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/** \file
* \brief GIF - Graphics Interchange Format
*
* See Copyright Notice in im_lib.h
* $Id: im_format_gif.cpp,v 1.5 2009/08/23 23:57:51 scuri Exp $
*/
#include "im_format.h"
#include "im_format_all.h"
#include "im_util.h"
#include "im_counter.h"
#include "im_binfile.h"
#include <stdlib.h>
#include <string.h>
#include <setjmp.h>
static const int InterlacedOffset[4] = { 0, 4, 2, 1 }, /* The way Interlaced image should */
InterlacedJumps[4] = { 8, 8, 4, 2 }; /* be read - offsets and jumps... */
#define GIF_STAMP "GIF" /* First chars in file - GIF stamp. */
#define GIF_VERSION "89a" /* First chars in file - GIF stamp. */
#define GIF_LZ_BITS 12
#define GIF_LZ_MAX_CODE 4095 /* Biggest code possible in 12 bits. */
#define GIF_FLUSH_OUTPUT 4096 /* Impossible code, to signal flush. */
#define GIF_FIRST_CODE 4097 /* Impossible code, to signal first. */
#define GIF_NO_SUCH_CODE 4098 /* Impossible code, to signal empty. */
#define GIF_HT_KEY_MASK 0x1FFF /* 13bits keys */
#define GIF_HT_KEY_NUM_BITS 13 /* 13bits keys */
#define GIF_HT_MAX_KEY 8191 /* 13bits - 1, maximal code possible */
#define GIF_HT_SIZE 8192 /* 12bits = 4096 or twice as big! */
/* GIF89 extension function codes */
#define COMMENT_EXT_FUNC_CODE 0xFE /* comment */
#define GRAPHICS_EXT_FUNC_CODE 0xF9 /* graphics control */
#define PLAINTEXT_EXT_FUNC_CODE 0x01 /* plaintext */
#define APPLICATION_EXT_FUNC_CODE 0xFF /* application block */
/* The 32 bits of the integer are divided into two parts for the key & code: */
/* 1. The code is 12 bits as our compression algorithm is limited to 12bits */
/* 2. The key is 12 bits Prefix code + 8 bit new char or 20 bits. */
#define GIF_HT_GET_KEY(l) (l >> 12)
#define GIF_HT_GET_CODE(l) (l & 0x0FFF)
#define GIF_HT_PUT_KEY(l) (l << 12)
#define GIF_HT_PUT_CODE(l) (l & 0x0FFF)
struct iGIFData
{
unsigned char global_colors[256 * 3]; /* global color table if any */
int global_num_colors, /* global color table number of colors */
offset, /* image offset */
step, /* interlaced step */
interlaced, /* image is interlaced or not */
screen_width,
screen_height,
start_offset[512], /* offset of first block */
ClearCode, /* The CLEAR LZ code. */
BitsPerPixel, /* Bits per pixel (Codes uses at list this + 1). */
EOFCode, /* The EOF LZ code. */
RunningCode, /* The next code algorithm can generate. */
RunningBits, /* The number of bits required to represent RunningCode. */
MaxCode1, /* 1 bigger than max. possible code, in RunningBits bits. */
LastCode, /* The code before the current code. */
CrntCode, /* Current algorithm code. */
StackPtr, /* For character stack (see below). */
CrntShiftState; /* Number of bits in CrntShiftDWord. */
unsigned char Buf[256]; /* Compressed input is buffered here. */
unsigned int CrntShiftDWord; /* For bytes decomposition into codes. */
unsigned char Stack[GIF_LZ_MAX_CODE]; /* Decoded pixels are stacked here. */
unsigned char Suffix[GIF_LZ_MAX_CODE+1]; /* So we can trace the codes. */
unsigned int Prefix[GIF_LZ_MAX_CODE+1];
unsigned int HTable[GIF_HT_SIZE]; /* hash table for the compression only, when using LZW */
};
/******************************************************************************
* Routine to generate an HKey for the hashtable out of the given unique key. *
* The given Key is assumed to be 20 bits as follows: lower 8 bits are the *
* new postfix character, while the upper 12 bits are the prefix code. *
* Because the average hit ratio is only 2 (2 hash references per entry), *
* evaluating more complex keys (such as twin prime keys) does not worth it! *
******************************************************************************/
static int iGIFHashKeyItem(unsigned int Item)
{
return ((Item >> 12) ^ Item) & GIF_HT_KEY_MASK;
}
/******************************************************************************
* Routine to insert a new Item into the HashTable. The data is assumed to be *
* new one. *
******************************************************************************/
static void iGIFInsertHashTable(unsigned int *HTable, unsigned int Key, int Code)
{
int HKey = iGIFHashKeyItem(Key);
while (GIF_HT_GET_KEY(HTable[HKey]) != 0xFFFFFL)
{
HKey = (HKey + 1) & GIF_HT_KEY_MASK;
}
HTable[HKey] = GIF_HT_PUT_KEY(Key) | GIF_HT_PUT_CODE(Code);
}
/******************************************************************************
* Routine to test if given Key exists in HashTable and if so returns its code *
* Returns the Code if key was found, -1 if not. *
******************************************************************************/
static int iGIFExistsHashTable(unsigned int *HTable, unsigned int Key)
{
int HKey = iGIFHashKeyItem(Key);
unsigned int HTKey;
while ((HTKey = GIF_HT_GET_KEY(HTable[HKey])) != 0xFFFFFL)
