inhabitor/mamelink/griddle/indir.c

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7.5 KiB
C
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#include "griddleDefs.h"
#define MAXLINE 500
char *
scan_number(args, resultptr)
char *args;
int *resultptr;
{
*resultptr = 0;
while ('0' <= *args && *args <= '9')
*resultptr = *resultptr * 10 + *args++ - '0';
return(args);
}
char *
scan_connections(args, multiOK, resultptr, multiptr, countptr)
char *args;
boolean multiOK;
int *resultptr;
int **multiptr;
int *countptr;
{
int multiArray[20];
int multiCount;
int dummy;
int i;
if (*args == '(') {
*args = ' ';
multiCount = 0;
while (*args == ' ')
args = scan_number(args+1, &multiArray[multiCount++]);
*resultptr = multiArray[multiCount - 1];
if (multiOK) {
*multiptr = typeAllocMulti(int, multiCount);
for (i=0; i<multiCount; ++i)
(*multiptr)[i] = multiArray[i];
*countptr = multiCount;
}
return(args + 1);
} else {
args = scan_number(args, resultptr);
if (multiOK) {
*multiptr = typeAlloc(int);
(*multiptr)[0] = *resultptr;
*countptr = 1;
}
return(args);
}
}
void
scanIndirectFilePass1()
{
char line[MAXLINE];
char *argptr;
char *iptr;
char *index();
char *skipArg();
boolean stringFlag;
int rot;
indirRegion = 0;
indirectPass = 1;
while (fgets(line, MAXLINE, indirFile) != NULL) {
iptr = indirName;
argptr = line;
while (*argptr != ' ')
*iptr++ = *argptr++;
*iptr = '\0';
argptr += 3;
argptr = scan_number(argptr, &rot);
indirTable[indirRegion].rot = rot;
argptr = scan_connections(argptr + 3, rot == 0,
&indirTable[indirRegion].west,
&indirTable[indirRegion].multi,
&indirTable[indirRegion].multiCount);
argptr = scan_connections(argptr + 3, rot == 1,
&indirTable[indirRegion].north,
&indirTable[indirRegion].multi,
&indirTable[indirRegion].multiCount);
argptr = scan_connections(argptr + 3, rot == 2,
&indirTable[indirRegion].east,
&indirTable[indirRegion].multi,
&indirTable[indirRegion].multiCount);
argptr = scan_connections(argptr + 3, rot == 3,
&indirTable[indirRegion].south,
&indirTable[indirRegion].multi,
&indirTable[indirRegion].multiCount);
argptr = index(argptr, '/') + 1;
indirArgc = 0;
while (argptr != NULL && *argptr != '\0' && *argptr != '\n') {
while (*argptr == ' ')
++argptr;
if (stringFlag = (*argptr == '"'))
++argptr;
indirArgv[indirArgc++] = argptr;
argptr = skipArg(argptr, stringFlag);
if (argptr != NULL)
*argptr++ = '\0';
}
queueInputFile(strcat(indirName, ".gri"));
if (!openFirstFile(FALSE)) {
error("can't continue from here!");
exit(1);
}
globalIdAdjustment = globalIdCounter - 1001;
yyparse();
++indirRegion;
}
}
void
scanIndirectFilePass2()
{
char line[MAXLINE];
char *argptr;
char *iptr;
char *index();
char *skipArg();
boolean stringFlag;
int dummy;
indirRegion = 0;
indirectPass = 2;
globalIdCounter = 1001;
while (fgets(line, MAXLINE, indirFile) != NULL) {
iptr = indirName;
argptr = line;
while (*argptr != ' ')
*iptr++ = *argptr++;
*iptr = '\0';
argptr += 3;
argptr = scan_number(argptr, &dummy);
argptr = scan_connections(argptr, FALSE, &dummy, NULL,&dummy);
argptr = scan_connections(argptr, FALSE, &dummy, NULL,&dummy);
argptr = scan_connections(argptr, FALSE, &dummy, NULL,&dummy);
argptr = scan_connections(argptr, FALSE, &dummy, NULL,&dummy);
argptr = index(argptr, '/') + 1;
indirArgc = 0;
while (argptr != NULL && *argptr != '\0' && *argptr != '\n') {
while (*argptr == ' ')
++argptr;
if (stringFlag = (*argptr == '"'))
++argptr;
indirArgv[indirArgc++] = argptr;
argptr = skipArg(argptr, stringFlag);
if (argptr != NULL)
*argptr++ = '\0';
}
queueInputFile(strcat(indirName, ".gri"));
