LEADTOOLS Raster Imaging C++ Class Library Help > Classes and Member Functions > LBitmapBase > LBitmapBase Member Functions > LBitmapBase::LBitmapBase |
#include "ltwrappr.h"
LBitmapBase::LBitmapBase()
LBitmapBase::LBitmapBase(uWidth, uHeight, uBitsPerPixel=24, uOrder=ORDER_BGR, pPalette=NULL, uViewPerspective=TOP_LEFT, crFill=0, uMemory=TYPE_CONV, pData=NULL, dwSize=0)
LBitmapBase::LBitmapBase(pInfo, pBits)
LBitmapBase::LBitmapBase(hDC, hBitmap, hPalette)
LBitmapBase::LBitmapBase(pBitmapHandle)
L_UINT uWidth; |
/* initial bitmap width */ |
L_UINT uHeight; |
/* initial bitmap height */ |
L_UINT uBitsPerPixel; |
/* the number of bits per pixel */ |
L_UINT uOrder; |
/* color order */ |
LPRGBQUAD pPalette; |
/* pointer to a palette*/ |
L_UINT uViewPerspective; |
/* bitmaps view perspective */ |
COLORREF crFill; |
/* fill color value*/ |
L_UINT uMemory; |
/* type of memory */ |
BITMAPINFO * pInfo; |
/* pointer to a bitmap info structure */ |
L_UCHAR * pBits; |
/* pointer to the bitmap data */ |
HDC hDC; |
/* handle to a windows DC */ |
HBITMAP hBitmap; |
/* handle to a device dependent bitmap */ |
HPALETTE hPalette; |
/* handle of the palette */ |
pBITMAPHANDLE pBitmapHandle; |
/* pointer to a LEAD bitmap handle */ |
L_UCHAR *pData; |
/* data pointer */ |
L_UINT32 dwSize; |
/* size of the data buffer pointed to by pData */ |
Constructs and initializes the member variables of the class object.
Parameter |
Description |
|
uWidth |
The desired initial bitmap width. |
|
uHeight |
The desired initial bitmap height. |
|
uBitsPerPixel |
The number of bits per pixel. Valid values are 0, 1, 4, 8, 12, 16, 24, and 32. Use 0 to create an 8-bit grayscale bitmap. If uBitsPerPixel is 0, the function ignores the uOrder and pPalette parameters. |
|
uOrder |
Color order for 16-, 24-, and 32-bit bitmaps. If the resultant bitmap is less than 16 bits per pixel, this will have no effect since palletized images have no order. Possible values are: |
|
|
Value |
Meaning |
|
ORDER_RGB |
[0] Red, green, and blue color order in memory |
|
ORDER_BGR |
[1] Blue, green, and red color order in memory |
|
ORDER_GRAY |
[2] 12 or 16-bit grayscale image. 12 and 16-bit grayscale images are only supported in the Document/Medical toolkits. |
|
ORDER_RGBORGRAY |
[3] Load the image as red, green, blue OR as a 12 or 16-bit grayscale image. 12 and 16-bit grayscale images are supported in the Document/Medical toolkits only. |
|
ORDER_BGRORGRAY |
[4] Load the image as blue, green, red OR as a 12 or 16-bit grayscale image. 12 and 16-bit grayscale images are supported in the Document/Medical toolkits only. |
pPalette |
Pointer to the palette that the bitmap will use. You can specify your own palette, or use NULL to use LEAD's fixed palette. |
|
uViewPerspective |
The desired view perspective for the bitmap. Possible values are: |
|
|
Value |
Meaning |
|
TOP_LEFT |
[0] Top-left of image is first in memory. |
|
BOTTOM_LEFT |
[2] Bottom-left of image is first in memory. |
|
RIGHT_TOP |
[4] (Document/Medical only) First row is the right side, first column is top side. |
|
TOP_LEFT90 |
[4] (Document/Medical only) Same as RIGHT_TOP, which is TOP_LEFT rotated clockwise by 90 degrees. |
|
LEFT_BOTTOM |
[8] (Document/Medical only) First row is the left side, first column is top side. |
|
TOP_LEFT270 |
[8] (Document/Medical only) Same as LEFT_BOTTOM, which is TOP_LEFT rotated clockwise by 270 degrees. |
crFill |
The color value to use to fill the bitmap after creating it. |
uMemory |
Flag that indicates the type of memory to allocate. Possible values are: |
|
|
Value |
Meaning |
|
TYPE_CONV |
[0x0001] Use conventional memory if the image will fit, otherwise swap to disk. |
|
TYPE_COMPRESSED |
[0x0200] (Document/Medical only) Allocate an RLE-compressed bitmap. You can use this flag with TYPE_CONV or TYPE_NODISK. For more information, refer to Speeding Up 1-Bit Documents. |
|
TYPE_SUPERCOMPRESSED |
[0x0400] (Document/Medical only) Keep images compressed in memory. This option causes slow access, but very low memory usage. This option is available only for 1-bit, 8-bit grayscale and 24-bit images. |
pInfo |
Pointer to a BITMAPINFO structure that describes the bitmap data. |
|
pBits |
Pointer to the bitmap data to be used in initializing the bitmap. |
|
hDC |
Handle to a windows DC. |
|
hBitmap |
Handle to a device dependent bitmap (DDB) of type HBITMAP. |
|
hPalette |
Handle of the palette to be used for the bitmap or NULL if the bitmap does not have a palette. |
|
pBitmapHandle |
Pointer to a LEAD bitmap handle that describes an allocated bitmap. |
|
pData |
Data pointer that will contain the bitmap data when uMemory is TYPE_USER. If pData is NULL, the data pointer must be passed later, by calling LBitmapBase::SetDataPointer, before the bitmap can be used. |
|
dwSize |
Size of the data buffer pointed to by pData. This should be at least pBitmap->Size. This parameter is only valid when uMemory is set to TYPE_USER. |
Returns
None.