{
if (Key == HTKey)
return GIF_HT_GET_CODE(HTable[HKey]);
HKey = (HKey + 1) & GIF_HT_KEY_MASK;
}
return -1;
}
/******************************************************************************
* This routines buffers the given characters until 255 characters are ready *
* to be output. If Code is equal to -1 the buffer is flushed (EOF). *
* The buffer is Dumped with first byte as its size, as GIF format requires. *
******************************************************************************/
static int iGIFBufferedOutput(imBinFile* handle, unsigned char *Buf, int c)
{
if (c == GIF_FLUSH_OUTPUT)
{
/* Flush everything out. */
if (Buf[0] != 0)
imBinFileWrite(handle, Buf, Buf[0] + 1, 1);
/* Mark end of compressed data, by an empty block (see GIF doc): */
Buf[0] = 0;
imBinFileWrite(handle, Buf, 1, 1);
}
else
{
if (Buf[0] == 255)
{
/* Dump out this buffer - it is full: */
imBinFileWrite(handle, Buf, Buf[0] + 1, 1);
Buf[0] = 0;
}
Buf[++Buf[0]] = (unsigned char)c;
}
if (imBinFileError(handle))
return IM_ERR_ACCESS;
return IM_ERR_NONE;
}
static int iGIFWriteNetscapeApplication(imBinFile* handle, short iterations)
{
/* record type byte */
imBinFileWrite(handle, (void*)"!", 1, 1);
/* block label */
imBinFileWrite(handle, (void*)"\xFF", 1, 1);
/* block size */
imBinFileWrite(handle, (void*)"\x0B", 1, 1);
/* application identifier + athentication code */
imBinFileWrite(handle, (void*)"NETSCAPE2.0", 11, 1);
/* sub block size */
imBinFileWrite(handle, (void*)"\x3", 1, 1);
/* ??? */
imBinFileWrite(handle, (void*)"\x1", 1, 1);
/* iterations */
imBinFileWrite(handle, &iterations, 1, 2);
/* block terminator */
imBinFileWrite(handle, (void*)"\0", 1, 1);
if (imBinFileError(handle))
return IM_ERR_ACCESS;
return IM_ERR_NONE;
}
/******************************************************************************
* The LZ compression output routine: *
* This routine is responsable for the compression of the bit stream into *
* 8 bits (bytes) packets. *
******************************************************************************/
static int iGIFCompressOutput(iGIFData* igif, imBinFile* handle, int Code)
{
int error = IM_ERR_NONE;
if (Code == GIF_FLUSH_OUTPUT)
{
while (igif->CrntShiftState > 0)
{
/* Get Rid of what is left in DWord, and flush it. */
error = iGIFBufferedOutput(handle, igif->Buf, igif->CrntShiftDWord & 0xff);
igif->CrntShiftDWord >>= 8;
igif->CrntShiftState -= 8;
}
igif->CrntShiftState = 0; /* For next time. */
error = iGIFBufferedOutput(handle, igif->Buf, GIF_FLUSH_OUTPUT);
}
else
{
igif->CrntShiftDWord |= ((int) Code) << igif->CrntShiftState;
igif->CrntShiftState += igif->RunningBits;
while (igif->CrntShiftState >= 8)
{
/* Dump out full bytes: */
error = iGIFBufferedOutput(handle, igif->Buf, igif->CrntShiftDWord & 0xff);
igif->CrntShiftDWord >>= 8;
igif->CrntShiftState -= 8;
}
}
/* If code cannt fit into RunningBits bits, must raise its size. Note */
/* however that codes above 4095 are used for special signaling. */
if (igif->RunningCode >= igif->MaxCode1 && Code <= GIF_LZ_MAX_CODE)
{
igif->MaxCode1 = 1 << ++igif->RunningBits;
}
return error;
}
/******************************************************************************
* The LZ compression routine: *
* This version compress the given buffer Line of length LineLen. *
* This routine can be called few times (one per scan line, for example), in *
* order the complete the whole image. *
******************************************************************************/
static int iGIFCompressLine(iGIFData* igif, imBinFile* handle, unsigned char *Line, int LineLen)
{
int i = 0, CrntCode, NewCode;
unsigned int NewKey;
unsigned char Pixel;
if (igif->CrntCode == GIF_FIRST_CODE) /* Its first time! */
CrntCode = Line[i++];
else
CrntCode = igif->CrntCode; /* Get last code in compression. */
while (i < LineLen)
{ /* Decode LineLen items. */
Pixel = Line[i++]; /* Get next pixel from stream. */
/* Form a new unique key to search hash table for the code combines */
/* CrntCode as Prefix string with Pixel as postfix char. */
NewKey = (((unsigned int) CrntCode) << 8) + Pixel;
if ((NewCode = iGIFExistsHashTable(igif->HTable, NewKey)) >= 0)
{
/* This Key is already there, or the string is old one, so */
/* simple take new code as our CrntCode: */
CrntCode = NewCode;
}
else
{
/* Put it in hash table, output the prefix code, and make our */
/* CrntCode equal to Pixel. */
if (iGIFCompressOutput(igif, handle, CrntCode) != IM_ERR_NONE)
return IM_ERR_ACCESS;
CrntCode = Pixel;
/* If however the HashTable if full, we send a clear first and */
/* Clear the hash table. */
if (igif->RunningCode >= GIF_LZ_MAX_CODE)
{
/* Time to do some clearance: */
if (iGIFCompressOutput(igif, handle, igif->ClearCode) != IM_ERR_NONE)
