qzdoom-gpl/src/zstring.cpp

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/*
** zstring.cpp
** A dynamically-allocated string class.
**
**---------------------------------------------------------------------------
About a week's worth of changes here. As a heads-up, I wouldn't be surprised if this doesn't build in Linux right now. The CMakeLists.txt were checked with MinGW and NMake, but how they fair under Linux is an unknown to me at this time. - Converted most sprintf (and all wsprintf) calls to either mysnprintf or FStrings, depending on the situation. - Changed the strings in the wbstartstruct to be FStrings. - Changed myvsnprintf() to output nothing if count is greater than INT_MAX. This is so that I can use a series of mysnprintf() calls and advance the pointer for each one. Once the pointer goes beyond the end of the buffer, the count will go negative, but since it's an unsigned type it will be seen as excessively huge instead. This should not be a problem, as there's no reason for ZDoom to be using text buffers larger than 2 GB anywhere. - Ripped out the disabled bit from FGameConfigFile::MigrateOldConfig(). - Changed CalcMapName() to return an FString instead of a pointer to a static buffer. - Changed startmap in d_main.cpp into an FString. - Changed CheckWarpTransMap() to take an FString& as the first argument. - Changed d_mapname in g_level.cpp into an FString. - Changed DoSubstitution() in ct_chat.cpp to place the substitutions in an FString. - Fixed: The MAPINFO parser wrote into the string buffer to construct a map name when given a Hexen map number. This was fine with the old scanner code, but only a happy coincidence prevents it from crashing with the new code - Added the 'B' conversion specifier to StringFormat::VWorker() for printing binary numbers. - Added CMake support for building with MinGW, MSYS, and NMake. Linux support is probably broken until I get around to booting into Linux again. Niceties provided over the existing Makefiles they're replacing: * All command-line builds can use the same build system, rather than having a separate one for MinGW and another for Linux. * Microsoft's NMake tool is supported as a target. * Progress meters. * Parallel makes work from a fresh checkout without needing to be primed first with a single-threaded make. * Porting to other architectures should be simplified, whenever that day comes. - Replaced the makewad tool with zipdir. This handles the dependency tracking itself instead of generating an external makefile to do it, since I couldn't figure out how to generate a makefile with an external tool and include it with a CMake-generated makefile. Where makewad used a master list of files to generate the package file, zipdir just zips the entire contents of one or more directories. - Added the gdtoa package from netlib's fp library so that ZDoom's printf-style formatting can be entirely independant of the CRT. SVN r1082 (trunk)
