jedi-academy/code/game/q_shared.cpp
2013-04-04 17:35:38 -05:00

1213 lines
21 KiB
C++

// q_shared.c -- stateless support routines that are included in each code dll
// leave this at the top for PCH reasons...
#include "common_headers.h"
//#include "q_shared.h"
float Com_Clamp( float min, float max, float value ) {
if ( value < min ) {
return min;
}
if ( value > max ) {
return max;
}
return value;
}
/*
============
COM_SkipPath
============
*/
char *COM_SkipPath (char *pathname)
{
char *last;
last = pathname;
while (*pathname)
{
if (*pathname=='/')
last = pathname+1;
pathname++;
}
return last;
}
/*
============
COM_StripExtension
============
*/
void COM_StripExtension( const char *in, char *out ) {
while ( *in && *in != '.' ) {
*out++ = *in++;
}
*out = 0;
}
/*
==================
COM_DefaultExtension
==================
*/
void COM_DefaultExtension (char *path, int maxSize, const char *extension ) {
char *src;
if (path[0]) // or the strlen()-1 stuff gets a bad ptr for blank string
{
//
// if path doesn't have a .EXT, append extension
// (extension should include the .)
//
src = path + strlen(path) - 1;
while (*src != '/' && src != path) {
if ( *src == '.' ) {
return; // it has an extension
}
src--;
}
}
if (strlen(path)+strlen(extension) >= maxSize)
{
Com_Printf ("COM_DefaultExtension: overflow adding %s to %s\n", extension, path);
}
else
{
strcat(path, extension);
}
}
/*
============================================================================
BYTE ORDER FUNCTIONS
============================================================================
*/
// can't just use function pointers, or dll linkage can
// mess up when qcommon is included in multiple places
static short (*_BigShort) (short l);
static short (*_LittleShort) (short l);
static int (*_BigLong) (int l);
static int (*_LittleLong) (int l);
static float (*_BigFloat) (float l);
static float (*_LittleFloat) (float l);
#ifdef _M_IX86
//
// optimised stuff for Intel, since most of our data is in that format anyway...
//
short BigShort(short l){return _BigShort(l);}
int BigLong (int l) {return _BigLong(l);}
float BigFloat (float l) {return _BigFloat(l);}
//short LittleShort(short l) {return _LittleShort(l);} // these are now macros in q_shared.h
//int LittleLong (int l) {return _LittleLong(l);} //
//float LittleFloat (float l) {return _LittleFloat(l);} //
//
#else
//
// standard smart-swap code...
//
short BigShort(short l){return _BigShort(l);}
short LittleShort(short l) {return _LittleShort(l);}
int BigLong (int l) {return _BigLong(l);}
int LittleLong (int l) {return _LittleLong(l);}
float BigFloat (float l) {return _BigFloat(l);}
float LittleFloat (float l) {return _LittleFloat(l);}
//
#endif
short ShortSwap (short l)
{
byte b1,b2;
b1 = l&255;
b2 = (l>>8)&255;
return (b1<<8) + b2;
}
short ShortNoSwap (short l)
{
return l;
}
int LongSwap (int l)
{
byte b1,b2,b3,b4;
b1 = l&255;
b2 = (l>>8)&255;
b3 = (l>>16)&255;
b4 = (l>>24)&255;
return ((int)b1<<24) + ((int)b2<<16) + ((int)b3<<8) + b4;
}
int LongNoSwap (int l)
{
return l;
}
float FloatSwap (float f)
{
union
{
float f;
byte b[4];
} dat1, dat2;
dat1.f = f;
dat2.b[0] = dat1.b[3];
dat2.b[1] = dat1.b[2];
dat2.b[2] = dat1.b[1];
dat2.b[3] = dat1.b[0];
return dat2.f;
}
float FloatNoSwap (float f)
