?? sogeolinem.cpp
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// Machine generated IDispatch wrapper class(es) created by Microsoft Visual C++
// NOTE: Do not modify the contents of this file. If this class is regenerated by
// Microsoft Visual C++, your modifications will be overwritten.
#include "stdafx.h"
#include "sogeolinem.h"
// Dispatch interfaces referenced by this interface
#include "sorect.h"
#include "sostyle.h"
#include "sospatialoperator.h"
#include "sospatialrelation.h"
#include "sospatialrelation2.h"
#include "sopoint.h"
#include "soPointMs.h"
#include "sogeoregion.h"
#include "sopoints.h"
#include "sogeoline.h"
/////////////////////////////////////////////////////////////////////////////
// CsoGeoLineM properties
long CsoGeoLineM::GetDimension()
{
long result;
GetProperty(0x1, VT_I4, (void*)&result);
return result;
}
void CsoGeoLineM::SetDimension(long propVal)
{
SetProperty(0x1, VT_I4, propVal);
}
BOOL CsoGeoLineM::GetIsEmpty()
{
BOOL result;
GetProperty(0x2, VT_BOOL, (void*)&result);
return result;
}
void CsoGeoLineM::SetIsEmpty(BOOL propVal)
{
SetProperty(0x2, VT_BOOL, propVal);
}
BOOL CsoGeoLineM::GetIsSimple()
{
BOOL result;
GetProperty(0x3, VT_BOOL, (void*)&result);
return result;
}
void CsoGeoLineM::SetIsSimple(BOOL propVal)
{
SetProperty(0x3, VT_BOOL, propVal);
}
CsoRect CsoGeoLineM::GetBounds()
{
LPDISPATCH pDispatch;
GetProperty(0x4, VT_DISPATCH, (void*)&pDispatch);
return CsoRect(pDispatch);
}
void CsoGeoLineM::SetBounds(LPDISPATCH propVal)
{
SetProperty(0x4, VT_DISPATCH, propVal);
}
BOOL CsoGeoLineM::GetHasBounds()
{
BOOL result;
GetProperty(0x5, VT_BOOL, (void*)&result);
return result;
}
void CsoGeoLineM::SetHasBounds(BOOL propVal)
{
SetProperty(0x5, VT_BOOL, propVal);
}
BOOL CsoGeoLineM::GetHasStyle()
{
BOOL result;
GetProperty(0x6, VT_BOOL, (void*)&result);
return result;
}
void CsoGeoLineM::SetHasStyle(BOOL propVal)
{
SetProperty(0x6, VT_BOOL, propVal);
}
long CsoGeoLineM::GetId()
{
long result;
GetProperty(0x7, VT_I4, (void*)&result);
return result;
}
void CsoGeoLineM::SetId(long propVal)
{
SetProperty(0x7, VT_I4, propVal);
}
long CsoGeoLineM::GetByteSize()
{
long result;
GetProperty(0x8, VT_I4, (void*)&result);
return result;
}
void CsoGeoLineM::SetByteSize(long propVal)
{
SetProperty(0x8, VT_I4, propVal);
}
long CsoGeoLineM::GetPartCount()
{
long result;
GetProperty(0x9, VT_I4, (void*)&result);
return result;
}
void CsoGeoLineM::SetPartCount(long propVal)
{
SetProperty(0x9, VT_I4, propVal);
}
long CsoGeoLineM::GetType()
{
long result;
GetProperty(0xa, VT_I4, (void*)&result);
return result;
}
void CsoGeoLineM::SetType(long propVal)
{
SetProperty(0xa, VT_I4, propVal);
}
CsoStyle CsoGeoLineM::GetStyle()
{
LPDISPATCH pDispatch;
