LEADTOOLS Raster Imaging C DLL Help
| LEADTOOLS Raster Imaging C DLL Help > Function References > L_ReadFileTagMemory |
#include "l_bitmap.h"
L_LTFIL_API L_INT L_ReadFileTagMemory(pBuffer, uTag, pType, pCount, pData, nBufferSize, pLoadOptions)
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L_UCHAR* pBuffer; |
/* pointer to the file in memory */ |
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L_UINT16 uTag; |
/* tag to identify the data in the TIFF file */ |
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L_UINT16* pType; |
/* address of the variable for the data type */ |
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L_UINT* pCount; |
/* address of the variable for the count */ |
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L_VOID* pData; |
/* pointer to the buffer for the data */ |
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L_SSIZE_T nBufferSize; |
/* size of the file in memory (in bytes) */ |
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pLOADFILEOPTION pLoadOptions; |
/* pointer to optional extended load options */ |
Gets the specified tagged data from a TIFF file in memory. This function is provided to support TIFF tags that you define.
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Parameter |
Description |
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pBuffer |
Pointer to the file in memory. |
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uTag |
Tag to identify the data in the TIFF file. Use the same tag that you specified in the L_SetTag function. |
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pType |
Address of the variable to be updated with the tagged data type. The following are possible values: |
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Value |
Meaning |
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TAG_BYTE |
[1] Byte. |
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TAG_ASCII |
[2] Byte in the range of 0 to 255. |
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TAG_SBYTE |
[6] Byte used as signed number in the range of -128 to +127. |
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TAG_UNDEFINED |
[7] Byte, with application-defined usage. |
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TAG_SHORT |
[3] Two bytes, unsigned. |
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TAG_SSHORT |
[8] Two bytes, signed. |
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TAG_LONG |
[4] Four bytes, unsigned. |
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TAG_SLONG |
[9] Four bytes, signed. |
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TAG_RATIONAL |
[5] Eight bytes, used as a pair of unsigned long integers, where the first number is the numerator and the second is the denominator of a fraction. |
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TAG_SRATIONAL |
[10] Eight bytes, used as a pair of signed long integers, where the first number is the numerator and the second is the denominator of a fraction. |
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TAG_FLOAT |
[11] Four bytes used as a floating point number. |
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TAG_DOUBLE |
[12] Eight bytes used as a double-precision floating point number. |
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pCount |
Address of the variable to be updated with the count of data items. The count is based on the tagged data type. For example, if the count is 2 and the data type is TAG_DOUBLE, the required buffer size is 16. |
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pData |
Pointer to the buffer to be updated with the data. You can pass NULL if you want to use this function's return value to determine the required buffer size. |
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nBufferSize |
Size of the file in memory (in bytes). |
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pLoadOptions |
Pointer to optional extended load options. Pass NULL to use the default load options. |
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Returns
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>=0 |
Length of the tagged data, in bytes. |
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< 0 |
An error occurred. Refer to Return Codes. |
Comments
It is often convenient to call this function twice, as follows:
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1. |
Call the function the first time, specifying NULL in the pData parameter, and using the return value to determine the required size of the buffer. |
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2. |
Allocate the buffer. |
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3. |
Call the function the second time, passing a pointer to your buffer in the pData parameter. |
For general information about TIFF tags, refer to Implementing TIFF Comments and Tags.
Required DLLs and Libraries
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For a listing of the exact DLLs and Libraries needed, based on the toolkit version, refer to Files To Be Included With Your Application. |
Platforms
Win32, x64, Linux.
See Also
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Functions: |
L_SetTag, L_GetTag, L_ReadFileTag, L_DeleteTag, L_ReadFileTags |
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Topics: |
Example
This example specifies a tag for recording the position of a company logo on an image. It sets the tag with L_SetTag; saves the image as a TIFF file in memory; then uses L_ReadFileTagMemory to read the tag from the file in memory.
L_INT ReadFileTagMemoryExample(pBITMAPHANDLE pBitmap)
{
L_INT nRet;
L_TCHAR msgbuf[80]; /* buffer for the message string */
L_UINT16 LogoPosition = 0x8001; /* my private tag */
L_UINT16 TagType = TAG_SSHORT; /* tagged data type */
L_UINT32 TagCount = 4; /* count of data items */
short TagData[] = {5, 5, 24, 37};
L_VOID * pTagData = &TagData; /* pointer to the buffer containing tagged data */
HGLOBAL hBuf; /* handle to the buffer for the file */
L_INT32 BufferSize; /* required size of the file buffer */
HGLOBAL hFileInMemory=NULL; /* memory handle for the file */
L_SIZE_T uMemSize; /* size of the file in memory */
L_UCHAR *pData; /* pointer to the file in memory */
/* Set the tag data to be saved */
nRet = L_SetTag(LogoPosition, TagType, TagCount, pTagData);
if(nRet != SUCCESS)
return nRet;
/* Save the image as a TIFF file in memory */
nRet = L_SaveBitmapMemory(&hFileInMemory, pBitmap, FILE_TIF, pBitmap->BitsPerPixel, 0, &uMemSize, NULL);
if(nRet != SUCCESS)
return nRet;
/* Get the pointer to the memory-resident file */
pData = (L_UCHAR *) GlobalLock (hFileInMemory);
/* Clear the variables so that we can validate the data */
TagType = 0;
TagCount = 0;
TagData[0] = 0;
TagData[1] = 0;
TagData[2] = 0;
TagData[3] = 0;
/* Get the required size of the buffer for the tagged data */
BufferSize = L_ReadFileTagMemory(pData, LogoPosition, &TagType, &TagCount, NULL, uMemSize, NULL);
/* Allocate and lock the buffer */
if ((TagType == TAG_SSHORT) && (BufferSize > 0))
{
hBuf = GlobalAlloc(GMEM_MOVEABLE, BufferSize);
pTagData = GlobalLock( hBuf );
}
else
{
GlobalUnlock (hFileInMemory);
GlobalFree (hFileInMemory);
return BufferSize;
}
/* Get the tagged data */
nRet = L_ReadFileTagMemory(pData, LogoPosition, &TagType, &TagCount, pTagData, uMemSize, NULL);
/* Display a message showing the data */
if ((TagType == TAG_SSHORT) && (TagCount == 4))
{
wsprintf(msgbuf, TEXT("X = %d\nY= %d\nWidth = %d\nHeight = %d"),
((short *)pTagData)[0],
((short *)pTagData)[1],
((short *)pTagData)[2],
((short *)pTagData)[3]);
MessageBox (NULL, msgbuf, TEXT("Logo Position"), MB_OK);
}
/* Free memory that we no longer need */
GlobalUnlock (hBuf);
GlobalFree(hBuf);
GlobalUnlock (hFileInMemory);
GlobalFree (hFileInMemory);
return SUCCESS;
}
