import numpy as np import matplotlib.pyplot as plt import matplotlib.animation as animation outputFolder = "src/static/video/" omega = 2*np.pi * 0.25 A = 1 position = lambda t: A*np.cos(omega * t) speed = lambda t: A*np.sin(omega*t) totalTime = 12 framerate = 20 fig, ((diagrammAx, positionAx), (velocityAx, phaseSpaceAx)) = plt.subplots(2,2) diagrammAx.axis("equal") diagrammAx.set_ylim(-1.5*A, 1.5*A) diagrammAx.set_xlim(-1.5*A, 1.5*A) diagrammAx.set_xlabel("x") diagrammGraph, = diagrammAx.plot([0, 1], [0, 0], "o-") phaseSpaceAx.axis("equal") phaseSpaceAx.set_ylim(-1.5*A, 1.5*A) phaseSpaceAx.set_xlim(-1.5*A, 1.5*A) phaseSpaceAx.set_xlabel("x") phaseSpaceAx.set_ylabel("v") phaseGraph, = phaseSpaceAx.plot([0, 0], [0, 0], "o-") positionAx.set_xlim(-1.5*A, 1.5*A) positionAx.set_ylim(0, totalTime) positionAx.set_xlabel("x") positionAx.set_ylabel("t") positionData = [(0,0) for _ in range(framerate * totalTime)] positionPlotData = list(zip(*positionData)) positionGraph, = positionAx.plot(positionPlotData[0], positionPlotData[1]) velocityAx.set_ylim(-1.5*A, 1.5*A) velocityAx.set_xlim(0, totalTime) velocityAx.set_xlabel("t") velocityAx.set_ylabel("v") velocityData = [(0,A) for _ in range(framerate * totalTime)] velocityPlotData = list(zip(*velocityData)) velocityGraph, = velocityAx.plot(velocityPlotData[0], velocityPlotData[1]) plt.tight_layout() def animate(i): t = i/framerate x = position(t) v = speed(t) diagrammGraph.set_data([0, x], [0, 0]) phaseGraph.set_data([0, x], [0, v]) positionData[i:] = [(x, t) for _ in range(framerate*totalTime - i)] positionPlotData = list(zip(*positionData)) positionGraph.set_data(positionPlotData[0], positionPlotData[1]) velocityData[i:] = [(t, v) for _ in range(framerate*totalTime - i)] velocityPlotData = list(zip(*velocityData)) velocityGraph.set_data(velocityPlotData[0], velocityPlotData[1]) return diagrammGraph, phaseGraph, positionGraph, velocityGraph ani = animation.FuncAnimation( fig, animate, interval=1000/framerate, blit=True, save_count = framerate * totalTime) ani.save(f"{outputFolder}oscillator.mp4") fig, diagrammAx = plt.subplots() diagrammAx.axis("equal") diagrammAx.set_ylim(-1.5*A, 1.5*A) diagrammAx.set_xlim(-1.5*A, 1.5*A) diagrammAx.set_xlabel("x") diagrammGraph, = diagrammAx.plot([0, 1], [0, 0], "o-") def animate(i): t = i/framerate x = position(t) diagrammGraph.set_data([0, x], [0, 0]) return diagrammGraph, ani = animation.FuncAnimation( fig, animate, interval=1000/framerate, blit=True, save_count = framerate * totalTime) ani.save(f"{outputFolder}oscillator_simple.mp4") # plt.show()