def main2D_3D_2D_LowResolution():
    '''1. read origin obj and image'''
    objPath = '../../github/vrn-07231340/obj/trump-12.obj'
    objLines, vLines, fLines = readObj(objPath)
    imgPath = '../../github/vrn-07231340/examples/scaled/trump-12.jpg'
    img = cv2.imread(imgPath)
    '''2. origin 2D landmark --> origin 3D landmark'''
    '''   BUT ONE 2D LANDMARK --> MORE THAN ONE 3D LANDMARK'''
    '''   HOW TO CHOOSE THE BEST ONE ?'''
    '''   OPTION 1: 选Z最大的3D landmark'''
    '''2.1 origin 2D landmark [x, y]'''
    originLandmark2DList = getLandmark2D(img)
    '''2.2 origin 3D landmark list [[[x, y], [(line1, vLine1), (line2, vLine2)]], ... ]'''
    originLandmark3DList = getLandmark3D(originLandmark2DList, vLines)
    '''2.3 OPTION 1: 选Z最大的3D landmark'''
    originLandmark3DList = optionChooseZMax(originLandmark3DList)
    '''3. nod'''
    nodAngle = 15
    nodCenterMode = 'maxY'
    nodedObjLines = nod(objPath, nodAngle, nodCenterMode)
    '''4. noded 3D landmark list'''
    '''nodedLandmark3DList: [[x0, y0], [x0, y0, z0], [x1, y1], [x1, y1, z1], (line, vLine)]'''
    '''len(nodedLandmark3DList): number of landmarks both on 2D and 3D'''
    '''[x0, y0]: original landmark on 2D img'''
    '''[x0, y0, z0]: original landmark on 3D model'''
    '''[x1, y1]: noded landmark on 2D img'''
    '''[x1, y1, z1]: noded landmark on 3D model'''
    '''(line, vLine): the line(th) noded vLine'''
    nodedVLines = objLines2vLines(nodedObjLines)
    nodedLandmark3DList = getNodedLandmark3D(nodedVLines, originLandmark3DList)
    '''5. noded 3D landmark --> noded 2D landmark'''
    nodedLandmark2D = []
    for nodedLandmark3D in nodedLandmark3DList:
        nodedLandmark2D.append(nodedLandmark3D[2])
    nodedLandmark2D = addEdgeLandmark(nodedLandmark2D, img)
    '''6. delaunay triangle for (origin landmarks which are both on 2D and 3D) + (eight edge points)'''
    originLandmark2D = []
    for nodedLandmark3D in nodedLandmark3DList:
        originLandmark2D.append((nodedLandmark3D[0][0], nodedLandmark3D[0][1]))
    originLandmark2D = addEdgeLandmark(originLandmark2D, img)
    assert len(originLandmark2D) == len(nodedLandmark2D)
    triList = generateTriList(originLandmark2D, img)
    '''7. warp'''
    imgMorph = morph_modify_for_2D3D2D_low_resolution(originLandmark2D,
                                                      nodedLandmark2D, img,
                                                      triList)
    imshow('imgMorph', imgMorph)
    cv2.imwrite('./noded.jpg', imgMorph)
Example #2
0
def main2D_3D_2D_TurnFace():
    '''1. read img and obj'''
    imgPath = '../../github/vrn-07231340/examples/scaled/trump-12.jpg'
    img = cv2.imread(imgPath)
    objPath = '../../github/vrn-07231340/obj/trump-12.obj'
    objLines, vLines, fLines = readObj(objPath)

    '''2. origin 2D landmark --> origin 3D landmark'''
    '''   BUT ONE 2D LANDMARK --> MORE THAN ONE 3D LANDMARK'''
    '''   HOW TO CHOOSE THE BEST ONE ?'''
    '''   OPTION 1: 选Z最大的3D landmark'''
    '''2.1 origin 2D landmark [x, y]'''
    originLandmark2DList = getLandmark2D(img)
    '''2.2 origin 3D landmark list [[[x, y], [(line1, vLine1), (line2, vLine2)]], ... ]'''
    originLandmark3DList = getLandmark3D(originLandmark2DList, vLines)
    '''2.3 OPTION 1: 选Z最大的3D landmark'''
    originLandmark3DList = optionChooseZMax(originLandmark3DList)

