我有一个功能很好的C ++ DLL,它有8个方法,由C#应用程序使用。所有方法都有简单的类型参数,如int*和float*,用于将信息从C ++代码传递到C#代码。
现在我用一个带有参数char*的方法扩展了接口,我从Visual Studion 2012得到了以下编译错误:
错误C2259:'ATL :: CComObject':无法实例化抽象类
我附上了C,H和IDL文件。添加方法GetError并导致编译错误。
提前感谢您的评论。
Laser.h:
// Laser.h: Definition of the Laser class
//
//////////////////////////////////////////////////////////////////////
#if !defined(AFX_LASER_H__78A65319_A610_4974_86E6_F04496ADA33F__INCLUDED_)
#define AFX_LASER_H__78A65319_A610_4974_86E6_F04496ADA33F__INCLUDED_
#if _MSC_VER > 1000
#pragma once
#endif // _MSC_VER > 1000
#include "resource.h" // main symbols
#include "ECLaserScanner.h"
/////////////////////////////////////////////////////////////////////////////
// Laser
class Laser :
public IDispatchImpl<ILaser, &IID_ILaser, &LIBID_LASERSCANNERLib>,
public ISupportErrorInfo,
public CComObjectRoot,
public CComCoClass<Laser,&CLSID_Laser>
{
public:
Laser() {}
BEGIN_COM_MAP(Laser)
COM_INTERFACE_ENTRY(IDispatch)
COM_INTERFACE_ENTRY(ILaser)
COM_INTERFACE_ENTRY(ISupportErrorInfo)
END_COM_MAP()
//DECLARE_NOT_AGGREGATABLE(Laser)
// Remove the comment from the line above if you don't want your object to
// support aggregation.
DECLARE_REGISTRY_RESOURCEID(IDR_Laser)
// ISupportsErrorInfo
STDMETHOD(InterfaceSupportsErrorInfo)(REFIID riid);
// ILaser
public:
STDMETHOD(Construct)();
STDMETHOD(Destruct)();
STDMETHOD(Scan)(int* nrOfPointsNS, int* nrOfPointsEW);
STDMETHOD(Setup)(int scanSet, int* error);
STDMETHOD(GetData)(int indexNS, int indexEW, float* pointNS, float* pointEW, float* height);
STDMETHOD(GetColor)(int indexNS, int indexEW, float* red, float* green, float* blue);
STDMETHOD(GetIntensity)(int indexNS, int indexEW, float* intensity);
STDMETHOD(GetInfo)(float* temperature, float* supplyVoltage, int* operatingTime, int* laserTime, int* motorTime);
STDMETHOD(GetError)(char* error);
};
#endif // !defined(AFX_LASER_H__78A65319_A610_4974_86E6_F04496ADA33F__INCLUDED_)
Laser.cpp:
// Laser.cpp : Implementation of CLaserScannerApp and DLL registration.
#include "stdafx.h"
#include "LaserScanner.h"
#include "Laser.h"
/////////////////////////////////////////////////////////////////////////////
//
enum ScanSetIndexType
{
none,
dump1,
dump2,
dump3,
dump4,
dump5,
dump6,
dump7,
oven1,
oven2,
oven3,
oven4,
oven5,
bunker,
calibration
};
ECLaserScanner* m_scanner = 0;
STDMETHODIMP Laser::InterfaceSupportsErrorInfo(REFIID riid)
{
static const IID* arr[] =
{
&IID_ILaser,
};
for (int i=0;i<sizeof(arr)/sizeof(arr[0]);i++)
{
if (InlineIsEqualGUID(*arr[i],riid))
return S_OK;
}
return S_FALSE;
}
STDMETHODIMP Laser::Construct()
{
if (m_scanner)
{
Destruct();
}
m_scanner = new ECLaserScanner();
return S_OK;
}
STDMETHODIMP Laser::Destruct()
{
if (!m_scanner)
{
return -1;
}
delete m_scanner;
m_scanner = 0;
return S_OK;
}
STDMETHODIMP Laser::Setup(int set, int* error)
{
if (!m_scanner)
{
return -1;
}
ScanSetType scanSet;
ScanSetIndexType index = (ScanSetIndexType) set;
scanSet.m_id = set;
switch (index)
{
case calibration:
scanSet.m_startAngleNS = 100.0;
scanSet.m_deltaAngleNS = 0.2;
scanSet.m_deltaCountNS = 126;
