qvr/app/jni/keys.c

2004 lines
48 KiB
C
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2016-01-29 22:43:55 +00:00
/*
Copyright (C) 1996-1997 Id Software, Inc.
This program is free software; you can redistribute it and/or
modify it under the terms of the GNU General Public License
as published by the Free Software Foundation; either version 2
of the License, or (at your option) any later version.
This program 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 General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to:
Free Software Foundation, Inc.
59 Temple Place - Suite 330
Boston, MA 02111-1307, USA
*/
#include "quakedef.h"
#include "cl_video.h"
#include "utf8lib.h"
#include "csprogs.h"
cvar_t con_closeontoggleconsole = {CVAR_SAVE, "con_closeontoggleconsole","1", "allows toggleconsole binds to close the console as well; when set to 2, this even works when not at the start of the line in console input; when set to 3, this works even if the toggleconsole key is the color tag"};
/*
key up events are sent even if in console mode
*/
char key_line[MAX_INPUTLINE];
int key_linepos;
qboolean key_insert = true; // insert key toggle (for editing)
keydest_t key_dest;
int key_consoleactive;
char *keybindings[MAX_BINDMAPS][MAX_KEYS];
int history_line;
char history_savedline[MAX_INPUTLINE];
char history_searchstring[MAX_INPUTLINE];
qboolean history_matchfound = false;
conbuffer_t history;
extern cvar_t con_textsize;
static void Key_History_Init(void)
{
qfile_t *historyfile;
ConBuffer_Init(&history, HIST_TEXTSIZE, HIST_MAXLINES, zonemempool);
historyfile = FS_OpenRealFile("darkplaces_history.txt", "rb", false); // rb to handle unix line endings on windows too
if(historyfile)
{
char buf[MAX_INPUTLINE];
int bufpos;
int c;
bufpos = 0;
for(;;)
{
c = FS_Getc(historyfile);
if(c < 0 || c == 0 || c == '\r' || c == '\n')
{
if(bufpos > 0)
{
buf[bufpos] = 0;
ConBuffer_AddLine(&history, buf, bufpos, 0);
bufpos = 0;
}
if(c < 0)
break;
}
else
{
if(bufpos < MAX_INPUTLINE - 1)
buf[bufpos++] = c;
}
}
FS_Close(historyfile);
}
history_line = -1;
}
static void Key_History_Shutdown(void)
{
// TODO write history to a file
qfile_t *historyfile = FS_OpenRealFile("darkplaces_history.txt", "w", false);
if(historyfile)
{
int i;
for(i = 0; i < CONBUFFER_LINES_COUNT(&history); ++i)
FS_Printf(historyfile, "%s\n", ConBuffer_GetLine(&history, i));
FS_Close(historyfile);
}
ConBuffer_Shutdown(&history);
}
static void Key_History_Push(void)
{
if(key_line[1]) // empty?
if(strcmp(key_line, "]quit")) // putting these into the history just sucks
if(strncmp(key_line, "]quit ", 6)) // putting these into the history just sucks
if(strcmp(key_line, "]rcon_password")) // putting these into the history just sucks
if(strncmp(key_line, "]rcon_password ", 15)) // putting these into the history just sucks
ConBuffer_AddLine(&history, key_line + 1, strlen(key_line) - 1, 0);
Con_Printf("%s\n", key_line); // don't mark empty lines as history
history_line = -1;
if (history_matchfound)
history_matchfound = false;
}
static qboolean Key_History_Get_foundCommand(void)
{
if (!history_matchfound)
return false;
strlcpy(key_line + 1, ConBuffer_GetLine(&history, history_line), sizeof(key_line) - 1);
key_linepos = strlen(key_line);
history_matchfound = false;
return true;
}
static void Key_History_Up(void)
{
if(history_line == -1) // editing the "new" line
strlcpy(history_savedline, key_line + 1, sizeof(history_savedline));
if (Key_History_Get_foundCommand())
return;
if(history_line == -1)
{
history_line = CONBUFFER_LINES_COUNT(&history) - 1;
if(history_line != -1)
{
strlcpy(key_line + 1, ConBuffer_GetLine(&history, history_line), sizeof(key_line) - 1);
key_linepos = strlen(key_line);
}
}
else if(history_line > 0)
{
--history_line; // this also does -1 -> 0, so it is good
strlcpy(key_line + 1, ConBuffer_GetLine(&history, history_line), sizeof(key_line) - 1);
key_linepos = strlen(key_line);
}
}
static void Key_History_Down(void)
{
if(history_line == -1) // editing the "new" line
return;
if (Key_History_Get_foundCommand())
return;
if(history_line < CONBUFFER_LINES_COUNT(&history) - 1)
{
++history_line;
strlcpy(key_line + 1, ConBuffer_GetLine(&history, history_line), sizeof(key_line) - 1);
}
else
{
history_line = -1;
strlcpy(key_line + 1, history_savedline, sizeof(key_line) - 1);
}
key_linepos = strlen(key_line);
}
static void Key_History_First(void)
{
if(history_line == -1) // editing the "new" line
strlcpy(history_savedline, key_line + 1, sizeof(history_savedline));
if (CONBUFFER_LINES_COUNT(&history) > 0)
{
history_line = 0;
strlcpy(key_line + 1, ConBuffer_GetLine(&history, history_line), sizeof(key_line) - 1);
key_linepos = strlen(key_line);
}
}
static void Key_History_Last(void)
{
if(history_line == -1) // editing the "new" line
strlcpy(history_savedline, key_line + 1, sizeof(history_savedline));
if (CONBUFFER_LINES_COUNT(&history) > 0)
{
history_line = CONBUFFER_LINES_COUNT(&history) - 1;
strlcpy(key_line + 1, ConBuffer_GetLine(&history, history_line), sizeof(key_line) - 1);
key_linepos = strlen(key_line);
}
}
static void Key_History_Find_Backwards(void)
{
int i;
const char *partial = key_line + 1;
char vabuf[1024];
size_t digits = strlen(va(vabuf, sizeof(vabuf), "%i", HIST_MAXLINES));
if (history_line == -1) // editing the "new" line
strlcpy(history_savedline, key_line + 1, sizeof(history_savedline));
if (strcmp(key_line + 1, history_searchstring)) // different string? Start a new search
{
strlcpy(history_searchstring, key_line + 1, sizeof(history_searchstring));
i = CONBUFFER_LINES_COUNT(&history) - 1;
}
else if (history_line == -1)
i = CONBUFFER_LINES_COUNT(&history) - 1;
else
i = history_line - 1;
if (!*partial)
partial = "*";
else if (!( strchr(partial, '*') || strchr(partial, '?') )) // no pattern?
partial = va(vabuf, sizeof(vabuf), "*%s*", partial);
for ( ; i >= 0; i--)
if (matchpattern_with_separator(ConBuffer_GetLine(&history, i), partial, true, "", false))
{
Con_Printf("^2%*i^7 %s\n", (int)digits, i+1, ConBuffer_GetLine(&history, i));
history_line = i;
history_matchfound = true;
return;
}
}
static void Key_History_Find_Forwards(void)
{
int i;
const char *partial = key_line + 1;
char vabuf[1024];
size_t digits = strlen(va(vabuf, sizeof(vabuf), "%i", HIST_MAXLINES));
if (history_line == -1) // editing the "new" line
return;
if (strcmp(key_line + 1, history_searchstring)) // different string? Start a new search
{
strlcpy(history_searchstring, key_line + 1, sizeof(history_searchstring));
i = 0;
}
else i = history_line + 1;
if (!*partial)
partial = "*";
else if (!( strchr(partial, '*') || strchr(partial, '?') )) // no pattern?