2008-07-23 04:57:26 +00:00
** Copyright 2005-2008 Randy Heit
** All rights reserved.
**
** Redistribution and use in source and binary forms, with or without
** modification, are permitted provided that the following conditions
** are met:
**
** 1. Redistributions of source code must retain the above copyright
** notice, this list of conditions and the following disclaimer.
** 2. Redistributions in binary form must reproduce the above copyright
** notice, this list of conditions and the following disclaimer in the
** documentation and/or other materials provided with the distribution.
** 3. The name of the author may not be used to endorse or promote products
** derived from this software without specific prior written permission.
**
** THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
** IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
** OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
** IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
** INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
** NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
** DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
** THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
** (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
** THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
**---------------------------------------------------------------------------
**
*/
#include <stdlib.h>
#include <ctype.h>
#include <string.h>
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#include <new> // for bad_alloc
#include "zstring.h"
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FNullStringData FString::NullString =
{
0, // Length of string
2, // Size of character buffer
2, // RefCount; it must never be modified, so keep it above 1 user at all times
"\0"
};
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void FString::AttachToOther (const FString &other)
{
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assert (other.Chars != NULL);
if (other.Data()->RefCount < 0)
{
AllocBuffer (other.Data()->Len);
StrCopy (Chars, other.Chars, other.Data()->Len);
}
else
{
Chars = const_cast<FString &>(other).Data()->AddRef();
}
}
FString::FString (const char *copyStr)
{
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if (copyStr == NULL || *copyStr == '\0')
{
NullString.RefCount++;
Chars = &NullString.Nothing[0];
}
else
{
size_t len = strlen (copyStr);
AllocBuffer (len);
StrCopy (Chars, copyStr, len);
}
}
FString::FString (const char *copyStr, size_t len)
{
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AllocBuffer (len);
StrCopy (Chars, copyStr, len);
}
FString::FString (char oneChar)
{
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if (oneChar == '\0')
{
NullString.RefCount++;
Chars = &NullString.Nothing[0];
}
else
{
AllocBuffer (1);
Chars[0] = oneChar;
Chars[1] = '\0';
}
}
FString::FString (const FString &head, const FString &tail)
{
size_t len1 = head.Len();
size_t len2 = tail.Len();
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AllocBuffer (len1 + len2);
StrCopy (Chars, head);
StrCopy (Chars + len1, tail);
}
FString::FString (const FString &head, const char *tail)
{
size_t len1 = head.Len();
size_t len2 = strlen (tail);
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AllocBuffer (len1 + len2);
StrCopy (Chars, head);
StrCopy (Chars + len1, tail, len2);
}
FString::FString (const FString &head, char tail)
{
size_t len1 = head.Len();
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AllocBuffer (len1 + 1);
StrCopy (Chars, head);
Chars[len1] = tail;
Chars[len1+1] = '\0';
}
FString::FString (const char *head, const FString &tail)
{
size_t len1 = strlen (head);
size_t len2 = tail.Len();
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AllocBuffer (len1 + len2);
StrCopy (Chars, head, len1);
StrCopy (Chars + len1, tail);
}
FString::FString (const char *head, const char *tail)
{
size_t len1 = strlen (head);
size_t len2 = strlen (tail);
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AllocBuffer (len1 + len2);
StrCopy (Chars, head, len1);
StrCopy (Chars + len1, tail, len2);
}
FString::FString (char head, const FString &tail)
{
size_t len2 = tail.Len();
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AllocBuffer (1 + len2);
Chars[0] = head;
StrCopy (Chars + 1, tail);
}
FString::~FString ()
{
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Data()->Release();
}
char *FString::LockNewBuffer(size_t len)
{
Data()->Release();
AllocBuffer(len);
assert(Data()->RefCount == 1);
Data()->RefCount = -1;
return Chars;
}
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char *FString::LockBuffer()
{
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if (Data()->RefCount == 1)
{ // We're the only user, so we can lock it straight away
Data()->RefCount = -1;
}
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else if (Data()->RefCount < -1)
{ // Already locked; just add to the lock count
Data()->RefCount--;
}
else
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{ // Somebody else is also using this character buffer, so create a copy
FStringData *old = Data();
AllocBuffer (old->Len);
StrCopy (Chars, old->Chars(), old->Len);
old->Release();
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Data()->RefCount = -1;
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}
return Chars;
}
void FString::UnlockBuffer()
{
assert (Data()->RefCount < 0);
if (++Data()->RefCount == 0)
{
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Data()->RefCount = 1;
}
}
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FString &FString::operator = (const FString &other)
{
