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cwtest/cfg : main.cfg, 20221002/ preset_sel/ commits.

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kevin 2022-10-01 18:58:04 -04:00
parent 64fd34c6ec
commit d4e52f4cf2
8 changed files with 19796 additions and 11 deletions
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src/cwtest/cfg/20221002/beck1_4.cfg Normal file
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{
test: {
flow_proc_dict: {
balance: {
vars: {
in: { type:real, value:0.5, doc:"Input vaue" },
out: { type:real, doc:"Ouput value. Same as input value."},
inv_out: { type:real, doc:"1.0 minus output value."}
}
}
audio_in: {
vars: {
dev_label: { type:string, doc:"Audio device label." },
out: { type:audio, doc:"Audio output" },
}
}
audio_out: {
vars: {
dev_label: { type:string, doc:"Audio device label." },
in: { type:audio, srcFl:true, doc:"Audio input." }
}
}
audioFileIn: {
vars: {
fname: { type:string, doc:"Audio file name." },
out:{ type:audio, doc:"Audio file output" },
eofFl:{ type:bool, eofFl: true, doc:"Set the system 'halt' flag when the audio is completely read."},
}
}
audioFileOut: {
vars: {
fname: { type:string, doc:"Audio file name." },
bits: { type:uint, value:32, doc:"Audio file word width. (8,16,24,32,0=float32)."},
in: { type:audio, srcFl:true, doc:"Audio file input." }
}
}
audio_gain: {
vars: {
in: { type:audio, srcFl:true, doc:"Audio input." },
gain: { type:real, value:1.0, doc:"Gain coefficient." }
out: { type:audio, doc:"Audio output." },
}
}
audio_split: {
vars: {
in: { type:audio, srcFl:true, doc:"Audio input." },
select: { type:bool, doc:"Enable/Disable each channel" }
gain: { type:real, value:1.0, doc:"Audio gain for each selected (output) channel." }
out: { type:audio, doc:"Audio output." },
}
presets:
{
mute_off: { gain:1 },
mute_on: { gain:0 },
}
}
audio_duplicate: {
vars: {
in: { type:audio, srcFl:true, doc:"Audio input."},
duplicate: { type: uint, doc:"Count of times to repeat this channel." },
gain: { type: real, value:1.0, doc:"Audio gain." },
out: { type:audio, doc:"Audio output containing repeat * input channel count channels."}
}
}
audio_merge: {
vars: {
in0: { type:audio, srcFl:true, doc:"First audio input." },
in1: { type:audio, srcFl:true, doc:"Second audio input." },
gain: { type:real, value:1.0, doc:"Audio gain for each selected (output) channel." }
out: { type:audio, doc:"Audio output. Channel count is the sum of the input channel count." },
}
}
audio_mix: {
vars: {
in0: { type:audio, srcFl:true, doc:"First audio input." },
in1: { type:audio, srcFl:true, doc:"Second audio input." },
gain0: { type:real, value:0.5, doc:"Audio gain for input 0." },
gain1: { type:real, value:0.5, doc:"Audio gain for input 1." },
out: { type:audio, doc:"Audio output. Channel count is the sum of the input channel count." },
}
}
audio_delay: {
vars: {
in: { type:audio, srcFl:true, doc:"Audio input." },
maxDelayMs: { type:real, value:1000.0 doc:"Maximum possible delay in milliseconds." },
delayMs: { type:real, doc:"Delay in milliseconds." },
out: { type:audio, doc:"Audio output." },
}
}
sine_tone: {
vars: {
srate: { type:real, value:48000.0, doc:"Sine tone sample rate."}
chCnt: { type:uint, value:2, doc:"Output signal channel count."},
hz: { type:real, value:440.0, doc:"Frequency in Hertz."},
gain: { type:real, value:0.8, doc:"Signal frequency."},
out: { type:audio, doc:"Audio output" },
}
presets: {
a: { hz:220 },
b: { hz:880 },
}
}
pv_analysis: {
vars: {
in: { type:audio, srcFl:true, doc:"Audio input." },
hopSmpN: { type:uint, value: 128, doc:"Hop sample count." },
wndSmpN: { type:uint, value: 512, doc:"Window sample count." },
hzFl: { type:bool, value: false, doc:"Calculate frequency via the method of phase changeof each bin." },
out: { type:spectrum, doc:"Spectrum output." }
}
}
pv_synthesis: {
vars: {
in: { type:spectrum, srcFl:true, doc:"Spectrum input." },
out: { type:audio, doc:"Audio output." }
}
}
spec_dist: {
vars: {
in: { type:spectrum, srcFl:true, doc:"Spectrum input." },
ceiling: { type:real, value: 30.0, doc:"Ceiling parameter."},
expo: { type:real, value: 2.0, doc:"Exponent parameter."},
thresh: { type:real, value: 54.0, doc:"Threshold parameter."},
upr: { type:real, value: -0.7, doc:"Upper slope parameter."},
lwr: { type:real, value: 2.0, doc:"Lower slope parameter."},
mix: { type:real, value: 0.0, doc:"Basic/Bump Mix parameter."},
out: { type:spectrum, doc:"Spectrum output." },
}
presets: {
dry: {
}
kc: {
ceiling: 20.0,
expo: 2.0,
thresh: 65.0,
upr: 0.0,
lwr: 2.0,
mix: 0.0
}
a: {
ceiling: 20.0
expo: 2.0
thresh: 60.0
upr: [ -1.1, -0.99],
lwr: 2.0
mix: 0.0
}
