/************************************************************************************ Filename : OVR_String.cpp Content : String UTF8 string implementation with copy-on-write semantics (thread-safe for assignment but not modification). Created : September 19, 2012 Notes : Copyright : Copyright 2014 Oculus VR, Inc. All Rights reserved. Licensed under the Oculus VR Rift SDK License Version 3.1 (the "License"); you may not use the Oculus VR Rift SDK except in compliance with the License, which is provided at the time of installation or download, or which otherwise accompanies this software in either electronic or hard copy form. You may obtain a copy of the License at http://www.oculusvr.com/licenses/LICENSE-3.1 Unless required by applicable law or agreed to in writing, the Oculus VR SDK distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. ************************************************************************************/ #include "OVR_String.h" #include #include #ifdef OVR_OS_QNX # include #endif namespace OVR { #define String_LengthIsSize (UPInt(1) << String::Flag_LengthIsSizeShift) String::DataDesc String::NullData = {String_LengthIsSize, 1, {0} }; String::String() { pData = &NullData; pData->AddRef(); }; String::String(const char* pdata) { // Obtain length in bytes; it doesn't matter if _data is UTF8. UPInt size = pdata ? OVR_strlen(pdata) : 0; pData = AllocDataCopy1(size, 0, pdata, size); }; String::String(const char* pdata1, const char* pdata2, const char* pdata3) { // Obtain length in bytes; it doesn't matter if _data is UTF8. UPInt size1 = pdata1 ? OVR_strlen(pdata1) : 0; UPInt size2 = pdata2 ? OVR_strlen(pdata2) : 0; UPInt size3 = pdata3 ? OVR_strlen(pdata3) : 0; DataDesc *pdataDesc = AllocDataCopy2(size1 + size2 + size3, 0, pdata1, size1, pdata2, size2); memcpy(pdataDesc->Data + size1 + size2, pdata3, size3); pData = pdataDesc; } String::String(const char* pdata, UPInt size) { OVR_ASSERT((size == 0) || (pdata != 0)); pData = AllocDataCopy1(size, 0, pdata, size); }; String::String(const InitStruct& src, UPInt size) { pData = AllocData(size, 0); src.InitString(GetData()->Data, size); } String::String(const String& src) { pData = src.GetData(); pData->AddRef(); } String::String(const StringBuffer& src) { pData = AllocDataCopy1(src.GetSize(), 0, src.ToCStr(), src.GetSize()); } String::String(const wchar_t* data) { pData = &NullData; pData->AddRef(); // Simplified logic for wchar_t constructor. if (data) *this = data; } String::DataDesc* String::AllocData(UPInt size, UPInt lengthIsSize) { String::DataDesc* pdesc; if (size == 0) { pdesc = &NullData; pdesc->AddRef(); return pdesc; } pdesc = (DataDesc*)OVR_ALLOC(sizeof(DataDesc)+ size); pdesc->Data[size] = 0; pdesc->RefCount = 1; pdesc->Size = size | lengthIsSize; return pdesc; } String::DataDesc* String::AllocDataCopy1(UPInt size, UPInt lengthIsSize, const char* pdata, UPInt copySize) { String::DataDesc* pdesc = AllocData(size, lengthIsSize); memcpy(pdesc->Data, pdata, copySize); return pdesc; } String::DataDesc* String::AllocDataCopy2(UPInt size, UPInt lengthIsSize, const char* pdata1, UPInt copySize1, const char* pdata2, UPInt copySize2) { String::DataDesc* pdesc = AllocData(size, lengthIsSize); memcpy(pdesc->Data, pdata1, copySize1); memcpy(pdesc->Data + copySize1, pdata2, copySize2); return