示例#1
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def center_divide(road0, road1):
    bp0, ep0, bp1, ep1 = road0.point_list[0], road0.point_list[
        -1], road1.point_list[0], road1.point_list[-1]
    if bp0 == bp1 or bp0 == ep1 or ep0 == bp1 or ep0 == ep1:
        return
    for i, seg0 in enumerate(road0.seg_list):
        for j, seg1 in enumerate(road1.seg_list):
            if calc_include_angle2(
                    seg0, seg1) < math.sqrt(3) / 2 and is_segment_cross(
                        seg0, seg1):
                _, px, py = get_cross_point(seg0, seg1)
                if px is None:
                    print 'None'
                cr0 = Point(px, py)
                cr0.cross, cr0.cross_name, cr0.cross_other_seg = 1, road1.name, j
                cr0.cross_seg = i
                bp, ep = seg0.begin_point, seg0.end_point
                w0, w1 = get_dist(cr0, bp), get_dist(cr0, ep)
                if w0 > 1e-5 and w1 > 1e-5:
                    road0.cross_list.append(cr0)

                cr1 = Point(px, py)
                cr1.cross, cr1.cross_name, cr1.cross_other_seg = 1, road0.name, i
                cr1.cross_seg = j
                bp, ep = seg1.begin_point, seg1.end_point
                w0, w1 = get_dist(cr1, bp), get_dist(cr1, ep)
                if w0 > 1e-5 and w1 > 1e-5:
                    road1.cross_list.append(cr1)
                return
示例#2
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def center_cross(road0, road1):
    """
    检查道路与其他道路的交叉,并且合并交叉点
    只有在道路尽头才会发生,因此和其他道路如有merge,应该不进行操作
    :param road0: Road
    :param road1: Road
    :return:
    """
    bp, ep = road0.point_list[0], road0.point_list[-1]
    min_dist = 1e10
    sel_seg = None
    for seg in road1.seg_list:
        dist = point2segment2(bp, seg)
        if dist < min_dist:
            min_dist, sel_seg = dist, seg
    if min_dist < 50:
        if road0.bs == 1:
            return
        if is_segment_cross(road0.seg_list[0], sel_seg) or calc_include_angle2(
                road0.seg_list[0], sel_seg) > 0.8:
            return
        _, px, py = get_cross_point(road0.seg_list[0], sel_seg)
        new_point_list = [Point(px, py)]
        for pt in road0.point_list:
            new_point_list.append(pt)
        road0.set_point_list(new_point_list)
        road0.gene_segment()
        return

    min_dist = 1e10
    sel_seg = None
    for seg in road1.seg_list:
        dist = point2segment2(ep, seg)
        if dist < min_dist:
            min_dist, sel_seg = dist, seg
    if min_dist < 50:
        if road0.es == 1:
            return
        if is_segment_cross(road0.seg_list[-1],
                            sel_seg) or calc_include_angle2(
                                road0.seg_list[-1], sel_seg) > 0.8:
            return
        _, px, py = get_cross_point(road0.seg_list[-1], sel_seg)
        road0.add_point(Point(px, py))
        road0.gene_segment()
示例#3
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def par_cross(road0, road1):
    """
    类似par divide,但是要标记每个pt点的进出路口情况
    :param road0: 
    :param road1: 
    :return: 
    """
    rid0, rid1 = road0.rid, road1.rid
    rbp0, rep0, rbp1, rep1 = road0.point_list[0], road0.point_list[
        -1], road1.point_list[0], road1.point_list[-1]
    if rbp0 == rbp1 or rbp0 == rep1 or rep0 == rbp1 or rep0 == rep1:
        return
    for i, seg0 in enumerate(road0.seg_list):
        for j, seg1 in enumerate(road1.seg_list):
            if calc_include_angle2(seg0, seg1) > 0.8:  # 平行
                continue
            if is_segment_cross(seg0, seg1):
                d, px, py = get_cross_point(seg0, seg1)
                bp0, ep0 = seg0.begin_point, seg0.end_point
                bp1, ep1 = seg1.begin_point, seg1.end_point
                cr = Point(px, py)
                if bp0 == cr:
                    if cr == rep1 or cr == rbp1:
                        pass
                    else:
                        if d < 0:
                            road0.point_list[i].cross = 1
                        else:
                            road0.point_list[i].cross = 2
                elif ep0 == cr:
                    if cr == rep1 or cr == rbp1:
                        pass
                    else:
                        if d < 0 and not ():
                            road0.point_list[i + 1].cross = 1
                        else:
                            road0.point_list[i + 1].cross = 2
                if bp1 == cr:
                    if cr == rep0 or cr == rbp0:
                        pass
                    else:
                        if d < 0:
                            road1.point_list[j].cross = 2
                        else:
                            road1.point_list[j].cross = 1
                elif ep1 == cr:
                    if cr == rep0 or cr == rbp0:
                        pass
                    else:
                        if d < 0:
                            road1.point_list[j + 1].cross = 2
                        else:
                            road1.point_list[j + 1].cross = 1
                return
示例#4
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def draw_seg(seg_list):
    last_seg = None
    cross_point = []
    for seg in seg_list:
        x_list, y_list = zip(*seg)
        plt.plot(x_list, y_list, marker='None', color='k', linestyle='-')
        if last_seg is not None:
            d, px, py = get_cross_point(seg, last_seg)
            cross_point.append([px, py])
            # plt.text(x_list[0] + 5, y_list[0] + 5, "{0:2f}".format(d))
        last_seg = seg
    x_list, y_list = zip(*cross_point)
    plt.plot(x_list, y_list, marker='o', color='k', linestyle='', markersize=3)
示例#5
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def par_divide(road0, road1):
    """
    as center divide, divide cross point for each other
    :param road0:
    :param road1:
    :return:
    """
    bp0, ep0, bp1, ep1 = road0.point_list[0], road0.point_list[
        -1], road1.point_list[0], road1.point_list[-1]
    if bp0 == bp1:
        road0.bs, road1.bs = 1, 1
        return
    elif bp0 == ep1:
        road0.bs, road1.es = 1, 1
        return
    elif ep0 == bp1:
        road0.es, road1.bs = 1, 1
        return
    elif ep0 == ep1:
        road0.es, road1.es = 1, 1
        return
    for i, seg0 in enumerate(road0.seg_list):
        for j, seg1 in enumerate(road1.seg_list):
            if calc_include_angle2(seg0, seg1) > 0.8:  # 平行
                continue
            if is_segment_cross(seg0, seg1):
                _, px, py = get_cross_point(seg0, seg1)
                cr0 = Point(px, py)
                cr0.cross, cr0.cross_name, cr0.cross_other_seg = 1, road1.rid, j
                cr0.cross_seg = i
                bp, ep = seg0.begin_point, seg0.end_point
                w0, w1 = get_dist(cr0, bp), get_dist(cr0, ep)
                if w0 > 1e-5 and w1 > 1e-5:
                    road0.cross_list.append(cr0)

