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magicka/utils/magiedit/odoors/ODGetIn.c

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2016-12-03 05:08:50 +00:00
/* OpenDoors Online Software Programming Toolkit
* (C) Copyright 1991 - 1999 by Brian Pirie.
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser 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
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*
*
* File: ODGetIn.c
*
* Description: Implements the od_get_input() function, which obtains the
* next input event of any type, optionally performing
* translation.
*
* Revisions: Date Ver Who Change
* ---------------------------------------------------------------
* Jan 04, 1996 6.00 BP Created.
* Jan 30, 1996 6.00 BP Tweaked TREAT_ESC_AS_ANSI_TIMEOUT.
* Jan 30, 1996 6.00 BP Replaced od_yield() with od_sleep().
* Jan 30, 1996 6.00 BP Add ODInQueueGetNextEvent() timeout.
* Jan 31, 1996 6.00 BP Added timeout for od_get_input().
* Feb 13, 1996 6.00 BP Added od_get_input() flags parameter.
* Feb 19, 1996 6.00 BP Changed version number to 6.00.
* Feb 19, 1996 6.00 BP Switched to table implementation.
* Feb 25, 1996 6.00 BP Added new control sequences to table.
* Feb 27, 1996 6.00 BP Added od_max_key_latency.
* Mar 03, 1996 6.10 BP Begin version 6.10.
* Aug 10, 2003 6.23 SH *nix support
* Apr 11, 2005 6.23 SH Fix hang forver on ESC press and latency timeout.
*/
#define BUILDING_OPENDOORS
#include <stddef.h>
#include <string.h>
#include "OpenDoor.h"
#include "ODInQue.h"
#include "ODCore.h"
#include "ODKrnl.h"
/* Control sequence table definitions. */
typedef struct
{
char *pszSequence;
char chExtendedKey;
BOOL bIsControlKey;
} tODKeySequence;
tODKeySequence aKeySequences[] =
{
/* VT-52 control sequences. */
{"\033A", OD_KEY_UP, FALSE},
{"\033B", OD_KEY_DOWN, FALSE},
{"\033C", OD_KEY_RIGHT, FALSE},
{"\033D", OD_KEY_LEFT, FALSE},
{"\033H", OD_KEY_HOME, FALSE},
{"\033K", OD_KEY_END, FALSE},
{"\033P", OD_KEY_F1, FALSE},
{"\033Q", OD_KEY_F2, FALSE},
{"\033?w", OD_KEY_F3, FALSE},
{"\033?x", OD_KEY_F4, FALSE},
{"\033?t", OD_KEY_F5, FALSE},
{"\033?u", OD_KEY_F6, FALSE},
{"\033?q", OD_KEY_F7, FALSE},
{"\033?r", OD_KEY_F8, FALSE},
{"\033?p", OD_KEY_F9, FALSE},
/* Control sequences common to VT-100/VT-102/VT-220/VT-320/ANSI. */
{"\033[A", OD_KEY_UP, FALSE},
{"\033[B", OD_KEY_DOWN, FALSE},
{"\033[C", OD_KEY_RIGHT, FALSE},
{"\033[D", OD_KEY_LEFT, FALSE},
{"\033[M", OD_KEY_PGUP, FALSE},
{"\033[H\x1b[2J", OD_KEY_PGDN, FALSE},
{"\033[H", OD_KEY_HOME, FALSE},
{"\033[K", OD_KEY_END, FALSE},
{"\033OP", OD_KEY_F1, FALSE},
{"\033OQ", OD_KEY_F2, FALSE},
{"\033OR", OD_KEY_F3, FALSE},
{"\033OS", OD_KEY_F4, FALSE},
/* VT-220/VT-320 specific control sequences. */
{"\033[1~", OD_KEY_HOME, FALSE}, /* Windows XP telnet.exe. Is actually FIND */
{"\033[2~", OD_KEY_INSERT, FALSE},
{"\033[3~", OD_KEY_DELETE, FALSE},
{"\033[4~", OD_KEY_END, FALSE}, /* Windows XP telnet.exe. Is actually SELECT */
{"\033[5~", OD_KEY_PGUP, FALSE},
{"\033[6~", OD_KEY_PGDN, FALSE},
{"\033[17~", OD_KEY_F6, FALSE},
{"\033[18~", OD_KEY_F7, FALSE},
{"\033[19~", OD_KEY_F8, FALSE},
{"\033[20~", OD_KEY_F9, FALSE},
{"\033[21~", OD_KEY_F10, FALSE},
{"\033[23~", OD_KEY_F11, FALSE},
{"\033[24~", OD_KEY_F12, FALSE},
/* ANSI-specific control sequences. */
{"\033[L", OD_KEY_HOME, FALSE},
{"\033Ow", OD_KEY_F3, FALSE},
{"\033Ox", OD_KEY_F4, FALSE},
{"\033Ot", OD_KEY_F5, FALSE},
{"\033Ou", OD_KEY_F6, FALSE},
{"\033Oq", OD_KEY_F7, FALSE},
{"\033Or", OD_KEY_F8, FALSE},
{"\033Op", OD_KEY_F9, FALSE},
/* PROCOMM-specific control sequences (non-keypad alternatives). */
{"\033OA", OD_KEY_UP, FALSE},
{"\033OB", OD_KEY_DOWN, FALSE},
{"\033OC", OD_KEY_RIGHT, FALSE},
{"\033OD", OD_KEY_LEFT, FALSE},
{"\033OH", OD_KEY_HOME, FALSE},
{"\033OK", OD_KEY_END, FALSE},