return IM_ERR_ACCESS;
igif->RunningCode = igif->EOFCode + 1;
igif->RunningBits = igif->BitsPerPixel + 1;
igif->MaxCode1 = 1 << igif->RunningBits;
memset(igif->HTable, 0xFF, GIF_HT_SIZE * sizeof(int));
}
else
{
/* Put this unique key with its relative Code in hash table: */
iGIFInsertHashTable(igif->HTable, NewKey, igif->RunningCode++);
}
}
}
/* Preserve the current state of the compression algorithm: */
igif->CrntCode = CrntCode;
return IM_ERR_NONE;
}
/******************************************************************************
* This routines read one gif data block at a time and buffers it internally *
* so that the decompression routine could access it. *
* The routine returns the next byte from its internal buffer (or read next *
* block in if buffer empty). *
******************************************************************************/
static int iGIFBufferedInput(imBinFile* handle, unsigned char *Buf, unsigned char *NextByte)
{
if (Buf[0] == 0)
{
/* Needs to read the next buffer - this one is empty: */
imBinFileRead(handle, Buf, 1, 1);
imBinFileRead(handle, &Buf[1], Buf[0], 1);
if (imBinFileError(handle))
return IM_ERR_ACCESS;
*NextByte = Buf[1];
Buf[1] = 2; /* We use now the second place as last char read! */
Buf[0]--;
}
else
{
*NextByte = Buf[Buf[1]++];
Buf[0]--;
}
return IM_ERR_NONE;
}
/******************************************************************************
* The LZ decompression input routine: *
* This routine is responsable for the decompression of the bit stream from *
* 8 bits (bytes) packets, into the real codes. *
******************************************************************************/
static int iGIFDecompressInput(iGIFData* igif, imBinFile* handle, int *Code)
{
unsigned char NextByte;
static unsigned int CodeMasks[] =
{
0x0000, 0x0001, 0x0003, 0x0007,
0x000f, 0x001f, 0x003f, 0x007f,
0x00ff, 0x01ff, 0x03ff, 0x07ff,
0x0fff
};
while (igif->CrntShiftState < igif->RunningBits)
{
/* Needs to get more bytes from input stream for next code: */
if (iGIFBufferedInput(handle, igif->Buf, &NextByte) != IM_ERR_NONE)
return IM_ERR_ACCESS;
igif->CrntShiftDWord |= ((unsigned int) NextByte) << igif->CrntShiftState;
igif->CrntShiftState += 8;
}
*Code = igif->CrntShiftDWord & CodeMasks[igif->RunningBits];
igif->CrntShiftDWord >>= igif->RunningBits;
igif->CrntShiftState -= igif->RunningBits;
/* If code cannt fit into RunningBits bits, must raise its size. Note */
/* however that codes above 4095 are used for special signaling. */
if (++(igif->RunningCode) > igif->MaxCode1 && igif->RunningBits < GIF_LZ_BITS)
{
igif->MaxCode1 <<= 1;
igif->RunningBits++;
}
return IM_ERR_NONE;
}
/******************************************************************************
* Routine to trace the Prefixes linked list until we get a prefix which is *
* not code, but a pixel value (less than ClearCode). Returns that pixel value.*
* If image is defective, we might loop here forever, so we limit the loops to *
* the maximum possible if image O.k. - LZ_MAX_CODE times. *
******************************************************************************/
static int iGIFGetPrefixChar(unsigned int *Prefix, int Code, int ClearCode)
{
int i = 0;
while (Code > ClearCode && i++ <= GIF_LZ_MAX_CODE)
Code = Prefix[Code];
return Code;
}
static int iGIFDecompressLine(iGIFData* igif, imBinFile* handle, unsigned char *Line, int LineLen)
{
int i = 0, j, CrntCode, EOFCode, ClearCode, CrntPrefix, LastCode, StackPtr;
unsigned char *Stack, *Suffix;
unsigned int *Prefix;
StackPtr = igif->StackPtr;
Prefix = igif->Prefix;
Suffix = igif->Suffix;
Stack = igif->Stack;
EOFCode = igif->EOFCode;
ClearCode = igif->ClearCode;
LastCode = igif->LastCode;
if (StackPtr != 0)
{
/* Let pop the stack off before continueing to read the gif file: */
while (StackPtr != 0 && i < LineLen)
Line[i++] = Stack[--StackPtr];
}
while (i < LineLen)
{
/* Decode LineLen items. */
if (iGIFDecompressInput(igif, handle, &CrntCode))
return IM_ERR_ACCESS;
if (CrntCode == EOFCode)
{
/* Note however that usually we will not be here as we will stop */
/* decoding as soon as we got all the pixel, or EOF code will */
/* not be read at all, and DGifGetLine/Pixel clean everything. */
if (i != LineLen - 1)
return IM_ERR_ACCESS;
i++;
}
else if (CrntCode == ClearCode)
{
/* We need to start over again: */
for (j = 0; j <= GIF_LZ_MAX_CODE; j++)
Prefix[j] = GIF_NO_SUCH_CODE;
igif->RunningCode = igif->EOFCode + 1;
igif->RunningBits = igif->BitsPerPixel + 1;
igif->MaxCode1 = 1 << igif->RunningBits;
LastCode = igif->LastCode = GIF_NO_SUCH_CODE;
}
else
{
/* Its regular code - if in pixel range simply add it to output */
/* stream, otherwise trace to codes linked list until the prefix */
/* is in pixel range: */
if (CrntCode < ClearCode)
{