GetProperty(0xb, VT_DISPATCH, (void*)&pDispatch);
return CsoStyle(pDispatch);
}
void CsoGeoLineM::SetStyle(LPDISPATCH propVal)
{
SetProperty(0xb, VT_DISPATCH, propVal);
}
CsoSpatialOperator CsoGeoLineM::GetSpatialOperator()
{
LPDISPATCH pDispatch;
GetProperty(0xc, VT_DISPATCH, (void*)&pDispatch);
return CsoSpatialOperator(pDispatch);
}
void CsoGeoLineM::SetSpatialOperator(LPDISPATCH propVal)
{
SetProperty(0xc, VT_DISPATCH, propVal);
}
CsoSpatialRelation CsoGeoLineM::GetSpatialRelation()
{
LPDISPATCH pDispatch;
GetProperty(0xd, VT_DISPATCH, (void*)&pDispatch);
return CsoSpatialRelation(pDispatch);
}
void CsoGeoLineM::SetSpatialRelation(LPDISPATCH propVal)
{
SetProperty(0xd, VT_DISPATCH, propVal);
}
CsoSpatialRelation2 CsoGeoLineM::GetSpatialRelation2()
{
LPDISPATCH pDispatch;
GetProperty(0xe, VT_DISPATCH, (void*)&pDispatch);
return CsoSpatialRelation2(pDispatch);
}
void CsoGeoLineM::SetSpatialRelation2(LPDISPATCH propVal)
{
SetProperty(0xe, VT_DISPATCH, propVal);
}
CsoPoint CsoGeoLineM::GetCentroidPoint()
{
LPDISPATCH pDispatch;
GetProperty(0x13, VT_DISPATCH, (void*)&pDispatch);
return CsoPoint(pDispatch);
}
void CsoGeoLineM::SetCentroidPoint(LPDISPATCH propVal)
{
SetProperty(0x13, VT_DISPATCH, propVal);
}
double CsoGeoLineM::GetLength()
{
double result;
GetProperty(0x1a, VT_R8, (void*)&result);
return result;
}
void CsoGeoLineM::SetLength(double propVal)
{
SetProperty(0x1a, VT_R8, propVal);
}
double CsoGeoLineM::GetMaxMeasure()
{
double result;
GetProperty(0x1b, VT_R8, (void*)&result);
return result;
}
void CsoGeoLineM::SetMaxMeasure(double propVal)
{
SetProperty(0x1b, VT_R8, propVal);
}
double CsoGeoLineM::GetMinMeasure()
{
double result;
GetProperty(0x1c, VT_R8, (void*)&result);
return result;
}
void CsoGeoLineM::SetMinMeasure(double propVal)
{
SetProperty(0x1c, VT_R8, propVal);
}
long CsoGeoLineM::GetMonotonicStyle()
{
long result;
GetProperty(0x1d, VT_I4, (void*)&result);
return result;
}
void CsoGeoLineM::SetMonotonicStyle(long propVal)
{
SetProperty(0x1d, VT_I4, propVal);
}
/////////////////////////////////////////////////////////////////////////////
// CsoGeoLineM operations
void CsoGeoLineM::SetEmpty()
{
InvokeHelper(0xf, DISPATCH_METHOD, VT_EMPTY, NULL, NULL);
}
CsoGeoLineM CsoGeoLineM::Clone()
{
LPDISPATCH pDispatch;
InvokeHelper(0x10, DISPATCH_METHOD, VT_DISPATCH, (void*)&pDispatch, NULL);
return CsoGeoLineM(pDispatch);
}
BOOL CsoGeoLineM::HitTest(LPDISPATCH pntHitTest, double dTolerance)
{
BOOL result;
static BYTE parms[] =
VTS_DISPATCH VTS_R8;
InvokeHelper(0x11, DISPATCH_METHOD, VT_BOOL, (void*)&result, parms,
pntHitTest, dTolerance);
return result;
}
BOOL CsoGeoLineM::Offset(double xOffset, double yOffset)
{
BOOL result;
static BYTE parms[] =
VTS_R8 VTS_R8;