b: {
ceiling: 20.0
expo: 2.0
thresh: [ 77.0, 74.0 ],
upr: -0.5
lwr: [ 3.0, 2.0 ],
mix: 0.0
}
c: {
ceiling: 20.0
expo: 2.0
thresh: 80.0
upr: -0.5
lwr: 5.0
mix: 0.0
}
d: {
ceiling: 20.0
expo: 2.0
thresh: 70.0
upr: [ -3.9, 04.5]
lwr: 4.0
mix: 0.0
}
f_1: {
ceiling: 20.0
expo: 2.0
thresh: 50.0
upr: -3.0
lwr: 1.0
mix: 0.0
}
f_2: {
ceiling: 20.0
expo: 2.0
thresh: 60.0
upr: -3.0
lwr: 1.0
mix: 0.0
}
f_3: {
ceiling: 20.0
expo: 2.0
thresh: 55.0
upr: -3.0
lwr: 1.0
mix: 0.0
}
f_4: {
ceiling: 20.0
expo: 2.0
thresh: 55.0
upr: -5.0
lwr: 1.0
mix: 0.0
}
g: {
ceiling: 40.0
expo: 8.0
thresh: [60.0 64.0]
upr: -0.7
lwr: 8.0
mix: 1.0
}
g_a: {
ceiling: 40.0
expo: 2.0
thresh: [50.0 54.0]
upr: -0.7
lwr: 2.0
mix: 1.0
}
g_1_a: {
ceiling: 20.0
expo: 2.0
thresh: [50.0 54.0]
upr: -0.7
lwr: 8.0
mix: 1.0
}
g_1_d: {
ceiling: [60.0 64.0]
expo: [ 7.0 5.0]
thresh: [40.0 34.0]
upr: [-0.4 -0.3]
lwr: [ 7.0 5.0]
mix: 1.0
}
}
}
compressor: {
vars: {
in: { type:audio, srcFl: true, doc:"Audio input." },
bypass: { type:bool, value: false, doc:"Bypass the compressor."},
igain: { type:real, value: 1.0, doc:"Input gain."},
thresh: { type:real, value: 0.0, doc:"Attack threshold in dB."},
ratio: { type:real, value: 2.0, doc:"Compression ratio."},
atk_ms: { type:real, value: 20.0, doc:"Attack time in milliseconds."},
rls_ms: { type:real, value: 20.0, doc:"Release time in milliseconds."},
wnd_ms: { type:real, value: 200.0, doc:"RMS calc. window length in milliseconds."},
maxWnd_ms: { type:real, value: 1000.0, doc:"Maximim (allocated) window length in milliseconds."},
ogain: { type:real, value: 1.0, doc:"Output gain."},
out: { type:audio, doc:"Audio output." },
}
presets: {
dflt: {
igain: 3.0
thresh: 60.0
ratio: 5.0
atk_ms: 5.0
rls_ms: 20.0
wnd_ms:100.0
ogain: 1.0
}
kc: {
bypass: false
igain: 3.0
thresh: 80.0
ratio: 2.0
atk_ms: 20.0
rls_ms: 1000.0
wnd_ms: 200.0
ogain: 1.0
}
dry: {
}
a: {
igain: 6.0
ogain: 1.0
}
b: {
igain: 10.0
ogain: 1.0
}
c: {
igain: 11.0
ogain: 1.0
}
d: {
igain: 9.0
ogain: 1.0
}
f_1: {
igain: 6.0
ogain: 1.0
}
f_2: {
igain: 6.0
ogain: 1.0
}
f_3: {
igain: 6.0
ogain: 1.0
}
f_4: {
igain: 6.0
ogain: 1.0
}
g: {
igain: 10.0
ogain: 0.25
}
g_a: {
igain: 10.0
ogain: 0.25
}
g_1_a: {
igain: 10.0
ogain: 0.25
}
g_1_d: {
igain: 10.0
ogain: 0.25
}
}
}
}
preset_sel: {
params: {
//score_fn: "~/src/currawong/projects/score_proc/data/play_file.csv",
//score_fn: "~/src/cwtest/src/cwtest/cfg/preset_sel/score/20220423/temp.csv",
score_fn: "~/src/currawong/audio/workshop/beck1/record_4/play_score.csv",
record_dir: "~/src/cwtest/src/cwtest/cfg/preset_sel/preset_sel_fragments",
//record_fn: "preset_sel_20220423",
//record_fn: "preset_sel_20220507",
record_fn: "workshop_presets",
record_fn_ext: "txt",
crossFadeSrate: 48000.0, // TODO: move to flow cfg. and set via 'system default sample rate'
crossFadeCount: 3,
presets: {
preset_labelL: [ "dry", "a", "b", "c", "d", "f1", "f2", "f3", "f4", "g", "ga", "g1a", "g1d" ],
default_gain: 1.0,
default_wet_dry_gain: 0.5,
default_fade_ms: 500.0,
default_preset: "dry",
default_master_wet_in_gain: 1.0,
default_master_wet_out_gain: 1.0,
default_master_dry_gain: 1.0,
default_master_sync_delay_ms: 0, // spirio 400
},
midi_play_record: {
max_midi_msg_count: 32768,
midi_timer_period_micro_sec: 15000,
all_off_delay_ms: 2500, // delay after stop time to turn off all notes
log_in_flag: false,
log_out_flag: false,
half_pedal_flag: false,
midi_device_list: [
// piano
{
enableFl: true,
//midi_out_device: "MIDIFACE 2x2",
//midi_out_port: "MIDIFACE 2x2 Midi Out 1",
midi_out_device: "Scarlett 18i20 USB",
midi_out_port: "Scarlett 18i20 USB MIDI 1",
//midi_out_device: "PipeWire-RT-Event",
//midi_out_port: "input",
// pedal down velocity input/output mapping
/*
pedal: {
down_id: 127,
down_vel: 75,
half_down_id: 64,
half_down_vel: 43,
half_up_id: 63,
half_up_vel: 43
},
*/
// 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24
// spirio vel_table: [ 1, 4, 10, 12, 12, 18, 24, 24, 30, 36, 36, 44, 48, 52, 58, 64, 64, 70, 76, 82, 88, 94,100,106,112 ]
// vel_table: [ 1, 5 10, 16, 21, 26, 32, 37, 42, 48, 53, 58, 64, 69, 74, 80, 85, 90, 96,101,106,112,117,122,127 ] ,
},
{
enableFl: true,
//midi_out_device: "Fastlane",
//midi_out_port: "Fastlane MIDI A",
midi_out_device: "MIDIFACE 2x2",
midi_out_port: "MIDIFACE 2x2 Midi Out 2",
//midi_out_device: "PC-300",
//midi_out_port: "PC-300 MIDI 1",
// 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 34
//vel_table: [ 1, 4, 10, 12, 12, 18, 24, 24, 30, 36, 36, 44, 48, 52, 58, 64, 64, 70, 76, 82, 88, 94,100,106,112 ]
//vel_table: [ 1, 5 10, 16, 21, 26, 32, 37, 42, 48, 53, 58, 64, 69, 74, 80, 85, 90, 96,101,106,112,117,122,127 ] ,
