Python pos_ofの例

プログラミング言語: Python

名前空間/パッケージ名: giskardpy.symengine_wrappers

メソッド/関数: pos_of

hotexamples.comのコード掲載数: 5

Python pos_of - 5件のコード例が見つかりました。すべてオープンソースプロジェクトから抽出されたPythonのgiskardpy.symengine_wrappers.pos_ofの実例で、最も評価が高いものを厳選しています。コード例の評価を行っていただくことで、より質の高いコード例が表示されるようになります。

コード例 #1

ファイルを表示

    def make_constraints(self, robot):
        t = time()
        eef1 = robot.end_effectors[0]
        eef1_frame = robot.frames[eef1]
        eef2 = robot.end_effectors[1]
        eef2_frame = robot.frames[eef2]

        eef_diff_pos = spw.pos_of(eef1_frame) - spw.pos_of(eef2_frame)
        goal_pos = self.goal_diff.get_position()
        dist = spw.norm((eef_diff_pos) - goal_pos)

        eef_diff_rot = spw.rot_of(eef1_frame)[:3, :3].T * spw.rot_of(
            eef2_frame)[:3, :3]

        goal_rot = self.goal_diff.get_rotation()

        goal_r = goal_rot[:3, :3].reshape(9, 1)
        dist_r = spw.norm(eef_diff_rot.reshape(9, 1) - goal_r)

        self._soft_constraints['align eefs position'] = SoftConstraint(
            lower=-dist,
            upper=-dist,
            weight=self.goal_weights.get_expression(),
            expression=dist)
        self._soft_constraints['align eefs rotation'] = SoftConstraint(
            lower=-dist_r,
            upper=-dist_r,
            weight=self.goal_weights.get_expression(),
            expression=dist_r)
        self._controllable_constraints = robot.joint_constraints
        self._hard_constraints = robot.hard_constraints
        self.update_observables(
            {self.goal_weights.get_symbol_str(): self.weight})
        print('make constraints took {}'.format(time() - t))

コード例 #2

ファイルを表示

ファイル: cartesian_line_controller.py プロジェクト: ARoefer/giskardpy

    def make_constraints(self, robot):
        t = time()
        for eef in robot.end_effectors:
            start_pose = robot.get_eef_position()[eef]
            start_position = spw.pos_of(start_pose)

            current_pose = robot.frames[eef]
            current_position = spw.pos_of(current_pose)
            current_rotation = spw.rot_of(current_pose)[:3, :3]

            goal_position = self.goal_eef[eef].get_position()
            goal_rotation = self.goal_eef[eef].get_rotation()[:3, :3]

            # pos control
            dist = spw.norm(spw.pos_of(current_pose) - goal_position)

            # line
            x0 = current_position[:-1, :]
            x1 = spw.Matrix((start_position[:-1, :] + np.random.random(
                (3, 1)) * 0.005).astype(float).tolist())
            x2 = goal_position[:-1, :]
            dist_to_line = spw.norm(spw.cross((x0 - x1),
                                              (x0 - x2))) / spw.norm(x2 - x1)
            dist_to_line = dist_to_line**2

            # rot control
            dist_r = spw.norm(
                current_rotation.reshape(9, 1) - goal_rotation.reshape(9, 1))

            self._soft_constraints['align {} position'.format(
                eef)] = SoftConstraint(
                    lower=-dist,
                    upper=-dist,
                    weight=self.goal_weights[eef].get_expression(),
                    expression=dist)
            self._soft_constraints['align {} rotation'.format(
                eef)] = SoftConstraint(
                    lower=-dist_r,
                    upper=-dist_r,
                    weight=self.goal_weights[eef].get_expression(),
                    expression=dist_r)
            self._soft_constraints['{} stay on line'.format(
                eef)] = SoftConstraint(
                    lower=-dist_to_line,
                    upper=-dist_to_line,
                    weight=self.goal_weights[eef].get_expression() * 100,
                    expression=dist_to_line)
            self._controllable_constraints = robot.joint_constraints
            self._hard_constraints = robot.hard_constraints
            self.update_observables(
                {self.goal_weights[eef].get_symbol_str(): self.weight})
            self.set_goal({eef: robot.get_eef_position2()[eef]})
        print('make constraints took {}'.format(time() - t))

