Search
lxdream.org :: lxdream/src/display.c
lxdream 0.9.1
released Jun 29
Download Now
filename src/display.c
changeset 1010:a506a2f66180
prev849:bbe26d798fc2
next1019:87f191f92f8f
author nkeynes
date Sun Apr 12 02:04:27 2009 +0000 (11 years ago)
permissions -rw-r--r--
last change Fix analogue joystick input
view annotate diff log raw
     1 /**
     2  * $Id$
     3  *
     4  * Generic support for keyboard and other input sources. The active display
     5  * driver is expected to deliver events here, where they're translated and
     6  * passed to the appropriate dreamcast controllers (if any).
     7  *
     8  * Copyright (c) 2005 Nathan Keynes.
     9  *
    10  * This program is free software; you can redistribute it and/or modify
    11  * it under the terms of the GNU General Public License as published by
    12  * the Free Software Foundation; either version 2 of the License, or
    13  * (at your option) any later version.
    14  *
    15  * This program is distributed in the hope that it will be useful,
    16  * but WITHOUT ANY WARRANTY; without even the implied warranty of
    17  * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
    18  * GNU General Public License for more details.
    19  */
    21 #include <stdint.h>
    22 #include <assert.h>
    23 #include "dream.h"
    24 #include "display.h"
    25 #include "pvr2/pvr2.h"
    27 display_driver_t display_driver_list[] = {
    28 #ifdef HAVE_GTK
    29         &display_gtk_driver,
    30 #else
    31 #ifdef HAVE_COCOA
    32         &display_osx_driver,
    33 #endif
    34 #endif					   
    35         &display_null_driver,
    36         NULL };
    38 /* Some explanation:
    39  *   The system has at least one "root" device representing the main display 
    40  * (which may be the null display). This device is part of the display_driver
    41  * and generates events with no input_driver. The root device has no id
    42  * as such (for the purposes of event names)
    43  *
    44  *   The system may also have one or more auxilliary devices which each have
    45  * an input_driver and an id (eg "JS0"). So the keysym "Return" is (de)coded by
    46  * the root device, and the keysym "JS0: Button0" is (de)coded by the JS0 input
    47  * device as "Button0".
    48  *
    49  *   For the moment, mice are handled specially, as they behave a little
    50  * differently from other devices (although this will probably change in the 
    51  * future.
    52  */
    55 typedef struct keymap_entry {
    56     input_key_callback_t callback;
    57     void *data;
    58     uint32_t value;
    59     struct keymap_entry *next; // allow chaining
    60 } *keymap_entry_t;
    62 typedef struct mouse_entry {
    63     gboolean relative;
    64     input_mouse_callback_t callback;
    65     void *data;
    66     struct mouse_entry *next;
    67 } *mouse_entry_t;
    69 typedef struct input_driver_entry {
    70     input_driver_t driver;
    71     uint16_t entry_count;
    72     struct keymap_entry *keymap[0];
    73 } *input_driver_entry_t;
    75 /**
    76  * Colour format information
    77  */
    78 struct colour_format colour_formats[] = {
    79         { GL_UNSIGNED_SHORT_1_5_5_5_REV, GL_BGRA, GL_RGB5_A1, 2 },
    80         { GL_UNSIGNED_SHORT_5_6_5, GL_RGB, GL_RGB5, 2 },
    81         { GL_UNSIGNED_SHORT_4_4_4_4_REV, GL_BGRA, GL_RGBA4, 2 },
    82         { GL_UNSIGNED_BYTE, GL_BGRA, GL_RGBA8, 4 }, /* YUV decoded to ARGB8888 */
    83         { GL_UNSIGNED_BYTE, GL_BGR, GL_RGB, 3 },
    84         { GL_UNSIGNED_BYTE, GL_BGRA, GL_RGBA8, 4 },
    85         { GL_UNSIGNED_BYTE, GL_BGRA, GL_RGBA8, 4 }, /* Index4 decoded */
    86         { GL_UNSIGNED_BYTE, GL_BGRA, GL_RGBA8, 4 }, /* Index8 decoded */
    87         { GL_UNSIGNED_BYTE, GL_BGRA, GL_RGBA8, 4 },
    88         { GL_UNSIGNED_BYTE, GL_RGB, GL_RGB, 3 },
    90 };
    92 /**
    93  * FIXME: make this more memory efficient