InvokeHelper(0x12, DISPATCH_METHOD, VT_BOOL, (void*)&result, parms,
xOffset, yOffset);
return result;
}
CString CsoGeoLineM::ToXML()
{
CString result;
InvokeHelper(0x14, DISPATCH_METHOD, VT_BSTR, (void*)&result, NULL);
return result;
}
BOOL CsoGeoLineM::FromXML(LPCTSTR strXML)
{
BOOL result;
static BYTE parms[] =
VTS_BSTR;
InvokeHelper(0x15, DISPATCH_METHOD, VT_BOOL, (void*)&result, parms,
strXML);
return result;
}
void CsoGeoLineM::Rotate(LPDISPATCH pntBase, double dAngle)
{
static BYTE parms[] =
VTS_DISPATCH VTS_R8;
InvokeHelper(0x16, DISPATCH_METHOD, VT_EMPTY, NULL, parms,
pntBase, dAngle);
}
void CsoGeoLineM::Zoom(double dRatioX, double dRatioY)
{
static BYTE parms[] =
VTS_R8 VTS_R8;
InvokeHelper(0x17, DISPATCH_METHOD, VT_EMPTY, NULL, parms,
dRatioX, dRatioY);
}
void CsoGeoLineM::Resize(LPDISPATCH Bounds)
{
static BYTE parms[] =
VTS_DISPATCH;
InvokeHelper(0x18, DISPATCH_METHOD, VT_EMPTY, NULL, parms,
Bounds);
}
void CsoGeoLineM::Mirror(LPDISPATCH Points)
{
static BYTE parms[] =
VTS_DISPATCH;
InvokeHelper(0x19, DISPATCH_METHOD, VT_EMPTY, NULL, parms,
Points);
}
BOOL CsoGeoLineM::AddPart(LPDISPATCH part)
{
BOOL result;
static BYTE parms[] =
VTS_DISPATCH;
InvokeHelper(0x1e, DISPATCH_METHOD, VT_BOOL, (void*)&result, parms,
part);
return result;
}
BOOL CsoGeoLineM::InsertPartAt(long nIndex, LPDISPATCH part)
{
BOOL result;
static BYTE parms[] =
VTS_I4 VTS_DISPATCH;
InvokeHelper(0x1f, DISPATCH_METHOD, VT_BOOL, (void*)&result, parms,
nIndex, part);
return result;
}
BOOL CsoGeoLineM::RemovePartAt(long nIndex)
{
BOOL result;
static BYTE parms[] =
VTS_I4;
InvokeHelper(0x20, DISPATCH_METHOD, VT_BOOL, (void*)&result, parms,
nIndex);
return result;
}
CsoPointMs CsoGeoLineM::GetPartAt(long nIndex)
{
LPDISPATCH pDispatch;
static BYTE parms[] =
VTS_I4;
InvokeHelper(0x21, DISPATCH_METHOD, VT_DISPATCH, (void*)&pDispatch, parms,
nIndex);
return CsoPointMs(pDispatch);
}
BOOL CsoGeoLineM::SetPartAt(long nIndex, LPDISPATCH part)
{
BOOL result;
static BYTE parms[] =
VTS_I4 VTS_DISPATCH;
InvokeHelper(0x22, DISPATCH_METHOD, VT_BOOL, (void*)&result, parms,
nIndex, part);
return result;
}
CsoGeoRegion CsoGeoLineM::Buffer(double dDistance, long nSmoothness)
{
LPDISPATCH pDispatch;
static BYTE parms[] =
VTS_R8 VTS_I4;
InvokeHelper(0x23, DISPATCH_METHOD, VT_DISPATCH, (void*)&pDispatch, parms,
dDistance, nSmoothness);
return CsoGeoRegion(pDispatch);
}
double CsoGeoLineM::DistanceTo(LPDISPATCH objAnotherGeometry)
{
double result;
static BYTE parms[] =
VTS_DISPATCH;
InvokeHelper(0x24, DISPATCH_METHOD, VT_R8, (void*)&result, parms,
objAnotherGeometry);
return result;
}
CsoPoints CsoGeoLineM::GetCrossings(LPDISPATCH objAnotherGeometry)
{
LPDISPATCH pDispatch;
static BYTE parms[] =
VTS_DISPATCH;
InvokeHelper(0x25, DISPATCH_METHOD, VT_DISPATCH, (void*)&pDispatch, parms,
