jkxr/Projects/Android/jni/OpenJK/code/qcommon/stringed_ingame.cpp
Simon 4597b03873 Initial Commit
Opens in Android Studio but haven't even tried to build it yet (it won't.. I know that much!)
2022-09-18 16:37:21 +01:00

1278 lines
35 KiB
C++

/*
===========================================================================
Copyright (C) 2000 - 2013, Raven Software, Inc.
Copyright (C) 2001 - 2013, Activision, Inc.
Copyright (C) 2013 - 2015, OpenJK contributors
This file is part of the OpenJK source code.
OpenJK is free software; you can redistribute it and/or modify it
under the terms of the GNU General Public License version 2 as
published by the Free Software Foundation.
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, see <http://www.gnu.org/licenses/>.
===========================================================================
*/
// Filename:- stringed_ingame.cpp
//
// This file is designed to be pasted into each game project that uses the StringEd package's files.
// You can alter the way it does things by (eg) replacing STL with RATL, BUT LEAVE THE OVERALL
// FUNCTIONALITY THE SAME, or if I ever make any funadamental changes to the way the package works
// then you're going to be SOOL (shit out of luck ;-)...
//
//////////////////////////////////////////////////
//
// stuff common to all qcommon files...
#include "../server/server.h"
#include "q_shared.h"
#include "qcommon.h"
//
//////////////////////////////////////////////////
#include "stringed_ingame.h"
#include "stringed_interface.h"
///////////////////////////////////////////////
//
// some STL stuff...
#ifdef _MSC_VER
#pragma warning ( disable : 4786 ) // disable the usual stupid and pointless STL warning
#endif
#include <set>
#include <string>
#include <vector>
typedef std::vector<std::string> vStrings_t;
typedef std::vector<int> vInts_t;
//
///////////////////////////////////////////////
cvar_t *se_language = NULL;
cvar_t *se_debug = NULL;
cvar_t *sp_leet = NULL; // kept as 'sp_' for JK2 compat.
#define __DEBUGOUT(_string) OutputDebugString(_string)
#define __ASSERT(_blah) assert(_blah)
typedef struct SE_Entry_s
{
std::string m_strString;
std::string m_strDebug; // english and/or "#same", used for debugging only. Also prefixed by "SE:" to show which strings go through StringEd (ie aren't hardwired)
int m_iFlags;
SE_Entry_s()
{
m_iFlags = 0;
}
} SE_Entry_t;
typedef std::map <std::string, SE_Entry_t> mapStringEntries_t;
class CStringEdPackage
{
private:
SE_BOOL m_bEndMarkerFound_ParseOnly;
std::string m_strCurrentEntryRef_ParseOnly;
std::string m_strCurrentEntryEnglish_ParseOnly;
std::string m_strCurrentFileRef_ParseOnly;
std::string m_strLoadingLanguage_ParseOnly; // eg "german"
SE_BOOL m_bLoadingEnglish_ParseOnly;
public:
CStringEdPackage()
{
Clear( SE_FALSE );
}
~CStringEdPackage()
{
Clear( SE_FALSE );
}
mapStringEntries_t m_StringEntries; // needs to be in public space now
SE_BOOL m_bLoadDebug; // ""
//
// flag stuff...
//
std::vector <std::string> m_vstrFlagNames;
std::map <std::string,int> m_mapFlagMasks;
void Clear( SE_BOOL bChangingLanguages );
void SetupNewFileParse( const char *psFileName, SE_BOOL bLoadDebug );
SE_BOOL ReadLine( const char *&psParsePos, char *psDest );
const char *ParseLine( const char *psLine );
int GetFlagMask( const char *psFlagName );
const char *ExtractLanguageFromPath( const char *psFileName );
SE_BOOL EndMarkerFoundDuringParse( void )
{
return m_bEndMarkerFound_ParseOnly;
}
private:
void AddEntry( const char *psLocalReference );
int GetNumStrings(void);
void SetString( const char *psLocalReference, const char *psNewString, SE_BOOL bEnglishDebug );
SE_BOOL SetReference( int iIndex, const char *psNewString );
void AddFlagReference( const char *psLocalReference, const char *psFlagName );
const char *GetCurrentFileName(void);
const char *GetCurrentReference_ParseOnly( void );
SE_BOOL CheckLineForKeyword( const char *psKeyword, const char *&psLine);
const char *InsideQuotes( const char *psLine );
const char *ConvertCRLiterals_Read( const char *psString );
void REMKill( char *psBuffer );
char *Filename_PathOnly( const char *psFilename );
char *Filename_WithoutPath(const char *psFilename);
char *Filename_WithoutExt(const char *psFilename);
};
CStringEdPackage TheStringPackage;
void CStringEdPackage::Clear( SE_BOOL bChangingLanguages )
{
m_StringEntries.clear();
if ( !bChangingLanguages )
{
// if we're changing languages, then I'm going to leave these alone. This is to do with any (potentially) cached
// flag bitmasks on the game side. It shouldn't matter since all files are written out at once using the build
// command in StringEd. But if ever someone changed a file by hand, or added one, or whatever, and it had a
// different set of flags declared, or the strings were in a different order, then the flags might also change
// the order I see them in, and hence their indexes and masks. This should never happen unless people mess with
// the .STR files by hand and delete some, but this way makes sure it'll all work just in case...
