#ifndef __XCB_IMAGE_H__ #define __XCB_IMAGE_H__ /* Copyright (C) 2007 Bart Massey * * Permission is hereby granted, free of charge, to any person obtaining a * copy of this software and associated documentation files (the "Software"), * to deal in the Software without restriction, including without limitation * the rights to use, copy, modify, merge, publish, distribute, sublicense, * and/or sell copies of the Software, and to permit persons to whom the * Software is furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included in * all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE * AUTHORS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN * ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN * CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. * * Except as contained in this notice, the names of the authors or their * institutions shall not be used in advertising or otherwise to promote the * sale, use or other dealings in this Software without prior written * authorization from the authors. */ #include #include #ifdef __cplusplus extern "C" { #endif /** * @defgroup xcb__image_t XCB Image Functions * * These are functions used to create and manipulate X images. * * The X image format we use is specific to this software, * which is probably a bug; it represents an intermediate * position between the wire format used by the X GetImage * and PutImage requests and standard formats like PBM. An * image consists of a header of type @ref xcb_image_t * describing the properties of the image, together with a * pointer to the image data itself. * * X wire images come in three formats. An xy-bitmap is a * bit-packed format that will be expanded to a two-color * pixmap using a GC when sent over the wire by PutImage. * An xy-pixmap is one or more bit-planes, each in the same * format as xy-bitmap. A z-pixmap is a more conventional * pixmap representation, with each pixel packed into a * word. Pixmaps are sent and received over the wire only * to/from drawables of their depth. * * Each X server defines, for each depth and format, * properties of images in that format that are sent and * received on the wire. We refer to this as a "native" * image for a given X server. It is not uncommon to want * to work with non-native images on the client side, or to * convert between the native images of different servers. * * This library provides several things. Facilities for * creating and destroying images are, of course, provided. * Wrappers for xcb_get_image() and xcb_put_image() are * provided; these utilize the image header to simplify the * interface. Routines for getting and putting image pixels * are provided: both a generic form that works with * arbitrary images, and fastpath forms for some common * cases. Conversion routines are provided for X images; * these routines have been fairly well optimized for the * common cases, and should run fast even on older hardware. * A routine analogous to Xlib's XCreate*FromBitmapData() is * provided for creating X images from xbm-format data; this * routine is in this library only because it is a trivial * use case for the library. * * @{ */ typedef struct xcb_image_t xcb_image_t; /** * @struct xcb_image_t * A structure that describes an xcb_image_t. */ struct xcb_image_t { uint16_t width; /**< Width in pixels, excluding pads etc. */ uint16_t height; /**< Height in pixels. */ xcb_image_format_t format; /**< Format. */ uint8_t scanline_pad; /**< Right pad in bits. Valid pads * are 8, 16, 32. */ uint8_t depth; /**< Depth in bits. Valid depths * are 1, 4, 8, 16, 24 for z format, * 1 for xy-bitmap-format, anything * for xy-pixmap-format. */ uint8_t bpp; /**< Storage per pixel in bits. * Must be >= depth. Valid bpp * are 1, 4, 8, 16, 24, 32 for z * format, 1 for xy-bitmap format, * anything for xy-pixmap-format. */ uint8_t unit; /**< Scanline unit in bits for * xy formats and for bpp == 1, * in which case valid scanline * units are 8, 16, 32. Otherwise, * will be max(8, bpp). Must be >= bpp. */ uint32_t plane_mask; /**< When format is * xy-pixmap and depth > * 1, this says which * planes are "valid" in * some vague sense. * Currently used only * by xcb_image_get/put_pixel(), * and set only by * xcb_image_get(). */ xcb_image_order_t byte_order; /**< Component byte order * for z-pixmap, byte * order of scanline unit * for xy-bitmap and * xy-pixmap. Nybble * order for z-pixmap * when bpp == 4. */ xcb_image_order_t bit_order; /**< Bit order of * scanline unit for * xy-bitmap and * xy-pixmap. */ uint32_t stride; /**< Bytes per image row. * Computable from other * data, but cached for * convenience/performance. */ uint32_t size; /**< Size of image data in bytes. * Computable from other * data, but cached for * convenience/performance. */ void * base; /**< Malloced block of storage that * will be freed by * @ref xcb_image_destroy() if non-null. */ uint8_t * data; /**< The actual image. */ }; typedef struct xcb_shm_segment_info_t xcb_shm_segment_info_t; /** * @struct xcb_shm_segment_info_t * A structure that stores the informations needed by the MIT Shm * Extension. */ struct xcb_shm_segment_info_t { xcb_shm_seg_t shmseg; uint32_t