libweston/pixel-formats.h - weston-imx - Git at Google

 /*
  * Copyright © 2016 Collabora, Ltd.
  *
  * 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 (including the next
  * paragraph) 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 OR COPYRIGHT HOLDERS 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.
  *
  * Author: Daniel Stone <daniels@collabora.com>
  */

 #include <inttypes.h>
 #include <stdbool.h>

 /**
  * Contains information about pixel formats, mapping format codes from
  * wl_shm and drm_fourcc.h (which are deliberately identical, but for the
  * special cases of WL_SHM_ARGB8888 and WL_SHM_XRGB8888) into various
  * sets of information. Helper functions are provided for dealing with these
  * raw structures.
  */
 struct pixel_format_info {
 	/** DRM/wl_shm format code */
 	uint32_t format;

 	/** If non-zero, number of planes in base (non-modified) format. */
 	int num_planes;

 	/** If format contains alpha channel, opaque equivalent of format,
 	 *  i.e. alpha channel replaced with X. */
 	uint32_t opaque_substitute;

 	/** How the format should be sampled, expressed in terms of tokens
 	 *  from the EGL_WL_bind_wayland_display extension. If not set,
 	 *  assumed to be either RGB or RGBA, depending on whether or not
 	 *  the format contains an alpha channel. The samplers may still
 	 *  return alpha even for opaque formats; users must manually set
 	 *  the alpha channel to 1.0 (or ignore it) if the format is
 	 *  opaque. */
 	uint32_t sampler_type;

 	/** GL format, if data can be natively/directly uploaded. Note that
 	 *  whilst DRM formats are little-endian unless explicitly specified,
 	 *  (i.e. DRM_FORMAT_ARGB8888 is stored BGRA as sequential bytes in
 	 *  memory), GL uses the sequential byte order, so that format maps to
 	 *  GL_BGRA_EXT plus GL_UNSIGNED_BYTE. To add to the confusion, the
 	 *  explicitly-sized types (e.g. GL_UNSIGNED_SHORT_5_5_5_1) read in
 	 *  machine-endian order, so for these types, the correspondence
 	 *  depends on endianness. */
 	int gl_format;

 	/** GL data type, if data can be natively/directly uploaded. */
 	int gl_type;

 	/** If set, this format can be used with the legacy drmModeAddFB()
 	 *  function (not AddFB2), using this and the bpp member. */
 	int depth;

 	/** See 'depth' member above. */
 	int bpp;

 	/** Horizontal subsampling; if non-zero, divide the width by this
 	 *  member to obtain the number of columns in the source buffer for
 	 *  secondary planes only. Stride is not affected by horizontal
 	 *  subsampling. */
 	int hsub;

 	/** Vertical subsampling; if non-zero, divide the height by this
 	 *  member to obtain the number of rows in the source buffer for
 	 *  secondary planes only. */
 	int vsub;

 	/* Ordering of chroma components. */
 	enum {
 		ORDER_UV = 0,
 		ORDER_VU,
 	} chroma_order;

 	/* If packed YUV (num_planes == 1), ordering of luma/chroma
 	 * components. */
 	enum {
 		ORDER_LUMA_CHROMA = 0,
 		ORDER_CHROMA_LUMA,
 	} luma_chroma_order;
 };

 /**
  * Get pixel format information for a DRM format code
  *
  * Given a DRM format code, return a pixel format info structure describing
  * the properties of that format.
  *
  * @param format DRM format code to get info for
  * @returns A pixel format structure (must not be freed), or NULL if the
  *          format could not be found
  */
 const struct pixel_format_info *pixel_format_get_info(uint32_t format);

 /**
  * Get number of planes used by a pixel format
  *
  * Given a pixel format info structure, return the number of planes
  * required for a buffer. Note that this is not necessarily identical to
  * the number of samplers required to be bound, as two views into a single
  * plane are sometimes required.
  *
  * @param format Pixel format info structure
  * @returns Number of planes required for the format
  */
 unsigned int
 pixel_format_get_plane_count(const struct pixel_format_info *format);

