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use std::{collections::HashMap, path::PathBuf, sync::Arc};
use arci::{JointTrajectoryClient, MoveBase, Speaker};
use openrr_client::{ArcRobotClient, Error, IkSolverWithChain, JointsPose};
use schemars::JsonSchema;
use serde::{Deserialize, Serialize};
use crate::{
ControlMode, IkMode, IkModeConfig, JointsPoseSender, JointsPoseSenderConfig,
JoyJointTeleopMode, JoyJointTeleopModeConfig, MoveBaseMode, RobotCommandConfig,
RobotCommandExecutor,
};
#[derive(Debug, Serialize, Deserialize, Clone, JsonSchema)]
#[serde(deny_unknown_fields)]
pub struct JoyJointTeleopConfig {
pub client_name: String,
pub config: JoyJointTeleopModeConfig,
}
#[derive(Debug, Serialize, Deserialize, Clone, JsonSchema)]
#[serde(deny_unknown_fields)]
pub struct IkModeTeleopConfig {
pub solver_name: String,
pub joint_trajectory_client_name: String,
pub config: IkModeConfig,
}
#[derive(Debug, Serialize, Deserialize, Clone, Default, JsonSchema)]
#[serde(deny_unknown_fields)]
pub struct ControlModesConfig {
pub move_base_mode: Option<String>,
#[serde(default)]
#[serde(skip_serializing_if = "Vec::is_empty")]
pub joy_joint_teleop_configs: Vec<JoyJointTeleopConfig>,
#[serde(default)]
#[serde(skip_serializing_if = "Vec::is_empty")]
pub ik_mode_teleop_configs: Vec<IkModeTeleopConfig>,
pub joints_pose_sender_config: Option<JointsPoseSenderConfig>,
#[serde(default)]
#[serde(skip_serializing_if = "Vec::is_empty")]
pub command_configs: Vec<RobotCommandConfig>,
}
impl ControlModesConfig {
#[allow(clippy::too_many_arguments)]
pub fn create_control_modes(
&self,
base_path: Option<PathBuf>,
robot_client: Arc<ArcRobotClient>,
speaker: Arc<dyn Speaker>,
joint_trajectory_client_map: &HashMap<String, Arc<dyn JointTrajectoryClient>>,
ik_solver_with_chain_map: &HashMap<String, Arc<IkSolverWithChain>>,
move_base: Option<Arc<dyn MoveBase>>,
joints_poses: Vec<JointsPose>,
) -> Result<Vec<Arc<dyn ControlMode>>, Error> {
let mut modes: Vec<Arc<dyn ControlMode>> = vec![];
for joy_joint_teleop_config in &self.joy_joint_teleop_configs {
modes.push(Arc::new(JoyJointTeleopMode::new_from_config(
joy_joint_teleop_config.config.clone(),
joint_trajectory_client_map
.get(&joy_joint_teleop_config.client_name)
.ok_or_else(|| {
Error::NoMapKey(
format!("joint_trajectory_client_map(required from joy_joint_teleop_configs)[{} l.{}]", file!(), line!()),
joy_joint_teleop_config.client_name.to_string(),
)
})?
.clone(),
speaker.clone(),
)));
}
if let Some(mode) = &self.move_base_mode {
if let Some(m) = move_base {
modes.push(Arc::new(MoveBaseMode::new(mode.clone(), m.clone())));
}
}
for ik_mode_teleop_config in &self.ik_mode_teleop_configs {
let ik_mode = IkMode::new_from_config(
ik_mode_teleop_config.config.clone(),
joint_trajectory_client_map
.get(&ik_mode_teleop_config.joint_trajectory_client_name)
.ok_or_else(|| {
Error::NoMapKey(
format!(
"joint_trajectory_client_map(required from ik_mode_teleop_configs)[{} l.{}]",
file!(),
line!()
),
ik_mode_teleop_config
.joint_trajectory_client_name
.to_string(),
)
})?
.clone(),
speaker.clone(),
ik_solver_with_chain_map
.get(&ik_mode_teleop_config.solver_name)
.ok_or_else(|| {
Error::NoMapKey(
format!(
"ik_solver_with_chain_map(required from ik_mode_teleop_configs)[{} l.{}]",
file!(),
line!()
),
ik_mode_teleop_config.solver_name.to_string(),
)
})?