    94  */
    95 static struct keymap_entry *root_keymap[65535];
    96 static struct keymap_entry *keyhooks = NULL;
    97 static gboolean display_focused = TRUE;
    98 static GList *input_drivers= NULL;
    99 static display_keysym_callback_t display_keysym_hook = NULL;
   100 void *display_keysym_hook_data;
   102 gboolean input_register_device( input_driver_t driver, uint16_t max_keycode )
   103 {
   104     GList *ptr;
   105     for( ptr = input_drivers; ptr != NULL; ptr = g_list_next(ptr) ) {
   106         input_driver_entry_t entry = (input_driver_entry_t)ptr->data;
   107         if( strcasecmp( entry->driver->id, driver->id ) == 0 ) {
   108             return FALSE;
   109         }
   110     }
   112     input_driver_entry_t entry = g_malloc0( sizeof(struct input_driver_entry) + (sizeof(keymap_entry_t) * max_keycode) );
   113     entry->driver = driver;
   114     entry->entry_count = max_keycode;
   115     input_drivers = g_list_append( input_drivers, entry );
   116     return TRUE;
   117 }
   119 gboolean input_has_device( const gchar *id )
   120 {
   121     GList *ptr;
   122     for( ptr = input_drivers; ptr != NULL; ptr = g_list_next(ptr) ) {
   123         input_driver_entry_t entry = (input_driver_entry_t)ptr->data;
   124         if( strcasecmp(entry->driver->id, id) == 0 ) {
   125             return TRUE;
   126         }
   127     }
   128     return FALSE;
   129 }
   132 void input_unregister_device( input_driver_t driver )
   133 {
   134     GList *ptr;
   135     for( ptr = input_drivers; ptr != NULL; ptr = g_list_next(ptr) ) {
   136         input_driver_entry_t entry = (input_driver_entry_t)ptr->data;
   137         if( entry->driver == driver ) {
   138             if( driver->destroy != NULL ) {
   139                 driver->destroy(driver);
   140             }
   141             input_drivers = g_list_remove(input_drivers, (gpointer)entry);
   142             g_free( entry );
   143             return;
   144         }
   145     }
   146 }
   148 /**
   149  * Resolve the keysym and return a pointer to the keymap entry pointer
   150  * @return keymap pointer or NULL if the key was unresolved
   151  */
   152 static struct keymap_entry **input_entry_from_keysym( const gchar *keysym )
   153 {
   154     if( keysym == NULL || keysym[0] == 0 ) {
   155         return NULL;
   156     }
   157     char **strv = g_strsplit(keysym,":",2);
   158     if( strv[1] == NULL ) {
   159         /* root device */
   160         if( display_driver == NULL || display_driver->resolve_keysym == NULL) {
   161             // Root device has no input handling
   162             g_strfreev(strv);
   163             return NULL;
   164         }
   165         uint16_t keycode = display_driver->resolve_keysym(g_strstrip(strv[0]));
   166         g_strfreev(strv);
   167         if( keycode == 0 ) {
   168             return NULL;
   169         }
   170         return &root_keymap[keycode-1];
   172     } else {
   173         char *id = g_strstrip(strv[0]);
   174         GList *ptr;
   175         for( ptr = input_drivers; ptr != NULL; ptr = g_list_next(ptr) ) {
   176             input_driver_entry_t entry = (input_driver_entry_t)ptr->data;
   177             if( strcasecmp( entry->driver->id, id ) == 0 ) {
   178                 /* we have ze device */
   179                 if( entry->driver->resolve_keysym == NULL ) {
   180                     g_strfreev(strv);
   181                     return NULL;
   182                 } 
   183                 uint16_t keycode = entry->driver->resolve_keysym(entry->driver, g_strstrip(strv[1]));
   184                 g_strfreev(strv);
   185                 if( keycode == 0 || keycode > entry->entry_count ) {
   186                     return NULL;
   187                 }
   188                 return &entry->keymap[keycode-1];
   189             }
   190         }
