/* * Carla String * Copyright (C) 2013-2016 Filipe Coelho * * 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 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. * * For a full copy of the GNU General Public License see the doc/GPL.txt file. */ #ifndef CARLA_STRING_HPP_INCLUDED #define CARLA_STRING_HPP_INCLUDED #include "CarlaJuceUtils.hpp" #include "CarlaMathUtils.hpp" #include // ----------------------------------------------------------------------- // CarlaString class class CarlaString { public: // ------------------------------------------------------------------- // constructors (no explicit conversions allowed) /* * Empty string. */ explicit CarlaString() noexcept : fBuffer(_null()), fBufferLen(0) {} /* * Simple character. */ explicit CarlaString(const char c) noexcept : fBuffer(_null()), fBufferLen(0) { char ch[2]; ch[0] = c; ch[1] = '\0'; _dup(ch); } /* * Simple char string. */ explicit CarlaString(char* const strBuf) noexcept : fBuffer(_null()), fBufferLen(0) { _dup(strBuf); } /* * Simple const char string. */ explicit CarlaString(const char* const strBuf) noexcept : fBuffer(_null()), fBufferLen(0) { _dup(strBuf); } /* * Integer. */ explicit CarlaString(const int value) noexcept : fBuffer(_null()), fBufferLen(0) { char strBuf[0xff+1]; std::snprintf(strBuf, 0xff, "%d", value); strBuf[0xff] = '\0'; _dup(strBuf); } /* * Unsigned integer, possibly in hexadecimal. */ explicit CarlaString(const unsigned int value, const bool hexadecimal = false) noexcept : fBuffer(_null()), fBufferLen(0) { char strBuf[0xff+1]; std::snprintf(strBuf, 0xff, hexadecimal ? "0x%x" : "%u", value); strBuf[0xff] = '\0'; _dup(strBuf); } /* * Long integer. */ explicit CarlaString(const long value) noexcept : fBuffer(_null()), fBufferLen(0) { char strBuf[0xff+1]; std::snprintf(strBuf, 0xff, "%ld", value); strBuf[0xff] = '\0'; _dup(strBuf); } /* * Long unsigned integer, possibly hexadecimal. */ explicit CarlaString(const unsigned long value, const bool hexadecimal = false) noexcept : fBuffer(_null()), fBufferLen(0) { char strBuf[0xff+1]; std::snprintf(strBuf, 0xff, hexadecimal ? "0x%lx" : "%lu", value); strBuf[0xff] = '\0'; _dup(strBuf); } /* * Long long integer. */ explicit CarlaString(const long long value) noexcept : fBuffer(_null()), fBufferLen(0) { char strBuf[0xff+1]; std::snprintf(strBuf, 0xff, "%lld", value); strBuf[0xff] = '\0'; _dup(strBuf); } /* * Long long unsigned integer, possibly hexadecimal. */ explicit CarlaString(const unsigned long long value, const bool hexadecimal = false) noexcept : fBuffer(_null()), fBufferLen(0) { char strBuf[0xff+1]; std::snprintf(strBuf, 0xff, hexadecimal ? "0x%llx" : "%llu", value); strBuf[0xff] = '\0'; _dup(strBuf); } /* * Single-precision floating point number. */ explicit CarlaString(const float value) noexcept : fBuffer(_null()), fBufferLen(0) { char strBuf[0xff+1]; std::snprintf(strBuf, 0xff, "%f", value); strBuf[0xff] = '\0'; _dup(strBuf); } /* * Double-precision floating point number. */ explicit CarlaString(const double value) noexcept : fBuffer(_null()), fBufferLen(0) { char strBuf[0xff+1]; std::snprintf(strBuf, 0xff, "%g", value); strBuf[0xff] = '\0'; _dup(strBuf); } // ------------------------------------------------------------------- // non-explicit constructor /* * Create string from another string. */ CarlaString(const CarlaString& str) noexcept : fBuffer(_null()), fBufferLen(0) { _dup(str.fBuffer); } // ------------------------------------------------------------------- // destructor /* * Destructor. */ ~CarlaString() noexcept { CARLA_SAFE_ASSERT_RETURN(fBuffer != nullptr,); if (fBuffer == _null()) return; std::free(fBuffer); fBuffer = nullptr; fBufferLen = 0; } // ------------------------------------------------------------------- // public methods /* * Get length of the string. */ std::size_t length() const noexcept { return fBufferLen; } /* * Check if the string is empty. */ bool isEmpty() const noexcept { return (fBufferLen == 0); } /* * Check if the string is not empty. */ bool isNotEmpty() const noexcept { return (fBufferLen != 0); } /* * Check if the string contains another string, optionally ignoring case. */ bool contains(const char* const strBuf, const bool ignoreCase = false) const noexcept { CARLA_SAFE_ASSERT_RETURN(strBuf != nullptr, false); if (ignoreCase) { #ifdef __USE_GNU