pdesc; } UPInt String::GetLength() const { // Optimize length accesses for non-UTF8 character strings. DataDesc* pdata = GetData(); UPInt length, size = pdata->GetSize(); if (pdata->LengthIsSize()) return size; length = (UPInt)UTF8Util::GetLength(pdata->Data, (UPInt)size); if (length == size) pdata->Size |= String_LengthIsSize; return length; } //static UInt32 String_CharSearch(const char* buf, ) UInt32 String::GetCharAt(UPInt index) const { SPInt i = (SPInt) index; DataDesc* pdata = GetData(); const char* buf = pdata->Data; UInt32 c; if (pdata->LengthIsSize()) { OVR_ASSERT(index < pdata->GetSize()); buf += i; return UTF8Util::DecodeNextChar_Advance0(&buf); } c = UTF8Util::GetCharAt(index, buf, pdata->GetSize()); return c; } UInt32 String::GetFirstCharAt(UPInt index, const char** offset) const { DataDesc* pdata = GetData(); SPInt i = (SPInt) index; const char* buf = pdata->Data; const char* end = buf + pdata->GetSize(); UInt32 c; do { c = UTF8Util::DecodeNextChar_Advance0(&buf); i--; if (buf >= end) { // We've hit the end of the string; don't go further. OVR_ASSERT(i == 0); return c; } } while (i >= 0); *offset = buf; return c; } UInt32 String::GetNextChar(const char** offset) const { return UTF8Util::DecodeNextChar(offset); } void String::AppendChar(UInt32 ch) { DataDesc* pdata = GetData(); UPInt size = pdata->GetSize(); char buff[8]; SPInt encodeSize = 0; // Converts ch into UTF8 string and fills it into buff. UTF8Util::EncodeChar(buff, &encodeSize, ch); OVR_ASSERT(encodeSize >= 0); SetData(AllocDataCopy2(size + (UPInt)encodeSize, 0, pdata->Data, size, buff, (UPInt)encodeSize)); pdata->Release(); } void String::AppendString(const wchar_t* pstr, SPInt len) { if (!pstr) return; DataDesc* pdata = GetData(); UPInt oldSize = pdata->GetSize(); UPInt encodeSize = (UPInt)UTF8Util::GetEncodeStringSize(pstr, len); DataDesc* pnewData = AllocDataCopy1(oldSize + (UPInt)encodeSize, 0, pdata->Data, oldSize); UTF8Util::EncodeString(pnewData->Data + oldSize, pstr, len); SetData(pnewData); pdata->Release(); } void String::AppendString(const char* putf8str, SPInt utf8StrSz) { if (!putf8str || !utf8StrSz) return; if (utf8StrSz == -1) utf8StrSz = (SPInt)OVR_strlen(putf8str); DataDesc* pdata = GetData(); UPInt oldSize = pdata->GetSize(); SetData(AllocDataCopy2(oldSize + (UPInt)utf8StrSz, 0, pdata->Data, oldSize, putf8str, (UPInt)utf8StrSz)); pdata->Release(); } void String::AssignString(const InitStruct& src, UPInt size) { DataDesc* poldData = GetData(); DataDesc* pnewData = AllocData(size, 0); src.InitString(pnewData->Data, size); SetData(pnewData); poldData->Release(); } void String::AssignString(const char* putf8str, UPInt size) { DataDesc* poldData = GetData(); SetData(AllocDataCopy1(size, 0, putf8str, size)); poldData->Release(); } void String::operator = (const char* pstr) { AssignString(pstr, pstr ? OVR_strlen(pstr) : 0); } void String::operator = (const wchar_t* pwstr) { DataDesc* poldData = GetData(); UPInt size = pwstr ? (UPInt)UTF8Util::GetEncodeStringSize(pwstr) : 0; DataDesc* pnewData = AllocData(size, 0); UTF8Util::EncodeString(pnewData->Data, pwstr); SetData(pnewData); poldData->Release(); } void String::operator = (const String& src) { DataDesc* psdata = src.GetData(); DataDesc* pdata = GetData(); SetData(psdata); psdata->AddRef(); pdata->Release(); } void