/* This is simple - its pixel scalar, so add it to output: */
Line[i++] = (unsigned char)CrntCode;
}
else
{
/* Its a code to needed to be traced: trace the linked list */
/* until the prefix is a pixel, while pushing the suffix */
/* pixels on our stack. If we done, pop the stack in reverse */
/* (thats what stack is good for!) order to output. */
if (Prefix[CrntCode] == GIF_NO_SUCH_CODE)
{
/* Only allowed if CrntCode is exactly the running code: */
/* In that case CrntCode = XXXCode, CrntCode or the */
/* prefix code is last code and the suffix char is */
/* exactly the prefix of last code! */
if (CrntCode == igif->RunningCode - 2)
{
CrntPrefix = LastCode;
Suffix[igif->RunningCode - 2] =
Stack[StackPtr++] = (unsigned char)iGIFGetPrefixChar(Prefix, LastCode, ClearCode);
}
else
return IM_ERR_ACCESS;
}
else
CrntPrefix = CrntCode;
/* Now (if image is O.K.) we should not get an NO_SUCH_CODE */
/* During the trace. As we might loop forever, in case of */
/* defective image, we count the number of loops we trace */
/* and stop if we got LZ_MAX_CODE. obviously we can not */
/* loop more than that. */
j = 0;
while (j++ <= GIF_LZ_MAX_CODE && CrntPrefix > ClearCode && CrntPrefix <= GIF_LZ_MAX_CODE)
{
Stack[StackPtr++] = Suffix[CrntPrefix];
CrntPrefix = Prefix[CrntPrefix];
}
if (j >= GIF_LZ_MAX_CODE || CrntPrefix > GIF_LZ_MAX_CODE)
return IM_ERR_ACCESS;
/* Push the last character on stack: */
Stack[StackPtr++] = (unsigned char)CrntPrefix;
/* Now lets pop all the stack into output: */
while (StackPtr != 0 && i < LineLen)
Line[i++] = Stack[--StackPtr];
}
if (LastCode != GIF_NO_SUCH_CODE)
{
Prefix[igif->RunningCode - 2] = LastCode;
if (CrntCode == igif->RunningCode - 2)
{
/* Only allowed if CrntCode is exactly the running code: */
/* In that case CrntCode = XXXCode, CrntCode or the */
/* prefix code is last code and the suffix char is */
/* exactly the prefix of last code! */
Suffix[igif->RunningCode - 2] = (unsigned char)iGIFGetPrefixChar(Prefix, LastCode, ClearCode);
}
else
{
Suffix[igif->RunningCode - 2] = (unsigned char)iGIFGetPrefixChar(Prefix, CrntCode, ClearCode);
}
}
LastCode = CrntCode;
}
}
igif->LastCode = LastCode;
igif->StackPtr = StackPtr;
return IM_ERR_NONE;
}
/*******************************************
* Skip sub-blocks until terminator found *
********************************************/
static int iGIFSkipSubBlocks(imBinFile* handle)
{
unsigned char byte_value;
do
{
/* reads the number of bytes of the block or the terminator */
imBinFileRead(handle, &byte_value, 1, 1);
if (imBinFileError(handle))
return IM_ERR_ACCESS;
/* jump number of bytes, ignores the contents */
if (byte_value) imBinFileSeekOffset(handle, byte_value);
}while (byte_value != 0);
return IM_ERR_NONE;
}
static int iGIFSkipImage(imBinFile* handle, int *image_count, int *terminate)
{
int found_image = 0;
unsigned char byte_value;
*terminate = 0;
do
{
/* reads the record type byte */
byte_value = 0;
imBinFileRead(handle, &byte_value, 1, 1);
switch (byte_value)
{
case ',': /* image description */
/* jump 8 bytes */
imBinFileSeekOffset(handle, 8);
/* reads the image information byte */
imBinFileRead(handle, &byte_value, 1, 1);
if (byte_value & 0x80)
{
int bpp = (byte_value & 0x07) + 1;
int num_colors = 1 << bpp;
/* skip the color table */
imBinFileSeekOffset(handle, 3*num_colors);
}
/* jump 1 byte (LZW Min Code) */
imBinFileSeekOffset(handle, 1);
if (imBinFileError(handle))
return IM_ERR_ACCESS;
/* skip sub blocks */
if (iGIFSkipSubBlocks(handle) != IM_ERR_NONE)
return IM_ERR_ACCESS;
/* one more image */
found_image = 1;
(*image_count)++;
break;
case '!': /* extension */
/* jump 1 byte (label) */
imBinFileSeekOffset(handle, 1);
/* skip sub blocks */
if (iGIFSkipSubBlocks(handle) != IM_ERR_NONE)
return IM_ERR_ACCESS;
break;
case ';': /* terminate */
default: /* probably EOF */
*terminate = 1;
break;
}
} while (!(*terminate) && (!found_image));
if (!found_image && *image_count == 0)
return IM_ERR_FORMAT;
if (imBinFileError(handle))
return IM_ERR_ACCESS;
return IM_ERR_NONE;
}
static void iGIFReadGraphicsControl(imBinFile* handle, imAttribTable* attrib_table)
{
unsigned char byte_value;
unsigned short word_value;
/* jump 1 bytes (size) */
imBinFileSeekOffset(handle, 1);
/* reads the packed descrition */
imBinFileRead(handle, &byte_value, 1, 1);
if (imBinFileError(handle))
return;
/* user input */
if (byte_value & 0x02)
attrib_table->Set("UserInput", IM_BYTE, 1, "\x1");
/* disposal */
if (byte_value & 0x1C)
{
char* disposal;
int disp = (byte_value & 0x1C) >> 2;
switch (disp)
{
default:
disposal = "UNDEF";
break;
case 0x01:
disposal = "LEAVE";
break;
case 0x02:
disposal = "RBACK";
break;
case 0x04:
disposal = "RPREV";
break;
}
attrib_table->Set("Disposal", IM_BYTE, -1, disposal);
}
/* delay time */