scanSet.m_startAngleEW = 107.0;
scanSet.m_deltaAngleEW = 0.199;
scanSet.m_deltaCountEW = 69;
break;
case bunker:
scanSet.m_startAngleNS = 100.0;
scanSet.m_deltaAngleNS = 0.1;
scanSet.m_deltaCountNS = 1600; // ending at 260 degrees
scanSet.m_startAngleEW = 50.0;
scanSet.m_deltaAngleEW = 0.2;
scanSet.m_deltaCountEW = 350;
break;
case oven1:
scanSet.m_startAngleNS = 225.0;
scanSet.m_deltaAngleNS = 0.2;
scanSet.m_deltaCountNS = 77;
scanSet.m_startAngleEW = 107.0;
scanSet.m_deltaAngleEW = 0.199;
scanSet.m_deltaCountEW = 68;
break;
case oven2:
scanSet.m_startAngleNS = 190.0;
scanSet.m_deltaAngleNS = 0.2;
scanSet.m_deltaCountNS = 126;
scanSet.m_startAngleEW = 115.0;
scanSet.m_deltaAngleEW = 0.199;
scanSet.m_deltaCountEW = 75;
break;
case oven3:
scanSet.m_startAngleNS = 145.0;
scanSet.m_deltaAngleNS = 0.2;
scanSet.m_deltaCountNS = 127;
scanSet.m_startAngleEW = 115.0;
scanSet.m_deltaAngleEW = 0.199;
scanSet.m_deltaCountEW = 75;
break;
case oven4:
scanSet.m_startAngleNS = 110.0;
scanSet.m_deltaAngleNS = 0.2;
scanSet.m_deltaCountNS = 126;
scanSet.m_startAngleEW = 107.0;
scanSet.m_deltaAngleEW = 0.199;
scanSet.m_deltaCountEW = 69;
break;
case oven5:
scanSet.m_startAngleNS = 110.0; // was voor geheel oven 4 de startAngleNS
scanSet.m_deltaAngleNS = 0.2;
scanSet.m_deltaCountNS = 90;
scanSet.m_startAngleEW = 107.0;
scanSet.m_deltaAngleEW = 0.199;
scanSet.m_deltaCountEW = 69;
break;
case dump1:
scanSet.m_startAngleNS = 180.0;
scanSet.m_deltaAngleNS = 0.0;
scanSet.m_deltaCountNS = 0;
scanSet.m_startAngleEW = 50.0;
scanSet.m_deltaAngleEW = 0.0;
scanSet.m_deltaCountEW = 0;
break;
case dump2:
scanSet.m_startAngleNS = 180.0;
scanSet.m_deltaAngleNS = 0.0;
scanSet.m_deltaCountNS = 0;
scanSet.m_startAngleEW = 50.0;
scanSet.m_deltaAngleEW = 0.0;
scanSet.m_deltaCountEW = 0;
break;
case dump3:
scanSet.m_startAngleNS = 180.0;
scanSet.m_deltaAngleNS = 0.0;
scanSet.m_deltaCountNS = 0;
scanSet.m_startAngleEW = 50.0;
scanSet.m_deltaAngleEW = 0.0;
scanSet.m_deltaCountEW = 0;
break;
case dump4:
scanSet.m_startAngleNS = 180.0;
scanSet.m_deltaAngleNS = 0.0;
scanSet.m_deltaCountNS = 0;
scanSet.m_startAngleEW = 50.0;
scanSet.m_deltaAngleEW = 0.0;
scanSet.m_deltaCountEW = 0;
break;
case dump5:
scanSet.m_startAngleNS = 180.0;
scanSet.m_deltaAngleNS = 0.0;
scanSet.m_deltaCountNS = 0;
scanSet.m_startAngleEW = 50.0;
scanSet.m_deltaAngleEW = 0.0;
scanSet.m_deltaCountEW = 0;
break;
case dump6:
scanSet.m_startAngleNS = 180.0;
scanSet.m_deltaAngleNS = 0.0;
scanSet.m_deltaCountNS = 0;
scanSet.m_startAngleEW = 50.0;
scanSet.m_deltaAngleEW = 0.0;
scanSet.m_deltaCountEW = 0;
break;
case dump7:
scanSet.m_startAngleNS = 180.0;
scanSet.m_deltaAngleNS = 0.0;
scanSet.m_deltaCountNS = 0;
scanSet.m_startAngleEW = 50.0;
scanSet.m_deltaAngleEW = 0.0;
scanSet.m_deltaCountEW = 0;
break;
default:
return -1;
}
*error = m_scanner->Setup(scanSet);
return S_OK;
}
STDMETHODIMP Laser::Scan(int* nrOfPointsNS, int* nrOfPointsEW)
{
if (!m_scanner)
{
return -1;
}
m_scanner->Scan();
m_scanner->GetScanner()->GetDimension(nrOfPointsNS, nrOfPointsEW);
