| /dports/audio/gtick/gtick-0.5.5/doc/ |
| H A D | NOTES | 19 a rate of 8000 (8Hz) seems to give 60BPM
20 16000 (16Hz?) appaers to give 30BPM
21 i can only guess 4000(4Hz?) is 120BPM..
22 2000 must be 240BPM
26 8000 is 60BPM.. yes
27 16000 is in fact 120BPM!
28 4000 is 30BPM (4000 is half that of 8000.. 30 is half that of 60!)
34 so Rate (in Hz) = BPM * 133
39 can be used for the BPM setting.. as the first argument in the gtk_timeout_add is
43 1000/(BPM/60.0) (BPM is a float).. this can be easily used as the Interval arg
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| /dports/audio/libbpm/libbpm-0.3/documentation/latex/ |
| H A D | group__analysis.tex | 30 \#define {\bf BPM\_\-GOOD\_\-EVENT}
32 \#define {\bf BPM\_\-BAD\_\-EVENT}
57 \index{analysis@{analysis}!BPM\_\-GOOD\_\-EVENT@{BPM\_\-GOOD\_\-EVENT}}
58 \index{BPM\_\-GOOD\_\-EVENT@{BPM\_\-GOOD\_\-EVENT}!analysis@{analysis}}
59 \paragraph[BPM\_\-GOOD\_\-EVENT]{\setlength{\rightskip}{0pt plus 5cm}\#define BPM\_\-GOOD\_\-EVENT}…
67 \index{BPM\_\-BAD\_\-EVENT@{BPM\_\-BAD\_\-EVENT}!analysis@{analysis}}
68 \paragraph[BPM\_\-BAD\_\-EVENT]{\setlength{\rightskip}{0pt plus 5cm}\#define BPM\_\-BAD\_\-EVENT}\h…
105 \item[Returns:]BPM\_\-SUCCESS upon success, BPM\_\-FAILURE upon failure \end{Desc}
123 \item[Returns:]BPM\_\-SUCCESS upon success, BPM\_\-FAILURE upon failure \end{Desc}
157 \item[Returns:]BPM\_\-GOOD\_\-EVENT if the event is good, BPM\_\-BAD\_\-EVENT if it isn't \end{Desc}
[all …]
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| H A D | group__rf.tex | 83 \item[Returns:]BPM\_\-SUCCESS upon success, BPM\_\-FAILURE upon failure\end{Desc}
90 \item[Returns:]BPM\_\-SUCCESS upon success, BPM\_\-FAILURE upon failure \end{Desc}
106 \item[Returns:]BPM\_\-SUCCESS upon success, BPM\_\-FAILURE upon failure\end{Desc}
113 \item[Returns:]BPM\_\-SUCCESS upon success, BPM\_\-FAILURE upon failure \end{Desc}
129 \item[Returns:]BPM\_\-SUCCESS upon success, BPM\_\-FAILURE upon failure\end{Desc}
136 \item[Returns:]BPM\_\-SUCCESS upon success, BPM\_\-FAILURE upon failure \end{Desc}
152 \item[Returns:]BPM\_\-SUCCESS upon success, BPM\_\-FAILURE upon failure\end{Desc}
159 \item[Returns:]BPM\_\-SUCCESS upon success, BPM\_\-FAILURE upon failure \end{Desc}
175 \item[Returns:]BPM\_\-SUCCESS upon success, BPM\_\-FAILURE upon failure\end{Desc}
182 \item[Returns:]BPM\_\-SUCCESS upon success, BPM\_\-FAILURE upon failure \end{Desc}
[all …]
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| H A D | group__sim.tex | 1 \subsection{BPM signal simulation routines}
2 \label{group__sim}\index{BPM signal simulation routines@{BPM signal simulation routines}}
94 \item[Returns:]BPM\_\-SUCCESS \end{Desc}
112 \item[Returns:]BPM\_\-SUCCESS \end{Desc}
122 Calculates the multi-mode response of a cavity BPM defined using bpminterface structures for a beam…
128 \item[Returns:]BPM\_\-SUCCES upon succes, BPM\_\-FAILURE upon failure \end{Desc}
144 \item[Returns:]BPM\_\-SUCCES upon succes, BPM\_\-FAILURE upon failure \end{Desc}
162 \item[Returns:]BPM\_\-SUCCES upon succes, BPM\_\-FAILURE upon failure \end{Desc}