 /**
  * Determine if a pixel format is opaque or contains alpha
  *
  * Returns whether or not the pixel format is opaque, or contains a
  * significant alpha channel. Note that the suggested EGL sampler type may
  * still sample undefined data into the alpha channel; users must consider
  * alpha as 1.0 if the format is opaque, and not rely on the sampler to
  * return this when sampling from the alpha channel.
  *
  * @param format Pixel format info structure
  * @returns True if the format is opaque, or false if it has significant alpha
  */
 bool pixel_format_is_opaque(const struct pixel_format_info *format);

 /**
  * Get compatible opaque equivalent for a format
  *
  * Given a pixel format info structure, return a format which is wholly
  * compatible with the input format, but opaque, ignoring the alpha channel.
  * If an alpha format is provided, but the content is known to all be opaque,
  * then this can be used as a substitute to avoid blending.
  *
  * If the input format is opaque, this function will return the input format.
  *
  * @param format Pixel format info structure
  * @returns A pixel format info structure for the compatible opaque substitute
  */
 const struct pixel_format_info *
 pixel_format_get_opaque_substitute(const struct pixel_format_info *format);

 /**
  * Return the effective sampling width for a given plane
  *
  * When horizontal subsampling is effective, a sampler bound to a secondary
  * plane must bind the sampler with a smaller effective width. This function
  * returns the effective width to use for the sampler, i.e. dividing by hsub.
  *
  * If horizontal subsampling is not in effect, this will be equal to the
  * width.
  *
  * @param format Pixel format info structure
  * @param plane Zero-indexed plane number
  * @param width Width of the buffer
  * @returns Effective width for sampling
  */
 unsigned int
 pixel_format_width_for_plane(const struct pixel_format_info *format,
 			     unsigned int plane,
 			     unsigned int width);

 /**
  * Return the effective sampling height for a given plane
  *
  * When vertical subsampling is in effect, a sampler bound to a secondary
  * plane must bind the sampler with a smaller effective height. This function
  * returns the effective height to use for the sampler, i.e. dividing by vsub.
  *
  * If vertical subsampling is not in effect, this will be equal to the height.
  *
  * @param format Pixel format info structure
  * @param plane Zero-indexed plane number
  * @param height Height of the buffer
  * @returns Effective width for sampling
  */
 unsigned int
 pixel_format_height_for_plane(const struct pixel_format_info *format,
 			      unsigned int plane,
 			      unsigned int height);
	/*
	* Copyright © 2016 Collabora, Ltd.
	*
	* 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 (including the next
	* paragraph) 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 OR COPYRIGHT HOLDERS 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.
	*
	* Author: Daniel Stone <daniels@collabora.com>
	*/

	#include <inttypes.h>
	#include <stdbool.h>

	/**
	* Contains information about pixel formats, mapping format codes from
	* wl_shm and drm_fourcc.h (which are deliberately identical, but for the
	* special cases of WL_SHM_ARGB8888 and WL_SHM_XRGB8888) into various
	* sets of information. Helper functions are provided for dealing with these
	* raw structures.
	*/
	struct pixel_format_info {
	/** DRM/wl_shm format code */
	uint32_t format;

	/** If non-zero, number of planes in base (non-modified) format. */
	int num_planes;

	/** If format contains alpha channel, opaque equivalent of format,
	* i.e. alpha channel replaced with X. */
	uint32_t opaque_substitute;

	/** How the format should be sampled, expressed in terms of tokens
	* from the EGL_WL_bind_wayland_display extension. If not set,
	* assumed to be either RGB or RGBA, depending on whether or not
	* the format contains an alpha channel. The samplers may still
	* return alpha even for opaque formats; users must manually set
	* the alpha channel to 1.0 (or ignore it) if the format is
	* opaque. */
	uint32_t sampler_type;

	/** GL format, if data can be natively/directly uploaded. Note that
	* whilst DRM formats are little-endian unless explicitly specified,
	* (i.e. DRM_FORMAT_ARGB8888 is stored BGRA as sequential bytes in
	* memory), GL uses the sequential byte order, so that format maps to
	* GL_BGRA_EXT plus GL_UNSIGNED_BYTE. To add to the confusion, the
	* explicitly-sized types (e.g. GL_UNSIGNED_SHORT_5_5_5_1) read in
	* machine-endian order, so for these types, the correspondence
	* depends on endianness. */
	int gl_format;