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assert (Chars != NULL);
if (&other != this)
{
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int oldrefcount = Data()->RefCount < 0;
Data()->Release();
AttachToOther(other);
if (oldrefcount < 0)
{
LockBuffer();
Data()->RefCount = oldrefcount;
}
}
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return *this;
}
FString &FString::operator = (const char *copyStr)
{
if (copyStr != Chars)
{
if (copyStr == NULL || *copyStr == '\0')
{
- Updated lempar.c to v1.31. - Added .txt files to the list of types (wad, zip, and pk3) that can be loaded without listing them after -file. - Fonts that are created by the ACS setfont command to wrap a texture now support animated textures. - FON2 fonts can now use their full palette for CR_UNTRANSLATED when drawn with the hardware 2D path instead of being restricted to the game palette. - Fixed: Toggling vid_vsync would reset the displayed fullscreen gamma to 1 on a Radeon 9000. - Added back the off-by-one palette handling, but in a much more limited scope than before. The skipped entry is assumed to always be at 248, and it is assumed that all Shader Model 1.4 cards suffer from this. That's because all SM1.4 cards are based on variants of the ATI R200 core, and the RV250 in a Radeon 9000 craps up like this. I see no reason to assume that other flavors of the R200 are any different. (Interesting note: With the Radeon 9000, D3DTADDRESS_CLAMP is an invalid address mode when using the debug Direct3D 9 runtime, but it works perfectly fine with the retail Direct3D 9 runtime.) (Insight: The R200 probably uses bytes for all its math inside pixel shaders. That would explain perfectly why I can't use constants greater than 1 with PS1.4 and why it can't do an exact mapping to every entry in the color palette. - Fixed: The software shaded drawer did not work for 2D, because its selected "color"map was replaced with the identitymap before being used. - Fixed: I cannot use Printf to output messages before the framebuffer was completely setup, meaning that Shader Model 1.4 cards could not change resolution. - I have decided to let remap palettes specify variable alpha values for their colors. D3DFB no longer forces them to 255. - Updated re2c to version 0.12.3. - Fixed: A_Wander used threshold as a timer, when it should have used reactiontime. - Fixed: A_CustomRailgun would not fire at all for actors without a target when the aim parameter was disabled. - Made the warp command work in multiplayer, again courtesy of Karate Chris. - Fixed: Trying to spawn a bot while not in a game made for a crashing time. (Patch courtesy of Karate Chris.) - Removed some floating point math from hu_scores.cpp that somebody's GCC gave warnings for (not mine, though). - Fixed: The SBarInfo drawbar command crashed if the sprite image was unavailable. - Fixed: FString::operator=(const char *) did not release its old buffer when being assigned to the null string. - The scanner no longer has an upper limit on the length of strings it accepts, though short strings will be faster than long ones. - Moved all the text scanning functions into a class. Mainly, this means that multiple script scanner states can be stored without being forced to do so recursively. I think I might be taking advantage of that in the near future. Possibly. Maybe. - Removed some potential buffer overflows from the decal parser. - Applied Blzut3's SBARINFO update #9: * Fixed: When using even length values in drawnumber it would cap to a 98 value instead of a 99 as intended. * The SBarInfo parser can now accept negatives for coordinates. This doesn't allow much right now, but later I plan to add better fullscreen hud support in which the negatives will be more useful. This also cleans up the source a bit since all calls for (x, y) coordinates are with the function getCoordinates(). - Added support for stencilling actors. - Added support for non-black colors specified with DTA_ColorOverlay to the software renderer. - Fixed: The inverse, gold, red, and green fixed colormaps each allocated space for 32 different colormaps, even though each only used the first one. - Added two new blending flags to make reverse subtract blending more useful: STYLEF_InvertSource and STYLEF_InvertOverlay. These invert the color that gets blended with the background, since that seems like a good idea for reverse subtraction. They also work with the other two blending operations. - Added subtract and reverse subtract blending operations to the renderer. Since the ERenderStyle enumeration was getting rather unwieldy, I converted it into a new FRenderStyle structure that lets each parameter of the blending equation be set separately. This simplified the set up for the blend quite a bit, and it means a number of new combinations are available by setting the parameters properly. SVN r710 (trunk)
2008-01-25 23:57:44 +00:00
Data()->Release();
NullString.RefCount++;
Chars = &NullString.Nothing[0];
}
else
{
// In case copyStr is inside us, we can't release it until
// we've finished the copy.
FStringData *old = Data();
if (copyStr < Chars || copyStr >= Chars + old->Len)
{
// We know the string isn't in our buffer, so release it now
// to reduce the potential for needless memory fragmentation.
old->Release();
old = NULL;
}
size_t len = strlen (copyStr);
AllocBuffer (len);
StrCopy (Chars, copyStr, len);
if (old != NULL)
{
old->Release();
}
}
}
return *this;
}
void FString::Format (const char *fmt, ...)
{
va_list arglist;
va_start (arglist, fmt);
VFormat (fmt, arglist);
va_end (arglist);
}
void FString::AppendFormat (const char *fmt, ...)