{
return f;
}
/*
================
Swap_Init
================
*/
void Swap_Init (void)
{
byte swaptest[2] = {1,0};
// set the byte swapping variables in a portable manner
if ( *(short *)swaptest == 1)
{
_BigShort = ShortSwap;
_LittleShort = ShortNoSwap;
_BigLong = LongSwap;
_LittleLong = LongNoSwap;
_BigFloat = FloatSwap;
_LittleFloat = FloatNoSwap;
}
else
{
_BigShort = ShortNoSwap;
_LittleShort = ShortSwap;
_BigLong = LongNoSwap;
_LittleLong = LongSwap;
_BigFloat = FloatNoSwap;
_LittleFloat = FloatSwap;
}
}
/*
============================================================================
PARSING
============================================================================
*/
static char com_token[MAX_TOKEN_CHARS];
//JLFCALLOUT MPNOTUSED
//#include functionality for files
int parseDataCount = -1;
parseData_t parseData[2];
void COM_ParseInit( void )
{
memset(&(parseData[0]),0,sizeof(parseData_t));
memset(&(parseData[1]),0,sizeof(parseData_t));
COM_BeginParseSession();
}
#ifdef _XBOX
void COM_BeginParseSession( bool nested )
{
if (nested)
parseDataCount =1;
else
parseDataCount = 0;
parseData[parseDataCount].com_lines = 1;
}
#else
void COM_BeginParseSession( void )
{
parseDataCount =0;
parseData[parseDataCount].com_lines = 1;
}
#endif
int COM_GetCurrentParseLine( int index )
{
return parseData[parseDataCount].com_lines;
}
char *COM_Parse( const char **data_p )
{
return COM_ParseExt( data_p, qtrue );
}
/*
==============
COM_Parse
Parse a token out of a string
Will never return NULL, just empty strings
If "allowLineBreaks" is qtrue then an empty
string will be returned if the next token is
a newline.
==============
*/
const char *SkipWhitespace( const char *data, qboolean *hasNewLines )
{
int c;
while( (c = *data) <= ' ')
{
if( !c )
{
return NULL;
}
if( c == '\n' )
{
parseData[parseDataCount].com_lines++;
*hasNewLines = qtrue;
}
data++;
}
return data;
}
char *COM_ParseExt( const char **data_p, qboolean allowLineBreaks )
{
int c = 0, len;
qboolean hasNewLines = qfalse;
const char *data;
data = *data_p;
len = 0;
com_token[0] = 0;
// make sure incoming data is valid
if ( !data )
{
*data_p = NULL;
return com_token;
}
while ( 1 )
{
// skip whitespace
data = SkipWhitespace( data, &hasNewLines );
if ( !data )
{
*data_p = NULL;
return com_token;
}
if ( hasNewLines && !allowLineBreaks )
{
*data_p = data;
return com_token;
}
c = *data;
// skip double slash comments
if ( c == '/' && data[1] == '/' )
{
while (*data && *data != '\n') // Advance to the end of the line
{
data++;
}
}
// skip /* */ comments
else if ( c=='/' && data[1] == '*' )
{
while ( *data && ( *data != '*' || data[1] != '/' ) ) // Advance to the */ characters
{
data++;
}
if ( *data )
{
data += 2;
}
}
else
{
break;
}
}
// handle quoted strings
if (c == '\"')
{
data++;
while (1)
{
c = *data++;
if (c=='\"' || !c)
{
com_token[len] = 0;
*data_p = ( char * ) data;
return com_token;
}
if (len < MAX_TOKEN_CHARS)
{
com_token[len] = c;
len++;
}
}
}
// parse a regular word
do
{
if (len < MAX_TOKEN_CHARS)
{
com_token[len] = c;
len++;
}
data++;
c = *data;
if ( c == '\n' )
{
parseData[parseDataCount].com_lines++;
}
} while (c>32);
if (len == MAX_TOKEN_CHARS)
{
Com_Printf ("Token exceeded %i chars, discarded.\n", MAX_TOKEN_CHARS);
len = 0;
}
