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/** \file
* \brief Image Manipulation
*
* See Copyright Notice in im_lib.h
*/
#ifndef __IM_IMAGE_H
#define __IM_IMAGE_H
#if defined(__cplusplus)
extern "C" {
#endif
/** \defgroup imgclass imImage
*
* \par
* Base definitions and functions for image representation. \n
* Only the image processing operations depends on these definitions,
* Image Storage and Image Capture are completely independent.
* \par
* You can also initialize a structure with your own memory buffer, see \ref imImageInit.
* To release the structure without releasing the buffer,
* set "data[0]" to NULL before calling imImageDestroy.
* \par
* See \ref im_image.h
* \ingroup imagerep */
/** \brief imImage Structure Definition.
*
* \par
* An image representation than supports all the color spaces,
* but planes are always unpacked and the orientation is always bottom up.
* \ingroup imgclass */
typedef struct _imImage
{
/* main parameters */
int width; /**< Number of columns. image:Width() -> width: number [in Lua 5]. */
int height; /**< Number of lines. image:Height() -> height: number [in Lua 5]. */
int color_space; /**< Color space descriptor. See also \ref imColorSpace. image:ColorSpace() -> color_space: number [in Lua 5]. */
int data_type; /**< Data type descriptor. See also \ref imDataType. image:DataType() -> data_type: number [in Lua 5]. */
int has_alpha; /**< Indicates that there is an extra channel with alpha. image:HasAlpha() -> has_alpha: number [in Lua 5]. \n
It will not affect the secondary parameters, i.e. the number of planes will be in fact depth+1. \n
It is always 0 unless imImageAddAlpha is called, this is done in image load functions. */
/* secondary parameters */
int depth; /**< Number of planes (ColorSpaceDepth) */
int line_size; /**< Number of bytes per line in one plane (width * DataTypeSize) */
int plane_size; /**< Number of bytes per plane. (line_size * height) */
int size; /**< Number of bytes occupied by the image (plane_size * depth) */
int count; /**< Number of pixels (width * height) */
/* image data */
void** data; /**< Image data organized as a 2D matrix with several planes. \n
But plane 0 is also a pointer to the full data. \n
The remaining planes are: data[i] = data[0] + i*plane_size \n
In Lua, data indexing is possible using: image[plane][row][column] */
/* image attributes */
long *palette; /**< Color palette. image:GetPalette() -> palette: imPalette [in Lua 5]. \n
Used when depth=1. Otherwise is NULL. */
int palette_count; /**< The palette is always 256 colors allocated, but can have less colors used. */
void* attrib_table; /**< in fact is an imAttribTable, but we hide this here */
} imImage;
/** Creates a new image.
* See also \ref imDataType and \ref imColorSpace. Image data is cleared as \ref imImageClear. \n
* In Lua the IM image metatable name is "imImage".
* When converted to a string will return "imImage(%p) [width=%d,height=%d,color_space=%s,data_type=%s,depth=%d]" where %p is replaced by the userdata address,
* and other values are replaced by the respective attributes.
* If the image is already destroyed by im.ImageDestroy, then it will return also the suffix "-destroyed".
*
* \verbatim im.ImageCreate(width: number, height: number, color_space: number, data_type: number) -> image: imImage [in Lua 5] \endverbatim
* \ingroup imgclass */
imImage* imImageCreate(int width, int height, int color_space, int data_type);
/** Initializes the image structure but does not allocates image data.
* See also \ref imDataType and \ref imColorSpace.
* \ingroup imgclass */
imImage* imImageInit(int width, int height, int color_space, int data_type, void* data_buffer, long* palette, int palette_count);
/** Creates a new image based on an existing one. \n
* If the addicional parameters are -1, the given image parameters are used. \n
* The image atributes always are copied. HasAlpha is copied.
* See also \ref imDataType and \ref imColorSpace.
*
* \verbatim im.ImageCreateBased(image: imImage, [width: number], [height: number], [color_space: number], [data_type: number]) -> image: imImage [in Lua 5] \endverbatim
* The addicional parameters in Lua can be nil,
* and they can also be functions with the based image as a parameter to return the respective value.
* \ingroup imgclass */
imImage* imImageCreateBased(const imImage* image, int width, int height, int color_space, int data_type);
/** Destroys the image and frees the memory used.
* image data is destroyed only if its data[0] is not NULL. \n
* In Lua if this function is not called, the image is destroyed by the garbage collector.
*
* \verbatim im.ImageDestroy(image: imImage) [in Lua 5] \endverbatim
* \verbatim image:Destroy() [in Lua 5] \endverbatim
* \ingroup imgclass */
void imImageDestroy(imImage* image);
/** Adds an alpha channel plane.
