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livetrax/libs/backends/wavesaudio/wavesapi/miscutils/WCFixedString.h
Paul Davis 8a6762f189 Revert "update wavesaudio backend, now supports Windows (ASIO) as well as OS X (CoreAudio)"
This reverts commit f374ce69a6.

The code does not compile on OS X, and includes changes to ARDOUR::AudioEngine
that have not landed in git.
2014-04-29 16:30:56 -04:00

904 lines
22 KiB
C++

/*
Copyright (C) 2013 Waves Audio Ltd.
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 2 of the License, or
(at your option) any later version.
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., 675 Mass Ave, Cambridge, MA 02139, USA.
*/
#ifndef __WCFixedString_h__
#define __WCFixedString_h__
/* Copy to include.
#include "WCFixedString.h"
*/
// do not #include anything else here but standard C++ library files, this file should be free from any and all depandencies
// do not put any DEBUG_s or TRACE_s in this file, since it is used in BgkConsole functions
#include <algorithm>
#include <cctype>
#include <cstring>
#include <cstdio>
#ifdef __MACOS__
#include <strings.h>
#endif
#include "BasicTypes/WUDefines.h"
#include "BasicTypes/WTByteOrder.h"
#include "WavesPublicAPI/wstdint.h"
#include "MiscUtils/MinMaxUtilities.h"
// use this macro instead of std :: string to mark the that use of std :: string could not be replaced
// by WFixedString.
#define std_string_approved std::string
#ifdef __POSIX__
const char* const kStrNewLine = "\n";
#endif
#ifdef _WINDOWS
const char* const kStrNewLine = "\r\n";
#endif
class DllExport WCFixedStringBase
{
public:
typedef size_t pos_t;
typedef intptr_t spos_t; // signed position, defined to intptr_t because Windows does not have ssize_t
static const pos_t npos = UINTPTR_MAX; // Same as size_max
WCFixedStringBase(char* const in_begin, const size_t in_MaxFixedStringLength) :
m_begin(in_begin),
m_MaxFixedStringLength(in_MaxFixedStringLength),
m_end(in_begin)
{
*m_end = '\0';
}
inline WCFixedStringBase& operator=(const WCFixedStringBase& in_fixedStrToAssign)
{
if (this != &in_fixedStrToAssign)
{
clear();
operator<<(in_fixedStrToAssign);
}
return *this;
}
inline WCFixedStringBase& operator=(const char* in_CStrToAssign)
{
clear();
operator<<(in_CStrToAssign);
return *this;
}
inline WCFixedStringBase& operator=(const char in_charToAssign)
{
clear();
operator<<(in_charToAssign);
return *this;
}
char operator[](const pos_t in_index) const
{
if (in_index < m_MaxFixedStringLength)
return m_begin[in_index];
else
return m_begin[m_MaxFixedStringLength]; // in_index was too big
}
char& operator[](const pos_t in_index)
{
if (in_index < m_MaxFixedStringLength)
return m_begin[in_index];
else
return m_begin[m_MaxFixedStringLength]; // in_index was too big
}
inline size_t resize(const size_t in_newSize)
{
m_end = m_begin + WUMin<size_t>(in_newSize, m_MaxFixedStringLength);
*m_end = '\0';
return size();
}
size_t max_size()
{
return m_MaxFixedStringLength;
}
size_t capacity()
{
return m_MaxFixedStringLength;
}
inline char * peek()
{
return m_begin;
}
inline const char * c_str() const
{
*m_end = '\0';
return m_begin;
}
inline void clear()
{
m_end = m_begin;
*m_end = '\0';
}
inline size_t size() const
{
return m_end - m_begin;
}
inline char* begin() const
{
