dregControlDraw M3dregControlDrawDouble
#endif // __cplusplus
//#endif // M_MIL_USE_64BIT
// ----------------------------------------------------------
// Overload for std::vector.
#if defined(M_MIL_USE_VECTOR) && M_MIL_USE_VECTOR
template <typename UserType>
inline MIL_INT64 MFTYPE M3dregInquire(MIL_ID ContextOrResult3dregId, MIL_INT Index, MIL_INT64 InquireType, std::vector<UserType> &UserVarPtr)
{
// If the given MIL data type is not the same as the SrcType, change it to the correct one
// and give a warning.
MIL_INT64 InternalTrueDataTypeForStdVector = MilTraits<UserType>::TypeFlag;
#if M_MIL_USE_SAFE_TYPE
if(M_GET_HLVLDATATYPE(InquireType) != 0)
{
SafeTypeError(MIL_TEXT("M3dregInquire"), MIL_TEXT("Combination value for the required data type is not supported with std::vector overload."));
}
#endif
InquireType = M_STRIP_HLVLDATATYPE(InquireType) + InternalTrueDataTypeForStdVector;
MIL_INT InternalNumberOfElementsForStdVector = 0;
M3dregInquire(ContextOrResult3dregId, Index, M_STRIP_HLVLDATATYPE(InquireType) + M_NB_ELEMENTS + M_TYPE_MIL_INT, &InternalNumberOfElementsForStdVector);
UserVarPtr.resize(InternalNumberOfElementsForStdVector);
if(InternalNumberOfElementsForStdVector > 0)
{
return M3dregInquire(ContextOrResult3dregId, Index, InquireType, &UserVarPtr[0]);
}
return 0;
}
template <typename UserType>
inline MIL_DOUBLE MFTYPE M3dregGetResult(MIL_ID Result3dregId, MIL_INT Index, MIL_INT64 ResultType, std::vector<UserType> &ResultArrayPtr)
{
//! If the given MIL data type is not the same as the SrcType, change it to the correct one
//! and give a warning.
MIL_INT64 InternalTrueDataTypeForStdVector = MilTraits<UserType>::TypeFlag;
#if M_MIL_USE_SAFE_TYPE
if(M_GET_HLVLDATATYPE(ResultType) != 0)
{
SafeTypeError(MIL_TEXT("M3dregGetResult"), MIL_TEXT("Combination value for the required data type is not supported with std::vector overload."));
}
#endif
ResultType = M_STRIP_HLVLDATATYPE(ResultType) + InternalTrueDataTypeForStdVector;
MIL_INT InternalNumberOfElementsForStdVector = 0;
M3dregGetResult(Result3dregId, Index, M_STRIP_HLVLDATATYPE(ResultType) + M_NB_ELEMENTS + M_TYPE_MIL_INT, &InternalNumberOfElementsForStdVector);
ResultArrayPtr.resize(InternalNumberOfElementsForStdVector);
if(InternalNumberOfElementsForStdVector > 0)
{
M3dregGetResult(Result3dregId, Index, ResultType, &ResultArrayPtr[0]);
}
return 0.0;
}
// ----------------------------------------------------------
// Overloads for std::vector in M3dregCalculate
inline void MFTYPE M3dregCalculate(MIL_ID Context3dregId,
const std::vector<MIL_ID>& ContainerBufIdArrayPtr,
MIL_INT NumContainers,
MIL_ID ResultId,
MIL_INT64 ControlFlag)
{
#if M_MIL_USE_SAFE_TYPE
if(ContainerBufIdArrayPtr.empty())