//
// ie. flags stay defined once they're defined, and only the destructor (at app-end) kills them.
//
m_vstrFlagNames.clear();
m_mapFlagMasks.clear();
}
m_bEndMarkerFound_ParseOnly = SE_FALSE;
m_strCurrentEntryRef_ParseOnly = "";
m_strCurrentEntryEnglish_ParseOnly = "";
//
// the other vars are cleared in SetupNewFileParse(), and are ok to not do here.
//
}
// loses anything after the path (if any), (eg) "dir/name.bmp" becomes "dir"
// (copes with either slash-scheme for names)
//
// (normally I'd call another function for this, but this is supposed to be engine-independant,
// so a certain amount of re-invention of the wheel is to be expected...)
//
char *CStringEdPackage::Filename_PathOnly(const char *psFilename)
{
static char sString[ iSE_MAX_FILENAME_LENGTH ];
strcpy(sString,psFilename);
char *p1= strrchr(sString,'\\');
char *p2= strrchr(sString,'/');
char *p = (p1>p2)?p1:p2;
if (p)
*p=0;
return sString;
}
// returns (eg) "dir/name" for "dir/name.bmp"
// (copes with either slash-scheme for names)
//
// (normally I'd call another function for this, but this is supposed to be engine-independant,
// so a certain amount of re-invention of the wheel is to be expected...)
//
char *CStringEdPackage::Filename_WithoutExt(const char *psFilename)
{
static char sString[ iSE_MAX_FILENAME_LENGTH ];
strcpy(sString,psFilename);
char *p = strrchr(sString,'.');
char *p2= strrchr(sString,'\\');
char *p3= strrchr(sString,'/');
// special check, make sure the first suffix we found from the end wasn't just a directory suffix (eg on a path'd filename with no extension anyway)
//
if (p &&
(p2==0 || (p2 && p>p2)) &&
(p3==0 || (p3 && p>p3))
)
*p=0;
return sString;
}
// returns actual filename only, no path
// (copes with either slash-scheme for names)
//
// (normally I'd call another function for this, but this is supposed to be engine-independant,
// so a certain amount of re-invention of the wheel is to be expected...)
//
char *CStringEdPackage::Filename_WithoutPath(const char *psFilename)
{
static char sString[ iSE_MAX_FILENAME_LENGTH ];
const char *psCopyPos = psFilename;
while (*psFilename)
{
if (*psFilename == '/' || *psFilename == '\\')
psCopyPos = psFilename+1;
psFilename++;
}
strcpy(sString,psCopyPos);
return sString;
}
const char *CStringEdPackage::ExtractLanguageFromPath( const char *psFileName )
{
return Filename_WithoutPath( Filename_PathOnly( psFileName ) );
}
void CStringEdPackage::SetupNewFileParse( const char *psFileName, SE_BOOL bLoadDebug )
{
char sString[ iSE_MAX_FILENAME_LENGTH ];
strcpy(sString, Filename_WithoutPath( Filename_WithoutExt( psFileName ) ));
Q_strupr(sString);
m_strCurrentFileRef_ParseOnly = sString; // eg "OBJECTIVES"
m_strLoadingLanguage_ParseOnly = ExtractLanguageFromPath( psFileName );
m_bLoadingEnglish_ParseOnly = (!Q_stricmp( m_strLoadingLanguage_ParseOnly.c_str(), "english" )) ? SE_TRUE : SE_FALSE;
m_bLoadDebug = bLoadDebug;
}
// returns SE_TRUE if supplied keyword found at line start (and advances supplied ptr past any whitespace to next arg (or line end if none),
//
// else returns SE_FALSE...
//
SE_BOOL CStringEdPackage::CheckLineForKeyword( const char *psKeyword, const char *&psLine)
{
if (!Q_stricmpn(psKeyword, psLine, strlen(psKeyword)) )
{
psLine += strlen(psKeyword);
// skip whitespace to arrive at next item...
//
while ( *psLine == '\t' || *psLine == ' ' )
{
psLine++;
}
return SE_TRUE;
}
return SE_FALSE;
}
// change "\n" to '\n' (i.e. 2-byte char-string to 1-byte ctrl-code)...
// (or "\r\n" in editor)
//
const char *CStringEdPackage::ConvertCRLiterals_Read( const char *psString )
{
static std::string str;
str = psString;
int iLoc;
while ( (iLoc = str.find("\\n")) != -1 )
{
str[iLoc ] = '\n';
str.erase( iLoc+1,1 );
}
return str.c_str();
}
// kill off any "//" onwards part in the line, but NOT if it's inside a quoted string...
//
void CStringEdPackage::REMKill( char *psBuffer )
{
char *psScanPos = psBuffer;
char *p;
int iDoubleQuotesSoFar = 0;
// scan forwards in case there are more than one (and the first is inside quotes)...