return m_begin;
}
inline char* end() const
{
return m_end;
}
inline size_t length() const
{
return size();
}
inline bool empty() const
{
return m_begin == m_end;
}
inline void reverse(char* in_left, char* in_right)
{
char* left = in_left;
char* right = in_right;
while (left < right)
{
char temp = *--right;
*right = *left;
*left++ = temp;
}
}
inline void reverse()
{
reverse(m_begin, m_end);
}
inline void to_lower()
{
char* pToDo = m_begin;
while (pToDo < m_end)
{
*pToDo = static_cast<char>(std::tolower(*pToDo));
++pToDo;
}
}
inline void to_upper()
{
char* pToDo = m_begin;
while (pToDo < m_end)
{
*pToDo = static_cast<char>(std::toupper(*pToDo));
++pToDo;
}
}
// append a single char in_count times
inline void append(const char in_charToAppend, const size_t in_count)
{
size_t counter = 0;
while ((m_end < m_begin+m_MaxFixedStringLength) && counter++ < in_count)
*m_end++ = in_charToAppend;
#if kEnableDebug == 1
if (counter < in_count) // if there wasn't enough room for some appended chars
{
m_begin[0] = '@'; // mark the string as overflowed
}
#endif
*m_end = '\0';
}
inline void append(const char* in_chars)
{
operator<<(in_chars);
}
// append "iterator style"
inline void append(const char* in_chars_begin, const char* in_chars_end)
{
const char* curr_char = in_chars_begin;
while ((m_end < m_begin+m_MaxFixedStringLength) && curr_char < in_chars_end && *curr_char != '\0')
*m_end++ = *curr_char++;
#if kEnableDebug == 1
if (curr_char < in_chars_end) // if there wasn't enough room for some appended chars
{
m_begin[0] = '@'; // mark the string as overflowed
}
#endif
*m_end = '\0';
}
// append from a char* in_count chars, (no \0 is required to terminate the input string)
inline void append(const char* in_chars_begin, const size_t in_count)
{
append(in_chars_begin, in_chars_begin + in_count);
}
// assign from a char* in_count chars, (no \0 is required to terminate the input string)
inline void assign(const char* in_chars_begin, const size_t in_count)
{
clear();
append(in_chars_begin, in_chars_begin + in_count);
}
// assign from a char* , (a \0 is required to terminate the input string)
inline void assign(const char* in_chars_ptr)
{
clear();
operator<<(in_chars_ptr);
}
// assign from a char* to a char*
inline void assign(const char* in_begin, const char* in_end)
{
assign(in_begin, size_t(in_end - in_begin));
}
inline void append_double_with_precision(const double in_double, const int in_precision)
{
const unsigned int tempBufSize = 32;
char buf[tempBufSize];
#ifdef _WINDOWS
_snprintf_s(buf, tempBufSize, tempBufSize - 1, "%.*f", in_precision, in_double);
#endif
#ifdef __MACOS__
std::snprintf(buf, tempBufSize, "%.*f", in_precision, in_double);
#endif
#ifdef __linux__
snprintf(buf, tempBufSize, "%.*f", in_precision, in_double);
#endif
operator<<(buf);
}
inline void append_uint(const uint64_t in_uint, const int_fast16_t in_base = 10)
{
uint_fast64_t num = in_uint;
char* lasr_char_before = m_end;
do {
char remainder(static_cast<char>(num % in_base));
if ( remainder < 10 )
operator<<(char(remainder + '0'));
else
operator<<(char(remainder - 10 + 'A'));
num /= in_base;
} while (num != 0);
reverse(lasr_char_before, m_end);
}
inline void append_hex_binary(const uint8_t* in_binary, const size_t in_size)
{