{
SafeTypeError(MIL_TEXT("M3dregCalculate"), MIL_TEXT("The input vectors cannot be empty."));
}
if(NumContainers <= 0)
{
SafeTypeError(MIL_TEXT("M3dregCalculate"), MIL_TEXT("NumContainers parameter must be greater than zero."));
}
if(NumContainers > (MIL_INT)ContainerBufIdArrayPtr.size() && NumContainers != M_DEFAULT)
{
SafeTypeError(MIL_TEXT("M3dregCalculate"), MIL_TEXT("NumContainers parameter must be smaller or equal (M_DEFAULT) to the size of input vector."));
}
#endif
if(NumContainers == M_DEFAULT || NumContainers > (MIL_INT)ContainerBufIdArrayPtr.size())
{
NumContainers = (MIL_INT)ContainerBufIdArrayPtr.size();
}
M3dregCalculate(Context3dregId,
&ContainerBufIdArrayPtr[0],
NumContainers,
ResultId,
ControlFlag);
}
// ----------------------------------------------------------
// Overloads for std::vector in M3dregMerge
inline void MFTYPE M3dregMerge(MIL_ID Result3dregId,
const std::vector<MIL_ID>& ContainerBufIdArrayPtr,
MIL_INT NumContainers,
MIL_ID DstContainerBufId,
MIL_ID SubsampleContext3dimId,
MIL_INT64 ControlFlag)
{
#if M_MIL_USE_SAFE_TYPE
if(ContainerBufIdArrayPtr.empty())
{
SafeTypeError(MIL_TEXT("M3dregMerge"), MIL_TEXT("The input vectors cannot be empty."));
}
if(NumContainers <= 1)
{
SafeTypeError(MIL_TEXT("M3dregMerge"), MIL_TEXT("NumContainers parameter must be greater than one."));
}
if(NumContainers > (MIL_INT)ContainerBufIdArrayPtr.size() && NumContainers != M_DEFAULT)
{
SafeTypeError(MIL_TEXT("M3dregMerge"), MIL_TEXT("NumContainers parameter must be smaller or equal (M_DEFAULT) to the size of input vector."));
}
#endif
if(NumContainers == M_DEFAULT || NumContainers > (MIL_INT)ContainerBufIdArrayPtr.size())
{
NumContainers = (MIL_INT)ContainerBufIdArrayPtr.size();
}
M3dregMerge(Result3dregId,
&ContainerBufIdArrayPtr[0],
NumContainers,
DstContainerBufId,
SubsampleContext3dimId,
ControlFlag);
}
// Overloads for std::vector in M3dregStream.
inline void MFTYPE M3dregStream(std::vector<MIL_UINT8> &MemPtrOrFileName,
MIL_ID SysId,
MIL_INT64 Operation,
MIL_INT64 StreamType,
MIL_DOUBLE Version,
MIL_INT64 ControlFlag,
MIL_ID* ContextOrResult3dregIdPtr,
MIL_INT* SizeByteVarPtr)
{
MxxxStreamForStdVector(MemPtrOrFileName,
SysId,
Operation,
StreamType,
Version,
ControlFlag,
ContextOrResult3dregIdPtr,
SizeByteVarPtr,
M3dregStream);
}
#endif // defined(M_MIL_USE_VECTOR) && M_MIL_USE_VECTOR
#if M_MIL_USE_STRING
/***************************************************************************/
/* 3dreg MODULE */
/***************************************************************************/
#if M_MIL_USE_UNICODE
#if M_MIL_UNICODE_API
inline void MFTYPE M3dregSaveW(const MIL_STRING& FileName, MIL_ID ContextOrResult3dregId, MIL_INT64 ControlFlag)
{
