Serious-Engine/Sources/Engine/Base/CTString.cpp
2021-09-04 14:07:03 +03:00

748 lines
17 KiB
C++
Executable File

/* Copyright (c) 2002-2012 Croteam Ltd.
This program is free software; you can redistribute it and/or modify
it under the terms of version 2 of the GNU General Public License 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, write to the Free Software Foundation, Inc.,
51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. */
#include "Engine/StdH.h"
#include <Engine/Base/CTString.h>
#include <Engine/Base/Memory.h>
#include <Engine/Base/Stream.h>
#include <Engine/Base/Console.h>
#ifndef _MSC_VER
#include <stdio.h> // for vsscanf()
#endif
/*
* Equality comparison.
*/
BOOL CTString::operator==(const CTString &strOther) const
{
ASSERT(IsValid() && strOther.IsValid());
return stricmp( str_String, strOther.str_String) == 0;
}
BOOL CTString::operator==(const char *strOther) const
{
ASSERT(IsValid() && strOther!=NULL);
return stricmp( str_String, strOther) == 0;
}
BOOL operator==(const char *strThis, const CTString &strOther)
{
ASSERT(strOther.IsValid() && strThis!=NULL);
return strOther == strThis;
}
/*
* Inequality comparison.
*/
BOOL CTString::operator!=(const CTString &strOther) const
{
ASSERT(IsValid() && strOther.IsValid());
return !( *this == strOther );
}
BOOL CTString::operator!=(const char *strOther) const
{
ASSERT(IsValid() && strOther!=NULL);
return !( *this == strOther );
}
BOOL operator!=(const char *strThis, const CTString &strOther)
{
ASSERT(strOther.IsValid() && strThis!=NULL);
return !( strOther == strThis);
}
/*
* String concatenation.
*/
CTString CTString::operator+(const CTString &strSecond) const
{
ASSERT(IsValid() && strSecond.IsValid());
return(CTString(*this)+=strSecond);
}
CTString operator+(const char *strFirst, const CTString &strSecond)
{
ASSERT(strFirst!=NULL && strSecond.IsValid());
return(CTString(strFirst)+=strSecond);
}
CTString &CTString::operator+=(const CTString &strSecond)
{
ASSERT(IsValid() && strSecond.IsValid());
GrowMemory( (void **)&str_String, strlen( str_String) + strlen( strSecond) + 1 );
strcat(str_String, strSecond.str_String);
return *this;
}
/*
* Remove given prefix string from this string
*/
BOOL CTString::RemovePrefix( const CTString &strPrefix)
{
INDEX lenPrefix = strlen( strPrefix);
INDEX lenDest = strlen( str_String) - lenPrefix;
if( strnicmp( str_String, strPrefix, lenPrefix) != 0)
return FALSE;
CTString strTemp = CTString( &str_String[ lenPrefix]);
ShrinkMemory( (void **)&str_String, lenDest+1);
strcpy( str_String, strTemp.str_String);
return TRUE;
}
/* Check if has given prefix */
BOOL CTString::HasPrefix( const CTString &strPrefix) const
{
INDEX lenPrefix = strlen( strPrefix);
if( strnicmp( str_String, strPrefix, lenPrefix) != 0)
return FALSE;
return TRUE;
}
/* Find index of a substring in a string (returns -1 if not found). */
INDEX CTString::FindSubstr(const CTString &strSub)
{
INDEX ct = Length();
INDEX ctSub = strSub.Length();
for (INDEX i=0; i<ct-ctSub+1; i++) {
for (INDEX iSub=0; iSub<ctSub; iSub++) {
if ((*this)[i+iSub]!=strSub[iSub]) {
goto wrong;
}
}
return i;
wrong:;
}
return -1;
}
/* Replace a substring in a string. */
BOOL CTString::ReplaceSubstr(const CTString &strSub, const CTString &strNewSub)
{
INDEX iPos = FindSubstr(strSub);
if (iPos<0) {
return FALSE;
}
CTString strPart1, strPart2;
Split(iPos, strPart1, strPart2);
strPart2.RemovePrefix(strSub);
*this = strPart1+strNewSub+strPart2;
return TRUE;
}
/* Trim the string from left to contain at most given number of characters. */
INDEX CTString::TrimLeft( INDEX ctCharacters)
{
// clamp negative values
