#!/usr/local/bin/python3
import numpy as np
import cv2
def sin2d(x,y):
"""2-d sine function to plot"""
return np.sin(x) + np.cos(y)
def getFrame():
"""Generate next frame of simulation as numpy array"""
# Create data on first call only
if getFrame.z is None:
xx, yy = np.meshgrid(np.linspace(0,2*np.pi,w), np.linspace(0,2*np.pi,h))
getFrame.z = sin2d(xx, yy)
getFrame.z = cv2.normalize(getFrame.z,None,alpha=0,beta=1,norm_type=cv2.NORM_MINMAX, dtype=cv2.CV_32F)
# Just roll data for subsequent calls
getFrame.z = np.roll(getFrame.z,(1,2),(0,1))
return getFrame.z
# Frame size
w, h = 640, 480
getFrame.z = None
while True:
# Get a numpy array to display from the simulation
npimage=getFrame()
cv2.imshow('image',npimage)
cv2.waitKey(1)
#!/usr/local/bin/python3
import numpy as np
import cv2
def sin2d(x,y):
"""2-d sine function to plot"""
return np.sin(x) + np.cos(y)
def getFrame():
"""Generate next frame of simulation as numpy array"""
# Create data on first call only
if getFrame.z is None:
xx, yy = np.meshgrid(np.linspace(0,2*np.pi,w), np.linspace(0,2*np.pi,h))
getFrame.z = sin2d(xx, yy)
getFrame.z = cv2.normalize(getFrame.z,None,alpha=0,beta=1,norm_type=cv2.NORM_MINMAX, dtype=cv2.CV_32F)
# Just roll data for subsequent calls
getFrame.z = np.roll(getFrame.z,(1,2),(0,1))
return getFrame.z
# Frame size
w, h = 640, 480
getFrame.z = None
while True:
# Get a numpy array to display from the simulation
npimage=getFrame()
cv2.imshow('image',npimage)
cv2.waitKey(1)
#!/usr/local/bin/python3
import numpy as np
import cv2
def sin2d(x,y):
"""2-d sine function to plot"""
return np.sin(x) + np.cos(y)
def getFrame():
"""Generate next frame of simulation as numpy array"""
# Create data on first call only
if getFrame.z is None:
xx, yy = np.meshgrid(np.linspace(0,2*np.pi,w), np.linspace(0,2*np.pi,h))
getFrame.z = sin2d(xx, yy)
getFrame.z = cv2.normalize(getFrame.z,None,alpha=0,beta=1,norm_type=cv2.NORM_MINMAX, dtype=cv2.CV_32F)
# Just roll data for subsequent calls
getFrame.z = np.roll(getFrame.z,(1,2),(0,1))
return getFrame.z
# Frame size
w, h = 640, 480
getFrame.z = None
while True:
# Get a numpy array to display from the simulation
npimage=getFrame()
cv2.imshow('image',npimage)
cv2.waitKey(1)
#!/usr/local/bin/python3
import numpy as np
import cv2
def sin2d(x,y):
"""2-d sine function to plot"""
return np.sin(x) + np.cos(y)
def getFrame():
"""Generate next frame of simulation as numpy array"""
# Create data on first call only
if getFrame.z is None:
xx, yy = np.meshgrid(np.linspace(0,2*np.pi,w), np.linspace(0,2*np.pi,h))
getFrame.z = sin2d(xx, yy)
getFrame.z = cv2.normalize(getFrame.z,None,alpha=0,beta=1,norm_type=cv2.NORM_MINMAX, dtype=cv2.CV_32F)
# Just roll data for subsequent calls
getFrame.z = np.roll(getFrame.z,(1,2),(0,1))
return getFrame.z
# Frame size
w, h = 640, 480
getFrame.z = None
while True:
# Get a numpy array to display from the simulation
npimage=getFrame()
cv2.imshow('image',npimage)
cv2.waitKey(1)