imBinFileRead(handle, &word_value, 1, 2);
if (word_value)
attrib_table->Set("Delay", IM_USHORT, 1, &word_value);
/* transparency index */
if (byte_value & 0x01)
{
imBinFileRead(handle, &byte_value, 1, 1);
attrib_table->Set("TransparencyIndex", IM_BYTE, 1, &byte_value);
}
else
imBinFileSeekOffset(handle, 1);
/* jump 1 bytes (terminator) */
imBinFileSeekOffset(handle, 1);
}
static int iGIFReadApplication(imBinFile* handle, imAttribTable* attrib_table)
{
char identifier[9];
/* jump 1 byte (size) */
imBinFileSeekOffset(handle, 1);
/* reads the application identifier */
imBinFileRead(handle, identifier, 8, 1);
if (identifier[7] != 0)
identifier[8] = 0;
if (imBinFileError(handle))
return IM_ERR_ACCESS;
if (imStrEqual(identifier, "NETSCAPE"))
{
unsigned char authentication[4];
/* reads the application authentication code */
imBinFileRead(handle, authentication, 3, 1);
authentication[3] = 0;
if (imBinFileError(handle))
return IM_ERR_ACCESS;
if (strcmp((char*)authentication, "2.0") == 0)
{
unsigned short word_value;
/* jump 2 bytes (size + 1) */
imBinFileSeekOffset(handle, 2);
/* reads the number of iterations */
imBinFileRead(handle, &word_value, 1, 2);
attrib_table->Set("Iterations", IM_USHORT, 1, &word_value);
/* jump 1 byte (terminator) */
imBinFileSeekOffset(handle, 1);
if (imBinFileError(handle))
return IM_ERR_ACCESS;
}
else
{
/* Skip remaining blocks */
if (iGIFSkipSubBlocks(handle) != IM_ERR_NONE)
return IM_ERR_ACCESS;
}
}
else
{
/* jump 3 bytes (authentication code) */
imBinFileSeekOffset(handle, 3);
/* Skip remaining blocks */
if (iGIFSkipSubBlocks(handle) != IM_ERR_NONE)
return IM_ERR_ACCESS;
}
return IM_ERR_NONE;
}
static int iGIFReadComment(imBinFile* handle, imAttribTable* attrib_table)
{
unsigned char byte_value, buffer[255*100] = "", *buffer_ptr;
int size = 0;
buffer_ptr = &buffer[0];
do
{
/* reads the number of bytes of the block or the terminator */
imBinFileRead(handle, &byte_value, 1, 1);
if (imBinFileError(handle))
return IM_ERR_ACCESS;
/* reads data */
if (byte_value)
{
imBinFileRead(handle, buffer_ptr, byte_value, 1);
if (buffer_ptr[byte_value-1] == 0)
{
size += byte_value-1;
buffer_ptr += byte_value-1;
}
else
{
size += byte_value;
buffer_ptr += byte_value;
}
}
}while (byte_value != 0);
if (buffer[0] != 0)
attrib_table->Set("Description", IM_BYTE, size, buffer);
return IM_ERR_NONE;
}
static int iGIFReadExtension(imBinFile* handle, imAttribTable* attrib_table)
{
unsigned char byte_value;
/* read block label */
imBinFileRead(handle, &byte_value, 1, 1);
if (byte_value == 0xF9)
{
/* Graphics Control Extension */
iGIFReadGraphicsControl(handle, attrib_table);
}
else if (byte_value == 0xFE)
{
/* Comment Extension */
if (iGIFReadComment(handle, attrib_table) != IM_ERR_NONE)
return IM_ERR_ACCESS;
}
else if (byte_value == 0xFF)
{
/* Application Extension */
if (iGIFReadApplication(handle, attrib_table) != IM_ERR_NONE)
return IM_ERR_ACCESS;
}
else
{
/* skip sub blocks */
if (iGIFSkipSubBlocks(handle) != IM_ERR_NONE)
return IM_ERR_ACCESS;
}
if (imBinFileError(handle))
return IM_ERR_ACCESS;
return IM_ERR_NONE;
}
static int iGIFWriteComment(imBinFile* handle, unsigned char *buffer, int size)
{
unsigned char byte_value;
/* record type byte */
imBinFileWrite(handle, (void*)"!", 1, 1);
/* block label */
imBinFileWrite(handle, (void*)"\xFE", 1, 1);
while (size > 0)
{
if (size > 255)
byte_value = 255;
else
byte_value = (unsigned char)size;
/* sub block size */
imBinFileWrite(handle, &byte_value, 1, 1);
/* sub block data */
imBinFileWrite(handle, buffer, byte_value, 1);
buffer += byte_value;
size -= byte_value;
if (imBinFileError(handle))
return IM_ERR_ACCESS;
}
/* block terminator */
imBinFileWrite(handle, (void*)"\0", 1, 1);
return IM_ERR_NONE;
}
static int iGIFWriteGraphicsControl(imBinFile* handle, imAttribTable* attrib_table)
{
const void *attrib_user_input, *attrib_disposal, *attrib_delay, *attrib_transparency;
unsigned char byte_value;
attrib_user_input = attrib_table->Get("UserInput");
attrib_disposal = attrib_table->Get("Disposal");
attrib_delay = attrib_table->Get("Delay");
attrib_transparency = attrib_table->Get("TransparencyIndex");
/* Writes the Graphics Control Extension */
if (attrib_user_input || attrib_disposal || attrib_delay || attrib_transparency)
{
unsigned short word_value;
/* record type byte */
imBinFileWrite(handle, (void*)"!", 1, 1);
/* block label */
imBinFileWrite(handle, (void*)"\xF9", 1, 1);
/* block size */
imBinFileWrite(handle, (void*)"\x04", 1, 1);
byte_value = 0;
/* user input flag */
if (attrib_user_input && *(unsigned char*)attrib_user_input == 1)
byte_value |= 0x02;
/* transparency flag */
if (attrib_transparency)
byte_value |= 0x01;
/* disposal flag */
if (attrib_disposal)
{
int disp = 0;