	/** GL data type, if data can be natively/directly uploaded. */
	int gl_type;

	/** If set, this format can be used with the legacy drmModeAddFB()
	* function (not AddFB2), using this and the bpp member. */
	int depth;

	/** See 'depth' member above. */
	int bpp;

	/** Horizontal subsampling; if non-zero, divide the width by this
	* member to obtain the number of columns in the source buffer for
	* secondary planes only. Stride is not affected by horizontal
	* subsampling. */
	int hsub;

	/** Vertical subsampling; if non-zero, divide the height by this
	* member to obtain the number of rows in the source buffer for
	* secondary planes only. */
	int vsub;

	/* Ordering of chroma components. */
	enum {
	ORDER_UV = 0,
	ORDER_VU,
	} chroma_order;

	/* If packed YUV (num_planes == 1), ordering of luma/chroma
	* components. */
	enum {
	ORDER_LUMA_CHROMA = 0,
	ORDER_CHROMA_LUMA,
	} luma_chroma_order;
	};

	/**
	* Get pixel format information for a DRM format code
	*
	* Given a DRM format code, return a pixel format info structure describing
	* the properties of that format.
	*
	* @param format DRM format code to get info for
	* @returns A pixel format structure (must not be freed), or NULL if the
	* format could not be found
	*/
	const struct pixel_format_info *pixel_format_get_info(uint32_t format);

	/**
	* Get number of planes used by a pixel format
	*
	* Given a pixel format info structure, return the number of planes
	* required for a buffer. Note that this is not necessarily identical to
	* the number of samplers required to be bound, as two views into a single
	* plane are sometimes required.
	*
	* @param format Pixel format info structure
	* @returns Number of planes required for the format
	*/
	unsigned int
	pixel_format_get_plane_count(const struct pixel_format_info *format);

	/**
	* Determine if a pixel format is opaque or contains alpha
	*
	* Returns whether or not the pixel format is opaque, or contains a
	* significant alpha channel. Note that the suggested EGL sampler type may
	* still sample undefined data into the alpha channel; users must consider
	* alpha as 1.0 if the format is opaque, and not rely on the sampler to
	* return this when sampling from the alpha channel.
	*
	* @param format Pixel format info structure
	* @returns True if the format is opaque, or false if it has significant alpha
	*/
	bool pixel_format_is_opaque(const struct pixel_format_info *format);

	/**
	* Get compatible opaque equivalent for a format
	*
	* Given a pixel format info structure, return a format which is wholly
	* compatible with the input format, but opaque, ignoring the alpha channel.
	* If an alpha format is provided, but the content is known to all be opaque,
	* then this can be used as a substitute to avoid blending.
	*
	* If the input format is opaque, this function will return the input format.
	*
	* @param format Pixel format info structure
	* @returns A pixel format info structure for the compatible opaque substitute
	*/
	const struct pixel_format_info *
	pixel_format_get_opaque_substitute(const struct pixel_format_info *format);

	/**
	* Return the effective sampling width for a given plane
	*
	* When horizontal subsampling is effective, a sampler bound to a secondary
	* plane must bind the sampler with a smaller effective width. This function
	* returns the effective width to use for the sampler, i.e. dividing by hsub.
	*
	* If horizontal subsampling is not in effect, this will be equal to the
	* width.
	*
	* @param format Pixel format info structure
	* @param plane Zero-indexed plane number
	* @param width Width of the buffer
	* @returns Effective width for sampling
	*/
	unsigned int
	pixel_format_width_for_plane(const struct pixel_format_info *format,
	unsigned int plane,
	unsigned int width);

	/**
	* Return the effective sampling height for a given plane
	*
	* When vertical subsampling is in effect, a sampler bound to a secondary
	* plane must bind the sampler with a smaller effective height. This function
	* returns the effective height to use for the sampler, i.e. dividing by vsub.
	*
	* If vertical subsampling is not in effect, this will be equal to the height.
	*
	* @param format Pixel format info structure
	* @param plane Zero-indexed plane number
	* @param height Height of the buffer
	* @returns Effective width for sampling
	*/
	unsigned int
	pixel_format_height_for_plane(const struct pixel_format_info *format,
	unsigned int plane,
	unsigned int height);