com_token[len] = 0;
*data_p = ( char * ) data;
return com_token;
}
/*
==============
COM_Compress
remove blank space and comments from source
==============
*/
int COM_Compress( char *data_p ) {
char *in, *out;
int c;
qboolean newline = qfalse, whitespace = qfalse;
in = out = data_p;
if (in) {
while ((c = *in) != 0) {
// skip double slash comments
if ( c == '/' && in[1] == '/' ) {
while (*in && *in != '\n') {
in++;
}
// skip /* */ comments
} else if ( c == '/' && in[1] == '*' ) {
while ( *in && ( *in != '*' || in[1] != '/' ) )
in++;
if ( *in )
in += 2;
// record when we hit a newline
} else if ( c == '\n' || c == '\r' ) {
newline = qtrue;
in++;
// record when we hit whitespace
} else if ( c == ' ' || c == '\t') {
whitespace = qtrue;
in++;
// an actual token
} else {
// if we have a pending newline, emit it (and it counts as whitespace)
if (newline) {
*out++ = '\n';
newline = qfalse;
whitespace = qfalse;
} if (whitespace) {
*out++ = ' ';
whitespace = qfalse;
}
// copy quoted strings unmolested
if (c == '"') {
*out++ = c;
in++;
while (1) {
c = *in;
if (c && c != '"') {
*out++ = c;
in++;
} else {
break;
}
}
if (c == '"') {
*out++ = c;
in++;
}
} else {
*out = c;
out++;
in++;
}
}
}
}
*out = 0;
return out - data_p;
}
/*
==================
COM_MatchToken
==================
*/
void COM_MatchToken( const char **buf_p, const char *match ) {
const char *token;
token = COM_Parse( buf_p );
if ( strcmp( token, match ) )
{
Com_Error( ERR_DROP, "MatchToken: %s != %s", token, match );
}
}
/*
=================
SkipBracedSection
The next token should be an open brace.
Skips until a matching close brace is found.
Internal brace depths are properly skipped.
=================
*/
void SkipBracedSection ( const char **program) {
const char *token;
int depth=0;
if (com_token[0]=='{') { //for tr_shader which just ate the brace
depth = 1;
}
do {
token = COM_ParseExt( program, qtrue );
if( token[1] == 0 ) {
if( token[0] == '{' ) {
depth++;
}
else if( token[0] == '}' ) {
depth--;
}
}
} while (depth && *program);
}
/*
=================
SkipRestOfLine
=================
*/
void SkipRestOfLine ( const char **data ) {
const char *p;
int c;
p = *data;
while ( (c = *p++) != 0 ) {
if ( c == '\n' ) {
parseData[parseDataCount].com_lines++;
break;
}
}
*data = p;
}
void Parse1DMatrix ( const char **buf_p, int x, float *m) {
const char *token;
int i;
COM_MatchToken( buf_p, "(" );
for (i = 0 ; i < x ; i++) {
token = COM_Parse(buf_p);
m[i] = atof(token);
}
COM_MatchToken( buf_p, ")" );
}
void Parse2DMatrix ( const char **buf_p, int y, int x, float *m) {
int i;
COM_MatchToken( buf_p, "(" );
for (i = 0 ; i < y ; i++) {
Parse1DMatrix (buf_p, x, m + i * x);
}
COM_MatchToken( buf_p, ")" );
}
void Parse3DMatrix ( const char **buf_p, int z, int y, int x, float *m) {
int i;
COM_MatchToken( buf_p, "(" );
for (i = 0 ; i < z ; i++) {
Parse2DMatrix (buf_p, y, x, m + i * x*y);
}
COM_MatchToken( buf_p, ")" );
}
/*
============================================================================
LIBRARY REPLACEMENT FUNCTIONS
============================================================================
*/
int Q_isprint( int c )
{
if ( c >= 0x20 && c <= 0x7E )
return ( 1 );
return ( 0 );
}
int Q_islower( int c )
{
if (c >= 'a' && c <= 'z')
return ( 1 );