partial = va(vabuf, sizeof(vabuf), "*%s*", partial);
for ( ; i < CONBUFFER_LINES_COUNT(&history); i++)
if (matchpattern_with_separator(ConBuffer_GetLine(&history, i), partial, true, "", false))
{
Con_Printf("^2%*i^7 %s\n", (int)digits, i+1, ConBuffer_GetLine(&history, i));
history_line = i;
history_matchfound = true;
return;
}
}
static void Key_History_Find_All(void)
{
const char *partial = key_line + 1;
int i, count = 0;
char vabuf[1024];
size_t digits = strlen(va(vabuf, sizeof(vabuf), "%i", HIST_MAXLINES));
Con_Printf("History commands containing \"%s\":\n", key_line + 1);
if (!*partial)
partial = "*";
else if (!( strchr(partial, '*') || strchr(partial, '?') )) // no pattern?
partial = va(vabuf, sizeof(vabuf), "*%s*", partial);
for (i=0; i<CONBUFFER_LINES_COUNT(&history); i++)
if (matchpattern_with_separator(ConBuffer_GetLine(&history, i), partial, true, "", false))
{
Con_Printf("%s%*i^7 %s\n", (i == history_line) ? "^2" : "^3", (int)digits, i+1, ConBuffer_GetLine(&history, i));
count++;
}
Con_Printf("%i result%s\n\n", count, (count != 1) ? "s" : "");
}
static void Key_History_f(void)
{
char *errchar = NULL;
int i = 0;
char vabuf[1024];
size_t digits = strlen(va(vabuf, sizeof(vabuf), "%i", HIST_MAXLINES));
if (Cmd_Argc () > 1)
{
if (!strcmp(Cmd_Argv (1), "-c"))
{
ConBuffer_Clear(&history);
return;
}
i = strtol(Cmd_Argv (1), &errchar, 0);
if ((i < 0) || (i > CONBUFFER_LINES_COUNT(&history)) || (errchar && *errchar))
i = 0;
else
i = CONBUFFER_LINES_COUNT(&history) - i;
}
for ( ; i<CONBUFFER_LINES_COUNT(&history); i++)
Con_Printf("^3%*i^7 %s\n", (int)digits, i+1, ConBuffer_GetLine(&history, i));
Con_Printf("\n");
}
static int key_bmap, key_bmap2;
static unsigned char keydown[MAX_KEYS]; // 0 = up, 1 = down, 2 = repeating
typedef struct keyname_s
{
const char *name;
int keynum;
}
keyname_t;
static const keyname_t keynames[] = {
{"TAB", K_TAB},
{"ENTER", K_ENTER},
{"ESCAPE", K_ESCAPE},
{"SPACE", K_SPACE},
// spacer so it lines up with keys.h
{"BACKSPACE", K_BACKSPACE},
{"UPARROW", K_UPARROW},
{"DOWNARROW", K_DOWNARROW},
{"LEFTARROW", K_LEFTARROW},
{"RIGHTARROW", K_RIGHTARROW},
{"ALT", K_ALT},
{"CTRL", K_CTRL},
{"SHIFT", K_SHIFT},
{"F1", K_F1},
{"F2", K_F2},
{"F3", K_F3},
{"F4", K_F4},
{"F5", K_F5},
{"F6", K_F6},
{"F7", K_F7},
{"F8", K_F8},
{"F9", K_F9},
{"F10", K_F10},
{"F11", K_F11},
{"F12", K_F12},
{"INS", K_INS},
{"DEL", K_DEL},
{"PGDN", K_PGDN},
{"PGUP", K_PGUP},
{"HOME", K_HOME},
{"END", K_END},
{"PAUSE", K_PAUSE},
{"NUMLOCK", K_NUMLOCK},
{"CAPSLOCK", K_CAPSLOCK},
{"SCROLLOCK", K_SCROLLOCK},
{"KP_INS", K_KP_INS },
{"KP_0", K_KP_0},
{"KP_END", K_KP_END },
{"KP_1", K_KP_1},
{"KP_DOWNARROW", K_KP_DOWNARROW },
{"KP_2", K_KP_2},
{"KP_PGDN", K_KP_PGDN },
{"KP_3", K_KP_3},
{"KP_LEFTARROW", K_KP_LEFTARROW },
{"KP_4", K_KP_4},
{"KP_5", K_KP_5},
{"KP_RIGHTARROW", K_KP_RIGHTARROW },
{"KP_6", K_KP_6},
{"KP_HOME", K_KP_HOME },
{"KP_7", K_KP_7},
{"KP_UPARROW", K_KP_UPARROW },
{"KP_8", K_KP_8},
{"KP_PGUP", K_KP_PGUP },
{"KP_9", K_KP_9},
{"KP_DEL", K_KP_DEL },
{"KP_PERIOD", K_KP_PERIOD},
{"KP_SLASH", K_KP_SLASH },
{"KP_DIVIDE", K_KP_DIVIDE},
{"KP_MULTIPLY", K_KP_MULTIPLY},
{"KP_MINUS", K_KP_MINUS},
{"KP_PLUS", K_KP_PLUS},
{"KP_ENTER", K_KP_ENTER},
{"KP_EQUALS", K_KP_EQUALS},
{"PRINTSCREEN", K_PRINTSCREEN},
{"MOUSE1", K_MOUSE1},
{"MOUSE2", K_MOUSE2},
{"MOUSE3", K_MOUSE3},
{"MWHEELUP", K_MWHEELUP},
{"MWHEELDOWN", K_MWHEELDOWN},
{"MOUSE4", K_MOUSE4},
{"MOUSE5", K_MOUSE5},
{"MOUSE6", K_MOUSE6},
{"MOUSE7", K_MOUSE7},
{"MOUSE8", K_MOUSE8},
{"MOUSE9", K_MOUSE9},
{"MOUSE10", K_MOUSE10},
{"MOUSE11", K_MOUSE11},
{"MOUSE12", K_MOUSE12},
{"MOUSE13", K_MOUSE13},
{"MOUSE14", K_MOUSE14},
{"MOUSE15", K_MOUSE15},
{"MOUSE16", K_MOUSE16},
{"JOY1", K_JOY1},
{"JOY2", K_JOY2},
{"JOY3", K_JOY3},
{"JOY4", K_JOY4},
{"JOY5", K_JOY5},
{"JOY6", K_JOY6},
{"JOY7", K_JOY7},
{"JOY8", K_JOY8},
{"JOY9", K_JOY9},
{"JOY10", K_JOY10},
{"JOY11", K_JOY11},
{"JOY12", K_JOY12},
{"JOY13", K_JOY13},
{"JOY14", K_JOY14},
{"JOY15", K_JOY15},
{"JOY16", K_JOY16},
{"AUX1", K_AUX1},
{"AUX2", K_AUX2},
{"AUX3", K_AUX3},
{"AUX4", K_AUX4},
{"AUX5", K_AUX5},
{"AUX6", K_AUX6},
{"AUX7", K_AUX7},
{"AUX8", K_AUX8},
{"AUX9", K_AUX9},
{"AUX10", K_AUX10},
{"AUX11", K_AUX11},
{"AUX12", K_AUX12},
{"AUX13", K_AUX13},
{"AUX14", K_AUX14},
{"AUX15", K_AUX15},
{"AUX16", K_AUX16},
{"AUX17", K_AUX17},
{"AUX18", K_AUX18},
{"AUX19", K_AUX19},
{"AUX20", K_AUX20},
{"AUX21", K_AUX21},
{"AUX22", K_AUX22},
{"AUX23", K_AUX23},
{"AUX24", K_AUX24},
{"AUX25", K_AUX25},
{"AUX26", K_AUX26},
{"AUX27", K_AUX27},
{"AUX28", K_AUX28},
{"AUX29", K_AUX29},
{"AUX30", K_AUX30},
{"AUX31", K_AUX31},
{"AUX32", K_AUX32},
{"X360_DPAD_UP", K_X360_DPAD_UP},
{"X360_DPAD_DOWN", K_X360_DPAD_DOWN},
{"X360_DPAD_LEFT", K_X360_DPAD_LEFT},
{"X360_DPAD_RIGHT", K_X360_DPAD_RIGHT},
{"X360_START", K_X360_START},
{"X360_BACK", K_X360_BACK},
{"X360_LEFT_THUMB", K_X360_LEFT_THUMB},
{"X360_RIGHT_THUMB", K_X360_RIGHT_THUMB},
{"X360_LEFT_SHOULDER", K_X360_LEFT_SHOULDER},
{"X360_RIGHT_SHOULDER", K_X360_RIGHT_SHOULDER},
{"X360_A", K_X360_A},
{"X360_B", K_X360_B},
{"X360_X", K_X360_X},
{"X360_Y", K_X360_Y},
{"X360_LEFT_TRIGGER", K_X360_LEFT_TRIGGER},
{"X360_RIGHT_TRIGGER", K_X360_RIGHT_TRIGGER},
{"X360_LEFT_THUMB_UP", K_X360_LEFT_THUMB_UP},
{"X360_LEFT_THUMB_DOWN", K_X360_LEFT_THUMB_DOWN},
{"X360_LEFT_THUMB_LEFT", K_X360_LEFT_THUMB_LEFT},
{"X360_LEFT_THUMB_RIGHT", K_X360_LEFT_THUMB_RIGHT},
{"X360_RIGHT_THUMB_UP", K_X360_RIGHT_THUMB_UP},
{"X360_RIGHT_THUMB_DOWN", K_X360_RIGHT_THUMB_DOWN},