if (imStrEqual((char*)attrib_disposal, "LEAVE"))
disp = 0x01;
else if (imStrEqual((char*)attrib_disposal, "RBACK"))
disp = 0x02;
else if (imStrEqual((char*)attrib_disposal, "RPREV"))
disp = 0x04;
disp = disp << 2;
byte_value |= disp;
}
/* packed */
imBinFileWrite(handle, &byte_value, 1, 1);
/* delay time */
if (attrib_delay)
word_value = *(unsigned short*)attrib_delay;
else
word_value = 0;
imBinFileWrite(handle, &word_value, 1, 2);
/* transparency index */
if (attrib_transparency)
{
byte_value = *(unsigned char*)attrib_transparency;
imBinFileWrite(handle, &byte_value, 1, 1);
}
else
imBinFileWrite(handle, (void*)"\0", 1, 1);
/* terminator */
imBinFileWrite(handle, (void*)"\0", 1, 1);
if (imBinFileError(handle))
return IM_ERR_ACCESS;
}
return IM_ERR_NONE;
}
static const char* iGIFCompTable[1] =
{
"LZW"
};
class imFileFormatGIF: public imFileFormatBase
{
imBinFile* handle;
iGIFData gif_data;
int GIFReadImageInfo();
int GIFWriteImageInfo();
public:
imFileFormatGIF(const imFormat* _iformat): imFileFormatBase(_iformat) {}
~imFileFormatGIF() {}
int Open(const char* file_name);
int New(const char* file_name);
void Close();
void* Handle(int index);
int ReadImageInfo(int index);
int ReadImageData(void* data);
int WriteImageInfo();
int WriteImageData(void* data);
};
class imFormatGIF: public imFormat
{
public:
imFormatGIF()
:imFormat("GIF",
"Graphics Interchange Format",
"*.gif;",
iGIFCompTable,
1,
1)
{}
~imFormatGIF() {}
imFileFormatBase* Create(void) const { return new imFileFormatGIF(this); }
int CanWrite(const char* compression, int color_mode, int data_type) const;
};
void imFormatRegisterGIF(void)
{
imFormatRegister(new imFormatGIF());
}
int imFileFormatGIF::Open(const char* file_name)
{
this->handle = imBinFileOpen(file_name);
if (this->handle == NULL)
return IM_ERR_OPEN;
imBinFileByteOrder(handle, IM_LITTLEENDIAN);
unsigned char sig[4];
if (!imBinFileRead(this->handle, sig, 3, 1))
{
imBinFileClose(handle);
return IM_ERR_ACCESS;
}
sig[3] = 0;
if (!imStrEqual((char*)sig, GIF_STAMP))
{
imBinFileClose(handle);
return IM_ERR_FORMAT;
}
/* ignore version */
imBinFileSeekOffset(handle, 3);
strcpy(this->compression, "LZW");
/* reads screen width and screen height */
imushort word_value;
imBinFileRead(handle, &word_value, 1, 2);
gif_data.screen_width = word_value;
imBinFileRead(handle, &word_value, 1, 2);
gif_data.screen_height = word_value;
/* reads color table information byte */
imbyte byte_value;
imBinFileRead(handle, &byte_value, 1, 1);
/* jump 2 bytes (bgcolor + aspect ratio) */
imBinFileSeekOffset(handle, 2);
/* global color table, if exists */
if (byte_value & 0x80)
{
int bpp = (byte_value & 0x07) + 1;
gif_data.global_num_colors = 1 << bpp;
/* reads the color palette */
imBinFileRead(handle, gif_data.global_colors, gif_data.global_num_colors * 3, 1);
}
if (imBinFileError(handle))
{
imBinFileClose(handle);
return IM_ERR_ACCESS;
}
/* count number of images */
int error, terminate;
this->image_count = 0;
do
{
// store each offset before counting images
gif_data.start_offset[this->image_count] = imBinFileTell(handle);
error = iGIFSkipImage(handle, &this->image_count, &terminate);
} while (!terminate && error == IM_ERR_NONE);
if (this->image_count == 0 || error != IM_ERR_NONE)
{
imBinFileClose(handle);
return error;
}
return IM_ERR_NONE;
}
int imFileFormatGIF::New(const char* file_name)
{
this->handle = imBinFileNew(file_name);
if (this->handle == NULL)
return IM_ERR_OPEN;
imBinFileByteOrder(handle, IM_LITTLEENDIAN);
/* writes the GIF STAMP and version - header */
imBinFileWrite(handle, (void*)GIF_STAMP, 3, 1); /* identifier */
imBinFileWrite(handle, (void*)GIF_VERSION, 3, 1); /* format version */
// File header will be written at the first image
/* tests if everything was ok */
if (imBinFileError(handle))
{
imBinFileClose(this->handle);
return IM_ERR_ACCESS;
}
strcpy(this->compression, "LZW");
return IM_ERR_NONE;
}
void imFileFormatGIF::Close()
{
if (this->is_new && !imBinFileError(this->handle))
imBinFileWrite(this->handle, (void*)";", 1, 1);
imBinFileClose(this->handle);
}
void* imFileFormatGIF::Handle(int index)
{
if (index == 0)
return (void*)this->handle;
else
return NULL;
}
int imFileFormatGIF::GIFReadImageInfo()
{
imbyte byte_value;
imushort word_value;
int int_value;
imAttribTable* attrib_table = AttribTable();
/* reads the image left position */
imBinFileRead(handle, &word_value, 1, 2);
if (word_value)
attrib_table->Set("XScreen", IM_USHORT, 1, &word_value);
/* reads the image top position */
imBinFileRead(handle, &word_value, 1, 2);
if (word_value)
attrib_table->Set("YScreen", IM_USHORT, 1, &word_value);
/* reads the image width */
imBinFileRead(handle, &word_value, 1, 2);
this->width = word_value;
/* reads the image height */
imBinFileRead(handle, &word_value, 1, 2);