return (strcasestr(fBuffer, strBuf) != nullptr); #else CarlaString tmp1(fBuffer), tmp2(strBuf); // memory allocation failed or empty string(s) if (tmp1.fBuffer == _null() || tmp2.fBuffer == _null()) return false; tmp1.toLower(); tmp2.toLower(); return (std::strstr(tmp1, tmp2) != nullptr); #endif } return (std::strstr(fBuffer, strBuf) != nullptr); } /* * Check if character at 'pos' is a digit. */ bool isDigit(const std::size_t pos) const noexcept { CARLA_SAFE_ASSERT_RETURN(pos < fBufferLen, false); return (fBuffer[pos] >= '0' && fBuffer[pos] <= '9'); } /* * Check if the string starts with the character 'c'. */ bool startsWith(const char c) const noexcept { CARLA_SAFE_ASSERT_RETURN(c != '\0', false); return (fBufferLen > 0 && fBuffer[0] == c); } /* * Check if the string starts with the string 'prefix'. */ bool startsWith(const char* const prefix) const noexcept { CARLA_SAFE_ASSERT_RETURN(prefix != nullptr, false); const std::size_t prefixLen(std::strlen(prefix)); if (fBufferLen < prefixLen) return false; return (std::strncmp(fBuffer, prefix, prefixLen) == 0); } /* * Check if the string ends with the character 'c'. */ bool endsWith(const char c) const noexcept { CARLA_SAFE_ASSERT_RETURN(c != '\0', false); return (fBufferLen > 0 && fBuffer[fBufferLen-1] == c); } /* * Check if the string ends with the string 'suffix'. */ bool endsWith(const char* const suffix) const noexcept { CARLA_SAFE_ASSERT_RETURN(suffix != nullptr, false); const std::size_t suffixLen(std::strlen(suffix)); if (fBufferLen < suffixLen) return false; return (std::strncmp(fBuffer + (fBufferLen-suffixLen), suffix, suffixLen) == 0); } /* * Find the first occurrence of character 'c' in the string. * Returns "length()" if the character is not found. */ std::size_t find(const char c, bool* const found = nullptr) const noexcept { if (fBufferLen == 0 || c == '\0') { if (found != nullptr) *found = false; return fBufferLen; } for (std::size_t i=0; i < fBufferLen; ++i) { if (fBuffer[i] == c) { if (found != nullptr) *found = true; return i; } } if (found != nullptr) *found = false; return fBufferLen; } /* * Find the first occurrence of string 'strBuf' in the string. * Returns "length()" if the string is not found. */ std::size_t find(const char* const strBuf, bool* const found = nullptr) const noexcept { if (fBufferLen == 0 || strBuf == nullptr || strBuf[0] == '\0') { if (found != nullptr) *found = false; return fBufferLen; } if (char* const subStrBuf = std::strstr(fBuffer, strBuf)) { const ssize_t ret(subStrBuf - fBuffer); if (ret < 0) { // should never happen! carla_safe_assert_int("ret >= 0", __FILE__, __LINE__, int(ret)); if (found != nullptr) *found = false; return fBufferLen; } if (found != nullptr) *found = true; return static_cast(ret); } if (found != nullptr) *found = false; return fBufferLen; } /* * Find the last occurrence of character 'c' in the string. * Returns "length()" if the character is not found. */ std::size_t rfind(const char c, bool* const found = nullptr) const noexcept { if (fBufferLen == 0 || c == '\0') { if (found != nullptr) *found = false; return fBufferLen; } for (std::size_t i=fBufferLen; i > 0; --i) { if (fBuffer[i-1] == c) { if (found != nullptr) *found = true; return i-1; } } if (found != nullptr) *found = false; return fBufferLen; } /* * Find the last occurrence of string 'strBuf' in the string. * Returns "length()" if the string is not found. */ std::size_t rfind(const char* const strBuf, bool* const found = nullptr) const noexcept { if (found != nullptr) *found = false; if (fBufferLen == 0 || strBuf == nullptr || strBuf[0] == '\0') return fBufferLen; const std::size_t strBufLen(std::strlen(strBuf)); std::size_t ret = fBufferLen; const char* tmpBuf = fBuffer; for (std::size_t i=0; i < fBufferLen; ++i) { if (std::strstr(tmpBuf+1, strBuf) == nullptr && std::strncmp(tmpBuf, strBuf, strBufLen) == 0) { if (found != nullptr) *found = true; break; } --ret; ++tmpBuf; } return fBufferLen-ret; } /* * Clear the string. */ void clear() noexcept { truncate(0); } /* * Replace all occurrences of character 'before' with character 'after'. */ CarlaString& replace(const char before, const char after) noexcept { CARLA_SAFE_ASSERT_RETURN(before != '\0' && after != '\0', *this); for (std::size_t i=0; i < fBufferLen; ++i) { if (fBuffer[i] == before) fBuffer[i] = after; } return *this; } /* * Truncate the string to size 'n'. */ CarlaString& truncate(const std::size_t n) noexcept { if (n >= fBufferLen) return *this; fBuffer[n] = '\0'; fBufferLen = n; return *this; } /* * Convert all non-basic characters to '_'. */ CarlaString& toBasic() noexcept { for (std::size_t i=0; i < fBufferLen; ++i) { if (fBuffer[i] >= '0' && fBuffer[i] <= '9') continue; if (fBuffer[i] >= 'A' && fBuffer[i] <= 'Z') continue; if (fBuffer[i] >= 'a' && fBuffer[i] <= 'z') continue; if (fBuffer[i] == '_') continue; fBuffer[i] = '_'; } return *this; } /* * Convert all ascii characters to lowercase. */ CarlaString& toLower() noexcept { static const char kCharDiff('a' - 'A'); for (std::size_t i=0; i < fBufferLen; ++i) { if (fBuffer[i] >= 'A' && fBuffer[i] <= 'Z') fBuffer[i] = static_cast(fBuffer[i] + kCharDiff); } return *this; } /* * Convert all ascii characters to uppercase. */ CarlaString& toUpper() noexcept { static const char kCharDiff('a' - 'A'); for (std::size_t i=0; i < fBufferLen; ++i) { if (fBuffer[i] >= 'a' && fBuffer[i] <= 'z') fBuffer[i] = static_cast(fBuffer[i] - kCharDiff); } return *this; } /* * Direct access to the string buffer (read-only). */ const char* buffer() const noexcept { return fBuffer; } /* * Return a duplicate string buffer. * May throw. */ const char* dup() const { return carla_strdup(fBuffer); } /* * Return a duplicate string buffer or null. */ const char* dupSafe() const noexcept { return carla_strdup_safe(fBuffer); } // ------------------------------------------------------------------- // base64 stuff, based on http://www.adp-gmbh.ch/cpp/common/base64.html // Copyright (C) 2004-2008 René Nyffenegger static CarlaString asBase64(const void* const data, const std::size_t dataSize) { static const char* const kBase64Chars = "ABCDEFGHIJKLMNOPQRSTUVWXYZ" "abcdefghijklmnopqrstuvwxyz" "0123456789+/"; const std::size_t kTmpBufSize = std::min(carla_nextPowerOf2(static_cast(dataSize/3)), 65536U); const uchar* bytesToEncode((const uchar*)data); uint i=0, j=0; uint charArray3[3], charArray4[4]; char strBuf[kTmpBufSize+1]; strBuf[kTmpBufSize] = '\0'; std::size_t strBufIndex = 0; CarlaString ret; for (std::size_t s=0; s> 2; charArray4[1] = ((charArray3[0] & 0x03) << 4) + ((charArray3[1] & 0xf0) >> 4); charArray4[2] = ((charArray3[1] & 0x0f) << 2) + ((charArray3[2] & 0xc0) >> 6); charArray4[3] = charArray3[2] & 0x3f; for (i=0; i<4; ++i) strBuf[strBufIndex++] = kBase64Chars[charArray4[i]]; if (strBufIndex >= kTmpBufSize-7) { strBuf[strBufIndex] = '\0'; strBufIndex = 0; ret += strBuf; } i = 0; } } if (i != 0) { for (j=i; j<3; ++j) charArray3[j] = '\0'; charArray4[0] = (charArray3[0] & 0xfc) >> 2; charArray4[1] = ((charArray3[0] & 0x03) << 4) + ((charArray3[1] & 0xf0) >> 4); charArray4[2] = ((charArray3[1] & 0x0f) << 2) + ((charArray3[2] & 0xc0) >> 6); charArray4[3] = charArray3[2] & 0x3f; for (j=0; j<4 && i<3 && j 0) ? size : std::strlen(strBuf); fBuffer = (char*)std::malloc(fBufferLen+1); if (fBuffer == nullptr) { fBuffer = _null(); fBufferLen = 0; return; } std::strcpy(fBuffer, strBuf); fBuffer[fBufferLen] = '\0'; } else { CARLA_SAFE_ASSERT(size == 0); // don't recreate null string if (fBuffer == _null()) return; CARLA_SAFE_ASSERT(fBuffer != nullptr); std::free(fBuffer); fBuffer = _null(); fBufferLen = 0; } } CARLA_PREVENT_HEAP_ALLOCATION }; // ----------------------------------------------------------------------- static inline CarlaString operator+(const CarlaString& strBefore, const char* const strBufAfter) noexcept { const char* const strBufBefore = strBefore.buffer(); const std::size_t newBufSize = strBefore.length() + ((strBufAfter != nullptr) ? std::strlen(strBufAfter) : 0) + 1; char newBuf[newBufSize]; std::strcpy(newBuf, strBufBefore); std::strcat(newBuf, strBufAfter); return CarlaString(newBuf); } static inline CarlaString operator+(const char* const strBufBefore, const CarlaString& strAfter) noexcept { const char* const strBufAfter = strAfter.buffer(); const std::size_t newBufSize = ((strBufBefore != nullptr) ? std::strlen(strBufBefore) : 0) + strAfter.length() + 1; char newBuf[newBufSize]; std::strcpy(newBuf, strBufBefore); std::strcat(newBuf, strBufAfter); return CarlaString(newBuf); } // ----------------------------------------------------------------------- #endif // CARLA_STRING_HPP_INCLUDED