/* * Copyright 2006-2007, Haiku, Inc. All Rights Reserved. * Distributed under the terms of the MIT License. * * Authors: * Axel Dörfler, axeld@pinc-software.de */ #ifndef ACCELERANT_PROTOS_H #define ACCELERANT_PROTOS_H #include #include "video_overlay.h" #ifdef __cplusplus extern "C" { #endif void spin(bigtime_t delay); // general status_t intel_init_accelerant(int fd); ssize_t intel_accelerant_clone_info_size(void); void intel_get_accelerant_clone_info(void *data); status_t intel_clone_accelerant(void *data); void intel_uninit_accelerant(void); status_t intel_get_accelerant_device_info(accelerant_device_info *info); sem_id intel_accelerant_retrace_semaphore(void); // modes & constraints uint32 intel_accelerant_mode_count(void); status_t intel_get_mode_list(display_mode *dm); status_t intel_propose_display_mode(display_mode *target, const display_mode *low, const display_mode *high); status_t intel_set_display_mode(display_mode *mode); status_t intel_get_display_mode(display_mode *currentMode); status_t intel_get_edid_info(void* info, size_t size, uint32* _version); status_t intel_get_frame_buffer_config(frame_buffer_config *config); status_t intel_get_pixel_clock_limits(display_mode *mode, uint32 *low, uint32 *high); status_t intel_move_display(uint16 hDisplayStart, uint16 vDisplayStart); status_t intel_get_timing_constraints(display_timing_constraints *constraints); void intel_set_indexed_colors(uint count, uint8 first, uint8 *colorData, uint32 flags); // DPMS uint32 intel_dpms_capabilities(void); uint32 intel_dpms_mode(void); status_t intel_set_dpms_mode(uint32 flags); // cursor status_t intel_set_cursor_shape(uint16 width, uint16 height, uint16 hotX, uint16 hotY, uint8 *andMask, uint8 *xorMask); void intel_move_cursor(uint16 x, uint16 y); void intel_show_cursor(bool isVisible); // accelerant engine uint32 intel_accelerant_engine_count(void); status_t intel_acquire_engine(uint32 capabilities, uint32 maxWait, sync_token *syncToken, engine_token **_engineToken); status_t intel_release_engine(engine_token *engineToken, sync_token *syncToken); void intel_wait_engine_idle(void); status_t intel_get_sync_token(engine_token *engineToken, sync_token *syncToken); status_t intel_sync_to_token(sync_token *syncToken); // 2D acceleration void intel_screen_to_screen_blit(engine_token *engineToken, blit_params *list, uint32 count); void intel_fill_rectangle(engine_token *engineToken, uint32 color, fill_rect_params *list, uint32 count); void intel_invert_rectangle(engine_token *engineToken, fill_rect_params *list, uint32 count); void intel_fill_span(engine_token *engineToken, uint32 color, uint16 *list, uint32 count); // overlay uint32 intel_overlay_count(const display_mode *mode); const uint32 *intel_overlay_supported_spaces(const display_mode *mode); uint32 intel_overlay_supported_features(uint32 colorSpace); const overlay_buffer *intel_allocate_overlay_buffer(color_space space, uint16 width, uint16 height); status_t intel_release_overlay_buffer(const overlay_buffer *buffer); status_t intel_get_overlay_constraints(const display_mode *mode, const overlay_buffer *buffer, overlay_constraints *constraints); overlay_token intel_allocate_overlay(void); status_t intel_release_overlay(overlay_token overlayToken); status_t intel_configure_overlay(overlay_token overlayToken, const overlay_buffer *buffer, const overlay_window *window, const overlay_view *view); #ifdef __cplusplus } #endif #endif /* ACCELERANT_PROTOS_H */