{
va_list arglist;
va_start (arglist, fmt);
StringFormat::VWorker (FormatHelper, this, fmt, arglist);
va_end (arglist);
}
void FString::VFormat (const char *fmt, va_list arglist)
{
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Data()->Release();
Chars = (char *)(FStringData::Alloc(128) + 1);
StringFormat::VWorker (FormatHelper, this, fmt, arglist);
}
void FString::VAppendFormat (const char *fmt, va_list arglist)
{
StringFormat::VWorker (FormatHelper, this, fmt, arglist);
}
int FString::FormatHelper (void *data, const char *cstr, int len)
{
FString *str = (FString *)data;
size_t len1 = str->Len();
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if (len1 + len > str->Data()->AllocLen || str->Chars == &NullString.Nothing[0])
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{
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str->ReallocBuffer((len1 + len + 127) & ~127);
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}
StrCopy (str->Chars + len1, cstr, len);
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str->Data()->Len = (unsigned int)(len1 + len);
return len;
}
FString FString::operator + (const FString &tail) const
{
return FString (*this, tail);
}
FString FString::operator + (const char *tail) const
{
return FString (*this, tail);
}
FString operator + (const char *head, const FString &tail)
{
return FString (head, tail);
}
FString FString::operator + (char tail) const
{
return FString (*this, tail);
}
FString operator + (char head, const FString &tail)
{
return FString (head, tail);
}
FString &FString::operator += (const FString &tail)
{
size_t len1 = Len();
size_t len2 = tail.Len();
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ReallocBuffer (len1 + len2);
StrCopy (Chars + len1, tail);
return *this;
}
FString &FString::operator += (const char *tail)
{
size_t len1 = Len();
size_t len2 = strlen(tail);
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ReallocBuffer (len1 + len2);
StrCopy (Chars + len1, tail, len2);
return *this;
}
FString &FString::operator += (char tail)
{
size_t len1 = Len();
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ReallocBuffer (len1 + 1);
Chars[len1] = tail;
Chars[len1+1] = '\0';
return *this;
}
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FString &FString::AppendCStrPart (const char *tail, size_t tailLen)
{
size_t len1 = Len();
ReallocBuffer (len1 + tailLen);
StrCopy (Chars + len1, tail, tailLen);
return *this;
}
FString &FString::CopyCStrPart(const char *tail, size_t tailLen)
{
ReallocBuffer(tailLen);
StrCopy(Chars, tail, tailLen);
return *this;
}
void FString::Truncate(long newlen)
{
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if (newlen >= 0 && newlen < (long)Len())
{
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ReallocBuffer (newlen);
Chars[newlen] = '\0';
}
}
FString FString::Left (size_t numChars) const
{
size_t len = Len();
if (len < numChars)
{
numChars = len;
}
return FString (Chars, numChars);
}
FString FString::Right (size_t numChars) const
{
size_t len = Len();
if (len < numChars)
{
numChars = len;
}
return FString (Chars + len - numChars, numChars);
}
FString FString::Mid (size_t pos, size_t numChars) const
{
size_t len = Len();
if (pos >= len)
{
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return FString();
}
if (pos + numChars > len || pos + numChars < pos)
{
numChars = len - pos;
}
return FString (Chars + pos, numChars);
}
long FString::IndexOf (const FString &substr, long startIndex) const
{
return IndexOf (substr.Chars, startIndex);
}
long FString::IndexOf (const char *substr, long startIndex) const
{
if (startIndex > 0 && Len() <= (size_t)startIndex)
{
return -1;
}
char *str = strstr (Chars + startIndex, substr);
if (str == NULL)
{
return -1;
}
return long(str - Chars);
}
long FString::IndexOf (char subchar, long startIndex) const
{
if (startIndex > 0 && Len() <= (size_t)startIndex)
{
return -1;
}
char *str = strchr (Chars + startIndex, subchar);
if (str == NULL)
{
return -1;
}
return long(str - Chars);
}
long FString::IndexOfAny (const FString &charset, long startIndex) const
{
return IndexOfAny (charset.Chars, startIndex);
}
long FString::IndexOfAny (const char *charset, long startIndex) const
{