this->height = word_value;
/* reads the image information byte */
imBinFileRead(handle, &byte_value, 1, 1);
gif_data.interlaced = (byte_value & 0x40)? 1: 0;
if (gif_data.interlaced)
{
int_value = 1;
attrib_table->Set("Interlaced", IM_INT, 1, &int_value);
}
this->file_color_mode = IM_MAP;
this->file_data_type = IM_BYTE;
/* local color table */
int num_colors;
unsigned char *colors;
unsigned char local_colors[256 * 3];
if (byte_value & 0x80)
{
int bpp = (byte_value & 0x07) + 1;
num_colors = 1 << bpp;
colors = local_colors;
/* reads the color table */
imBinFileRead(handle, local_colors, num_colors * 3, 1);
}
else if (gif_data.global_num_colors)
{
colors = gif_data.global_colors;
num_colors = gif_data.global_num_colors;
}
else
return IM_ERR_FORMAT;
long palette[256];
for (int c = 0; c < num_colors; c++)
{
palette[c] = imColorEncode(colors[c*3],
colors[c*3+1],
colors[c*3+2]);
}
imFileSetPalette(this, palette, num_colors);
if (imBinFileError(handle))
return IM_ERR_ACCESS;
this->file_color_mode |= IM_TOPDOWN;
return IM_ERR_NONE;
}
int imFileFormatGIF::GIFWriteImageInfo()
{
this->file_data_type = IM_BYTE;
this->file_color_mode = imColorModeSpace(this->user_color_mode);
this->file_color_mode |= IM_TOPDOWN;
imAttribTable* attrib_table = AttribTable();
const void* attrib = attrib_table->Get("Interlaced");
if (attrib)
gif_data.interlaced = *(int*)attrib;
imBinFileWrite(handle, (void*)",", 1, 1); /* Image separator character. */
imushort word_value;
attrib = attrib_table->Get("XScreen");
if (attrib)
word_value = *(unsigned short*)attrib;
else
word_value = 0;
imBinFileWrite(handle, &word_value, 1, 2); /* image left */
attrib = attrib_table->Get("YScreen");
if (attrib)
word_value = *(unsigned short*)attrib;
else
word_value = 0;
imBinFileWrite(handle, &word_value, 1, 2); /* image top */
word_value = (unsigned short)this->width;
imBinFileWrite(handle, &word_value, 1, 2); /* image width */
word_value = (unsigned short)this->height;
imBinFileWrite(handle, &word_value, 1, 2); /* image height */
/* local color table */
imbyte byte_value = 0x80;
if (gif_data.interlaced)
byte_value |= 0x40;
int num_colors = 256;
if (imColorModeSpace(this->user_color_mode) == IM_MAP)
{
int bpp = 0, c = this->palette_count-1;
while (c) {c = c >> 1;bpp++;}
byte_value |= (bpp-1);
num_colors = 1 << bpp;
}
else
byte_value |= 0x07; /* 8 bits = 256 grays */
imBinFileWrite(handle, &byte_value, 1, 1); /* image information */
/* write color table */
unsigned char local_colors[256*3];
for (int c = 0; c < num_colors; c++) // write all data, even not used colors
{
unsigned char r, g, b;
imColorDecode(&r, &g, &b, this->palette[c]);
local_colors[c*3] = r;
local_colors[c*3+1] = g;
local_colors[c*3+2] = b;
}
imBinFileWrite(handle, local_colors, num_colors*3, 1);
if (imBinFileError(handle))
return IM_ERR_ACCESS;
return IM_ERR_NONE;
}
int imFileFormatGIF::ReadImageInfo(int index)
{
imAttribTable* attrib_table = AttribTable();
/* must clear the attribute list, because it can have multiple images and
has many attributes that may exists only for specific images. */
attrib_table->RemoveAll();
imFileSetBaseAttributes(this);
if (gif_data.screen_width)
{
imushort word_value = (imushort)gif_data.screen_width;
attrib_table->Set("ScreenWidth", IM_USHORT, 1, &word_value);
}
if (gif_data.screen_height)
{
imushort word_value = (imushort)gif_data.screen_height;
attrib_table->Set("ScreenHeight", IM_USHORT, 1, &word_value);
}
/* jump to start offset of the image */
imBinFileSeekTo(handle, gif_data.start_offset[index]);
int found_image = 0;
imbyte byte_value;
int terminate = 0;
do
{
/* reads the record type byte */
byte_value = 0;
imBinFileRead(handle, &byte_value, 1, 1);
switch (byte_value)
{
case '!': /* 0x21 extension (appears before the image) */
if (iGIFReadExtension(handle, attrib_table) != IM_ERR_NONE)
return IM_ERR_ACCESS;
break;
case ',': /* 0x2C image description and color table */
if (GIFReadImageInfo() != IM_ERR_NONE)
return IM_ERR_ACCESS;
/* we will read only this image for now, so break the loop */
found_image = 1;
break;
case ';': /* if terminate before find image return error */
default:
terminate = 1;
break;
}
} while (!terminate && !found_image);
if (!found_image)
return IM_ERR_ACCESS;
if (imBinFileError(handle))
return IM_ERR_ACCESS;
/* reads the LZW Min code byte */
imBinFileRead(handle, &byte_value, 1, 1);
/* now initialize the compression control data */
gif_data.BitsPerPixel = byte_value;
gif_data.ClearCode = (1 << byte_value);
gif_data.EOFCode = gif_data.ClearCode + 1;
gif_data.RunningCode = gif_data.EOFCode + 1;
gif_data.RunningBits = byte_value + 1; /* Number of bits per code. */
gif_data.MaxCode1 = 1 << gif_data.RunningBits; /* Max. code + 1. */
gif_data.StackPtr = 0; /* No pixels on the pixel stack. */