if( ctCharacters<0) ctCharacters = 0;
// find how much characters to remove
INDEX lenOriginal = strlen(str_String);
INDEX lenPrefix = lenOriginal-ctCharacters;
// if nothing needs to be removed
if( lenPrefix<=0) return 0;
// crop
memmove( str_String, &str_String[ lenPrefix], ctCharacters+1);
ShrinkMemory( (void **)&str_String, ctCharacters+1);
return lenPrefix;
}
/* Trim the string from right to contain at most given number of characters. */
INDEX CTString::TrimRight( INDEX ctCharacters)
{
// clamp negative values
if( ctCharacters<0) ctCharacters = 0;
// find how much characters to remove
INDEX lenOriginal = strlen(str_String);
INDEX lenPrefix = lenOriginal-ctCharacters;
// if nothing needs to be removed
if( lenPrefix<=0) return 0;
// crop
str_String[ctCharacters] = '\0';
ShrinkMemory( (void**)&str_String, ctCharacters+1);
return lenPrefix;
}
// return naked length of the string (ignoring all decorate codes)
INDEX CTString::LengthNaked(void) const
{
return Undecorated().Length();
}
// strip decorations from the string
CTString CTString::Undecorated(void) const
{
// make a copy of the string to hold the result - we will rewrite it without the codes
CTString strResult = *this;
// start at the beginning of both strings
const char *pchSrc = str_String;
char *pchDst = strResult.str_String;
// while the source is not finished
while(pchSrc[0]!=0) {
// if the source char is not escape char
if (pchSrc[0]!='^') {
// copy it over
*pchDst++ = *pchSrc++;
// go to next char
continue;
}
// check the next char
switch(pchSrc[1]) {
// if one of the control codes, skip corresponding number of characters
case 'c': pchSrc += 2+FindZero((UBYTE*)pchSrc+2,6); break;
case 'a': pchSrc += 2+FindZero((UBYTE*)pchSrc+2,2); break;
case 'f': pchSrc += 2+FindZero((UBYTE*)pchSrc+2,2); break;
case 'b': case 'i': case 'r': case 'o':
case 'C': case 'A': case 'F': case 'B': case 'I': pchSrc+=2; break;
// if it is the escape char again, skip the first escape and copy the char
case '^': pchSrc++; *pchDst++ = *pchSrc++; break;
// if it is something else
default:
// just copy over the control char
*pchDst++ = *pchSrc++;
break;
}
}
*pchDst++ = 0;
ASSERT(strResult.Length()<=Length());
return strResult;
}
BOOL IsSpace(char c)
{
return c==' ' || c=='\t' || c=='\n' || c=='\r';
}
/* Trim the string from from spaces from left. */
INDEX CTString::TrimSpacesLeft(void)
{
// for each character in string
const char *chr;
for(chr = str_String; *chr!=0; chr++) {
// if the character is not space
if (!IsSpace(*chr)) {
// stop searching
break;
}
}
// trim to that character
return TrimLeft(str_String+strlen(str_String) - chr);
}
/* Trim the string from from spaces from right. */
INDEX CTString::TrimSpacesRight(void)
{
// for each character in string reversed
const char *chr;
for(chr = str_String+strlen(str_String)-1; chr>str_String; chr--) {
// if the character is not space
if (!IsSpace(*chr)) {
// stop searching
break;
}
}
// trim to that character
return TrimRight(chr-str_String+1);
}
// retain only first line of the string
void CTString::OnlyFirstLine(void)
{
// get position of first line end
const char *pchNL = strchr(str_String, '\n');
// if none
if (pchNL==NULL) {
// do nothing
return;
}
// trim everything after that char
TrimRight(pchNL-str_String);
}
/* Calculate hashing value for the string. */
ULONG CTString::GetHash(void) const
{
ULONG ulKey = 0;
INDEX len = strlen(str_String);
for(INDEX i=0; i<len; i++) {
ulKey = rotl(ulKey,4)+toupper(str_String[i]);
}
return ulKey;
}
/*
* Throw exception
*/
void CTString::Throw_t(void)
{
throw(str_String);
}
/*
* Read from stream.
