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答案是使用numba。这就是代码现在的样子：import numpy as npfrom numba import jit@jit(nopython=True)def houghLines(edges, dTheta, threshold):    imageShape = edges.shape    imageDiameter = (imageShape[0]**2 + imageShape[1]**2)**0.5    rhoRange = [i for i in range(int(imageDiameter)+1)]    thetaRange = [dTheta*i for i in range(int(-np.pi/(2*dTheta)), int(np.pi/dTheta))]    cosTheta = []    sinTheta = []    for theta in thetaRange:        cosTheta.append(np.cos(theta))        sinTheta.append(np.sin(theta))    countMatrixSize = (len(rhoRange), len(thetaRange))    countMatrix = np.zeros(countMatrixSize)    eds = []    for (x,y), value in np.ndenumerate(edges):        if value > 0:            eds.append((x,y))    for thetaIndex in range(len(thetaRange)):        theta = thetaRange[thetaIndex]        cos = cosTheta[thetaIndex]        sin = sinTheta[thetaIndex]        for x, y in eds:            targetRho = x*cos + y*sin            closestRhoIndex = int(round(targetRho))            countMatrix[closestRhoIndex, thetaIndex] += 1    lines = []    for (p,t), value in np.ndenumerate(countMatrix):        if value > threshold:            lines.append((p,thetaRange[t]))    return lines这使它至少快了 50 倍。

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