︠b66910b9-b148-4d2c-85a5-d1fc8bb00632s︠ """ Simple demo of a scatter plot. """ import numpy as np import matplotlib.pyplot as plt N = 50 x = np.random.rand(N) y = np.random.rand(N) colors = np.random.rand(N) area = np.pi * (15 * np.random.rand(N))**2 # 0 to 15 point radiuses plt.scatter(x, y, s=area, c=colors, alpha=0.5) a=plt.show() # now SVG by default ︡e8d119bd-ea9f-4e32-a389-569ee7a238fe︡{"stdout":"'\\nSimple demo of a scatter plot.\\n'\n"}︡{"stdout":"\n"}︡{"once":false,"file":{"show":true,"uuid":"c9712209-094f-4a12-9490-057162f017da","filename":"ae853f35-8b1c-4c44-9423-a10d464bb671.svg"}}︡ ︠6a100f09-59c5-4ba7-a4a1-6e5972d41957s︠ plt.show? ︡3bb7ded8-bfdd-4d50-a2ac-73f061b69675︡{"code":{"source":"File: /projects/4a5f0542-5873-4eed-a85c-a18c706e8bcd/.sagemathcloud/sage_salvus.py\nSignature : plt.show(svg=True)\nDocstring :\nShow a Pylab plot in a Sage Worksheet.\n\nINPUTS:\n\n * svg -- boolean (default: True); if True use an svg;\n otherwise, use a png.","mode":"text/x-rst","lineno":-1,"filename":null}}︡ ︠6198ae14-e99d-4d73-8f84-6d1f13dee25bs︠ N = 50 x = np.random.rand(N) y = np.random.rand(N) colors = np.random.rand(N) area = np.pi * (15 * np.random.rand(N))**2 # 0 to 15 point radiuses plt.scatter(x, y, s=area, c=colors, alpha=0.5) a=plt.show(svg=False) # a png ︡578b09c5-9d2f-4abe-bdf8-216c09688e98︡{"stdout":"\n"}︡{"once":false,"file":{"show":true,"uuid":"c5a813b9-fa63-4d6c-bbec-7a0747687ddd","filename":"3a7d9881-d3bc-498c-ad86-b9419ac1477b.png"}}︡ ︠5b954c9a-9427-4f91-b357-4a4a02f18115︠