if (startIndex > 0 && Len() <= (size_t)startIndex)
{
return -1;
}
char *brk = strpbrk (Chars + startIndex, charset);
if (brk == NULL)
{
return -1;
}
return long(brk - Chars);
}
long FString::LastIndexOf (const FString &substr) const
{
return LastIndexOf (substr.Chars, long(Len()), substr.Len());
}
long FString::LastIndexOf (const char *substr) const
{
return LastIndexOf (substr, long(Len()), strlen(substr));
}
long FString::LastIndexOf (char subchar) const
{
return LastIndexOf (subchar, long(Len()));
}
long FString::LastIndexOf (const FString &substr, long endIndex) const
{
return LastIndexOf (substr.Chars, endIndex, substr.Len());
}
long FString::LastIndexOf (const char *substr, long endIndex) const
{
return LastIndexOf (substr, endIndex, strlen(substr));
}
long FString::LastIndexOf (char subchar, long endIndex) const
{
if ((size_t)endIndex > Len())
{
endIndex = long(Len());
}
while (--endIndex >= 0)
{
if (Chars[endIndex] == subchar)
{
return endIndex;
}
}
return -1;
}
long FString::LastIndexOf (const char *substr, long endIndex, size_t substrlen) const
{
if ((size_t)endIndex > Len())
{
endIndex = long(Len());
}
substrlen--;
while (--endIndex >= long(substrlen))
{
if (strncmp (substr, Chars + endIndex - substrlen, substrlen + 1) == 0)
{
return endIndex;
}
}
return -1;
}
long FString::LastIndexOfAny (const FString &charset) const
{
return LastIndexOfAny (charset.Chars, long(Len()));
}
long FString::LastIndexOfAny (const char *charset) const
{
return LastIndexOfAny (charset, long(Len()));
}
long FString::LastIndexOfAny (const FString &charset, long endIndex) const
{
return LastIndexOfAny (charset.Chars, endIndex);
}
long FString::LastIndexOfAny (const char *charset, long endIndex) const
{
if ((size_t)endIndex > Len())
{
endIndex = long(Len());
}
while (--endIndex >= 0)
{
if (strchr (charset, Chars[endIndex]) != NULL)
{
return endIndex;
}
}
return -1;
}
void FString::ToUpper ()
{
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LockBuffer();
size_t max = Len();
for (size_t i = 0; i < max; ++i)
{
Chars[i] = (char)toupper(Chars[i]);
}
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UnlockBuffer();
}
void FString::ToLower ()
{
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LockBuffer();
size_t max = Len();
for (size_t i = 0; i < max; ++i)
{
Chars[i] = (char)tolower(Chars[i]);
}
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UnlockBuffer();
}
void FString::SwapCase ()
{
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LockBuffer();
size_t max = Len();
for (size_t i = 0; i < max; ++i)
{
if (isupper(Chars[i]))
{
Chars[i] = (char)tolower(Chars[i]);
}
else
{
Chars[i] = (char)toupper(Chars[i]);
}
}
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UnlockBuffer();
}
void FString::StripLeft ()
{
size_t max = Len(), i, j;
for (i = 0; i < max; ++i)
{
if (!isspace(Chars[i]))
break;
}
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if (Data()->RefCount <= 1)
{
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for (j = 0; i <= max; ++j, ++i)
{
Chars[j] = Chars[i];
}
ReallocBuffer (j-1);
}
else
{
FStringData *old = Data();
AllocBuffer (max - i);
StrCopy (Chars, old->Chars() + i, max - i);
old->Release();
}
}
void FString::StripLeft (const FString &charset)
{
return StripLeft (charset.Chars);
}
void FString::StripLeft (const char *charset)
{
size_t max = Len(), i, j;
for (i = 0; i < max; ++i)
{
if (!strchr (charset, Chars[i]))
break;
}
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if (Data()->RefCount <= 1)
{
for (j = 0; i <= max; ++j, ++i)
{
Chars[j] = Chars[i];
}
ReallocBuffer (j-1);
}
else
{
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FStringData *old = Data();
AllocBuffer (max - i);
StrCopy (Chars, old->Chars() + i, max - i);
old->Release();
}
}
void FString::StripRight ()
{
size_t max = Len(), i;
for (i = max; i-- > 0; )
{
if (!isspace(Chars[i]))
break;
}
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if (Data()->RefCount <= 1)
{
Chars[i+1] = '\0';
ReallocBuffer (i+1);
}
else
{
FStringData *old = Data();
AllocBuffer (i+1);
StrCopy (Chars, old->Chars(), i+1);
old->Release();
}
}
void FString::StripRight (const FString &charset)
{
return StripRight (charset.Chars);
}