.clone(),
);
modes.push(Arc::new(ik_mode));
}
if !joints_poses.is_empty() {
if let Some(sender_config) = &self.joints_pose_sender_config {
let mut joint_trajectory_clients = HashMap::new();
for joints_pose in &joints_poses {
joint_trajectory_clients.insert(
joints_pose.client_name.to_owned(),
joint_trajectory_client_map
.get(&joints_pose.client_name)
.ok_or_else(|| {
Error::NoMapKey(
format!(
"joint_trajectory_client_map(required form joint pose)[{} l.{}]",
file!(),
line!()
),
joints_pose.client_name.to_string(),
)
})?
.clone(),
);
}
modes.push(Arc::new(JointsPoseSender::new_from_config(
sender_config.clone(),
joints_poses,
joint_trajectory_clients,
speaker.clone(),
)));
}
}
if !self.command_configs.is_empty() {
if let Some(base_path) = base_path {
if let Some(e) = RobotCommandExecutor::new(
base_path,
self.command_configs.clone(),
robot_client,
speaker.clone(),
) {
modes.push(Arc::new(e));
}
}
}
Ok(modes)
}
}
#[cfg(test)]
mod tests {
use std::collections::HashMap;
use arci::{
DummyJointTrajectoryClient, DummyLocalization, DummyMoveBase, DummyNavigation, DummySpeaker,
};
use openrr_client::{
create_random_jacobian_ik_solver, IkSolverParameters, IkSolverWithChain,
OpenrrClientsConfig,
};
use super::*;
#[test]
fn test_gen() {
let joy_joint_teleop_mode_config = JoyJointTeleopModeConfig {
mode: String::from("a"),
joint_step: 1.0_f64,
step_duration_secs: 0.1_f64,
};
let _joy_joint_teleop_config = JoyJointTeleopConfig {
client_name: String::from("b"),
config: joy_joint_teleop_mode_config,
};
let ik_mode_config = IkModeConfig {
mode: String::from("c"),
move_step_angular: [1.0_f64, 1.0, 1.0],
move_step_linear: [1.0_f64, 1.0, 1.0],
step_duration_secs: 0.1_f64,
};
let _ik_mode_teleop_config = IkModeTeleopConfig {
solver_name: String::from("d"),
joint_trajectory_client_name: String::from("f"),
config: ik_mode_config,
};
}
#[test]
fn test_control_mode_config_create_error() {
let joy_joint_teleop_config = JoyJointTeleopConfig {
client_name: String::from("jj config"),
config: JoyJointTeleopModeConfig {
mode: String::from("joy joint teleop mode config"),
joint_step: 1.0_f64,
step_duration_secs: 0.1_f64,
},
};
let ik_mode_teleop_config = IkModeTeleopConfig {
solver_name: String::from("ik config solver"),
joint_trajectory_client_name: String::from("ik trajectory"),
config: IkModeConfig {
mode: String::from("ik mode config"),
move_step_angular: [1.0_f64, 1.0, 1.0],
move_step_linear: [1.0_f64, 1.0, 1.0],
step_duration_secs: 0.1_f64,
},
};
let robot_command_config = RobotCommandConfig {
name: String::from("rc config"),
file_path: String::from("sample path"),
};
let ctrl_mode_config = ControlModesConfig {
move_base_mode: Some(String::from("a")),
joy_joint_teleop_configs: vec![joy_joint_teleop_config],
ik_mode_teleop_configs: vec![ik_mode_teleop_config],
joints_pose_sender_config: None,
command_configs: vec![robot_command_config],
};
let speaker = Arc::new(DummySpeaker::default());
let robot_client = ArcRobotClient::new(
OpenrrClientsConfig::default(),
HashMap::new(),
HashMap::new(),
None,
None,
None,
);
assert!(robot_client.is_ok());
let robot_client = robot_client.unwrap();
let modes = ctrl_mode_config.create_control_modes(
None,
Arc::new(robot_client),
speaker.clone(),
&HashMap::new(),
&HashMap::new(),
Some(Arc::new(DummyMoveBase::default())),
Vec::new(),
);
assert!(modes.is_err());
let err = modes.err().unwrap();
println!("{err}");
let robot_client = ArcRobotClient::new(
OpenrrClientsConfig::default(),
HashMap::new(),
HashMap::new(),
None,
None,
None,
);
let robot_client = robot_client.unwrap();