*
* \verbatim image:AddAlpha() [in Lua 5] \endverbatim
* \ingroup imgclass */
void imImageAddAlpha(imImage* image);
/** Changes the buffer size. Reallocate internal buffers if the new size is larger than the original.
*
* \verbatim image:Reshape(width: number, height: number) [in Lua 5] \endverbatim
* \ingroup imgclass */
void imImageReshape(imImage* image, int width, int height);
/** Copy image data and attributes from one image to another. \n
* Images must have the same size and type.
*
* \verbatim image:Copy(dst_image: imImage) [in Lua 5] \endverbatim
* \ingroup imgclass */
void imImageCopy(const imImage* src_image, imImage* dst_image);
/** Copy image data only fom one image to another. \n
* Images must have the same size and type.
*
* \verbatim image:CopyData(dst_image: imImage) [in Lua 5] \endverbatim
* \ingroup imgclass */
void imImageCopyData(const imImage* src_image, imImage* dst_image);
/** Creates a copy of the image.
*
* \verbatim image:Duplicate() -> new_image: imImage [in Lua 5] \endverbatim
* \ingroup imgclass */
imImage* imImageDuplicate(const imImage* image);
/** Creates a clone of the image. i.e. same attributes but ignore contents.
*
* \verbatim image:Clone() -> new_image: imImage [in Lua 5] \endverbatim
* \ingroup imgclass */
imImage* imImageClone(const imImage* image);
/** Changes an extended attribute. \n
* The data will be internally duplicated. \n
* If data is NULL and count==0 the attribute is removed. \n
* If count is -1 and data_type is IM_BYTE then data is zero terminated.
* See also \ref imDataType.
*
* \verbatim image:SetAttribute(attrib: string, data_type: number, data: table of numbers or string) [in Lua 5] \endverbatim
* If data_type is IM_BYTE, as_string can be used as data.
* \ingroup imgclass */
void imImageSetAttribute(const imImage* image, const char* attrib, int data_type, int count, const void* data);
/** Returns an extended attribute. \n
* Returns NULL if not found.
* See also \ref imDataType.
*
* \verbatim image:GetAttribute(attrib: string, [as_string: boolean]) -> data: table of numbers or string, data_type: number [in Lua 5] \endverbatim
* If data_type is IM_BYTE, as_string can be used to return a string instead of a table.
* \ingroup imgclass */
const void* imImageGetAttribute(const imImage* image, const char* attrib, int *data_type, int *count);
/** Returns a list of the attribute names. \n
* "attrib" must contain room enough for "attrib_count" names. Use "attrib=NULL" to return only the count.
*
* \verbatim image:GetAttributeList() -> data: table of strings [in Lua 5] \endverbatim
* \ingroup imgclass */
void imImageGetAttributeList(const imImage* image, char** attrib, int *attrib_count);
/** Sets all image data to zero. But if color space is YCBCR, LAB or LUV, and data type is BYTE or USHORT, then
* data is initialized with 128 or 32768 accordingly. Alpha is initialized as transparent (0).
*
* \verbatim image:Clear() [in Lua 5] \endverbatim
* \ingroup imgclass */
void imImageClear(imImage* image);
/** Indicates that the image can be viewed in common graphic devices.
* Data type must be IM_BYTE. Color mode can be IM_RGB, IM_MAP, IM_GRAY or IM_BINARY.
*
* \verbatim image:IsBitmap() -> is_bitmap: boolean [in Lua 5] \endverbatim
* \ingroup imgclass */
int imImageIsBitmap(const imImage* image);
/** Changes the image palette.
* This will destroy the existing palette and replace it with the given palette pointer.
* Only the pointer is stored, so the palette should be a new palette and it can not be a static array.
*
* \verbatim image:SetPalette(palette: imPalette) [in Lua 5] \endverbatim
* \ingroup imgclass */
void imImageSetPalette(imImage* image, long* palette, int palette_count);
/** Copies the image attributes from src to dst.
*
* \verbatim image:CopyAttributes(dst_image: imImage) [in Lua 5] \endverbatim
* \ingroup imgclass */
void imImageCopyAttributes(const imImage* src_image, imImage* dst_image);
/** Returns 1 if the images match width and height. Returns 0 otherwise.
*
* \verbatim image:MatchSize(image2: imImage) -> match: boolean [in Lua 5] \endverbatim
* \ingroup imgclass */
int imImageMatchSize(const imImage* image1, const imImage* image2);
/** Returns 1 if the images match color mode and data type. Returns 0 otherwise.
*
* \verbatim image:MatchColor(image2: imImage) -> match: boolean [in Lua 5] \endverbatim
* \ingroup imgclass */
int imImageMatchColor(const imImage* image1, const imImage* image2);
/** Returns 1 if the images match width, height and data type. Returns 0 otherwise.
