turbojpeg.h - platform/external/libjpeg-turbo - Gitiles

 /* Copyright (C)2004 Landmark Graphics Corporation
  * Copyright (C)2005, 2006 Sun Microsystems, Inc.
  * Copyright (C)2009-2011 D. R. Commander
  *
  * This library is free software and may be redistributed and/or modified under
  * the terms of the wxWindows Library License, Version 3.1 or (at your option)
  * any later version.  The full license is in the LICENSE.txt file included
  * with this distribution.
  *
  * This library is distributed in the hope that it will be useful,
  * but WITHOUT ANY WARRANTY; without even the implied warranty of
  * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
  * wxWindows Library License for more details.
  */

 #if (defined(_MSC_VER) || defined(__CYGWIN__) || defined(__MINGW32__)) && defined(_WIN32) && defined(DLLDEFINE)
 #define DLLEXPORT __declspec(dllexport)
 #else
 #define DLLEXPORT
 #endif

 #define DLLCALL

 /* Subsampling */
 #define NUMSUBOPT 4

 enum {TJ_444=0, TJ_422, TJ_420, TJ_GRAYSCALE};
 #define TJ_411 TJ_420  /* for backward compatibility with VirtualGL <= 2.1.x,
                           TurboVNC <= 0.6, and TurboJPEG/IPP */

 /* Flags */
 #define TJ_BGR             1
   /* The components of each pixel in the source/destination bitmap are stored
      in B,G,R order, not R,G,B */
 #define TJ_BOTTOMUP        2
   /* The source/destination bitmap is stored in bottom-up (Windows, OpenGL)
      order, not top-down (X11) order */
 #define TJ_FORCEMMX        8
   /* Turn off CPU auto-detection and force TurboJPEG to use MMX code
      (IPP and 32-bit libjpeg-turbo versions only) */
 #define TJ_FORCESSE       16
   /* Turn off CPU auto-detection and force TurboJPEG to use SSE code
      (32-bit IPP and 32-bit libjpeg-turbo versions only) */
 #define TJ_FORCESSE2      32
   /* Turn off CPU auto-detection and force TurboJPEG to use SSE2 code
      (32-bit IPP and 32-bit libjpeg-turbo versions only) */
 #define TJ_ALPHAFIRST     64
   /* If the source/destination bitmap is 32 bpp, assume that each pixel is
      ARGB/XRGB (or ABGR/XBGR if TJ_BGR is also specified) */
 #define TJ_FORCESSE3     128
   /* Turn off CPU auto-detection and force TurboJPEG to use SSE3 code
      (64-bit IPP version only) */
 #define TJ_FASTUPSAMPLE  256
   /* Use fast, inaccurate 4:2:2 and 4:2:0 YUV upsampling routines
      (libjpeg and libjpeg-turbo versions only) */
 #define TJ_YUV           512
   /* If passed to tjCompress(), this causes TurboJPEG to use the accelerated
      color conversion routines in the underlying codec to produce a planar
      YUV image that is suitable for X Video.  Specifically, if the chrominance
      components are subsampled along the horizontal dimension, then the width
      of the luminance plane is padded to 2 in the output image (same goes for
      the height of the luminance plane, if the chrominance components are
      subsampled along the vertical dimension.)  Also, each line of each plane
      in the output image is padded to 4 bytes.  Although this will work with
      any subsampling option, it is really only useful in combination with
      TJ_420, which produces an image compatible with the I420 (AKA "YUV420P")
      format.