//
while ( (p=strstr(psScanPos,"//")) != NULL)
{
// count the number of double quotes before this point, if odd number, then we're inside quotes...
//
int iDoubleQuoteCount = iDoubleQuotesSoFar;
for (int i=0; i<p-psScanPos; i++)
{
if (psScanPos[i] == '"')
{
iDoubleQuoteCount++;
}
}
if (!(iDoubleQuoteCount&1))
{
// not inside quotes, so kill line here...
//
*p='\0';
//
// and remove any trailing whitespace...
//
if (psScanPos[0]) // any strlen? (else access violation with -1 below)
{
int iWhiteSpaceScanPos = strlen(psScanPos)-1;
while (iWhiteSpaceScanPos>=0 && isspace(psScanPos[iWhiteSpaceScanPos]))
{
psScanPos[iWhiteSpaceScanPos--] = '\0';
}
}
return;
}
else
{
// inside quotes (blast), oh well, skip past and keep scanning...
//
psScanPos = p+1;
iDoubleQuotesSoFar = iDoubleQuoteCount;
}
}
}
// returns true while new lines available to be read...
//
SE_BOOL CStringEdPackage::ReadLine( const char *&psParsePos, char *psDest )
{
if (psParsePos[0])
{
const char *psLineEnd = strchr(psParsePos, '\n');
if (psLineEnd)
{
int iCharsToCopy = (psLineEnd - psParsePos);
strncpy(psDest, psParsePos, iCharsToCopy);
psDest[iCharsToCopy] = '\0';
psParsePos += iCharsToCopy;
while (*psParsePos && strchr("\r\n",*psParsePos))
{
psParsePos++; // skip over CR or CR/LF pairs
}
}
else
{
// last line...
//
strcpy(psDest, psParsePos);
psParsePos += strlen(psParsePos);
}
// clean up the line...
//
if (psDest[0])
{
int iWhiteSpaceScanPos = strlen(psDest)-1;
while (iWhiteSpaceScanPos>=0 && isspace(psDest[iWhiteSpaceScanPos]))
{
psDest[iWhiteSpaceScanPos--] = '\0';
}
REMKill( psDest );
}
return SE_TRUE;
}
return SE_FALSE;
}
// remove any outside quotes from this supplied line, plus any leading or trailing whitespace...
//
const char *CStringEdPackage::InsideQuotes( const char *psLine )
{
// I *could* replace this string object with a declared array, but wasn't sure how big to leave it, and it'd have to
// be static as well, hence permanent. (problem on consoles?)
//
static std::string str;
str = ""; // do NOT join to above line
// skip any leading whitespace...
//
while (*psLine == ' ' || *psLine == '\t')
{
psLine++;
}
// skip any leading quote...
//
if (*psLine == '"')
{
psLine++;
}
// assign it...
//
str = psLine;
if (psLine[0])
{
// lose any trailing whitespace...
//
while ( str.c_str()[ strlen(str.c_str()) -1 ] == ' ' ||
str.c_str()[ strlen(str.c_str()) -1 ] == '\t'
)
{
str.erase( strlen(str.c_str()) -1, 1);
}
// lose any trailing quote...
//
if (str.c_str()[ strlen(str.c_str()) -1 ] == '"')
{
str.erase( strlen(str.c_str()) -1, 1);
}
}
// and return it...
//
return str.c_str();
}
// returns flag bitmask (eg 00000010b), else 0 for not found
//
int CStringEdPackage::GetFlagMask( const char *psFlagName )
{
std::map <std::string, int>::iterator itFlag = m_mapFlagMasks.find( psFlagName );
if ( itFlag != m_mapFlagMasks.end() )
{
int &iMask = (*itFlag).second;
return iMask;
}
return 0;
}
void CStringEdPackage::AddFlagReference( const char *psLocalReference, const char *psFlagName )
{
// add the flag to the list of known ones...
//
int iMask = GetFlagMask( psFlagName );
if (iMask == 0)
{
m_vstrFlagNames.push_back( psFlagName );
iMask = 1 << (m_vstrFlagNames.size()-1);
m_mapFlagMasks[ psFlagName ] = iMask;
}
//
// then add the reference to this flag to the currently-parsed reference...
//
mapStringEntries_t::iterator itEntry = m_StringEntries.find( va("%s_%s",m_strCurrentFileRef_ParseOnly.c_str(), psLocalReference) );
if (itEntry != m_StringEntries.end())
{
SE_Entry_t &Entry = (*itEntry).second;
Entry.m_iFlags |= iMask;
}
}
// this copes with both foreigners using hi-char values (eg the french using 0x92 instead of 0x27
// for a "'" char), as well as the fact that our buggy fontgen program writes out zeroed glyph info for
// some fonts anyway (though not all, just as a gotcha).
//
// New bit, instead of static buffer (since XBox guys are desperately short of mem) I return a malloc'd buffer now,
// so remember to free it!