void FString::StripRight (const char *charset)
{
size_t max = Len(), i;
for (i = max; i-- > 0; )
{
if (!strchr (charset, Chars[i]))
break;
}
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if (Data()->RefCount <= 1)
{
Chars[i+1] = '\0';
ReallocBuffer (i+1);
}
else
{
FStringData *old = Data();
AllocBuffer (i+1);
StrCopy (Chars, old->Chars(), i+1);
old->Release();
}
}
void FString::StripLeftRight ()
{
size_t max = Len(), i, j, k;
for (i = 0; i < max; ++i)
{
if (!isspace(Chars[i]))
break;
}
for (j = max - 1; j >= i; --j)
{
if (!isspace(Chars[j]))
break;
}
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if (Data()->RefCount <= 1)
{
for (k = 0; i <= j; ++i, ++k)
{
Chars[k] = Chars[i];
}
Chars[k] = '\0';
ReallocBuffer (k);
}
else
{
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FStringData *old = Data();
AllocBuffer (j - i);
StrCopy (Chars, old->Chars(), j - i);
old->Release();
}
}
void FString::StripLeftRight (const FString &charset)
{
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return StripLeftRight (charset.Chars);
}
void FString::StripLeftRight (const char *charset)
{
size_t max = Len(), i, j, k;
for (i = 0; i < max; ++i)
{
if (!strchr (charset, Chars[i]))
break;
}
for (j = max - 1; j >= i; --j)
{
if (!strchr (charset, Chars[j]))
break;
}
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if (Data()->RefCount <= 1)
{
for (k = 0; i <= j; ++i, ++k)
{
Chars[k] = Chars[i];
}
Chars[k] = '\0';
ReallocBuffer (k);
}
else
{
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FStringData *old = Data();
AllocBuffer (j - i);
StrCopy (Chars, old->Chars(), j - i);
old->Release();
}
}
void FString::Insert (size_t index, const FString &instr)
{
Insert (index, instr.Chars, instr.Len());
}
void FString::Insert (size_t index, const char *instr)
{
Insert (index, instr, strlen(instr));
}
void FString::Insert (size_t index, const char *instr, size_t instrlen)
{
size_t mylen = Len();
if (index > mylen)
{
index = mylen;
}
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if (Data()->RefCount <= 1)
{
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ReallocBuffer (mylen + instrlen);
memmove (Chars + index + instrlen, Chars + index, (mylen - index + 1)*sizeof(char));
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memcpy (Chars + index, instr, instrlen*sizeof(char));
}
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else
{
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FStringData *old = Data();
AllocBuffer (mylen + instrlen);
StrCopy (Chars, old->Chars(), index);
StrCopy (Chars + index, instr, instrlen);
StrCopy (Chars + index + instrlen, old->Chars() + index, mylen - index);
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old->Release();
}
}
void FString::ReplaceChars (char oldchar, char newchar)
{
size_t i, j;
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LockBuffer();
for (i = 0, j = Len(); i < j; ++i)
{
if (Chars[i] == oldchar)
{
Chars[i] = newchar;
}
}
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UnlockBuffer();
}
void FString::ReplaceChars (const char *oldcharset, char newchar)
{
size_t i, j;
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LockBuffer();
for (i = 0, j = Len(); i < j; ++i)
{
if (strchr (oldcharset, Chars[i]) != NULL)
{
Chars[i] = newchar;
}
}
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UnlockBuffer();
}
void FString::StripChars (char killchar)
{
size_t read, write, mylen;
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LockBuffer();
for (read = write = 0, mylen = Len(); read < mylen; ++read)
{
if (Chars[read] != killchar)
{
Chars[write++] = Chars[read];
}
}
Chars[write] = '\0';
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ReallocBuffer (write);
UnlockBuffer();
}
void FString::StripChars (const char *killchars)
{
size_t read, write, mylen;
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LockBuffer();
for (read = write = 0, mylen = Len(); read < mylen; ++read)
{
if (strchr (killchars, Chars[read]) == NULL)
{
Chars[write++] = Chars[read];
}
}
Chars[write] = '\0';
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ReallocBuffer (write);
UnlockBuffer();
}
void FString::MergeChars (char merger)
{
MergeChars (merger, merger);
}
