lxdream.org :: lxdream/src/display.h r674:377d987db8f2 (annotated)

tree revision 680:e237d43e011d

filename	src/display.h
changeset	674:377d987db8f2
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next	681:1755a126b109
author	nkeynes
date	Sun Jun 01 00:46:15 2008 +0000 (15 years ago)
permissions	-rw-r--r--
last change	Build tests as part of make check, not make all

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nkeynes@144	1	/**
nkeynes@561	2	* $Id$
nkeynes@144	3	*
nkeynes@144	4	* The PC side of the video support (responsible for actually displaying /
nkeynes@144	5	* rendering frames)
nkeynes@144	6	*
nkeynes@144	7	* Copyright (c) 2005 Nathan Keynes.
nkeynes@144	8	*
nkeynes@144	9	* This program is free software; you can redistribute it and/or modify
nkeynes@144	10	* it under the terms of the GNU General Public License as published by
nkeynes@144	11	* the Free Software Foundation; either version 2 of the License, or
nkeynes@144	12	* (at your option) any later version.
nkeynes@144	13	*
nkeynes@144	14	* This program is distributed in the hope that it will be useful,
nkeynes@144	15	* but WITHOUT ANY WARRANTY; without even the implied warranty of
nkeynes@144	16	* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
nkeynes@144	17	* GNU General Public License for more details.
nkeynes@144	18	*/
nkeynes@144	19
nkeynes@144	20	#ifndef dream_video_H
nkeynes@144	21	#define dream_video_H
nkeynes@144	22
nkeynes@669	23	#define GL_GLEXT_PROTOTYPES 1
nkeynes@669	24
nkeynes@144	25	#include <stdint.h>
nkeynes@144	26	#include <glib.h>
nkeynes@540	27	#include "lxdream.h"
nkeynes@540	28	#ifdef APPLE_BUILD
nkeynes@540	29	#include <OpenGL/gl.h>
nkeynes@540	30	#include <OpenGL/glext.h>
nkeynes@540	31	#else
nkeynes@327	32	#include <GL/gl.h>
nkeynes@540	33	#include <GL/glext.h>
nkeynes@540	34	#endif
nkeynes@144	35
nkeynes@144	36	#ifdef __cplusplus
nkeynes@144	37	extern "C" {
nkeynes@144	38	#endif
nkeynes@144	39
nkeynes@144	40	/**
nkeynes@477	41	* Supported colour formats. Note that BGRA4444 is only ever used for texture
nkeynes@144	42	* rendering (it's not valid for display purposes).
nkeynes@144	43	*/
nkeynes@477	44	#define COLFMT_BGRA1555 0
nkeynes@144	45	#define COLFMT_RGB565 1
nkeynes@477	46	#define COLFMT_BGRA4444 2
nkeynes@144	47	#define COLFMT_YUV422 3 /* 8-bit YUV (texture source only) */
nkeynes@477	48	#define COLFMT_BGR888 4 /* 24-bit BGR */
nkeynes@477	49	#define COLFMT_BGRA8888 5
nkeynes@144	50	#define COLFMT_INDEX4 6 /* 4 bit indexed colour (texture source only) */
nkeynes@144	51	#define COLFMT_INDEX8 7 /* 8-bit indexed colour (texture source only) */
nkeynes@477	52	#define COLFMT_BGR0888 8 /* 32-bit BGR */
nkeynes@477	53	#define COLFMT_RGB888 9 /* 24-bit RGB (ie GL native) */
nkeynes@327	54
nkeynes@327	55	struct colour_format {
nkeynes@327	56	GLint type, format, int_format;
nkeynes@327	57	int bpp;
nkeynes@327	58	};
nkeynes@327	59	extern struct colour_format colour_formats[];
nkeynes@144	60
nkeynes@162	61	extern int colour_format_bytes[];
nkeynes@162	62
nkeynes@352	63	/**
nkeynes@352	64	* Structure to hold pixel data held in GL buffers.
nkeynes@352	65	*/
nkeynes@477	66	struct render_buffer {
nkeynes@352	67	uint32_t width;
nkeynes@352	68	uint32_t height;
nkeynes@144	69	uint32_t rowstride;
nkeynes@674	70	uint32_t colour_format;
nkeynes@352	71	sh4addr_t address; /* Address buffer was rendered to, or -1 for unrendered */
nkeynes@352	72	uint32_t size; /* Size of buffer in bytes, must be widthheightbpp */
nkeynes@477	73	gboolean inverted;/* True if the buffer is upside down */
nkeynes@674	74	uint32_t scale;
nkeynes@424	75	unsigned int buf_id; /* driver-specific buffer id, if applicable */
nkeynes@352	76	gboolean flushed; /* True if the buffer has been flushed to vram */
nkeynes@477	77	};
nkeynes@144	78
nkeynes@144	79	/**
nkeynes@352	80	* Structure to hold pixel data stored in pvr2 vram, as opposed to data in
nkeynes@352	81	* GL buffers.