      If passed to tjDecompress(), this tells TurboJPEG to perform JPEG
      decompression but to leave out the color conversion step, so a planar YUV
      image is generated instead of an RGB image.  The padding of the planes in
      this image is the same as in the above case.  Note that, if the width or
      height of the output image is not a multiple of 8 (or a multiple of 16
      along any dimension in which chrominance subsampling is used), then an
      intermediate buffer copy will be performed within TurboJPEG.
   */

 typedef void* tjhandle;

 #define TJPAD(p) (((p)+3)&(~3))
 #ifndef max
  #define max(a,b) ((a)>(b)?(a):(b))
 #endif

 #ifdef __cplusplus
 extern "C" {
 #endif

 /* API follows */


 /*
   tjhandle tjInitCompress(void)

   Creates a new JPEG compressor instance, allocates memory for the structures,
   and returns a handle to the instance.  Most applications will only
   need to call this once at the beginning of the program or once for each
   concurrent thread.  Don't try to create a new instance every time you
   compress an image, because this will cause performance to suffer.

   RETURNS: NULL on error
 */
 DLLEXPORT tjhandle DLLCALL tjInitCompress(void);


 /*
   int tjCompress(tjhandle j,
      unsigned char *srcbuf, int width, int pitch, int height, int pixelsize,
      unsigned char *dstbuf, unsigned long *size,
      int jpegsubsamp, int jpegqual, int flags)

   [INPUT] j = instance handle previously returned from a call to
      tjInitCompress()
   [INPUT] srcbuf = pointer to user-allocated image buffer containing RGB or
      grayscale pixels to be compressed
   [INPUT] width =  width (in pixels) of the source image
   [INPUT] pitch = bytes per line of the source image (width*pixelsize if the
      bitmap is unpadded, else TJPAD(width*pixelsize) if each line of the bitmap
      is padded to the nearest 32-bit boundary, such as is the case for Windows
      bitmaps.  You can also be clever and use this parameter to skip lines,
      etc.  Setting this parameter to 0 is the equivalent of setting it to
      width*pixelsize.
   [INPUT] height = height (in pixels) of the source image
   [INPUT] pixelsize = size (in bytes) of each pixel in the source image
      RGBX/BGRX/XRGB/XBGR: 4, RGB/BGR: 3, Grayscale: 1
   [INPUT] dstbuf = pointer to user-allocated image buffer which will receive
      the JPEG image.  Use the TJBUFSIZE(width, height) function to determine
      the appropriate size for this buffer based on the image width and height.
   [OUTPUT] size = pointer to unsigned long which receives the size (in bytes)
      of the compressed image
   [INPUT] jpegsubsamp = Specifies either 4:2:0, 4:2:2, or 4:4:4 subsampling.
      When the image is converted from the RGB to YCbCr colorspace as part of
      the JPEG compression process, every other Cb and Cr (chrominance) pixel
      can be discarded to produce a smaller image with little perceptible loss
      of image clarity (the human eye is more sensitive to small changes in
      brightness than small changes in color.)

      TJ_420: 4:2:0 subsampling.  Discards every other Cb, Cr pixel in both
         horizontal and vertical directions
      TJ_422: 4:2:2 subsampling.  Discards every other Cb, Cr pixel only in
         the horizontal direction
      TJ_444: no subsampling
      TJ_GRAYSCALE: Generate grayscale JPEG image

   [INPUT] jpegqual = JPEG quality (an integer between 0 and 100 inclusive)
   [INPUT] flags = the bitwise OR of one or more of the flags described in the
      "Flags" section above

   RETURNS: 0 on success, -1 on error
 */
 DLLEXPORT int DLLCALL tjCompress(tjhandle j,
 	unsigned char *srcbuf, int width, int pitch, int height, int pixelsize,
 	unsigned char *dstbuf, unsigned long *size,
 	int jpegsubsamp, int jpegqual, int flags);


 /*
   unsigned long TJBUFSIZE(int width, int height)

   Convenience function which returns the maximum size of the buffer required to
   hold a JPEG image with the given width and height

   RETURNS: -1 if arguments are out of bounds
 */
 DLLEXPORT unsigned long DLLCALL TJBUFSIZE(int width, int height);


 /*
   unsigned long TJBUFSIZEYUV(int width, int height, int subsamp)