//
static char *CopeWithDumbStringData( const char *psSentence, const char *psThisLanguage )
{
const int iBufferSize = strlen(psSentence)*3; // *3 to allow for expansion of anything even stupid string consisting entirely of elipsis chars
char *psNewString = (char *) Z_Malloc(iBufferSize, TAG_TEMP_WORKSPACE, qfalse);
Q_strncpyz(psNewString, psSentence, iBufferSize);
// this is annoying, I have to just guess at which languages to do it for (ie NOT ASIAN/MBCS!!!) since the
// string system was deliberately (and correctly) designed to not know or care whether it was doing SBCS
// or MBCS languages, because it was never envisioned that I'd have to clean up other people's mess.
//
// Ok, bollocks to it, this will have to do. Any other languages that come later and have bugs in their text can
// get fixed by them typing it in properly in the first place...
//
if (!Q_stricmp(psThisLanguage,"ENGLISH") ||
!Q_stricmp(psThisLanguage,"FRENCH") ||
!Q_stricmp(psThisLanguage,"GERMAN") ||
!Q_stricmp(psThisLanguage,"ITALIAN") ||
!Q_stricmp(psThisLanguage,"SPANISH") ||
!Q_stricmp(psThisLanguage,"POLISH") ||
!Q_stricmp(psThisLanguage,"RUSSIAN")
)
{
char *p;
// strXLS_Speech.Replace(va("%c",0x92),va("%c",0x27)); // "'"
while ((p=strchr(psNewString,0x92))!=NULL) // "rich" (and illegal) apostrophe
{
*p = 0x27;
}
// strXLS_Speech.Replace(va("%c",0x93),"\""); // smart quotes -> '"'
while ((p=strchr(psNewString,0x93))!=NULL)
{
*p = '"';
}
// strXLS_Speech.Replace(va("%c",0x94),"\""); // smart quotes -> '"'
while ((p=strchr(psNewString,0x94))!=NULL)
{
*p = '"';
}
// strXLS_Speech.Replace(va("%c",0x0B),"."); // full stop
while ((p=strchr(psNewString,0x0B))!=NULL)
{
*p = '.';
}
// strXLS_Speech.Replace(va("%c",0x85),"..."); // "..."-char -> 3-char "..."
while ((p=strchr(psNewString,0x85))!=NULL) // "rich" (and illegal) apostrophe
{
memmove(p+2,p,strlen(p));
*p++ = '.';
*p++ = '.';
*p = '.';
}
// strXLS_Speech.Replace(va("%c",0x91),va("%c",0x27)); // "'"
while ((p=strchr(psNewString,0x91))!=NULL)
{
*p = 0x27;
}
// strXLS_Speech.Replace(va("%c",0x96),va("%c",0x2D)); // "-"
while ((p=strchr(psNewString,0x96))!=NULL)
{
*p = 0x2D;
}
// strXLS_Speech.Replace(va("%c",0x97),va("%c",0x2D)); // "-"
while ((p=strchr(psNewString,0x97))!=NULL)
{
*p = 0x2D;
}
// bug fix for picky grammatical errors, replace "?." with "? "
//
while ((p=strstr(psNewString,"?."))!=NULL)
{
p[1] = ' ';
}
// StripEd and our print code don't support tabs...
//
while ((p=strchr(psNewString,0x09))!=NULL)
{
*p = ' ';
}
}
return psNewString;
}
// return is either NULL for good else error message to display...
//
const char *CStringEdPackage::ParseLine( const char *psLine )
{
const char *psErrorMessage = NULL;
if (psLine)
{
if (CheckLineForKeyword( sSE_KEYWORD_VERSION, psLine ))
{
// VERSION "1"
//
const char *psVersionNumber = InsideQuotes( psLine );
int iVersionNumber = atoi( psVersionNumber );
if (iVersionNumber != iSE_VERSION)
{
psErrorMessage = va("Unexpected version number %d, expecting %d!\n", iVersionNumber, iSE_VERSION);
}
}
else
if ( CheckLineForKeyword(sSE_KEYWORD_CONFIG, psLine)
|| CheckLineForKeyword(sSE_KEYWORD_FILENOTES, psLine)
|| CheckLineForKeyword(sSE_KEYWORD_NOTES, psLine)
)
{
// not used ingame, but need to absorb the token
}
else
if (CheckLineForKeyword(sSE_KEYWORD_REFERENCE, psLine))
{
// REFERENCE GUARD_GOOD_TO_SEE_YOU
//
const char *psLocalReference = InsideQuotes( psLine );
AddEntry( psLocalReference );
}
else
if (CheckLineForKeyword(sSE_KEYWORD_FLAGS, psLine))
{
// FLAGS FLAG_CAPTION FLAG_TYPEMATIC
//
const char *psReference = GetCurrentReference_ParseOnly();
if (psReference[0])
{
static const char sSeperators[] = " \t";
char sFlags[1024]={0}; // 1024 chars should be enough to store 8 flag names
strncpy(sFlags, psLine, sizeof(sFlags)-1);
char *psToken = strtok( sFlags, sSeperators );
while( psToken != NULL )
{
// psToken = flag name (in caps)
//
Q_strupr(psToken); // jic
AddFlagReference( psReference, psToken );
// read next flag for this string...
