# Can I visualize a Multibody pose without explicitly calculating every body's full transform?

In the `examples/quadrotor/` example, a custom `QuadrotorPlant` is specified and its output is passed into `QuadrotorGeometry` where the `QuadrotorPlant` state is packaged into `FramePoseVector` for the `SceneGraph` to visualize.

The relevant code segment in `QuadrotorGeometry` that does this:

``````...
builder->Connect(
...

const systems::Context<double>& context,
geometry::FramePoseVector<double>* poses) const {
DRAKE_DEMAND(frame_id_.is_valid());

const auto& state = get_input_port(0).Eval(context);
math::RigidTransformd pose(
math::RollPitchYawd(state.segment<3>(3)),

*poses = {{frame_id_, pose.GetAsIsometry3()}};
}
``````

In my case, I have a floating based multibody system (think a quadrotor with a pendulum attached) of which I've created a custom plant (`LeafSystem`). The minimal coordinates for such a system would be 4 (quaternion) + 3 (x,y,z) + 1 (joint angle) = 7. If I were to follow the QuadrotorGeometry example, I believe I would need to specify the full `RigidTransformd` for the quadrotor and the full `RigidTransformd` of the pendulum.

## Question

Is it possible to set up the visualization / specify the pose such that I only need to specify the 7 (pose of quadrotor + joint angle) state minimal coordinates and have the internal `MultibodyPlant` handle the computation of each individual body's (quadrotor and pendulum) full `RigidTransform` which can then be passed to the `SceneGraph` for visualization?

I believe this was possible with the "attic-ed" (which I take to mean "to be deprecated") `RigidBodyTree`, which was accomplished in `examples/compass_gait`

``````  lcm::DrakeLcm lcm;
publisher->set_name("publisher");

builder.Connect(compass_gait->get_floating_base_state_output_port(),
publisher->get_input_port(0));
``````

Where `get_floating_base_state_output_port()` was outputting the `CompassGait` state with only 7 states (3 rpy + 3 xyz + 1 hip angle).

What is the `MultibodyPlant`, `SceneGraph` equivalent of this?

So, there's a lot in here. I have a suspicion there's a simple answer, but we may have to converge on it.

First, my assumptions:

1. You've got an "internal" MultibodyPlant (MBP). Presumably, you also have a context for it, allowing you to perform meaningful state-dependent calculations.
2. Furthermore, I presume the MBP was responsible for registering the geometry (probably happened when you parsed it).
3. Your `LeafSystem` will directly connect to the `SceneGraph` to provide poses.
4. Given your state, you routinely set the state in the MBP's context to do that evaluation.

## Option 1:

In your custom `LeafSystem`, create the `FramePoseVector` output port, create the calc callback for it, and inside that callback, simply invoke the `Eval()` method on its output port (providing its context with the updated state and the pointer to a `FramePoseVector` that your `LeafSystem`'s callback was provided with).

## Option 2:

Rather than implementing a `LeafSystem` that has an internal plant, you could have a `Diagram` that contains an MBP and exports the MBP's `FramePoseVector` output directly through the diagram to connect.