    '''3. turn'''
    turnAngle = 15
    turnCenterMode = 'maxY'
    turnDirection = 'right'
    turnObjLines = turn(objPath, turnAngle, turnDirection, turnCenterMode)
    # projection(turnObjLines, imgPath)

    '''4. turn 3D landmark list'''
    '''turnLandmark3DList: [[x0, y0], [x0, y0, z0], [x1, y1], [x1, y1, z1], (line, vLine)]'''
    '''len(turnLandmark3DList): number of landmarks both on 2D and 3D'''
    '''[x0, y0]: original landmark on 2D img'''
    '''[x0, y0, z0]: original landmark on 3D model'''
    '''[x1, y1]: turn landmark on 2D img'''
    '''[x1, y1, z1]: turn landmark on 3D model'''
    '''(line, vLine): the line(th) turn vLine'''
    turnVLines = objLines2vLines(turnObjLines)
    turnLandmark3DList = getTurnLandmark3D(turnVLines, originLandmark3DList)

    '''5. turn 3D landmark --> turn 2D landmark'''
    turnLandmark2D = []
    for turnLandmark3D in turnLandmark3DList:
        turnLandmark2D.append(turnLandmark3D[2])

    '''6. origin 2D landmarks'''
    originLandmark2D = []
    for turnLandmark3D in turnLandmark3DList:
        originLandmark2D.append((turnLandmark3D[0][0], turnLandmark3D[0][1]))
    assert len(originLandmark2D) == len(turnLandmark2D)