#!/usr/local/bin/python3
import numpy as np
import cv2
def sin2d(x,y):
"""2-d sine function to plot"""
return np.sin(x) + np.cos(y)
def getFrame():
"""Generate next frame of simulation as numpy array"""
# Create data on first call only
if getFrame.z is None:
xx, yy = np.meshgrid(np.linspace(0,2*np.pi,w), np.linspace(0,2*np.pi,h))
getFrame.z = sin2d(xx, yy)
getFrame.z = cv2.normalize(getFrame.z,None,alpha=0,beta=1,norm_type=cv2.NORM_MINMAX, dtype=cv2.CV_32F)
# Just roll data for subsequent calls
getFrame.z = np.roll(getFrame.z,(1,2),(0,1))
return getFrame.z
# Frame size
w, h = 640, 480
getFrame.z = None
while True:
# Get a numpy array to display from the simulation
npimage=getFrame()
cv2.imshow('image',npimage)
cv2.waitKey(1)
#!/usr/local/bin/python3
import numpy as np
import cv2
def sin2d(x,y):
"""2-d sine function to plot"""
return np.sin(x) + np.cos(y)
def getFrame():
"""Generate next frame of simulation as numpy array"""
# Create data on first call only
if getFrame.z is None:
xx, yy = np.meshgrid(np.linspace(0,2*np.pi,w), np.linspace(0,2*np.pi,h))
getFrame.z = sin2d(xx, yy)
getFrame.z = cv2.normalize(getFrame.z,None,alpha=0,beta=1,norm_type=cv2.NORM_MINMAX, dtype=cv2.CV_32F)
# Just roll data for subsequent calls
getFrame.z = np.roll(getFrame.z,(1,2),(0,1))
return getFrame.z
# Frame size
w, h = 640, 480
getFrame.z = None
while True:
# Get a numpy array to display from the simulation
npimage=getFrame()
cv2.imshow('image',npimage)
cv2.waitKey(1)
#!/usr/local/bin/python3
import numpy as np
import cv2
def sin2d(x,y):
"""2-d sine function to plot"""
return np.sin(x) + np.cos(y)
def getFrame():
"""Generate next frame of simulation as numpy array"""
# Create data on first call only
if getFrame.z is None:
xx, yy = np.meshgrid(np.linspace(0,2*np.pi,w), np.linspace(0,2*np.pi,h))
getFrame.z = sin2d(xx, yy)
getFrame.z = cv2.normalize(getFrame.z,None,alpha=0,beta=1,norm_type=cv2.NORM_MINMAX, dtype=cv2.CV_32F)
# Just roll data for subsequent calls
getFrame.z = np.roll(getFrame.z,(1,2),(0,1))
return getFrame.z
# Frame size
w, h = 640, 480
getFrame.z = None
while True:
# Get a numpy array to display from the simulation
npimage=getFrame()
cv2.imshow('image',npimage)
cv2.waitKey(1)
#!/usr/local/bin/python3
import numpy as np
import cv2
def sin2d(x,y):
"""2-d sine function to plot"""
return np.sin(x) + np.cos(y)
def getFrame():
"""Generate next frame of simulation as numpy array"""
# Create data on first call only
if getFrame.z is None:
xx, yy = np.meshgrid(np.linspace(0,2*np.pi,w), np.linspace(0,2*np.pi,h))
getFrame.z = sin2d(xx, yy)
getFrame.z = cv2.normalize(getFrame.z,None,alpha=0,beta=1,norm_type=cv2.NORM_MINMAX, dtype=cv2.CV_32F)
# Just roll data for subsequent calls
getFrame.z = np.roll(getFrame.z,(1,2),(0,1))
return getFrame.z
# Frame size
w, h = 640, 480
getFrame.z = None
while True:
# Get a numpy array to display from the simulation
npimage=getFrame()
cv2.imshow('image',npimage)
cv2.waitKey(1)