//
psToken = strtok( NULL, sSeperators );
}
}
else
{
psErrorMessage = "Error parsing file: Unexpected \"" sSE_KEYWORD_FLAGS "\"\n";
}
}
else
if (CheckLineForKeyword(sSE_KEYWORD_ENDMARKER, psLine))
{
// ENDMARKER
//
m_bEndMarkerFound_ParseOnly = SE_TRUE; // the only major error checking I bother to do (for file truncation)
}
else
if (!Q_stricmpn(sSE_KEYWORD_LANG, psLine, strlen(sSE_KEYWORD_LANG)))
{
// LANG_ENGLISH "GUARD: Good to see you, sir. Taylor is waiting for you in the clean tent. We need to get you suited up. "
//
const char *psReference = GetCurrentReference_ParseOnly();
if ( psReference[0] )
{
psLine += strlen(sSE_KEYWORD_LANG);
// what language is this?...
//
const char *psWordEnd = psLine;
while (*psWordEnd && *psWordEnd != ' ' && *psWordEnd != '\t')
{
psWordEnd++;
}
char sThisLanguage[1024]={0};
size_t iCharsToCopy = psWordEnd - psLine;
if (iCharsToCopy > sizeof(sThisLanguage)-1)
{
iCharsToCopy = sizeof(sThisLanguage)-1;
}
strncpy(sThisLanguage, psLine, iCharsToCopy); // already declared as {0} so no need to zero-cap dest buffer
psLine += strlen(sThisLanguage);
const char *_psSentence = ConvertCRLiterals_Read( InsideQuotes( psLine ) );
// Dammit, I hate having to do crap like this just because other people mess up and put
// stupid data in their text, so I have to cope with it.
//
// note hackery with _psSentence and psSentence because of const-ness. bleurgh. Just don't ask.
//
char *psSentence = CopeWithDumbStringData( _psSentence, sThisLanguage );
if ( m_bLoadingEnglish_ParseOnly )
{
// if loading just "english", then go ahead and store it...
//
SetString( psReference, psSentence, SE_FALSE );
}
else
{
// if loading a foreign language...
//
SE_BOOL bSentenceIsEnglish = (!Q_stricmp(sThisLanguage,"english")) ? SE_TRUE: SE_FALSE; // see whether this is the english master or not
// this check can be omitted, I'm just being extra careful here...
//
if ( !bSentenceIsEnglish )
{
// basically this is just checking that an .STE file override is the same language as the .STR...
//
if (Q_stricmp( m_strLoadingLanguage_ParseOnly.c_str(), sThisLanguage ))
{
psErrorMessage = va("Language \"%s\" found when expecting \"%s\"!\n", sThisLanguage, m_strLoadingLanguage_ParseOnly.c_str());
}
}
if (!psErrorMessage)
{
SetString( psReference, psSentence, bSentenceIsEnglish );
}
}
Z_Free( psSentence );
}
else
{
psErrorMessage = "Error parsing file: Unexpected \"" sSE_KEYWORD_LANG "\"\n";
}
}
else
{
psErrorMessage = va("Unknown keyword at linestart: \"%s\"\n", psLine);
}
}
return psErrorMessage;
}
// returns reference of string being parsed, else "" for none.
//
const char *CStringEdPackage::GetCurrentReference_ParseOnly( void )
{
return m_strCurrentEntryRef_ParseOnly.c_str();
}
// add new string entry (during parse)
//
void CStringEdPackage::AddEntry( const char *psLocalReference )
{
// the reason I don't just assign it anyway is because the optional .STE override files don't contain flags,
// and therefore would wipe out the parsed flags of the .STR file...
//
mapStringEntries_t::iterator itEntry = m_StringEntries.find( va("%s_%s",m_strCurrentFileRef_ParseOnly.c_str(), psLocalReference) );
if (itEntry == m_StringEntries.end())
{
SE_Entry_t SE_Entry;
m_StringEntries[ va("%s_%s", m_strCurrentFileRef_ParseOnly.c_str(), psLocalReference) ] = SE_Entry;
}
m_strCurrentEntryRef_ParseOnly = psLocalReference;
}
const char *Leetify( const char *psString )
{
static std::string str;
str = psString;
if (sp_leet->integer == 42) // very specific test, so you won't hit it accidentally
{
static const
char cReplace[]={ 'o','0','l','1','e','3','a','4','s','5','t','7','i','!','h','#',
'O','0','L','1','E','3','A','4','S','5','T','7','I','!','H','#' // laziness because of strchr()
};
char *p;
for (size_t i=0; i<sizeof(cReplace); i+=2)
{
while ( ( p = const_cast<char*>( strchr(str.c_str(),cReplace[i]) ) ) != NULL )
*p = cReplace[i+1];
}
}
return str.c_str();
}
void CStringEdPackage::SetString( const char *psLocalReference, const char *psNewString, SE_BOOL bEnglishDebug )
{
mapStringEntries_t::iterator itEntry = m_StringEntries.find( va("%s_%s",m_strCurrentFileRef_ParseOnly.c_str(), psLocalReference) );
if (itEntry != m_StringEntries.end())
{
SE_Entry_t &Entry = (*itEntry).second;
if ( bEnglishDebug || m_bLoadingEnglish_ParseOnly)
{
// then this is the leading english text of a foreign sentence pair (so it's the debug-key text),
// or it's the only text when it's english being loaded...