    print len(turnLandmark2D)
Example #3
0
def main2D_3D_2D_LR_Hair():
    '''1. read origin obj and image'''
    objPath = '../../github/vrn-07231340/obj/trump-12.obj'
    objLines, vLines, fLines = readObj(objPath)
    imgPath = '../../github/vrn-07231340/examples/scaled/trump-12.jpg'
    img = cv2.imread(imgPath)
    imgHRPath = '../../github/vrn-07231340/examples/trump-12.jpg'
    imgHR = cv2.imread(imgHRPath)
    '''2. origin 2D landmark --> origin 3D landmark'''
    '''   BUT ONE 2D LANDMARK --> MORE THAN ONE 3D LANDMARK'''
    '''   HOW TO CHOOSE THE BEST ONE ?'''
    '''   OPTION 1: 选Z最大的3D landmark'''
    '''2.1 origin 2D landmark [x, y]'''
    originLandmark2DList = getLandmark2D(img)
    '''2.2 origin 3D landmark list [[[x, y], [(line1, vLine1), (line2, vLine2)]], ... ]'''
    originLandmark3DList = getLandmark3D(originLandmark2DList, vLines)
    '''2.3 OPTION 1: 选Z最大的3D landmark'''
    originLandmark3DList = optionChooseZMax(originLandmark3DList)
    '''3. nod'''
    nodAngle = 15
    nodCenterMode = 'maxY'
    nodObjLines = nod(objPath, nodAngle, nodCenterMode)
    '''4. nod 3D landmark list'''
    '''nodLandmark3DList: [[x0, y0], [x0, y0, z0], [x1, y1], [x1, y1, z1], (line, vLine)]'''
    '''len(nodLandmark3DList): number of landmarks both on 2D and 3D'''
    '''[x0, y0]: original landmark on 2D img'''
    '''[x0, y0, z0]: original landmark on 3D model'''
    '''[x1, y1]: nod landmark on 2D img'''
    '''[x1, y1, z1]: nod landmark on 3D model'''
    '''(line, vLine): the line(th) nod vLine'''
    nodVLines = objLines2vLines(nodObjLines)
    nodLandmark3DList = getNodLandmark3D(nodVLines, originLandmark3DList)
    '''5. nod 3D landmark --> nod 2D landmark'''
    nodLandmark2D = []
    for nodLandmark3D in nodLandmark3DList:
        nodLandmark2D.append(nodLandmark3D[2])
    '''6. origin 2D landmarks'''
    originLandmark2D = []
    for nodLandmark3D in nodLandmark3DList:
        originLandmark2D.append((nodLandmark3D[0][0], nodLandmark3D[0][1]))
    assert len(originLandmark2D) == len(nodLandmark2D)
    '''7. face 2D landmarks + hair 2D landmarks'''
    # hairLandmark2DList, nodHairLandmark2DList = main2D_3D_2D_ManuallySelectHair()
    hairLandmark2DList, nodHairLandmark2DList, edgePoints, ellipseVerts, outerEllipseVerts = main2D_3D_2D_LR_MeshHair(
    )
    assert len(hairLandmark2DList) == len(nodHairLandmark2DList)
    '''7.1 origin face 2D landmarks + origin hair 2D landmarks'''
    originLandmark2D = originLandmark2D + hairLandmark2DList
    '''7.2 nod face 2D landmarks + nod hair 2D landmarks'''
    nodLandmark2D = nodLandmark2D + nodHairLandmark2DList
    '''7.3 save origin and nod 2D landmarks txt'''
    # originLandmark2DTxtPath = './originLandmark2D.txt'
    # originLandmark2DTxt = open(originLandmark2DTxtPath, 'w')
    # for i in originLandmark2D:
    #     originLandmark2DTxt.write('{} {}\n'.format(i[0], i[1]))
    # originLandmark2DTxt.close()
    # nodLandmark2DTxtPath = './nodLandmark2D.txt'
    # nodLandmark2DTxt = open(nodLandmark2DTxtPath, 'w')
    # for i in nodLandmark2D:
    #     nodLandmark2DTxt.write('{} {}\n'.format(i[0], i[1]))
    # nodLandmark2DTxt.close()
    '''8. add edge points'''
    '''8.1 OPTION1: 8 IMAGE EDGE POINTS'''
    '''    如果在加头发关键点之前加8个edge points,第7个edge point(图像最上面那个)会被往下warp一点'''
    '''    如果在加头发关键点之后加8个edge points,第7个edge point经过warp后仍在原处,形成一个小三角'''
    # originLandmark2D = addEdgeLandmark(originLandmark2D, img)
    # nodLandmark2D = addEdgeLandmark(nodLandmark2D, img)
    '''8.2 OPTION2: OUTER ELLIPSE'''
    # a = copy.copy(originLandmark2D)
    originLandmark2D = originLandmark2D + edgePoints
    nodLandmark2D = nodLandmark2D + edgePoints
    # drawPointsOnImg(originLandmark2D, img, 'b')
    # drawPointsOnImg(a, img, 'r')
    # drawPointsOnImg(nodLandmark2D, img, 'g')
    # drawPointsOnImg(ellipseVerts, img, 'g', cover=True)
    # drawPointsOnImg(outerEllipseVerts, img, 'r', cover=True)
    # drawPointsOnImg(originLandmark2D, img, 'g', cover=True)
    # drawPointsOnImg(edgePoints, img, 'b', radius=3)
    # drawPointsOnImg(nodLandmark2D, img, 'r')
    '''9. delaunay triangle for [origin landmarks (face + hair)] + (eight edge points)'''
    # triList = generateTriList(originLandmark2D, img)
    # '''9.1 save tri txt'''
    # triTxtPath = './nodTri.txt'
    # triTxt = open(triTxtPath, 'w')
    # for i in triList:
    #     triTxt.write('{}\n'.format(i))
    # triTxt.close()
    '''10. warp LR'''
    # imgMorph = morph_modify_for_2D3D2D_low_resolution(
    #     originLandmark2D, nodLandmark2D, img, triList)
    # imshow('imgMorph', imgMorph)
    # cv2.imwrite('./nod.jpg', imgMorph)
    # return originLandmark2D, nodLandmark2D, triList
    '''LR to HR'''
    originLandmark2DHR = LR2HR(img, imgHR, originLandmark2D)
    for (x, y), (xmin, ymin) in zip(originLandmark2DHR, originLandmark2D):
        if float(x) >= 640 or float(y) >= 640:
            print(int(xmin), int(ymin))
            cv2.circle(img, (int(xmin), int(ymin)), 3, (0, 255, 0), -1)
            imshow('img', img)
    nodLandmark2DHR = LR2HR(img, imgHR, nodLandmark2D)
    '''8. add 8 egde points'''
    # nodLandmark2DHR = addEdgeLandmark(nodLandmark2DHR, imgHR)
    # originLandmark2DHR = addEdgeLandmark(originLandmark2DHR, imgHR)
    # drawPointsOnImg(originLandmark2DHR, imgHR, 'g')
    # drawPointsOnImg(nodLandmark2DHR, imgHR, 'r')
    '''8.1 remove >= 640'''
    originLandmark2DHR = [(i[0], i[1]) for i in originLandmark2DHR
                          if i[0] < imgHR.shape[0] and i[1] < imgHR.shape[1]]
    nodLandmark2DHR = [(i[0], i[1]) for i in nodLandmark2DHR
                       if i[0] < imgHR.shape[0] and i[1] < imgHR.shape[1]]
    '''9. delaunay triangle for [origin landmarks (face + hair)] + (edge points)'''
    triList = generateTriList(originLandmark2DHR, imgHR)
    '''9.1 save tri txt'''
    triTxtPath = './nodTri.txt'
    triTxt = open(triTxtPath, 'w')
    for i in triList:
        triTxt.write('{}\n'.format(i))
    triTxt.close()
    '''10. warp HR'''
    imgMorph = morph_modify_for_2D3D2D_low_resolution(originLandmark2DHR,
                                                      nodLandmark2DHR, imgHR,
                                                      triList)
    # imshow('imgMorph', imgMorph)
    # cv2.imwrite('./nod.jpg', imgMorph)
    return originLandmark2DHR, nodLandmark2DHR, triList
def main2D_3D_2D_LR_Hair():
    '''1. read origin obj and image'''
    objPath = '../../github/vrn-07231340/obj/trump-12.obj'
    objLines, vLines, fLines = readObj(objPath)
    imgPath = '../../github/vrn-07231340/examples/scaled/trump-12.jpg'
    img = cv2.imread(imgPath)

