raze-gles/source/common/utility/zstring.cpp
Christoph Oelckers bad2c2e55f - backend update from GZDoom
* replacement of 'long' in string code.
* palette removal in V_GetColor.
* fixes to DShape2D buffer management.
2021-08-14 10:04:45 +02:00

1416 lines
29 KiB
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/*
** zstring.cpp
** A dynamically-allocated string class.
**
**---------------------------------------------------------------------------
** 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>
#include <new> // for bad_alloc
#include "zstring.h"
#include "utf8.h"
extern uint16_t lowerforupper[65536];
extern uint16_t upperforlower[65536];
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"
};
void FString::AttachToOther (const FString &other)
{
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)
{
if (copyStr == NULL || *copyStr == '\0')
{
ResetToNull();
}
else
{
size_t len = strlen (copyStr);
AllocBuffer (len);
StrCopy (Chars, copyStr, len);
}
}
FString::FString (const char *copyStr, size_t len)
{
AllocBuffer (len);
StrCopy (Chars, copyStr, len);
}
FString::FString (char oneChar)
{
if (oneChar == '\0')
{
ResetToNull();
}
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();
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);
AllocBuffer (len1 + len2);
StrCopy (Chars, head);
StrCopy (Chars + len1, tail, len2);
}
FString::FString (const FString &head, char tail)
{
size_t len1 = head.Len();
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();
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);
AllocBuffer (len1 + len2);
StrCopy (Chars, head, len1);
StrCopy (Chars + len1, tail, len2);
}
FString::FString (char head, const FString &tail)
{
size_t len2 = tail.Len();
AllocBuffer (1 + len2);
Chars[0] = head;
StrCopy (Chars + 1, tail);
}
FString::~FString ()
{
Data()->Release();
}
char *FString::LockNewBuffer(size_t len)
{
Data()->Release();
AllocBuffer(len);
assert(Data()->RefCount == 1);
Data()->RefCount = -1;
return Chars;
}
char *FString::LockBuffer()
{
if (Data()->RefCount == 1)
{ // We're the only user, so we can lock it straight away
Data()->RefCount = -1;
}
else if (Data()->RefCount < -1)
{ // Already locked; just add to the lock count
Data()->RefCount--;
}
else
{ // 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();
Data()->RefCount = -1;
}
return Chars;
}
void FString::UnlockBuffer()
{
assert (Data()->RefCount < 0);
if (++Data()->RefCount == 0)
{
Data()->RefCount = 1;
}
}
FString &FString::operator = (const FString &other)
{
assert (Chars != NULL);
if (&other != this)
{
int oldrefcount = Data()->RefCount < 0;
Data()->Release();
AttachToOther(other);
if (oldrefcount < 0)
{
LockBuffer();
Data()->RefCount = oldrefcount;
}
}
return *this;
}
FString &FString::operator = (FString &&other)
{
assert (Chars != NULL);
if (&other != this)
{
Data()->Release();
Chars = other.Chars;
other.ResetToNull();
}
return *this;
}
FString &FString::operator = (const char *copyStr)
{
if (copyStr != Chars)
{
if (copyStr == NULL || *copyStr == '\0')
{
Data()->Release();
ResetToNull();
}
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)
{
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();
if (len1 + len > str->Data()->AllocLen || str->Chars == &NullString.Nothing[0])
{
str->ReallocBuffer((len1 + len + 127) & ~127);
}
StrCopy (str->Chars + len1, cstr, len);
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();
ReallocBuffer (len1 + len2);
StrCopy (Chars + len1, tail);
return *this;
}
FString &FString::operator += (const char *tail)
{
size_t len1 = Len();
size_t len2 = strlen(tail);
ReallocBuffer (len1 + len2);
StrCopy (Chars + len1, tail, len2);
return *this;
}
FString &FString::operator += (char tail)
{
size_t len1 = Len();
ReallocBuffer (len1 + 1);
Chars[len1] = tail;
Chars[len1+1] = '\0';
return *this;
}
FString &FString::AppendCStrPart (const char *tail, size_t tailLen)
{
if (tailLen > 0)
{
size_t len1 = Len();
ReallocBuffer(len1 + tailLen);
StrCopy(Chars + len1, tail, tailLen);
}
return *this;
}
FString &FString::CopyCStrPart(const char *tail, size_t tailLen)
{
if (tailLen > 0)
{
ReallocBuffer(tailLen);
StrCopy(Chars, tail, tailLen);
}
else
{
Data()->Release();
ResetToNull();
}
return *this;
}
size_t FString::CharacterCount() const
{
// Counts string length in Unicode code points.