   191         g_strfreev(strv);
   192         return NULL; // device not found
   193     }
   194 }
   196 static struct keymap_entry **input_entry_from_keycode( input_driver_t driver, uint16_t keycode )
   197 {
   198     GList *ptr;
   200     if( keycode == 0 ) {
   201         return NULL;
   202     }
   204     if( driver == NULL ) {
   205         return &root_keymap[keycode-1];
   206     }
   208     for( ptr = input_drivers; ptr != NULL; ptr = g_list_next(ptr) ) {
   209         input_driver_entry_t entry = (input_driver_entry_t)ptr->data;
   210         if( entry->driver == driver ) {
   211             if( keycode > entry->entry_count ) {
   212                 return NULL;
   213             } else {
   214                 return &entry->keymap[keycode-1];
   215             }
   216         }
   217     }
   218     return NULL;
   219 }
   221 gchar *input_keycode_to_keysym( input_driver_t driver, uint16_t keycode )
   222 {
   223     if( keycode == 0 ) {
   224         return NULL;
   225     }
   226     if( driver == NULL ) {
   227         if( display_driver != NULL && display_driver->get_keysym_for_keycode != NULL ) {
   228             return display_driver->get_keysym_for_keycode(keycode);
   229         }
   230     } else if( driver->get_keysym_for_keycode ) {
   231         gchar *sym = driver->get_keysym_for_keycode(driver,keycode);
   232         if( sym != NULL ) {
   233             gchar *result = g_strdup_printf( "%s: %s", driver->id, sym );
   234             g_free(sym);
   235             return result;
   236         }
   237     }
   238     return NULL;
   239 }
   242 gboolean input_register_key( const gchar *keysym, input_key_callback_t callback,
   243                              void *data, uint32_t value )
   244 {
   245     if( keysym == NULL ) {
   246         return FALSE;
   247     }
   248     int keys = 0;
   249     gchar **strv = g_strsplit(keysym, ",", 16);
   250     gchar **s = strv;
   251     while( *s != NULL ) {
   252         keymap_entry_t *entryp = input_entry_from_keysym(*s);
   253         if( entryp != NULL ) {
   254             *entryp = g_malloc0(sizeof(struct keymap_entry));
   255             (*entryp)->callback = callback;
   256             (*entryp)->data = data;
   257             (*entryp)->value = value;
   258             keys++;
   259         }
   260         s++;
   261     }
   262     g_strfreev(strv);
   263     return keys != 0;
   264 }
   266 void input_unregister_key( const gchar *keysym, input_key_callback_t callback,
   267                            void *data, uint32_t value )
   268 {
   269     if( keysym == NULL ) {
   270         return;
   271     }
   273     gchar **strv = g_strsplit(keysym, ",", 16);
   274     gchar **s = strv;
   275     while( *s != NULL ) {
   276         keymap_entry_t *entryp = input_entry_from_keysym(*s);
   277         if( entryp != NULL && *entryp != NULL && (*entryp)->callback == callback &&
   278                 (*entryp)->data == data && (*entryp)->value == value ) {
   279             g_free( *entryp );
   280             *entryp = NULL;
   281         }
   282         s++;
   283     }
   284     g_strfreev(strv);
   285 }
   287 gboolean input_register_keyboard_hook( input_key_callback_t callback,
   288                               void *data )
   289 {
   290     keymap_entry_t key = malloc( sizeof( struct keymap_entry ) );
   291     assert( key != NULL );
   292     key->callback = callback;
   293     key->data = data;
   294     key->next = keyhooks;
   295     keyhooks = key;
   296     return TRUE;
   297 }
   299 void input_unregister_keyboard_hook( input_key_callback_t callback,
   300                             void *data )
   301 {
   302     keymap_entry_t key = keyhooks;
   303     if( key != NULL ) {
   304         if( key->callback == callback && key->data == data ) {
   305             keyhooks = keyhooks->next;