    '''2. origin 2D landmark --> origin 3D landmark'''
    '''   BUT ONE 2D LANDMARK --> MORE THAN ONE 3D LANDMARK'''
    '''   HOW TO CHOOSE THE BEST ONE ?'''
    '''   OPTION 1: 选Z最大的3D landmark'''
    '''2.1 origin 2D landmark [x, y]'''
    originLandmark2DList = getLandmark2D(img)
    '''2.2 origin 3D landmark list [[[x, y], [(line1, vLine1), (line2, vLine2)]], ... ]'''
    originLandmark3DList = getLandmark3D(originLandmark2DList, vLines)
    '''2.3 OPTION 1: 选Z最大的3D landmark'''
    originLandmark3DList = optionChooseZMax(originLandmark3DList)

    '''3. nod'''
    nodAngle = 15
    nodCenterMode = 'maxY'
    nodObjLines = nod(objPath, nodAngle, nodCenterMode)

    '''4. nod 3D landmark list'''
    '''nodLandmark3DList: [[x0, y0], [x0, y0, z0], [x1, y1], [x1, y1, z1], (line, vLine)]'''
    '''len(nodLandmark3DList): number of landmarks both on 2D and 3D'''
    '''[x0, y0]: original landmark on 2D img'''
    '''[x0, y0, z0]: original landmark on 3D model'''
    '''[x1, y1]: nod landmark on 2D img'''
    '''[x1, y1, z1]: nod landmark on 3D model'''
    '''(line, vLine): the line(th) nod vLine'''
    nodVLines = objLines2vLines(nodObjLines)
    nodLandmark3DList = getNodLandmark3D(nodVLines, originLandmark3DList)

    '''5. nod 3D landmark --> nod 2D landmark + 8 edge points'''
    nodLandmark2D = []
    for nodLandmark3D in nodLandmark3DList:
        nodLandmark2D.append(nodLandmark3D[2])
    nodLandmark2D = addEdgeLandmark(nodLandmark2D, img)

    '''6. origin 2D landmarks + 8 edge points'''
    originLandmark2D = []
    for nodLandmark3D in nodLandmark3DList:
        originLandmark2D.append((nodLandmark3D[0][0], nodLandmark3D[0][1]))
    originLandmark2D = addEdgeLandmark(originLandmark2D, img)
    assert len(originLandmark2D) == len(nodLandmark2D)