size_t len = 0;
const uint8_t *cp = (const uint8_t*)Chars;
while (GetCharFromString(cp)) len++;
return len;
}
int FString::GetNextCharacter(int &position) const
{
const uint8_t *cp = (const uint8_t*)Chars + position;
const uint8_t *cpread = cp;
int chr = GetCharFromString(cpread);
position += int(cpread - cp);
return chr;
}
void FString::Truncate(size_t newlen)
{
if (newlen == 0)
{
Data()->Release();
ResetToNull();
}
else if (newlen < Len())
{
ReallocBuffer (newlen);
Chars[newlen] = '\0';
}
}
void FString::Remove(size_t index, size_t remlen)
{
if (index < Len())
{
if (index + remlen >= Len())
{
Truncate(index);
}
else
{
if (Data()->RefCount == 1)
{ // Can do this in place
memmove(Chars + index, Chars + index + remlen, Len() - index - remlen);
memset(Chars + Len() - remlen, 0, remlen);
Data()->Len -= (unsigned)remlen;
}
else
{ // Must do it in a copy
FStringData *old = Data();
AllocBuffer(old->Len - remlen);
StrCopy(Chars, old->Chars(), index);
StrCopy(Chars + index, old->Chars() + index + remlen, old->Len - index - remlen);
old->Release();
}
}
}
}
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)
{
return FString();
}
if (pos + numChars > len || pos + numChars < pos)
{
numChars = len - pos;
}
return FString (Chars + pos, numChars);
}
void FString::AppendCharacter(int codepoint)
{
(*this) << MakeUTF8(codepoint);
}
void FString::DeleteLastCharacter()
{
if (Len() == 0) return;
auto pos = Len() - 1;
while (pos > 0 && uint8_t(Chars[pos]) >= 0x80 && uint8_t(Chars[pos]) < 0xc0) pos--;
if (pos <= 0)
{
Data()->Release();
ResetToNull();
}
else
{
Truncate(pos);
}
}
ptrdiff_t FString::IndexOf (const FString &substr, ptrdiff_t startIndex) const
{
return IndexOf (substr.Chars, startIndex);
}
ptrdiff_t FString::IndexOf (const char *substr, ptrdiff_t startIndex) const
{
if (startIndex > 0 && Len() <= (size_t)startIndex)
{
return -1;
}
char *str = strstr (Chars + startIndex, substr);
if (str == NULL)
{
return -1;
}
return str - Chars;
}
ptrdiff_t FString::IndexOf (char subchar, ptrdiff_t startIndex) const
{
if (startIndex > 0 && Len() <= (size_t)startIndex)
{
return -1;
}
char *str = strchr (Chars + startIndex, subchar);
if (str == NULL)
{
return -1;
}
return str - Chars;
}
ptrdiff_t FString::IndexOfAny (const FString &charset, ptrdiff_t startIndex) const
{
return IndexOfAny (charset.Chars, startIndex);
}
ptrdiff_t FString::IndexOfAny (const char *charset, ptrdiff_t startIndex) const
{
if (startIndex > 0 && Len() <= (size_t)startIndex)
{
return -1;
}
char *brk = strpbrk (Chars + startIndex, charset);
if (brk == NULL)
{
return -1;
}
return brk - Chars;
}
ptrdiff_t FString::LastIndexOf (char subchar) const
{
return LastIndexOf (subchar, Len());
}
ptrdiff_t FString::LastIndexOf (char subchar, ptrdiff_t endIndex) const
{
if ((size_t)endIndex > Len())
{
endIndex = Len();
}
while (--endIndex >= 0)
{
if (Chars[endIndex] == subchar)
{