   Convenience function which returns the size of the buffer required to
   hold a YUV planar image with the given width, height, and level of
   chrominance subsampling

   RETURNS: -1 if arguments are out of bounds
 */
 DLLEXPORT unsigned long DLLCALL TJBUFSIZEYUV(int width, int height,
   int subsamp);


 /*
   tjhandle tjInitDecompress(void)

   Creates a new JPEG decompressor instance, allocates memory for the
   structures, and returns a handle to the instance.  Most applications will
   only need to call this once at the beginning of the program or once for each
   concurrent thread.  Don't try to create a new instance every time you
   decompress an image, because this will cause performance to suffer.

   RETURNS: NULL on error
 */
 DLLEXPORT tjhandle DLLCALL tjInitDecompress(void);


 /*
   int tjDecompressHeader2(tjhandle j,
      unsigned char *srcbuf, unsigned long size,
      int *width, int *height, int *jpegsubsamp)

   [INPUT] j = instance handle previously returned from a call to
      tjInitDecompress()
   [INPUT] srcbuf = pointer to a user-allocated buffer containing a JPEG image
   [INPUT] size = size of the JPEG image buffer (in bytes)
   [OUTPUT] width = width (in pixels) of the JPEG image
   [OUTPUT] height = height (in pixels) of the JPEG image
   [OUTPUT] jpegsubsamp = type of chrominance subsampling used when compressing
      the JPEG image

   RETURNS: 0 on success, -1 on error
 */
 DLLEXPORT int DLLCALL tjDecompressHeader2(tjhandle j,
 	unsigned char *srcbuf, unsigned long size,
 	int *width, int *height, int *jpegsubsamp);

 /*
   Legacy version of the above function
 */
 DLLEXPORT int DLLCALL tjDecompressHeader(tjhandle j,
 	unsigned char *srcbuf, unsigned long size,
 	int *width, int *height);


 /*
   int tjScaledSize(int input_width, int input_height,
      int *output_width, int *output_height)

   [INPUT] input_width = width (in pixels) of the JPEG image
   [INPUT] input_height = height (in pixels) of the JPEG image
   [INPUT/OUTPUT] output_width, output_height = Before calling this function,
      *output_width and *output_height should be set to the desired dimensions
      of the output image.  Upon returning from this function, they will be set
      to the dimensions of the largest scaled down image that TurboJPEG can
      produce without exceeding the desired dimensions.  If either *output_width
      or *output_height is set to 0, then the corresponding dimension will not
      be considered when determining the scaled image size.

   RETURNS: 0 on success, -1 if arguments are out of bounds
 */
 DLLEXPORT int DLLCALL tjScaledSize(int input_width, int input_height,
 	int *output_width, int *output_height);


 /*
   int tjDecompress(tjhandle j,
      unsigned char *srcbuf, unsigned long size,
      unsigned char *dstbuf, int width, int pitch, int height, int pixelsize,
      int flags)

