/* * DISTRHO Plugin Toolkit (DPT) * Copyright (C) 2012-2013 Filipe Coelho * * Permission to use, copy, modify, and/or distribute this software for any purpose with * or without fee is hereby granted, provided that the above copyright notice and this * permission notice appear in all copies. * * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES WITH REGARD * TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS. IN * NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL * DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER * IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN * CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. */ #ifndef DISTRHO_UTILS_HPP_INCLUDED #define DISTRHO_UTILS_HPP_INCLUDED #include "src/DistrhoDefines.h" #include #include #include #include #include #ifdef PROPER_CPP11_SUPPORT # include #else # include #endif #ifdef DISTRHO_OS_WINDOWS # include #else # include #endif #if defined(DISTRHO_OS_MAC) && ! defined(CARLA_OS_MAC) namespace std { inline float fmin(float __x, float __y) { return __builtin_fminf(__x, __y); } inline float fmax(float __x, float __y) { return __builtin_fmaxf(__x, __y); } inline float rint(float __x) { return __builtin_rintf(__x); } } #endif // ----------------------------------------------------------------------- // misc functions static inline long d_cconst(int a, int b, int c, int d) noexcept { return (a << 24) | (b << 16) | (c << 8) | (d << 0); } // ----------------------------------------------------------------------- // string print functions #ifndef DEBUG # define d_debug(...) #else static inline void d_debug(const char* const fmt, ...) { va_list args; va_start(args, fmt); std::fprintf(stdout, "\x1b[30;1m"); std::vfprintf(stdout, fmt, args); std::fprintf(stdout, "\x1b[0m\n"); va_end(args); } #endif static inline void d_stdout(const char* const fmt, ...) { va_list args; va_start(args, fmt); std::vfprintf(stdout, fmt, args); std::fprintf(stdout, "\n"); va_end(args); } static inline void d_stderr(const char* const fmt, ...) { va_list args; va_start(args, fmt); std::vfprintf(stderr, fmt, args); std::fprintf(stderr, "\n"); va_end(args); } static inline void d_stderr2(const char* const fmt, ...) { va_list args; va_start(args, fmt); std::fprintf(stderr, "\x1b[31m"); std::vfprintf(stderr, fmt, args); std::fprintf(stderr, "\x1b[0m\n"); va_end(args); } // ----------------------------------------------------------------------- // d_*sleep static inline void d_sleep(unsigned int secs) { #ifdef DISTRHO_OS_WINDOWS Sleep(secs * 1000); #else sleep(secs); #endif } static inline void d_msleep(unsigned int msecs) { #ifdef DISTRHO_OS_WINDOWS Sleep(msecs); #else usleep(msecs * 1000); #endif } // ----------------------------------------------------------------------- // d_string class class d_string { public: // ------------------------------------------------------------------- // constructors (no explicit conversions allowed) /* * Empty string. */ explicit d_string() { _init(); _dup(nullptr); } /* * Simple character. */ explicit d_string(const char c) { char ch[2]; ch[0] = c; ch[1] = '\0'; _init(); _dup(ch); } /* * Simple char string. */ explicit d_string(char* const strBuf) { _init(); _dup(strBuf); } /* * Simple const char string. */ explicit d_string(const char* const strBuf) { _init(); _dup(strBuf); } /* * Integer. */ explicit d_string(const int value) { char strBuf[0xff+1]; std::memset(strBuf, 0, (0xff+1)*sizeof(char)); std::snprintf(strBuf, 0xff, "%d", value); _init(); _dup(strBuf); } /* * Unsigned integer, possibly in hexadecimal. */ explicit d_string(const unsigned int value, const bool hexadecimal = false) { char strBuf[0xff+1]; std::memset(strBuf, 0, (0xff+1)*sizeof(char)); std::snprintf(strBuf, 0xff, hexadecimal ? "0x%x" : "%u", value); _init(); _dup(strBuf); } /* * Long integer. */ explicit d_string(const long int value) { char strBuf[0xff+1]; std::memset(strBuf, 0, (0xff+1)*sizeof(char)); std::snprintf(strBuf, 