202 lines
5.7 KiB
Python
202 lines
5.7 KiB
Python
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import os
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import math
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import json
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import wt_util
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import calc_sample_atk_dur
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import calc_wavetables
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import numpy as np
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import multiproc as mp
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def table_read_2( tab, frac ):
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i0 = math.floor(frac + 1)
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i1 = i0 + 1
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f = frac - int(frac)
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return tab[i0] + (tab[i1] - tab[i0]) * f
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def hann_read( x, N ):
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while x > N:
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x -= N
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x = x - (N/2)
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return (0.5 + 0.5 * math.cos(2*math.pi * x / N))
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def prepare_wt( aV, wtL, wt_idx ):
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wt_smp_cnt = wtL[0]['wtei'] - wtL[0]['wtbi']
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if wt_idx >= len(wtL):
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wt = np.zeros((wt_smp_cnt,))
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else:
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wt = np.copy(aV[ wtL[wt_idx]['wtbi']: wtL[wt_idx]['wtei'] ])
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wt = [0] + wt.tolist() + [0]
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wt[0] = wt[-2]
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wt[-1] = wt[0]
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return np.array(wt)
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def get_wt( aV, wtL, wt_idx ):
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wt0 = prepare_wt(aV,wtL,wt_idx)
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wt1 = prepare_wt(aV,wtL,wt_idx+1)
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return wt0,wt1
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def gen_osc_output( i_audio_fname, velL, midi_pitch, note_dur_sec, inter_note_sec, wt_interval_sec, o_audio_fname ):
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smp_per_dsp_frm = 64
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aM,srate = wt_util.parse_audio_file(i_audio_fname)
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ch_cnt = aM.shape[1]
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note_dur_smp = int(round(note_dur_sec * srate))
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inter_note_smp = int(round(inter_note_sec * srate))
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wt_interval_smp = int(round(wt_interval_sec * srate))
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yN = len(velL) * (note_dur_smp + inter_note_smp)
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yM = np.zeros((yN,ch_cnt))
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yi = 0
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for velD in velL:
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bsi = velD['bsi']
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hz = wt_util.midi_pitch_to_hz(midi_pitch)
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fsmp_per_cyc = srate/hz
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fsmp_per_wt = fsmp_per_cyc * 2
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smp_per_wt = int(math.floor(fsmp_per_wt))
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for ch_idx in range(ch_cnt):
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wtL = velD['chL'][ch_idx]
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if len(wtL) == 0:
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print(f"pitch:{midi_pitch} vel:{velD['vel']} ch:{ch_idx} has no wavetables.")
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continue
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# The attack abutts the wavetable at it's center point
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# so we need to offset the end of the attack half way
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# through the first wave table.
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abi = int(wtL[0]['wtbi'] + smp_per_wt/2)
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atkN = min(abi - bsi,note_dur_smp)
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print(velD['vel'],yi+atkN,yN,atkN/srate)
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yM[yi:yi+atkN,ch_idx] = aM[bsi:bsi+atkN,ch_idx]
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wt_idx = 0
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wt0,wt1 = get_wt( aM[:,ch_idx], wtL, wt_idx )
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wt = wt0
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wt_int_phs = 0
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phs0 = 0
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phs1 = fsmp_per_wt/2
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for i in range(note_dur_smp-atkN):
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s0 = table_read_2( wt, phs0 )
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s1 = table_read_2( wt, phs1 )
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e0 = hann_read(phs0,fsmp_per_wt)
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e1 = hann_read(phs1,fsmp_per_wt)
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yM[yi+atkN+i,ch_idx] = e0*s0 + e1*s1
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# advance the phases of the oscillators
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phs0 += 1
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if phs0 >= smp_per_wt:
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phs0 -= smp_per_wt
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phs1 += 1
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if phs1 >= smp_per_wt:
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phs1 -= smp_per_wt
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wt_int_phs += 1
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if wt_int_phs % smp_per_dsp_frm == 0:
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wt_mix = min(1.0, wt_int_phs / wt_interval_smp)
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wt = ((1.0-wt_mix) * wt0) + (wt_mix * wt1)
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if wt_int_phs >= wt_interval_smp:
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wt_idx += 1
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wt0,wt1 = get_wt( aM[:,ch_idx], wtL, wt_idx )
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wt = wt0
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wt_int_phs = 0
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wt_mix = 0
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yi += note_dur_smp + inter_note_smp
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print(o_audio_fname)
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wt_util.write_audio_file( yM, srate, o_audio_fname )
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def gen_from_wt_json( processN, wt_json_fname, out_dir, note_dur_sec, inter_note_sec, pitch_filtL=None ):
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def _multi_proc_func( procId, procArgsD, taskArgsD ):
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gen_osc_output(**taskArgsD)
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if not os.path.isdir(out_dir):
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os.mkdir(out_dir)
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with open(wt_json_fname) as f:
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pitchL = json.load(f)['pitchL']
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taskArgsL = []
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for pitchD in pitchL:
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if pitch_filtL is None or pitchD['midi_pitch'] in pitch_filtL:
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taskArgsL.append( {
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"i_audio_fname":pitchD['audio_fname'],
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"velL":pitchD['velL'],
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"midi_pitch":pitchD['midi_pitch'],
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"note_dur_sec":note_dur_sec,
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"inter_note_sec":inter_note_sec,
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"wt_interval_sec":pitchD['wt_interval_secs'],
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"o_audio_fname":os.path.join(out_dir,f"{pitchD['midi_pitch']:03}_osc.wav")
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})
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processN = min(processN,len(taskArgsL))
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mp.local_distribute_main( processN,_multi_proc_func,{},taskArgsL )
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if __name__ == "__main__":
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if True:
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wt_json_fname = "/home/kevin/temp/temp_5.json"
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out_dir = "/home/kevin/temp/wt_osc_1"
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note_dur_sec = 10.0
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inter_note_sec = 1.0
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processN = 20
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pitch_filtL = None #[ 27 ]
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gen_from_wt_json(processN, wt_json_fname,out_dir,note_dur_sec,inter_note_sec, pitch_filtL)
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if False:
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midi_pitch = 60
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audio_fname = "/home/kevin/temp/wt5/wav/060_samples.wav"
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mark_tsv_fname = "/home/kevin/temp/wt5/60_marker.txt"
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rms_wnd_ms = 50
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rms_hop_ms = 10
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atkEndThreshDb = -43.0
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wt_interval_secs = 1.0
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note_dur_sec = 10.0
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inter_note_sec = 1.0
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gateL = calc_sample_atk_dur.generate_gate_db(audio_fname,mark_tsv_fname,rms_wnd_ms, rms_hop_ms, atkEndThreshDb )
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wtL = calc_wavetables.gen_wave_table_list( audio_fname, mark_tsv_fname, gateL, midi_pitch, wt_interval_secs )
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gen_osc_output(audio_fname,wtL,note_dur_sec,inter_note_sec, wt_interval_secs, "/home/kevin/temp/temp.wav")
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