objAnotherGeometry);
return CsoPoints(pDispatch);
}
CsoPoints CsoGeoLineM::Intersect(LPDISPATCH objAnotherGeometry)
{
LPDISPATCH pDispatch;
static BYTE parms[] =
VTS_DISPATCH;
InvokeHelper(0x26, DISPATCH_METHOD, VT_DISPATCH, (void*)&pDispatch, parms,
objAnotherGeometry);
return CsoPoints(pDispatch);
}
CsoGeoLineM CsoGeoLineM::Union(LPDISPATCH objAnotherGeometry)
{
LPDISPATCH pDispatch;
static BYTE parms[] =
VTS_DISPATCH;
InvokeHelper(0x27, DISPATCH_METHOD, VT_DISPATCH, (void*)&pDispatch, parms,
objAnotherGeometry);
return CsoGeoLineM(pDispatch);
}
CsoGeoLine CsoGeoLineM::ResampleEquidistantly(double dResampleDistance)
{
LPDISPATCH pDispatch;
static BYTE parms[] =
VTS_R8;
InvokeHelper(0x28, DISPATCH_METHOD, VT_DISPATCH, (void*)&pDispatch, parms,
dResampleDistance);
return CsoGeoLine(pDispatch);
}
CsoGeoRegion CsoGeoLineM::ConvertToRegion()
{
LPDISPATCH pDispatch;
InvokeHelper(0x29, DISPATCH_METHOD, VT_DISPATCH, (void*)&pDispatch, NULL);
return CsoGeoRegion(pDispatch);
}
BOOL CsoGeoLineM::Reverse()
{
BOOL result;
InvokeHelper(0x2a, DISPATCH_METHOD, VT_BOOL, (void*)&result, NULL);
return result;
}
BOOL CsoGeoLineM::Split(LPDISPATCH objPoint, LPDISPATCH objLineMA, LPDISPATCH objLineMB)
{
BOOL result;
static BYTE parms[] =
VTS_DISPATCH VTS_DISPATCH VTS_DISPATCH;
InvokeHelper(0x2b, DISPATCH_METHOD, VT_BOOL, (void*)&result, parms,
objPoint, objLineMA, objLineMB);
return result;
}
BOOL CsoGeoLineM::Joint(LPDISPATCH objAnotherGeometry)
{
BOOL result;
static BYTE parms[] =
VTS_DISPATCH;
InvokeHelper(0x2c, DISPATCH_METHOD, VT_BOOL, (void*)&result, parms,
objAnotherGeometry);
return result;
}
CsoPoint CsoGeoLineM::FindPointOnLineByDistance(double dDistance)
{
LPDISPATCH pDispatch;
static BYTE parms[] =
VTS_R8;
InvokeHelper(0x2d, DISPATCH_METHOD, VT_DISPATCH, (void*)&pDispatch, parms,
dDistance);
return CsoPoint(pDispatch);
}
BOOL CsoGeoLineM::InterpolateMeasure(long nFromIndex, long nToIndex, long nFromSubObjID, long nToSubObjID, BOOL bIgnoreGap)
{
BOOL result;
static BYTE parms[] =
VTS_I4 VTS_I4 VTS_I4 VTS_I4 VTS_BOOL;
InvokeHelper(0x2e, DISPATCH_METHOD, VT_BOOL, (void*)&result, parms,
nFromIndex, nToIndex, nFromSubObjID, nToSubObjID, bIgnoreGap);
return result;
}
BOOL CsoGeoLineM::ExtrapolateMeasure(long nFromIndex, long nToIndex, long nExtrapolateMethod, long nFromSubObjID, long nToSubObjID, BOOL bIgnoreGap)
{
BOOL result;
static BYTE parms[] =
VTS_I4 VTS_I4 VTS_I4 VTS_I4 VTS_I4 VTS_BOOL;
InvokeHelper(0x2f, DISPATCH_METHOD, VT_BOOL, (void*)&result, parms,
nFromIndex, nToIndex, nExtrapolateMethod, nFromSubObjID, nToSubObjID, bIgnoreGap);
return result;
}
BOOL CsoGeoLineM::UpdateMeasure(long nFromIndex, long nToIndex, double dFromMeasure, double dToMeasure, long nHowToComputeMeasure, long nCalibrateBy, long nFromSubObjID, long nToSubObjID, BOOL bIgnoreGap)