   [INPUT] j = instance handle previously returned from a call to
      tjInitDecompress()
   [INPUT] srcbuf = pointer to a user-allocated buffer containing the JPEG image
      to decompress
   [INPUT] size = size of the JPEG image buffer (in bytes)
   [INPUT] dstbuf = pointer to user-allocated image buffer which will receive
      the bitmap image.  This buffer should normally be pitch*scaled_height
      bytes in size, where scaled_height is determined by calling
      tjScaledSize() with the height of the desired output image.  This pointer
      may also be used to decompress into a specific region of a
      larger buffer.
   [INPUT] width = desired width (in pixels) of the destination image.  If this
      is smaller than the width of the JPEG image being decompressed, then
      TurboJPEG will use scaling in the JPEG decompressor to generate the
      largest possible image that will fit within the desired width.  If width
      is set to 0, then only the height will be considered when determining the
      scaled image size.
   [INPUT] pitch = bytes per line of the destination image.  Normally, this is
      scaled_width*pixelsize if the bitmap image is unpadded, else
      TJPAD(scaled_width*pixelsize) if each line of the bitmap is padded to the
      nearest 32-bit boundary, such as is the case for Windows bitmaps.
      (NOTE: scaled_width can be determined by calling tjScaledSize().)  You can
      also be clever and use this parameter to skip lines, etc.  Setting this
      parameter to 0 is the equivalent of setting it to scaled_width*pixelsize.
   [INPUT] height = desired height (in pixels) of the destination image.  If
      this is smaller than the height of the JPEG image being decompressed, then
      TurboJPEG will use scaling in the JPEG decompressor to generate the
      largest possible image that will fit within the desired height.  If
      height is set to 0, then only the width will be considered when
      determining the scaled image size.
   [INPUT] pixelsize = size (in bytes) of each pixel in the destination image
      RGBX/BGRX/XRGB/XBGR: 4, RGB/BGR: 3, Grayscale: 1
   [INPUT] flags = the bitwise OR of one or more of the flags described in the
      "Flags" section above.

   NOTE: The width, pitch, height, and pixelsize parameters are ignored if
   decompressing to a YUV planar image.

   RETURNS: 0 on success, -1 on error
 */
 DLLEXPORT int DLLCALL tjDecompress(tjhandle j,
 	unsigned char *srcbuf, unsigned long size,
 	unsigned char *dstbuf, int width, int pitch, int height, int pixelsize,
 	int flags);


 /*
   int tjDestroy(tjhandle h)

   Frees structures associated with a compression or decompression instance

   [INPUT] h = instance handle (returned from a previous call to
      tjInitCompress() or tjInitDecompress()

   RETURNS: 0 on success, -1 on error
 */
 DLLEXPORT int DLLCALL tjDestroy(tjhandle h);


 /*
   char *tjGetErrorStr(void)

   Returns a descriptive error message explaining why the last command failed
 */
 DLLEXPORT char* DLLCALL tjGetErrorStr(void);

 #ifdef __cplusplus
 }
 #endif
	/* Copyright (C)2004 Landmark Graphics Corporation
	* Copyright (C)2005, 2006 Sun Microsystems, Inc.
	* Copyright (C)2009-2011 D. R. Commander
	*
	* This library is free software and may be redistributed and/or modified under
	* the terms of the wxWindows Library License, Version 3.1 or (at your option)
	* any later version. The full license is in the LICENSE.txt file included
	* with this distribution.
	*
	* This library is distributed in the hope that it will be useful,
	* but WITHOUT ANY WARRANTY; without even the implied warranty of
	* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
	* wxWindows Library License for more details.
	*/

	#if (defined(_MSC_VER) \|\| defined(__CYGWIN__) \|\| defined(__MINGW32__)) && defined(_WIN32) && defined(DLLDEFINE)
	#define DLLEXPORT __declspec(dllexport)
	#else
	#define DLLEXPORT
	#endif

	#define DLLCALL

	/* Subsampling */
	#define NUMSUBOPT 4

	enum {TJ_444=0, TJ_422, TJ_420, TJ_GRAYSCALE};
	#define TJ_411 TJ_420 /* for backward compatibility with VirtualGL <= 2.1.x,
	TurboVNC <= 0.6, and TurboJPEG/IPP */

