音频显示是pzh-speech的主要功能,pzh-speech借助的是Matplotlib以及NumPy来实现的音频显示功能,今天痞子衡为大家介绍音频显示在pzh-speech中是如何实现的。
大家好,我是痞子衡,是正经搞技术的痞子。今天痞子衡给大家介绍的是语音处理工具pzh-py-speech诞生之音频显示实现。
音频显示是pzh-py-speech的主要功能,pzh-py-speech借助的是Matplotlib以及NumPy来实现的音频显示功能,今天痞子衡为大家介绍音频显示在pzh-py-speech中是如何实现的。
一、SciPy工具集
SciPy是一套Python科学计算相关的工具集,其本身也是一个Python库,这个工具集主要包含以下6大Python库,pzh-py-speech所用到的Matplotlib以及NumPy均属于SciPy工具集。
1.1 NumPy
NumPy是一套最基础的Python科学计算包,它主要用于数组与矩阵运算,它是一个开源项目,被收录进 NumFOCUS 组织维护的 Sponsored Project 里。pzh-py-speech使用的是NumPy 1.15.0。
NumPy库的官方主页如下:
- NumPy官方主页: http://www.numpy.org/
- NumPy安装方法: https://pypi.org/project/numpy/
NumPy的快速上手可参考这个网页 https://docs.scipy.org/doc/numpy/user/quickstart.html
1.2 Matplotlib
Matplotlib是一套Python高质量2D绘图库,它的初始设计者为John Hunter,它也是一个开源项目,被同样收录进 NumFOCUS 组织维护的 Sponsored Project 里。pzh-py-speech使用的是Matplotlib 2.2.3。
Matplotlib库的官方主页如下:
- Matplotlib官方主页: https://matplotlib.org/
- Matplotlib安装方法: https://pypi.org/project/matplotlib/
Matplotlib绘图功能非常强大,但是作为一般使用,我们没有必要去通读其官方文档,其提供了非常多的example代码,这些example都在 https://matplotlib.org/gallery/index.html, 我们只要找到能满足我们需求的example,在其基础上简单修改即可。 下面就是一个最简单的正弦波示例:
import matplotlib import matplotlib.pyplot as plt import numpy as np # Data for plotting t = np.arange(0.0, 2.0, 0.01) s = 1 + np.sin(2 * np.pi * t) fig, ax = plt.subplots() ax.plot(t, s) ax.set(xlabel='time (s)', ylabel='voltage (mV)', title='About as simple as it gets, folks') ax.grid() fig.savefig("test.png") plt.show()
二、pzh-py-speech音频显示实现
pzh-py-speech关于音频显示功能实现主要有四点:选择.wav文件、读取.wav文件、绘制.wav波形、添加光标功能,最终pzh-py-speech效果如下图所示,痞子衡为逐一为大家介绍实现细节。
2.1 选择.wav文件功能
选择wav文件主要借助的是wxPython里的genericDirCtrl控件提供的功能实现的,我们使用genericDirCtrl控件创建了一个名为m_genericDirCtrl_audioDir的对象,借助其SetFilter()方法实现了仅显示.wav文件格式的过滤,并且我们为m_genericDirCtrl_audioDir还创建了一个event,即viewAudio(),这个event的触发条件是选中m_genericDirCtrl_audioDir里列出的.wav文件,当viewAudio()被触发时,我们通过GetFilePath()方法即可获得选中的.wav文件路径。
class mainWin(win.speech_win): def __init__(self, parent): win.speech_win.__init__(self, parent) # ... self.m_genericDirCtrl_audioDir.SetFilter("Audio files (*.wav)|*.wav") def viewAudio( self, event ): self.wavPath = self.m_genericDirCtrl_audioDir.GetFilePath()
2.2 读取.wav文件功能
读取.wav文件主要借助的是python自带的标准库wave,以及第三方的NumPy库。痞子衡创建了一个名为wavCanvasPanel的类,在这个类中定义了readWave(self, wavPath, wavInfo)方法,其中参数wavPath即是要读取的.wav文件路径,参数wavInfo是GUI状态栏对象,用于直观显示读取到的.wav文件信息。
在wavCanvasPanel.readWave()方法中,痞子衡首先使用了wave库里的功能获取到.wav文件的所有信息以及所有PCM数据,然后借助NumPy库将PCM数据按channel重新组织,便于后续图形显示。关于数据重新组织,有一个地方需要特别说明,即int24类型(3-byte)是不被NumPy中的fromstring()原生支持,因此痞子衡自己实现了一个非标准类型数据的fromstring()。