return ( 0 );
}
int Q_isupper( int c )
{
if (c >= 'A' && c <= 'Z')
return ( 1 );
return ( 0 );
}
int Q_isalpha( int c )
{
if ((c >= 'a' && c <= 'z') || (c >= 'A' && c <= 'Z'))
return ( 1 );
return ( 0 );
}
/*
char* Q_strrchr( const char* string, int c )
{
char cc = c;
char *s;
char *sp=(char *)0;
s = (char*)string;
while (*s)
{
if (*s == cc)
sp = s;
s++;
}
if (cc == 0)
sp = s;
return sp;
}
*/
/*
=============
Q_strncpyz
Safe strncpy that ensures a trailing zero
=============
*/
void Q_strncpyz( char *dest, const char *src, int destsize, qboolean bBarfIfTooLong/* = qfalse */ )
{
if ( !src ) {
Com_Error( ERR_FATAL, "Q_strncpyz: NULL src" );
}
if ( destsize < 1 ) {
Com_Error(ERR_FATAL,"Q_strncpyz: destsize < 1" );
}
if (bBarfIfTooLong)
{
if ( strlen(src)+1 > destsize)
{
Com_Error(ERR_FATAL,"String dest buffer too small to hold string \"%s\" %d > %d\n(source addr = %x, dest addr = %x",src, strlen(src)+1, destsize, src, dest);
}
}
strncpy( dest, src, destsize-1 );
dest[destsize-1] = 0;
}
/*
int Q_stricmpn (const char *s1, const char *s2, int n) {
int c1, c2;
do {
c1 = *s1++;
c2 = *s2++;
if (!n--) {
return 0; // strings are equal until end point
}
if (c1 != c2) {
if (c1 >= 'a' && c1 <= 'z') {
c1 -= ('a' - 'A');
}
if (c2 >= 'a' && c2 <= 'z') {
c2 -= ('a' - 'A');
}
if (c1 != c2) {
return c1 < c2 ? -1 : 1;
}
}
} while (c1);
return 0; // strings are equal
}
int Q_strncmp (const char *s1, const char *s2, int n) {
int c1, c2;
do {
c1 = *s1++;
c2 = *s2++;
if (!n--) {
return 0; // strings are equal until end point
}
if (c1 != c2) {
return c1 < c2 ? -1 : 1;
}
} while (c1);
return 0; // strings are equal
}
char *Q_strlwr( char *s1 ) {
char *s;
s = s1;
while ( *s ) {
*s = tolower(*s);
s++;
}
return s1;
}
char *Q_strupr( char *s1 ) {
char *s;
s = s1;
while ( *s ) {
*s = toupper(*s);
s++;
}
return s1;
}
*/
// never goes past bounds or leaves without a terminating 0
void Q_strcat( char *dest, int size, const char *src ) {
int l1;
l1 = strlen( dest );
if ( l1 >= size ) {
Com_Error( ERR_FATAL, "Q_strcat: already overflowed" );
}
if ( strlen(src)+1 > size - l1)
{ //do the error here instead of in Q_strncpyz to get a meaningful msg
Com_Error(ERR_FATAL,"Q_strcat: cannot append \"%s\" to \"%s\"", src, dest);
}
Q_strncpyz( dest + l1, src, size - l1 );
}
int Q_PrintStrlen( const char *string ) {
int len;
const char *p;
if( !string ) {
return 0;
}
len = 0;
p = string;
while( *p ) {
if( Q_IsColorString( p ) ) {
p += 2;
continue;
}
p++;
len++;
}
return len;
}
char *Q_CleanStr( char *string ) {
char* d;
char* s;
int c;
s = string;
d = string;
while ((c = *s) != 0 ) {
if ( Q_IsColorString( s ) ) {
s++;
}
else if ( c >= 0x20 && c <= 0x7E ) {
*d++ = c;
}
s++;
}
*d = '\0';
return string;
}
void QDECL Com_sprintf( char *dest, int size, const char *fmt, ...) {
int len;
va_list argptr;
char bigbuffer[1024];
va_start (argptr,fmt);
len = vsprintf (bigbuffer,fmt,argptr);
va_end (argptr);
if ( len >= sizeof( bigbuffer ) ) {
Com_Error( ERR_FATAL, "Com_sprintf: overflowed bigbuffer" );
}
if (len >= size) {
Com_Printf ("Com_sprintf: overflow of %i in %i\n", len, size);
}
Q_strncpyz (dest, bigbuffer, size );
}
/*
============
va
does a varargs printf into a temp buffer, so I don't need to have
varargs versions of all text functions.
