prosperon/source/portaudio/test/patest_suggested_vs_streaminfo_latency.py

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#!/usr/bin/env python
"""
Run and graph the results of patest_suggested_vs_streaminfo_latency.c
Requires matplotlib for plotting: http://matplotlib.sourceforge.net/
"""
import os
from pylab import *
import numpy
from matplotlib.backends.backend_pdf import PdfPages
testExeName = "PATest.exe" # rename to whatever the compiled patest_suggested_vs_streaminfo_latency.c binary is
dataFileName = "patest_suggested_vs_streaminfo_latency.csv" # code below calls the exe to generate this file
inputDeviceIndex = -1 # -1 means default
outputDeviceIndex = -1 # -1 means default
sampleRate = 44100
pdfFilenameSuffix = "_wmme"
pdfFile = PdfPages("patest_suggested_vs_streaminfo_latency_" + str(sampleRate) + pdfFilenameSuffix +".pdf") #output this pdf file
def loadCsvData( dataFileName ):
params= ""
inputDevice = ""
outputDevice = ""
startLines = file(dataFileName).readlines(1024)
for line in startLines:
if "output device" in line:
outputDevice = line.strip(" \t\n\r#")
if "input device" in line:
inputDevice = line.strip(" \t\n\r#")
params = startLines[0].strip(" \t\n\r#")
data = numpy.loadtxt(dataFileName, delimiter=",", skiprows=4).transpose()
class R(object): pass
result = R()
result.params = params
for s in params.split(','):
if "sample rate" in s:
result.sampleRate = s
result.inputDevice = inputDevice
result.outputDevice = outputDevice
result.suggestedLatency = data[0]
result.halfDuplexOutputLatency = data[1]
result.halfDuplexInputLatency = data[2]
result.fullDuplexOutputLatency = data[3]
result.fullDuplexInputLatency = data[4]
return result;
def setFigureTitleAndAxisLabels( framesPerBufferString ):
title("PortAudio suggested (requested) vs. resulting (reported) stream latency\n" + framesPerBufferString)
ylabel("PaStreamInfo::{input,output}Latency (s)")
xlabel("Pa_OpenStream suggestedLatency (s)")
grid(True)
legend(loc="upper left")
def setDisplayRangeSeconds( maxSeconds ):
xlim(0, maxSeconds)
ylim(0, maxSeconds)
# run the test with different frames per buffer values:
compositeTestFramesPerBufferValues = [0]
# powers of two
for i in range (1,11):
compositeTestFramesPerBufferValues.append( pow(2,i) )
# multiples of 50
for i in range (1,20):
compositeTestFramesPerBufferValues.append( i * 50 )
# 10ms buffer sizes
compositeTestFramesPerBufferValues.append( 441 )
compositeTestFramesPerBufferValues.append( 882 )
# large primes
#compositeTestFramesPerBufferValues.append( 39209 )
#compositeTestFramesPerBufferValues.append( 37537 )
#compositeTestFramesPerBufferValues.append( 26437 )
individualPlotFramesPerBufferValues = [0,64,128,256,512] #output separate plots for these
isFirst = True
for framesPerBuffer in compositeTestFramesPerBufferValues:
commandString = testExeName + " " + str(inputDeviceIndex) + " " + str(outputDeviceIndex) + " " + str(sampleRate) + " " + str(framesPerBuffer) + ' > ' + dataFileName
print commandString
os.system(commandString)
d = loadCsvData(dataFileName)
if isFirst:
figure(1) # title sheet
gcf().text(0.1, 0.0,
"patest_suggested_vs_streaminfo_latency\n%s\n%s\n%s\n"%(d.inputDevice,d.outputDevice,d.sampleRate))
pdfFile.savefig()
figure(2) # composite plot, includes all compositeTestFramesPerBufferValues
if isFirst:
plot( d.suggestedLatency, d.suggestedLatency, label="Suggested latency" )
plot( d.suggestedLatency, d.halfDuplexOutputLatency )
plot( d.suggestedLatency, d.halfDuplexInputLatency )
plot( d.suggestedLatency, d.fullDuplexOutputLatency )
plot( d.suggestedLatency, d.fullDuplexInputLatency )
if framesPerBuffer in individualPlotFramesPerBufferValues: # individual plots
figure( 3 + individualPlotFramesPerBufferValues.index(framesPerBuffer) )
plot( d.suggestedLatency, d.suggestedLatency, label="Suggested latency" )
plot( d.suggestedLatency, d.halfDuplexOutputLatency, label="Half-duplex output latency" )
plot( d.suggestedLatency, d.halfDuplexInputLatency, label="Half-duplex input latency" )
plot( d.suggestedLatency, d.fullDuplexOutputLatency, label="Full-duplex output latency" )
plot( d.suggestedLatency, d.fullDuplexInputLatency, label="Full-duplex input latency" )
if framesPerBuffer == 0:
framesPerBufferText = "paFramesPerBufferUnspecified"
else:
framesPerBufferText = str(framesPerBuffer)
setFigureTitleAndAxisLabels( "user frames per buffer: "+str(framesPerBufferText) )
setDisplayRangeSeconds(2.2)
pdfFile.savefig()
setDisplayRangeSeconds(0.1)
setFigureTitleAndAxisLabels( "user frames per buffer: "+str(framesPerBufferText)+" (detail)" )
pdfFile.savefig()
isFirst = False
figure(2)
setFigureTitleAndAxisLabels( "composite of frames per buffer values:\n"+str(compositeTestFramesPerBufferValues) )
setDisplayRangeSeconds(2.2)
pdfFile.savefig()
setDisplayRangeSeconds(0.1)
setFigureTitleAndAxisLabels( "composite of frames per buffer values:\n"+str(compositeTestFramesPerBufferValues)+" (detail)" )
pdfFile.savefig()
pdfFile.close()
#uncomment this to display interactively, otherwise we just output a pdf
#show()