    '''7. face 2D landmarks + hair 2D landmarks'''
    # hairLandmark2DList, nodHairLandmark2DList = main2D_3D_2D_ManuallySelectHair()
    hairLandmark2DList, nodHairLandmark2DList = main2D_3D_2D_LR_MeshHair()
    '''7.1 origin face 2D landmarks + origin hair 2D landmarks'''
    originLandmark2D = originLandmark2D+hairLandmark2DList
    # drawPointsOnImg(originLandmark2D, img, 'g')
    '''7.2 nod face 2D landmarks + nod hair 2D landmarks'''
    nodLandmark2D = nodLandmark2D+nodHairLandmark2DList
    # drawPointsOnImg(nodLandmark2D, img, 'r')
    '''7.3 save origin and nod 2D landmarks txt'''
    originLandmark2DTxtPath = './originLandmark2D.txt'
    originLandmark2DTxt = open(originLandmark2DTxtPath, 'w')
    for i in originLandmark2D:
        originLandmark2DTxt.write('{} {}\n'.format(i[0], i[1]))
    originLandmark2DTxt.close()
    nodLandmark2DTxtPath = './nodLandmark2D.txt'
    nodLandmark2DTxt = open(nodLandmark2DTxtPath, 'w')
    for i in nodLandmark2D:
        nodLandmark2DTxt.write('{} {}\n'.format(i[0], i[1]))
    nodLandmark2DTxt.close()

    '''8. delaunay triangle for [origin landmarks (face + hair)] + (eight edge points)'''
    triList = generateTriList(originLandmark2D, img)

    # print triList
    '''8.1 save tri txt'''
    triTxtPath = './nodTri.txt'
    triTxt = open(triTxtPath, 'w')
    for i in triList:
        triTxt.write('{}\n'.format(i))
    triTxt.close()

    '''9. warp'''
    imgMorph = morph_modify_for_2D3D2D_low_resolution(
        originLandmark2D, nodLandmark2D, img, triList)
    # imshow('imgMorph', imgMorph)
    cv2.imwrite('./nod.jpg', imgMorph)
Example #5
0
def main2D_3D_2D_HR_NodHair():
    '''1. read origin obj and image'''
    objPath = '../../github/vrn-07231340/obj/trump-12.obj'
    objLines, vLines, fLines = readObj(objPath)
    imgLRPath = '../../github/vrn-07231340/examples/scaled/trump-12.jpg'
    imgLR = cv2.imread(imgLRPath)
    imgHRPath = '../../github/vrn-07231340/examples/trump-12.jpg'
    imgHR = cv2.imread(imgHRPath)

    '''2. origin LR 2D landmark --> origin 3D landmark'''
    '''2.1 origin LR 2D landmark list [x, y]'''
    originLandmark2DLRList = getLandmark2D(imgLR)
    '''2.2 origin 3D landmark list [[[x, y], [(line1, vLine1), (line2, vLine2)]], ... ]'''
    originLandmark3DList = getLandmark3D(originLandmark2DLRList, vLines)
    '''2.3 OPTION 1: 相同(x, y)的情况下,选z最大的3D landmark'''
    originLandmark3DList = optionChooseZMax(originLandmark3DList)

    '''3. 3D model nod'''
    nodAngle = 10
    nodCenterMode = 'maxY'
    nodObjLines = nod(objPath, nodAngle, nodCenterMode)

    '''4. nod 3D landmark list'''
    nodVLines = objLines2vLines(nodObjLines)
    nodLandmark3DList = getNodLandmark3D(nodVLines, originLandmark3DList)

    '''5. nod 3D landmark --> nod LR 2D landmark'''
    nodLandmark2DLR = [i[2] for i in nodLandmark3DList]

    '''6. origin 2D landmark'''
    originLandmark2DLR = [(i[0][0], i[0][1]) for i in nodLandmark3DList]

    assert len(originLandmark2DLR) == len(nodLandmark2DLR)

    '''7. LR --> HR: origin and nod face landmark'''
    originLandmark2DHR = lr2hr(imgLR, imgHR, originLandmark2DLR)
    nodLandmark2DHR = lr2hr(imgLR, imgHR, nodLandmark2DLR)