//
Entry.m_strString = Leetify( psNewString );
if ( m_bLoadDebug )
{
Entry.m_strDebug = sSE_DEBUGSTR_PREFIX;
Entry.m_strDebug+= /* m_bLoadingEnglish_ParseOnly ? "" : */ psNewString;
Entry.m_strDebug+= sSE_DEBUGSTR_SUFFIX;
}
m_strCurrentEntryEnglish_ParseOnly = psNewString; // for possible "#same" resolving in foreign later
}
else
{
// then this is foreign text (so check for "#same" resolving)...
//
if (!Q_stricmp(psNewString, sSE_EXPORT_SAME))
{
Entry.m_strString = m_strCurrentEntryEnglish_ParseOnly; // foreign "#same" is now english
if (m_bLoadDebug)
{
Entry.m_strDebug = sSE_DEBUGSTR_PREFIX;
Entry.m_strDebug+= sSE_EXPORT_SAME; // english (debug) is now "#same"
Entry.m_strDebug+= sSE_DEBUGSTR_SUFFIX;
}
}
else
{
Entry.m_strString = psNewString; // foreign is just foreign
}
}
}
else
{
__ASSERT(0); // should never happen
}
}
// filename is local here, eg: "strings/german/obj.str"
//
// return is either NULL for good else error message to display...
//
static const char *SE_Load_Actual( const char *psFileName, SE_BOOL bLoadDebug, SE_BOOL bSpeculativeLoad )
{
const char *psErrorMessage = NULL;
unsigned char *psLoadedData = SE_LoadFileData( psFileName );
if ( psLoadedData )
{
// now parse the data...
//
char *psParsePos = (char *) psLoadedData;
TheStringPackage.SetupNewFileParse( psFileName, bLoadDebug );
char sLineBuffer[16384]; // should be enough for one line of text (some of them can be BIG though)
while ( !psErrorMessage && TheStringPackage.ReadLine((const char *&) psParsePos, sLineBuffer ) )
{
if (strlen(sLineBuffer))
{
// __DEBUGOUT( sLineBuffer );
// __DEBUGOUT( "\n" );
psErrorMessage = TheStringPackage.ParseLine( sLineBuffer );
}
}
SE_FreeFileDataAfterLoad( psLoadedData);
if (!psErrorMessage && !TheStringPackage.EndMarkerFoundDuringParse())
{
psErrorMessage = va("Truncated file, failed to find \"%s\" at file end!", sSE_KEYWORD_ENDMARKER);
}
}
else
{
if ( bSpeculativeLoad )
{
// then it's ok to not find the file, so do nothing...
}
else
{
psErrorMessage = va("Unable to load \"%s\"!", psFileName);
}
}
return psErrorMessage;
}
static const char *SE_GetFoundFile( std::string &strResult )
{
static char sTemp[1024/*MAX_PATH*/];
if (!strlen(strResult.c_str()))
return NULL;
strncpy(sTemp,strResult.c_str(),sizeof(sTemp)-1);
sTemp[sizeof(sTemp)-1]='\0';
char *psSemiColon = strchr(sTemp,';');
if ( psSemiColon)
{
*psSemiColon = '\0';
strResult.erase(0,(psSemiColon-sTemp)+1);
}
else
{
// no semicolon found, probably last entry? (though i think even those have them on, oh well)
//
strResult.erase();
}
// strlwr(sTemp); // just for consistancy and set<> -> set<> erasure checking etc
return sTemp;
}
//////////// API entry points from rest of game.... //////////////////////////////
// filename is local here, eg: "strings/german/obj.str"
//
// return is either NULL for good else error message to display...
//
const char *SE_Load( const char *psFileName, SE_BOOL bLoadDebug = SE_TRUE, SE_BOOL bFailIsCritical = SE_TRUE )
{
////////////////////////////////////////////////////
//
// ingame here tends to pass in names without paths, but I expect them when doing a language load, so...
//
char sTemp[1000]={0};
if (!strchr(psFileName,'/'))
{
strcpy(sTemp,sSE_STRINGS_DIR);
strcat(sTemp,"/");
if (se_language)
{
strcat(sTemp,se_language->string);
strcat(sTemp,"/");
}
}
strcat(sTemp,psFileName);
COM_DefaultExtension( sTemp, sizeof(sTemp), sSE_INGAME_FILE_EXTENSION);
psFileName = &sTemp[0];
//
////////////////////////////////////////////////////
const char *psErrorMessage = SE_Load_Actual( psFileName, bLoadDebug, SE_FALSE );
// check for any corresponding / overriding .STE files and load them afterwards...
