import wave
import argparse
import os.path
import struct
prepare an argument parser
parser = argparse.ArgumentParser(description=’Convert .wav to .bin or C-style Array.’)
parser.add_argument(‘input’)
parser.add_argument(‘-o’,metavar = ‘<output>’)
parser.add_argument(‘-b’,action=’store_true’,help=’Generate .bin file.’,default=True)
parser.add_argument(‘-a’,action=’store_true’,help=’Generate .txt(C-Style Array Source) file.’)
parser.add_argument(‘-r’,action=’store_true’,help=’Reduce bit resorution from 16-bit to 8-bit’)
pres = parser.parse_args()
Set output filename
if pres.o is None:
fwname = pres.input
else:
fwname = pres.o
Set output file’s extension and open file
if pres.b:
fbin = open(fwname + '.bin','wb')
if pres.a:
farr = open(fwname + '.txt','w')
open the wave file
if os.path.exists(pres.input):
wav = wave.open(pres.input,'r')
wInfo = wav.getparams()
print('Filename:' + pres.input)
print('Number of channels:' + str(wInfo[0])+ '[Ch]')
print('Number of frame:' + str(wInfo[3])+ '[Frames]')
print('Size of audio data:' + str(wInfo[3] * wInfo[1] * wInfo[0])+ '[Bytes]')
print('Sampling rate:' + str(wInfo[2])+'[Hz]')
print('Sample size:' + str(wInfo[1])+ '[Bytes/sample]')
print('Compression:' + str(wInfo[5]))
else:
print('Error:No such file' + '\'' + pres.input + '\'')
quit()
Prepare the header for C-Style option
if pres.a:
farr.write('/*\n')
farr.write('Filename:' + pres.input)
farr.write('File Format:' + str(wInfo[0]) +'-Ch,' + str(wInfo[1] * 8) + '-Bit,' + str(wInfo[2]) + 'Hz\n')
if pres.r:
farr.write('Bit resolution is reduced to 8-Bit.\n')
farr.write('*/\n')
#Calc number of element
NoE = wInfo[3] * wInfo[0]
if wInfo[1] == 2 and pres.r is not True:#for 16bit wav without -r option
farr.write('int16_t wave[' + str(NoE) + ']={\n')
else:
farr.write('uint8_t wave[' + str(NoE) + ']={\n')
Write the file
for i in range(wInfo[3]):
for i in range(1):
t = wav.readframes(1)
if wInfo[1] == 2:# if Bytes/sample are 2 bytes (16-bit)
if pres.r:# bit reduce option
dL = struct.unpack('h',t[0:2])[0]
dL = int(dL / 256.0) + 128
if wInfo[0] == 2:#[商品期货](https://www.gendan5.com/futures/cf.html) if file has two channel
dR = struct.unpack('h',t[2:4])[0]
dR = int(dR / 256.0) + 128
else: #treated as unsigned 16bit int
dL = struct.unpack('H',t[0:2])[0]
if wInfo[0] == 2:# if file has two channel
dR = struct.unpack('H',t[2:4])[0]
else:# if Bytes/sample is 1 byte (8-bit)
dL = t[0]
if wInfo[0] == 2:# if file has two channel
dR = t[1]
if pres.b:#Binary output
if pres.r:
if wInfo[0] == 2:# if file has two channel
fbin.write(struct.pack('BB',dL,dR))
else:
fbin.write(struct.pack('B',dL))
else:
fbin.write(t)
if pres.a:#C-Style Array output
if wInfo[1] == 2 and pres.r is not True:#for 16bit wav without -r option
if wInfo[0] == 2:
farr.write('0x{0:0>4x},0x{1:0>4x}'.format(dL,dR))
else:
farr.write('0x{0:0>4x}'.format(dL))
else:
if wInfo[0] == 2:
farr.write('0x{0:0>2x},0x{1:0>2x}'.format(dL,dR))
else:
farr.write('0x{0:0>2x}'.format(dL))
#print comma
if i != (wInfo[3] - 1):
farr.write(',')
#Print New Line
if wInfo[0] == 2 and (i % 4) == 3:
farr.write('\n')
elif wInfo[0] == 1 and (i % 8) == 7:
farr.write('\n')
if pres.a: #Close the array
farr.write('};\n')