{"X360_RIGHT_THUMB_LEFT", K_X360_RIGHT_THUMB_LEFT},
{"X360_RIGHT_THUMB_RIGHT", K_X360_RIGHT_THUMB_RIGHT},
{"JOY_UP", K_JOY_UP},
{"JOY_DOWN", K_JOY_DOWN},
{"JOY_LEFT", K_JOY_LEFT},
{"JOY_RIGHT", K_JOY_RIGHT},
{"SEMICOLON", ';'}, // because a raw semicolon separates commands
{"TILDE", '~'},
{"BACKQUOTE", '`'},
{"QUOTE", '"'},
{"APOSTROPHE", '\''},
{"BACKSLASH", '\\'}, // because a raw backslash is used for special characters
{"MIDINOTE0", K_MIDINOTE0},
{"MIDINOTE1", K_MIDINOTE1},
{"MIDINOTE2", K_MIDINOTE2},
{"MIDINOTE3", K_MIDINOTE3},
{"MIDINOTE4", K_MIDINOTE4},
{"MIDINOTE5", K_MIDINOTE5},
{"MIDINOTE6", K_MIDINOTE6},
{"MIDINOTE7", K_MIDINOTE7},
{"MIDINOTE8", K_MIDINOTE8},
{"MIDINOTE9", K_MIDINOTE9},
{"MIDINOTE10", K_MIDINOTE10},
{"MIDINOTE11", K_MIDINOTE11},
{"MIDINOTE12", K_MIDINOTE12},
{"MIDINOTE13", K_MIDINOTE13},
{"MIDINOTE14", K_MIDINOTE14},
{"MIDINOTE15", K_MIDINOTE15},
{"MIDINOTE16", K_MIDINOTE16},
{"MIDINOTE17", K_MIDINOTE17},
{"MIDINOTE18", K_MIDINOTE18},
{"MIDINOTE19", K_MIDINOTE19},
{"MIDINOTE20", K_MIDINOTE20},
{"MIDINOTE21", K_MIDINOTE21},
{"MIDINOTE22", K_MIDINOTE22},
{"MIDINOTE23", K_MIDINOTE23},
{"MIDINOTE24", K_MIDINOTE24},
{"MIDINOTE25", K_MIDINOTE25},
{"MIDINOTE26", K_MIDINOTE26},
{"MIDINOTE27", K_MIDINOTE27},
{"MIDINOTE28", K_MIDINOTE28},
{"MIDINOTE29", K_MIDINOTE29},
{"MIDINOTE30", K_MIDINOTE30},
{"MIDINOTE31", K_MIDINOTE31},
{"MIDINOTE32", K_MIDINOTE32},
{"MIDINOTE33", K_MIDINOTE33},
{"MIDINOTE34", K_MIDINOTE34},
{"MIDINOTE35", K_MIDINOTE35},
{"MIDINOTE36", K_MIDINOTE36},
{"MIDINOTE37", K_MIDINOTE37},
{"MIDINOTE38", K_MIDINOTE38},
{"MIDINOTE39", K_MIDINOTE39},
{"MIDINOTE40", K_MIDINOTE40},
{"MIDINOTE41", K_MIDINOTE41},
{"MIDINOTE42", K_MIDINOTE42},
{"MIDINOTE43", K_MIDINOTE43},
{"MIDINOTE44", K_MIDINOTE44},
{"MIDINOTE45", K_MIDINOTE45},
{"MIDINOTE46", K_MIDINOTE46},
{"MIDINOTE47", K_MIDINOTE47},
{"MIDINOTE48", K_MIDINOTE48},
{"MIDINOTE49", K_MIDINOTE49},
{"MIDINOTE50", K_MIDINOTE50},
{"MIDINOTE51", K_MIDINOTE51},
{"MIDINOTE52", K_MIDINOTE52},
{"MIDINOTE53", K_MIDINOTE53},
{"MIDINOTE54", K_MIDINOTE54},
{"MIDINOTE55", K_MIDINOTE55},
{"MIDINOTE56", K_MIDINOTE56},
{"MIDINOTE57", K_MIDINOTE57},
{"MIDINOTE58", K_MIDINOTE58},
{"MIDINOTE59", K_MIDINOTE59},
{"MIDINOTE60", K_MIDINOTE60},
{"MIDINOTE61", K_MIDINOTE61},
{"MIDINOTE62", K_MIDINOTE62},
{"MIDINOTE63", K_MIDINOTE63},
{"MIDINOTE64", K_MIDINOTE64},
{"MIDINOTE65", K_MIDINOTE65},
{"MIDINOTE66", K_MIDINOTE66},
{"MIDINOTE67", K_MIDINOTE67},
{"MIDINOTE68", K_MIDINOTE68},
{"MIDINOTE69", K_MIDINOTE69},
{"MIDINOTE70", K_MIDINOTE70},
{"MIDINOTE71", K_MIDINOTE71},
{"MIDINOTE72", K_MIDINOTE72},
{"MIDINOTE73", K_MIDINOTE73},
{"MIDINOTE74", K_MIDINOTE74},
{"MIDINOTE75", K_MIDINOTE75},
{"MIDINOTE76", K_MIDINOTE76},
{"MIDINOTE77", K_MIDINOTE77},
{"MIDINOTE78", K_MIDINOTE78},
{"MIDINOTE79", K_MIDINOTE79},
{"MIDINOTE80", K_MIDINOTE80},
{"MIDINOTE81", K_MIDINOTE81},
{"MIDINOTE82", K_MIDINOTE82},
{"MIDINOTE83", K_MIDINOTE83},
{"MIDINOTE84", K_MIDINOTE84},
{"MIDINOTE85", K_MIDINOTE85},
{"MIDINOTE86", K_MIDINOTE86},
{"MIDINOTE87", K_MIDINOTE87},
{"MIDINOTE88", K_MIDINOTE88},
{"MIDINOTE89", K_MIDINOTE89},
{"MIDINOTE90", K_MIDINOTE90},
{"MIDINOTE91", K_MIDINOTE91},
{"MIDINOTE92", K_MIDINOTE92},
{"MIDINOTE93", K_MIDINOTE93},
{"MIDINOTE94", K_MIDINOTE94},
{"MIDINOTE95", K_MIDINOTE95},
{"MIDINOTE96", K_MIDINOTE96},
{"MIDINOTE97", K_MIDINOTE97},
{"MIDINOTE98", K_MIDINOTE98},
{"MIDINOTE99", K_MIDINOTE99},
{"MIDINOTE100", K_MIDINOTE100},
{"MIDINOTE101", K_MIDINOTE101},
{"MIDINOTE102", K_MIDINOTE102},
{"MIDINOTE103", K_MIDINOTE103},
{"MIDINOTE104", K_MIDINOTE104},
{"MIDINOTE105", K_MIDINOTE105},
{"MIDINOTE106", K_MIDINOTE106},
{"MIDINOTE107", K_MIDINOTE107},
{"MIDINOTE108", K_MIDINOTE108},
{"MIDINOTE109", K_MIDINOTE109},
{"MIDINOTE110", K_MIDINOTE110},
{"MIDINOTE111", K_MIDINOTE111},
{"MIDINOTE112", K_MIDINOTE112},
{"MIDINOTE113", K_MIDINOTE113},
{"MIDINOTE114", K_MIDINOTE114},
{"MIDINOTE115", K_MIDINOTE115},
{"MIDINOTE116", K_MIDINOTE116},
{"MIDINOTE117", K_MIDINOTE117},
{"MIDINOTE118", K_MIDINOTE118},
{"MIDINOTE119", K_MIDINOTE119},
{"MIDINOTE120", K_MIDINOTE120},
{"MIDINOTE121", K_MIDINOTE121},
{"MIDINOTE122", K_MIDINOTE122},
{"MIDINOTE123", K_MIDINOTE123},
{"MIDINOTE124", K_MIDINOTE124},
{"MIDINOTE125", K_MIDINOTE125},
{"MIDINOTE126", K_MIDINOTE126},
{"MIDINOTE127", K_MIDINOTE127},
{NULL, 0}
};
/*
==============================================================================
LINE TYPING INTO THE CONSOLE
==============================================================================
*/
void
Key_ClearEditLine (int edit_line)
{
memset (key_line, '\0', sizeof(key_line));
key_line[0] = ']';
key_linepos = 1;
}
/*
====================
Interactive line editing and console scrollback
====================
*/
static void
Key_Console (int key, int unicode)
{
// LordHavoc: copied most of this from Q2 to improve keyboard handling
switch (key)
{
case K_KP_SLASH:
key = '/';
break;
case K_KP_MINUS:
key = '-';
break;
case K_KP_PLUS:
key = '+';
break;
case K_KP_HOME:
key = '7';
break;
case K_KP_UPARROW:
key = '8';
break;
case K_KP_PGUP:
key = '9';
break;
case K_KP_LEFTARROW:
key = '4';
break;
case K_KP_5:
key = '5';
break;
case K_KP_RIGHTARROW:
key = '6';
break;
case K_KP_END:
key = '1';
break;
case K_KP_DOWNARROW:
key = '2';
break;
case K_KP_PGDN:
key = '3';
break;
case K_KP_INS:
key = '0';
break;
case K_KP_DEL:
key = '.';
break;
}
if ((key == 'v' && keydown[K_CTRL]) || ((key == K_INS || key == K_KP_INS) && keydown[K_SHIFT]))