String::operator = (const StringBuffer& src) { DataDesc* polddata = GetData(); SetData(AllocDataCopy1(src.GetSize(), 0, src.ToCStr(), src.GetSize())); polddata->Release(); } void String::operator += (const String& src) { DataDesc *pourData = GetData(), *psrcData = src.GetData(); UPInt ourSize = pourData->GetSize(), srcSize = psrcData->GetSize(); UPInt lflag = pourData->GetLengthFlag() & psrcData->GetLengthFlag(); SetData(AllocDataCopy2(ourSize + srcSize, lflag, pourData->Data, ourSize, psrcData->Data, srcSize)); pourData->Release(); } String String::operator + (const char* str) const { String tmp1(*this); tmp1 += (str ? str : ""); return tmp1; } String String::operator + (const String& src) const { String tmp1(*this); tmp1 += src; return tmp1; } void String::Remove(UPInt posAt, SPInt removeLength) { DataDesc* pdata = GetData(); UPInt oldSize = pdata->GetSize(); // Length indicates the number of characters to remove. UPInt length = GetLength(); // If index is past the string, nothing to remove. if (posAt >= length) return; // Otherwise, cap removeLength to the length of the string. if ((posAt + removeLength) > length) removeLength = length - posAt; // Get the byte position of the UTF8 char at position posAt. SPInt bytePos = UTF8Util::GetByteIndex(posAt, pdata->Data, oldSize); SPInt removeSize = UTF8Util::GetByteIndex(removeLength, pdata->Data + bytePos, oldSize-bytePos); SetData(AllocDataCopy2(oldSize - removeSize, pdata->GetLengthFlag(), pdata->Data, bytePos, pData->Data + bytePos + removeSize, (oldSize - bytePos - removeSize))); pdata->Release(); } String String::Substring(UPInt start, UPInt end) const { UPInt length = GetLength(); if ((start >= length) || (start >= end)) return String(); DataDesc* pdata = GetData(); // If size matches, we know the exact index range. if (pdata->LengthIsSize()) return String(pdata->Data + start, end - start); // Get position of starting character. SPInt byteStart = UTF8Util::GetByteIndex(start, pdata->Data, pdata->GetSize()); SPInt byteSize = UTF8Util::GetByteIndex(end - start, pdata->Data + byteStart, pdata->GetSize()-byteStart); return String(pdata->Data + byteStart, (UPInt)byteSize); } void String::Clear() { NullData.AddRef(); GetData()->Release(); SetData(&NullData); } String String::ToUpper() const { UInt32 c; const char* psource = GetData()->Data; const char* pend = psource + GetData()->GetSize(); String str; SPInt bufferOffset = 0; char buffer[512]; while(psource < pend) { do { c = UTF8Util::DecodeNextChar_Advance0(&psource); UTF8Util::EncodeChar(buffer, &bufferOffset, OVR_towupper(wchar_t(c))); } while ((psource < pend) && (bufferOffset < SPInt(sizeof(buffer)-8))); // Append string a piece at a time. str.AppendString(buffer, bufferOffset); bufferOffset = 0; } return str; } String String::ToLower() const { UInt32 c; const char* psource = GetData()->Data; const char* pend = psource + GetData()->GetSize(); String str; SPInt bufferOffset = 0; char buffer[512]; while(psource < pend) { do { c = UTF8Util::DecodeNextChar_Advance0(&psource); UTF8Util::EncodeChar(buffer, &bufferOffset, OVR_towlower(wchar_t(c))); } while ((psource < pend) && (bufferOffset < SPInt(sizeof(buffer)-8))); // Append string a piece at a time. str.AppendString(buffer, bufferOffset); bufferOffset = 0; } return str; } String& String::Insert(const char* substr, UPInt