使用 scipy.signal.spectrogram 在 pyqtgraph 中绘制 wavfile 的频谱
plotting the spectrum of a wavfile in pyqtgraph using scipy.signal.spectrogram
我有一个用于音乐和语音分析的 PyQt plus pyqtgraph 程序,我想绘制一个 wav 文件的频谱(使用 scipy python 包计算)。
我可以在 matplotlib 中完成,但由于 matplotlib 的性能,我需要切换到 pyqtgraph,但我找不到任何一致的方法来将 scipy.signal.spectrogram 的输出绘制到 pyqtgraph
谢谢!
Scipy 频谱图的输出可以很容易地绘制为 pyqtgraph 的 ImageItem。通常,生成的频谱图只是灰度的。您可以使用直方图最轻松地进行调整。
作为示例,这里是如何调整频谱图的 SciPy 示例以使用 pyqtgraph(使用 pyqtgraph 中的示例作为基础):
from scipy import signal
import matplotlib.pyplot as plt
import numpy as np
import pyqtgraph
# Create the data
fs = 10e3
N = 1e5
amp = 2 * np.sqrt(2)
noise_power = 0.01 * fs / 2
time = np.arange(N) / float(fs)
mod = 500*np.cos(2*np.pi*0.25*time)
carrier = amp * np.sin(2*np.pi*3e3*time + mod)
noise = np.random.normal(scale=np.sqrt(noise_power), size=time.shape)
noise *= np.exp(-time/5)
x = carrier + noise
f, t, Sxx = signal.spectrogram(x, fs)
# Interpret image data as row-major instead of col-major
pyqtgraph.setConfigOptions(imageAxisOrder='row-major')
pyqtgraph.mkQApp()
win = pyqtgraph.GraphicsLayoutWidget()
# A plot area (ViewBox + axes) for displaying the image
p1 = win.addPlot()
# Item for displaying image data
img = pyqtgraph.ImageItem()
p1.addItem(img)
# Add a histogram with which to control the gradient of the image
hist = pyqtgraph.HistogramLUTItem()
# Link the histogram to the image
hist.setImageItem(img)
# If you don't add the histogram to the window, it stays invisible, but I find it useful.
win.addItem(hist)
# Show the window
win.show()
# Fit the min and max levels of the histogram to the data available
hist.setLevels(np.min(Sxx), np.max(Sxx))
# This gradient is roughly comparable to the gradient used by Matplotlib
# You can adjust it and then save it using hist.gradient.saveState()
hist.gradient.restoreState(
{'mode': 'rgb',
'ticks': [(0.5, (0, 182, 188, 255)),
(1.0, (246, 111, 0, 255)),
(0.0, (75, 0, 113, 255))]})
# Sxx contains the amplitude for each pixel
img.setImage(Sxx)
# Scale the X and Y Axis to time and frequency (standard is pixels)
img.scale(t[-1]/np.size(Sxx, axis=1),
f[-1]/np.size(Sxx, axis=0))
# Limit panning/zooming to the spectrogram
p1.setLimits(xMin=0, xMax=t[-1], yMin=0, yMax=f[-1])
# Add labels to the axis
p1.setLabel('bottom', "Time", units='s')
# If you include the units, Pyqtgraph automatically scales the axis and adjusts the SI prefix (in this case kHz)
p1.setLabel('left', "Frequency", units='Hz')
# Plotting with Matplotlib in comparison
plt.pcolormesh(t, f, Sxx)
plt.ylabel('Frequency [Hz]')
plt.xlabel('Time [sec]')
plt.colorbar()
plt.show()
pyqtgraph.Qt.QtGui.QApplication.instance().exec_()
Matpotlib 频谱图
Pyqtgraph ImageItem
我有一个用于音乐和语音分析的 PyQt plus pyqtgraph 程序,我想绘制一个 wav 文件的频谱(使用 scipy python 包计算)。 我可以在 matplotlib 中完成,但由于 matplotlib 的性能,我需要切换到 pyqtgraph,但我找不到任何一致的方法来将 scipy.signal.spectrogram 的输出绘制到 pyqtgraph
谢谢!
Scipy 频谱图的输出可以很容易地绘制为 pyqtgraph 的 ImageItem。通常,生成的频谱图只是灰度的。您可以使用直方图最轻松地进行调整。
作为示例,这里是如何调整频谱图的 SciPy 示例以使用 pyqtgraph(使用 pyqtgraph 中的示例作为基础):
from scipy import signal
import matplotlib.pyplot as plt
import numpy as np
import pyqtgraph
# Create the data
fs = 10e3
N = 1e5
amp = 2 * np.sqrt(2)
noise_power = 0.01 * fs / 2
time = np.arange(N) / float(fs)
mod = 500*np.cos(2*np.pi*0.25*time)
carrier = amp * np.sin(2*np.pi*3e3*time + mod)
noise = np.random.normal(scale=np.sqrt(noise_power), size=time.shape)
noise *= np.exp(-time/5)
x = carrier + noise
f, t, Sxx = signal.spectrogram(x, fs)
# Interpret image data as row-major instead of col-major
pyqtgraph.setConfigOptions(imageAxisOrder='row-major')
pyqtgraph.mkQApp()
win = pyqtgraph.GraphicsLayoutWidget()
# A plot area (ViewBox + axes) for displaying the image
p1 = win.addPlot()
# Item for displaying image data
img = pyqtgraph.ImageItem()
p1.addItem(img)
# Add a histogram with which to control the gradient of the image
hist = pyqtgraph.HistogramLUTItem()
# Link the histogram to the image
hist.setImageItem(img)
# If you don't add the histogram to the window, it stays invisible, but I find it useful.
win.addItem(hist)
# Show the window
win.show()
# Fit the min and max levels of the histogram to the data available
hist.setLevels(np.min(Sxx), np.max(Sxx))
# This gradient is roughly comparable to the gradient used by Matplotlib
# You can adjust it and then save it using hist.gradient.saveState()
hist.gradient.restoreState(
{'mode': 'rgb',
'ticks': [(0.5, (0, 182, 188, 255)),
(1.0, (246, 111, 0, 255)),
(0.0, (75, 0, 113, 255))]})
# Sxx contains the amplitude for each pixel
img.setImage(Sxx)
# Scale the X and Y Axis to time and frequency (standard is pixels)
img.scale(t[-1]/np.size(Sxx, axis=1),
f[-1]/np.size(Sxx, axis=0))
# Limit panning/zooming to the spectrogram
p1.setLimits(xMin=0, xMax=t[-1], yMin=0, yMax=f[-1])
# Add labels to the axis
p1.setLabel('bottom', "Time", units='s')
# If you include the units, Pyqtgraph automatically scales the axis and adjusts the SI prefix (in this case kHz)
p1.setLabel('left', "Frequency", units='Hz')
# Plotting with Matplotlib in comparison
plt.pcolormesh(t, f, Sxx)
plt.ylabel('Frequency [Hz]')
plt.xlabel('Time [sec]')
plt.colorbar()
plt.show()
pyqtgraph.Qt.QtGui.QApplication.instance().exec_()
Matpotlib 频谱图
Pyqtgraph ImageItem