I have got a problem (with my RAM) here: it's not able to hold the data I want to plot. I do have sufficient HD space. Is there any solution to avoid that "shadowing" of my data-set?
Concretely I deal with Digital Signal Processing and I have to use a high sample-rate. My framework (GNU Radio) saves the values (to avoid using too much disk space) in binary. I unpack it. Afterwards I need to plot. I need the plot zoomable, and interactive. And that is an issue.
Is there any optimization potential to this, or another software/programming language (like R or so) which can handle larger data-sets? Actually I want much more data in my plots. But I have no experience with other software. GNUplot fails, with a similar approach to the following. I don't know R (jet).
import matplotlib.pyplot as plt import matplotlib.cbook as cbook import struct """ plots a cfile cfile - IEEE single-precision (4-byte) floats, IQ pairs, binary txt - index,in-phase,quadrature in plaintext note: directly plotting with numpy results into shadowed functions """ # unpacking the cfile dataset def unpack_set(input_filename, output_filename): index = 0 # index of the samples output_filename = open(output_filename, 'wb') with open(input_filename, "rb") as f: byte = f.read(4) # read 1. column of the vector while byte != "": # stored Bit Values floati = struct.unpack('f', byte) # write value of 1. column to a variable byte = f.read(4) # read 2. column of the vector floatq = struct.unpack('f', byte) # write value of 2. column to a variable byte = f.read(4) # next row of the vector and read 1. column # delimeter format for matplotlib lines = ["%d," % index, format(floati), ",", format(floatq), "\n"] output_filename.writelines(lines) index = index + 1 output_filename.close return output_filename.name # reformats output (precision configuration here) def format(value): return "%.8f" % value # start def main(): # specify path unpacked_file = unpack_set("test01.cfile", "test01.txt") # pass file reference to matplotlib fname = str(unpacked_file) plt.plotfile(fname, cols=(0,1)) # index vs. in-phase # optional # plt.axes([0, 0.5, 0, 100000]) # for 100k samples plt.grid(True) plt.title("Signal-Diagram") plt.xlabel("Sample") plt.ylabel("In-Phase") plt.show(); if __name__ == "__main__": main()
Something like plt.swap_on_disk() could cache the stuff on my SSD ;)