{
char *cbd, *p;
if ((cbd = Sys_GetClipboardData()) != 0)
{
int i;
#if 1
p = cbd;
while (*p)
{
if (*p == '\r' && *(p+1) == '\n')
{
*p++ = ';';
*p++ = ' ';
}
else if (*p == '\n' || *p == '\r' || *p == '\b')
*p++ = ';';
p++;
}
#else
strtok(cbd, "\n\r\b");
#endif
i = (int)strlen(cbd);
if (i + key_linepos >= MAX_INPUTLINE)
i= MAX_INPUTLINE - key_linepos - 1;
if (i > 0)
{
// terencehill: insert the clipboard text between the characters of the line
/*
char *temp = (char *) Z_Malloc(MAX_INPUTLINE);
cbd[i]=0;
temp[0]=0;
if ( key_linepos < (int)strlen(key_line) )
strlcpy(temp, key_line + key_linepos, (int)strlen(key_line) - key_linepos +1);
key_line[key_linepos] = 0;
strlcat(key_line, cbd, sizeof(key_line));
if (temp[0])
strlcat(key_line, temp, sizeof(key_line));
Z_Free(temp);
key_linepos += i;
*/
// blub: I'm changing this to use memmove() like the rest of the code does.
cbd[i] = 0;
memmove(key_line + key_linepos + i, key_line + key_linepos, sizeof(key_line) - key_linepos - i);
memcpy(key_line + key_linepos, cbd, i);
key_linepos += i;
}
Z_Free(cbd);
}
return;
}
if (key == 'l' && keydown[K_CTRL])
{
Cbuf_AddText ("clear\n");
return;
}
if (key == 'u' && keydown[K_CTRL]) // like vi/readline ^u: delete currently edited line
{
// clear line
key_line[0] = ']';
key_line[1] = 0;
key_linepos = 1;
return;
}
if (key == 'q' && keydown[K_CTRL]) // like zsh ^q: push line to history, don't execute, and clear
{
// clear line
Key_History_Push();
key_line[0] = ']';
key_line[1] = 0;
key_linepos = 1;
return;
}
if (key == K_ENTER || key == K_KP_ENTER)
{
Cbuf_AddText (key_line+1); // skip the ]
Cbuf_AddText ("\n");
Key_History_Push();
key_line[0] = ']';
key_line[1] = 0; // EvilTypeGuy: null terminate
key_linepos = 1;
// force an update, because the command may take some time
if (cls.state == ca_disconnected)
{
CL_BeginUpdateScreen();
SCR_DrawScreen();
CL_EndUpdateScreen();
}
return;
}
if (key == K_TAB)
{
if(keydown[K_CTRL]) // append to the cvar its value
{
int cvar_len, cvar_str_len, chars_to_move;
char k;
char cvar[MAX_INPUTLINE];
const char *cvar_str;
// go to the start of the variable
while(--key_linepos)
{
k = key_line[key_linepos];
if(k == '\"' || k == ';' || k == ' ' || k == '\'')
break;
}
key_linepos++;
// save the variable name in cvar
for(cvar_len=0; (k = key_line[key_linepos + cvar_len]) != 0; cvar_len++)
{
if(k == '\"' || k == ';' || k == ' ' || k == '\'')
break;
cvar[cvar_len] = k;
}
if (cvar_len==0)
return;
cvar[cvar_len] = 0;
// go to the end of the cvar
key_linepos += cvar_len;
// save the content of the variable in cvar_str
cvar_str = Cvar_VariableString(cvar);
cvar_str_len = strlen(cvar_str);
if (cvar_str_len==0)
return;
// insert space and cvar_str in key_line
chars_to_move = strlen(&key_line[key_linepos]);
if (key_linepos + 1 + cvar_str_len + chars_to_move < MAX_INPUTLINE)
{
if (chars_to_move)
memmove(&key_line[key_linepos + 1 + cvar_str_len], &key_line[key_linepos], chars_to_move);
key_line[key_linepos++] = ' ';
memcpy(&key_line[key_linepos], cvar_str, cvar_str_len);
key_linepos += cvar_str_len;
key_line[key_linepos + chars_to_move] = 0;
}
else
Con_Printf("Couldn't append cvar value, edit line too long.\n");
return;
}
// Enhanced command completion
// by EvilTypeGuy eviltypeguy@qeradiant.com
// Thanks to Fett, Taniwha
Con_CompleteCommandLine();
return;
}
// Advanced Console Editing by Radix radix@planetquake.com
// Added/Modified by EvilTypeGuy eviltypeguy@qeradiant.com
// Enhanced by [515]
// Enhanced by terencehill
// move cursor to the previous character
if (key == K_LEFTARROW || key == K_KP_LEFTARROW)
{
if (key_linepos < 2)
return;
if(keydown[K_CTRL]) // move cursor to the previous word
{
int pos;
char k;
pos = key_linepos-1;
if(pos) // skip all "; ' after the word
while(--pos)
{
k = key_line[pos];
if (!(k == '\"' || k == ';' || k == ' ' || k == '\''))
break;
}
if(pos)
while(--pos)
{
k = key_line[pos];
if(k == '\"' || k == ';' || k == ' ' || k == '\'')
break;
}
key_linepos = pos + 1;
}
else if(keydown[K_SHIFT]) // move cursor to the previous character ignoring colors
{
int pos;
size_t inchar = 0;
pos = u8_prevbyte(key_line+1, key_linepos-1) + 1; // do NOT give the ']' to u8_prevbyte
while (pos)
if(pos-1 > 0 && key_line[pos-1] == STRING_COLOR_TAG && isdigit(key_line[pos]))
pos-=2;
else if(pos-4 > 0 && key_line[pos-4] == STRING_COLOR_TAG && key_line[pos-3] == STRING_COLOR_RGB_TAG_CHAR
&& isxdigit(key_line[pos-2]) && isxdigit(key_line[pos-1]) && isxdigit(key_line[pos]))
pos-=5;
else
{
if(pos-1 > 0 && key_line[pos-1] == STRING_COLOR_TAG && key_line[pos] == STRING_COLOR_TAG) // consider ^^ as a character
pos--;
pos--;
break;
}
// we need to move to the beginning of the character when in a wide character:
u8_charidx(key_line, pos + 1, &inchar);
key_linepos = pos + 1 - inchar;
}
else
{
key_linepos = u8_prevbyte(key_line+1, key_linepos-1) + 1; // do NOT give the ']' to u8_prevbyte
}
return;
}
// delete char before cursor
if (key == K_BACKSPACE || (key == 'h' && keydown[K_CTRL]))
{
if (key_linepos > 1)
{
int newpos = u8_prevbyte(key_line+1, key_linepos-1) + 1; // do NOT give the ']' to u8_prevbyte
strlcpy(key_line + newpos, key_line + key_linepos, sizeof(key_line) + 1 - key_linepos);
key_linepos = newpos;
}
return;
}
// delete char on cursor
if (key == K_DEL || key == K_KP_DEL)
{
size_t linelen;
linelen = strlen(key_line);
if (key_linepos < (int)linelen)
memmove(key_line + key_linepos, key_line + key_linepos + u8_bytelen(key_line + key_linepos, 1), linelen - key_linepos);