196 \item[Returns:]BPM\_\-SUCCESS upon success or BPM\_\-FAILURE upon failure \end{Desc}
212 \item[Returns:]BPM\_\-SUCCESS upon success, BPM\_\-FAILURE upon failure \end{Desc}
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| H A D | group__wave.tex | 409 \item[Returns:]BPM\_\-SUCCESS upon success, BPM\_\-FAILURE upon failure \end{Desc}
509 \item[Returns:]BPM\_\-SUCCESS upon succes, BPM\_\-FAILURE upon failure. \end{Desc}
525 \item[Returns:]BPM\_\-SUCCESS upon succes, BPM\_\-FAILURE upon failure. \end{Desc}
537 \item[Returns:]BPM\_\-SUCCESS upon succes, BPM\_\-FAILURE upon failure. \end{Desc}
571 \item[Returns:]BPM\_\-SUCCESS upon succes, BPM\_\-FAILURE upon failure. \end{Desc}
587 \item[Returns:]BPM\_\-SUCCESS upon succes, BPM\_\-FAILURE upon failure. \end{Desc}
639 \item[Returns:]BPM\_\-SUCCESS upon succes, BPM\_\-FAILURE upon failure. \end{Desc}
673 \item[Returns:]BPM\_\-SUCCESS upon succes, BPM\_\-FAILURE upon failure. \end{Desc}
689 \item[Returns:]BPM\_\-SUCCESS upon succes, BPM\_\-FAILURE upon failure. \end{Desc}
843 \item[Returns:]BPM\_\-SUCCESS upon succes, BPM\_\-FAILURE upon failure \end{Desc}
[all …]
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| H A D | main.tex | 10 …BPM) signal processing routines. It's aim is to form a complete set of routines needed to handle R…
12 …submodules which take care of different parts of the BPM signal handling. There are modules for BP…
18 …he digital signal processing module}{p.}{group__dsp_dsp}\item \doxyref{The BPM processing module}{…
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| H A D | group__processing.tex | 1 \subsection{BPM Processing Routines}
2 \label{group__processing}\index{BPM Processing Routines@{BPM Processing Routines}}
332 \item[Returns:]BPM\_\-SUCCESS upon success, BPM\_\-FAILURE upon failure \end{Desc}
350 \item[Returns:]BPM\_\-SUCCESS upon success, BPM\_\-FAILURE upon failure \end{Desc}
368 \item[Returns:]BPM\_\-SUCCESS upon success, BPM\_\-FAILURE upon failure \end{Desc}
390 \item[Returns:]BPM\_\-SUCCESS upon succes, BPM\_\-FAILURE upon failure \end{Desc}
414 \item[Returns:]BPM\_\-SUCCESS upon succes, BPM\_\-FAILURE upon failure \end{Desc}
438 \item[Returns:]BPM\_\-SUCCESS upon succes, BPM\_\-FAILURE upon failure \end{Desc}
460 \item[Returns:]BPM\_\-SUCCESS upon success, BPM\_\-FAILURE upon failure \end{Desc}
482 \item[Returns:]BPM\_\-SUCCESS upon success, BPM\_\-FAILURE upon failure \end{Desc}
[all …]
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| H A D | group__calib.tex | 34 …array of processed waveform structures, of dimension npulses from a single BPM. From this it deter…
48 \item[Returns:]BPM\_\-SUCCESS upon success, BPM\_\-FAILURE upon failure \end{Desc}
63 …he arrays \item[{\em $\ast$cal}]The returned calibration structure for the BPM that was calibrated…
66 \item[Returns:]BPM\_\-SUCCESS upon succes, BPM\_\-FAILURE upon failure \end{Desc}
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| H A D | structbunchconf.tex | 8 …th, position/slope/tilt in the world coo frame and position/slope/tilt in the BPM local coo frame.