    '''8. HR: collar detection'''
    _, collarPoint = collarDetection(imgHR, minSize=1200, offset=15)

    '''9. HR: hair detection'''
    originHairPoints = hairDetection(imgHR, minSize=20000)

    '''10. HR: nod hair points'''
    '''??? nod center ???'''
    nodAngleHair = 18
    # drawPointsOnImg(originHairPoints, imgHR, 'r', radius=3)
    # nodHairPoints = nodHairHR(
    # objLines, nodAngleHair, nodCenterMode, originHairPoints, minZ=100.0)
    nodHairPoints = nodHairHR_m(
        nodAngleHair, collarPoint, originHairPoints, minZ=100.0)
    # for (x, y), (i, j) in zip(nodHairPoints, nodHairPoints_m):
    #     if x == i and y == j:
    #         pass
    #     else:
    #         print 'yes'

    '''10. HR: all origin points and nod points'''
    originPoints = originLandmark2DHR+originHairPoints
    nodPoints = nodLandmark2DHR+nodHairPoints
    assert len(originPoints) == len(nodPoints)
    # drawPointsOnImg(originPoints, imgHR, 'g', radius=2)

    '''11. inner ellipse'''
    left = min(originPoints, key=lambda x: x[0])[0]
    right = max(originPoints, key=lambda x: x[0])[0]
    up = min(originPoints, key=lambda x: x[1])[1]
    bottom = max(originPoints, key=lambda x: x[1])[1]
    innerEllipseCenterX = int((left+right)/2.0)
    innerEllipseCenterY = int((up+bottom)/2.0)
    innerEllipseSemiX = int((right-left)/2.0)
    innerEllipseSemiY = int((bottom-up)/2.0)
    rr, cc = ellipse_perimeter(innerEllipseCenterX, innerEllipseCenterY,
                               innerEllipseSemiY, innerEllipseSemiX, orientation=np.pi*1.5)
    innerEllipseVerts = np.dstack([rr, cc])[0]

    '''12. outer ellipse'''
    '''12.1 ratio = outer ellipse / inner ellipse'''
    '''     椭圆心和衣领的线段  和  椭圆的交点'''
    minDistance = np.inf
    for pt in innerEllipseVerts:
        distance = twoPointsDistance(pt, collarPoint)
        if distance < minDistance:
            minDistance = distance
            ratio = twoPointsDistance((innerEllipseCenterX, innerEllipseCenterY), collarPoint) / \
                twoPointsDistance(
                    (innerEllipseCenterX, innerEllipseCenterY), pt)
    '''12.2 outer ellipse'''
    outerEllipseSemiX = int(ratio*innerEllipseSemiX)
    outerEllipseSemiY = int(ratio*innerEllipseSemiY)
    rr, cc = ellipse_perimeter(innerEllipseCenterX, innerEllipseCenterY,
                               outerEllipseSemiY, outerEllipseSemiX, orientation=np.pi*1.5)
    outerEllipseVerts = np.dstack([rr, cc])[0]

    '''13. edge points on outer ellipse'''
    edgePoints = edgePointsOnOuterEllipse(outerEllipseVerts)

    '''14. final origin and nod HR points '''
    originPointsFinal = originPoints+edgePoints
    nodPointsFinal = nodPoints+edgePoints
    assert len(originPointsFinal) == len(nodPointsFinal)
    drawPointsOnImg(originPointsFinal, imgHR, 'b', radius=2)
    drawPointsOnImg(originPoints, imgHR, 'r', radius=2)
    drawPointsOnImg(nodPointsFinal, imgHR, 'g', radius=2)

    '''15. tri.txt'''
    triList = generateTriList(originPointsFinal, imgHR,
                              triTxtPath='./nodTri.txt')

    '''16. warp'''
    imgMorph = morph_modify_for_2D3D2D_low_resolution(
        originPointsFinal, nodPointsFinal, imgHR, triList)
    imshow('imgMorph', imgMorph)
    cv2.imwrite('./imgMorph_{}2.png'.format(nodAngleHair), imgMorph)

    return originPointsFinal, nodPointsFinal, triList