//
if ( !psErrorMessage )
{
char sFileName[ iSE_MAX_FILENAME_LENGTH ];
strncpy( sFileName, psFileName, sizeof(sFileName)-1 );
sFileName[ sizeof(sFileName)-1 ] = '\0';
char *p = strrchr( sFileName, '.' );
if (p && strlen(p) == strlen(sSE_EXPORT_FILE_EXTENSION))
{
strcpy( p, sSE_EXPORT_FILE_EXTENSION );
psErrorMessage = SE_Load_Actual( sFileName, bLoadDebug, SE_TRUE );
}
}
if (psErrorMessage)
{
if (bFailIsCritical)
{
// TheStringPackage.Clear(TRUE); // Will we want to do this? Any errors that arise should be fixed immediately
Com_Error( ERR_DROP, "SE_Load(): Couldn't load \"%s\"!\n\nError: \"%s\"\n", psFileName, psErrorMessage );
}
else
{
Com_DPrintf(S_COLOR_YELLOW "SE_Load(): Couldn't load \"%s\"!\n", psFileName );
}
}
return psErrorMessage;
}
// convenience-function for the main GetString call...
//
const char *SE_GetString( const char *psPackageReference, const char *psStringReference)
{
char sReference[256]; // will always be enough, I've never seen one more than about 30 chars long
Com_sprintf(sReference, sizeof(sReference),"%s_%s", psPackageReference, psStringReference);
return SE_GetString( Q_strupr(sReference) );
}
const char *SE_GetString( const char *psPackageAndStringReference )
{
#ifdef JK2_MODE
// Hacky but saves me from fixing 1000000 references --eez
extern const char *JK2SP_GetStringTextString(const char *Reference);
return JK2SP_GetStringTextString((const char *)psPackageAndStringReference);
#else
char sReference[256]; // will always be enough, I've never seen one more than about 30 chars long
assert(strlen(psPackageAndStringReference) < sizeof(sReference) );
Q_strncpyz(sReference, psPackageAndStringReference, sizeof(sReference) );
Q_strupr(sReference);
mapStringEntries_t::iterator itEntry = TheStringPackage.m_StringEntries.find( sReference );
if (itEntry != TheStringPackage.m_StringEntries.end())
{
SE_Entry_t &Entry = (*itEntry).second;
if ( se_debug->integer && TheStringPackage.m_bLoadDebug )
{
return Entry.m_strDebug.c_str();
}
else
{
return Entry.m_strString.c_str();
}
}
// should never get here, but fall back anyway... (except we DO use this to see if there's a debug-friendly key bind, which may not exist)
//
// __ASSERT(0);
return ""; // you may want to replace this with something based on _DEBUG or not?
#endif
}
// convenience-function for the main GetFlags call...
//
int SE_GetFlags ( const char *psPackageReference, const char *psStringReference )
{
char sReference[256]; // will always be enough, I've never seen one more than about 30 chars long
Com_sprintf(sReference, sizeof(sReference),"%s_%s", psPackageReference, psStringReference);
return SE_GetFlags( sReference );
}
int SE_GetFlags ( const char *psPackageAndStringReference )
{
mapStringEntries_t::iterator itEntry = TheStringPackage.m_StringEntries.find( psPackageAndStringReference );
if (itEntry != TheStringPackage.m_StringEntries.end())
{
SE_Entry_t &Entry = (*itEntry).second;
return Entry.m_iFlags;
}
// should never get here, but fall back anyway...
//
__ASSERT(0);
return 0;
}
int SE_GetNumFlags( void )
{
return TheStringPackage.m_vstrFlagNames.size();
}
const char *SE_GetFlagName( int iFlagIndex )
{
if ( iFlagIndex < (int)TheStringPackage.m_vstrFlagNames.size())
{
return TheStringPackage.m_vstrFlagNames[ iFlagIndex ].c_str();
}
__ASSERT(0);
return "";
}
// returns flag bitmask (eg 00000010b), else 0 for not found
//
int SE_GetFlagMask( const char *psFlagName )
{
return TheStringPackage.GetFlagMask( psFlagName );
}
// I could cache the result of this since it won't change during app lifetime unless someone does a build-publish
// while you're still ingame. Cacheing would make sense since it can take a while to scan, but I'll leave it and
// let whoever calls it cache the results instead. I'll make it known that it's a slow process to call this, but
// whenever anyone calls someone else's code they should assign it to an int anyway, since you've no idea what's
// going on. Basically, don't use this in a FOR loop as the end-condition. Duh.
//
// Groan, except for Bob. I mentioned that this was slow and only call it once, but he's calling it from
// every level-load... Ok, cacheing it is...