},
//{ midi_out_device: "PipeWire-RT-Event", midi_out_port: "input" },
],
}
frag_panel: {
panel: {
name: fragPanelId
addClassName: fragPanel
row: {
name: fragPanelRowId
addClassName: fragPanelRow
col: {
numb_disp: { name: fragBegLocId, title:"Beg Loc", value: 0 },
numb_disp: { name: fragEndLocId, title:"End Loc", value: 0 },
number: { name: fragInGainId, title:"In Gain", min:0.0, max:100.0, step:0.1, decpl:1 },
number: { name: fragOutGainId, title:"Out Gain", min:0.0, max:100.0, step:0.1, decpl:1 },
},
col: {
row: {
name: fragPresetRowId,
addClassName: fragPresetRow,
},
row: {
string: { name: fragNoteId, addClassName: fragNote, title:"Note" },
}
},
col: {
number:{ name: fragWetDryGainId, title:"Wet/Dry", min:0.0, max:1.0, step:0.1, decpl:2 },
number:{ name: fragFadeOutMsId, title:"Fade Ms", min:0.0, max:5000, step:1, decpl:0 },
row: {
button:{ name: fragPlaySeqBtnId, title:"Play Seq" },
button:{ name: fragPlayAllBtnId, title:"Play All" },
}
},
col: {
number: { name: fragBegPlayLocId, title:"Begin", min:0, max:1000000, step:1, decpl:0 },
number: { name: fragEndPlayLocId, title:"End", min:0, max:1000000, step:1, decpl:0 },
button: { name: fragPlayBtnId, title:"Play" }
}
}
}
},
},
ui: {
physRootDir: "~/src/cwtest/src/libcw/html/preset_sel",
dfltPageFn: "index.html",
port: 5687,
rcvBufByteN: 2048,
xmtBufByteN: 2048,
fmtBufByteN: 4096,
websockTimeOutMs: 50, // max time out while blocking for a websock event
uiCfgFn: "ui.cfg" // default UI resource description
},
serial: {
pollPeriodMs: 50,
recvBufByteN: 512,
array: [
{
enable_flag: false,
label: "port1", // User label
device: "/dev/ttyUSB0", // Serial device name
baud: 115200,
bits: 8,
stop: 1,
parity: "no",
}
]
},
midi: {
parserBufByteN: 1024,
},
audio: {
meterMs: 50, // audio meter filter length and meter callback period
threadTimeOutMs: 50, // audio thread cond var time out
groupL: [
{
enableFl: true, // (req)
label: "main", // (req) User label
id: 0, // (req) User id (can also be set at runtime)
srate: 48000, // (req) Sample rate used by all devices in this group
dspFrameCnt: 64 // (req) Size of DSP processing buffers
}
],
deviceL: [
{
// System device name
device: "Scarlett 18i20 USB USB Audio",
//device: "USB Audio CODEC USB Audio",
//device: "HDA Intel PCH CS4208 Analog",
enableFl: true, // (req)
label: "main", // (req) User label
userId: 0, // (opt) User id (can also be set at runtime)
framesPerCycle: 512, // (req) Samples per audio device cycle
cycleCnt: 3, // (req) Count of device cycle buffers.
inGroup: "main", // (opt) All devices in a group must be 'ready' to source
outGroup: "main", // (opt) or sink data before an audio callback is made for that group
}
]
},
socket: {
maxSocketCnt: 10,
recvBufByteCnt: 4096,
threadTimeOutMs: 50,
socketL: [],
}
flow: {
framesPerCycle: 64, // time-domain audio cycles frame per cycle
maxCycleCount: 15000, // 0 disables maxCycleCount
printNetworkFl: false, // print the network instance
printClassDictFl: false, // print the class description dictionary
no_spirio_network: {
aud_in: { class: audio_in, args:{ default:{dev_label:"main"} } },
// select the first two channels (this reduces the channel count if there are more than 2 incoming channels)
ivory_in: { class: audio_split, in:{ in:aud_in.out } args:{ default:{select[1,1]}} }
vsl_in: { class: audio_split, in:{ in:aud_in.out } args:{ default:{select[0,0,1,1]}} }
// delay the incoming audio signal to sync it with the piano
sync_delay: { class: audio_delay, in: { in:vsl_in.out }, args:{ default:{ delayMs:0 } }}
mstr_wet_in_gain: { class: audio_gain, in:{ in:ivory_in.out }, args:{}}
// wet signal processing chain
wet_in_gain: { class: audio_gain, in:{ in:mstr_wet_in_gain.out }, args:{}},
pva: { class: pv_analysis, in:{ in:wet_in_gain.out }, args:{ default:{ wndSmpN:512, hopSmpN:128, hzFl:false } } },
sd: { class: spec_dist, in:{ in:pva.out }, preset:kc },
pvs: { class: pv_synthesis, in:{ in:sd.out }, },
cmp: { class: compressor, in:{ in:pvs.out }, preset:kc },
wet_out_gain: { class: audio_gain, in:{ in:cmp.out }, args:{}},
mute_wet: { class: audio_gain, in:{ in:wet_out_gain.out }, args:{}},
// apply the wet/dry gain balance
wd_bal: { class: balance, args{}},
wet_bal_gain: { class: audio_gain, in:{ in:wet_out_gain.out, gain:wd_bal.out }, args:{}},
dry_bal_gain: { class: audio_gain, in:{ in:vsl_in.out, gain:wd_bal.inv_out }, args:{}},
mstr_wet_out_gain: { class: audio_gain, in:{ in:wet_bal_gain.out }, args:{}}
mstr_dry_out_gain: { class: audio_gain, in:{ in:dry_bal_gain.out }, args:{}},
// merge the wet/dry signals into a single 4 channel signal