*
* \verbatim image:MatchDataType(image2: imImage) -> match: boolean [in Lua 5] \endverbatim
* \ingroup imgclass */
int imImageMatchDataType(const imImage* image1, const imImage* image2);
/** Returns 1 if the images match width, height and color space. Returns 0 otherwise.
*
* \verbatim image:MatchColorSpace(image2: imImage) -> match: boolean [in Lua 5] \endverbatim
* \ingroup imgclass */
int imImageMatchColorSpace(const imImage* image1, const imImage* image2);
/** Returns 1 if the images match in width, height, data type and color space. Returns 0 otherwise.
*
* \verbatim image:Match(image2: imImage) -> match: boolean [in Lua 5] \endverbatim
* \ingroup imgclass */
int imImageMatch(const imImage* image1, const imImage* image2);
/** Changes the image color space from gray to binary by just changing color_space and the palette.
*
* \verbatim image:SetBinary() [in Lua 5] \endverbatim
* \ingroup imgclass */
void imImageSetBinary(imImage* image);
/** Changes a gray BYTE data (0,255) into a binary data (0,1), done in-place. Color space is not changed.
*
* \verbatim image:MakeBinary() [in Lua 5] \endverbatim
* \ingroup imgclass */
void imImageMakeBinary(imImage *image);
/** Changes a binary data (0,1) into a gray BYTE data (0,255), done in-place. Color space is not changed.
*
* \verbatim image:MakeGray() [in Lua 5] \endverbatim
* \ingroup imgclass */
void imImageMakeGray(imImage *image);
/** \defgroup imgfile imImage Storage
*
* \par
* Functions to simplify the process of reading and writting imImage structures.
* Will also load and save the alpha planes when possible.
* \par
* See \ref im_image.h
* \ingroup file */
/** Loads an image from an already open file. Returns NULL if failed. \n
* This will call \ref imFileReadImageInfo and \ref imFileReadImageData. \n
* index specifies the image number between 0 and image_count-1. \n
* The returned image will be of the same color_space and data_type of the image in the file. \n
* Attributes from the file will be stored at the image.
* See also \ref imErrorCodes.
*
* \verbatim ifile:LoadImage([index: number]) -> image: imImage, error: number [in Lua 5] \endverbatim
* Default index is 0.
* \ingroup imgfile */
imImage* imFileLoadImage(imFile* ifile, int index, int *error);
/** Loads an image from an already open file. Returns NULL if failed. \n
* This function assumes that the image in the file has the same parameters as the given image. \n
* This will call \ref imFileReadImageInfo and \ref imFileReadImageData. \n
* index specifies the image number between 0 and image_count-1. \n
* The returned image will be of the same color_space and data_type of the image in the file. \n
* Attributes from the file will be stored at the image.
* See also \ref imErrorCodes.
*
* \verbatim ifile:LoadImageFrame(index: number, image: imImage) -> error: number [in Lua 5] \endverbatim
* Default index is 0.
* \ingroup imgfile */
void imFileLoadImageFrame(imFile* ifile, int index, imImage* image, int *error);
/** Loads an image from an already open file, but forces the image to be a bitmap.\n
* The returned imagem will be always a Bitmap image, with color_space RGB, MAP, GRAY or BINARY, and data_type IM_BYTE. \n
* index specifies the image number between 0 and image_count-1. \n
* Returns NULL if failed.
* Attributes from the file will be stored at the image.
* See also \ref imErrorCodes.
*
* \verbatim ifile:LoadBitmap([index: number]) -> image: imImage, error: number [in Lua 5] \endverbatim
* Default index is 0.
* \ingroup imgfile */
imImage* imFileLoadBitmap(imFile* ifile, int index, int *error);
/** Loads an image region from an already open file. Returns NULL if failed. \n
* This will call \ref imFileReadImageInfo and \ref imFileReadImageData. \n
* index specifies the image number between 0 and image_count-1. \n
* The returned image will be of the same color_space and data_type of the image in the file,
* or will be a Bitmap image. \n
* Attributes from the file will be stored at the image.
* See also \ref imErrorCodes. \n
* For now, it works only for the ECW file format.
*
* \verbatim ifile:LoadRegion(index, bitmap, xmin, xmax, ymin, ymax, width, height: number) -> image: imImage, error: number [in Lua 5] \endverbatim
* Default index is 0.
