Got the thing to receive in my own python script. Pretty dang cool.

Now, some problems. The framerate variable makes no sense. My math must be wrong somewhere. Lower framerates devolve into industrial music.

Some good hiccups, had to convert from the default doubles to float32.

Using socket was pretty easy.

Declare variables global. I believe globals are supposed to be bad, but they sure are useful.

Tkinter is pretty good for quick stuff.

#rtl_tcp -s 2048000 -f 101140000
#-f 101140000 -g 40 -n 20480000

#rtl_sdr -f 101140000 -g 40 -n 20480000 ab120_10s.dat

from sys import argv
#This will allow a command line assignment of the filename
#script, filename = argv


import struct
import numpy as np
from scipy import signal
import matplotlib.pyplot as plt
import scipy as sp

import socket


TCP_IP = '127.0.0.1'
TCP_PORT = 1234
BUFFER_SIZE = 1024

import pyaudio

p = pyaudio.PyAudio()

# open stream (2)
framerate = 204800 #10000 # for industrial music
samplerate = 2048000

s = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
s.connect((TCP_IP, TCP_PORT))
offset = -4.0e5
def callback(in_data, frame_count, time_info, status):
    #data = wf.readframes(frame_count)
    data = ""
    #print frame_count
    for i in range(frame_count * samplerate / framerate / BUFFER_SIZE * 2):
        data = data + s.recv(BUFFER_SIZE)

    rawdata = np.fromstring(data,dtype=np.uint8)
    real = rawdata[0::2]-127.5
    imag = rawdata[1::2]-127.5
    vals = real + 1.j * imag
    T = frame_count / float(framerate) #seconds
    fshift = offset#-4.0e5 #-3.5e5
    #print offset
    vals = vals * np.exp ( 1.j *2 * np.pi * np.linspace(0, fshift * T  ,vals.size)) # number of cycles
    vals = sp.signal.decimate(vals,10)
    diff = vals[0:-1] * np.conj(vals[1:])
    sig = np.arctan2(np.real(diff),np.imag(diff))
    sig = sp.signal.resample(sig,frame_count)
    return (np.float32(sig/np.pi), pyaudio.paContinue)
    #return (sig/np.pi, pyaudio.paContinue)

stream = p.open(format=pyaudio.paFloat32,
                channels=1,
                rate=framerate,
                output=True,
                stream_callback=callback)


from matplotlib.widgets import Slider



import signal
import sys
def signal_handler(signal, frame):
        print('You pressed Ctrl+C!')
        s.close()
        stream.stop_stream()
        stream.close()

        # close PyAudio (5)
        p.terminate()
        sys.exit(0)
signal.signal(signal.SIGINT, signal_handler)
'''
axcolor = 'lightgoldenrodyellow'
axfreq = plt.axes([0.25, 0.1, 0.65, 0.03], axisbg=axcolor)


sfreq = Slider(axfreq, 'Freq', -5.e5, -3.e5, valinit=-4.e5)
def update(val):
    offset = sfreq.val
sfreq.on_changed(update)
plt.ion()
plt.show()
'''

from Tkinter import *

def update(event):
    global offset
    offset = event.widget.get()
    #print offset

master = Tk()
w = Scale(master, from_=-10e5, to=0)
w.pack()
w.set(-4e5)
w.bind('<ButtonRelease>', update)

#w = Scale(master, from_=0, to=200, orient=HORIZONTAL)
#w.pack()

master.mainloop()

signal.pause()