return;
}
// move cursor to the next character
if (key == K_RIGHTARROW || key == K_KP_RIGHTARROW)
{
if (key_linepos >= (int)strlen(key_line))
return;
if(keydown[K_CTRL]) // move cursor to the next word
{
int pos, len;
char k;
len = (int)strlen(key_line);
pos = key_linepos;
while(++pos < len)
{
k = key_line[pos];
if(k == '\"' || k == ';' || k == ' ' || k == '\'')
break;
}
if (pos < len) // skip all "; ' after the word
while(++pos < len)
{
k = key_line[pos];
if (!(k == '\"' || k == ';' || k == ' ' || k == '\''))
break;
}
key_linepos = pos;
}
else if(keydown[K_SHIFT]) // move cursor to the next character ignoring colors
{
int pos, len;
len = (int)strlen(key_line);
pos = key_linepos;
// go beyond all initial consecutive color tags, if any
if(pos < len)
while (key_line[pos] == STRING_COLOR_TAG)
{
if(isdigit(key_line[pos+1]))
pos+=2;
else if(key_line[pos+1] == STRING_COLOR_RGB_TAG_CHAR && isxdigit(key_line[pos+2]) && isxdigit(key_line[pos+3]) && isxdigit(key_line[pos+4]))
pos+=5;
else
break;
}
// skip the char
if (key_line[pos] == STRING_COLOR_TAG && key_line[pos+1] == STRING_COLOR_TAG) // consider ^^ as a character
pos++;
pos += u8_bytelen(key_line + pos, 1);
// now go beyond all next consecutive color tags, if any
if(pos < len)
while (key_line[pos] == STRING_COLOR_TAG)
{
if(isdigit(key_line[pos+1]))
pos+=2;
else if(key_line[pos+1] == STRING_COLOR_RGB_TAG_CHAR && isxdigit(key_line[pos+2]) && isxdigit(key_line[pos+3]) && isxdigit(key_line[pos+4]))
pos+=5;
else
break;
}
key_linepos = pos;
}
else
key_linepos += u8_bytelen(key_line + key_linepos, 1);
return;
}
if (key == K_INS || key == K_KP_INS) // toggle insert mode
{
key_insert ^= 1;
return;
}
// End Advanced Console Editing
if (key == K_UPARROW || key == K_KP_UPARROW || (key == 'p' && keydown[K_CTRL]))
{
Key_History_Up();
return;
}
if (key == K_DOWNARROW || key == K_KP_DOWNARROW || (key == 'n' && keydown[K_CTRL]))
{
Key_History_Down();
return;
}
// ~1.0795 = 82/76 using con_textsize 64 76 is height of the char, 6 is the distance between 2 lines
if (keydown[K_CTRL])
{
// prints all the matching commands
if (key == 'f')
{
Key_History_Find_All();
return;
}
// Search forwards/backwards, pointing the history's index to the
// matching command but without fetching it to let one continue the search.
// To fetch it, it suffices to just press UP or DOWN.
if (key == 'r')
{
if (keydown[K_SHIFT])
Key_History_Find_Forwards();
else
Key_History_Find_Backwards();
return;
}
// go to the last/first command of the history
if (key == ',')
{
Key_History_First();
return;
}
if (key == '.')
{
Key_History_Last();
return;
}
}
if (key == K_PGUP || key == K_KP_PGUP)
{
if(keydown[K_CTRL])
{
con_backscroll += ((vid_conheight.integer >> 2) / con_textsize.integer)-1;
}
else
con_backscroll += ((vid_conheight.integer >> 1) / con_textsize.integer)-3;
return;
}
if (key == K_PGDN || key == K_KP_PGDN)
{
if(keydown[K_CTRL])
{
con_backscroll -= ((vid_conheight.integer >> 2) / con_textsize.integer)-1;
}
else
con_backscroll -= ((vid_conheight.integer >> 1) / con_textsize.integer)-3;
return;
}
if (key == K_MWHEELUP)
{
if(keydown[K_CTRL])
con_backscroll += 1;
else if(keydown[K_SHIFT])
con_backscroll += ((vid_conheight.integer >> 2) / con_textsize.integer)-1;
else
con_backscroll += 5;
return;
}
if (key == K_MWHEELDOWN)
{
if(keydown[K_CTRL])
con_backscroll -= 1;
else if(keydown[K_SHIFT])
con_backscroll -= ((vid_conheight.integer >> 2) / con_textsize.integer)-1;
else
con_backscroll -= 5;
return;
}
if (keydown[K_CTRL])
{
// text zoom in
if (key == '+' || key == K_KP_PLUS)
{
if (con_textsize.integer < 128)
Cvar_SetValueQuick(&con_textsize, con_textsize.integer + 1);
return;
}
// text zoom out
if (key == '-' || key == K_KP_MINUS)
{
if (con_textsize.integer > 1)
Cvar_SetValueQuick(&con_textsize, con_textsize.integer - 1);
return;
}
// text zoom reset
if (key == '0' || key == K_KP_INS)
{
Cvar_SetValueQuick(&con_textsize, atoi(Cvar_VariableDefString("con_textsize")));
return;
}
}
if (key == K_HOME || key == K_KP_HOME)
{
if (keydown[K_CTRL])
con_backscroll = CON_TEXTSIZE;
else
key_linepos = 1;
return;
}
if (key == K_END || key == K_KP_END)
{
if (keydown[K_CTRL])
con_backscroll = 0;
else
key_linepos = (int)strlen(key_line);
return;
}
// non printable
if (unicode < 32)
return;
if (key_linepos < MAX_INPUTLINE-1)
{
char buf[16];
int len;
int blen;
blen = u8_fromchar(unicode, buf, sizeof(buf));
if (!blen)
return;
len = (int)strlen(&key_line[key_linepos]);
// check insert mode, or always insert if at end of line
if (key_insert || len == 0)
{
// can't use strcpy to move string to right
len++;
//memmove(&key_line[key_linepos + u8_bytelen(key_line + key_linepos, 1)], &key_line[key_linepos], len);
memmove(&key_line[key_linepos + blen], &key_line[key_linepos], len);
}
memcpy(key_line + key_linepos, buf, blen);
key_linepos += blen;
//key_linepos += u8_fromchar(unicode, key_line + key_linepos, sizeof(key_line) - key_linepos - 1);
//key_line[key_linepos] = ascii;
//key_linepos++;
}
}
//============================================================================
int chat_mode;
char chat_buffer[MAX_INPUTLINE];
unsigned int chat_bufferlen = 0;
static void
Key_Message (int key, int ascii)
{
char vabuf[1024];
if (key == K_ENTER || ascii == 10 || ascii == 13)
{
if(chat_mode < 0)
Cmd_ExecuteString(chat_buffer, src_command, true); // not Cbuf_AddText to allow semiclons in args; however, this allows no variables then. Use aliases!