Comments
These are the constructors for the LBitmapBase class. They construct and initialize the member variables of the class object.
LBitmapBase::LBitmapBase(void) will initialize the bitmap width, height, and bits per pixel to 0.
LBitmapBase::LBitmapBase(uWidth, uHeight, uBitsPerPixel, uOrder, pPalette, uViewPerspective, crFill, uMemory) constructs an LBitmapBase object and allocates a bitmap with the desired width, height, bits per pixel, color order, view perspective and memory type. You can check for successful allocation by calling the LBitmapBase::IsAllocated() member function. Even if the allocation fails, the class object is still constructed.
LBitmapBase::LBitmapBase(pInfo, pBits) constructs an LBitmapBase object and allocates a bitmap using the passed bitmap info and data (DIB). You can check for successful allocation by calling the LBitmapBase::IsAllocated() member function. Even if the allocation fails, the class object is still constructed.
LBitmapBase::LBitmapBase(hDC, hBitmap, hPalette) constructs an LBitmapBase object and allocates a bitmap using the passed hBitmap (DDB). You can check for successful allocation by calling the LBitmapBase::IsAllocated() member function. Even if the allocation fails, the class object is still constructed.
LBitmapBase::LBitmapBase(pBitmapHandle) constructs an LBitmapBase object and allocates a bitmap from another LEAD bitmap handle. You can check for successful allocation by calling the LBitmapBase::IsAllocated() member function. Even if the allocation fails, the class object is still constructed.
Required DLLs and Libraries
LTDIS For a listing of the exact DLLs and Libraries needed, based on the toolkit version, refer to Files To Be Included With Your Application. |
Win32, x64.
See Also
Functions: |
LBitmapBase::~LBitmapBase, LBitmapBase::IsAllocated, Class Members |
Topics: |
Example
This is the example for LBitmapBase::LBitmapBase():
// this will call the default constructor and destructor when it is out of scope
#define MAKE_IMAGE_PATH(pFileName) TEXT("C:\\Users\\Public\\Documents\\LEADTOOLS Images\\")pFileName L_INT LBitmapBase__LBitmapBaseFirstExample() { LBitmapBase MyBitmap; return SUCCESS; } /*This is the example for LBitmapBase::LBitmapBase(uWidth, uHeight, uBitsPerPixel, uOrde, pPalette, uViewPerspective, crFill, uMemory, pData, dwSize):*/ L_INT LBitmapBase__LBitmapBaseSecondExample() { LBitmapBase MyBitmap(100, 200, 24, ORDER_BGR, NULL, TOP_LEFT, 0, TYPE_CONV); if(MyBitmap.IsAllocated()) { // Do something. } return SUCCESS; } /*This is the example for LBitmapBase::LBitmapBase(pInfo, pBits):*/ L_INT LBitmapBase__LBitmapBaseThirdExample() { LBitmapBase TmpBitmap; HGLOBAL hDIB; BITMAPINFO *pInfo; L_UCHAR *pBits; L_INT nColorData; L_INT nRet; // Load a bitmap at 8 bits per pixel so that we can demonstrate palette handling nRet =TmpBitmap.Load (MAKE_IMAGE_PATH(TEXT("ImageProcessingDemo\\Image3.cmp")), 8, ORDER_BGR); if(nRet !=SUCCESS) return nRet; hDIB = TmpBitmap.ConvertToDIB(DIB_BITMAPV5HEADER); pInfo = (BITMAPINFO *) GlobalLock( hDIB ); if(pInfo->bmiHeader.biBitCount <= 8) nColorData = 1 << pInfo->bmiHeader.biBitCount; else nColorData = 0; pBits = (L_UCHAR *) pInfo + sizeof(BITMAPINFOHEADER) + (nColorData * sizeof(RGBQUAD)); LBitmapBase MyBitmap(pInfo, pBits); GlobalUnlock(hDIB) ; GlobalFree(hDIB); nRet =TmpBitmap.Free(); if(nRet !=SUCCESS) return nRet; return SUCCESS; } /*This is the example for LBitmapBase::LBitmapBase(hDC, hBitmap, hPalette):*/ L_INT LBitmapBase__LBitmapBaseForthExample(HINSTANCE hAppInstance) { HBITMAP hBitmap=LoadBitmap(hAppInstance,MAKE_IMAGE_PATH(TEXT("ULAY1.BMP"))); HDC hDC=GetDC(0); LBitmapBase MyBitmap(hDC, hBitmap, 0); ReleaseDC(0,hDC); return SUCCESS; } /*This is the example for LBitmapBase::LBitmapBase(pBitmapHandle):*/ L_INT LBitmapBase__LBitmapBaseFifthExample() { L_INT nRet; BITMAPHANDLE hBitmap; nRet = L_LoadBitmap(MAKE_IMAGE_PATH(TEXT("image1.cmp")), &hBitmap,sizeof(hBitmap), 0, ORDER_RGB,NULL,NULL); if(nRet !=SUCCESS) return nRet; LBitmapBase MyBitmap(&hBitmap); return SUCCESS; }