{
BOOL result;
static BYTE parms[] =
VTS_I4 VTS_I4 VTS_R8 VTS_R8 VTS_I4 VTS_I4 VTS_I4 VTS_I4 VTS_BOOL;
InvokeHelper(0x30, DISPATCH_METHOD, VT_BOOL, (void*)&result, parms,
nFromIndex, nToIndex, dFromMeasure, dToMeasure, nHowToComputeMeasure, nCalibrateBy, nFromSubObjID, nToSubObjID, bIgnoreGap);
return result;
}
void CsoGeoLineM::OffsetMeasure(double dOffset)
{
static BYTE parms[] =
VTS_R8;
InvokeHelper(0x31, DISPATCH_METHOD, VT_EMPTY, NULL, parms,
dOffset);
}
double CsoGeoLineM::GetMAtDistance(double dDistance, long nSubObjID, BOOL bIgnoreGap)
{
double result;
static BYTE parms[] =
VTS_R8 VTS_I4 VTS_BOOL;
InvokeHelper(0x32, DISPATCH_METHOD, VT_R8, (void*)&result, parms,
dDistance, nSubObjID, bIgnoreGap);
return result;
}
void CsoGeoLineM::SetMAsDistance(double dOffset, double dScale, BOOL bIgnoreGap)
{
static BYTE parms[] =
VTS_R8 VTS_R8 VTS_BOOL;
InvokeHelper(0x33, DISPATCH_METHOD, VT_EMPTY, NULL, parms,
dOffset, dScale, bIgnoreGap);
}
double CsoGeoLineM::GetDistanceAtM(double dMeasure, long nSubObjID, BOOL bIgnoreGap)
{
double result;
static BYTE parms[] =
VTS_R8 VTS_I4 VTS_BOOL;
InvokeHelper(0x34, DISPATCH_METHOD, VT_R8, (void*)&result, parms,
dMeasure, nSubObjID, bIgnoreGap);
return result;
}
CsoPoint CsoGeoLineM::GetPointAtM(double dMeasure, double dOffset)
{
LPDISPATCH pDispatch;
static BYTE parms[] =
VTS_R8 VTS_R8;
InvokeHelper(0x35, DISPATCH_METHOD, VT_DISPATCH, (void*)&pDispatch, parms,
dMeasure, dOffset);
return CsoPoint(pDispatch);
}
CsoGeoLine CsoGeoLineM::GetSubcurveAtM(double dFromMeasure, double dToMeasure)
{
LPDISPATCH pDispatch;
static BYTE parms[] =
VTS_R8 VTS_R8;
InvokeHelper(0x36, DISPATCH_METHOD, VT_DISPATCH, (void*)&pDispatch, parms,
dFromMeasure, dToMeasure);
return CsoGeoLine(pDispatch);
}
void CsoGeoLineM::CalculateNoM()
{
InvokeHelper(0x37, DISPATCH_METHOD, VT_EMPTY, NULL, NULL);
}
BOOL CsoGeoLineM::InsertMAtDistance(double dDistance, double dMeasure, long nSubObjID, BOOL bIgnoreGap)
{
BOOL result;
static BYTE parms[] =
VTS_R8 VTS_R8 VTS_I4 VTS_BOOL;
InvokeHelper(0x38, DISPATCH_METHOD, VT_BOOL, (void*)&result, parms,
dDistance, dMeasure, nSubObjID, bIgnoreGap);
return result;
}
BOOL CsoGeoLineM::ReverseMOrder()
{
BOOL result;
InvokeHelper(0x39, DISPATCH_METHOD, VT_BOOL, (void*)&result, NULL);
return result;
}
BOOL CsoGeoLineM::Calibrate(LPDISPATCH CbPoints, long nCalibrate, long nComputeStyle, BOOL bIgnoreGap)
{
BOOL result;
static BYTE parms[] =
VTS_DISPATCH VTS_I4 VTS_I4 VTS_BOOL;
InvokeHelper(0x3a, DISPATCH_METHOD, VT_BOOL, (void*)&result, parms,
CbPoints, nCalibrate, nComputeStyle, bIgnoreGap);
return result;
}
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