shmid; uint8_t *shmaddr; }; /** * Update the cached data of an image. * @param image The image. * * An image's size and stride, among other things, are * cached in its structure. This function recomputes those * cached values for the given image. * @ingroup xcb__image_t */ void xcb_image_annotate (xcb_image_t *image); /** * Create a new image. * @param width The width of the image, in pixels. * @param height The height of the image, in pixels. * @param format The format of the image. * @param xpad The scanline pad of the image. * @param depth The depth of the image. * @param bpp The depth of the image storage. * @param unit The unit of image representation, in bits. * @param byte_order The byte order of the image. * @param bit_order The bit order of the image. * @param base The base address of malloced image data. * @param bytes The size in bytes of the storage pointed to by base. * If base == 0 and bytes == ~0 and data == 0 on * entry, no storage will be auto-allocated. * @param data The image data. If data is null and bytes != ~0, then * an attempt will be made to fill in data; from * base if it is non-null (and bytes is large enough), else * by mallocing sufficient storage and filling in base. * @return The new image. * * This function allocates the memory needed for an @ref xcb_image_t structure * with the given properties. See the description of xcb_image_t for details. * This function initializes and returns a pointer to the * xcb_image_t structure. It may try to allocate or reserve data for the * structure, depending on how @p base, @p bytes and @p data are set. * * The image must be destroyed with xcb_image_destroy(). * @ingroup xcb__image_t */ xcb_image_t * xcb_image_create (uint16_t width, uint16_t height, xcb_image_format_t format, uint8_t xpad, uint8_t depth, uint8_t bpp, uint8_t unit, xcb_image_order_t byte_order, xcb_image_order_t bit_order, void * base, uint32_t bytes, uint8_t * data); /** * Create a new image in connection-native format. * @param c The connection. * @param width The width of the image, in pixels. * @param height The height of the image, in pixels. * @param format The format of the image. * @param depth The depth of the image. * @param base The base address of malloced image data. * @param bytes The size in bytes of the storage pointed to by base. * If base == 0 and bytes == ~0 and data == 0 on * entry, no storage will be auto-allocated. * @param data The image data. If data is null and bytes != ~0, then * an attempt will be made to fill in data; from * base if it is non-null (and bytes is large enough), else * by mallocing sufficient storage and filling in base. * @return The new image. * * This function calls @ref xcb_image_create() with the given * properties, and with the remaining properties chosen * according to the "native format" with the given * properties on the current connection. * * It is usual to use this rather * than calling xcb_image_create() directly. * @ingroup xcb__image_t */ xcb_image_t * xcb_image_create_native (xcb_connection_t * c, uint16_t width, uint16_t height, xcb_image_format_t format, uint8_t depth, void * base, uint32_t bytes, uint8_t * data); /** * Destroy an image. * @param image The image to be destroyed. * * This function frees the memory associated with the @p image * parameter. If its base pointer is non-null, it frees * that also. * @ingroup xcb__image_t */ void xcb_image_destroy (xcb_image_t *image); /** * Get an image from the X server. * @param conn The connection to the X server. * @param draw The drawable to get the image from. * @param x The x coordinate in pixels, relative to the origin of the * drawable and defining the upper-left corner of the rectangle. * @param y The y coordinate in pixels, relative to the origin of the * drawable and defining the upper-left corner of the rectangle. * @param width The width of the subimage in pixels. * @param height The height of the subimage in pixels. * @param plane_mask The plane mask. See the protocol document for details. * @param format The format of the image. * @return The subimage of @p draw defined by @p x, @p y, @p w, @p h. * * This function returns a new image taken from the * given drawable @p draw. * The image will be in connection native format. If the @p format * is xy-bitmap and the @p plane_mask masks bit planes out, those * bit planes will be made part of the returned image anyway, * by zero-filling them; this will require a fresh memory allocation * and some copying. Otherwise, the resulting image will use the * xcb_get_image_reply() record as its backing store. * * If a problem occurs, the function returns null. * @ingroup xcb__image_t */ xcb_image_t * xcb_image_get (xcb_connection_t * conn, xcb_drawable_t draw, int16_t x, int16_t y, uint16_t width, uint16_t height, uint32_t plane_mask, xcb_image_format_t format); /** * Put an image onto the X server. * @param conn The connection to the X server. * @param draw The draw you get the image from. * @param gc The graphic context. * @param image The image you want to combine with the rectangle. * @param x The x coordinate, which is relative to the origin of the * drawable and defines the x coordinate