else
Cmd_ForwardStringToServer(va(vabuf, sizeof(vabuf), "%s %s", chat_mode ? "say_team" : "say ", chat_buffer));
key_dest = key_game;
chat_bufferlen = 0;
chat_buffer[0] = 0;
return;
}
// TODO add support for arrow keys and simple editing
if (key == K_ESCAPE) {
key_dest = key_game;
chat_bufferlen = 0;
chat_buffer[0] = 0;
return;
}
if (key == K_BACKSPACE) {
if (chat_bufferlen) {
chat_bufferlen = u8_prevbyte(chat_buffer, chat_bufferlen);
chat_buffer[chat_bufferlen] = 0;
}
return;
}
if(key == K_TAB) {
chat_bufferlen = Nicks_CompleteChatLine(chat_buffer, sizeof(chat_buffer), chat_bufferlen);
return;
}
// ctrl+key generates an ascii value < 32 and shows a char from the charmap
if (ascii > 0 && ascii < 32 && utf8_enable.integer)
ascii = 0xE000 + ascii;
if (chat_bufferlen == sizeof (chat_buffer) - 1)
return; // all full
if (!ascii)
return; // non printable
chat_bufferlen += u8_fromchar(ascii, chat_buffer+chat_bufferlen, sizeof(chat_buffer) - chat_bufferlen - 1);
//chat_buffer[chat_bufferlen++] = ascii;
//chat_buffer[chat_bufferlen] = 0;
}
//============================================================================
/*
===================
Returns a key number to be used to index keybindings[] by looking at
the given string. Single ascii characters return themselves, while
the K_* names are matched up.
===================
*/
int
Key_StringToKeynum (const char *str)
{
const keyname_t *kn;
if (!str || !str[0])
return -1;
if (!str[1])
return tolower(str[0]);
for (kn = keynames; kn->name; kn++) {
if (!strcasecmp (str, kn->name))
return kn->keynum;
}
return -1;
}
/*
===================
Returns a string (either a single ascii char, or a K_* name) for the
given keynum.
FIXME: handle quote special (general escape sequence?)
===================
*/
const char *
Key_KeynumToString (int keynum, char *tinystr, size_t tinystrlength)
{
const keyname_t *kn;
// -1 is an invalid code
if (keynum < 0)
return "<KEY NOT FOUND>";
// search overrides first, because some characters are special
for (kn = keynames; kn->name; kn++)
if (keynum == kn->keynum)
return kn->name;
// if it is printable, output it as a single character
if (keynum > 32 && keynum < 256)
{
if (tinystrlength >= 2)
{
tinystr[0] = keynum;
tinystr[1] = 0;
}
return tinystr;
}
// if it is not overridden and not printable, we don't know what to do with it
return "<UNKNOWN KEYNUM>";
}
qboolean
Key_SetBinding (int keynum, int bindmap, const char *binding)
{
char *newbinding;
size_t l;
if (keynum == -1 || keynum >= MAX_KEYS)
return false;
if ((bindmap < 0) || (bindmap >= MAX_BINDMAPS))
return false;
// free old bindings
if (keybindings[bindmap][keynum]) {
Z_Free (keybindings[bindmap][keynum]);
keybindings[bindmap][keynum] = NULL;
}
if(!binding[0]) // make "" binds be removed --blub
return true;
// allocate memory for new binding
l = strlen (binding);
newbinding = (char *)Z_Malloc (l + 1);
memcpy (newbinding, binding, l + 1);
newbinding[l] = 0;
keybindings[bindmap][keynum] = newbinding;
return true;
}
void Key_GetBindMap(int *fg, int *bg)
{
if(fg)
*fg = key_bmap;
if(bg)
*bg = key_bmap2;
}
qboolean Key_SetBindMap(int fg, int bg)
{
if(fg >= MAX_BINDMAPS)
return false;
if(bg >= MAX_BINDMAPS)
return false;
if(fg >= 0)
key_bmap = fg;
if(bg >= 0)
key_bmap2 = bg;
return true;
}
static void
Key_In_Unbind_f (void)
{
int b, m;
char *errchar = NULL;
if (Cmd_Argc () != 3) {
Con_Print("in_unbind <bindmap> <key> : remove commands from a key\n");
return;
}
m = strtol(Cmd_Argv (1), &errchar, 0);
if ((m < 0) || (m >= MAX_BINDMAPS) || (errchar && *errchar)) {
Con_Printf("%s isn't a valid bindmap\n", Cmd_Argv(1));
return;
}
b = Key_StringToKeynum (Cmd_Argv (2));
if (b == -1) {
Con_Printf("\"%s\" isn't a valid key\n", Cmd_Argv (2));
return;
}
if(!Key_SetBinding (b, m, ""))
Con_Printf("Key_SetBinding failed for unknown reason\n");
}
static void
Key_In_Bind_f (void)
{
int i, c, b, m;
char cmd[MAX_INPUTLINE];
char *errchar = NULL;
c = Cmd_Argc ();
if (c != 3 && c != 4) {
Con_Print("in_bind <bindmap> <key> [command] : attach a command to a key\n");
return;
}
m = strtol(Cmd_Argv (1), &errchar, 0);
if ((m < 0) || (m >= MAX_BINDMAPS) || (errchar && *errchar)) {
Con_Printf("%s isn't a valid bindmap\n", Cmd_Argv(1));
return;
}
b = Key_StringToKeynum (Cmd_Argv (2));
if (b == -1 || b >= MAX_KEYS) {
Con_Printf("\"%s\" isn't a valid key\n", Cmd_Argv (2));
return;
}
if (c == 3) {
if (keybindings[m][b])
Con_Printf("\"%s\" = \"%s\"\n", Cmd_Argv (2), keybindings[m][b]);
else
Con_Printf("\"%s\" is not bound\n", Cmd_Argv (2));
return;
}
// copy the rest of the command line
cmd[0] = 0; // start out with a null string
for (i = 3; i < c; i++) {
strlcat (cmd, Cmd_Argv (i), sizeof (cmd));
if (i != (c - 1))
strlcat (cmd, " ", sizeof (cmd));
}
if(!Key_SetBinding (b, m, cmd))
Con_Printf("Key_SetBinding failed for unknown reason\n");
}
static void
Key_In_Bindmap_f (void)
{
int m1, m2, c;
char *errchar = NULL;
c = Cmd_Argc ();
if (c != 3) {
Con_Print("in_bindmap <bindmap> <fallback>: set current bindmap and fallback\n");
return;
}
m1 = strtol(Cmd_Argv (1), &errchar, 0);
if ((m1 < 0) || (m1 >= MAX_BINDMAPS) || (errchar && *errchar)) {
Con_Printf("%s isn't a valid bindmap\n", Cmd_Argv(1));
return;
}
m2 = strtol(Cmd_Argv (2), &errchar, 0);