gif_data.LastCode = GIF_NO_SUCH_CODE;
gif_data.CrntShiftState = 0; /* No information in CrntShiftDWord. */
gif_data.CrntShiftDWord = 0;
gif_data.Buf[0] = 0; /* Input Buffer empty. */
for (int i = 0; i <= GIF_LZ_MAX_CODE; i++)
gif_data.Prefix[i] = GIF_NO_SUCH_CODE;
gif_data.step = 0;
return IM_ERR_NONE;
}
int imFileFormatGIF::WriteImageInfo()
{
this->file_color_mode = imColorModeSpace(this->user_color_mode);
this->file_color_mode |= IM_TOPDOWN;
this->file_data_type = this->user_data_type;
imAttribTable* attrib_table = AttribTable();
const void* attrib_data;
int attrib_size;
if (this->image_count == 0)
{
imushort word_value;
// write file header
/* logical screen descriptor */
attrib_data = attrib_table->Get("ScreenWidth");
if (attrib_data) word_value = *(imushort*)attrib_data;
else word_value = (imushort)this->width;
imBinFileWrite(handle, &word_value, 1, 2);
attrib_data = attrib_table->Get("ScreenHeight");
if (attrib_data) word_value = *(imushort*)attrib_data;
else word_value = (imushort)this->height;
imBinFileWrite(handle, &word_value, 1, 2);
imbyte byte_value = 0; /* no global color table, 0 colors */
imBinFileWrite(handle, &byte_value, 1, 1); /* screen information */
imBinFileWrite(handle, (void*)"\0\0", 2, 1); /* (bgcolor + aspect ratio) */
}
attrib_data = attrib_table->Get("Description", NULL, &attrib_size);
if (attrib_data)
{
if (iGIFWriteComment(handle, (imbyte*)attrib_data, attrib_size) != IM_ERR_NONE)
return IM_ERR_ACCESS;
}
attrib_data = attrib_table->Get("Iterations");
if (attrib_data)
{
if (iGIFWriteNetscapeApplication(handle, *(short*)attrib_data) != IM_ERR_NONE)
return IM_ERR_ACCESS;
}
if (iGIFWriteGraphicsControl(handle, attrib_table) != IM_ERR_NONE)
return IM_ERR_ACCESS;
if (GIFWriteImageInfo() != IM_ERR_NONE)
return IM_ERR_ACCESS;
/* initializes the hash table */
memset(gif_data.HTable, 0xFF, GIF_HT_SIZE * sizeof(int));
/* initializes compression data */
imbyte byte_value = 8;
imBinFileWrite(handle, &byte_value, 1, 1); /* Write the Code size to file. */
gif_data.Buf[0] = 0; /* Nothing was output yet. */
gif_data.BitsPerPixel = 8;
gif_data.ClearCode = (1 << 8);
gif_data.EOFCode = gif_data.ClearCode + 1;
gif_data.RunningBits = 8 + 1; /* Number of bits per code. */
gif_data.MaxCode1 = 1 << gif_data.RunningBits; /* Max. code + 1. */
gif_data.CrntCode = GIF_FIRST_CODE; /* Signal that this is first one! */
gif_data.CrntShiftState = 0; /* No information in CrntShiftDWord. */
gif_data.CrntShiftDWord = 0;
gif_data.RunningCode = gif_data.EOFCode + 1;
if (imBinFileError(handle))
return IM_ERR_ACCESS;
gif_data.step = 0; /* interlaced step */
return iGIFCompressOutput(&gif_data, handle, gif_data.ClearCode);
}
int imFileFormatGIF::ReadImageData(void* data)
{
imCounterTotal(this->counter, this->height, "Reading GIF...");
int row = 0, error;
for (int i = 0; i < this->height; i++)
{
error = iGIFDecompressLine(&gif_data, handle, (imbyte*)this->line_buffer, this->width);
if (error != IM_ERR_NONE)
return IM_ERR_ACCESS;
imFileLineBufferRead(this, data, row, 0);
if (!imCounterInc(this->counter))
return IM_ERR_COUNTER;
if (gif_data.interlaced)
{
row += InterlacedJumps[gif_data.step];
if (row > this->height-1)
{
gif_data.step++;
row = InterlacedOffset[gif_data.step];
}
}
else
row++;
}
/* Skip remaining empty blocks of the image data */
if (iGIFSkipSubBlocks(handle) != IM_ERR_NONE)
return IM_ERR_ACCESS;
return IM_ERR_NONE;
}
int imFileFormatGIF::WriteImageData(void* data)
{
imCounterTotal(this->counter, this->height, "Writing GIF...");
int row = 0, error;
for (int i = 0; i < this->height; i++)
{
imFileLineBufferWrite(this, data, row, 0);
error = iGIFCompressLine(&gif_data, handle, (imbyte*)this->line_buffer, this->width);
if (error != IM_ERR_NONE)
return IM_ERR_ACCESS;
if (!imCounterInc(this->counter))
return IM_ERR_COUNTER;
if (gif_data.interlaced)
{
row += InterlacedJumps[gif_data.step];
if (row > this->height-1)
{
gif_data.step++;
row = InterlacedOffset[gif_data.step];
}
}
else
row++;
}
/* writes the end picture code */
iGIFCompressOutput(&gif_data, handle, gif_data.CrntCode);
iGIFCompressOutput(&gif_data, handle, gif_data.EOFCode);
iGIFCompressOutput(&gif_data, handle, GIF_FLUSH_OUTPUT);
if (imBinFileError(handle))
return IM_ERR_ACCESS;
this->image_count++;
return IM_ERR_NONE;
}
int imFormatGIF::CanWrite(const char* compression, int color_mode, int data_type) const
{
int color_space = imColorModeSpace(color_mode);
if (color_space != IM_MAP && color_space != IM_GRAY && color_space != IM_BINARY)
return IM_ERR_DATA;
if (data_type != IM_BYTE)
return IM_ERR_DATA;
if (!compression || compression[0] == 0)
return IM_ERR_NONE;
if (!imStrEqual(compression, "LZW"))
return IM_ERR_COMPRESS;
return IM_ERR_NONE;
}
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