*/
CTStream &operator>>(CTStream &strmStream, CTString &strString)
{
ASSERT(strString.IsValid());
// read length
INDEX iLength;
strmStream>>iLength;
ASSERT(iLength>=0);
// allocate that much memory
FreeMemory(strString.str_String);
strString.str_String = (char *) AllocMemory(iLength+1); // take end-marker in account
// if the string is not empty
if (iLength>0) {
// read string
strmStream.Read_t( strString.str_String, iLength); // without end-marker
}
// set end-marker
strString.str_String[iLength] = 0;
return strmStream;
}
void CTString::ReadFromText_t(CTStream &strmStream,
const CTString &strKeyword="") // throw char *
{
ASSERT(IsValid());
// keyword must be present
strmStream.ExpectKeyword_t(strKeyword);
// read the string from the file
char str[1024];
strmStream.GetLine_t(str, sizeof(str));
// copy it here
(*this) = str;
}
/*
* Write to stream.
*/
CTStream &operator<<(CTStream &strmStream, const CTString &strString)
{
ASSERT(strString.IsValid());
// calculate size
INDEX iStringLen = strlen( strString);
// write size
strmStream<<iStringLen;
// if the string is not empty
if (iStringLen>0) {
// write string
strmStream.Write_t(strString.str_String, iStringLen); // without end-marker
}
return strmStream;
}
#ifndef NDEBUG
/*
* Check if string data is valid.
*/
BOOL CTString::IsValid(void) const
{
ASSERT(this!=NULL && str_String!=NULL);
return TRUE;
}
#endif // NDEBUG
/* Load an entire text file into a string. */
void CTString::ReadUntilEOF_t(CTStream &strmFile) // throw char *
{
// get the file size
SLONG slFileSize = strmFile.GetStreamSize()-strmFile.GetPos_t();
// allocate that much memory
FreeMemory(str_String);
str_String = (char *) AllocMemory(slFileSize+1); // take end-marker in account
// read the entire file there
if (slFileSize>0) {
strmFile.Read_t( str_String, slFileSize);
}
// add end marker
str_String[slFileSize] = 0;
// rewrite entire string
char *pchRead=str_String;
char *pchWrite=str_String;
while(*pchRead!=0) {
// skip the '\r' characters
if (*pchRead!='\r') {
*pchWrite++ = *pchRead++;
} else {
pchRead++;
}
}
*pchWrite = 0;
}
void CTString::Load_t(const class CTFileName &fnmFile) // throw char *
{
ASSERT(IsValid());
// open the file for reading
CTFileStream strmFile;
strmFile.Open_t(fnmFile);
// read string until end of file
ReadUntilEOF_t(strmFile);
}
void CTString::LoadKeepCRLF_t(const class CTFileName &fnmFile) // throw char *
{
ASSERT(IsValid());
// open the file for reading
CTFileStream strmFile;
strmFile.Open_t(fnmFile);
// get the file size
SLONG slFileSize = strmFile.GetStreamSize();
// allocate that much memory
FreeMemory(str_String);
str_String = (char *) AllocMemory(slFileSize+1); // take end-marker in account
// read the entire file there
if (slFileSize>0) {
strmFile.Read_t( str_String, slFileSize);
}
// add end marker
str_String[slFileSize] = 0;
}
/* Save an entire string into a text file. */
void CTString::Save_t(const class CTFileName &fnmFile) // throw char *
{
// open the file for writing
CTFileStream strmFile;
strmFile.Create_t(fnmFile);
// save the string to the file
strmFile.PutString_t(*this);
}
void CTString::SaveKeepCRLF_t(const class CTFileName &fnmFile) // throw char *
{
// open the file for writing
CTFileStream strmFile;
strmFile.Create_t(fnmFile);
// save the string to the file
if (strlen(str_String)>0) {
strmFile.Write_t(str_String, strlen(str_String));
}
}
// Print formatted to a string
INDEX CTString::PrintF(const char *strFormat, ...)