0xff, "%ld", value); _init(); _dup(strBuf); } /* * Long unsigned integer, possibly hexadecimal. */ explicit d_string(const unsigned long int value, const bool hexadecimal = false) { char strBuf[0xff+1]; std::memset(strBuf, 0, (0xff+1)*sizeof(char)); std::snprintf(strBuf, 0xff, hexadecimal ? "0x%lx" : "%lu", value); _init(); _dup(strBuf); } /* * Single-precision floating point number. */ explicit d_string(const float value) { char strBuf[0xff+1]; std::memset(strBuf, 0, (0xff+1)*sizeof(char)); std::snprintf(strBuf, 0xff, "%f", value); _init(); _dup(strBuf); } /* * Double-precision floating point number. */ explicit d_string(const double value) { char strBuf[0xff+1]; std::memset(strBuf, 0, (0xff+1)*sizeof(char)); std::snprintf(strBuf, 0xff, "%g", value); _init(); _dup(strBuf); } // ------------------------------------------------------------------- // non-explicit constructor /* * Create string from another string. */ d_string(const d_string& str) { _init(); _dup(str.fBuffer); } // ------------------------------------------------------------------- // destructor /* * Destructor. */ ~d_string() { assert(fBuffer != nullptr); delete[] fBuffer; fBuffer = nullptr; } // ------------------------------------------------------------------- // public methods /* * Get length of the string. */ 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 { if (strBuf == nullptr) return false; if (ignoreCase) { #ifdef __USE_GNU return (strcasestr(fBuffer, strBuf) != nullptr); #else d_string tmp1(fBuffer), tmp2(strBuf); tmp1.toLower(); tmp2.toLower(); return (std::strstr((const char*)tmp1, (const char*)tmp2) != nullptr); #endif } return (std::strstr(fBuffer, strBuf) != nullptr); } /* * Overloaded function. */ bool contains(const d_string& str, const bool ignoreCase = false) const { return contains(str.fBuffer, ignoreCase); } /* * Check if character at 'pos' is a digit. */ bool isDigit(const size_t pos) const noexcept { if (pos >= fBufferLen) return false; return (fBuffer[pos] >= '0' && fBuffer[pos] <= '9'); } /* * Check if the string starts with the character 'c'. */ bool startsWith(const char c) const { if (c == '\0') return false; return (fBufferLen > 0 && fBuffer[0] == c); } /* * Check if the string starts with the string 'prefix'. */ bool startsWith(const char* const prefix) const { if (prefix == nullptr) return false; const size_t prefixLen(std::strlen(prefix)); if (fBufferLen < prefixLen) return false; return (std::strncmp(fBuffer + (fBufferLen-prefixLen), prefix, prefixLen) == 0); } /* * Check if the string ends with the character 'c'. */ bool endsWith(const char c) const { if (c == '\0') return false; return (fBufferLen > 0 && fBuffer[fBufferLen] == c); } /* * Check if the string ends with the string 'suffix'. */ bool endsWith(const char* const suffix) const { if (suffix == nullptr) return false; const size_t suffixLen(std::strlen(suffix)); if (fBufferLen < suffixLen) return false; return (std::strncmp(fBuffer + (fBufferLen-suffixLen), suffix, suffixLen) == 0); } /* * Clear the string. */ void clear() noexcept { truncate(0); } /* * Replace all occurrences of character 'before' with character 'after'. */ void replace(const char before, const char after) noexcept { if (before == '\0' || after == '\0') return; for (size_t i=0; i < fBufferLen; ++i) { if (fBuffer[i] == before) fBuffer[i] = after; else if (fBuffer[i] == '\0') break; } } /* * Truncate the string to size 'n'. */ void truncate(const size_t n) noexcept { if (n >= fBufferLen) return; for (size_t i=n; i < fBufferLen; ++i) fBuffer[i] = '\0'; fBufferLen = n; } /* * Convert all non-basic characters to '_'. */ void toBasic() noexcept { for (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] = '_'; } } /* * Convert to all ascii characters to lowercase. */ void toLower() noexcept { static const char kCharDiff('a' - 'A'); for (size_t i=0; i < fBufferLen; ++i) { if (fBuffer[i] >= 'A' && fBuffer[i] <= 