* \ingroup imgfile */
imImage* imFileLoadImageRegion(imFile* ifile, int index, int bitmap, int *error,
int xmin, int xmax, int ymin, int ymax, int width, int height);
/** Loads an image from an already open file, but forces the image to be a bitmap.\n
* This function assumes that the image in the file has the same parameters as the given image. \n
* The imagem must be a Bitmap image, with color_space RGB, MAP, GRAY or BINARY, and data_type IM_BYTE. \n
* index specifies the image number between 0 and image_count-1. \n
* Returns NULL if failed.
* Attributes from the file will be stored at the image.
* See also \ref imErrorCodes.
*
* \verbatim ifile:LoadBitmapFrame(index: number, image: imImage) -> error: number [in Lua 5] \endverbatim
* Default index is 0.
* \ingroup imgfile */
void imFileLoadBitmapFrame(imFile* ifile, int index, imImage* image, int *error);
/** Saves the image to an already open file. \n
* This will call \ref imFileWriteImageInfo and \ref imFileWriteImageData. \n
* Attributes from the image will be stored at the file.
* Returns error code.
*
* \verbatim ifile:SaveImage(image: imImage) -> error: number [in Lua 5] \endverbatim
* \ingroup imgfile */
int imFileSaveImage(imFile* ifile, const imImage* image);
/** Loads an image from file. Open, loads and closes the file. \n
* index specifies the image number between 0 and image_count-1. \n
* Returns NULL if failed.
* Attributes from the file will be stored at the image.
* See also \ref imErrorCodes.
*
* \verbatim im.FileImageLoad(file_name: string, [index: number]) -> image: imImage, error: number [in Lua 5] \endverbatim
* Default index is 0.
* \ingroup imgfile */
imImage* imFileImageLoad(const char* file_name, int index, int *error);
/** Loads an image from file, but forces the image to be a bitmap. Open, loads and closes the file. \n
* index specifies the image number between 0 and image_count-1. \n
* Returns NULL if failed.
* Attributes from the file will be stored at the image.
* See also \ref imErrorCodes.
*
* \verbatim im.FileImageLoadBitmap(file_name: string, [index: number]) -> image: imImage, error: number [in Lua 5] \endverbatim
* Default index is 0.
* \ingroup imgfile */
imImage* imFileImageLoadBitmap(const char* file_name, int index, int *error);
/** Loads an image region from file. Open, loads and closes the file. \n
* index specifies the image number between 0 and image_count-1. \n
* Returns NULL if failed.
* Attributes from the file will be stored at the image.
* See also \ref imErrorCodes. \n
* For now, it works only for the ECW file format.
*
* \verbatim im.FileImageLoadRegion(file_name: string, index, bitmap, xmin, xmax, ymin, ymax, width, height: number, ) -> image: imImage, error: number [in Lua 5] \endverbatim
* Default index is 0.
* \ingroup imgfile */
imImage* imFileImageLoadRegion(const char* file_name, int index, int bitmap, int *error,
int xmin, int xmax, int ymin, int ymax, int width, int height);
/** Saves the image to file. Open, saves and closes the file. \n
* Returns error code. \n
* Attributes from the image will be stored at the file.
*
* \verbatim im.FileImageSave(file_name: string, format: string, image: imImage) -> error: number [in Lua 5] \endverbatim
* \verbatim image:Save(file_name: string, format: string) -> error: number [in Lua 5] \endverbatim
* \ingroup imgfile */
int imFileImageSave(const char* file_name, const char* format, const imImage* image);
/** Utility macro to draw the image in a CD library canvas.
* Works only for data_type IM_BYTE, and color spaces: IM_RGB, IM_MAP, IMGRAY and IM_BINARY.
* \ingroup imgclass */
#define imcdCanvasPutImage(_canvas, _image, _x, _y, _w, _h, _xmin, _xmax, _ymin, _ymax) \
{ \
if (_image->color_space == IM_RGB) \
{ \
if (_image->has_alpha) \
cdCanvasPutImageRectRGBA(_canvas, _image->width, _image->height, \
(unsigned char*)_image->data[0], \
(unsigned char*)_image->data[1], \
(unsigned char*)_image->data[2], \
(unsigned char*)_image->data[3], \
_x, _y, _w, _h, _xmin, _xmax, _ymin, _ymax); \
else \
cdCanvasPutImageRectRGB(_canvas, _image->width, _image->height, \
(unsigned char*)_image->data[0], \
(unsigned char*)_image->data[1], \
(unsigned char*)_image->data[2], \
_x, _y, _w, _h, _xmin, _xmax, _ymin, _ymax); \
} \
else \
cdCanvasPutImageRectMap(_canvas, _image->width, _image->height, \
(unsigned char*)_image->data[0], _image->palette, \
_x, _y, _w, _h, _xmin, _xmax, _ymin, _ymax); \
}
#if defined(__cplusplus)
}
#endif
#endif
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