return M3dregSaveW(FileName.c_str(), ContextOrResult3dregId, ControlFlag);
}
inline MIL_ID MFTYPE M3dregRestoreW(const MIL_STRING& FileName, MIL_ID SysId, MIL_INT64 ControlFlag, MIL_ID* ContextOrResult3dregIdPtr)
{
return M3dregRestoreW(FileName.c_str(), SysId, ControlFlag, ContextOrResult3dregIdPtr);
}
#else // M_MIL_UNICODE_API
inline void MFTYPE M3dregSaveA(const MIL_STRING& FileName, MIL_ID ContextOrResult3dregId, MIL_INT64 ControlFlag)
{
return M3dregSaveA(FileName.c_str(), ContextOrResult3dregId, ControlFlag);
}
inline MIL_ID MFTYPE M3dregRestoreA(const MIL_STRING& FileName, MIL_ID SysId, MIL_INT64 ControlFlag, MIL_ID* ContextOrResult3dregIdPtr)
{
return M3dregRestoreA(FileName.c_str(), SysId, ControlFlag, ContextOrResult3dregIdPtr);
}
#endif /* M_MIL_UNICODE_API*/
#else // M_MIL_USE_UNICODE
inline void MFTYPE M3dregSave(const MIL_STRING& FileName, MIL_ID ContextOrResult3dregId, MIL_INT64 ControlFlag)
{
return M3dregSave(FileName.c_str(), ContextOrResult3dregId, ControlFlag);
}
inline MIL_ID MFTYPE M3dregRestore(const MIL_STRING& FileName, MIL_ID SysId, MIL_INT64 ControlFlag, MIL_ID* ContextOrResult3dregIdPtr)
{
return M3dregRestore(FileName.c_str(), SysId, ControlFlag, ContextOrResult3dregIdPtr);
}
#endif /* M_MIL_USE_UNICODE */
#if M_MIL_USE_SAFE_TYPE
#if M_MIL_UNICODE_API
inline MIL_DOUBLE MFTYPE M3dregGetResultSafeType(MIL_ID Result3dregId, MIL_INT64 ResultIndex, MIL_INT64 ResultType, MIL_STRING& ResultArrayPtr)
{
#if MIL_COMPILE_VERSION >= MIL_COMPILE_TRUNK_VERSION && M_MIL_USE_SAFE_TYPE
if((ResultType & M_CLIENT_ENCODING) != M_CLIENT_ENCODING)
{
SafeTypeError(MIL_TEXT("M3dregGetResult: Result Type not supported with MIL_STRING."));
}
#endif
MIL_INT InternalStringSize = 0;
M3dregGetResult(Result3dregId, ResultIndex, (ResultType & (~M_HLVLDATATYPE_MASK)) + M_STRING_SIZE + M_TYPE_MIL_INT, &InternalStringSize);
if(InternalStringSize > 0)
{
if(ResultArrayPtr.size() < (MIL_UINT)InternalStringSize)
{
ResultArrayPtr.resize((MIL_UINT)InternalStringSize);
}
}
M3dregGetResult(Result3dregId, ResultIndex, ResultType, &ResultArrayPtr[0]);
return 0.0;
}
#endif /* M_MIL_UNICODE_API */
#else
//M3dregGetResult is only defined in UNICODE
#if M_MIL_UNICODE_API
inline MIL_DOUBLE MFTYPE M3dregGetResult(MIL_ID Result3dregId,MIL_INT64 Index, MIL_INT64 ResultType, MIL_STRING &ResultArrayPtr)
{
MIL_INT InternalStringSize = 0;
//Inquire the byte content
M3dregGetResult(Result3dregId, Index, (ResultType & (~M_HLVLDATATYPE_MASK)) + M_STRING_SIZE + M_TYPE_MIL_INT, &InternalStringSize);
if(InternalStringSize > 0)
{
ResultArrayPtr.assign(InternalStringSize, MIL_TEXT('\0'));
M3dregGetResult(Result3dregId, Index, ResultType, &ResultArrayPtr[0]);
ResultArrayPtr.resize(InternalStringSize);