/* Other standard control sequences. */
{"\x16\t", OD_KEY_INSERT, TRUE},
/* OpenDoors-specific alternatives. */
{"\x7f", OD_KEY_DELETE, FALSE},
{"\x5", OD_KEY_UP, TRUE},
{"\x18", OD_KEY_DOWN, TRUE},
{"\x13", OD_KEY_LEFT, TRUE},
{"\x4", OD_KEY_RIGHT, TRUE},
{"\x7", OD_KEY_DELETE, TRUE},
{"\x16", OD_KEY_INSERT, TRUE},
};
/* Constant that indicates no match has been found. */
#define NO_MATCH DIM(aKeySequences)
/* Configurable constants. */
/* The time, in milliseconds, to wait for a second character in a control */
/* sequence, before deciding that none is going to come. */
#define MAX_CHARACTER_LATENCY 250
/* Size of inbound sequence buffer. */
#define SEQUENCE_BUFFER_SIZE 10
/* Current control sequence received state. */
static char szCurrentSequence[SEQUENCE_BUFFER_SIZE] = "";
#if 0 // Unused...
static tODTimer SequenceFailTimer;
static BOOL bSequenceFromRemote;
static int nMatchedSequence = NO_MATCH;
static BOOL bTimerActive = FALSE;
#endif
static BOOL bDoorwaySequence = FALSE;
static BOOL bDoorwaySequencePending = FALSE;
/* Local private function prototypes. */
static int ODGetCodeIfLongest(WORD wFlags);
static int ODHaveStartOfSequence(WORD wFlags);
static int ODLongestFullCode(WORD wFlags);
static void ODShiftSeq(int chars);
/* ----------------------------------------------------------------------------
* od_get_input()
*
* Obtains the next input event of any type, optionally performing
* translation on input events.
*
* Parameters: pInputEvent - Pointer to a tODInputEvent structure, which
* will be filled by information on the next input
* event, if any is obtained.
*
* TimeToWait - Number of milliseconds to wait for input to be
* available. A value of 0 causes od_get_input()
* to return immediately if no input is waiting,
* while a value of OD_NO_TIMEOUT causes the
* function to never return unless input has been
* obtained.
*
* wFlags - Flags which customize od_get_input()'s behaviour.
*
* Return: TRUE if an input event was obtained, FALSE if not.
*/
ODAPIDEF BOOL ODCALL od_get_input(tODInputEvent *pInputEvent,
tODMilliSec TimeToWait, WORD wFlags)
{
tODInputEvent LastInputEvent;
int nSequence;
int nSequenceLen;
/* Log function entry if running in trace mode. */
TRACE(TRACE_API, "od_get_input()");
/* Initialize OpenDoors if it hasn't already been done. */
if(!bODInitialized) od_init();
OD_API_ENTRY();
/* Check for parameter validity. */
if(pInputEvent == NULL)
{
od_control.od_error = ERR_PARAMETER;
OD_API_EXIT();
return(FALSE);
}
/* Call the OpenDoors kernel, if applicable */
CALL_KERNEL_IF_NEEDED();
/* If you don't know better, it's a remote char */
/* Local chars are always correctly received (no ANSI sequences) */
LastInputEvent.bFromRemote = TRUE;
if((!bDoorwaySequence) && bDoorwaySequencePending && (!szCurrentSequence[0])) {
bDoorwaySequencePending=FALSE;
bDoorwaySequence=TRUE;
}
/* If no pending input string, wait for the first keystroke */
if((!szCurrentSequence[0]) && (!bDoorwaySequence)) {
if(ODInQueueGetNextEvent(hODInputQueue, &LastInputEvent, TimeToWait)
!= kODRCSuccess) {
OD_API_EXIT();
return(FALSE);
}
/* If you have a *local* char, send it immediately */
if((!LastInputEvent.bFromRemote) && (LastInputEvent.chKeyPress != 0)
#if 0
&& (LastInputEvent.EventType == EVENT_EXTENDED_KEY)) {
#else
) {
#endif
memcpy(pInputEvent, &LastInputEvent, sizeof(tODInputEvent));
OD_API_EXIT();
return(TRUE);
}
/* IF the received char is a NULL, this is the start of a doorway char */
if(!LastInputEvent.chKeyPress)
bDoorwaySequence = TRUE;
else {
szCurrentSequence[0]=LastInputEvent.chKeyPress;
szCurrentSequence[1]=0;
}
}
nSequenceLen=strlen(szCurrentSequence);
CALL_KERNEL_IF_NEEDED();
/* If you don't have the start of a sequence, and it's not doorway mode, you have
* a char. It's that simple.