posAt, SPInt strSize) { DataDesc* poldData = GetData(); UPInt oldSize = poldData->GetSize(); UPInt insertSize = (strSize < 0) ? OVR_strlen(substr) : (UPInt)strSize; UPInt byteIndex = (poldData->LengthIsSize()) ? posAt : (UPInt)UTF8Util::GetByteIndex(posAt, poldData->Data, oldSize); OVR_ASSERT(byteIndex <= oldSize); DataDesc* pnewData = AllocDataCopy2(oldSize + insertSize, 0, poldData->Data, byteIndex, substr, insertSize); memcpy(pnewData->Data + byteIndex + insertSize, poldData->Data + byteIndex, oldSize - byteIndex); SetData(pnewData); poldData->Release(); return *this; } /* String& String::Insert(const UInt32* substr, UPInt posAt, SPInt len) { for (SPInt i = 0; i < len; ++i) { UPInt charw = InsertCharAt(substr[i], posAt); posAt += charw; } return *this; } */ UPInt String::InsertCharAt(UInt32 c, UPInt posAt) { char buf[8]; SPInt index = 0; UTF8Util::EncodeChar(buf, &index, c); OVR_ASSERT(index >= 0); buf[(UPInt)index] = 0; Insert(buf, posAt, index); return (UPInt)index; } int String::CompareNoCase(const char* a, const char* b) { return OVR_stricmp(a, b); } int String::CompareNoCase(const char* a, const char* b, SPInt len) { if (len) { SPInt f,l; SPInt slen = len; const char *s = b; do { f = (SPInt)OVR_tolower((int)(*(a++))); l = (SPInt)OVR_tolower((int)(*(b++))); } while (--len && f && (f == l) && *b != 0); if (f == l && (len != 0 || *b != 0)) { f = (SPInt)slen; l = (SPInt)OVR_strlen(s); return int(f - l); } return int(f - l); } else return (0-(int)OVR_strlen(b)); } // ***** Implement hash static functions // Hash function UPInt String::BernsteinHashFunction(const void* pdataIn, UPInt size, UPInt seed) { const UByte* pdata = (const UByte*) pdataIn; UPInt h = seed; while (size > 0) { size--; h = ((h << 5) + h) ^ (unsigned) pdata[size]; } return h; } // Hash function, case-insensitive UPInt String::BernsteinHashFunctionCIS(const void* pdataIn, UPInt size, UPInt seed) { const UByte* pdata = (const UByte*) pdataIn; UPInt h = seed; while (size > 0) { size--; h = ((h << 5) + h) ^ OVR_tolower(pdata[size]); } // Alternative: "sdbm" hash function, suggested at same web page above. // h = 0; // for bytes { h = (h << 16) + (h << 6) - hash + *p; } return h; } // ***** String Buffer used for Building Strings #define OVR_SBUFF_DEFAULT_GROW_SIZE 512 // Constructors / Destructor. StringBuffer::StringBuffer() : pData(NULL), Size(0), BufferSize(0), GrowSize(OVR_SBUFF_DEFAULT_GROW_SIZE), LengthIsSize(false) { } StringBuffer::StringBuffer(UPInt growSize) : pData(NULL), Size(0), BufferSize(0), GrowSize(OVR_SBUFF_DEFAULT_GROW_SIZE), LengthIsSize(false) { SetGrowSize(growSize); } StringBuffer::StringBuffer(const char* data) : pData(NULL), Size(0), BufferSize(0), GrowSize(OVR_SBUFF_DEFAULT_GROW_SIZE), LengthIsSize(false) { AppendString(data); } StringBuffer::StringBuffer(const char* data, UPInt dataSize) : pData(NULL), Size(0), BufferSize(0), GrowSize(OVR_SBUFF_DEFAULT_GROW_SIZE), LengthIsSize(false) { AppendString(data, dataSize); } StringBuffer::StringBuffer(const String& src) : pData(NULL), Size(0), BufferSize(0), GrowSize(OVR_SBUFF_DEFAULT_GROW_SIZE), LengthIsSize(false) { AppendString(src.ToCStr(), src.GetSize()); } StringBuffer::StringBuffer(const StringBuffer& src) : pData(NULL), Size(0), BufferSize(0), GrowSize(OVR_SBUFF_DEFAULT_GROW_SIZE), LengthIsSize(false) { AppendString(src.ToCStr(), src.GetSize()); } StringBuffer::StringBuffer(const