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Date: Thu, 17 Jun 2004 11:38:51 -0700 (PDT) From: Eric Wing <ewing2121@yahoo.com> Subject: New OS X patch (was Re: [SDL] Bug with inverted mouse coordinates in I have a new patch for OS X I would like to submit. First, it appears no further action has been taken on my fix from Apple on the OpenGL windowed mode mouse inversion problem. The fix would reunify the code, and no longer require case checking for which version of the OS you are running. This is probably a good fix because the behavior with the old code could change again with future versions of the OS, so those fixes are included in this new patch. But in addition, when I was at Apple, I asked them about the ability to distinguish between the modifier keys on the left and right sides of the keyboard (e.g. Left Shift, Right Shift, Left/Right Alt, L/R Cmd, L/R Ctrl). They told me that starting with Panther, the OS began supporting this feature. This has always been a source of annoyance for me when bringing a program that comes from Windows or Linux to OS X when the keybindings happened to need distinguishable left-side and right-side keys. So the rest of the patch I am submitting contains new code to support this feature on Panther (and presumably later versions of the OS). So after removing the OS version checks for the mouse inversion problem, I reused the OS version checks to activate the Left/Right detection of modifier keys. If you are running Panther (or above), the new code will attempt to distinguish between sides. For the older OS's, the code path reverts to the original code. I've tested with Panther on a G4 Cube, G5 dual processor, and Powerbook Rev C. The Cube and G5 keyboards demonstrated the ability to distinguish between sides. The Powerbook seems to only have left-side keys, but the patch was still able to handle it by producing the same results as before the patch. I also wanted to test a non-Apple keyboard. Unfortunately, I don't have any PC USB keyboards. However, I was able to borrow a Sun Microsystems USB keyboard, so I tried that out on the G5, and I got the correct behavior for left and right sides. I'm expecting that if it worked with a Sun keyboard, most other keyboards should work with no problems.
author Sam Lantinga <slouken@libsdl.org>
date Fri, 20 Aug 2004 22:35:23 +0000
parents b8d311d90021
children ddd058103e28
line wrap: on
line source

/*
    SDL - Simple DirectMedia Layer
    Copyright (C) 1997-2004 Sam Lantinga

    This library is free software; you can redistribute it and/or
    modify it under the terms of the GNU Library General Public
    License as published by the Free Software Foundation; either
    version 2 of the License, or (at your option) any later version.

    This library is distributed in the hope that it will be useful,
    but WITHOUT ANY WARRANTY; without even the implied warranty of
    MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
    Library General Public License for more details.

    You should have received a copy of the GNU Library General Public
    License along with this library; if not, write to the Free
    Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA  02111-1307  USA

    Sam Lantinga
    slouken@libsdl.org
*/

#ifdef SAVE_RCSID
static char rcsid =
 "@(#) $Id$";
#endif

/* General keyboard handling code for SDL */

#include <stdio.h>
#include <ctype.h>
#include <stdlib.h>
#include <string.h>

#include "SDL_error.h"
#include "SDL_events.h"
#include "SDL_timer.h"
#include "SDL_events_c.h"
#include "SDL_sysevents.h"


/* Global keystate information */
static Uint8  SDL_KeyState[SDLK_LAST];
static SDLMod SDL_ModState;
int SDL_TranslateUNICODE = 0;

static char *keynames[SDLK_LAST];	/* Array of keycode names */

/*
 * jk 991215 - added
 */
struct {
	int firsttime;    /* if we check against the delay or repeat value */
	int delay;        /* the delay before we start repeating */
	int interval;     /* the delay between key repeat events */
	Uint32 timestamp; /* the time the first keydown event occurred */

	SDL_Event evt;    /* the event we are supposed to repeat */
} SDL_KeyRepeat;

/* Public functions */
int SDL_KeyboardInit(void)
{
	SDL_VideoDevice *video = current_video;
	SDL_VideoDevice *this  = current_video;
	Uint16 i;

	/* Set default mode of UNICODE translation */
	SDL_EnableUNICODE(DEFAULT_UNICODE_TRANSLATION);