return S_OK;
}
STDMETHODIMP Laser::GetData(int indexNS, int indexEW, float* pointNS, float* pointEW, float* height)
{
if (!m_scanner)
{
return -1;
}
int result = m_scanner->GetData(indexNS, indexEW, pointNS, pointEW, height);
if (result != 0)
{
return result;
}
return S_OK;
}
STDMETHODIMP Laser::GetColor(int indexNS, int indexEW, float* red, float* green, float* blue)
{
if (!m_scanner)
{
return -1;
}
int result = m_scanner->GetColor(indexNS, indexEW, red, green, blue);
if (result != 0)
{
return result;
}
return S_OK;
}
STDMETHODIMP Laser::GetIntensity(int indexNS, int indexEW, float* intensity)
{
if (!m_scanner)
{
return -1;
}
int result = m_scanner->GetIntensity(indexNS, indexEW, intensity);
if (result != 0)
{
return result;
}
return S_OK;
}
STDMETHODIMP Laser::GetInfo(float* temperature,
float* supplyVoltage,
int* operatingTime,
int* laserTime,
int* motorTime)
{
if (!m_scanner)
{
return -1;
}
int result = m_scanner->GetInfo(temperature, supplyVoltage, operatingTime, laserTime, motorTime);
if (result != 0)
{
return result;
}
return S_OK;
}
STDMETHODIMP Laser::GetError(char* error)
{
error = "hallo";
return S_OK;
}
** LaserScanner.idl **
// LaserScanner.idl : IDL source for LaserScanner.dll
//
// This file will be processed by the MIDL tool to
// produce the type library (LaserScanner.tlb) and marshalling code.
import "oaidl.idl";
import "ocidl.idl";
[
object,
uuid(1C161160-B6B4-4AE2-BF07-A14D78AF6270),
dual,
helpstring("ILaser Interface"),
pointer_default(unique)
]
interface ILaser : IDispatch
{
[id(1), helpstring("method Construct")] HRESULT Construct();
[id(2), helpstring("method Destruct")] HRESULT Destruct();
[id(3), helpstring("method Setup")] HRESULT Setup(int scanSet, int* errorz);
[id(4), helpstring("method Scan")] HRESULT Scan(int* nrOfPointsNS, int* nrOfPointsEW);
[id(5), helpstring("method GetData")] HRESULT GetData(int indexNS, int indexEW, float* pointNS, float* pointEW, float* height);
[id(6), helpstring("method GetColor")] HRESULT GetColor(int indexNS, int indexEW, float* red, float* green, float* blue);
[id(7), helpstring("method GetIntensity")] HRESULT GetIntensity(int indexNS, int indexEW, float* intensity);
[id(8), helpstring("method GetInfo")] HRESULT GetInfo(float* temperature, float* supplyVoltage, int* operatingTime, int* laserTime, int* motorTime);
[id(9), helpstring("method GetError")] HRESULT GetError(char* error);
};
[
uuid(3B556F88-6FEC-4A55-A7A3-8360C9103056),
version(1.0),
helpstring("LaserScanner 1.4 Type Library")
]
library LASERSCANNERLib
{
importlib("stdole32.tlb");
importlib("stdole2.tlb");
[
uuid(67927D42-6C28-466F-8D83-9346A0D48F71),
helpstring("Laser Class")
]
coclass Laser
{
[default] interface ILaser;
};
};
答案 0 :(得分:1)
您应该在COM中使用BSTR字符串。或者您需要为该类型的字符串创建custom marshaler。
// .idl
[id(9), helpstring("method GetError")] HRESULT GetError(BSTR* error);
// .h
STDMETHOD(GetError)(BSTR* error);
// .cpp
STDMETHODIMP Laser::GetError(BSTR* pError)
{
HRESULT hr = E_INVALIDARG;
CComBSTR e(L"some sort of error message");
if (pError) {
hr = e.CopyTo(pError);
}
return hr;
}