static const char hexdigits[] = "0123456789ABCDEF";
#if _BYTEORDER_BIG_ENDIAN==1
for (size_t ibyte = 0; ibyte < in_size; ++ibyte)
#elif _BYTEORDER_BIG_ENDIAN==0
for (size_t ibyte = in_size; ibyte > 0; --ibyte)
#endif
{
operator<<(hexdigits[in_binary[ibyte - 1] >> 4]);
operator<<(hexdigits[in_binary[ibyte - 1] & 0x0F]);
}
}
inline WCFixedStringBase& operator<<(const char in_charToAppend)
{
if (m_end < m_begin+m_MaxFixedStringLength)
*m_end++ = in_charToAppend;
#if kEnableDebug == 1
else // if there wasn't enough room for the appended char
{
m_begin[0] = '@'; // mark the string as overflowed
}
#endif
*m_end = '\0';
return *this;
}
inline WCFixedStringBase& operator<<(const char* const in_strToAppend)
{
if (0 != in_strToAppend)
{
const char* pSource = in_strToAppend;
while (*pSource != '\0' && m_end < m_begin+m_MaxFixedStringLength)
*m_end++ = *pSource++;
#if kEnableDebug == 1
if (*pSource != '\0') // if there wasn't enough room for some appended chars
{
m_begin[0] = '@'; // mark the string as overflowed
}
#endif
*m_end = '\0';
}
return *this;
}
WCFixedStringBase& operator<<(const uint64_t in_uint)
{
append_uint(in_uint, 10);
return *this;
}
// Warning prevention: the operator<< function overload for unsigneds used to create lots
// of warnings once size_t usage was becoming widespread. So for each OS we define only
// those overloads that are actually needed. On Windows 32 bit we still get
// 'warning C4267: 'argument' : conversion from 'size_t' to 'const unsigned int', possible loss of data'
// warning which we do not know how to solve yet. The function DummyFunctionsForWarningTest
// in file WCFixedStringStream.cpp calls all combinations of operator<<(unsigned something)
// And should produce no warnings - (except the C4267 on windows).
#if defined(__MACOS__) // both 32 & 64 bit
WCFixedStringBase& operator<<(const size_t in_uint) {
return operator<<(static_cast<unsigned long long>(in_uint));
}
#endif
// WCFixedStringBase& operator<<(const unsigned char in_uint) {
// return operator<<(static_cast<const unsigned long long>(in_uint));
// }
//
// WCFixedStringBase& operator<<(const size_t in_uint) {
// return operator<<(static_cast<const uint64_t>(in_uint));
// }
//
#if defined(__MACOS__) || defined(_WINDOWS) || defined(__linux__) // both 32 & 64 bit
WCFixedStringBase& operator<<(const unsigned int in_uint) {
return operator<<(static_cast<uint64_t>(in_uint));
}
#endif
//
#if defined(_WINDOWS) || defined(__linux__) // both 32 & 64 bit
WCFixedStringBase& operator<<(const unsigned long in_uint) {
return operator<<(static_cast<uint64_t>(in_uint));
}
#endif
WCFixedStringBase& operator<<(const long long in_int)
{
if (in_int < 0)
operator<<('-');
#ifdef _WINDOWS
// uintmax_t unsigned_in_num = _abs64(in_int);
uintmax_t unsigned_in_num = in_int < 0 ? static_cast<uintmax_t>(-in_int) : static_cast<uintmax_t>(in_int);
#else
uintmax_t unsigned_in_num = std::abs(in_int);
#endif
append_uint(unsigned_in_num, 10);
return *this;
}
WCFixedStringBase& operator<<(const short in_int) {
return operator<<(static_cast<int64_t>(in_int));
}
WCFixedStringBase& operator<<(const int in_int) {
return operator<<(static_cast<int64_t>(in_int));
}
WCFixedStringBase& operator<<(const long in_int) {
return operator<<(static_cast<int64_t>(in_int));
}