FIXME: make this buffer size safe someday
============
*/
char * QDECL va( const char *format, ... ) {
int len;
va_list argptr;
static char buffers[4][1024]; // in case va is called by nested functions
static int index = 0;
char *const buf = buffers[index % 4];
index++;
va_start (argptr, format);
len = vsprintf (buf, format,argptr);
va_end (argptr);
assert(len<sizeof(buffers[0]));
return buf;
}
/*
=====================================================================
INFO STRINGS
=====================================================================
*/
/*
===============
Info_ValueForKey
Searches the string for the given
key and returns the associated value, or an empty string.
FIXME: overflow check?
===============
*/
char *Info_ValueForKey( const char *s, const char *key ) {
char pkey[MAX_INFO_KEY];
static char value[2][MAX_INFO_VALUE]; // use two buffers so compares
// work without stomping on each other
static int valueindex = 0;
char *o;
if ( !s || !key ) {
return "";
}
if ( strlen( s ) >= MAX_INFO_STRING ) {
Com_Error( ERR_DROP, "Info_ValueForKey: oversize infostring" );
}
valueindex ^= 1;
if (*s == '\\')
s++;
while (1)
{
o = pkey;
while (*s != '\\')
{
if (!*s)
return "";
*o++ = *s++;
}
*o = 0;
s++;
o = value[valueindex];
while (*s != '\\' && *s)
{
*o++ = *s++;
}
*o = 0;
if (!Q_stricmp (key, pkey) )
return value[valueindex];
if (!*s)
break;
s++;
}
return "";
}
/*
===================
Info_NextPair
Used to itterate through all the key/value pairs in an info string
===================
*/
void Info_NextPair( const char **head, char key[MAX_INFO_KEY], char value[MAX_INFO_VALUE] ) {
char *o;
const char *s;
s = *head;
if ( *s == '\\' ) {
s++;
}
key[0] = 0;
value[0] = 0;
o = key;
while ( *s != '\\' ) {
if ( !*s ) {
*o = 0;
*head = s;
return;
}
*o++ = *s++;
}
*o = 0;
s++;
o = value;
while ( *s != '\\' && *s ) {
*o++ = *s++;
}
*o = 0;
*head = s;
}
/*
===================
Info_RemoveKey
===================
*/
void Info_RemoveKey( char *s, const char *key ) {
char *start;
char pkey[MAX_INFO_KEY];
char value[MAX_INFO_VALUE];
char *o;
if ( strlen( s ) >= MAX_INFO_STRING ) {
Com_Error( ERR_DROP, "Info_RemoveKey: oversize infostring" );
}
if (strchr (key, '\\')) {
return;
}
while (1)
{
start = s;
if (*s == '\\')
s++;
o = pkey;
while (*s != '\\')
{
if (!*s)
return;
*o++ = *s++;
}
*o = 0;
s++;
o = value;
while (*s != '\\' && *s)
{
if (!*s)
return;
*o++ = *s++;
}
*o = 0;
if (!strcmp (key, pkey) )
{
strcpy (start, s); // remove this part
return;
}
if (!*s)
return;
}
}
/*
==================
Info_Validate
Some characters are illegal in info strings because they
can mess up the server's parsing
==================
*/
qboolean Info_Validate( const char *s ) {
if ( strchr( s, '\"' ) ) {
return qfalse;
}
if ( strchr( s, ';' ) ) {
return qfalse;
}
return qtrue;
}
/*
==================
Info_SetValueForKey