nkeynes@352	82	*/
nkeynes@477	83	struct frame_buffer {
nkeynes@352	84	uint32_t width;
nkeynes@352	85	uint32_t height;
nkeynes@352	86	uint32_t rowstride;
nkeynes@674	87	uint32_t colour_format;
nkeynes@352	88	sh4addr_t address;
nkeynes@352	89	uint32_t size; /* Size of buffer in bytes, must be widthheightbpp */
nkeynes@477	90	gboolean inverted;/* True if the buffer is upside down */
nkeynes@502	91	unsigned char *data;
nkeynes@477	92	};
nkeynes@352	93
nkeynes@352	94	/**
nkeynes@352	95	* Core video driver - exports function to setup a GL context, as well as handle
nkeynes@352	96	* keyboard input and display resultant output.
nkeynes@144	97	*/
nkeynes@144	98	typedef struct display_driver {
nkeynes@144	99	char *name;
nkeynes@144	100	/**
nkeynes@144	101	* Initialize the driver. This is called only once at startup time, and
nkeynes@144	102	* is guaranteed to be called before any other methods.
nkeynes@144	103	* @return TRUE if the driver was successfully initialized, otherwise
nkeynes@144	104	* FALSE.
nkeynes@144	105	*/
nkeynes@144	106	gboolean (*init_driver)(void);
nkeynes@144	107
nkeynes@144	108	/**
nkeynes@144	109	* Cleanly shutdown the driver. Normally only called at system shutdown
nkeynes@144	110	* time.
nkeynes@144	111	*/
nkeynes@144	112	void (*shutdown_driver)(void);
nkeynes@144	113
nkeynes@144	114	/**
nkeynes@144	115	* Given a particular keysym, return the keycode associated with it.
nkeynes@144	116	* @param keysym The keysym to be resolved, ie "Tab"
nkeynes@144	117	* @return the display-specific keycode, or 0 if the keysym cannot
nkeynes@144	118	* be resolved.
nkeynes@144	119	*/
nkeynes@144	120	uint16_t (resolve_keysym)( const gchar keysym );
nkeynes@144	121
nkeynes@144	122	/**
nkeynes@608	123	* Given a native system keycode, convert it to a dreamcast keyboard code.
nkeynes@608	124	*/
nkeynes@608	125	uint16_t (*convert_to_dckeysym)( uint16_t keycode );
nkeynes@608	126
nkeynes@608	127	/**
nkeynes@614	128	* Given a device-specific event code, return the corresponding keysym.
nkeynes@614	129	* The string should be newly allocated (caller will free)
nkeynes@614	130	*/
nkeynes@614	131	gchar (get_keysym_for_keycode)( uint16_t keycode );
nkeynes@614	132
nkeynes@614	133	/**
nkeynes@352	134	* Create a render target with the given width and height.
nkeynes@144	135	*/
nkeynes@352	136	render_buffer_t (*create_render_buffer)( uint32_t width, uint32_t height );
nkeynes@144	137
nkeynes@144	138	/**
nkeynes@352	139	* Destroy the specified render buffer and release any associated
nkeynes@352	140	* resources.
nkeynes@144	141	*/
nkeynes@352	142	void (*destroy_render_buffer)( render_buffer_t buffer );
nkeynes@352	143
nkeynes@144	144	/**
nkeynes@352	145	* Set the current rendering target to the specified buffer.
nkeynes@144	146	*/
nkeynes@352	147	gboolean (*set_render_target)( render_buffer_t buffer );
nkeynes@352	148
nkeynes@352	149	/**
nkeynes@477	150	* Load the supplied frame buffer into the given render buffer.
nkeynes@477	151	* Included here to allow driver-specific optimizations.
nkeynes@352	152	*/
nkeynes@477	153	void (*load_frame_buffer)( frame_buffer_t frame, render_buffer_t render );
nkeynes@352	154
nkeynes@352	155	/**
nkeynes@352	156	* Display a single frame using a previously rendered GL buffer.
nkeynes@352	157	*/
nkeynes@669	158	void (*display_render_buffer)( render_buffer_t buffer );
nkeynes@144	159
nkeynes@144	160	/**
nkeynes@144	161	* Display a single blanked frame using a fixed colour for the
nkeynes@477	162	* entire frame (specified in BGR888 format).