{
va_list arg;
va_start(arg, strFormat);
return VPrintF(strFormat, arg);
va_end(arg);
}
INDEX CTString::VPrintF(const char *strFormat, va_list arg)
{
static INDEX _ctBufferSize = 0;
static char *_pchBuffer = NULL;
// if buffer was not allocated yet
if (_ctBufferSize==0) {
// allocate it
_ctBufferSize = 256;
_pchBuffer = (char*)AllocMemory(_ctBufferSize);
}
// repeat
INDEX iLen;
FOREVER {
// print to the buffer
iLen = _vsnprintf(_pchBuffer, _ctBufferSize, strFormat, arg);
// if printed ok
if (iLen!=-1) {
// stop
break;
}
// increase the buffer size
_ctBufferSize += 256;
GrowMemory((void**)&_pchBuffer, _ctBufferSize);
}
(*this) = _pchBuffer;
return iLen;
}
// !!! FIXME: maybe don't do this, and just use the vsscanf() version. --ryan.
#ifdef _MSC_VER
static void *psscanf = &sscanf;
// Scan formatted from a string
__declspec(naked) INDEX CTString::ScanF(const char *strFormat, ...)
{
__asm {
push eax
mov eax,dword ptr [esp+8]
mov eax,dword ptr [eax]
mov dword ptr [esp+8], eax
pop eax
jmp dword ptr [psscanf]
}
}
#else
INDEX CTString::ScanF(const char *strFormat, ...)
{
INDEX retval;
va_list ap;
va_start(ap, strFormat);
retval = (INDEX) vsscanf((const char *) (*this), strFormat, ap);
va_end(ap);
return(retval);
}
#endif
// split string in two strings at specified position (char AT splitting position goes to str2)
void CTString::Split( INDEX iPos, CTString &str1, CTString &str2)
{
str1 = str_String;
str2 = str_String;
str1.TrimRight(iPos);
str2.TrimLeft(strlen(str2)-iPos);
}
// insert one character in string at specified pos
void CTString::InsertChar( INDEX iPos, char cChr)
{
// clamp position
INDEX ctChars = strlen(str_String);
if( iPos>ctChars) iPos=ctChars;
else if( iPos<0) iPos=0;
// grow memory used by string
GrowMemory( (void**)&str_String, ctChars+2);
// copy part of string to make room for char to insert
memmove( &str_String[iPos+1], &str_String[iPos], ctChars+1-iPos);
str_String[iPos] = cChr;
}
// delete one character from string at specified pos
void CTString::DeleteChar( INDEX iPos)
{
// clamp position
INDEX ctChars = strlen(str_String);
if (ctChars==0) {
return;
}
if( iPos>ctChars) iPos=ctChars - 1;
else if( iPos<0) iPos=0;
// copy part of string
memmove( &str_String[iPos], &str_String[iPos+1], ctChars-iPos);
// shrink memory used by string over deleted char
ShrinkMemory( (void**)&str_String, ctChars);
}
// wild card comparison
BOOL CTString::Matches(const CTString &strOther) const
{
return Matches(strOther.str_String);
}
BOOL CTString::Matches(const char *strOther) const
{
// pattern matching code from sourceforge.net codesnippet archive
// adjusted a bit to match in/out parameters
#define MAX_CALLS 200
int calls=0, wild=0, q=0;
const char *mask=strOther, *name=str_String;