merge0: { class: audio_merge, in:{ in0:mstr_wet_out_gain.out, in1:mstr_dry_out_gain.out }, args:{} },
merge1: { class: audio_merge, in:{ in0:mstr_wet_out_gain.out, in1:sync_delay.out }, args:{} },
//merge1: { class: audio_merge, in:{ in0:ivory_in.out, in1:vsl_in.out }, args:{} },
aout: { class: audio_out, in:{ in:merge1.out }, args:{ default:{dev_label:"main"} } },
}
network: {
aud_in: { class: audio_in, args:{ default:{dev_label:"main"} } },
// select the first two channels (this reduces the channel count if there are more than 2 incoming channels)
split_in: { class: audio_split, in:{ in:aud_in.out } args:{ default:{select[1,1]}} }
// delay the incoming audio signal to sync it with the piano
sync_delay { class: audio_delay, in: { in:split_in.out }, args:{ default:{ delayMs:400 } }}
mstr_wet_in_gain: { class: audio_gain, in:{ in:sync_delay.out }, args:{}}
// wet signal processing chain
wet_in_gain: { class: audio_gain, in:{ in:mstr_wet_in_gain.out }, args:{}},
pva: { class: pv_analysis, in:{ in:wet_in_gain.out }, args:{ default:{ wndSmpN:512, hopSmpN:128, hzFl:false } } },
sd: { class: spec_dist, in:{ in:pva.out }, preset:kc },
pvs: { class: pv_synthesis, in:{ in:sd.out }, },
cmp: { class: compressor, in:{ in:pvs.out }, preset:kc },
wet_out_gain: { class: audio_gain, in:{ in:cmp.out }, args:{}},
mute_wet: { class: audio_gain, in:{ in:wet_out_gain.out }, args:{}},
// apply the wet/dry gain balance
wd_bal: { class: balance, args{}},
wet_bal_gain: { class: audio_gain, in:{ in:mute_wet.out, gain:wd_bal.out }, args:{}},
dry_bal_gain: { class: audio_gain, in:{ in:sync_delay.out, gain:wd_bal.inv_out }, args:{}},
mstr_wet_out_gain: { class: audio_gain, in:{ in:wet_bal_gain.out }, args:{}}
mstr_dry_out_gain: { class: audio_gain, in:{ in:dry_bal_gain.out }, args:{}},
// merge the wet/dry signals into a single 4 channel signal
merge: { class: audio_merge, in:{ in0:mstr_wet_out_gain.out, in1:mstr_dry_out_gain.out }, args:{} },
aout: { class: audio_out, in:{ in:merge.out }, args:{ default:{dev_label:"main"} } },
}
presets: {
dry: {
mute_wet: { gain:0 },
},
a: { sd:a, cmp:a, mute_wet:{ gain:1 } },
b: { sd:b, cmp:b, mute_wet:{ gain:1 } },
c: { sd:c, cmp:c, mute_wet:{ gain:1 } },
d: { sd:d, cmp:d, mute_wet:{ gain:1 } },
f1: { sd:f_1, cmp:f_1, mute_wet:{ gain:1 } },
f2: { sd:f_2, cmp:f_2, mute_wet:{ gain:1 } },
f3: { sd:f_3, cmp:f_3, mute_wet:{ gain:1 } },
f4: { sd:f_4, cmp:f_4, mute_wet:{ gain:1 } },
g: { sd:g, cmp:g, mute_wet:{ gain:1 } },
ga: { sd:g_a, cmp:g_a, mute_wet:{ gain:1 } },
g1a: { sd:g_1_a, cmp:g_1_a, mute_wet:{ gain:1 } },
g1d: { sd:g_1_d, cmp:g_1_d, mute_wet:{ gain:1 } }
}
}
}
}

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{
test: {
flow_proc_dict: {
balance: {
vars: {
in: { type:real, value:0.5, doc:"Input vaue" },
out: { type:real, doc:"Ouput value. Same as input value."},
inv_out: { type:real, doc:"1.0 minus output value."}
}
}
audio_in: {
vars: {
dev_label: { type:string, doc:"Audio device label." },
out: { type:audio, doc:"Audio output" },
}
}
audio_out: {
vars: {
dev_label: { type:string, doc:"Audio device label." },
in: { type:audio, srcFl:true, doc:"Audio input." }
}
}
audioFileIn: {
vars: {
fname: { type:string, doc:"Audio file name." },
out:{ type:audio, doc:"Audio file output" },
eofFl:{ type:bool, eofFl: true, doc:"Set the system 'halt' flag when the audio is completely read."},
}
}
audioFileOut: {
vars: {
fname: { type:string, doc:"Audio file name." },
bits: { type:uint, value:32, doc:"Audio file word width. (8,16,24,32,0=float32)."},
in: { type:audio, srcFl:true, doc:"Audio file input." }
}
}
audio_gain: {
vars: {
in: { type:audio, srcFl:true, doc:"Audio input." },
gain: { type:real, value:1.0, doc:"Gain coefficient." }
out: { type:audio, doc:"Audio output." },
}
}
audio_split: {
vars: {
in: { type:audio, srcFl:true, doc:"Audio input." },
select: { type:bool, doc:"Enable/Disable each channel" }
gain: { type:real, value:1.0, doc:"Audio gain for each selected (output) channel." }
out: { type:audio, doc:"Audio output." },
}
presets:
{
mute_off: { gain:1 },
mute_on: { gain:0 },
}
}
audio_duplicate: {
vars: {
in: { type:audio, srcFl:true, doc:"Audio input."},
duplicate: { type: uint, doc:"Count of times to repeat this channel." },
gain: { type: real, value:1.0, doc:"Audio gain." },
out: { type:audio, doc:"Audio output containing repeat * input channel count channels."}
}
}
audio_merge: {
vars: {
in0: { type:audio, srcFl:true, doc:"First audio input." },
in1: { type:audio, srcFl:true, doc:"Second audio input." },
gain: { type:real, value:1.0, doc:"Audio gain for each selected (output) channel." }
