/* * Copyright (C) 2010 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ /** * @defgroup ANativeWindow Native Window * * ANativeWindow represents the producer end of an image queue. * It is the C counterpart of the android.view.Surface object in Java, * and can be converted both ways. Depending on the consumer, images * submitted to ANativeWindow can be shown on the display or sent to * other consumers, such as video encoders. * @{ */ /** * @file native_window.h * @brief API for accessing a native window. */ #ifndef ANDROID_NATIVE_WINDOW_H #define ANDROID_NATIVE_WINDOW_H #include #include #include #include #include #ifdef __cplusplus extern "C" { #endif /** * Legacy window pixel format names, kept for backwards compatibility. * New code and APIs should use AHARDWAREBUFFER_FORMAT_*. */ enum ANativeWindow_LegacyFormat { // NOTE: these values must match the values from graphics/common/x.x/types.hal /** Red: 8 bits, Green: 8 bits, Blue: 8 bits, Alpha: 8 bits. **/ WINDOW_FORMAT_RGBA_8888 = AHARDWAREBUFFER_FORMAT_R8G8B8A8_UNORM, /** Red: 8 bits, Green: 8 bits, Blue: 8 bits, Unused: 8 bits. **/ WINDOW_FORMAT_RGBX_8888 = AHARDWAREBUFFER_FORMAT_R8G8B8X8_UNORM, /** Red: 5 bits, Green: 6 bits, Blue: 5 bits. **/ WINDOW_FORMAT_RGB_565 = AHARDWAREBUFFER_FORMAT_R5G6B5_UNORM, }; /** * Transforms that can be applied to buffers as they are displayed to a window. * * Supported transforms are any combination of horizontal mirror, vertical * mirror, and clockwise 90 degree rotation, in that order. Rotations of 180 * and 270 degrees are made up of those basic transforms. */ enum ANativeWindowTransform { ANATIVEWINDOW_TRANSFORM_IDENTITY = 0x00, ANATIVEWINDOW_TRANSFORM_MIRROR_HORIZONTAL = 0x01, ANATIVEWINDOW_TRANSFORM_MIRROR_VERTICAL = 0x02, ANATIVEWINDOW_TRANSFORM_ROTATE_90 = 0x04, ANATIVEWINDOW_TRANSFORM_ROTATE_180 = ANATIVEWINDOW_TRANSFORM_MIRROR_HORIZONTAL | ANATIVEWINDOW_TRANSFORM_MIRROR_VERTICAL, ANATIVEWINDOW_TRANSFORM_ROTATE_270 = ANATIVEWINDOW_TRANSFORM_ROTATE_180 | ANATIVEWINDOW_TRANSFORM_ROTATE_90, }; struct ANativeWindow; /** * Opaque type that provides access to a native window. * * A pointer can be obtained using {@link ANativeWindow_fromSurface()}. */ typedef struct ANativeWindow ANativeWindow; /** * Struct that represents a windows buffer. * * A pointer can be obtained using {@link ANativeWindow_lock()}. */ typedef struct ANativeWindow_Buffer { /// The number of pixels that are shown horizontally. int32_t width; /// The number of pixels that are shown vertically. int32_t height; /// The number of *pixels* that a line in the buffer takes in /// memory. This may be >= width. int32_t stride; /// The format of the buffer. One of AHardwareBuffer_Format. int32_t format; /// The actual bits. void* bits; /// Do not touch. uint32_t reserved[6]; } ANativeWindow_Buffer; /** * Acquire a reference on the given {@link ANativeWindow} object. This prevents the object * from being deleted until the reference is removed. */ void ANativeWindow_acquire(ANativeWindow* window); /** * Remove a reference that was previously acquired with {@link ANativeWindow_acquire()}. */ void ANativeWindow_release(ANativeWindow* window); /** * Return the current width in pixels of the window surface. * * \return negative value on error. */ int32_t ANativeWindow_getWidth(ANativeWindow* window); /** * Return the current height in pixels of the window surface. * * \return a negative value on error. */ int32_t ANativeWindow_getHeight(ANativeWindow* window); /** * Return the current pixel format (AHARDWAREBUFFER_FORMAT_*) of the window surface. * * \return a negative value on error. */ int32_t ANativeWindow_getFormat(ANativeWindow* window); /** * Change the format and size of the window buffers. * * The width and height control the number of pixels in the buffers, not the * dimensions of the window on screen. If these are different than the * window's physical size, then its buffer will be scaled to match that size * when compositing it to the screen. The width and height must be either both zero * or both non-zero. * * For all of these parameters, if 0 is supplied then the window's base * value will come back in force. * * \param width width of the buffers in pixels. * \param height height of the buffers in pixels. * \param format one of the AHardwareBuffer_Format constants. * \return 0 for success, or a negative value on error. */ int32_t ANativeWindow_setBuffersGeometry(ANativeWindow* window, int32_t width, int32_t height, int32_t format); /** * Lock the window's next drawing surface for writing. * inOutDirtyBounds is used as an in/out parameter, upon entering the * function, it contains the dirty region, that is, the region the caller * intends to redraw. When the function returns, inOutDirtyBounds is updated * with the actual area the caller needs to redraw -- this region is often * extended by {@link ANativeWindow_lock}. * * \return 0 for success, or a negative value on error. */ int32_t