}
return 0.0;
}
#endif
#endif
#endif /* M_MIL_USE_STRING*/
////////////////////////////////////////////////////////////////////////////////
// MIL_UNIQUE_ID support
#if M_MIL_USE_MIL_UNIQUE_ID
#if M_MIL_USE_SAFE_TYPE
template <> inline bool MilIsCorrectObjectType<&M3dregFree>(MIL_INT64 ObjectType)
{
return (ObjectType & ~M_USER_DEFINE_LOW_ATTRIBUTE) == M_3DREG_OBJECT;
}
#endif
typedef MIL_UNIQUE_ID<&M3dregFree> MIL_UNIQUE_3DREG_ID;
#if M_MIL_USE_MOVE_SEMANTICS
inline MIL_UNIQUE_3DREG_ID M3dregAlloc(MIL_ID SysId, MIL_INT64 ObjectType, MIL_INT64 InitFlag, MIL_UNIQUE_ID_TAG)
{
return MIL_UNIQUE_3DREG_ID(M3dregAlloc(SysId, ObjectType, InitFlag, M_NULL));
}
inline MIL_UNIQUE_3DREG_ID M3dregAllocResult(MIL_ID SysId, MIL_INT64 ResultType, MIL_INT64 ControlFlag, MIL_UNIQUE_ID_TAG)
{
return MIL_UNIQUE_3DREG_ID(M3dregAllocResult(SysId, ResultType, ControlFlag, M_NULL));
}
inline MIL_UNIQUE_3DREG_ID M3dregRestore(MIL_CONST_TEXT_PTR FileName, MIL_ID SysId, MIL_INT64 ControlFlag, MIL_UNIQUE_ID_TAG)
{
return MIL_UNIQUE_3DREG_ID(M3dregRestore(FileName, SysId, ControlFlag, M_NULL));
}
#if M_MIL_USE_STRING
inline MIL_UNIQUE_3DREG_ID M3dregRestore(const MIL_STRING& FileName, MIL_ID SysId, MIL_INT64 ControlFlag, MIL_UNIQUE_ID_TAG)
{
return MIL_UNIQUE_3DREG_ID(M3dregRestore(FileName.c_str(), SysId, ControlFlag, M_NULL));
}
#endif // M_MIL_USE_STRING
template <MilFreeFuncType FreeFunc> inline void M3dregFree(const MIL_UNIQUE_ID<FreeFunc>&) = delete;
inline void M3dregStream(MilStreamParam MemPtrOrFileName,
MIL_ID SysId,
MIL_INT64 Operation,
MIL_INT64 StreamType,
MIL_DOUBLE Version,
MIL_INT64 ControlFlag,
MIL_UNIQUE_3DREG_ID* Context3dregIdPtr,
MIL_INT* SizeByteVarPtr)
{
MxxxStreamForMilUniqueId(MemPtrOrFileName, SysId, Operation, StreamType, Version, ControlFlag, Context3dregIdPtr, SizeByteVarPtr, M3dregStream);
}
inline void M3dregCalculate(MIL_ID ContextId, MilConstArrayIdParam ContArrayPtr, MIL_INT NumContainers, MIL_ID ResultorMatrixId, MIL_INT64 ControlFlag)
{
M3dregCalculate(ContextId, ContArrayPtr.m_IdArrayPtr, NumContainers, ResultorMatrixId, ControlFlag);
}
inline void MFTYPE M3dregMerge(MIL_ID Result3dregId, MilConstArrayIdParam ContainerArrayPtr, MIL_INT NumContainers, MIL_ID DstContainerId, MIL_ID SubsampleContext3dimId, MIL_INT64 ControlFlag)
{
M3dregMerge(Result3dregId, ContainerArrayPtr.m_IdArrayPtr, NumContainers, DstContainerId, SubsampleContext3dimId, ControlFlag);
}
#endif // M_MIL_USE_MOVE_SEMANTICS
#endif // M_MIL_USE_MIL_UNIQUE_ID
// End of MIL_UNIQUE_ID support
////////////////////////////////////////////////////////////////////////////////
#endif // !M_MIL_LITE
#endif // __MIL_3DREG_H__
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