out: { type:audio, doc:"Audio output. Channel count is the sum of the input channel count." },
}
}
audio_mix: {
vars: {
in0: { type:audio, srcFl:true, doc:"First audio input." },
in1: { type:audio, srcFl:true, doc:"Second audio input." },
gain0: { type:real, value:0.5, doc:"Audio gain for input 0." },
gain1: { type:real, value:0.5, doc:"Audio gain for input 1." },
out: { type:audio, doc:"Audio output. Channel count is the sum of the input channel count." },
}
}
audio_delay: {
vars: {
in: { type:audio, srcFl:true, doc:"Audio input." },
maxDelayMs: { type:real, value:1000.0 doc:"Maximum possible delay in milliseconds." },
delayMs: { type:real, doc:"Delay in milliseconds." },
out: { type:audio, doc:"Audio output." },
}
}
sine_tone: {
vars: {
srate: { type:real, value:48000.0, doc:"Sine tone sample rate."}
chCnt: { type:uint, value:2, doc:"Output signal channel count."},
hz: { type:real, value:440.0, doc:"Frequency in Hertz."},
gain: { type:real, value:0.8, doc:"Signal frequency."},
out: { type:audio, doc:"Audio output" },
}
presets: {
a: { hz:220 },
b: { hz:880 },
}
}
pv_analysis: {
vars: {
in: { type:audio, srcFl:true, doc:"Audio input." },
hopSmpN: { type:uint, value: 128, doc:"Hop sample count." },
wndSmpN: { type:uint, value: 512, doc:"Window sample count." },
hzFl: { type:bool, value: false, doc:"Calculate frequency via the method of phase changeof each bin." },
out: { type:spectrum, doc:"Spectrum output." }
}
}
pv_synthesis: {
vars: {
in: { type:spectrum, srcFl:true, doc:"Spectrum input." },
out: { type:audio, doc:"Audio output." }
}
}
spec_dist: {
vars: {
in: { type:spectrum, srcFl:true, doc:"Spectrum input." },
ceiling: { type:real, value: 30.0, doc:"Ceiling parameter."},
expo: { type:real, value: 2.0, doc:"Exponent parameter."},
thresh: { type:real, value: 54.0, doc:"Threshold parameter."},
upr: { type:real, value: -0.7, doc:"Upper slope parameter."},
lwr: { type:real, value: 2.0, doc:"Lower slope parameter."},
mix: { type:real, value: 0.0, doc:"Basic/Bump Mix parameter."},
out: { type:spectrum, doc:"Spectrum output." },
}
presets: {
dry: {
}
kc: {
ceiling: 20.0,
expo: 2.0,
thresh: 65.0,
upr: 0.0,
lwr: 2.0,
mix: 0.0
}
a: {
ceiling: 20.0
expo: 2.0
thresh: 60.0
upr: [ -1.1, -0.99],
lwr: 2.0
mix: 0.0
}
b: {
ceiling: 20.0
expo: 2.0
thresh: [ 77.0, 74.0 ],
upr: -0.5
lwr: [ 3.0, 2.0 ],
mix: 0.0
}
c: {
ceiling: 20.0
expo: 2.0
thresh: 80.0
upr: -0.5
lwr: 5.0
mix: 0.0
}
d: {
ceiling: 20.0
expo: 2.0
thresh: 70.0
upr: [ -3.9, 04.5]
lwr: 4.0
mix: 0.0
}
f_1: {
ceiling: 20.0
expo: 2.0
thresh: 50.0
upr: -3.0
lwr: 1.0
mix: 0.0
}
f_2: {
ceiling: 20.0
expo: 2.0
thresh: 60.0
upr: -3.0
lwr: 1.0
mix: 0.0
}
f_3: {
ceiling: 20.0
expo: 2.0
thresh: 55.0
upr: -3.0
lwr: 1.0
mix: 0.0
}
f_4: {
ceiling: 20.0
expo: 2.0
thresh: 55.0
upr: -5.0
lwr: 1.0
mix: 0.0
}
g: {
ceiling: 40.0
expo: 8.0
thresh: [60.0 64.0]
upr: -0.7
lwr: 8.0
mix: 1.0
}
g_a: {
ceiling: 40.0
expo: 2.0
thresh: [50.0 54.0]
upr: -0.7
lwr: 2.0
mix: 1.0
}
g_1_a: {
ceiling: 20.0
expo: 2.0
thresh: [50.0 54.0]
upr: -0.7
lwr: 8.0
mix: 1.0
}
g_1_d: {
ceiling: [60.0 64.0]
expo: [ 7.0 5.0]
thresh: [40.0 34.0]
upr: [-0.4 -0.3]
lwr: [ 7.0 5.0]
mix: 1.0
}
}
}
compressor: {
vars: {
in: { type:audio, srcFl: true, doc:"Audio input." },
bypass: { type:bool, value: false, doc:"Bypass the compressor."},
igain: { type:real, value: 1.0, doc:"Input gain."},
thresh: { type:real, value: 0.0, doc:"Attack threshold in dB."},
ratio: { type:real, value: 2.0, doc:"Compression ratio."},
atk_ms: { type:real, value: 20.0, doc:"Attack time in milliseconds."},
rls_ms: { type:real, value: 20.0, doc:"Release time in milliseconds."},
wnd_ms: { type:real, value: 200.0, doc:"RMS calc. window length in milliseconds."},
maxWnd_ms: { type:real, value: 1000.0, doc:"Maximim (allocated) window length in milliseconds."},
ogain: { type:real, value: 1.0, doc:"Output gain."},
out: { type:audio, doc:"Audio output." },
}
presets: {
dflt: {
igain: 3.0
thresh: 60.0
ratio: 5.0
atk_ms: 5.0
rls_ms: 20.0
wnd_ms:100.0
ogain: 1.0
}
kc: {
bypass: false
igain: 3.0
thresh: 80.0
ratio: 2.0
atk_ms: 20.0
rls_ms: 1000.0
wnd_ms: 200.0
ogain: 1.0
}
dry: {
}
a: {
igain: 6.0
ogain: 1.0
}
b: {
igain: 10.0
ogain: 1.0
}
c: {
igain: 11.0
ogain: 1.0
}
d: {
igain: 9.0
ogain: 1.0
}
f_1: {
igain: 6.0
ogain: 1.0
}
f_2: {
igain: 6.0
ogain: 1.0
}
f_3: {
igain: 6.0
ogain: 1.0
}
f_4: {
igain: 6.0
ogain: 1.0
}
g: {
igain: 10.0
ogain: 0.25
}
g_a: {
igain: 10.0
ogain: 0.25
}
g_1_a: {
igain: 10.0
ogain: 0.25
}
g_1_d: {
igain: 10.0
ogain: 0.25
}
}
}
}
preset_sel: {
params: {
//score_fn: "~/src/currawong/projects/score_proc/data/play_file.csv",
score_fn: "~/src/cwtest/src/cwtest/cfg/preset_sel/score/20220423/temp.csv",