	/* Flags */
	#define TJ_BGR 1
	/* The components of each pixel in the source/destination bitmap are stored
	in B,G,R order, not R,G,B */
	#define TJ_BOTTOMUP 2
	/* The source/destination bitmap is stored in bottom-up (Windows, OpenGL)
	order, not top-down (X11) order */
	#define TJ_FORCEMMX 8
	/* Turn off CPU auto-detection and force TurboJPEG to use MMX code
	(IPP and 32-bit libjpeg-turbo versions only) */
	#define TJ_FORCESSE 16
	/* Turn off CPU auto-detection and force TurboJPEG to use SSE code
	(32-bit IPP and 32-bit libjpeg-turbo versions only) */
	#define TJ_FORCESSE2 32
	/* Turn off CPU auto-detection and force TurboJPEG to use SSE2 code
	(32-bit IPP and 32-bit libjpeg-turbo versions only) */
	#define TJ_ALPHAFIRST 64
	/* If the source/destination bitmap is 32 bpp, assume that each pixel is
	ARGB/XRGB (or ABGR/XBGR if TJ_BGR is also specified) */
	#define TJ_FORCESSE3 128
	/* Turn off CPU auto-detection and force TurboJPEG to use SSE3 code
	(64-bit IPP version only) */
	#define TJ_FASTUPSAMPLE 256
	/* Use fast, inaccurate 4:2:2 and 4:2:0 YUV upsampling routines
	(libjpeg and libjpeg-turbo versions only) */
	#define TJ_YUV 512
	/* If passed to tjCompress(), this causes TurboJPEG to use the accelerated
	color conversion routines in the underlying codec to produce a planar
	YUV image that is suitable for X Video. Specifically, if the chrominance
	components are subsampled along the horizontal dimension, then the width
	of the luminance plane is padded to 2 in the output image (same goes for
	the height of the luminance plane, if the chrominance components are
	subsampled along the vertical dimension.) Also, each line of each plane
	in the output image is padded to 4 bytes. Although this will work with
	any subsampling option, it is really only useful in combination with
	TJ_420, which produces an image compatible with the I420 (AKA "YUV420P")
	format.

	If passed to tjDecompress(), this tells TurboJPEG to perform JPEG
	decompression but to leave out the color conversion step, so a planar YUV
	image is generated instead of an RGB image. The padding of the planes in
	this image is the same as in the above case. Note that, if the width or
	height of the output image is not a multiple of 8 (or a multiple of 16
	along any dimension in which chrominance subsampling is used), then an
	intermediate buffer copy will be performed within TurboJPEG.
	*/

	typedef void* tjhandle;

	#define TJPAD(p) (((p)+3)&(~3))
	#ifndef max
	#define max(a,b) ((a)>(b)?(a):(b))
	#endif

	#ifdef __cplusplus
	extern "C" {
	#endif

	/* API follows */


	/*
	tjhandle tjInitCompress(void)

	Creates a new JPEG compressor instance, allocates memory for the structures,
	and returns a handle to the instance. Most applications will only
	need to call this once at the beginning of the program or once for each
	concurrent thread. Don't try to create a new instance every time you
	compress an image, because this will cause performance to suffer.

	RETURNS: NULL on error
	*/
	DLLEXPORT tjhandle DLLCALL tjInitCompress(void);


	/*
	int tjCompress(tjhandle j,
	unsigned char *srcbuf, int width, int pitch, int height, int pixelsize,
	unsigned char dstbuf, unsigned long size,
	int jpegsubsamp, int jpegqual, int flags)

	[INPUT] j = instance handle previously returned from a call to
	tjInitCompress()
	[INPUT] srcbuf = pointer to user-allocated image buffer containing RGB or
	grayscale pixels to be compressed
	[INPUT] width = width (in pixels) of the source image
	[INPUT] pitch = bytes per line of the source image (width*pixelsize if the
	bitmap is unpadded, else TJPAD(width*pixelsize) if each line of the bitmap
	is padded to the nearest 32-bit boundary, such as is the case for Windows
	bitmaps. You can also be clever and use this parameter to skip lines,
	etc. Setting this parameter to 0 is the equivalent of setting it to
	width*pixelsize.
	[INPUT] height = height (in pixels) of the source image
	[INPUT] pixelsize = size (in bytes) of each pixel in the source image
	RGBX/BGRX/XRGB/XBGR: 4, RGB/BGR: 3, Grayscale: 1
	[INPUT] dstbuf = pointer to user-allocated image buffer which will receive
	the JPEG image. Use the TJBUFSIZE(width, height) function to determine
	the appropriate size for this buffer based on the image width and height.
	[OUTPUT] size = pointer to unsigned long which receives the size (in bytes)
	of the compressed image
	[INPUT] jpegsubsamp = Specifies either 4:2:0, 4:2:2, or 4:4:4 subsampling.
	When the image is converted from the RGB to YCbCr colorspace as part of
	the JPEG compression process, every other Cb and Cr (chrominance) pixel
	can be discarded to produce a smaller image with little perceptible loss
	of image clarity (the human eye is more sensitive to small changes in
	brightness than small changes in color.)