119 where the beam hits the BPM in the BPM local co
128 slope of beam through the BPM in BPM local co
137 bunch tilt in the BPM local co
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| /dports/audio/zrythm/zrythm-1.0.0-alpha.26.0.13/doc/user/playback-and-recording/ |
| H A D | bpm-and-time-signatures.rst | 5 BPM and Time Signatures
8 BPM section in BPM and Time Signatures
11 The :term:`BPM` can be set to between 40 and 360 by
12 clicking and dragging the BPM widget.
41 .. tip:: Widgets like the BPM and Time Signature
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| /dports/audio/zrythm/zrythm-1.0.0-alpha.26.0.13/doc/user/editing/timeline/ |
| H A D | toolbar.rst | 26 time-stretched to match the new BPM, each time the BPM
27 changes. If this is off, changing the BPM will cause
29 new BPM without being time-stretched.
|
| /dports/audio/exaile/exaile-4.1.1/plugins/bpm/ |
| H A D | PLUGININFO | 3 Name=_("BPM Counter")
4 Description=_("Provides a manual BPM counter, and BPM autodetection when the bpmdetect plugin from …
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| /dports/audio/beets/beets-1.4.9/docs/plugins/ |
| H A D | bpm.rst | 1 BPM Plugin
18 allows to determine the BPM within 5% accuracy.
35 BPM.
37 - **overwrite**: Overwrite the track's existing BPM.
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| /dports/multimedia/libmediainfo/MediaInfo_CLI_GNU_FromSource/MediaInfoLib/Source/MediaInfo/Audio/ |
| H A D | File_ExtendedModule.cpp | 62 int16u Length, Channels, Patterns, Instruments, Flags, Tempo, BPM; in Read_Buffer_Continue() local
78 Get_L2 (BPM, "BPM"); in Read_Buffer_Continue()
89 Fill(Stream_General, 0, "BPM", BPM); in Read_Buffer_Continue()
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| /dports/multimedia/mediainfo/MediaInfo_CLI_GNU_FromSource/MediaInfoLib/Source/MediaInfo/Audio/ |
| H A D | File_ExtendedModule.cpp | 62 int16u Length, Channels, Patterns, Instruments, Flags, Tempo, BPM; in Read_Buffer_Continue() local
78 Get_L2 (BPM, "BPM"); in Read_Buffer_Continue()
89 Fill(Stream_General, 0, "BPM", BPM); in Read_Buffer_Continue()
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| /dports/multimedia/libzen/MediaInfo_CLI_GNU_FromSource/MediaInfoLib/Source/MediaInfo/Audio/ |
| H A D | File_ExtendedModule.cpp | 62 int16u Length, Channels, Patterns, Instruments, Flags, Tempo, BPM; in Read_Buffer_Continue() local
78 Get_L2 (BPM, "BPM"); in Read_Buffer_Continue()
89 Fill(Stream_General, 0, "BPM", BPM); in Read_Buffer_Continue()
|
| /dports/audio/zrythm/zrythm-1.0.0-alpha.26.0.13/doc/user/zrythm-interface/ |
| H A D | transport-bar.rst | 16 BPM and Time Signature
18 BPM and Time Signature are covered in
19 :ref:`playback-and-recording/bpm-and-time-signatures:BPM and Time Signatures`.