import numpy import wave class wavCanvasPanel(wx.Panel): def fromstring(self, wavData, alignedByte): if alignedByte <= 8: src = numpy.ndarray(len(wavData), numpy.dtype('>i1'), wavData) dest = numpy.zeros(len(wavData) / alignedByte, numpy.dtype('>i8')) for i in range(alignedByte): dest.view(dtype='>i1')[alignedByte-1-i::8] = src.view(dtype='>i1')[i::alignedByte] [hex(x) for x in dest] return True, dest else: return False, wavData def readWave(self, wavPath, wavInfo): if os.path.isfile(wavPath): # Open the wav file to get wave data and parameters wavFile = wave.open(wavPath, "rb") wavParams = wavFile.getparams() wavChannels = wavParams[0] wavSampwidth = wavParams[1] wavFramerate = wavParams[2] wavFrames = wavParams[3] wavInfo.SetStatusText('Opened Audio Info = ' + 'Channels:' + str(wavChannels) + ', SampWidth:' + str(wavSampwidth) + 'Byte' + ', SampRate:' + str(wavFramerate) + 'kHz' + ', FormatTag:' + wavParams[4]) wavData = wavFile.readframes(wavFrames) wavFile.close() # Transpose the wav data if wave has multiple channels if wavSampwidth == 1: dtype = numpy.int8 elif wavSampwidth == 2: dtype = numpy.int16 elif wavSampwidth == 3: dtype = None elif wavSampwidth == 4: dtype = numpy.float32 else: return 0, 0, 0 if dtype != None: retData = numpy.fromstring(wavData, dtype = dtype) else: # Implement int24 manually status, retData = self.fromstring(wavData, 3) if not status: return 0, 0, 0 if wavChannels != 1: retData.shape = -1, wavChannels retData = retData.T # Calculate and arange wave time retTime = numpy.arange(0, wavFrames) * (1.0 / wavFramerate) retChannels = wavChannels return retChannels, retData, retTime else: return 0, 0, 0
2.3 绘制.wav波形功能
绘制.wav波形是最主要的功能。痞子衡在wavCanvasPanel类中实现了showWave(self, wavPath, wavInfo)方法,这个方法会在GUI控件m_genericDirCtrl_audioDir的事件函数viewAudio()中被调用。
在wavCanvasPanel.showWave()方法中,痞子衡首先使用了readWave()获取.wav文件中经过重新组织的PCM数据,然后借助Matplotlib中的figure类中的add_axes()方法逐一将各channel的PCM数据绘制出来,并辅以各种信息(x、y轴精度、标签等)一同显示出来。由于GUI控件里专门用于显示波形的Panel对象尺寸为720*360 inch,痞子衡限制了最多显示.wav的前8通道。
import matplotlib from matplotlib.backends.backend_wxagg import FigureCanvasWxAgg as FigureCanvas from matplotlib.figure import Figure MAX_AUDIO_CHANNEL = 8 #unit: inch PLOT_PANEL_WIDTH = 720 PLOT_PANEL_HEIGHT = 360 #unit: percent PLOT_AXES_WIDTH_TITLE = 0.05 PLOT_AXES_HEIGHT_LABEL = 0.075 class wavCanvasPanel(wx.Panel): def __init__(self, parent): wx.Panel.__init__(self, parent) dpi = 60 width = PLOT_PANEL_WIDTH / dpi height = PLOT_PANEL_HEIGHT / dpi self.wavFigure = Figure(figsize=[width,height], dpi=dpi, facecolor='#404040') self.wavCanvas = FigureCanvas(self, -1, self.wavFigure) self.wavSizer = wx.BoxSizer(wx.VERTICAL) self.wavSizer.Add(self.wavCanvas, 1, wx.EXPAND|wx.ALL) self.SetSizerAndFit(self.wavSizer) self.wavAxes = [None] * MAX_AUDIO_CHANNEL def readWave(self, wavPath, wavInfo): # ... def showWave(self, wavPath, wavInfo): self.wavFigure.clear() waveChannels, waveData, waveTime = self.readWave(wavPath, wavInfo) if waveChannels != 0: # Note: only show