	TJ_420: 4:2:0 subsampling. Discards every other Cb, Cr pixel in both
	horizontal and vertical directions
	TJ_422: 4:2:2 subsampling. Discards every other Cb, Cr pixel only in
	the horizontal direction
	TJ_444: no subsampling
	TJ_GRAYSCALE: Generate grayscale JPEG image

	[INPUT] jpegqual = JPEG quality (an integer between 0 and 100 inclusive)
	[INPUT] flags = the bitwise OR of one or more of the flags described in the
	"Flags" section above

	RETURNS: 0 on success, -1 on error
	*/
	DLLEXPORT int DLLCALL tjCompress(tjhandle j,
	unsigned char *srcbuf, int width, int pitch, int height, int pixelsize,
	unsigned char dstbuf, unsigned long size,
	int jpegsubsamp, int jpegqual, int flags);


	/*
	unsigned long TJBUFSIZE(int width, int height)

	Convenience function which returns the maximum size of the buffer required to
	hold a JPEG image with the given width and height

	RETURNS: -1 if arguments are out of bounds
	*/
	DLLEXPORT unsigned long DLLCALL TJBUFSIZE(int width, int height);


	/*
	unsigned long TJBUFSIZEYUV(int width, int height, int subsamp)

	Convenience function which returns the size of the buffer required to
	hold a YUV planar image with the given width, height, and level of
	chrominance subsampling

	RETURNS: -1 if arguments are out of bounds
	*/
	DLLEXPORT unsigned long DLLCALL TJBUFSIZEYUV(int width, int height,
	int subsamp);


	/*
	tjhandle tjInitDecompress(void)

	Creates a new JPEG decompressor instance, allocates memory for the
	structures, and returns a handle to the instance. Most applications will
	only need to call this once at the beginning of the program or once for each
	concurrent thread. Don't try to create a new instance every time you
	decompress an image, because this will cause performance to suffer.

	RETURNS: NULL on error
	*/
	DLLEXPORT tjhandle DLLCALL tjInitDecompress(void);


	/*
	int tjDecompressHeader2(tjhandle j,
	unsigned char *srcbuf, unsigned long size,
	int width, int height, int *jpegsubsamp)

	[INPUT] j = instance handle previously returned from a call to
	tjInitDecompress()
	[INPUT] srcbuf = pointer to a user-allocated buffer containing a JPEG image
	[INPUT] size = size of the JPEG image buffer (in bytes)
	[OUTPUT] width = width (in pixels) of the JPEG image
	[OUTPUT] height = height (in pixels) of the JPEG image
	[OUTPUT] jpegsubsamp = type of chrominance subsampling used when compressing
	the JPEG image

	RETURNS: 0 on success, -1 on error
	*/
	DLLEXPORT int DLLCALL tjDecompressHeader2(tjhandle j,
	unsigned char *srcbuf, unsigned long size,
	int width, int height, int *jpegsubsamp);

	/*
	Legacy version of the above function
	*/
	DLLEXPORT int DLLCALL tjDecompressHeader(tjhandle j,
	unsigned char *srcbuf, unsigned long size,
	int width, int height);


	/*
	int tjScaledSize(int input_width, int input_height,
	int output_width, int output_height)

	[INPUT] input_width = width (in pixels) of the JPEG image
	[INPUT] input_height = height (in pixels) of the JPEG image
	[INPUT/OUTPUT] output_width, output_height = Before calling this function,
	output_width and output_height should be set to the desired dimensions
	of the output image. Upon returning from this function, they will be set
	to the dimensions of the largest scaled down image that TurboJPEG can
	produce without exceeding the desired dimensions. If either *output_width
	or *output_height is set to 0, then the corresponding dimension will not
	be considered when determining the scaled image size.