	/* Initialize the tables */
	SDL_ModState = KMOD_NONE;
	for ( i=0; i<SDL_TABLESIZE(keynames); ++i )
		keynames[i] = NULL;
	for ( i=0; i<SDL_TABLESIZE(SDL_KeyState); ++i )
		SDL_KeyState[i] = SDL_RELEASED;
	video->InitOSKeymap(this);

	SDL_EnableKeyRepeat(0, 0);

	/* Fill in the blanks in keynames */
	keynames[SDLK_BACKSPACE] = "backspace";
	keynames[SDLK_TAB] = "tab";
	keynames[SDLK_CLEAR] = "clear";
	keynames[SDLK_RETURN] = "return";
	keynames[SDLK_PAUSE] = "pause";
	keynames[SDLK_ESCAPE] = "escape";
	keynames[SDLK_SPACE] = "space";
	keynames[SDLK_EXCLAIM]  = "!";
	keynames[SDLK_QUOTEDBL]  = "\"";
	keynames[SDLK_HASH]  = "#";
	keynames[SDLK_DOLLAR]  = "$";
	keynames[SDLK_AMPERSAND]  = "&";
	keynames[SDLK_QUOTE] = "'";
	keynames[SDLK_LEFTPAREN] = "(";
	keynames[SDLK_RIGHTPAREN] = ")";
	keynames[SDLK_ASTERISK] = "*";
	keynames[SDLK_PLUS] = "+";
	keynames[SDLK_COMMA] = ",";
	keynames[SDLK_MINUS] = "-";
	keynames[SDLK_PERIOD] = ".";
	keynames[SDLK_SLASH] = "/";
	keynames[SDLK_0] = "0";
	keynames[SDLK_1] = "1";
	keynames[SDLK_2] = "2";
	keynames[SDLK_3] = "3";
	keynames[SDLK_4] = "4";
	keynames[SDLK_5] = "5";
	keynames[SDLK_6] = "6";
	keynames[SDLK_7] = "7";
	keynames[SDLK_8] = "8";
	keynames[SDLK_9] = "9";
	keynames[SDLK_COLON] = ":";
	keynames[SDLK_SEMICOLON] = ";";
	keynames[SDLK_LESS] = "<";
	keynames[SDLK_EQUALS] = "=";
	keynames[SDLK_GREATER] = ">";
	keynames[SDLK_QUESTION] = "?";
	keynames[SDLK_AT] = "@";
	keynames[SDLK_LEFTBRACKET] = "[";
	keynames[SDLK_BACKSLASH] = "\\";
	keynames[SDLK_RIGHTBRACKET] = "]";
	keynames[SDLK_CARET] = "^";
	keynames[SDLK_UNDERSCORE] = "_";
	keynames[SDLK_BACKQUOTE] = "`";
	keynames[SDLK_a] = "a";
	keynames[SDLK_b] = "b";
	keynames[SDLK_c] = "c";
	keynames[SDLK_d] = "d";
	keynames[SDLK_e] = "e";
	keynames[SDLK_f] = "f";
	keynames[SDLK_g] = "g";
	keynames[SDLK_h] = "h";
	keynames[SDLK_i] = "i";
	keynames[SDLK_j] = "j";
	keynames[SDLK_k] = "k";
	keynames[SDLK_l] = "l";
	keynames[SDLK_m] = "m";
	keynames[SDLK_n] = "n";
	keynames[SDLK_o] = "o";
	keynames[SDLK_p] = "p";
	keynames[SDLK_q] = "q";
	keynames[SDLK_r] = "r";
	keynames[SDLK_s] = "s";
	keynames[SDLK_t] = "t";
	keynames[SDLK_u] = "u";
	keynames[SDLK_v] = "v";
	keynames[SDLK_w] = "w";
	keynames[SDLK_x] = "x";
	keynames[SDLK_y] = "y";
	keynames[SDLK_z] = "z";
	keynames[SDLK_DELETE] = "delete";