if ((m2 < 0) || (m2 >= MAX_BINDMAPS) || (errchar && *errchar)) {
Con_Printf("%s isn't a valid bindmap\n", Cmd_Argv(2));
return;
}
key_bmap = m1;
key_bmap2 = m2;
}
static void
Key_Unbind_f (void)
{
int b;
if (Cmd_Argc () != 2) {
Con_Print("unbind <key> : remove commands from a key\n");
return;
}
b = Key_StringToKeynum (Cmd_Argv (1));
if (b == -1) {
Con_Printf("\"%s\" isn't a valid key\n", Cmd_Argv (1));
return;
}
if(!Key_SetBinding (b, 0, ""))
Con_Printf("Key_SetBinding failed for unknown reason\n");
}
static void
Key_Unbindall_f (void)
{
int i, j;
for (j = 0; j < MAX_BINDMAPS; j++)
for (i = 0; i < (int)(sizeof(keybindings[0])/sizeof(keybindings[0][0])); i++)
if (keybindings[j][i])
Key_SetBinding (i, j, "");
}
static void
Key_PrintBindList(int j)
{
char bindbuf[MAX_INPUTLINE];
char tinystr[2];
const char *p;
int i;
for (i = 0; i < (int)(sizeof(keybindings[0])/sizeof(keybindings[0][0])); i++)
{
p = keybindings[j][i];
if (p)
{
Cmd_QuoteString(bindbuf, sizeof(bindbuf), p, "\"\\", false);
if (j == 0)
Con_Printf("^2%s ^7= \"%s\"\n", Key_KeynumToString (i, tinystr, sizeof(tinystr)), bindbuf);
else
Con_Printf("^3bindmap %d: ^2%s ^7= \"%s\"\n", j, Key_KeynumToString (i, tinystr, sizeof(tinystr)), bindbuf);
}
}
}
static void
Key_In_BindList_f (void)
{
int m;
char *errchar = NULL;
if(Cmd_Argc() >= 2)
{
m = strtol(Cmd_Argv(1), &errchar, 0);
if ((m < 0) || (m >= MAX_BINDMAPS) || (errchar && *errchar)) {
Con_Printf("%s isn't a valid bindmap\n", Cmd_Argv(1));
return;
}
Key_PrintBindList(m);
}
else
{
for (m = 0; m < MAX_BINDMAPS; m++)
Key_PrintBindList(m);
}
}
static void
Key_BindList_f (void)
{
Key_PrintBindList(0);
}
static void
Key_Bind_f (void)
{
int i, c, b;
char cmd[MAX_INPUTLINE];
c = Cmd_Argc ();
if (c != 2 && c != 3) {
Con_Print("bind <key> [command] : attach a command to a key\n");
return;
}
b = Key_StringToKeynum (Cmd_Argv (1));
if (b == -1 || b >= MAX_KEYS) {
Con_Printf("\"%s\" isn't a valid key\n", Cmd_Argv (1));
return;
}
if (c == 2) {
if (keybindings[0][b])
Con_Printf("\"%s\" = \"%s\"\n", Cmd_Argv (1), keybindings[0][b]);
else
Con_Printf("\"%s\" is not bound\n", Cmd_Argv (1));
return;
}
// copy the rest of the command line
cmd[0] = 0; // start out with a null string
for (i = 2; i < c; i++) {
strlcat (cmd, Cmd_Argv (i), sizeof (cmd));
if (i != (c - 1))
strlcat (cmd, " ", sizeof (cmd));
}
if(!Key_SetBinding (b, 0, cmd))
Con_Printf("Key_SetBinding failed for unknown reason\n");
}
/*
============
Writes lines containing "bind key value"
============
*/
void
Key_WriteBindings (qfile_t *f)
{
int i, j;
char bindbuf[MAX_INPUTLINE];
char tinystr[2];
const char *p;
for (j = 0; j < MAX_BINDMAPS; j++)
{
for (i = 0; i < (int)(sizeof(keybindings[0])/sizeof(keybindings[0][0])); i++)
{
p = keybindings[j][i];
if (p)
{
Cmd_QuoteString(bindbuf, sizeof(bindbuf), p, "\"\\", false); // don't need to escape $ because cvars are not expanded inside bind
if (j == 0)
FS_Printf(f, "bind %s \"%s\"\n", Key_KeynumToString (i, tinystr, sizeof(tinystr)), bindbuf);
else
FS_Printf(f, "in_bind %d %s \"%s\"\n", j, Key_KeynumToString (i, tinystr, sizeof(tinystr)), bindbuf);
}
}
}
}
void
Key_Init (void)
{
Key_History_Init();
key_line[0] = ']';
key_line[1] = 0;
key_linepos = 1;
//
// register our functions
//
Cmd_AddCommand ("in_bind", Key_In_Bind_f, "binds a command to the specified key in the selected bindmap");
Cmd_AddCommand ("in_unbind", Key_In_Unbind_f, "removes command on the specified key in the selected bindmap");
Cmd_AddCommand ("in_bindlist", Key_In_BindList_f, "bindlist: displays bound keys for all bindmaps, or the given bindmap");
Cmd_AddCommand ("in_bindmap", Key_In_Bindmap_f, "selects active foreground and background (used only if a key is not bound in the foreground) bindmaps for typing");
Cmd_AddCommand ("bind", Key_Bind_f, "binds a command to the specified key in bindmap 0");
Cmd_AddCommand ("unbind", Key_Unbind_f, "removes a command on the specified key in bindmap 0");
Cmd_AddCommand ("bindlist", Key_BindList_f, "bindlist: displays bound keys for bindmap 0 bindmaps");
Cmd_AddCommand ("unbindall", Key_Unbindall_f, "removes all commands from all keys in all bindmaps (leaving only shift-escape and escape)");
Cmd_AddCommand ("history", Key_History_f, "prints the history of executed commands (history X prints the last X entries, history -c clears the whole history)");
Cvar_RegisterVariable (&con_closeontoggleconsole);
}
void
Key_Shutdown (void)
{
Key_History_Shutdown();
}
const char *Key_GetBind (int key, int bindmap)
{
const char *bind;
if (key < 0 || key >= MAX_KEYS)
return NULL;
if(bindmap >= MAX_BINDMAPS)
return NULL;
if(bindmap >= 0)
{
bind = keybindings[bindmap][key];
}
else
{
bind = keybindings[key_bmap][key];
if (!bind)
bind = keybindings[key_bmap2][key];
}
return bind;
}
void Key_FindKeysForCommand (const char *command, int *keys, int numkeys, int bindmap)
{
int count;
int j;
const char *b;
for (j = 0;j < numkeys;j++)
keys[j] = -1;
if(bindmap >= MAX_BINDMAPS)
return;
count = 0;
for (j = 0; j < MAX_KEYS; ++j)
{
b = Key_GetBind(j, bindmap);
if (!b)
continue;
if (!strcmp (b, command) )
{
keys[count++] = j;
if (count == numkeys)
break;
}
}
}
/*
===================
Called by the system between frames for both key up and key down events
Should NOT be called during an interrupt!