void FString::MergeChars (char merger, char newchar)
{
size_t read, write, mylen;
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LockBuffer();
for (read = write = 0, mylen = Len(); read < mylen; )
{
if (Chars[read] == merger)
{
while (Chars[++read] == merger)
{
}
Chars[write++] = newchar;
}
else
{
Chars[write++] = Chars[read++];
}
}
Chars[write] = '\0';
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ReallocBuffer (write);
UnlockBuffer();
}
void FString::MergeChars (const char *charset, char newchar)
{
size_t read, write, mylen;
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LockBuffer();
for (read = write = 0, mylen = Len(); read < mylen; )
{
if (strchr (charset, Chars[read]) != NULL)
{
while (strchr (charset, Chars[++read]) != NULL)
{
}
Chars[write++] = newchar;
}
else
{
Chars[write++] = Chars[read++];
}
}
Chars[write] = '\0';
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ReallocBuffer (write);
UnlockBuffer();
}
void FString::Substitute (const FString &oldstr, const FString &newstr)
{
return Substitute (oldstr.Chars, newstr.Chars, oldstr.Len(), newstr.Len());
}
void FString::Substitute (const char *oldstr, const FString &newstr)
{
return Substitute (oldstr, newstr.Chars, strlen(oldstr), newstr.Len());
}
void FString::Substitute (const FString &oldstr, const char *newstr)
{
return Substitute (oldstr.Chars, newstr, oldstr.Len(), strlen(newstr));
}
void FString::Substitute (const char *oldstr, const char *newstr)
{
return Substitute (oldstr, newstr, strlen(oldstr), strlen(newstr));
}
void FString::Substitute (const char *oldstr, const char *newstr, size_t oldstrlen, size_t newstrlen)
{
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LockBuffer();
for (size_t checkpt = 0; checkpt < Len(); )
{
char *match = strstr (Chars + checkpt, oldstr);
size_t len = Len();
if (match != NULL)
{
size_t matchpt = match - Chars;
if (oldstrlen != newstrlen)
{
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ReallocBuffer (len + newstrlen - oldstrlen);
memmove (Chars + matchpt + newstrlen, Chars + matchpt + oldstrlen, (len + 1 - matchpt - oldstrlen)*sizeof(char));
}
memcpy (Chars + matchpt, newstr, newstrlen);
checkpt = matchpt + newstrlen;
}
else
{
break;
}
}
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UnlockBuffer();
}
bool FString::IsInt () const
{
// String must match: [whitespace] [{+ | <20>}] [0 [{ x | X }]] [digits] [whitespace]
/* This state machine is based on a simplification of re2c's output for this input:
digits = [0-9];
hexdigits = [0-9a-fA-F];
octdigits = [0-7];
("0" octdigits+ | "0" [xX] hexdigits+ | (digits \ '0') digits*) { return true; }
[\000-\377] { return false; }*/
const char *YYCURSOR = Chars;
char yych;
yych = *YYCURSOR;
// Skip preceding whitespace
while (yych != '\0' && isspace(yych)) { yych = *++YYCURSOR; }
// Check for sign
if (yych == '+' || yych == '-') { yych = *++YYCURSOR; }
if (yych == '0')
{
yych = *++YYCURSOR;
if (yych >= '0' && yych <= '7')
{
do { yych = *++YYCURSOR; } while (yych >= '0' && yych <= '7');
}
else if (yych == 'X' || yych == 'x')
{
bool gothex = false;
yych = *++YYCURSOR;
while ((yych >= '0' && yych <= '9') || (yych >= 'A' && yych <= 'F') || (yych >= 'a' && yych <= 'f'))
{
gothex = true;
yych = *++YYCURSOR;
}
if (!gothex) return false;
}
else
{
return false;
}
}
else if (yych >= '1' && yych <= '9')
{
do { yych = *++YYCURSOR; } while (yych >= '0' && yych <= '9');
}
else
{
return false;
}
// The rest should all be whitespace
while (yych != '\0' && isspace(yych)) { yych = *++YYCURSOR; }
return yych == '\0';
}
bool FString::IsFloat () const
{
// String must match: [whitespace] [sign] [digits] [.digits] [ {d | D | e | E}[sign]digits] [whitespace]
/* This state machine is based on a simplification of re2c's output for this input:
digits = [0-9];
(digits+ | digits* "." digits+) ([dDeE] [+-]? digits+)? { return true; }
[\000-\377] { return false; }
*/
const char *YYCURSOR = Chars;
char yych;
bool gotdig = false;
yych = *YYCURSOR;
// Skip preceding whitespace
while (yych != '\0' && isspace(yych)) { yych = *++YYCURSOR; }
// Check for sign
if (yych == '+' || yych == '-') { yych = *++YYCURSOR; }
while (yych >= '0' && yych <= '9')
{
gotdig = true;
yych = *++YYCURSOR;
}
if (yych == '.')