wchar_t* data) : pData(NULL), Size(0), BufferSize(0), GrowSize(OVR_SBUFF_DEFAULT_GROW_SIZE), LengthIsSize(false) { *this = data; } StringBuffer::~StringBuffer() { if (pData) OVR_FREE(pData); } void StringBuffer::SetGrowSize(UPInt growSize) { if (growSize <= 16) GrowSize = 16; else { UByte bits = Alg::UpperBit(UInt32(growSize-1)); UPInt size = 1<= BufferSize) // >= because of trailing zero! (!AB) { BufferSize = (_size + 1 + GrowSize - 1)& ~(GrowSize-1); if (!pData) pData = (char*)OVR_ALLOC(BufferSize); else pData = (char*)OVR_REALLOC(pData, BufferSize); } } void StringBuffer::Resize(UPInt _size) { Reserve(_size); LengthIsSize = false; Size = _size; if (pData) pData[Size] = 0; } void StringBuffer::Clear() { Resize(0); /* if (pData != pEmptyNullData) { OVR_FREE(pHeap, pData); pData = pEmptyNullData; Size = BufferSize = 0; LengthIsSize = false; } */ } // Appends a character void StringBuffer::AppendChar(UInt32 ch) { char buff[8]; UPInt origSize = GetSize(); // Converts ch into UTF8 string and fills it into buff. Also increments index according to the number of bytes // in the UTF8 string. SPInt srcSize = 0; UTF8Util::EncodeChar(buff, &srcSize, ch); OVR_ASSERT(srcSize >= 0); UPInt size = origSize + srcSize; Resize(size); memcpy(pData + origSize, buff, srcSize); } // Append a string void StringBuffer::AppendString(const wchar_t* pstr, SPInt len) { if (!pstr) return; SPInt srcSize = UTF8Util::GetEncodeStringSize(pstr, len); UPInt origSize = GetSize(); UPInt size = srcSize + origSize; Resize(size); UTF8Util::EncodeString(pData + origSize, pstr, len); } void StringBuffer::AppendString(const char* putf8str, SPInt utf8StrSz) { if (!putf8str || !utf8StrSz) return; if (utf8StrSz == -1) utf8StrSz = (SPInt)OVR_strlen(putf8str); UPInt origSize = GetSize(); UPInt size = utf8StrSz + origSize; Resize(size); memcpy(pData + origSize, putf8str, utf8StrSz); } void StringBuffer::operator = (const char* pstr) { pstr = pstr ? pstr : ""; UPInt size = OVR_strlen(pstr); Resize(size); memcpy(pData, pstr, size); } void StringBuffer::operator = (const wchar_t* pstr) { pstr = pstr ? pstr : L""; UPInt size = (UPInt)UTF8Util::GetEncodeStringSize(pstr); Resize(size); UTF8Util::EncodeString(pData, pstr); } void StringBuffer::operator = (const String& src) { Resize(src.GetSize()); memcpy(pData, src.ToCStr(), src.GetSize()); } void StringBuffer::operator = (const StringBuffer& src) { Clear(); AppendString(src.ToCStr(), src.GetSize()); } // Inserts substr at posAt void StringBuffer::Insert(const char* substr, UPInt posAt, SPInt len) { UPInt oldSize = Size; UPInt insertSize = (len < 0) ? OVR_strlen(substr) : (UPInt)len; UPInt byteIndex = LengthIsSize ? posAt : (UPInt)UTF8Util::GetByteIndex(posAt, pData, (SPInt)Size); OVR_ASSERT(byteIndex <= oldSize); Reserve(oldSize + insertSize); memmove(pData + byteIndex + insertSize, pData + byteIndex, oldSize - byteIndex + 1); memcpy (pData + byteIndex, substr, insertSize); LengthIsSize = false; Size = oldSize + insertSize; pData[Size] = 0; } // Inserts character at posAt UPInt StringBuffer::InsertCharAt(UInt32 c, UPInt posAt) { char buf[8]; SPInt len = 0; UTF8Util::EncodeChar(buf, &len, c); OVR_ASSERT(len >= 0); buf[(UPInt)len] = 0; Insert(buf, posAt, len); return (UPInt)len; } } // OVR