                cr1 = Point(px, py)
                cr1.cross, cr1.cross_name, cr1.cross_other_seg = 1, road0.rid, i
                cr1.cross_seg = j
                bp, ep = seg1.begin_point, seg1.end_point
                w0, w1 = get_dist(cr1, bp), get_dist(cr1, ep)
                if w0 > 1e-5 and w1 > 1e-5:
                    road1.cross_list.append(cr1)
                return
示例#6
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def par():
    PAR = 40
    road_data = load_model2road('./road_new/center1.txt')
    par_road = []
    # road_index = 0
    for i, road in enumerate(road_data):
        name, point_list = road.name, road.point_list
        rid = road.rid
        last_pt = None
        road0, road1 = Road(name, 0, rid * 2), Road(name, 0, rid * 2 + 1)
        road0.set_grid_set(road.grid_set)
        road1.set_grid_set(road.grid_set)
        # road_index += 2
        seg_list0, seg_list1 = [], []
        for pt in point_list:
            if last_pt is not None:
                # 获取两条平移线段
                seg0, seg1 = get_parallel(last_pt, pt, PAR)
                seg_list0.append(seg0)
                seg1.set_invert()
                seg_list1.append(seg1)
            last_pt = pt
        # 计算线段之间的交点
        last_seg = None
        for j, seg in enumerate(seg_list0):
            if last_seg is None:
                road0.add_point(seg.begin_point)
            else:
                _, px, py = get_cross_point(last_seg, seg)
                if px is None:  # 平行
                    road0.add_point(seg.begin_point)
                else:
                    cp = Point(px, py)
                    road0.add_point(cp)
            last_seg = seg
        road0.add_point(last_seg.end_point)

        last_seg = None
        for seg in reversed(seg_list1):
            if last_seg is None:
                road1.add_point(seg.begin_point)
            else:
                _, px, py = get_cross_point(last_seg, seg)
                if px is None:  # 平行
                    road1.add_point(seg.begin_point)
                else:
                    cp = Point(px, py)
                    road1.add_point(cp)
            last_seg = seg
        road1.add_point(last_seg.end_point)
        # 并生成线段
        road0.gene_segment()
        road1.gene_segment()

        par_road.append(road0)
        par_road.append(road1)

    # for test
    # save_par('./road/par_0.txt', par_road)

    # 端点处有merge的可能
    for i, road0 in enumerate(par_road):
        for j, road1 in enumerate(par_road):
            if i < j and road_near(road0, road1):
                par_merge(road0, road1)

