aimc: swig/audio_example.py annotate

annotate swig/audio_example.py @ 263:07dc1f7047f5

Debug output for audio_example and added a write function for aimc_data

author	hamel.phil
date	Thu, 06 Jan 2011 20:11:41 +0000
parents	b8f16e8acf7b
children	35987061c93b

rev	line source
hamel@149	1 #!/usr/bin/env python
hamel@149	2 #
hamel@149	3 # audio_example.py
hamel@149	4 #
hamel@149	5 #
hamel@261	6 # Created by Philippe Hamel (hamel.phil@gmail.com) on 10-12-22.
hamel@149	7 #
hamel@149	8 # Script to extract SAIs from an audio file using python
hamel@149	9
hamel@261	10 import aimc
hamel@261	11 import numpy
hamel@261	12
hamel@261	13 do_plot=True
hamel@149	14 # Example wav file
hamel@149	15 wavfile = '../test_data/short_example.wav'
hamel@149	16
hamel@261	17 #Loading audio file
hamel@261	18 try:
hamel@261	19 #pygmy is available at hg clone https://bitbucket.org/douglaseck/pygmy/
hamel@261	20 from pygmy.io.audio import AudioFile
hamel@261	21 af=AudioFile(wavfile)
hamel@261	22 x,sr,z=af.read(mono=True)
hamel@261	23 except:
hamel@261	24 from scipy.io import wavfile as WF
hamel@261	25 (sr,x) = WF.read(wavfile)
hamel@261	26 x=x.astype('float')/float(pow(2,15) - 1)
hamel@149	27
hamel@261	28 if x.ndim <= 1:
hamel@261	29 x=reshape(x,(x.shape[0],1))
hamel@263	30 sr = 1.*sr
hamel@261	31
hamel@261	32 nChannels = x.shape[1]
hamel@149	33
hamel@261	34 nSamples = x.shape[0]
hamel@261	35 buffer_length = 1024
hamel@263	36
hamel@263	37 #Zero-padding
hamel@263	38 #zero_pad = numpy.zeros((buffer_length-(nSamples%buffer_length),nChannels)).astype('float')
hamel@263	39 #x = numpy.vstack((x,zero_pad))
hamel@263	40
hamel@263	41 #OR
hamel@263	42
hamel@263	43 #Drop last incomplete frame (this is what happens in the C++ code)
hamel@263	44 nFrames = x.shape[0]/buffer_length
hamel@263	45 x = x[:nFrames*buffer_length]
hamel@263	46
hamel@261	47 assert(x.shape[0]%buffer_length == 0)
hamel@152	48
hamel@149	49
hamel@149	50 sig = aimc.SignalBank()
hamel@261	51 sig.Initialize(nChannels,buffer_length,sr)
hamel@149	52
hamel@261	53 pzfc = aimc.ModulePZFC(aimc.Parameters())
hamel@261	54 hcl = aimc.ModuleHCL(aimc.Parameters())
hamel@261	55 local_max = aimc.ModuleLocalMax(aimc.Parameters())
hamel@261	56 sai = aimc.ModuleSAI(aimc.Parameters())
hamel@149	57
hamel@261	58 pzfc.AddTarget(hcl)
hamel@261	59 hcl.AddTarget(local_max)
hamel@261	60 local_max.AddTarget(sai)
hamel@149	61
hamel@149	62 global_params = aimc.Parameters()
hamel@261	63 pzfc.Initialize(sig,global_params)
hamel@260	64
hamel@261	65 output_list = []
hamel@263	66 bank_list =[]
hamel@149	67
hamel@261	68 for f in range(nFrames):
hamel@261	69 for i in range(nChannels):
hamel@261	70 sig.set_signal(i,x[buffer_lengthf:buffer_length(f+1),i])
hamel@260	71
hamel@261	72 pzfc.Process(sig)
hamel@261	73 output_bank = sai.GetOutputBank()
hamel@263	74 bank_list.append(output_bank)
hamel@149	75 n_channel = output_bank.channel_count()
hamel@149	76 sig_length = output_bank.buffer_length()
hamel@149	77 output_matrix = numpy.zeros((n_channel,sig_length))
hamel@149	78 for i in range(n_channel):
hamel@149	79 output_matrix[i] = numpy.array(output_bank.get_signal(i))
hamel@261	80 output_list.append(output_matrix)
hamel@261	81
hamel@263	82 print 'nFrames, nChannels, nSamples, sample_rate'
hamel@263	83 print nFrames, n_channel, sig_length, sr
hamel@263	84
hamel@263	85
hamel@261	86 if do_plot:
hamel@261	87 import pylab as P
hamel@261	88 P.figure()
hamel@261	89 P.imshow(output_list[0], aspect='auto', origin='lower')
hamel@261	90
hamel@261	91
hamel@261	92 ################ DEPRECATED CODE (kept here for reference) #########################
hamel@261	93
hamel@261	94 #if True:
hamel@261	95 # output_bank=output_list[0]
hamel@261	96 # n_channel = output_bank.channel_count()
hamel@261	97 # sig_length = output_bank.buffer_length()
hamel@261	98 # output_matrix = numpy.zeros((n_channel,sig_length))
hamel@261	99 # for i in range(n_channel):
hamel@261	100 # output_matrix[i] = numpy.array(output_bank.get_signal(i))
hamel@261	101 # print output_matrix
hamel@261	102 # print output_matrix.shape
hamel@261	103 # print output_matrix.sum()
hamel@149	104
hamel@149	105 #output_signal = numpy.array(output_bank.get_signal(0))
hamel@149	106
hamel@261	107 #def process_module(module, input_signal, global_params):
hamel@261	108 # module.Initialize(input_signal,global_params)
hamel@261	109 # module.Process(input_signal)
hamel@261	110 # return module.GetOutputBank()
hamel@261	111
hamel@261	112 #pzfc_params = aimc.Parameters()
hamel@261	113 ##pzfc_params.SetString('name','PZFCFilterBank')
hamel@261	114 ##pzfc_params.SetString('child1','NAP')
hamel@261	115 #
hamel@261	116 #hcl_params = aimc.Parameters()
hamel@261	117 ##hcl_params.SetString('name','NAP')
hamel@261	118 ##hcl_params.SetString('child1','NAP')
hamel@261	119 #
hamel@261	120 #global_params = aimc.Parameters()
hamel@261	121 #
hamel@261	122 #pzfc = aimc.ModulePZFC(pzfc_params)
hamel@261	123 #pzfc.Initialize(sig,global_params)
hamel@261	124 #pzfc.Process(sig)
hamel@261	125 #pzfc_output = pzfc.GetOutputBank()
hamel@261	126 #
hamel@261	127 #hcl = aimc.ModuleHCL(hcl_params)
hamel@261	128 #hcl_output = process_module(hcl, pzfc_output, global_params)
hamel@261	129 #
hamel@261	130 #local_max = aimc.ModuleLocalMax( aimc.Parameters())
hamel@261	131 #local_max_output = process_module(local_max, hcl_output, global_params)
hamel@261	132 #
hamel@261	133 #sai = aimc.ModuleSAI( aimc.Parameters())
hamel@261	134 #sai_output = process_module(sai, local_max_output, global_params)

Mercurial > hg > aimc

annotate swig/audio_example.py @ 263:07dc1f7047f5