nkeynes@144	163	*/
nkeynes@669	164	void (*display_blank)( uint32_t rgb );
nkeynes@144	165
nkeynes@144	166	/**
nkeynes@352	167	* Copy the image data from the GL buffer to the target memory buffer,
nkeynes@352	168	* using the format etc from the buffer. This may force a glFinish()
nkeynes@352	169	* but does not invalidate the buffer.
nkeynes@477	170	* @param target buffer to fill with image data, which must be large enough
nkeynes@477	171	* to accomodate the image.
nkeynes@477	172	* @param buffer Render buffer to read from.
nkeynes@477	173	* @param rowstride rowstride of the target data
nkeynes@477	174	* @param format colour format to output the data in.
nkeynes@144	175	*/
nkeynes@477	176	gboolean (read_render_buffer)( unsigned char target, render_buffer_t buffer,
nkeynes@477	177	int rowstride, int format );
nkeynes@352	178
nkeynes@144	179	} *display_driver_t;
nkeynes@144	180
nkeynes@531	181	display_driver_t get_display_driver_by_name( const char *name );
nkeynes@370	182	gboolean display_set_driver( display_driver_t driver );
nkeynes@144	183
nkeynes@144	184	extern uint32_t pvr2_frame_counter;
nkeynes@144	185
nkeynes@144	186	extern display_driver_t display_driver;
nkeynes@144	187
nkeynes@540	188	extern struct display_driver display_agl_driver;
nkeynes@144	189	extern struct display_driver display_gtk_driver;
nkeynes@144	190	extern struct display_driver display_null_driver;
nkeynes@144	191
nkeynes@144	192	/**************** Input methods ********************/
nkeynes@144	193
nkeynes@614	194	typedef void (input_key_callback_t)( void data, uint32_t value, uint32_t pressure, gboolean isKeyDown );
nkeynes@144	195
nkeynes@608	196	/**
nkeynes@608	197	* Callback to receive mouse input events
nkeynes@608	198	* @param data pointer passed in at the time the hook was registered
nkeynes@608	199	* @param buttons bitmask of button states, where bit 0 is button 0 (left), bit 1 is button
nkeynes@608	200	* 1 (middle), bit 2 is button 2 (right) and so forth.
nkeynes@608	201	* @param x Horizontal movement since the last invocation (in relative mode) or window position
nkeynes@608	202	* (in absolute mode).
nkeynes@608	203	* @param y Vertical movement since the last invocation (in relative mode) or window position
nkeynes@608	204	* (in absolute mode).
nkeynes@608	205	*/
nkeynes@608	206	typedef void (input_mouse_callback_t)( void data, uint32_t buttons, int32_t x, int32_t y );
nkeynes@608	207
nkeynes@144	208	gboolean input_register_key( const gchar *keysym, input_key_callback_t callback,
nkeynes@144	209	void *data, uint32_t value );
nkeynes@144	210
nkeynes@451	211	void input_unregister_key( const gchar *keysym, input_key_callback_t callback,
nkeynes@451	212	void *data, uint32_t value );
nkeynes@144	213
nkeynes@608	214	/**
nkeynes@608	215	* Register a hook to receive all input events
nkeynes@608	216	*/
nkeynes@608	217	gboolean input_register_hook( input_key_callback_t callback, void *data );
nkeynes@608	218	void input_unregister_hook( input_key_callback_t callback, void *data );
nkeynes@608	219
nkeynes@608	220	/**
nkeynes@608	221	* Register a mouse event hook.
nkeynes@608	222	* @param relative TRUE if the caller wants relative mouse movement, FALSE for
nkeynes@608	223	* absolute mouse positioning. It's not generally possible to receive both at the same time.
nkeynes@608	224	*/
nkeynes@608	225	gboolean input_register_mouse_hook( gboolean relative, input_mouse_callback_t callback, void *data );
nkeynes@608	226	void input_unregister_mouse_hook( input_mouse_callback_t callback, void *data );
nkeynes@608	227
nkeynes@144	228	gboolean input_is_key_valid( const gchar *keysym );
nkeynes@144	229
nkeynes@144	230	gboolean input_is_key_registered( const gchar *keysym );
nkeynes@144	231
nkeynes@614	232	uint16_t input_keycode_to_dckeysym( uint16_t keycode );
nkeynes@144	233
nkeynes@614	234	/******************** Display/Input methods *********************/
nkeynes@614	235
nkeynes@614	236	/**
nkeynes@614	237	* Auxilliary input driver - provides input separate to and in addition to the
nkeynes@614	238	* core UI/display. (primarily used for joystick devices)
nkeynes@614	239	*/
nkeynes@614	240	typedef struct input_driver {
nkeynes@614	241	const char id; / Short identifier to display in the UI for the device (eg "JS0" ) */
nkeynes@614	242
nkeynes@614	243	/**
nkeynes@614	244	* Given a particular keysym, return the keycode associated with it.