   306             free(key);
   307             return;
   308         }
   309         while( key->next != NULL ) {
   310             if( key->next->callback == callback && key->next->data == data ) {
   311                 keymap_entry_t next = key->next;
   312                 key->next = next->next;
   313                 free(next);
   314                 return;
   315             }
   316             key = key->next;
   317         }
   318     }
   319 }
   321 gboolean input_is_key_valid( const gchar *keysym )
   322 {
   323     keymap_entry_t *ptr = input_entry_from_keysym(keysym);
   324     return ptr != NULL;
   325 }
   327 gboolean input_is_key_registered( const gchar *keysym )
   328 {
   329     keymap_entry_t *ptr = input_entry_from_keysym(keysym);
   330     return ptr != NULL && *ptr != NULL;
   331 }
   333 void input_event_keydown( input_driver_t driver, uint16_t keycode, uint32_t pressure )
   334 {
   335     if( display_focused ) {
   336         keymap_entry_t *entryp = input_entry_from_keycode(driver,keycode);
   337         if( entryp != NULL && *entryp != NULL ) {
   338             (*entryp)->callback( (*entryp)->data, (*entryp)->value, pressure, TRUE );
   339         }
   340         if( driver == NULL ) {
   341             keymap_entry_t key = keyhooks;
   342             while( key != NULL ) {
   343                 key->callback( key->data, keycode, pressure, TRUE );
   344                 key = key->next;
   345             }
   346         }
   347     }
   348     if( display_keysym_hook != NULL ) {
   349         gchar *sym = input_keycode_to_keysym( driver, keycode );
   350         if( sym != NULL ) {
   351             display_keysym_hook(display_keysym_hook_data, sym);
   352             g_free(sym);
   353         }
   354     }
   355 }
   357 void input_event_keyup( input_driver_t driver, uint16_t keycode )
   358 {
   359     if( display_focused ) {
   360         keymap_entry_t *entryp = input_entry_from_keycode(driver,keycode);
   361         if( entryp != NULL && *entryp != NULL ) {
   362             (*entryp)->callback( (*entryp)->data, (*entryp)->value, 0, FALSE );
   363         }
   365         if( driver == NULL ) {
   366             keymap_entry_t key = keyhooks;
   367             while( key != NULL ) {
   368                 key->callback( key->data, keycode, 0, FALSE );
   369                 key = key->next;
   370             }
   371         }
   372     }
   373 }
   375 uint16_t input_keycode_to_dckeysym( uint16_t keycode )
   376 {
   377     return display_driver->convert_to_dckeysym(keycode);
   378 }
   380 void input_set_keysym_hook( display_keysym_callback_t hook, void *data )
   381 {
   382     display_keysym_hook = hook;
   383     display_keysym_hook_data = data;
   384 }
   386 /***************** System mouse driver ****************/
   388 static struct keymap_entry *mouse_keymap[MAX_MOUSE_BUTTONS];
   389 static struct mouse_entry *mousehooks = NULL;
   390 static uint32_t mouse_x = -1, mouse_y = -1, mouse_buttons = 0;
   392 uint16_t mouse_resolve_keysym( struct input_driver *driver, const gchar *keysym )
   393 {
   394     if( strncasecmp( keysym, "Button", 6 ) == 0 ){
   395         unsigned long button = strtoul( keysym+6, NULL, 10 );
   396         if( button > MAX_MOUSE_BUTTONS ) {
   397             return 0;
   398         }
   399         return (uint16_t)button;
   400     }
   401     return 0;
   402 }
   404 gchar *mouse_get_keysym( struct input_driver *driver, uint16_t keycode )
   405 {
   406     return g_strdup_printf( "Button%d", (keycode) );
   407 }
   409 struct input_driver system_mouse_driver = { "Mouse", mouse_resolve_keysym, NULL, mouse_get_keysym, NULL };
   412 gboolean input_register_mouse_hook( gboolean relative, input_mouse_callback_t callback,
   413                                     void *data )
   414 {