record_dir: "~/src/cwtest/src/cwtest/cfg/preset_sel/preset_sel_fragments",
//record_fn: "preset_sel_20220423",
record_fn: "preset_sel_20220507",
record_fn_ext: "txt",
crossFadeSrate: 48000.0, // TODO: move to flow cfg. and set via 'system default sample rate'
crossFadeCount: 3,
presets: {
preset_labelL: [ "dry", "a", "b", "c", "d", "f1", "f2", "f3", "f4", "g", "ga", "g1a", "g1d" ],
default_gain: 1.0,
default_wet_dry_gain: 0.5,
default_fade_ms: 500.0,
default_preset: "dry",
default_master_wet_in_gain: 1.0,
default_master_wet_out_gain: 1.0,
default_master_dry_gain: 1.0,
default_master_sync_delay_ms: 0, // spirio 400
},
midi_play_record: {
max_midi_msg_count: 32768,
midi_timer_period_micro_sec: 15000,
all_off_delay_ms: 2500, // delay after stop time to turn off all notes
log_in_flag: false,
log_out_flag: false,
half_pedal_flag: false,
midi_device_list: [
// piano
{
enableFl: true,
//midi_out_device: "MIDIFACE 2x2",
//midi_out_port: "MIDIFACE 2x2 Midi Out 1",
midi_out_device: "Scarlett 18i20 USB",
midi_out_port: "Scarlett 18i20 USB MIDI 1",
//midi_out_device: "PipeWire-RT-Event",
//midi_out_port: "input",
// pedal down velocity input/output mapping
pedal: {
down_id: 127,
down_vel: 75,
half_down_id: 64,
half_down_vel: 43,
half_up_id: 63,
half_up_vel: 43
},
// 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24
// spirio vel_table: [ 1, 4, 10, 12, 12, 18, 24, 24, 30, 36, 36, 44, 48, 52, 58, 64, 64, 70, 76, 82, 88, 94,100,106,112 ]
vel_table: [ 1, 5 10, 16, 21, 26, 32, 37, 42, 48, 53, 58, 64, 69, 74, 80, 85, 90, 96,101,106,112,117,122,127 ] ,
},
{
enableFl: true,
//midi_out_device: "Fastlane",
//midi_out_port: "Fastlane MIDI A",
midi_out_device: "MIDIFACE 2x2",
midi_out_port: "MIDIFACE 2x2 Midi Out 2",
//midi_out_device: "PC-300",
//midi_out_port: "PC-300 MIDI 1",
// 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 34
vel_table: [ 1, 4, 10, 12, 12, 18, 24, 24, 30, 36, 36, 44, 48, 52, 58, 64, 64, 70, 76, 82, 88, 94,100,106,112 ]
//vel_table: [ 1, 5 10, 16, 21, 26, 32, 37, 42, 48, 53, 58, 64, 69, 74, 80, 85, 90, 96,101,106,112,117,122,127 ] ,
},
//{ midi_out_device: "PipeWire-RT-Event", midi_out_port: "input" },
],
}
frag_panel: {
panel: {
name: fragPanelId
addClassName: fragPanel
row: {
name: fragPanelRowId
addClassName: fragPanelRow
col: {
numb_disp: { name: fragBegLocId, title:"Beg Loc", value: 0 },
numb_disp: { name: fragEndLocId, title:"End Loc", value: 0 },
number: { name: fragInGainId, title:"In Gain", min:0.0, max:100.0, step:0.1, decpl:1 },
number: { name: fragOutGainId, title:"Out Gain", min:0.0, max:100.0, step:0.1, decpl:1 },
},
col: {
row: {
name: fragPresetRowId,
addClassName: fragPresetRow,
},
row: {
string: { name: fragNoteId, addClassName: fragNote, title:"Note" },
}
},
col: {
number:{ name: fragWetDryGainId, title:"Wet/Dry", min:0.0, max:1.0, step:0.1, decpl:2 },
number:{ name: fragFadeOutMsId, title:"Fade Ms", min:0.0, max:5000, step:1, decpl:0 },
row: {
button:{ name: fragPlaySeqBtnId, title:"Play Seq" },
button:{ name: fragPlayAllBtnId, title:"Play All" },
}
},
col: {
number: { name: fragBegPlayLocId, title:"Begin", min:0, max:1000000, step:1, decpl:0 },
number: { name: fragEndPlayLocId, title:"End", min:0, max:1000000, step:1, decpl:0 },
button: { name: fragPlayBtnId, title:"Play" }
}
}
}
},
},
ui: {
physRootDir: "~/src/cwtest/src/libcw/html/preset_sel",
dfltPageFn: "index.html",
port: 5687,
rcvBufByteN: 2048,
xmtBufByteN: 2048,
fmtBufByteN: 4096,
websockTimeOutMs: 50, // max time out while blocking for a websock event
uiCfgFn: "ui.cfg" // default UI resource description
},
serial: {
pollPeriodMs: 50,
recvBufByteN: 512,
array: [
{
enable_flag: false,
label: "port1", // User label
device: "/dev/ttyUSB0", // Serial device name
baud: 115200,
bits: 8,
stop: 1,
parity: "no",
}
]
},
midi: {
parserBufByteN: 1024,
},
audio: {
meterMs: 50, // audio meter filter length and meter callback period
threadTimeOutMs: 50, // audio thread cond var time out
groupL: [
{
enableFl: true, // (req)
label: "main", // (req) User label
id: 0, // (req) User id (can also be set at runtime)
srate: 48000, // (req) Sample rate used by all devices in this group
dspFrameCnt: 64 // (req) Size of DSP processing buffers
}
],
deviceL: [
{
// System device name
device: "Scarlett 18i20 USB USB Audio",
//device: "USB Audio CODEC USB Audio",
//device: "HDA Intel PCH CS4208 Analog",
enableFl: true, // (req)
label: "main", // (req) User label
userId: 0, // (opt) User id (can also be set at runtime)
framesPerCycle: 512, // (req) Samples per audio device cycle
cycleCnt: 3, // (req) Count of device cycle buffers.
