支持系统
OS X 10.11
价格
12
下载次数
360
官方网站
Native Lossless Audio for macOS with BS2B support Colibri is a native macOS audio player built from scratch on top of the award-winning BASS technology, supports cristal-clear bit-perfect playback of all popular lossless and lossy audio formats, uses only a tiny amount of computing power and offers a clean and intuitive user experience. Saves your battery Colibri uses a barely noticable amount of computing power during the playback of your music. Plays your audio - FLAC, ALAC, WAV, AIFF, APE, TTA, DSD, WavPack - Ogg Vorbis, MP1/MP2/MP3 and AAC/M4A - network streams/online radio - MOD and MIDI files (with per song SoundFont support) - 10-band Equalizer Handles CUE Sheets Reads, processes - and to some extent - sanitizes cue sheets Supports gapless playback Colibri is extensively designed from the ground-up to provide a true gapless listening experience - with or without using a Cue Sheet. Picks up where you left off Saves your current playlist upon quitting and re-opens your songs when you start it up again. Avoids most problems Colibri does its' best to avoid most problems before, during and after playback. Understands your language Colibri is capable of rendering the song information as it was intended to be shown: of all the tried metadata it had no problem with displaying cyrillic or kanji/katakana/hiragana characters mixed with ASCII. Respects your privacy Colibri does not phone home, collect usage data or modify files in any way. Displays album art - Colibri displays embedded cover art for FLAC files and ID3/iTunes artwork metadata for other files (mainly M4A / ALAC and MP3). When that yields not results then it looks in the folder where the current song resides for a cover art image. Resides in your Menu Bar Colibri can place an unobtrusively small icon in the Menu Bar for easy access and playlist control Integrates with Finder Colibri conforms all of Apple's strict requirements Adjusts to your Display Colibri's interface elements scale themselves nicely on every screen resolution and pixel density.