	keynames[SDLK_WORLD_0] = "world 0";
	keynames[SDLK_WORLD_1] = "world 1";
	keynames[SDLK_WORLD_2] = "world 2";
	keynames[SDLK_WORLD_3] = "world 3";
	keynames[SDLK_WORLD_4] = "world 4";
	keynames[SDLK_WORLD_5] = "world 5";
	keynames[SDLK_WORLD_6] = "world 6";
	keynames[SDLK_WORLD_7] = "world 7";
	keynames[SDLK_WORLD_8] = "world 8";
	keynames[SDLK_WORLD_9] = "world 9";
	keynames[SDLK_WORLD_10] = "world 10";
	keynames[SDLK_WORLD_11] = "world 11";
	keynames[SDLK_WORLD_12] = "world 12";
	keynames[SDLK_WORLD_13] = "world 13";
	keynames[SDLK_WORLD_14] = "world 14";
	keynames[SDLK_WORLD_15] = "world 15";
	keynames[SDLK_WORLD_16] = "world 16";
	keynames[SDLK_WORLD_17] = "world 17";
	keynames[SDLK_WORLD_18] = "world 18";
	keynames[SDLK_WORLD_19] = "world 19";
	keynames[SDLK_WORLD_20] = "world 20";
	keynames[SDLK_WORLD_21] = "world 21";
	keynames[SDLK_WORLD_22] = "world 22";
	keynames[SDLK_WORLD_23] = "world 23";
	keynames[SDLK_WORLD_24] = "world 24";
	keynames[SDLK_WORLD_25] = "world 25";
	keynames[SDLK_WORLD_26] = "world 26";
	keynames[SDLK_WORLD_27] = "world 27";
	keynames[SDLK_WORLD_28] = "world 28";
	keynames[SDLK_WORLD_29] = "world 29";
	keynames[SDLK_WORLD_30] = "world 30";
	keynames[SDLK_WORLD_31] = "world 31";
	keynames[SDLK_WORLD_32] = "world 32";
	keynames[SDLK_WORLD_33] = "world 33";
	keynames[SDLK_WORLD_34] = "world 34";
	keynames[SDLK_WORLD_35] = "world 35";
	keynames[SDLK_WORLD_36] = "world 36";
	keynames[SDLK_WORLD_37] = "world 37";
	keynames[SDLK_WORLD_38] = "world 38";
	keynames[SDLK_WORLD_39] = "world 39";
	keynames[SDLK_WORLD_40] = "world 40";
	keynames[SDLK_WORLD_41] = "world 41";
	keynames[SDLK_WORLD_42] = "world 42";
	keynames[SDLK_WORLD_43] = "world 43";
	keynames[SDLK_WORLD_44] = "world 44";
	keynames[SDLK_WORLD_45] = "world 45";
	keynames[SDLK_WORLD_46] = "world 46";
	keynames[SDLK_WORLD_47] = "world 47";
	keynames[SDLK_WORLD_48] = "world 48";
	keynames[SDLK_WORLD_49] = "world 49";
	keynames[SDLK_WORLD_50] = "world 50";
	keynames[SDLK_WORLD_51] = "world 51";
	keynames[SDLK_WORLD_52] = "world 52";
	keynames[SDLK_WORLD_53] = "world 53";
	keynames[SDLK_WORLD_54] = "world 54";
	keynames[SDLK_WORLD_55] = "world 55";
	keynames[SDLK_WORLD_56] = "world 56";
	keynames[SDLK_WORLD_57] = "world 57";
	keynames[SDLK_WORLD_58] = "world 58";
	keynames[SDLK_WORLD_59] = "world 59";
	keynames[SDLK_WORLD_60] = "world 60";
	keynames[SDLK_WORLD_61] = "world 61";
	keynames[SDLK_WORLD_62] = "world 62";
	keynames[SDLK_WORLD_63] = "world 63";
	keynames[SDLK_WORLD_64] = "world 64";
	keynames[SDLK_WORLD_65] = "world 65";
	keynames[SDLK_WORLD_66] = "world 66";
	keynames[SDLK_WORLD_67] = "world 67";
	keynames[SDLK_WORLD_68] = "world 68";
	keynames[SDLK_WORLD_69] = "world 69";
	keynames[SDLK_WORLD_70] = "world 70";
	keynames[SDLK_WORLD_71] = "world 71";
	keynames[SDLK_WORLD_72] = "world 72";
	keynames[SDLK_WORLD_73] = "world 73";
	keynames[SDLK_WORLD_74] = "world 74";
	keynames[SDLK_WORLD_75] = "world 75";
	keynames[SDLK_WORLD_76] = "world 76";
	keynames[SDLK_WORLD_77] = "world 77";
	keynames[SDLK_WORLD_78] = "world 78";
	keynames[SDLK_WORLD_79] = "world 79";
	keynames[SDLK_WORLD_80] = "world 80";
	keynames[SDLK_WORLD_81] = "world 81";
	keynames[SDLK_WORLD_82] = "world 82";
	keynames[SDLK_WORLD_83] = "world 83";
	keynames[SDLK_WORLD_84] = "world 84";
	keynames[SDLK_WORLD_85] = "world 85";
	keynames[SDLK_WORLD_86] = "world 86";
	keynames[SDLK_WORLD_87] = "world 87";
	keynames[SDLK_WORLD_88] = "world 88";
	keynames[SDLK_WORLD_89] = "world 89";
	keynames[SDLK_WORLD_90] = "world 90";
	keynames[SDLK_WORLD_91] = "world 91";
	keynames[SDLK_WORLD_92] = "world 92";
	keynames[SDLK_WORLD_93] = "world 93";
	keynames[SDLK_WORLD_94] = "world 94";
	keynames[SDLK_WORLD_95] = "world 95";