WCFixedStringBase& operator<<(const double in_doubleToWrite)
{
append_double_with_precision(in_doubleToWrite, 10);
return *this;
}
WCFixedStringBase& operator<<(const float in_floatToWrite)
{
append_double_with_precision(double(in_floatToWrite), 5);
return *this;
}
inline WCFixedStringBase& operator<<(const WCFixedStringBase& in_fixedStrToAppend)
{
operator<<(in_fixedStrToAppend.c_str());
return *this;
}
WCFixedStringBase& operator<< (bool abool)
{
return abool ? operator<<("true") : operator<<("false");
}
template<typename T> WCFixedStringBase& operator+=(T in_type)
{
return operator<<(in_type);
}
ptrdiff_t compare(const char* in_to_compare) const
{
ptrdiff_t retVal = 1;
if (0 != in_to_compare)
{
retVal = strcmp(c_str(), in_to_compare);
}
return retVal;
}
ptrdiff_t compare(const WCFixedStringBase& in_to_compare) const
{
ptrdiff_t retVal = compare(in_to_compare.c_str());
return retVal;
}
ptrdiff_t case_insensitive_compare(const char* in_to_compare) const
{
ptrdiff_t retVal = 1;
if (0 != in_to_compare)
{
#ifdef _WINDOWS
retVal = _stricmp(c_str(), in_to_compare);
#endif
#if defined(__linux__) || defined(__MACOS__)
retVal = strcasecmp(c_str(), in_to_compare);
#endif
}
return retVal;
}
ptrdiff_t case_insensitive_compare(const WCFixedStringBase& in_to_compare) const
{
ptrdiff_t retVal = case_insensitive_compare(in_to_compare.c_str());
return retVal;
}
pos_t find(const char in_char_to_find) const
{
const char* pCurrChar = m_begin;
while (pCurrChar < m_end && *pCurrChar != in_char_to_find)
++pCurrChar;
return (pCurrChar < m_end) ? (pCurrChar - m_begin) : npos;
}
pos_t rfind(const char in_char_to_find) const
{
pos_t retVal = npos;
const char* pCurrChar = m_end;
while (pCurrChar != m_begin)
{
--pCurrChar;
if (*pCurrChar == in_char_to_find)
{
retVal = pCurrChar - m_begin;
break;
}
}
return retVal;
}
pos_t find(const char* in_chars_to_find, const pos_t in_start_from = 0) const
{
pos_t retVal = npos;
size_t to_find_size = ::strlen(in_chars_to_find);
if (to_find_size > 0 && to_find_size <= size() && in_start_from < size())
{
const char* pCurrChar = m_begin + in_start_from;
while ((m_end - pCurrChar) >= (ptrdiff_t)to_find_size)
{
int found = ::memcmp(pCurrChar, in_chars_to_find, to_find_size);
if (0 == found)
{
retVal = (pCurrChar - m_begin);
break;
}
++pCurrChar;
}
}
return retVal;
}
pos_t rfind(const char* in_chars_to_find) const
{
pos_t retVal = npos;
size_t to_find_size = ::strlen(in_chars_to_find);
if (to_find_size > 0 && to_find_size <= size())
{
const char* pCurrChar = m_end - to_find_size;
while (m_begin <= pCurrChar)
{
int found = ::memcmp(pCurrChar, in_chars_to_find, to_find_size);
if (0 == found)
{
retVal = (pCurrChar - m_begin);
break;
}
--pCurrChar;
}
}
return retVal;
}
pos_t find_case_insensitive(const char* in_chars_to_find, const pos_t in_start_from = 0) const
{
pos_t retVal = npos;
size_t to_find_size = ::strlen(in_chars_to_find);
if (to_find_size > 0 && to_find_size <= size() && in_start_from < size())
{
const char* pCurrChar = m_begin + in_start_from;
while ((m_end - pCurrChar) >= (ptrdiff_t)to_find_size)
{
size_t i;
for (i = 0; i < to_find_size; ++i)
{
if (tolower(*(pCurrChar+i)) != tolower(in_chars_to_find[i]))
break;
}
if (i == to_find_size)
{
retVal = (pCurrChar - m_begin);
break;
}
++pCurrChar;
}
}