Changes or adds a key/value pair
==================
*/
void Info_SetValueForKey( char *s, const char *key, const char *value ) {
char newi[MAX_INFO_STRING];
if ( strlen( s ) >= MAX_INFO_STRING ) {
Com_Error( ERR_DROP, "Info_SetValueForKey: oversize infostring" );
}
if (strchr (key, '\\') || strchr (value, '\\'))
{
Com_Printf ("Can't use keys or values with a \\(%s, %s)\n",key,value);
return;
}
if (strchr (key, ';') || strchr (value, ';'))
{
Com_Printf ("Can't use keys or values with a semicolon(%s, %s)\n",key,value);
return;
}
if (strchr (key, '\"') || strchr (value, '\"'))
{
Com_Printf ("Can't use keys or values with a \"(%s, %s)\n",key,value);
return;
}
Info_RemoveKey (s, key);
if (!value || !strlen(value))
return;
Com_sprintf (newi, sizeof(newi), "\\%s\\%s", key, value);
if (strlen(newi) + strlen(s) > MAX_INFO_STRING)
{
Com_Printf ("Info string length exceeded\n");
return;
}
strcat (s, newi);
}
/*
========================================================================
String ID Tables
========================================================================
*/
/*
-------------------------
GetIDForString
-------------------------
*/
#define VALIDSTRING( a ) ( ( a != NULL ) && ( a[0] != NULL ) )
int GetIDForString ( const stringID_table_t *table, const char *string )
{
int index = 0;
while ( VALIDSTRING( table[index].name ) )
{
if ( !Q_stricmp( table[index].name, string ) )
return table[index].id;
index++;
}
return -1;
}
/*
-------------------------
GetStringForID
-------------------------
*/
const char *GetStringForID( const stringID_table_t *table, int id )
{
int index = 0;
while ( VALIDSTRING( table[index].name ) )
{
if ( table[index].id == id )
return table[index].name;
index++;
}
return NULL;
}
/*
===============
COM_ParseString
===============
*/
qboolean COM_ParseString( const char **data, const char **s )
{
// *s = COM_ParseExt( data, qtrue );
*s = COM_ParseExt( data, qfalse );
if ( s[0] == 0 )
{
Com_Printf("unexpected EOF in COM_ParseString\n");
return qtrue;
}
return qfalse;
}
/*
===============
COM_ParseInt
===============
*/
qboolean COM_ParseInt( const char **data, int *i )
{
const char *token;
token = COM_ParseExt( data, qfalse );
if ( token[0] == 0 )
{
Com_Printf( "unexpected EOF in COM_ParseInt\n" );
return qtrue;
}
*i = atoi( token );
return qfalse;
}
/*
===============
COM_ParseFloat
===============
*/
qboolean COM_ParseFloat( const char **data, float *f )
{
const char *token;
token = COM_ParseExt( data, qfalse );
if ( token[0] == 0 )
{
Com_Printf( "unexpected EOF in COM_ParseFloat\n" );
return qtrue;
}
*f = atof( token );
return qfalse;
}
/*
===============
COM_ParseVec4
===============
*/
qboolean COM_ParseVec4( const char **buffer, vec4_t *c)
{
int i;
float f;
for (i = 0; i < 4; i++)
{
if (COM_ParseFloat(buffer, &f))
{
return qtrue;
}
(*c)[i] = f;
}
return qfalse;
}
// end