inGroup: "main", // (opt) All devices in a group must be 'ready' to source
outGroup: "main", // (opt) or sink data before an audio callback is made for that group
}
]
},
socket: {
maxSocketCnt: 10,
recvBufByteCnt: 4096,
threadTimeOutMs: 50,
socketL: [],
}
flow: {
framesPerCycle: 64, // time-domain audio cycles frame per cycle
maxCycleCount: 15000, // 0 disables maxCycleCount
printNetworkFl: false, // print the network instance
printClassDictFl: false, // print the class description dictionary
no_spirio_network: {
aud_in: { class: audio_in, args:{ default:{dev_label:"main"} } },
// select the first two channels (this reduces the channel count if there are more than 2 incoming channels)
ivory_in: { class: audio_split, in:{ in:aud_in.out } args:{ default:{select[1,1]}} }
vsl_in: { class: audio_split, in:{ in:aud_in.out } args:{ default:{select[0,0,1,1]}} }
// delay the incoming audio signal to sync it with the piano
sync_delay: { class: audio_delay, in: { in:vsl_in.out }, args:{ default:{ delayMs:0 } }}
mstr_wet_in_gain: { class: audio_gain, in:{ in:ivory_in.out }, args:{}}
// wet signal processing chain
wet_in_gain: { class: audio_gain, in:{ in:mstr_wet_in_gain.out }, args:{}},
pva: { class: pv_analysis, in:{ in:wet_in_gain.out }, args:{ default:{ wndSmpN:512, hopSmpN:128, hzFl:false } } },
sd: { class: spec_dist, in:{ in:pva.out }, preset:kc },
pvs: { class: pv_synthesis, in:{ in:sd.out }, },
cmp: { class: compressor, in:{ in:pvs.out }, preset:kc },
wet_out_gain: { class: audio_gain, in:{ in:cmp.out }, args:{}},
mute_wet: { class: audio_gain, in:{ in:wet_out_gain.out }, args:{}},
// apply the wet/dry gain balance
wd_bal: { class: balance, args{}},
wet_bal_gain: { class: audio_gain, in:{ in:wet_out_gain.out, gain:wd_bal.out }, args:{}},
dry_bal_gain: { class: audio_gain, in:{ in:vsl_in.out, gain:wd_bal.inv_out }, args:{}},
mstr_wet_out_gain: { class: audio_gain, in:{ in:wet_bal_gain.out }, args:{}}
mstr_dry_out_gain: { class: audio_gain, in:{ in:dry_bal_gain.out }, args:{}},
// merge the wet/dry signals into a single 4 channel signal
merge0: { class: audio_merge, in:{ in0:mstr_wet_out_gain.out, in1:mstr_dry_out_gain.out }, args:{} },
merge1: { class: audio_merge, in:{ in0:mstr_wet_out_gain.out, in1:sync_delay.out }, args:{} },
//merge1: { class: audio_merge, in:{ in0:ivory_in.out, in1:vsl_in.out }, args:{} },
aout: { class: audio_out, in:{ in:merge1.out }, args:{ default:{dev_label:"main"} } },
}
network: {
aud_in: { class: audio_in, args:{ default:{dev_label:"main"} } },
// select the first two channels (this reduces the channel count if there are more than 2 incoming channels)
split_in: { class: audio_split, in:{ in:aud_in.out } args:{ default:{select[1,1]}} }
// delay the incoming audio signal to sync it with the piano
sync_delay { class: audio_delay, in: { in:split_in.out }, args:{ default:{ delayMs:400 } }}
mstr_wet_in_gain: { class: audio_gain, in:{ in:sync_delay.out }, args:{}}
// wet signal processing chain
wet_in_gain: { class: audio_gain, in:{ in:mstr_wet_in_gain.out }, args:{}},
pva: { class: pv_analysis, in:{ in:wet_in_gain.out }, args:{ default:{ wndSmpN:512, hopSmpN:128, hzFl:false } } },
sd: { class: spec_dist, in:{ in:pva.out }, preset:kc },
pvs: { class: pv_synthesis, in:{ in:sd.out }, },
cmp: { class: compressor, in:{ in:pvs.out }, preset:kc },
wet_out_gain: { class: audio_gain, in:{ in:cmp.out }, args:{}},
mute_wet: { class: audio_gain, in:{ in:wet_out_gain.out }, args:{}},
// apply the wet/dry gain balance
wd_bal: { class: balance, args{}},
wet_bal_gain: { class: audio_gain, in:{ in:mute_wet.out, gain:wd_bal.out }, args:{}},
dry_bal_gain: { class: audio_gain, in:{ in:sync_delay.out, gain:wd_bal.inv_out }, args:{}},
mstr_wet_out_gain: { class: audio_gain, in:{ in:wet_bal_gain.out }, args:{}}
mstr_dry_out_gain: { class: audio_gain, in:{ in:dry_bal_gain.out }, args:{}},