return retVal;
}
pos_t find_first_of(const char* in_possibe_chars_to_find, const pos_t in_start_from = 0) const
{
pos_t retVal = npos;
if (in_start_from < size())
{
const char* pFoundChar = strpbrk(m_begin + in_start_from, in_possibe_chars_to_find);
if (0 != pFoundChar)
{
retVal = (pFoundChar - m_begin);
}
}
return retVal;
}
pos_t find_last_of(const char* in_possibe_chars_to_find, const pos_t in_start_from = 0) const
{
pos_t retVal = npos;
pos_t curr_location = in_start_from;
while (size() > curr_location)
{
pos_t found = find_first_of(in_possibe_chars_to_find, curr_location);
if (npos != found)
{
retVal = found;
curr_location = found + 1;
}
else
break;
}
return retVal;
}
pos_t find_first_not_of(const char* in_acceptable_chars, const pos_t in_start_from = 0) const
{
pos_t retVal = npos;
if (in_start_from < size())
{
retVal = (strspn(m_begin + in_start_from, in_acceptable_chars));
if (size() <= retVal + in_start_from)
{
retVal = npos;
}
else
{
retVal += in_start_from;
}
}
return retVal;
}
pos_t find_last_not_of(const char* in_acceptable_chars, const pos_t in_start_from = 0) const
{
pos_t retVal = npos;
pos_t curr_location = in_start_from;
while (size() > curr_location)
{
pos_t found = find_first_not_of(in_acceptable_chars, curr_location);
if (npos != found)
{
retVal = found;
curr_location = found + 1;
}
else
break;
}
return retVal;
}
// return true if in_begin_text is found at position 0 OR if in_begin_text is empty
bool begins_with(const char* in_begin_text) const
{
pos_t where = find(in_begin_text, 0);
bool retVal = (0 == where) || (0 == ::strlen(in_begin_text));
return retVal;
}
// return true if in_end_text is found at th end OR if in_end_text is empty
bool ends_with(const char* in_end_text) const
{
pos_t where = rfind(in_end_text);
bool retVal = ((size() - strlen(in_end_text)) == where) || (0 == ::strlen(in_end_text));
return retVal;
}
size_t replace(const char in_look_for, const char in_replace_with)
{
size_t retVal = 0;
char* pCurrChar = m_begin;
while (pCurrChar < m_end)
{
if (*pCurrChar == in_look_for)
{
*pCurrChar = in_replace_with;
++retVal;
}
++pCurrChar;
}
return retVal;
}
// erase in_size chars starting from in_location
void erase(const pos_t in_location, const size_t in_num_chars = 1)
{
if (size() > in_location && in_num_chars > 0)
{
size_t actual_num_chars = WUMin(in_num_chars, size_t(size() - in_location));
char* pTo = m_begin + in_location;
char* pFrom = pTo + actual_num_chars;
while (pFrom < m_end)
*pTo++ = *pFrom++;
resize(size() - actual_num_chars);
}
}
// erase any char that appear in in_forbidden_chars
void erase_all_of(const char* in_forbidden_chars)
{
pos_t curr_location = 0;
while (npos != curr_location)
{
curr_location = find_first_of(in_forbidden_chars, curr_location);
if (npos != curr_location)
erase(curr_location);
}
}
// erase any char that do not appear in in_allowed_chars
void erase_all_not_of(const char* in_allowed_chars)
{
pos_t curr_location = 0;
while (npos != curr_location)
{
curr_location = find_first_not_of(in_allowed_chars, curr_location);
if (npos != curr_location)
erase(curr_location);
}
}
//! Copy the content of fixed string to a buffer appending a '\0' at the end.
//! If in_buffer_size is more than the allocated buffer size memory over write will happen!