|
| /dports/graphics/libprojectm/projectm-3.1.12/presets/presets_mischa_collection/ |
| H A D | Fumbling_Foo & Flexi, Martin, Orb, Unchained - Harmony Nova v2a.milk | 290 per_frame_init_23=//Fill BPM Tab
292 per_frame_init_25=//BPM = bd_minbpm;
293 per_frame_init_26=//loop (bd_nres,gmegabuf (n) = BPM; BPM *= bd_finc; n += bd_recsz;);
318 per_frame_11=n = 0; BPM = bd_minbpm;
321 per_frame_14= bd_arg = BPM/60*t0*6.283;
323 per_frame_16= BPM *= bd_finc;
335 per_frame_28= BPM = gmegabuf(bd_tabptr); bd_omega = BPM/60*6.283;
340 per_frame_33= EC_Steps = int (1 + BPM/50)*2;
385 per_frame_78= BPM = gmegabuf(bd_tabptr);
389 per_frame_82= bd_cos = cos (BPM/60*6.28*time);
[all …]
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| /dports/audio/artyfx-lv2/openAV-ArtyFX-release-1.3-24-g6010d1a/ |
| H A D | manual.md | 68 Della is a BPM adjusting delay, with 3 controls:
82 the BPM, so it "jumps" between a 1/8th note, 1/4 note, 1/2 note and whole note
83 duration. Della picks up the BPM from the host program: so if you change tempo
132 again. Note that this control is BPM dependent, and the centre is directly on
187 Time is a BPM dependent control that changes the loop-record and playback
191 BPM. Usually the BPM will be taken from the host program (or JACK transport),
194 The "HostBPM" button controls the BPM source. When the button is blue, the
195 HostBPM is enabled. Turning the button off makes the manual BPM dial appear.
196 The dial also shows the current BPM.
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| /dports/devel/godot-tools/godot-demo-projects-8d9d58f112d8/audio/bpm_sync/ |
| H A D | README.md | 1 # Audio BPM Sync
3 A demo of how to sync the audio playback with the time for a consistent BPM.
|
| H A D | project.godot | 18 config/name="BPM Sync Demo"
19 config/description="A demo of how to sync the audio playback with the time for a consistent BPM."
|
| /dports/games/ivan/ivan-059/audio/ |
| H A D | midiplayback.cpp | 85 …((MIDIHdr->masterClock - MIDIHdr->currentState.lastTempoChange) * 60) / MIDIHdr->currentState.BPM); in MPB_CurrentTimePosition()
144 if (MIDIHdr->currentState.BPM == 0) in MPB_DetermineMIDIFileStats()
146 MIDIHdr->currentState.BPM = MPB_DEFAULT_TEMPO; in MPB_DetermineMIDIFileStats()
156 …uint32_t) ((*maxLength - MIDIHdr->currentState.lastTempoChange) * 60) / MIDIHdr->currentState.BPM); in MPB_DetermineMIDIFileStats()
674 existingBPM = MIDIHdr->currentState.BPM; in MPB_ProcessMetaEvent()
676 …memcpy(&MIDIHdr->currentState.BPM, event->event.metaEvent.data, event->event.metaEvent.length); //… in MPB_ProcessMetaEvent()
678 MIDIHdr->currentState.BPM = BPM(MIDIHdr->currentState.BPM); in MPB_ProcessMetaEvent()
679 MPB_SetTickRate(MIDIHdr->currentState.BPM, MIDIHdr->PPQ); in MPB_ProcessMetaEvent()
681 if ((existingBPM != MIDIHdr->currentState.BPM) && existingBPM) in MPB_ProcessMetaEvent()
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| /dports/graphics/libprojectm/projectm-3.1.12/presets/presets_tryptonaut/ |
| H A D | yin - 191 - Temporal singularities.milk | 110 per_frame_47=BPM = BPM + .01*(60*FPS/interval - BPM);
111 per_frame_48=monitor = 0*pctg+1*BPM;
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| /dports/graphics/libprojectm/projectm-3.1.12/presets/presets_yin/ |
| H A D | yin - 191 - Temporal singularities.milk | 110 per_frame_47=BPM = BPM + .01*(60*FPS/interval - BPM);
111 per_frame_48=monitor = 0*pctg+1*BPM;
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| /dports/graphics/libprojectm/projectm-3.1.12/presets/presets_bltc201/ |
| H A D | yin - 191 - Temporal singularities.milk | 110 per_frame_47=BPM = BPM + .01*(60*FPS/interval - BPM);
111 per_frame_48=monitor = 0*pctg+1*BPM;
|