	keynames[SDLK_KP0] = "[0]";
	keynames[SDLK_KP1] = "[1]";
	keynames[SDLK_KP2] = "[2]";
	keynames[SDLK_KP3] = "[3]";
	keynames[SDLK_KP4] = "[4]";
	keynames[SDLK_KP5] = "[5]";
	keynames[SDLK_KP6] = "[6]";
	keynames[SDLK_KP7] = "[7]";
	keynames[SDLK_KP8] = "[8]";
	keynames[SDLK_KP9] = "[9]";
	keynames[SDLK_KP_PERIOD] = "[.]";
	keynames[SDLK_KP_DIVIDE] = "[/]";
	keynames[SDLK_KP_MULTIPLY] = "[*]";
	keynames[SDLK_KP_MINUS] = "[-]";
	keynames[SDLK_KP_PLUS] = "[+]";
	keynames[SDLK_KP_ENTER] = "enter";
	keynames[SDLK_KP_EQUALS] = "equals";

	keynames[SDLK_UP] = "up";
	keynames[SDLK_DOWN] = "down";
	keynames[SDLK_RIGHT] = "right";
	keynames[SDLK_LEFT] = "left";
	keynames[SDLK_DOWN] = "down";
	keynames[SDLK_INSERT] = "insert";
	keynames[SDLK_HOME] = "home";
	keynames[SDLK_END] = "end";
	keynames[SDLK_PAGEUP] = "page up";
	keynames[SDLK_PAGEDOWN] = "page down";

	keynames[SDLK_F1] = "f1";
	keynames[SDLK_F2] = "f2";
	keynames[SDLK_F3] = "f3";
	keynames[SDLK_F4] = "f4";
	keynames[SDLK_F5] = "f5";
	keynames[SDLK_F6] = "f6";
	keynames[SDLK_F7] = "f7";
	keynames[SDLK_F8] = "f8";
	keynames[SDLK_F9] = "f9";
	keynames[SDLK_F10] = "f10";
	keynames[SDLK_F11] = "f11";
	keynames[SDLK_F12] = "f12";
	keynames[SDLK_F13] = "f13";
	keynames[SDLK_F14] = "f14";
	keynames[SDLK_F15] = "f15";

	keynames[SDLK_NUMLOCK] = "numlock";
	keynames[SDLK_CAPSLOCK] = "caps lock";
	keynames[SDLK_SCROLLOCK] = "scroll lock";
	keynames[SDLK_RSHIFT] = "right shift";
	keynames[SDLK_LSHIFT] = "left shift";
	keynames[SDLK_RCTRL] = "right ctrl";
	keynames[SDLK_LCTRL] = "left ctrl";
	keynames[SDLK_RALT] = "right alt";
	keynames[SDLK_LALT] = "left alt";
	keynames[SDLK_RMETA] = "right meta";
	keynames[SDLK_LMETA] = "left meta";
	keynames[SDLK_LSUPER] = "left super";	/* "Windows" keys */
	keynames[SDLK_RSUPER] = "right super";	
	keynames[SDLK_MODE] = "alt gr";
	keynames[SDLK_COMPOSE] = "compose";

