Python LibFunctions.sub_locations примеры использования

Пример #1

def find_true_widths(pts, nvecs, ws, check_scan_location):
    tx = pts[:, 0]
    ty = pts[:, 1]
    onws = ws[:, 0]
    opws = ws[:, 1]

    stp_sze = 0.1
    sf = 0.5 # safety factor
    N = len(pts)
    nws, pws = [], []
    for i in range(N):
        pt = [tx[i], ty[i]]
        nvec = nvecs[i]

        if not check_scan_location(pt):
            j = stp_sze
            s_pt = lib.add_locations(pt, nvec, j)
            while not check_scan_location(s_pt) and j < opws[i]:
                j += stp_sze
                s_pt = lib.add_locations(pt, nvec, j)
            pws.append(j*sf)

            j = stp_sze
            s_pt = lib.sub_locations(pt, nvec, j)
            while not check_scan_location(s_pt) and j < onws[i]:
                j += stp_sze
                s_pt = lib.sub_locations(pt, nvec, j)
            nws.append(j*sf)
            # print(f"Pt added without being adjusted")
        else:
            print(f"Obs in way of pt: {i}")

            for j in np.linspace(0, onws[i], 10):
                p_pt = lib.add_locations(pt, nvec, j)
                n_pt = lib.sub_locations(pt, nvec, j)
                if not check_scan_location(p_pt):
                    nws.append(-j*(1+sf))
                    pws.append(opws[i])
                    print(f"PosPt NewW: [{-j*(1+sf)}, {opws[i]}]")
                    break
                elif not check_scan_location(n_pt):
                    pws.append(-j*(1+sf))
                    nws.append(onws[i])
                    print(f"PosPt NewW: [{-j*(1+sf)}, {onws[i]}]")
                    break 
                if j == onws[i]:
                    print(f"Problem - no space found")


    nws, pws = np.array(nws), np.array(pws)
    ws = np.concatenate([nws[:, None], pws[:, None]], axis=-1)

    return ws

Пример #2

Файл: PurePursuit.py Проект: BDEvan5/toy_auto_race

    def expand_wpts(self):
        n = 5  # number of pts per orig pt
        dz = 1 / n
        o_line = self.wpts
        o_ss = self.ss
        o_vs = self.vs
        new_line = []
        new_ss = []
        new_vs = []
        for i in range(self.N - 1):
            dd = lib.sub_locations(o_line[i + 1], o_line[i])
            for j in range(n):
                pt = lib.add_locations(o_line[i], dd, dz * j)
                new_line.append(pt)

                ds = o_ss[i + 1] - o_ss[i]
                new_ss.append(o_ss[i] + dz * j * ds)

                dv = o_vs[i + 1] - o_vs[i]
                new_vs.append(o_vs[i] + dv * j * dz)

        self.wpts = np.array(new_line)
        self.ss = np.array(new_ss)
        self.vs = np.array(new_vs)
        self.N = len(new_line)

Пример #3

    def expand_wpts(self):
        n = 5  # number of pts per orig pt
        dz = 1 / n
        o_line = self.waypoints[:, 0:2]
        # o_ss = self.ss
        o_vs = self.waypoints[:, 2]
        new_line = []
        # new_ss = []
        new_vs = []
        for i in range(len(self.waypoints) - 1):
            dd = lib.sub_locations(o_line[i + 1], o_line[i])
            for j in range(n):
                pt = lib.add_locations(o_line[i], dd, dz * j)
                new_line.append(pt)

                # ds = o_ss[i+1] - o_ss[i]
                # new_ss.append(o_ss[i] + dz*j*ds)

                dv = o_vs[i + 1] - o_vs[i]
                new_vs.append(o_vs[i] + dv * j * dz)

        wpts = np.array(new_line)
        # self.ss = np.array(new_ss)
        vs = np.array(new_vs)
        self.waypoints = np.concatenate([wpts, vs[:, None]], axis=-1)