//
std::vector <std::string> gvLanguagesAvailable;
int SE_GetNumLanguages(void)
{
if ( gvLanguagesAvailable.empty() )
{
std::string strResults;
/*int iFilesFound = */SE_BuildFileList(
#ifdef _STRINGED
va("C:\\Source\\Tools\\StringEd\\test_data\\%s",sSE_STRINGS_DIR)
#else
sSE_STRINGS_DIR
#endif
, strResults
);
std::set<std::string> strUniqueStrings; // laziness <g>
const char *p;
while ((p=SE_GetFoundFile (strResults)) != NULL)
{
const char *psLanguage = TheStringPackage.ExtractLanguageFromPath( p );
// __DEBUGOUT( p );
// __DEBUGOUT( "\n" );
// __DEBUGOUT( psLanguage );
// __DEBUGOUT( "\n" );
if (!strUniqueStrings.count( psLanguage ))
{
strUniqueStrings.insert( psLanguage );
// if english is available, it should always be first... ( I suppose )
//
if (!Q_stricmp(psLanguage,"english"))
{
gvLanguagesAvailable.insert( gvLanguagesAvailable.begin(), psLanguage );
}
else
{
gvLanguagesAvailable.push_back( psLanguage );
}
}
}
}
return gvLanguagesAvailable.size();
}
// SE_GetNumLanguages() must have been called before this...
//
const char *SE_GetLanguageName( int iLangIndex )
{
if ( iLangIndex < (int)gvLanguagesAvailable.size() )
{
return gvLanguagesAvailable[ iLangIndex ].c_str();
}
__ASSERT(0);
return "";
}
// SE_GetNumLanguages() must have been called before this...
//
const char *SE_GetLanguageDir( int iLangIndex )
{
if ( iLangIndex < (int)gvLanguagesAvailable.size() )
{
return va("%s/%s", sSE_STRINGS_DIR, gvLanguagesAvailable[ iLangIndex ].c_str() );
}
__ASSERT(0);
return "";
}
void SE_NewLanguage(void)
{
TheStringPackage.Clear( SE_TRUE );
}
// these two functions aren't needed other than to make Quake-type games happy and/or stop memory managers
// complaining about leaks if they report them before the global StringEd package object calls it's own dtor.
//
// but here they are for completeness's sake I guess...
//
void SE_Init(void)
{
TheStringPackage.Clear( SE_FALSE );
#ifdef _DEBUG
// int iNumLanguages = SE_GetNumLanguages();
#endif
se_language = Cvar_Get("se_language", "english", CVAR_ARCHIVE | CVAR_NORESTART);
se_debug = Cvar_Get("se_debug", "0", 0);
sp_leet = Cvar_Get("sp_leet", "0", CVAR_ROM );
// if doing a buildscript, load all languages...
//
extern cvar_t *com_buildScript;
if (com_buildScript->integer == 2)
{
int iLanguages = SE_GetNumLanguages();
for (int iLang = 0; iLang < iLanguages; iLang++)
{
const char *psLanguage = SE_GetLanguageName( iLang ); // eg "german"
Com_Printf( "com_buildScript(2): Loading language \"%s\"...\n", psLanguage );
SE_LoadLanguage( psLanguage );
}
}
const char *psErrorMessage = SE_LoadLanguage( se_language->string );
if (psErrorMessage)
{
Com_Error( ERR_DROP, "SE_Init() Unable to load language: \"%s\"!\nError: \"%s\"\n", se_language->string,psErrorMessage );
}
}
void SE_ShutDown(void)
{
TheStringPackage.Clear( SE_FALSE );
}
// returns error message else NULL for ok.
//
// Any errors that result from this should probably be treated as game-fatal, since an asset file is fuxored.
//
const char *SE_LoadLanguage( const char *psLanguage, SE_BOOL bLoadDebug /* = SE_TRUE */ )
{
const char *psErrorMessage = NULL;
if (psLanguage && psLanguage[0])
{
SE_NewLanguage();
std::string strResults;
/*int iFilesFound = */SE_BuildFileList(
#ifdef _STRINGED
va("C:\\Source\\Tools\\StringEd\\test_data\\%s",sSE_STRINGS_DIR)
#else
sSE_STRINGS_DIR
#endif
, strResults
);
const char *p;
while ( (p=SE_GetFoundFile (strResults)) != NULL && !psErrorMessage )
{
const char *psThisLang = TheStringPackage.ExtractLanguageFromPath( p );
if ( !Q_stricmp( psLanguage, psThisLang ) )
{
psErrorMessage = SE_Load( p, bLoadDebug );
}
}
}
else
{
__ASSERT( 0 && "SE_LoadLanguage(): Bad language name!" );
}
return psErrorMessage;
}
// called in Com_Frame, so don't take up any time! (can also be called during dedicated)
//
// instead of re-loading just the files we've already loaded I'm going to load the whole language (simpler)
//
void SE_CheckForLanguageUpdates(void)
{
if (se_language && se_language->modified)
{
const char *psErrorMessage = SE_LoadLanguage( se_language->string, SE_TRUE );
if ( psErrorMessage )
{
Com_Error( ERR_DROP, psErrorMessage );
}
se_language->modified = SE_FALSE;
}
}
///////////////////////// eof //////////////////////////