{
yych = *++YYCURSOR;
if (yych >= '0' && yych <= '9')
{
gotdig = true;
do { yych = *++YYCURSOR; } while (yych >= '0' && yych <= '9');
}
else return false;
}
if (gotdig)
{
if (yych == 'D' || yych == 'd' || yych == 'E' || yych == 'e')
{
yych = *++YYCURSOR;
if (yych == '+' || yych == '-') yych = *++YYCURSOR;
while (yych >= '0' && yych <= '9') { yych = *++YYCURSOR; }
}
}
// The rest should all be whitespace
while (yych != '\0' && isspace(yych)) { yych = *++YYCURSOR; }
return yych == '\0';
}
long FString::ToLong (int base) const
{
return strtol (Chars, NULL, base);
}
unsigned long FString::ToULong (int base) const
{
return strtoul (Chars, NULL, base);
}
double FString::ToDouble () const
{
return strtod (Chars, NULL);
}
void FString::StrCopy (char *to, const char *from, size_t len)
{
memcpy (to, from, len*sizeof(char));
to[len] = 0;
}
void FString::StrCopy (char *to, const FString &from)
{
StrCopy (to, from.Chars, from.Len());
}
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void FString::AllocBuffer (size_t len)
{
Chars = (char *)(FStringData::Alloc(len) + 1);
Data()->Len = (unsigned int)len;
}
void FString::ReallocBuffer (size_t newlen)
{
if (Data()->RefCount > 1)
{ // If more than one reference, we must use a new copy
FStringData *old = Data();
AllocBuffer (newlen);
StrCopy (Chars, old->Chars(), old->Len);
old->Release();
}
else
{
if (newlen > Data()->AllocLen)
{
Chars = (char *)(Data()->Realloc(newlen) + 1);
}
Data()->Len = (unsigned int)newlen;
}
}
// Under Windows, use the system heap functions for managing string memory.
// Under other OSs, use ordinary memory management instead.
#ifdef _WIN32
#define WIN32_LEAN_AND_MEAN
#include <windows.h>
static HANDLE StringHeap;
const SIZE_T STRING_HEAP_SIZE = 64*1024;
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#endif
FStringData *FStringData::Alloc (size_t strlen)
{
strlen += 1 + sizeof(FStringData); // Add space for header and terminating null
strlen = (strlen + 7) & ~7; // Pad length up
#ifdef _WIN32
if (StringHeap == NULL)
{
StringHeap = HeapCreate (0, STRING_HEAP_SIZE, 0);
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if (StringHeap == NULL)
{
throw std::bad_alloc();
}
}
FStringData *block = (FStringData *)HeapAlloc (StringHeap, 0, strlen);
#else
FStringData *block = (FStringData *)malloc (strlen);
#endif
if (block == NULL)
{
throw std::bad_alloc();
}
block->Len = 0;
block->AllocLen = (unsigned int)strlen - sizeof(FStringData) - 1;
block->RefCount = 1;
return block;
}
FStringData *FStringData::Realloc (size_t newstrlen)
{
assert (RefCount <= 1);
newstrlen += 1 + sizeof(FStringData); // Add space for header and terminating null
newstrlen = (newstrlen + 7) & ~7; // Pad length up
#ifdef _WIN32
FStringData *block = (FStringData *)HeapReAlloc (StringHeap, 0, this, newstrlen);
#else
FStringData *block = (FStringData *)realloc (this, newstrlen);
#endif
if (block == NULL)
{
throw std::bad_alloc();
}
block->AllocLen = (unsigned int)newstrlen - sizeof(FStringData) - 1;
return block;
}
void FStringData::Dealloc ()
{
assert (RefCount <= 0);
#ifdef _WIN32
HeapFree (StringHeap, 0, this);
#else
free (this);
#endif
}
FStringData *FStringData::MakeCopy ()
{
FStringData *copy = Alloc (Len);
copy->Len = Len;
FString::StrCopy (copy->Chars(), Chars(), Len);
return copy;
}