return endIndex;
}
}
return -1;
}
ptrdiff_t FString::LastIndexOfBroken (const FString &_substr, ptrdiff_t endIndex) const
{
const char *substr = _substr.GetChars();
size_t substrlen = _substr.Len();
if ((size_t)endIndex > Len())
{
endIndex = Len();
}
substrlen--;
while (--endIndex >= ptrdiff_t(substrlen))
{
if (strncmp (substr, Chars + endIndex - substrlen, substrlen + 1) == 0)
{
return endIndex;
}
}
return -1;
}
ptrdiff_t FString::LastIndexOfAny (const FString &charset) const
{
return LastIndexOfAny (charset.Chars, Len());
}
ptrdiff_t FString::LastIndexOfAny (const char *charset) const
{
return LastIndexOfAny (charset, long(Len()));
}
ptrdiff_t FString::LastIndexOfAny (const FString &charset, ptrdiff_t endIndex) const
{
return LastIndexOfAny (charset.Chars, endIndex);
}
ptrdiff_t FString::LastIndexOfAny (const char *charset, ptrdiff_t endIndex) const
{
if ((size_t)endIndex > Len())
{
endIndex = Len();
}
while (--endIndex >= 0)
{
if (strchr (charset, Chars[endIndex]) != NULL)
{
return endIndex;
}
}
return -1;
}
ptrdiff_t FString::LastIndexOf (const FString &substr) const
{
return LastIndexOf(substr.Chars, Len() - substr.Len(), substr.Len());
}
ptrdiff_t FString::LastIndexOf (const FString &substr, ptrdiff_t endIndex) const
{
return LastIndexOf(substr.Chars, endIndex, substr.Len());
}
ptrdiff_t FString::LastIndexOf (const char *substr) const
{
return LastIndexOf(substr, Len() - strlen(substr), strlen(substr));
}
ptrdiff_t FString::LastIndexOf (const char *substr, ptrdiff_t endIndex) const
{
return LastIndexOf(substr, endIndex, strlen(substr));
}
ptrdiff_t FString::LastIndexOf (const char *substr, ptrdiff_t endIndex, size_t substrlen) const
{
if ((size_t)endIndex + substrlen > Len())
{
endIndex = Len() - substrlen;
}
while (endIndex >= 0)
{
if (strncmp (substr, Chars + endIndex, substrlen) == 0)
{
return endIndex;
}
endIndex--;
}
return -1;
}
void FString::ToUpper ()
{
LockBuffer();
size_t max = Len();
for (size_t i = 0; i < max; ++i)
{
Chars[i] = (char)toupper(Chars[i]);
}
UnlockBuffer();
}
void FString::ToLower ()
{
LockBuffer();
size_t max = Len();
for (size_t i = 0; i < max; ++i)
{
Chars[i] = (char)tolower(Chars[i]);
}
UnlockBuffer();
}
FString FString::MakeLower() const
{
TArray<uint8_t> builder(Len());
int pos = 0;
while (int c = GetNextCharacter(pos))
{
if (c < 65536) c = lowerforupper[c];
auto cp = MakeUTF8(c);
while (auto uc = *cp++) builder.Push(uc);
}
return FString(builder);
}
FString FString::MakeUpper() const
{
TArray<uint8_t> builder(Len());
int pos = 0;
while (int c = GetNextCharacter(pos))
{
if (c < 65536) c = upperforlower[c];
auto cp = MakeUTF8(c);
while (auto uc = *cp++) builder.Push(uc);
}
return FString(builder);
}
void FString::StripLeft ()
{
size_t max = Len(), i, j;
if (max == 0) return;
for (i = 0; i < max; ++i)
{
if (!isspace((unsigned char)Chars[i]))
break;
}
if (i == 0)
{ // Nothing to strip.
