//------------------------------------------------------------------------------ /* This file is part of Beast: https://github.com/vinniefalco/Beast Copyright 2013, Vinnie Falco Portions of this file are from JUCE. Copyright (c) 2013 - Raw Material Software Ltd. Please visit http://www.juce.com 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. */ //============================================================================== #include "../RelativeTime.h" // VFALCO TODO Migrate the localizable strings interfaces for this file #ifndef NEEDS_TRANS #define NEEDS_TRANS(s) (s) #endif #ifndef TRANS #define TRANS(s) (s) #endif namespace beast { RelativeTime::RelativeTime (const double secs) noexcept : numSeconds (secs) { } RelativeTime::RelativeTime (const RelativeTime& other) noexcept : numSeconds (other.numSeconds) { } RelativeTime::~RelativeTime() noexcept {} //============================================================================== RelativeTime RelativeTime::milliseconds (const int milliseconds) noexcept { return RelativeTime (milliseconds * 0.001); } RelativeTime RelativeTime::milliseconds (const int64 milliseconds) noexcept { return RelativeTime (milliseconds * 0.001); } RelativeTime RelativeTime::seconds (double s) noexcept { return RelativeTime (s); } RelativeTime RelativeTime::minutes (const double numberOfMinutes) noexcept { return RelativeTime (numberOfMinutes * 60.0); } RelativeTime RelativeTime::hours (const double numberOfHours) noexcept { return RelativeTime (numberOfHours * (60.0 * 60.0)); } RelativeTime RelativeTime::days (const double numberOfDays) noexcept { return RelativeTime (numberOfDays * (60.0 * 60.0 * 24.0)); } RelativeTime RelativeTime::weeks (const double numberOfWeeks) noexcept { return RelativeTime (numberOfWeeks * (60.0 * 60.0 * 24.0 * 7.0)); } //============================================================================== int64 RelativeTime::inMilliseconds() const noexcept { return (int64) (numSeconds * 1000.0); } double RelativeTime::inMinutes() const noexcept { return numSeconds / 60.0; } double RelativeTime::inHours() const noexcept { return numSeconds / (60.0 * 60.0); } double RelativeTime::inDays() const noexcept { return numSeconds / (60.0 * 60.0 * 24.0); } double RelativeTime::inWeeks() const noexcept { return numSeconds / (60.0 * 60.0 * 24.0 * 7.0); } //============================================================================== RelativeTime& RelativeTime::operator= (const RelativeTime& other) noexcept { numSeconds = other.numSeconds; return *this; } RelativeTime RelativeTime::operator+= (RelativeTime t) noexcept { numSeconds += t.numSeconds; return *this; } RelativeTime RelativeTime::operator-= (RelativeTime t) noexcept { numSeconds -= t.numSeconds; return *this; } RelativeTime RelativeTime::operator+= (const double secs) noexcept { numSeconds += secs; return *this; } RelativeTime RelativeTime::operator-= (const double secs) noexcept { numSeconds -= secs; return *this; } RelativeTime operator+ (RelativeTime t1, RelativeTime t2) noexcept { return t1 += t2; } RelativeTime operator- (RelativeTime t1, RelativeTime t2) noexcept { return t1 -= t2; } bool operator== (RelativeTime t1, RelativeTime t2) noexcept { return t1.inSeconds() == t2.inSeconds(); } bool operator!= (RelativeTime t1, RelativeTime t2) noexcept { return t1.inSeconds() != t2.inSeconds(); } bool operator> (RelativeTime t1, RelativeTime t2) noexcept { return t1.inSeconds() > t2.inSeconds(); } bool operator< (RelativeTime t1, RelativeTime t2) noexcept { return t1.inSeconds() < t2.inSeconds(); } bool operator>= (RelativeTime t1, RelativeTime t2) noexcept { return t1.inSeconds() >= t2.inSeconds(); } bool operator<= (RelativeTime t1, RelativeTime t2) noexcept { return t1.inSeconds() <= t2.inSeconds(); } //============================================================================== static void translateTimeField (String& result, int n, const char* singular, const char* plural) { result << TRANS (String((n == 1) ? singular : plural)) .replace (n == 1 ? "1" : "2", String (n)) << ' '; } String RelativeTime::getDescription (const String& returnValueForZeroTime) const { if (numSeconds < 0.001 && numSeconds > -0.001) return returnValueForZeroTime; String result; result.preallocateBytes (32); if (numSeconds < 0) result << '-'; int fieldsShown = 0; int n = std::abs ((int) inWeeks()); if (n > 0) { translateTimeField (result, n, NEEDS_TRANS("1 week"), NEEDS_TRANS("2 weeks")); ++fieldsShown; } n = std::abs ((int) inDays()) % 7; if (n > 0) { translateTimeField (result, n, NEEDS_TRANS("1 day"), NEEDS_TRANS("2 days")); ++fieldsShown; } if (fieldsShown < 2) { n = std::abs ((int) inHours()) % 24; if (n > 0) { translateTimeField (result, n, NEEDS_TRANS("1 hour"), NEEDS_TRANS("2 hours")); ++fieldsShown; } if (fieldsShown < 2) { n = std::abs ((int) inMinutes()) % 60; if (n > 0) { translateTimeField (result, n, NEEDS_TRANS("1 minute"), NEEDS_TRANS("2 minutes")); ++fieldsShown; } if (fieldsShown < 2) { n = std::abs ((int) inSeconds()) % 60; if (n > 0) { translateTimeField (result, n, NEEDS_TRANS("1 seconds"), NEEDS_TRANS("2 seconds")); ++fieldsShown; } if (fieldsShown == 0) { n = std::abs ((int) inMilliseconds()) % 1000; if (n > 0) result << n << ' ' << TRANS ("ms"); } } } } return result.trimEnd(); } std::string RelativeTime::to_string () const { return getDescription ().toStdString(); } }