コード例 #3

ファイルを表示

ファイル: cartesian_controller.py プロジェクト: nmtvijay/giskardpy

    def make_constraints(self, robot):
        for eef in robot.end_effectors:
            eef_frame = robot.frames[eef]
            goal_pos = self.goal_eef[eef].get_position()
            dist = spw.norm(spw.pos_of(eef_frame) - goal_pos)

            goal_rot = self.goal_eef[eef].get_rotation()

            eef_r = spw.rot_of(eef_frame)[:3, :3].reshape(9, 1)
            goal_r = goal_rot[:3, :3].reshape(9, 1)
            dist_r = spw.norm(eef_r - goal_r)

            self._soft_constraints['align {} position'.format(
                eef)] = SoftConstraint(
                    lower=-dist,
                    upper=-dist,
                    weight=self.goal_weights[eef].get_expression(),
                    expression=dist)
            self._soft_constraints['align {} rotation'.format(
                eef)] = SoftConstraint(
                    lower=-dist_r,
                    upper=-dist_r,
                    weight=self.goal_weights[eef].get_expression(),
                    expression=dist_r)
            self._controllable_constraints = robot.joint_constraints
            self._hard_constraints = robot.hard_constraints
            self.update_observables(
                {self.goal_weights[eef].get_symbol_str(): self.weight})
            self.set_goal({eef: robot.get_eef_position2()[eef]})

コード例 #4

ファイルを表示

 def make_constraints(self, robot):
     for eef in robot.end_effectors:
         eef_frame = robot.frames[eef]
         goal_expr = self.goal_eef[eef].get_expression()
         # dist = norm(sp.Add(pos_of(eef_frame), - goal_expr, evaluate=False))
         dist = spw.norm(spw.pos_of(eef_frame) - goal_expr)
         self._soft_constraints['align {} position'.format(eef)] = SoftConstraint(lower=-dist,
                                                                      upper=-dist,
                                                                      weight=self.goal_weights[eef].get_expression(),
                                                                      expression=dist)
         self._controllable_constraints = robot.joint_constraints
         self._hard_constraints = robot.hard_constraints
         self.update_observables({self.goal_weights[eef].get_symbol_str(): self.weight})
         self.set_goal([0,0,0], eef)

コード例 #5

ファイルを表示

ファイル: cartesian_controller.py プロジェクト: ARoefer/giskardpy

    def make_constraints(self, robot):
        t = time()
        for eef in robot.end_effectors:
            start_pose = robot.get_eef_position2()[eef]
            # start_position = spw.pos_of(start_pose)

            current_pose = robot.frames[eef]
            current_rotation = spw.rot_of(current_pose)[:3, :3]

            goal_position = self.goal_eef[eef].get_position()
            goal_rotation = self.goal_eef[eef].get_rotation()[:3, :3]
            # goal_r = goal_rotation[:3,:3].reshape(9,1)

            #pos control
            dist = spw.norm(spw.pos_of(current_pose) - goal_position)

            #rot control
            dist_r = spw.norm(
                current_rotation.reshape(9, 1) - goal_rotation.reshape(9, 1))

            self._soft_constraints['align {} position'.format(
                eef)] = SoftConstraint(
                    lower=-dist,
                    upper=-dist,
                    weight=self.goal_weights[eef].get_expression(),
                    expression=dist)
            self._soft_constraints['align {} rotation'.format(
                eef)] = SoftConstraint(
                    lower=-dist_r,
                    upper=-dist_r,
                    weight=self.goal_weights[eef].get_expression(),
                    expression=dist_r)
            self._controllable_constraints = robot.joint_constraints
            self._hard_constraints = robot.hard_constraints
            self.update_observables(
                {self.goal_weights[eef].get_symbol_str(): self.weight})
            self.set_goal({eef: start_pose})
        print('make constraints took {}'.format(time() - t))