if (!openFirstFile(FALSE)) {
error("can't continue from here!");
exit(1);
}
globalIdAdjustment = globalIdCounter - 1001;
yyparse();
++indirRegion;
}
}
void
replaceIndirectArgs(obj, index)
object *obj;
int index;
{
int i;
byte *buf;
int reg;
reg = indirRegion - 1;
buf = obj->stateVector;
if (obj->class == CLASS_REGION) {
fillLong(buf, WEST_OFFSET_REG,
getIdent(indirTable[reg].west));
fillLong(buf, NORTH_OFFSET_REG,
getIdent(indirTable[reg].north));
fillLong(buf, EAST_OFFSET_REG,
getIdent(indirTable[reg].east));
fillLong(buf, SOUTH_OFFSET_REG,
getIdent(indirTable[reg].south));
fillWord(buf, ORIENT_OFFSET_REG, indirTable[reg].rot);
} else if (obj->class == CLASS_DOOR || obj->class == CLASS_BUILDING) {
if (index <= indirTable[reg].multiCount) {
fillLong(buf, CONNECTION_OFFSET_DOOR,
getIdent(indirTable[reg].multi[index-1]));
if (index == indirTable[reg].multiCount) {
buf = altNoidArray[0]->stateVector;
switch (indirTable[reg].rot) {
Case 0: fillLong(buf, WEST_OFFSET_REG, -1);
Case 1: fillLong(buf, NORTH_OFFSET_REG, -1);
Case 2: fillLong(buf, EAST_OFFSET_REG, -1);
Case 3: fillLong(buf, SOUTH_OFFSET_REG, -1);
}
}
} else
fillLong(buf, CONNECTION_OFFSET_DOOR, -1);
}
}
int
getIdent(num)
int num;
{
if (num == 0)
return(-1);
else
return(indirTable[num - 1].region);
}
char *
skipArg(line, stringFlag)
char *line;
boolean stringFlag;
{
char *index();
if (stringFlag) {
while ((line = index(line+1, '"')) != NULL)
if (*(line - 1) != '\\')
return(line);
} else for (; *line != ' ' && *line != '\n' && *line != '\0'; ++line)
;
return(line);
}
void
replaceParams(line)
char *line;
{
char scratchBuf[500];
char *outptr;
char *argptr;
char *inptr;
int offset;
enum { LEFT, CENTER, RIGHT, NONE } format;
int width;
int i;
int len;
outptr = scratchBuf;
inptr = line;
while (*inptr != '\0') {
if (*inptr == '`') {
offset = scanNumber(&inptr);
if (*inptr == 'l' || *inptr == 'r' || *inptr == 'c') {
format = (*inptr == 'l') ? LEFT :
((*inptr == 'r') ? RIGHT : CENTER);
width = scanNumber(&inptr) + 1;
} else
format = NONE;
if (indirArgc < offset)
error("parameter offset %d out of range\n",
offset);
else if (offset == -1)
*outptr++ = '`';
else {
len = strlen(indirArgv[offset]);
switch (format) {
Case NONE:
for (argptr=indirArgv[offset];
*argptr != '\0'; )
*outptr++ = *argptr++;
Case LEFT:
for (argptr=indirArgv[offset], i=0;
*argptr != '\0' &&
i < width; ++i)
*outptr++ = *argptr++;
for (; i < width; ++i)
*outptr++ = ' ';
Case RIGHT:
argptr = indirArgv[offset];
if (len < width)
for (i=width-len; i > 0; --i)
*outptr++ = ' ';
else
argptr += len - width;
while (*argptr != '\0')
*outptr++ = *argptr++;
Case CENTER:
argptr = indirArgv[offset];
i = 0;
if (len < width)
for (; i < (width-len)/2; ++i)
*outptr++ = ' ';
else
argptr += (len - width) / 2;
for (; i<width && *argptr!='\0'; ++i)
*outptr++ = *argptr++;
for (; i<width; ++i)
*outptr++ = ' ';
}
}
} else {
if (*inptr == '\\') {
++inptr;
if (*inptr != '`')
*outptr++ = '\\';
}
*outptr++ = *inptr++;
}
}
*outptr = '\0';
strcpy(line, scratchBuf);
}
int
scanNumber(lineptr)
char **lineptr;
{
int result;
char *line;
result = 0;
line = *lineptr + 1;
while ('0' <= *line && *line <= '9')
result = result * 10 + *line++ - '0';
*lineptr = line;
return(result - 1);
}
void
indirectGriddle()
{
char line[80];
int i;
fgets(line, 80, indirFile);
sscanf(line, "%d", &indirCount);
indirTable = typeAllocMulti(indirectEntry, indirCount);
scanIndirectFilePass1();
rewind(indirFile);
flushNoidArray();
fgets(line, 80, indirFile);
scanIndirectFilePass2();
flushNoidArray();
}