===================
*/
static char tbl_keyascii[MAX_KEYS];
static keydest_t tbl_keydest[MAX_KEYS];
typedef struct eventqueueitem_s
{
int key;
int ascii;
qboolean down;
}
eventqueueitem_t;
static int events_blocked = 0;
static eventqueueitem_t eventqueue[32];
static unsigned eventqueue_idx = 0;
static void Key_EventQueue_Add(int key, int ascii, qboolean down)
{
if(eventqueue_idx < sizeof(eventqueue) / sizeof(*eventqueue))
{
eventqueue[eventqueue_idx].key = key;
eventqueue[eventqueue_idx].ascii = ascii;
eventqueue[eventqueue_idx].down = down;
++eventqueue_idx;
}
}
void Key_EventQueue_Block(void)
{
// block key events until call to Unblock
events_blocked = true;
}
void Key_EventQueue_Unblock(void)
{
// unblocks key events again
unsigned i;
events_blocked = false;
for(i = 0; i < eventqueue_idx; ++i)
Key_Event(eventqueue[i].key, eventqueue[i].ascii, eventqueue[i].down);
eventqueue_idx = 0;
}
void
Key_Event (int key, int ascii, qboolean down)
{
const char *bind;
qboolean q;
keydest_t keydest = key_dest;
char vabuf[1024];
if (key < 0 || key >= MAX_KEYS)
return;
if(events_blocked)
{
Key_EventQueue_Add(key, ascii, down);
return;
}
if (ascii == 0x80 && utf8_enable.integer) // pressing AltGr-5 (or AltGr-e) and for some reason we get windows-1252 encoding?
ascii = 0x20AC; // we want the Euro currency sign
// TODO find out which vid_ drivers do it and fix it there
// but catching U+0080 here is no loss as that char is not useful anyway
// get key binding
bind = keybindings[key_bmap][key];
if (!bind)
bind = keybindings[key_bmap2][key];
if (developer_insane.integer)
Con_DPrintf("Key_Event(%i, '%c', %s) keydown %i bind \"%s\"\n", key, ascii ? ascii : '?', down ? "down" : "up", keydown[key], bind ? bind : "");
if(key_consoleactive)
keydest = key_console;
if (down)
{
// increment key repeat count each time a down is received so that things
// which want to ignore key repeat can ignore it
keydown[key] = min(keydown[key] + 1, 2);
if(keydown[key] == 1) {
tbl_keyascii[key] = ascii;
tbl_keydest[key] = keydest;
} else {
ascii = tbl_keyascii[key];
keydest = tbl_keydest[key];
}
}
else
{
// clear repeat count now that the key is released
keydown[key] = 0;
keydest = tbl_keydest[key];
ascii = tbl_keyascii[key];
}
if(keydest == key_void)
return;
// key_consoleactive is a flag not a key_dest because the console is a
// high priority overlay ontop of the normal screen (designed as a safety
// feature so that developers and users can rescue themselves from a bad
// situation).
//
// this also means that toggling the console on/off does not lose the old
// key_dest state
// specially handle escape (togglemenu) and shift-escape (toggleconsole)
// engine bindings, these are not handled as normal binds so that the user
// can recover from a completely empty bindmap
if (key == K_ESCAPE)
{
// ignore key repeats on escape
if (keydown[key] > 1)
return;
// escape does these things:
// key_consoleactive - close console
// key_message - abort messagemode
// key_menu - go to parent menu (or key_game)
// key_game - open menu
// in all modes shift-escape toggles console
if (keydown[K_SHIFT])
{
if(down)
{
Con_ToggleConsole_f ();
tbl_keydest[key] = key_void; // esc release should go nowhere (especially not to key_menu or key_game)
}
return;
}
switch (keydest)
{
case key_console:
if(down)
{
if(key_consoleactive & KEY_CONSOLEACTIVE_FORCED)
{
key_consoleactive &= ~KEY_CONSOLEACTIVE_USER;
MR_ToggleMenu(1);
}
else
Con_ToggleConsole_f();
}
break;
case key_message:
if (down)
Key_Message (key, ascii); // that'll close the message input
break;
case key_menu:
case key_menu_grabbed:
MR_KeyEvent (key, ascii, down);
break;
case key_game:
// csqc has priority over toggle menu if it wants to (e.g. handling escape for UI stuff in-game.. :sick:)
q = CL_VM_InputEvent(down ? 0 : 1, key, ascii);
if (!q && down)
MR_ToggleMenu(1);
break;
default:
Con_Printf ("Key_Event: Bad key_dest\n");
}
return;
}
// send function keydowns to interpreter no matter what mode is (unless the menu has specifically grabbed the keyboard, for rebinding keys)
// VorteX: Omnicide does bind F* keys
if (keydest != key_menu_grabbed)
if (key >= K_F1 && key <= K_F12 && gamemode != GAME_BLOODOMNICIDE)
{
if (bind)
{
if(keydown[key] == 1 && down)
{
// button commands add keynum as a parm
if (bind[0] == '+')
Cbuf_AddText (va(vabuf, sizeof(vabuf), "%s %i\n", bind, key));
else
{
Cbuf_AddText (bind);
Cbuf_AddText ("\n");
}
} else if(bind[0] == '+' && !down && keydown[key] == 0)
Cbuf_AddText(va(vabuf, sizeof(vabuf), "-%s %i\n", bind + 1, key));
}
return;
}
// send input to console if it wants it
if (keydest == key_console)
{
if (!down)
return;
// con_closeontoggleconsole enables toggleconsole keys to close the
// console, as long as they are not the color prefix character
// (special exemption for german keyboard layouts)
if (con_closeontoggleconsole.integer && bind && !strncmp(bind, "toggleconsole", strlen("toggleconsole")) && (key_consoleactive & KEY_CONSOLEACTIVE_USER) && (con_closeontoggleconsole.integer >= ((ascii != STRING_COLOR_TAG) ? 2 : 3) || key_linepos == 1))
{
Con_ToggleConsole_f ();
return;
}
if (COM_CheckParm ("-noconsole"))
return; // only allow the key bind to turn off console
Key_Console (key, ascii);
return;
}
// handle toggleconsole in menu too
if (keydest == key_menu)
{
if (down && con_closeontoggleconsole.integer && bind && !strncmp(bind, "toggleconsole", strlen("toggleconsole")) && ascii != STRING_COLOR_TAG)
{
Con_ToggleConsole_f ();
tbl_keydest[key] = key_void; // key release should go nowhere (especially not to key_menu or key_game)
return;
}
}
// ignore binds while a video is played, let the video system handle the key event
if (cl_videoplaying)
{
if (gamemode == GAME_BLOODOMNICIDE) // menu controls key events
MR_KeyEvent(key, ascii, down);
else
CL_Video_KeyEvent (key, ascii, keydown[key] != 0);
return;
}
// anything else is a key press into the game, chat line, or menu
switch (keydest)
{
case key_message:
if (down)
Key_Message (key, ascii);
break;
case key_menu:
case key_menu_grabbed:
MR_KeyEvent (key, ascii, down);
break;
case key_game:
q = CL_VM_InputEvent(down ? 0 : 1, key, ascii);
// ignore key repeats on binds and only send the bind if the event hasnt been already processed by csqc
if (!q && bind)
{
if(keydown[key] == 1 && down)
{
// button commands add keynum as a parm
if (bind[0] == '+')
Cbuf_AddText (va(vabuf, sizeof(vabuf), "%s %i\n", bind, key));
else
{
Cbuf_AddText (bind);
Cbuf_AddText ("\n");
}
} else if(bind[0] == '+' && !down && keydown[key] == 0)
Cbuf_AddText(va(vabuf, sizeof(vabuf), "-%s %i\n", bind + 1, key));
}
break;
default:
Con_Printf ("Key_Event: Bad key_dest\n");
}
}
// a helper to simulate release of ALL keys
void
Key_ReleaseAll (void)
{
int key;
// clear the event queue first
eventqueue_idx = 0;
// then send all down events (possibly into the event queue)
for(key = 0; key < MAX_KEYS; ++key)
if(keydown[key])
Key_Event(key, 0, false);
// now all keys are guaranteed down (once the event queue is unblocked)
// and only future events count
}
/*
===================
Key_ClearStates
===================
*/
void
Key_ClearStates (void)
{
memset(keydown, 0, sizeof(keydown));
}