const char *m=mask, *n=name, *ma=mask, *na=name;
for(;;) {
if (++calls > MAX_CALLS) {
return FALSE;
}
if (*m == '*') {
while (*m == '*') ++m;
wild = 1;
ma = m;
na = n;
}
if (!*m) {
if (!*n) {
return TRUE;
}
for (--m; (m > mask) && (*m == '?'); --m) ;
if ((*m == '*') && (m > mask) &&
(m[-1] != '\\')) {
return TRUE;
}
if (!wild) {
return FALSE;
}
m = ma;
} else if (!*n) {
while(*m == '*') ++m;
if (*m != 0) {
return FALSE;
} else {
return TRUE;
}
}
if ((*m == '\\') && ((m[1] == '*') || (m[1] == '?'))) {
++m;
q = 1;
} else {
q = 0;
}
// also, '\\' in mask should match '/' in name, for unix compatibility
if (((tolower(*m) != tolower(*n)) && ((*m!='\\') && (*n!='/')))
&& ((*m != '?') || q)) {
if (!wild) {
return FALSE;
}
m = ma;
n = ++na;
} else {
if (*m) ++m;
if (*n) ++n;
}
}
}
// variable management functions
void CTString::LoadVar(const class CTFileName &fnmFile)
{
try {
CTString str;
str.Load_t(fnmFile);
*this = str;
} catch (char *strError) {
CPrintF(TRANSV("Cannot load variable from '%s':\n%s\n"), (const char *) (CTString&)fnmFile, strError);
}
}
void CTString::SaveVar(const class CTFileName &fnmFile)
{
try {
Save_t(fnmFile);
} catch (char *strError) {
CPrintF(TRANSV("Cannot save variable to '%s':\n%s\n"), (const char *) (CTString&)fnmFile, strError);
}
}
// general variable functions
void LoadStringVar(const CTFileName &fnmVar, CTString &strVar)
{
strVar.LoadVar(fnmVar);
}
void SaveStringVar(const CTFileName &fnmVar, CTString &strVar)
{
strVar.SaveVar(fnmVar);
}
void LoadIntVar(const CTFileName &fnmVar, INDEX &iVar)
{
CTString strVar;
strVar.LoadVar(fnmVar);
if (strVar!="") {
CTString strHex = strVar;
if (strHex.RemovePrefix("0x")) {
strHex.ScanF("%x", &iVar);
} else {
strVar.ScanF("%d", &iVar);
}
}
}
void SaveIntVar(const CTFileName &fnmVar, INDEX &iVar)
{
CTString strVar;
strVar.PrintF("%d", iVar);
strVar.SaveVar(fnmVar);
}
// remove special codes from string
CTString RemoveSpecialCodes( const CTString &str)
{
CTString strRet=str;
char *pcSrc = (char*)(const char*)strRet;
char *pcDst = (char*)(const char*)strRet;
// copy char inside string skipping special codes
while( *pcSrc != 0)
{
if( *pcSrc != '^')
{ // advance to next char
*pcDst = *pcSrc;
pcSrc++;
pcDst++;
}
else
{ // skip some characters
pcSrc++;
switch( *pcSrc) {
case 'c': pcSrc+=FindZero((UBYTE*)pcSrc,7); continue;
case 'a': pcSrc+=FindZero((UBYTE*)pcSrc,3); continue;
case 'f': pcSrc+=FindZero((UBYTE*)pcSrc,2); continue;
case 'b': case 'i': case 'r': case 'o':
case 'C': case 'A': case 'F': case 'B': case 'I': pcSrc+=1; continue;
// if we get here this means that ^ or an unrecognized special code was specified
default: continue;
}
}
}
// terminate string
*pcDst = 0;
return strRet;
}