    # for road in par_road:
    #     par_check(road)

    save_par('./road_new/par.txt', par_road)
示例#7
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def par_offset(road0, road1):
    """
    边缘点的起点或终点从路中央偏移到路上
    一定偏移到偶数序号的道路(中心线右手边)
    :param road0: Road 待修正的道路道路
    :param road1: Road 偏移到的(与road0垂直)道路
    :return:
    """
    OFFSET = 80
    if road1.rid & 1:
        return
    # 当端点接近某道路且该道路没有路口交点时,需要偏移该端点,延长至下一个道路
    # 端点必须没有和其他线段相交
    bp, ep = road0.point_list[0], road0.point_list[-1]
    # 首先是起点
    min_dist = 1e10
    sel_seg = None
    for seg in road1.seg_list:
        dist = point2segment2(bp, seg)
        if dist < min_dist:
            min_dist, sel_seg = dist, seg
    # 寻找延长至的道路线段
    if min_dist < OFFSET:
        if road0.bs == 1:
            return
        min_dist = 1e10
        for pt in road1.cross_list:
            dist = get_dist(pt, bp)
            min_dist = min(dist, min_dist)
        if min_dist > OFFSET:
            _, px, py = get_cross_point(sel_seg, road0.seg_list[0])
            cr = Point(px, py)
            # 该延长线应落在预计道路sel_seg上
            # 不然与其余道路有可能偏离在50米内
            extended_segment = Segment(cr, bp)
            if not is_segment_cross(extended_segment, sel_seg):
                return
            pt_list = [cr]
            pt_list.extend(road0.point_list[:])
            road0.set_point_list(pt_list)
            road0.gene_segment()
            return

    min_dist = 1e10
    sel_seg = None
    for seg in road1.seg_list:
        dist = point2segment2(ep, seg)
        if dist < min_dist:
            min_dist, sel_seg = dist, seg
    if min_dist < OFFSET:
        if road0.es == 1:
            return
        min_dist = 1e10
        for pt in road1.cross_list:
            dist = get_dist(pt, ep)
            min_dist = min(dist, min_dist)
        if min_dist > OFFSET:
            _, px, py = get_cross_point(sel_seg, road0.seg_list[-1])
            cr = Point(px, py)
            extended_segment = Segment(cr, bp)
            if not is_segment_cross(extended_segment, sel_seg):
                return
            road0.point_list.append(cr)
            road0.gene_segment()
            return
示例#8
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def par_merge(road0, road1):
    """
    一条线段的起点与另一条(平行线段)的终点相接
    :param road0: 
    :param road1: 
    :return: road0, road1重新生成道路
    """
    THREAD = 10
    bp0, ep0, bp1, ep1 = road0.point_list[0], road0.point_list[
        -1], road1.point_list[0], road1.point_list[-1]
    try:
        if bp0 == ep1 or bp1 == ep0:
            return
    except TypeError:
        print 'par merge', road0.rid, road1.rid, 'TypeError'
        return
    # 在生成平行线后两条道路之间必然(除非是一直线上)有空隙或者交叉
    # 这个THREAD值不能太大,否则和对向车道也能查找到一起
    if get_dist(bp0, ep1) < THREAD:
        begin_seg, end_seg = road0.seg_list[0], road1.seg_list[-1]
        # 首先是平行
        if calc_include_angle2(begin_seg, end_seg) <= 0.8:
            return
        if is_segment_cross(begin_seg, end_seg):
            # 相交时cut
            _, px, py = get_cross_point(begin_seg, end_seg)
            cr = Point(px, py)
            road0.point_list[0] = cr
            road1.point_list[-1] = cr
            road0.gene_segment()
            road1.gene_segment()
        else:
            # 不相交时延长
            _, px, py = get_cross_point(begin_seg, end_seg)
            cr = Point(px, py)
            pt_list = [cr]
            pt_list.extend(road0.point_list)
            road0.point_list = pt_list
            road1.point_list.append(cr)
            road0.gene_segment()
            road1.gene_segment()
    elif get_dist(bp1, ep0) < THREAD:
        begin_seg, end_seg = road1.seg_list[0], road0.seg_list[-1]
        # 首先是平行
        if calc_include_angle2(begin_seg, end_seg) <= 0.8:
            return
        if is_segment_cross(begin_seg, end_seg):
            # 相交时cut
            _, px, py = get_cross_point(begin_seg, end_seg)
            cr = Point(px, py)
            road1.point_list[0] = cr
            road0.point_list[-1] = cr
            road0.gene_segment()
            road1.gene_segment()
        else:
            # 不相交时延长
            _, px, py = get_cross_point(begin_seg, end_seg)
            cr = Point(px, py)
            pt_list = [cr]
            pt_list.extend(road1.point_list)
            road1.point_list = pt_list
            road0.point_list.append(cr)
            road0.gene_segment()
            road1.gene_segment()