'Z') fBuffer[i] = static_cast(fBuffer[i] + kCharDiff); } } /* * Convert to all ascii characters to uppercase. */ void toUpper() noexcept { static const char kCharDiff('a' - 'A'); for (size_t i=0; i < fBufferLen; ++i) { if (fBuffer[i] >= 'a' && fBuffer[i] <= 'z') fBuffer[i] = static_cast(fBuffer[i] - kCharDiff); } } // ------------------------------------------------------------------- // public operators operator const char*() const noexcept { return fBuffer; } char& operator[](const size_t pos) const noexcept { return fBuffer[pos]; } bool operator==(const char* const strBuf) const { return (strBuf != nullptr && std::strcmp(fBuffer, strBuf) == 0); } bool operator==(const d_string& str) const { return operator==(str.fBuffer); } bool operator!=(const char* const strBuf) const { return !operator==(strBuf); } bool operator!=(const d_string& str) const { return !operator==(str.fBuffer); } d_string& operator=(const char* const strBuf) { _dup(strBuf); return *this; } d_string& operator=(const d_string& str) { return operator=(str.fBuffer); } d_string& operator+=(const char* const strBuf) { if (strBuf == nullptr) return *this; const size_t newBufSize = fBufferLen + std::strlen(strBuf) + 1; char newBuf[newBufSize]; std::strcpy(newBuf, fBuffer); std::strcat(newBuf, strBuf); _dup(newBuf, newBufSize-1); return *this; } d_string& operator+=(const d_string& str) { return operator+=(str.fBuffer); } d_string operator+(const char* const strBuf) { const size_t newBufSize = fBufferLen + ((strBuf != nullptr) ? std::strlen(strBuf) : 0) + 1; char newBuf[newBufSize]; std::strcpy(newBuf, fBuffer); if (strBuf != nullptr) std::strcat(newBuf, strBuf); return d_string(newBuf); } d_string operator+(const d_string& str) { return operator+(str.fBuffer); } // ------------------------------------------------------------------- private: char* fBuffer; // the actual string buffer size_t fBufferLen; // string length bool fFirstInit; // true when first initiated /* * Shared init function. * Called on all constructors. */ void _init() noexcept { fBuffer = nullptr; fBufferLen = 0; fFirstInit = true; } /* * Helper function. * Called whenever the string needs to be allocated. * * Notes: * - Allocates string only if first initiated, or if 'strBuf' is not null and new string contents are different * - If 'strBuf' is null 'size' must be 0 */ void _dup(const char* const strBuf, const size_t size = 0) { if (strBuf != nullptr) { // don't recreate string if contents match if (fFirstInit || std::strcmp(fBuffer, strBuf) != 0) { if (! fFirstInit) { assert(fBuffer != nullptr); delete[] fBuffer; } fBufferLen = (size > 0) ? size : std::strlen(strBuf); fBuffer = new char[fBufferLen+1]; std::strcpy(fBuffer, strBuf); fBuffer[fBufferLen] = '\0'; fFirstInit = false; } } else { assert(size == 0); // don't recreate null string if (fFirstInit || fBufferLen != 0) { if (! fFirstInit) { assert(fBuffer != nullptr); delete[] fBuffer; } fBufferLen = 0; fBuffer = new char[1]; fBuffer[0] = '\0'; fFirstInit = false; } } } }; // ----------------------------------------------------------------------- static inline d_string operator+(const d_string& strBefore, const char* const strBufAfter) { const char* const strBufBefore = (const char*)strBefore; const size_t newBufSize = strBefore.length() + ((strBufAfter != nullptr) ? std::strlen(strBufAfter) : 0) + 1; char newBuf[newBufSize]; std::strcpy(newBuf, strBufBefore); std::strcat(newBuf, strBufAfter); return d_string(newBuf); } static inline d_string operator+(const char* const strBufBefore, const d_string& strAfter) { const char* const strBufAfter = (const char*)strAfter; const size_t newBufSize = ((strBufBefore != nullptr) ? std::strlen(strBufBefore) : 0) + strAfter.length() + 1; char newBuf[newBufSize]; std::strcpy(newBuf, strBufBefore); std::strcat(newBuf, strBufAfter); return d_string(newBuf); } // ----------------------------------------------------------------------- #endif // DISTRHO_UTILS_HPP_INCLUDED