max supported channel if actual channel > max supported channel if waveChannels > MAX_AUDIO_CHANNEL: waveChannels = MAX_AUDIO_CHANNEL # Polt the waveform of each channel in sequence for i in range(waveChannels): left = PLOT_AXES_HEIGHT_LABEL bottom = (1.0 / waveChannels) * (waveChannels - 1 - i) + PLOT_AXES_HEIGHT_LABEL height = 1.0 / waveChannels - (PLOT_AXES_WIDTH_TITLE + PLOT_AXES_HEIGHT_LABEL) width = 1 - left - 0.05 self.wavAxes[i] = self.wavFigure.add_axes([left, bottom, width, height], facecolor='k') self.wavAxes[i].set_prop_cycle(color='#00F279', lw=[1]) self.wavAxes[i].set_xlabel('time (s)', color='w') self.wavAxes[i].set_ylabel('value', color='w') if waveChannels == 1: data = waveData else: data = waveData[i] self.wavAxes[i].plot(waveTime, data) self.wavAxes[i].grid() self.wavAxes[i].tick_params(labelcolor='w') self.wavAxes[i].set_title('Audio Channel ' + str(i), color='w') # Note!!!: draw() must be called if figure has been cleared once self.wavCanvas.draw() class mainWin(win.speech_win): def __init__(self, parent): win.speech_win.__init__(self, parent) self.wavPanel = wavCanvasPanel(self.m_panel_plot) # ... def viewAudio( self, event ): self.wavPath = self.m_genericDirCtrl_audioDir.GetFilePath() self.wavPanel.showWave(self.wavPath, self.statusBar)
2.4 添加光标功能
光标定位功能不是必要功能,但其可以让软件看起来高大上,痞子衡创建了一个名为wavCursor类来实现它,主要在这个类中实现了moveMouse方法,这个方法将会被FigureCanvasWxAgg类中的mpl_connect()方法添加到各通道axes中。
MAX_AUDIO_CHANNEL = 8 class wavCursor(object): def __init__(self, ax, x, y): self.ax = ax self.vline = ax.axvline(color='r', alpha=1) self.hline = ax.axhline(color='r', alpha=1) self.marker, = ax.plot([0],[0], marker="o", color="crimson", zorder=3) self.x = x self.y = y self.xlim = self.x[len(self.x)-1] self.text = ax.text(0.7, 0.9, '', bbox=dict(facecolor='red', alpha=0.5)) def moveMouse(self, event): if not event.inaxes: return x, y = event.xdata, event.ydata if x > self.xlim: x = self.xlim index = numpy.searchsorted(self.x, [x])[0] x = self.x[index] y = self.y[index] self.vline.set_xdata(x) self.hline.set_ydata(y) self.marker.set_data([x],[y]) self.text.set_text('x=%1.2f, y=%1.2f' % (x, y)) self.text.set_position((x,y)) self.ax.figure.canvas.draw_idle() class wavCanvasPanel(wx.Panel): def __init__(self, parent): # ... self.wavAxes = [None] * MAX_AUDIO_CHANNEL # 定义光标对象 self.wavCursor = [None] * MAX_AUDIO_CHANNEL def showWave(self, wavPath, wavInfo): # ... if waveChannels != 0: # ... for i in range(waveChannels): # ... self.wavAxes[i].set_title('Audio Channel ' + str(i), color='w') # 实例化光标对象,并使用mpl_connect()将moveMouse()动作加入光标对象 self.wavCursor[i] = wavCursor(self.wavAxes[i], waveTime, data) self.wavCanvas.mpl_connect('motion_notify_event', self.wavCursor[i].moveMouse) # ...
至此,语音处理工具pzh-py-speech诞生之音频显示实现痞子衡便介绍完毕了,掌声在哪里~~~