let joint_trajectory_client: Arc<dyn JointTrajectoryClient> =
Arc::new(DummyJointTrajectoryClient::new(vec!["a".to_owned()]));
let mut joint_trajectory_map = HashMap::new();
joint_trajectory_map.insert("jj config".to_owned(), joint_trajectory_client);
let chain = k::Chain::<f64>::from_urdf_file("../openrr-planner/sample.urdf").unwrap();
let end_link = chain.find("l_tool_fixed").unwrap();
let arm = k::SerialChain::from_end(end_link);
let params = IkSolverParameters {
allowable_position_error: 0.01,
allowable_angle_error: 0.02,
jacobian_multiplier: 0.1,
num_max_try: 100,
};
let ik_solver = create_random_jacobian_ik_solver(¶ms);
let constraints = k::Constraints::default();
let ik_solver = IkSolverWithChain::new(arm, Arc::new(ik_solver), constraints);
let mut ik_map = HashMap::new();
ik_map.insert("ik config solver".to_owned(), Arc::new(ik_solver));
let modes = ctrl_mode_config.create_control_modes(
None,
Arc::new(robot_client),
speaker,
&joint_trajectory_map,
&ik_map,
Some(Arc::new(DummyMoveBase::default())),
Vec::new(),
);
assert!(modes.is_err());
let err = modes.err().unwrap();
println!("{err}");
}
#[test]
fn test_control_mode_config_create_ok() {
let joy_joint_teleop_config = JoyJointTeleopConfig {
client_name: String::from("jj config"),
config: JoyJointTeleopModeConfig {
mode: String::from("joy joint teleop mode config"),
joint_step: 1.0_f64,
step_duration_secs: 0.1_f64,
},
};
let ik_mode_teleop_config = IkModeTeleopConfig {
solver_name: String::from("ik config solver"),
joint_trajectory_client_name: String::from("jj config"),
config: IkModeConfig {
mode: String::from("ik mode config"),
move_step_angular: [1.0_f64, 1.0, 1.0],
move_step_linear: [1.0_f64, 1.0, 1.0],
step_duration_secs: 0.1_f64,
},
};
let robot_command_config = RobotCommandConfig {
name: String::from("rc config"),
file_path: String::from("sample path"),
};
let ctrl_mode_config = ControlModesConfig {
move_base_mode: Some(String::from("a")),
joy_joint_teleop_configs: vec![joy_joint_teleop_config],
ik_mode_teleop_configs: vec![ik_mode_teleop_config],
joints_pose_sender_config: None,
command_configs: vec![robot_command_config],
};
let speaker = Arc::new(DummySpeaker::default());
let robot_client = ArcRobotClient::new(
OpenrrClientsConfig::default(),
HashMap::new(),
HashMap::new(),
Some(Arc::new(DummyLocalization::default())),
Some(Arc::new(DummyMoveBase::default())),
Some(Arc::new(DummyNavigation::default())),
);
assert!(robot_client.is_ok());
let robot_client = robot_client.unwrap();
let joint_trajectory_client: Arc<dyn JointTrajectoryClient> =
Arc::new(DummyJointTrajectoryClient::new(vec!["a".to_owned()]));
let mut joint_trajectory_map = HashMap::new();
joint_trajectory_map.insert("jj config".to_owned(), joint_trajectory_client);
let chain = k::Chain::<f64>::from_urdf_file("../openrr-planner/sample.urdf").unwrap();
let end_link = chain.find("l_tool_fixed").unwrap();
let arm = k::SerialChain::from_end(end_link);
let params = IkSolverParameters {
allowable_position_error: 0.01,
allowable_angle_error: 0.02,
jacobian_multiplier: 0.1,
num_max_try: 100,
};
let ik_solver = create_random_jacobian_ik_solver(¶ms);
let constraints = k::Constraints::default();
let ik_solver = IkSolverWithChain::new(arm, Arc::new(ik_solver), constraints);
let mut ik_map = HashMap::new();
ik_map.insert("ik config solver".to_owned(), Arc::new(ik_solver));
let modes = ctrl_mode_config.create_control_modes(
None,
Arc::new(robot_client),
speaker,
&joint_trajectory_map,
&ik_map,
Some(Arc::new(DummyMoveBase::default())),
Vec::new(),
);
assert!(modes.is_ok());
}
}