return;
}
if (Data()->RefCount <= 1)
{
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;
if (max == 0) return;
for (i = 0; i < max; ++i)
{
if (!strchr (charset, Chars[i]))
break;
}
if (i == 0)
{ // Nothing to strip.
return;
}
if (Data()->RefCount <= 1)
{
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::StripRight ()
{
size_t max = Len(), i;
if (max == 0) return;
for (i = --max; i > 0; i--)
{
if (!isspace((unsigned char)Chars[i]))
break;
}
if (i == max)
{ // Nothing to strip.
return;
}
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;
if (max == 0) return;
for (i = --max; i > 0; i--)
{
if (!strchr (charset, Chars[i]))
break;
}
if (i == max)
{ // Nothing to strip.
return;
}
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;
if (max == 0) return;
for (i = 0; i < max; ++i)
{
if (Chars[i] < 0 || !isspace((unsigned char)Chars[i]))
break;
}
for (j = max - 1; j >= i; --j)
{
if (Chars[i] < 0 || !isspace((unsigned char)Chars[j]))
break;
}
if (i == 0 && j == max - 1)
{ // Nothing to strip.
return;
}
if (Data()->RefCount <= 1)
{
for (k = 0; i <= j; ++i, ++k)
{
Chars[k] = Chars[i];
}
Chars[k] = '\0';
ReallocBuffer (k);
}
else
{
FStringData *old = Data();
AllocBuffer(j - i + 1);
StrCopy(Chars, old->Chars(), j - i + 1);
old->Release();
}
}
void FString::StripLeftRight (const FString &charset)
{
return StripLeftRight (charset.Chars);
}
void FString::StripLeftRight (const char *charset)
{
size_t max = Len(), i, j, k;
if (max == 0) return;
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;
}
if (Data()->RefCount <= 1)
{
for (k = 0; i <= j; ++i, ++k)
{
Chars[k] = Chars[i];
}
Chars[k] = '\0';
ReallocBuffer (k);
}
else
{
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)
{
if (instrlen > 0)
{
size_t mylen = Len();
if (index >= mylen)
{
AppendCStrPart(instr, instrlen);
}
else if (Data()->RefCount <= 1)
{
ReallocBuffer(mylen + instrlen);
memmove(Chars + index + instrlen, Chars + index, (mylen - index + 1) * sizeof(char));
memcpy(Chars + index, instr, instrlen * sizeof(char));
}
else
{
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);
old->Release();
}
}
}
void FString::ReplaceChars (char oldchar, char newchar)
{
if (oldchar == '\0')
return;
ReplaceChars([&oldchar](char c){ return c == oldchar; }, newchar);
}
void FString::ReplaceChars (const char *oldcharset, char newchar)
{
if (oldcharset == NULL || oldcharset[0] == '\0')
return;
ReplaceChars([&oldcharset](char c){ return strchr(oldcharset, c) != NULL; }, newchar);
}
void FString::StripChars (char killchar)
{
if (killchar == '\0')
return;
StripChars([&killchar](char c){ return c == killchar; });
}
void FString::StripChars (const char *killcharset)
{
if (killcharset == NULL || killcharset[0] == '\0')
return;
StripChars([&killcharset](char c){ return strchr(killcharset, c) != NULL; });
}
void FString::MergeChars (char merger)
{
MergeChars (merger, merger);
}
void FString::MergeChars (char merger, char newchar)
{
size_t read, write, mylen;
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';
ReallocBuffer (write);
UnlockBuffer();
}
void FString::MergeChars (const char *charset, char newchar)
{
size_t read, write, mylen;
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';
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)
{
if (oldstr == nullptr || newstr == nullptr || *oldstr == 0) return;
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)
{
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;
}
}