   415     mouse_entry_t ent = malloc( sizeof( struct mouse_entry ) );
   416     assert( ent != NULL );
   417     ent->callback = callback;
   418     ent->data = data;
   419     ent->next = mousehooks;
   420     mousehooks = ent;
   421     return TRUE;
   422 }    
   424 void input_unregister_mouse_hook( input_mouse_callback_t callback, void *data )
   425 {
   426     mouse_entry_t ent = mousehooks;
   427     if( ent != NULL ) {
   428         if( ent->callback == callback && ent->data == data ) {
   429             mousehooks = mousehooks->next;
   430             free(ent);
   431             return;
   432         }
   433         while( ent->next != NULL ) {
   434             if( ent->next->callback == callback && ent->next->data == data ) {
   435                 mouse_entry_t next = ent->next;
   436                 ent->next = next->next;
   437                 free(next);
   438                 return;
   439             }
   440             ent = ent->next;
   441         }
   442     }
   443 }
   445 void input_event_run_mouse_hooks( uint32_t buttons, int32_t x, int32_t y, gboolean absolute )
   446 {
   447     mouse_entry_t ent = mousehooks;
   448     while( ent != NULL ) {
   449         ent->callback(ent->data, buttons, x, y, absolute);
   450         ent = ent->next;
   451     }
   452 }
   454 void input_event_mousedown( uint16_t button, int32_t x, int32_t y, gboolean absolute )
   455 {
   456     if( absolute ) {
   457         mouse_x = x;
   458         mouse_y = y;
   459     }
   460     mouse_buttons |= (1<<button);
   461     input_event_keydown( &system_mouse_driver, button+1, MAX_PRESSURE );
   462     input_event_run_mouse_hooks( mouse_buttons, x, y, absolute );
   463 }    
   465 void input_event_mouseup( uint16_t button, int32_t x, int32_t y, gboolean absolute )
   466 {
   467     if( absolute ) {
   468         mouse_x = x;
   469         mouse_y = y;
   470     }
   471     mouse_buttons &= ~(1<<button);
   472     input_event_keyup( &system_mouse_driver, button+1 );
   473     input_event_run_mouse_hooks( mouse_buttons, x, y, absolute );
   474 }
   476 void input_event_mousemove( int32_t x, int32_t y, gboolean absolute )
   477 {
   478     if( absolute ) {
   479         mouse_x = x;
   480         mouse_y = y;
   481     }
   482     input_event_run_mouse_hooks( mouse_buttons, x, y, absolute );
   483 }
   485 /************************ Main display driver *************************/
   487 void print_display_drivers( FILE *out )
   488 {
   489     int i;
   490     fprintf( out, "Available video drivers:\n" );
   491     for( i=0; display_driver_list[i] != NULL; i++ ) {
   492         fprintf( out, "  %-8s %s\n", display_driver_list[i]->name,
   493                 gettext(display_driver_list[i]->description) );
   494     }
   495 }
   497 display_driver_t get_display_driver_by_name( const char *name )
   498 {
   499     int i;
   500     if( name == NULL ) {
   501         return display_driver_list[0];
   502     }
   503     for( i=0; display_driver_list[i] != NULL; i++ ) {
   504         if( strcasecmp( display_driver_list[i]->name, name ) == 0 ) {
   505             return display_driver_list[i];
   506         }
   507     }
   509     return NULL;
   510 }
   513 gboolean display_set_driver( display_driver_t driver )
   514 {
   515     gboolean rv = TRUE;
   516     if( display_driver != NULL && display_driver->shutdown_driver != NULL ) 
   517         display_driver->shutdown_driver();
   519     display_driver = driver;
   520     if( driver->init_driver != NULL )
   521         rv = driver->init_driver();
   522     if( rv ) {
   523         input_register_device(&system_mouse_driver, MAX_MOUSE_BUTTONS);
   524     } else {
   525         display_driver = NULL;
   526     }
   527     return rv;
   528 }
   530 void display_set_focused( gboolean has_focus )
   531 {
   532     display_focused = has_focus;
   533 }
.