	keynames[SDLK_HELP] = "help";
	keynames[SDLK_PRINT] = "print screen";
	keynames[SDLK_SYSREQ] = "sys req";
	keynames[SDLK_BREAK] = "break";
	keynames[SDLK_MENU] = "menu";
	keynames[SDLK_POWER] = "power";
	keynames[SDLK_EURO] = "euro";
	keynames[SDLK_UNDO] = "undo";

	/* Done.  Whew. */
	return(0);
}

/* We lost the keyboard, so post key up messages for all pressed keys */
void SDL_ResetKeyboard(void)
{
	SDL_keysym keysym;
	SDLKey key;

	memset(&keysym, 0, (sizeof keysym));
	for ( key=SDLK_FIRST; key<SDLK_LAST; ++key ) {
		if ( SDL_KeyState[key] == SDL_PRESSED ) {
			keysym.sym = key;
			SDL_PrivateKeyboard(SDL_RELEASED, &keysym);
		}
	}
	SDL_KeyRepeat.timestamp = 0;
}

int SDL_EnableUNICODE(int enable)
{
	int old_mode;

	old_mode = SDL_TranslateUNICODE;
	if ( enable >= 0 ) {
		SDL_TranslateUNICODE = enable;
	}
	return(old_mode);
}

Uint8 * SDL_GetKeyState (int *numkeys)
{
	if ( numkeys != (int *)0 )
		*numkeys = SDLK_LAST;
	return(SDL_KeyState);
}
SDLMod SDL_GetModState (void)
{
	return(SDL_ModState);
}
void SDL_SetModState (SDLMod modstate)
{
	SDL_ModState = modstate;
}

char *SDL_GetKeyName(SDLKey key)
{
	char *keyname;

	keyname = NULL;
	if ( key < SDLK_LAST ) {
		keyname = keynames[key];
	}
	if ( keyname == NULL ) {
		keyname = "unknown key";
	}
	return(keyname);
}

/* These are global for SDL_eventloop.c */
int SDL_PrivateKeyboard(Uint8 state, SDL_keysym *keysym)
{
	SDL_Event event;
	int posted, repeatable;
	Uint16 modstate;

	memset(&event, 0, sizeof(event));

#if 0
printf("The '%s' key has been %s\n", SDL_GetKeyName(keysym->sym), 
				state == SDL_PRESSED ? "pressed" : "released");
#endif
	/* Set up the keysym */
	modstate = (Uint16)SDL_ModState;

	repeatable = 0;