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((unsigned char)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((unsigned char)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((unsigned char)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((unsigned char)yych)) { yych = *++YYCURSOR; }
return yych == '\0';
}
int64_t FString::ToLong (int base) const
{
return strtoll (Chars, NULL, base);
}
uint64_t FString::ToULong (int base) const
{
return strtoull (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());
}
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(), newlen < old->Len ? newlen : old->Len);
old->Release();
}
else
{
if (newlen > Data()->AllocLen)
{
Chars = (char *)(Data()->Realloc(newlen) + 1);
}
Data()->Len = (unsigned int)newlen;
}
}
TArray<FString> FString::Split(const FString &delimiter, const EmptyTokenType keepEmpty) const
{
return Split(delimiter.GetChars(), keepEmpty);
}
TArray<FString> FString::Split(const char *const delimiter, const EmptyTokenType keepEmpty) const
{
TArray<FString> tokens;
Split(tokens, delimiter, keepEmpty);
return tokens;
}
void FString::Split(TArray<FString>& tokens, const FString &delimiter, EmptyTokenType keepEmpty) const
{
Split(tokens, delimiter.GetChars(), keepEmpty);
}
void FString::Split(TArray<FString>& tokens, const char *delimiter, EmptyTokenType keepEmpty) const
{
assert(nullptr != delimiter);
const auto selfLen = static_cast<ptrdiff_t>(Len());
const auto delimLen = static_cast<ptrdiff_t>(strlen(delimiter));
ptrdiff_t lastPos = 0;
if (selfLen == 0) return; // Empty strings do not contain tokens, even with TOK_KEEPEMPTY.
while (lastPos <= selfLen)
{
auto pos = IndexOf(delimiter, lastPos);
if (-1 == pos)
{
pos = selfLen;
}
if (pos != lastPos || TOK_KEEPEMPTY == keepEmpty)
{
tokens.Push(FString(GetChars() + lastPos, pos - lastPos));
}
lastPos = pos + delimLen;
}
}
// 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>
// Convert from and to Windows wide strings so that we can interface with the Unicode version of the Windows API.
FString::FString(const wchar_t *copyStr)
{
if (copyStr == NULL || *copyStr == '\0')
{
ResetToNull();
}
else
{
auto len = wcslen(copyStr);
int size_needed = WideCharToMultiByte(CP_UTF8, 0, copyStr, (int)len, nullptr, 0, nullptr, nullptr);
AllocBuffer(size_needed);
WideCharToMultiByte(CP_UTF8, 0, copyStr, (int)len, Chars, size_needed, nullptr, nullptr);
Chars[size_needed] = 0;
}
}
FString &FString::operator=(const wchar_t *copyStr)
{
if (copyStr == NULL || *copyStr == '\0')
{
Data()->Release();
ResetToNull();
}
else
{
auto len = wcslen(copyStr);
int size_needed = WideCharToMultiByte(CP_UTF8, 0, copyStr, (int)len, nullptr, 0, nullptr, nullptr);
ReallocBuffer(size_needed);
WideCharToMultiByte(CP_UTF8, 0, copyStr, (int)len, Chars, size_needed, nullptr, nullptr);
Chars[size_needed] = 0;
}
return *this;
}
std::wstring WideString(const char *cin)
{
if (!cin) return L"";
const uint8_t *in = (const uint8_t*)cin;
// This is a bit tricky because we need to support both UTF-8 and legacy content in ISO-8859-1
// and thanks to user-side string manipulation it can be that a text mixes both.
// To convert the string this uses the same function as all text printing in the engine.
TArray<wchar_t> buildbuffer;
while (*in) buildbuffer.Push((wchar_t)GetCharFromString(in));
buildbuffer.Push(0);
return std::wstring(buildbuffer.Data());
}
static HANDLE StringHeap;
const SIZE_T STRING_HEAP_SIZE = 64*1024;
#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);
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;
}
FStringf::FStringf(const char *fmt, ...)
{
va_list ap;
va_start(ap, fmt);
VFormat(fmt, ap);
va_end(ap);
}