void copy_to_buffer(const size_t in_buffer_size, char* out_buffer)
{
if (in_buffer_size > 0 && 0 != out_buffer)
{
char* cur_buffer = out_buffer;
const char* cur_fixed = m_begin;
const char* end_buffer = out_buffer + (WUMin<size_t>(in_buffer_size - 1, m_end - m_begin));
while (cur_buffer < end_buffer)
*cur_buffer++ = *cur_fixed++;
*cur_buffer = '\0';
}
}
protected:
~WCFixedStringBase() {}
char* const m_begin;
const size_t m_MaxFixedStringLength;
char* m_end;
private:
WCFixedStringBase();
WCFixedStringBase(const WCFixedStringBase& in_fixedStrToCopy);
#if 0
:
m_begin(in_fixedStrToCopy.m_begin),
m_MaxFixedStringLength(in_fixedStrToCopy.m_MaxFixedStringLength),
m_end(in_fixedStrToCopy.m_end)
{
}
#endif
};
template<size_t kMaxFixedStringLength> class DllExport WCFixedString : public WCFixedStringBase
{
public:
inline WCFixedString() :
WCFixedStringBase(m_fixedString, kMaxFixedStringLength)
{
}
inline WCFixedString(const char* const in_strToAssign) :
WCFixedStringBase(m_fixedString, kMaxFixedStringLength)
{
operator<<(in_strToAssign);
}
inline WCFixedString(const WCFixedStringBase& in_fixedStrToAssign) :
WCFixedStringBase(m_fixedString, kMaxFixedStringLength)
{
operator<<(in_fixedStrToAssign);
}
inline WCFixedString(const WCFixedString& in_fixedStrToAssign) :
WCFixedStringBase(m_fixedString, kMaxFixedStringLength)
{
operator<<(in_fixedStrToAssign);
}
inline WCFixedString(const char in_char, const size_t in_count = 1) :
WCFixedStringBase(m_fixedString, kMaxFixedStringLength)
{
append(in_char, in_count);
}
inline WCFixedString(const char* in_chars, const size_t in_count) :
WCFixedStringBase(m_fixedString, kMaxFixedStringLength)
{
append(in_chars, in_count);
}
// substr now supports negative in_length, which means "from the end" so
// "abcdefg".substr(1, -1) == "bcdef"
inline const WCFixedString substr(const pos_t in_pos = 0, const spos_t in_length = kMaxFixedStringLength) const
{
pos_t adjusted_pos = WUMin<size_t>(in_pos, size());
size_t adjusted_length = 0;
if (in_length < 0)
{
adjusted_length = size_t(WUMax<spos_t>(0, spos_t(size() - adjusted_pos) + in_length));
}
else
adjusted_length = WUMin<size_t>(in_length, size() - adjusted_pos);
WCFixedString retVal;
retVal.append(m_begin + adjusted_pos, adjusted_length);
return retVal;
}
protected:
char m_fixedString[kMaxFixedStringLength + 1]; // the "+ 1" is so that *m_end is always valid, and we can put the '\0' there};
};
inline bool operator==(const WCFixedStringBase& in_left, const WCFixedStringBase& in_right)
{
return 0 == in_left.compare(in_right.c_str());
}
inline bool operator==(const WCFixedStringBase& in_left, const char* const in_right)
{
return 0 == in_left.compare(in_right);
}
inline bool operator!=(const WCFixedStringBase& in_left, const WCFixedStringBase& in_right)
{
return 0 != in_left.compare(in_right.c_str());
}
inline bool operator!=(const WCFixedStringBase& in_left, const char* const in_right)
{
return 0 != in_left.compare(in_right);
}
// class WCFixedStringBase
typedef WCFixedString<4> WCFixedString4;
typedef WCFixedString<15> WCFixedString15;
typedef WCFixedString<31> WCFixedString31;
typedef WCFixedString<63> WCFixedString63;
typedef WCFixedString<127> WCFixedString127;
typedef WCFixedString<255> WCFixedString255;
typedef WCFixedString<511> WCFixedString511;
typedef WCFixedString<1023> WCFixedString1023;
typedef WCFixedString<2047> WCFixedString2047;
template<size_t kSizeOfFirst, size_t kSizeOfSecond>
class WCFixedStringPair : public std::pair< WCFixedString<kSizeOfFirst>, WCFixedString<kSizeOfSecond> >
{
public:
WCFixedStringPair(const char* const in_firstStr = 0, const char* const in_secondStr = 0) :
std::pair< WCFixedString<kSizeOfFirst>, WCFixedString<kSizeOfSecond> >(in_firstStr, in_secondStr) {}
WCFixedStringPair(const WCFixedStringBase& in_firstStr, const char* const in_secondStr = 0) :
std::pair< WCFixedString<kSizeOfFirst>, WCFixedString<kSizeOfSecond> >(in_firstStr, in_secondStr) {}
WCFixedStringPair(const WCFixedStringBase& in_firstStr, const WCFixedStringBase& in_secondStr) :
std::pair< WCFixedString<kSizeOfFirst>, WCFixedString<kSizeOfSecond> >(in_firstStr, in_secondStr) {}
};
#endif // #ifndef __WCFixedString_h__