	RETURNS: 0 on success, -1 if arguments are out of bounds
	*/
	DLLEXPORT int DLLCALL tjScaledSize(int input_width, int input_height,
	int output_width, int output_height);


	/*
	int tjDecompress(tjhandle j,
	unsigned char *srcbuf, unsigned long size,
	unsigned char *dstbuf, int width, int pitch, int height, int pixelsize,
	int flags)

	[INPUT] j = instance handle previously returned from a call to
	tjInitDecompress()
	[INPUT] srcbuf = pointer to a user-allocated buffer containing the JPEG image
	to decompress
	[INPUT] size = size of the JPEG image buffer (in bytes)
	[INPUT] dstbuf = pointer to user-allocated image buffer which will receive
	the bitmap image. This buffer should normally be pitch*scaled_height
	bytes in size, where scaled_height is determined by calling
	tjScaledSize() with the height of the desired output image. This pointer
	may also be used to decompress into a specific region of a
	larger buffer.
	[INPUT] width = desired width (in pixels) of the destination image. If this
	is smaller than the width of the JPEG image being decompressed, then
	TurboJPEG will use scaling in the JPEG decompressor to generate the
	largest possible image that will fit within the desired width. If width
	is set to 0, then only the height will be considered when determining the
	scaled image size.
	[INPUT] pitch = bytes per line of the destination image. Normally, this is
	scaled_width*pixelsize if the bitmap image is unpadded, else
	TJPAD(scaled_width*pixelsize) if each line of the bitmap is padded to the
	nearest 32-bit boundary, such as is the case for Windows bitmaps.
	(NOTE: scaled_width can be determined by calling tjScaledSize().) You can
	also be clever and use this parameter to skip lines, etc. Setting this
	parameter to 0 is the equivalent of setting it to scaled_width*pixelsize.
	[INPUT] height = desired height (in pixels) of the destination image. If
	this is smaller than the height of the JPEG image being decompressed, then
	TurboJPEG will use scaling in the JPEG decompressor to generate the
	largest possible image that will fit within the desired height. If
	height is set to 0, then only the width will be considered when
	determining the scaled image size.
	[INPUT] pixelsize = size (in bytes) of each pixel in the destination image
	RGBX/BGRX/XRGB/XBGR: 4, RGB/BGR: 3, Grayscale: 1
	[INPUT] flags = the bitwise OR of one or more of the flags described in the
	"Flags" section above.

	NOTE: The width, pitch, height, and pixelsize parameters are ignored if
	decompressing to a YUV planar image.

	RETURNS: 0 on success, -1 on error
	*/
	DLLEXPORT int DLLCALL tjDecompress(tjhandle j,
	unsigned char *srcbuf, unsigned long size,
	unsigned char *dstbuf, int width, int pitch, int height, int pixelsize,
	int flags);


	/*
	int tjDestroy(tjhandle h)

	Frees structures associated with a compression or decompression instance

	[INPUT] h = instance handle (returned from a previous call to
	tjInitCompress() or tjInitDecompress()

	RETURNS: 0 on success, -1 on error
	*/
	DLLEXPORT int DLLCALL tjDestroy(tjhandle h);


	/*
	char *tjGetErrorStr(void)

	Returns a descriptive error message explaining why the last command failed
	*/
	DLLEXPORT char* DLLCALL tjGetErrorStr(void);

	#ifdef __cplusplus
	}
	#endif