	if ( state == SDL_PRESSED ) {
		keysym->mod = (SDLMod)modstate;
		switch (keysym->sym) {
			case SDLK_NUMLOCK:
				modstate ^= KMOD_NUM;
				if ( ! (modstate&KMOD_NUM) )
					state = SDL_RELEASED;
				keysym->mod = (SDLMod)modstate;
				break;
			case SDLK_CAPSLOCK:
				modstate ^= KMOD_CAPS;
				if ( ! (modstate&KMOD_CAPS) )
					state = SDL_RELEASED;
				keysym->mod = (SDLMod)modstate;
				break;
			case SDLK_LCTRL:
				modstate |= KMOD_LCTRL;
				break;
			case SDLK_RCTRL:
				modstate |= KMOD_RCTRL;
				break;
			case SDLK_LSHIFT:
				modstate |= KMOD_LSHIFT;
				break;
			case SDLK_RSHIFT:
				modstate |= KMOD_RSHIFT;
				break;
			case SDLK_LALT:
				modstate |= KMOD_LALT;
				break;
			case SDLK_RALT:
				modstate |= KMOD_RALT;
				break;
			case SDLK_LMETA:
				modstate |= KMOD_LMETA;
				break;
			case SDLK_RMETA:
				modstate |= KMOD_RMETA;
				break;
			case SDLK_MODE:
				modstate |= KMOD_MODE;
				break;
			default:
				repeatable = 1;
				break;
		}
	} else {
		switch (keysym->sym) {
			case SDLK_NUMLOCK:
			case SDLK_CAPSLOCK:
				/* Only send keydown events */
				return(0);
			case SDLK_LCTRL:
				modstate &= ~KMOD_LCTRL;
				break;
			case SDLK_RCTRL:
				modstate &= ~KMOD_RCTRL;
				break;
			case SDLK_LSHIFT:
				modstate &= ~KMOD_LSHIFT;
				break;
			case SDLK_RSHIFT:
				modstate &= ~KMOD_RSHIFT;
				break;
			case SDLK_LALT:
				modstate &= ~KMOD_LALT;
				break;
			case SDLK_RALT:
				modstate &= ~KMOD_RALT;
				break;
			case SDLK_LMETA:
				modstate &= ~KMOD_LMETA;
				break;
			case SDLK_RMETA:
				modstate &= ~KMOD_RMETA;
				break;
			case SDLK_MODE:
				modstate &= ~KMOD_MODE;
				break;
			default:
				break;
		}
		keysym->mod = (SDLMod)modstate;
	}

	/* Figure out what type of event this is */
	switch (state) {
		case SDL_PRESSED:
			event.type = SDL_KEYDOWN;
			break;
		case SDL_RELEASED:
			event.type = SDL_KEYUP;
			/*
			 * jk 991215 - Added
			 */
			if ( SDL_KeyRepeat.timestamp ) {
				SDL_KeyRepeat.timestamp = 0;
			}
			break;
		default:
			/* Invalid state -- bail */
			return(0);
	}

	/* Drop events that don't change state */
	if ( SDL_KeyState[keysym->sym] == state ) {
		return(0);
	}

	/* Update internal keyboard state */
	SDL_ModState = (SDLMod)modstate;
	SDL_KeyState[keysym->sym] = state;

	/* Post the event, if desired */
	posted = 0;
	if ( SDL_ProcessEvents[event.type] == SDL_ENABLE ) {
		event.key.state = state;
		event.key.keysym = *keysym;
		/*
		 * jk 991215 - Added
		 */
		if (repeatable && (SDL_KeyRepeat.delay != 0)) {
			SDL_KeyRepeat.evt = event;
			SDL_KeyRepeat.firsttime = 1;
			SDL_KeyRepeat.timestamp=SDL_GetTicks();
		}
		if ( (SDL_EventOK == NULL) || SDL_EventOK(&event) ) {
			posted = 1;
			SDL_PushEvent(&event);
		}
	}
	return(posted);
}

/*
 * jk 991215 - Added
 */
void SDL_CheckKeyRepeat(void)
{
	if ( SDL_KeyRepeat.timestamp ) {
		Uint32 now, interval;

		now = SDL_GetTicks();
		interval = (now - SDL_KeyRepeat.timestamp);
		if ( SDL_KeyRepeat.firsttime ) {
			if ( interval > (Uint32)SDL_KeyRepeat.delay ) {
				SDL_KeyRepeat.timestamp = now;
				SDL_KeyRepeat.firsttime = 0;
			}
		} else {
			if ( interval > (Uint32)SDL_KeyRepeat.interval ) {
				SDL_KeyRepeat.timestamp = now;
				if ( (SDL_EventOK == NULL) || SDL_EventOK(&SDL_KeyRepeat.evt) ) {
					SDL_PushEvent(&SDL_KeyRepeat.evt);
				}
			}
		}
	}
}

int SDL_EnableKeyRepeat(int delay, int interval)
{
	if ( (delay < 0) || (interval < 0) ) {
		SDL_SetError("keyboard repeat value less than zero");
		return(-1);
	}
	SDL_KeyRepeat.firsttime = 0;
	SDL_KeyRepeat.delay = delay;
	SDL_KeyRepeat.interval = interval;
	SDL_KeyRepeat.timestamp = 0;
	return(0);
}