*/
if((!bDoorwaySequence) && (!ODHaveStartOfSequence(wFlags))) {
pInputEvent->chKeyPress = szCurrentSequence[0];
pInputEvent->EventType = EVENT_CHARACTER;
pInputEvent->bFromRemote = LastInputEvent.bFromRemote;
/* Shift the sequence buffer over one */
ODShiftSeq(1);
OD_API_EXIT();
return(TRUE);
}
/* Now... if the current sequence IS the longest valid one, return it
* immediately. If it's sequence leftovers, it HAS to be a remote key
* since local chars are #1 always doorway mode and #2 have no delay
* betwixt them.
*/
if((nSequence = ODGetCodeIfLongest(wFlags)) != NO_MATCH) {
pInputEvent->chKeyPress = aKeySequences[nSequence].chExtendedKey;
pInputEvent->EventType = EVENT_EXTENDED_KEY;
pInputEvent->bFromRemote = LastInputEvent.bFromRemote;
/* Shift the sequence buffer... being sure to copy the terminator */
ODShiftSeq(strlen(aKeySequences[nSequence].pszSequence));
OD_API_EXIT();
return(TRUE);
}
/* Now, continue adding chars, waiting at MOST MAX_CHARACTER_LATENCY between them */
CALL_KERNEL_IF_NEEDED();
while((!bDoorwaySequencePending)
&& (ODInQueueGetNextEvent(hODInputQueue, &LastInputEvent, MAX_CHARACTER_LATENCY)
== kODRCSuccess)) {
/* If you are looking for a doorway sequence, any char completes it (honest!) */
/* Further, thanks to some lack of planning, it's EXACTLY THE SAME as the char,
* only it's extended.
*/
if(bDoorwaySequence) {
memcpy(pInputEvent, &LastInputEvent, sizeof(tODInputEvent));
pInputEvent->EventType = EVENT_EXTENDED_KEY;
bDoorwaySequence=FALSE;
OD_API_EXIT();
return(TRUE);
}
/* If we get a 0, we *WILL BE* looking for a doorway sequence. But NOT
* until the current sequence buffer is drained!
*/
if(LastInputEvent.chKeyPress == 0) {
bDoorwaySequencePending=TRUE;
break;
}
/* If you have a *local* char, send it immediately */
if((!LastInputEvent.bFromRemote) && (LastInputEvent.chKeyPress != 0)
#if 0
&& (LastInputEvent.EventType == EVENT_EXTENDED_KEY)) {
#else
) {
#endif
memcpy(pInputEvent, &LastInputEvent, sizeof(tODInputEvent));
OD_API_EXIT();
return(TRUE);
}
/* Put this char into the sequence buffer */
szCurrentSequence[nSequenceLen++]=LastInputEvent.chKeyPress;
szCurrentSequence[nSequenceLen]=0;
/* When you have the longest possible sequence, you ARE done */
if((nSequence = ODGetCodeIfLongest(wFlags)) != NO_MATCH) {
pInputEvent->chKeyPress = aKeySequences[nSequence].chExtendedKey;
pInputEvent->EventType = EVENT_EXTENDED_KEY;
pInputEvent->bFromRemote = LastInputEvent.bFromRemote;
/* Shift the sequence buffer... being sure to copy the terminator */
ODShiftSeq(strlen(aKeySequences[nSequence].pszSequence));
OD_API_EXIT();
return(TRUE);
}
CALL_KERNEL_IF_NEEDED();
}
/* If we were looking for a doorway sequence, tough, we didn't get it. */
if(bDoorwaySequence) {
pInputEvent->chKeyPress = 0;
pInputEvent->EventType = EVENT_CHARACTER;
pInputEvent->bFromRemote = LastInputEvent.bFromRemote;
bDoorwaySequence=FALSE;
OD_API_EXIT();
return(TRUE);
}
/* Now, if we have any kind of sequence, we'll settle for it. */
if((nSequence = ODLongestFullCode(wFlags)) != NO_MATCH) {
pInputEvent->chKeyPress = aKeySequences[nSequence].chExtendedKey;
pInputEvent->EventType = EVENT_EXTENDED_KEY;
pInputEvent->bFromRemote = LastInputEvent.bFromRemote;
/* Shift the sequence buffer... being sure to copy the terminator */
ODShiftSeq(strlen(aKeySequences[nSequence].pszSequence));
OD_API_EXIT();