// merge the wet/dry signals into a single 4 channel signal
merge: { class: audio_merge, in:{ in0:mstr_wet_out_gain.out, in1:mstr_dry_out_gain.out }, args:{} },
aout: { class: audio_out, in:{ in:merge.out }, args:{ default:{dev_label:"main"} } },
}
presets: {
dry: {
mute_wet: { gain:0 },
},
a: { sd:a, cmp:a, mute_wet:{ gain:1 } },
b: { sd:b, cmp:b, mute_wet:{ gain:1 } },
c: { sd:c, cmp:c, mute_wet:{ gain:1 } },
d: { sd:d, cmp:d, mute_wet:{ gain:1 } },
f1: { sd:f_1, cmp:f_1, mute_wet:{ gain:1 } },
f2: { sd:f_2, cmp:f_2, mute_wet:{ gain:1 } },
f3: { sd:f_3, cmp:f_3, mute_wet:{ gain:1 } },
f4: { sd:f_4, cmp:f_4, mute_wet:{ gain:1 } },
g: { sd:g, cmp:g, mute_wet:{ gain:1 } },
ga: { sd:g_a, cmp:g_a, mute_wet:{ gain:1 } },
g1a: { sd:g_1_a, cmp:g_1_a, mute_wet:{ gain:1 } },
g1d: { sd:g_1_d, cmp:g_1_d, mute_wet:{ gain:1 } }
}
}
}
}

24
src/cwtest/cfg/main.cfg
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@ -1301,10 +1301,12 @@
params: {
//score_fn: "~/src/currawong/projects/score_proc/data/play_file.csv",
score_fn: "~/src/cwtest/src/cwtest/cfg/preset_sel/score/20220423/temp.csv",
//score_fn: "~/src/currawong/audio/workshop/beck1/record_4/play_score.csv",
record_dir: "~/src/cwtest/src/cwtest/cfg/preset_sel/preset_sel_fragments",
//record_fn: "preset_sel_20220423",
record_fn: "preset_sel_20220507",
//record_fn: "temp_frag",
record_fn_ext: "txt",
@ -1366,16 +1368,17 @@
{
enableFl: true,
midi_out_device: "Fastlane",
midi_out_port: "Fastlane MIDI A",
//midi_out_device: "MIDIFACE 2x2",
//midi_out_port: "MIDIFACE 2x2 Midi Out 2",
//midi_out_device: "Fastlane",
//midi_out_port: "Fastlane MIDI A",
midi_out_device: "MIDIFACE 2x2",
midi_out_port: "MIDIFACE 2x2 Midi Out 2",
//midi_out_device: "PC-300",
//midi_out_port: "PC-300 MIDI 1",
// 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 34
vel_table: [ 1, 5 10, 16, 21, 26, 32, 37, 42, 48, 53, 58, 64, 69, 74, 80, 85, 90, 96,101,106,112,117,122,127 ] ,
// 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 34
vel_table: [ 1, 4, 10, 12, 12, 18, 24, 24, 30, 36, 36, 44, 48, 52, 58, 64, 64, 70, 76, 82, 88, 94,100,106,112 ]
//vel_table: [ 1, 5 10, 16, 21, 26, 32, 37, 42, 48, 53, 58, 64, 69, 74, 80, 85, 90, 96,101,106,112,117,122,127 ] ,
},
//{ midi_out_device: "PipeWire-RT-Event", midi_out_port: "input" },
@ -1514,7 +1517,7 @@
network: {
no_spirio_network: {
aud_in: { class: audio_in, args:{ default:{dev_label:"main"} } },
// select the first two channels (this reduces the channel count if there are more than 2 incoming channels)
@ -1524,9 +1527,9 @@
vsl_in: { class: audio_split, in:{ in:aud_in.out } args:{ default:{select[0,0,1,1]}} }
// delay the incoming audio signal to sync it with the piano
sync_delay: { class: audio_delay, in: { in:ivory_in.out }, args:{ default:{ delayMs:0 } }}
sync_delay: { class: audio_delay, in: { in:vsl_in.out }, args:{ default:{ delayMs:0 } }}
mstr_wet_in_gain: { class: audio_gain, in:{ in:vsl_in.out }, args:{}}
mstr_wet_in_gain: { class: audio_gain, in:{ in:ivory_in.out }, args:{}}
// wet signal processing chain
wet_in_gain: { class: audio_gain, in:{ in:mstr_wet_in_gain.out }, args:{}},
@ -1552,11 +1555,12 @@
merge0: { class: audio_merge, in:{ in0:mstr_wet_out_gain.out, in1:mstr_dry_out_gain.out }, args:{} },
merge1: { class: audio_merge, in:{ in0:mstr_wet_out_gain.out, in1:sync_delay.out }, args:{} },
//merge1: { class: audio_merge, in:{ in0:ivory_in.out, in1:vsl_in.out }, args:{} },
aout: { class: audio_out, in:{ in:merge1.out }, args:{ default:{dev_label:"main"} } },
}
spirio_network: {
network: {
aud_in: { class: audio_in, args:{ default:{dev_label:"main"} } },
// select the first two channels (this reduces the channel count if there are more than 2 incoming channels)

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src/cwtest/cfg/preset_sel/preset_sel_fragments/preset_sel_20220507.txt
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