nkeynes@614	245	* @param keysym The keysym to be resolved, ie "Tab"
nkeynes@614	246	* @return the display-specific keycode, or 0 if the keysym cannot
nkeynes@614	247	* be resolved.
nkeynes@614	248	*/
nkeynes@614	249	uint16_t (resolve_keysym)( struct input_driver driver, const gchar *keysym );
nkeynes@614	250
nkeynes@614	251	/**
nkeynes@614	252	* Given a device-specific event code, convert it to a dreamcast keyboard code.
nkeynes@614	253	* This is only required for actual keyboard devices, other devices should just
nkeynes@614	254	* leave this method NULL.
nkeynes@614	255	*/
nkeynes@614	256	uint16_t (convert_to_dckeysym)( struct input_driver driver, uint16_t keycode );
nkeynes@614	257
nkeynes@614	258	/**
nkeynes@614	259	* Given a device-specific event code, return the corresponding keysym.
nkeynes@614	260	* The string should be newly allocated (caller will free)
nkeynes@614	261	*/
nkeynes@614	262	gchar (get_keysym_for_keycode)( struct input_driver *driver, uint16_t keycode );
nkeynes@614	263
nkeynes@614	264	/**
nkeynes@614	265	* Destroy the input driver.
nkeynes@614	266	*/
nkeynes@614	267	void (destroy)( struct input_driver driver );
nkeynes@614	268
nkeynes@614	269	} *input_driver_t;
nkeynes@614	270
nkeynes@614	271	/**
nkeynes@614	272	* Register a new input driver (which must have a unique name)
nkeynes@614	273	* @param driver the driver to register
nkeynes@614	274	* @param max_keycode the highest possible keycode reported by the device
nkeynes@614	275	* @return TRUE on success, FALSE on failure (eg driver already registed).
nkeynes@614	276	*/
nkeynes@614	277	gboolean input_register_device( input_driver_t driver, uint16_t max_keycode );
nkeynes@614	278
nkeynes@614	279	/**
nkeynes@615	280	* Determine if the system has an input driver with the given unique ID.
nkeynes@615	281	* @param id driver id to check
nkeynes@615	282	* @return TRUE if the device exists, otherwise FALSE
nkeynes@615	283	*/
nkeynes@615	284	gboolean input_has_device( const gchar *id );
nkeynes@615	285
nkeynes@615	286	/**
nkeynes@614	287	* Unregister an input driver.
nkeynes@614	288	* @param driver the driver to unregister
nkeynes@614	289	* If the driver is not in fact registered, this function has no effect.
nkeynes@614	290	*/
nkeynes@614	291	void input_unregister_device( input_driver_t driver );
nkeynes@614	292
nkeynes@614	293	/**
nkeynes@614	294	* Called from the UI to indicate that the emulation window is focused (ie
nkeynes@614	295	* able to receive input). This method is used to gate non-UI input devices -
nkeynes@614	296	* when the display is not focused, all input events will be silently ignored.
nkeynes@614	297	*/
nkeynes@614	298	void display_set_focused( gboolean has_focus );
nkeynes@614	299
nkeynes@614	300	void input_event_keydown( input_driver_t input, uint16_t keycode, uint32_t pressure );
nkeynes@614	301
nkeynes@614	302	void input_event_keyup( input_driver_t input, uint16_t keycode, uint32_t pressure );
nkeynes@144	303
nkeynes@608	304	void input_event_mouse( uint32_t buttons, int32_t x_axis, int32_t y_axis );
nkeynes@144	305
nkeynes@614	306
nkeynes@614	307	typedef void (display_keysym_callback_t)( void data, const gchar *keysym );
nkeynes@614	308
nkeynes@614	309	/**
nkeynes@614	310	* Set the keysym hook function (normally used by the UI to receive non-UI
nkeynes@614	311	* input events during configuration.
nkeynes@614	312	*/
nkeynes@614	313	void input_set_keysym_hook( display_keysym_callback_t hook, void *data );
nkeynes@614	314
nkeynes@614	315
nkeynes@144	316
nkeynes@144	317	#ifdef __cplusplus
nkeynes@144	318	}
nkeynes@144	319	#endif
nkeynes@144	320	#endif