of the upper-left corner of the * rectangle. * @param y The y coordinate, which is relative to the origin of the * drawable and defines the x coordinate of the upper-left corner of * the rectangle. * @param left_pad Notionally shift an xy-bitmap or xy-pixmap image * to the right some small amount, for some reason. XXX Not clear * this is currently supported correctly. * @return The cookie returned by xcb_put_image(). * * This function combines an image with a rectangle of the * specified drawable @p draw. The image must be in native * format for the connection. The image is drawn at the * specified location in the drawable. For the xy-bitmap * format, the foreground pixel in @p gc defines the source * for the one bits in the image, and the background pixel * defines the source for the zero bits. For xy-pixmap and * z-pixmap formats, the depth of the image must match the * depth of the drawable; the gc is ignored. * * @ingroup xcb__image_t */ xcb_void_cookie_t xcb_image_put (xcb_connection_t * conn, xcb_drawable_t draw, xcb_gcontext_t gc, xcb_image_t * image, int16_t x, int16_t y, uint8_t left_pad); /** * Check image for or convert image to native format. * @param c The connection to the X server. * @param image The image. * @param convert If 0, just check the image for native format. * Otherwise, actually convert it. * @return Null if the image is not in native format and can or will not * be converted. Otherwise, the native format image. * * Each X display has its own "native format" for images of a given * format and depth. This function either checks whether the given * @p image is in native format for the given connection @p c, or * actually tries to convert the image to native format, depending * on whether @p convert is true or false. * * When @p convert is true, and the image is not in native format * but can be converted, it will be, and a pointer to the new image * will be returned. The image passed in will be unharmed in this * case; it is the caller's responsibility to check that the returned * pointer is different and to dispose of the old image if desired. * @ingroup xcb__image_t */ xcb_image_t * xcb_image_native (xcb_connection_t * c, xcb_image_t * image, int convert); /** * Put a pixel to an image. * @param image The image. * @param x The x coordinate of the pixel. * @param y The y coordinate of the pixel. * @param pixel The new pixel value. * * This function overwrites the pixel in the given @p image with the * specified @p pixel value (in client format). The image must contain the @p x * and @p y coordinates, as no clipping is done. This function honors * the plane-mask for xy-pixmap images. * @ingroup xcb__image_t */ void xcb_image_put_pixel (xcb_image_t *image, uint32_t x, uint32_t y, uint32_t pixel); /** * Get a pixel from an image. * @param image The image. * @param x The x coordinate of the pixel. * @param y The y coordinate of the pixel. * @return The pixel value. * * This function retrieves a pixel from the given @p image. * The image must contain the @p x * and @p y coordinates, as no clipping is done. This function honors * the plane-mask for xy-pixmap images. * @ingroup xcb__image_t */ uint32_t xcb_image_get_pixel (xcb_image_t *image, uint32_t x, uint32_t y); /** * Convert an image to a new format. * @param src Source image. * @param dst Destination image. * @return The @p dst image, or null on error. * * This function tries to convert the image data of the @p * src image to the format implied by the @p dst image, * overwriting the current destination image data. * The source and destination must have the same * width, height, and depth. When the source and destination * are already the same format, a simple copy is done. Otherwise, * when the destination has the same bits-per-pixel/scanline-unit * as the source, an optimized copy routine (thanks to Keith Packard) * is used for the conversion. Otherwise, the copy is done the * slow, slow way with @ref xcb_image_get_pixel() and * @ref xcb_image_put_pixel() calls. * @ingroup xcb__image_t */ xcb_image_t * xcb_image_convert (xcb_image_t * src, xcb_image_t * dst); /** * Extract a subimage of an image. * @param image Source image. * @param x X coordinate of subimage. * @param y Y coordinate of subimage. * @param width Width of subimage. * @param height Height of subimage. * @param base Base of memory allocation. * @param bytes Size of base allocation. * @param data Memory allocation. * @return The subimage, or null on error. * * Given an image, this function extracts the subimage at the * given coordinates. The requested subimage must be entirely * contained in the source @p image. The resulting image will have the same * general image parameters as the source image. The @p base, @p bytes, * and @p data arguments are passed to @ref xcb_create_image() unaltered * to create the destination image---see its documentation for details. * * @ingroup xcb__image_t */ xcb_image_t * xcb_image_subimage(xcb_image_t * image, uint32_t x, uint32_t y, uint32_t width, uint32_t height, void * base, uint32_t bytes, uint8_t * data); /* * Shm stuff */ /** * Put the data of an xcb_image_t onto a drawable using the MIT Shm * Extension. * @param conn The connection to the X server. * @param draw The draw you get the image from. * @param gc The graphic context. * @param image The image you want to combine with the rectangle. * @param shminfo A @ref xcb_shm_segment_info_t structure. * @param src_x The offset in x from the left edge of the image * defined by the xcb_image_t structure. * @param src_y The offset in y from the left edge of the image * defined by the xcb_image_t structure. * @param dest_x The x coordinate, which is relative to the origin of the * drawable and defines the x coordinate of the upper-left corner of the * rectangle. * @param dest_y The y coordinate, which is relative to the origin of the * drawable and defines the x coordinate of the upper-left corner of * the rectangle. * @param src_width The width of the subimage, in pixels. * @param src_height The height of the subimage, in pixels. * @param send_event Indicates whether or not a completion event * should occur when the image write is complete. * @return 1 is no problems occurs. * * This function combines an image in memory with a shape of the * specified drawable. The section of the image defined by the @p x, @p y, * @p width, and @p height arguments is drawn on the specified part of * the drawable. If XYBitmap format is used, the depth must be * one, or a``BadMatch'' error results. The foreground pixel in the * Graphic Context @p gc defines the source for the one bits in the * image, and the background pixel defines the source for the zero * bits. For XYPixmap and ZPixmap, the depth must match the depth of * the drawable, or a ``BadMatch'' error results. * * If a problem occurs, the function returns @c 0. Otherwise, it * returns @c 1. * @ingroup xcb__image_t */ xcb_image_t * xcb_image_shm_put (xcb_connection_t * conn, xcb_drawable_t draw, xcb_gcontext_t gc, xcb_image_t * image, xcb_shm_segment_info_t shminfo, int16_t src_x, int16_t src_y, int16_t dest_x, int16_t dest_y, uint16_t src_width, uint16_t src_height, uint8_t send_event); /** * Read image data into a shared memory xcb_image_t. * @param conn The connection to the X server. * @param draw The draw you get the image from. * @param image The image you want to combine with the rectangle. * @param shminfo A @ref xcb_shm_segment_info_t structure. * @param x The x coordinate, which are relative to the origin of the * drawable and define the upper-left corner of the rectangle. * @param y The y coordinate, which are relative to the origin of the * drawable and define the upper-left corner of the rectangle. * @param plane_mask The plane mask. * @return The subimage of @p draw defined by @p x, @p y, @p w, @p h. * * This function reads image data into a shared memory xcb_image_t where * @p conn is the connection to the X server, @p draw is the source * drawable, @p image is the destination xcb_image_t, @p x and @p y are offsets * within the drawable, and @p plane_mask defines which planes are to be * read. * * If a problem occurs, the function returns @c 0. It returns 1 * otherwise. * @ingroup xcb__image_t */ int xcb_image_shm_get (xcb_connection_t * conn, xcb_drawable_t draw, xcb_image_t * image, xcb_shm_segment_info_t shminfo, int16_t x, int16_t y, uint32_t plane_mask); /** * Create an image from user-supplied bitmap data. * @param data Image data in packed bitmap format. * @param width Width in bits of image data. * @param height Height in bits of image data. * @return The image constructed from the image data, or 0 on error. * * This function creates an image from the user-supplied * bitmap @p data. The bitmap data is assumed to be in * xbm format (i.e., 8-bit scanline unit, LSB-first, 8-bit pad). * @ingroup xcb__image_t */ xcb_image_t * xcb_image_create_from_bitmap_data (uint8_t * data, uint32_t width, uint32_t height); /** * Create a pixmap from user-supplied bitmap data. * @param display The connection to the X server. * @param d The parent drawable for the pixmap. * @param data Image data in packed bitmap format. * @param width Width in bits of image data. * @param height Height in bits of image data. * @param depth Depth of the desired pixmap. * @param fg Pixel for one-bits of pixmaps with depth larger than one. * @param bg Pixel for zero-bits of pixmaps with depth larger than one. * @param gcp If this pointer is non-null, the GC created to * fill in the pixmap is stored here; it will have its foreground * and background set to the supplied value. Otherwise, the GC * will be freed. * @return The pixmap constructed from the image data, or 0 on error. * * This function creates a pixmap from the user-supplied * bitmap @p data. The bitmap data is assumed to be in * xbm format (i.e., 8-bit scanline unit, LSB-first, 8-bit pad). * If @p depth is greater than 1, the * bitmap will be expanded to a pixmap using the given * foreground and background pixels @p fg and @p bg. * @ingroup xcb__image_t */ xcb_pixmap_t xcb_create_pixmap_from_bitmap_data (xcb_connection_t * display, xcb_drawable_t d, uint8_t * data, uint32_t width, uint32_t height, uint32_t depth, uint32_t fg, uint32_t bg, xcb_gcontext_t * gcp); /** * @} */ #ifdef __cplusplus } #endif #endif /* __XCB_IMAGE_H__ */