Searched defs:resolution (Results 1 - 6 of 6) sorted by relevance
/openjdk7/jdk/src/share/classes/javax/sound/midi/ |
H A D | MidiFileFormat.java | 120 * The timing resolution of the MIDI file. 122 protected int resolution; field in class:MidiFileFormat 144 * @param resolution the timing resolution 154 public MidiFileFormat(int type, float divisionType, int resolution, int bytes, long microseconds) { argument 158 this.resolution = resolution; 171 * @param resolution the timing resolution 188 int resolution, in 187 MidiFileFormat(int type, float divisionType, int resolution, int bytes, long microseconds, Map<String, Object> properties) argument [all...] |
H A D | Sequence.java | 61 * The tempo-based timing type, for which the resolution is expressed in pulses (ticks) per quarter note. 67 * The SMPTE-based timing type with 24 frames per second (resolution is expressed in ticks per frame). 73 * The SMPTE-based timing type with 25 frames per second (resolution is expressed in ticks per frame). 79 * The SMPTE-based timing type with 29.97 frames per second (resolution is expressed in ticks per frame). 85 * The SMPTE-based timing type with 30 frames per second (resolution is expressed in ticks per frame). 105 * The timing resolution of the sequence. 108 protected int resolution; field in class:Sequence 119 * type and timing resolution. The division type must be one of the 122 * the resolution is specified in ticks per beat. For SMTPE timing, 124 * second and the resolution i 142 Sequence(float divisionType, int resolution) argument 188 Sequence(float divisionType, int resolution, int numTracks) argument [all...] |
/openjdk7/jdk/src/share/classes/com/sun/media/sound/ |
H A D | MidiUtils.java | 116 public static long ticks2microsec(long tick, double tempoMPQ, int resolution) { argument 117 return (long) (((double) tick) * tempoMPQ / resolution); 125 public static long microsec2ticks(long us, double tempoMPQ, int resolution) { argument 127 //return (long) Math.round((((double)us) * resolution) / tempoMPQ); 128 return (long) ((((double)us) * resolution) / tempoMPQ); 146 int resolution = seq.getResolution(); 169 snapshotMicro += ticks2microsec(ticks[i] - ticks[i - 1], tempos[i - 1], resolution); 176 resolution); 207 int resolution = seq.getResolution(); 217 tempos[i - 1], resolution); [all...] |
H A D | RealTimeSequencer.java | 1422 private int resolution; field in class:RealTimeSequencer.DataPump 1528 resolution = seq.getResolution(); 1812 * ((double) resolution)) 1818 resolution); 1824 (tempoFactor * ((double) divisionType) * ((double) resolution))); 1829 resolution) / 1000;
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/openjdk7/jdk/src/share/classes/java/lang/invoke/ |
H A D | MemberName.java | 79 private Object resolution; // if null, this guy is resolved field in class:MemberName 456 assert(this.resolution == null); // nobody should have touched this yet 457 //assert(referenceKindIsConsistent()); // do this after resolution 580 res.resolution = res; 661 return resolution == null; 665 assert(this.resolution == null); // not initialized yet! 667 this.resolution = this; 752 if (isResolved() || !(resolution instanceof NoSuchMethodError || 753 resolution instanceof NoSuchFieldError)) 761 if (resolution instanceo [all...] |
/openjdk7/hotspot/src/os/windows/vm/ |
H A D | os_windows.cpp | 3316 // The default timer resolution seems to be 10 milliseconds. 3319 // then we set the timer resolution down to 1 millisecond for 3321 // We carefully set the resolution back, since otherwise we 3323 // CONSIDER: if ms is small, say 3, then we should run with a high resolution time. 3330 // resolution timers running. 3332 jlong resolution; member in class:HighResolutionInterval 3335 resolution = ms % 10L; 3336 if (resolution != 0) { 3341 if (resolution != 0) { 3344 resolution [all...] |
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