ANativeWindow_lock(ANativeWindow* window, ANativeWindow_Buffer* outBuffer, ARect* inOutDirtyBounds); /** * Unlock the window's drawing surface after previously locking it, * posting the new buffer to the display. * * \return 0 for success, or a negative value on error. */ int32_t ANativeWindow_unlockAndPost(ANativeWindow* window); /** * Set a transform that will be applied to future buffers posted to the window. * * Available since API level 26. * * \param transform combination of {@link ANativeWindowTransform} flags * \return 0 for success, or -EINVAL if \p transform is invalid */ int32_t ANativeWindow_setBuffersTransform(ANativeWindow* window, int32_t transform) __INTRODUCED_IN(26); /** * All buffers queued after this call will be associated with the dataSpace * parameter specified. * * dataSpace specifies additional information about the buffer. * For example, it can be used to convey the color space of the image data in * the buffer, or it can be used to indicate that the buffers contain depth * measurement data instead of color images. The default dataSpace is 0, * ADATASPACE_UNKNOWN, unless it has been overridden by the producer. * * Available since API level 28. * * \param dataSpace data space of all buffers queued after this call. * \return 0 for success, -EINVAL if window is invalid or the dataspace is not * supported. */ int32_t ANativeWindow_setBuffersDataSpace(ANativeWindow* window, int32_t dataSpace) __INTRODUCED_IN(28); /** * Get the dataspace of the buffers in window. * * Available since API level 28. * * \return the dataspace of buffers in window, ADATASPACE_UNKNOWN is returned if * dataspace is unknown, or -EINVAL if window is invalid. */ int32_t ANativeWindow_getBuffersDataSpace(ANativeWindow* window) __INTRODUCED_IN(28); /** Compatibility value for ANativeWindow_setFrameRate. */ enum ANativeWindow_FrameRateCompatibility { /** * There are no inherent restrictions on the frame rate of this window. When * the system selects a frame rate other than what the app requested, the * app will be able to run at the system frame rate without requiring pull * down. This value should be used when displaying game content, UIs, and * anything that isn't video. */ ANATIVEWINDOW_FRAME_RATE_COMPATIBILITY_DEFAULT = 0, /** * This window is being used to display content with an inherently fixed * frame rate, e.g.\ a video that has a specific frame rate. When the system * selects a frame rate other than what the app requested, the app will need * to do pull down or use some other technique to adapt to the system's * frame rate. The user experience is likely to be worse (e.g. more frame * stuttering) than it would be if the system had chosen the app's requested * frame rate. This value should be used for video content. */ ANATIVEWINDOW_FRAME_RATE_COMPATIBILITY_FIXED_SOURCE = 1 }; /** * Sets the intended frame rate for this window. * * On devices that are capable of running the display at different refresh * rates, the system may choose a display refresh rate to better match this * window's frame rate. Usage of this API won't introduce frame rate throttling, * or affect other aspects of the application's frame production * pipeline. However, because the system may change the display refresh rate, * calls to this function may result in changes to Choreographer callback * timings, and changes to the time interval at which the system releases * buffers back to the application. * * Note that this only has an effect for windows presented on the display. If * this ANativeWindow is consumed by something other than the system compositor, * e.g. a media codec, this call has no effect. * * Available since API level 30. * * \param frameRate The intended frame rate of this window, in frames per * second. 0 is a special value that indicates the app will accept the system's * choice for the display frame rate, which is the default behavior if this * function isn't called. The frameRate param does not need to be a * valid refresh rate for this device's display - e.g., it's fine to pass 30fps * to a device that can only run the display at 60fps. * * \param compatibility The frame rate compatibility of this window. The * compatibility value may influence the system's choice of display refresh * rate. See the ANATIVEWINDOW_FRAME_RATE_COMPATIBILITY_* values for more info. * * \return 0 for success, -EINVAL if the window, frame rate, or compatibility * value are invalid. */ int32_t ANativeWindow_setFrameRate(ANativeWindow* window, float frameRate, int8_t compatibility) __INTRODUCED_IN(30); /** * Provides a hint to the window that buffers should be preallocated ahead of * time. Note that the window implementation is not guaranteed to preallocate * any buffers, for instance if an implementation disallows allocation of new * buffers, or if there is insufficient memory in the system to preallocate * additional buffers * * Available since API level 30. */ void ANativeWindow_tryAllocateBuffers(ANativeWindow* window); #ifdef __cplusplus }; #endif #endif // ANDROID_NATIVE_WINDOW_H /** @} */