/* * Cross-platform C++ library for Carla, based on Juce v4 * Copyright (C) 2015 ROLI Ltd. * Copyright (C) 2017-2018 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 WATER_H_INCLUDED #define WATER_H_INCLUDED #include "CarlaDefines.h" //============================================================================== #define jassertfalse carla_safe_assert("jassertfalse triggered", __FILE__, __LINE__); #define jassert(expression) CARLA_SAFE_ASSERT(expression) #define static_jassert(expression) static_assert(expression, #expression); //============================================================================== // Compiler support #if (__cplusplus >= 201103L || defined (__GXX_EXPERIMENTAL_CXX0X__)) && (__GNUC__ * 100 + __GNUC_MINOR__) >= 405 #define WATER_COMPILER_SUPPORTS_MOVE_SEMANTICS 1 #if (__GNUC__ * 100 + __GNUC_MINOR__) >= 407 && ! defined (WATER_DELETED_FUNCTION) #define WATER_DELETED_FUNCTION = delete #endif #endif #ifdef __clang__ #if __has_feature (cxx_rvalue_references) #define WATER_COMPILER_SUPPORTS_MOVE_SEMANTICS 1 #endif #if __has_feature (cxx_deleted_functions) #define WATER_DELETED_FUNCTION = delete #endif #endif //============================================================================== // Declare some fake versions of nullptr and noexcept, for older compilers: #ifndef WATER_DELETED_FUNCTION /** This macro can be placed after a method declaration to allow the use of the C++11 feature "= delete" on all compilers. On newer compilers that support it, it does the C++11 "= delete", but on older ones it's just an empty definition. */ #define WATER_DELETED_FUNCTION #endif //============================================================================== namespace water { class AudioProcessor; class File; class FileInputStream; class FileInputSource; class FileOutputStream; class Identifier; class InputStream; class MidiBuffer; class MidiMessage; class MemoryBlock; class MemoryOutputStream; class NewLine; class OutputStream; class Result; class String; class StringArray; class StringRef; class Time; class XmlElement; class var; //============================================================================== // Definitions for the int8, int16, int32, int64 and pointer_sized_int types. /** A platform-independent 8-bit signed integer type. */ typedef signed char int8; /** A platform-independent 8-bit unsigned integer type. */ typedef unsigned char uint8; /** A platform-independent 16-bit signed integer type. */ typedef signed short int16; /** A platform-independent 16-bit unsigned integer type. */ typedef unsigned short uint16; /** A platform-independent 32-bit signed integer type. */ typedef signed int int32; /** A platform-independent 32-bit unsigned integer type. */ typedef unsigned int uint32; /** A platform-independent 64-bit integer type. */ typedef long long int64; /** A platform-independent 64-bit unsigned integer type. */ typedef unsigned long long uint64; #ifdef CARLA_OS_64BIT /** A signed integer type that's guaranteed to be large enough to hold a pointer without truncating it. */ typedef int64 pointer_sized_int; /** An unsigned integer type that's guaranteed to be large enough to hold a pointer without truncating it. */ typedef uint64 pointer_sized_uint; #else /** A signed integer type that's guaranteed to be large enough to hold a pointer without truncating it. */ typedef int pointer_sized_int; /** An unsigned integer type that's guaranteed to be large enough to hold a pointer without truncating it. */ typedef unsigned int pointer_sized_uint; #endif //============================================================================== namespace NumberToStringConverters { enum { charsNeededForInt = 32, charsNeededForDouble = 48 }; template static inline char* printDigits (char* t, Type v) noexcept { *--t = 0; do { *--t = '0' + (char) (v % 10); v /= 10; } while (v > 0); return t; } // pass in a pointer to the END of a buffer.. static inline char* numberToString (char* t, const int64 n) noexcept { if (n >= 0) return printDigits (t, static_cast (n)); // NB: this needs to be careful not to call -std::numeric_limits::min(), // which has undefined behaviour t = printDigits (t, static_cast (-(n + 1)) + 1); *--t = '-'; return t; } } //============================================================================== /** This namespace contains a few template classes for helping work out class type variations. */ namespace TypeHelpers { /** The ParameterType struct is used to find the best type to use when passing some kind of object as a parameter. Of course, this is only likely to be useful in certain esoteric template situations. Because "typename TypeHelpers::ParameterType::type" is a bit of a mouthful, there's a PARAMETER_TYPE(SomeClass) macro that you can use to get the same effect. E.g. "myFunction (PARAMETER_TYPE (int), PARAMETER_TYPE (MyObject))" would evaluate to "myfunction (int, const MyObject&)", keeping any primitive types as pass-by-value, but passing objects as a const reference, to avoid copying. */ template struct ParameterType { typedef const Type& type; }; template struct ParameterType { typedef Type& type; }; template struct ParameterType { typedef Type* type; }; template <> struct ParameterType { typedef char type; }; template <> struct ParameterType { typedef unsigned char type; }; template <> struct ParameterType { typedef short type; }; template <> struct ParameterType { typedef unsigned short type; }; template <> struct ParameterType { typedef int type; }; template <> struct ParameterType { typedef unsigned int type; }; template <> struct ParameterType { typedef long type; }; template <> struct ParameterType { typedef unsigned long type; }; template <> struct ParameterType { typedef int64 type; }; template <> struct ParameterType { typedef uint64 type; }; template <> struct ParameterType { typedef bool type; }; template <> struct ParameterType { typedef float type; }; template <> struct ParameterType { typedef double type; }; /** A helpful macro to simplify the use of the ParameterType template. @see ParameterType */ #define PARAMETER_TYPE(a) typename TypeHelpers::ParameterType::type /** These templates are designed to take a type, and if it's a double, they return a double type; for anything else, they return a float type. */ template struct SmallestFloatType { typedef float type; }; template <> struct SmallestFloatType { typedef double type; }; } } #endif // WATER_H_INCLUDED