return(TRUE);
}
/* If we don't have a complete sequence, send a single char */
pInputEvent->chKeyPress = szCurrentSequence[0];
if(szCurrentSequence[0]) {
pInputEvent->EventType = EVENT_CHARACTER;
pInputEvent->bFromRemote = LastInputEvent.bFromRemote;
/* Shift the sequence buffer over one */
ODShiftSeq(1);
}
OD_API_EXIT();
/* Return false if something broke */
return(pInputEvent->chKeyPress);
}
/* ----------------------------------------------------------------------------
* ODLongestFullCode() *** PRIVATE FUNCTION ***
*
* Return the index of the longest full code that matches the start of the
* sequence buffer
*
* Parameters: wFlags from od_get_input()
*
* Return: void
*/
static int ODLongestFullCode(WORD wFlags)
{
int CurrLen=0;
int seqlen;
int i;
int retval=NO_MATCH;;
if(wFlags & GETIN_RAW)
return(NO_MATCH);
for(i = 0; i < DIM(aKeySequences); ++i) {
if((wFlags & GETIN_RAWCTRL) && aKeySequences[i].bIsControlKey) {
continue;
}
seqlen=strlen(aKeySequences[i].pszSequence);
if(seqlen>CurrLen) {
if(strncmp(aKeySequences[i].pszSequence, szCurrentSequence, seqlen)==0) {
retval=i;
CurrLen=seqlen;
}
}
}
return(retval);
}
/* ----------------------------------------------------------------------------
* ODHaveStartOfSequence() *** PRIVATE FUNCTION ***
*
* If the current sequence buffer is the start of a valid sequence, return TRUE
*
* Parameters: wFlags from od_get_input()
*
* Return: void
*/
static int ODHaveStartOfSequence(WORD wFlags)
{
int seqlen1;
int seqlen2;
int i;
if(wFlags & GETIN_RAW)
return(FALSE);
seqlen1=strlen(szCurrentSequence);
for(i = 0; i < DIM(aKeySequences); ++i) {
if((wFlags & GETIN_RAWCTRL) && aKeySequences[i].bIsControlKey) {
continue;
}
seqlen2=strlen(aKeySequences[i].pszSequence);
if(seqlen1<seqlen2)
seqlen2=seqlen1;
if(strncmp(aKeySequences[i].pszSequence, szCurrentSequence, seqlen2)==0) {
return(TRUE);
}
}
return(FALSE);
}
/* ----------------------------------------------------------------------------
* ODGetCodeIfLongest() *** PRIVATE FUNCTION ***
*
* Returns the index of the entry in the sequence buffer only if there
* are no longer sequences that could start the same way.
*
* Parameters: wFlags from od_get_input()
*
* Return: void
*/
static int ODGetCodeIfLongest(WORD wFlags)
{
int CurrLen=0;
int seqlen1;
int seqlen2;
int i;
int retval=NO_MATCH;;
if(wFlags & GETIN_RAW)
return(NO_MATCH);
seqlen1=strlen(szCurrentSequence);
for(i = 0; i < DIM(aKeySequences); ++i) {
if((wFlags & GETIN_RAWCTRL) && aKeySequences[i].bIsControlKey) {
continue;
}
seqlen2=strlen(aKeySequences[i].pszSequence);
if(seqlen2>CurrLen) {
if(seqlen2<=seqlen1) { /* The sequence would be completed in buffer */
if(strncmp(aKeySequences[i].pszSequence, szCurrentSequence, seqlen2)==0) {
retval=i;
CurrLen=seqlen2;
}
}
else { /* Possible partial sequence */
if(strncmp(aKeySequences[i].pszSequence, szCurrentSequence, seqlen1)==0) {
return(NO_MATCH);
}
}
}
}
return(retval);
}
/* ----------------------------------------------------------------------------
* ODShiftSeq() *** PRIVATE FUNCTION ***
*
* Shifts szCurrentSequence left the specified number of chars
*
* Parameters: int chars to shift
*
* Return: void
*/
static void ODShiftSeq(int chars)
{
char *in;
char *out;
if(!chars)
return;
out=szCurrentSequence;
in=out+chars;
if(in>strchr(szCurrentSequence,0))
return;
while(*in) {
*(out++)=*(in++);
}
*out=*in;
}