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use kittycad::types::{ModelingCmd, Point3D};
use super::types::ConstraintLevel;
use crate::{
ast::types::{
ArrayExpression, CallExpression, FormatOptions, Literal, PipeExpression, PipeSubstitution, Program,
VariableDeclarator,
},
engine::{EngineConnection, EngineManager},
errors::{KclError, KclErrorDetails},
executor::{Point2d, SourceRange},
};
#[derive(Debug)]
/// The control point data for a curve or line.
pub struct ControlPointData {
/// The control points for the curve or line.
pub points: Vec<kittycad::types::Point3D>,
/// The command that created this curve or line.
pub command: kittycad::types::PathCommand,
/// The id of the curve or line.
pub id: uuid::Uuid,
}
const EPSILON: f64 = 0.015625; // or 2^-6
/// Update the AST to reflect the new state of the program after something like
/// a move or a new line.
pub async fn modify_ast_for_sketch(
engine: &mut EngineConnection,
program: &mut Program,
// The name of the sketch.
sketch_name: &str,
// The ID of the parent sketch.
sketch_id: uuid::Uuid,
) -> Result<String, KclError> {
// First we need to check if this sketch is constrained (even partially).
// If it is, we cannot modify it.
// Get the information about the sketch.
if let Some(ast_sketch) = program.get_variable(sketch_name) {
let constraint_level = ast_sketch.get_constraint_level();
match &constraint_level {
ConstraintLevel::None { source_ranges: _ } => {}
ConstraintLevel::Ignore { source_ranges: _ } => {}
ConstraintLevel::Partial {
source_ranges: _,
levels,
} => {
return Err(KclError::Engine(KclErrorDetails {
message: format!(
"Sketch {} is constrained `{}` and cannot be modified",
sketch_name, constraint_level
),
source_ranges: levels.get_all_partial_or_full_source_ranges(),
}));
}
ConstraintLevel::Full { source_ranges } => {
return Err(KclError::Engine(KclErrorDetails {
message: format!(
"Sketch {} is constrained `{}` and cannot be modified",
sketch_name, constraint_level
),
source_ranges: source_ranges.clone(),
}));
}
}
}
// Let's start by getting the path info.
// Let's get the path info.
let resp = engine
.send_modeling_cmd_get_response(
uuid::Uuid::new_v4(),
SourceRange::default(),
ModelingCmd::PathGetInfo { path_id: sketch_id },
)
.await?;
let kittycad::types::OkWebSocketResponseData::Modeling {
modeling_response: kittycad::types::OkModelingCmdResponse::PathGetInfo { data: path_info },
} = &resp
else {
return Err(KclError::Engine(KclErrorDetails {
message: format!("Get path info response was not as expected: {:?}", resp),
source_ranges: vec![SourceRange::default()],
}));
};
/* // Let's try to get the children of the sketch.
let resp = engine
.send_modeling_cmd_get_response(
uuid::Uuid::new_v4(),
SourceRange::default(),
ModelingCmd::EntityGetAllChildUuids { entity_id: sketch_id },
)
.await?;
let kittycad::types::OkWebSocketResponseData::Modeling {
modeling_response: kittycad::types::OkModelingCmdResponse::EntityGetAllChildUuids { data: children_info },
} = &resp
else {
return Err(KclError::Engine(KclErrorDetails {
message: format!("Get child info response was not as expected: {:?}", resp),
source_ranges: vec![SourceRange::default()],
}));
};
println!("children_info: {:#?}", children_info);
// Let's try to get the parent id.
let resp = engine
.send_modeling_cmd_get_response(
uuid::Uuid::new_v4(),
SourceRange::default(),
ModelingCmd::EntityGetParentId { entity_id: sketch_id },
)
.await?;
let kittycad::types::OkWebSocketResponseData::Modeling {
modeling_response: kittycad::types::OkModelingCmdResponse::EntityGetParentId { data: parent_info },
} = &resp
else {
return Err(KclError::Engine(KclErrorDetails {
message: format!("Get parent id response was not as expected: {:?}", resp),
source_ranges: vec![SourceRange::default()],
}));
};
println!("parent_info: {:#?}", parent_info);*/
// Now let's get the control points for all the segments.
// TODO: We should probably await all these at once so we aren't going one by one.
// But I guess this is fine for now.
// We absolutely have to preserve the order of the control points.
let mut control_points = Vec::new();
for segment in &path_info.segments {
if let Some(command_id) = &segment.command_id {
let h = engine.send_modeling_cmd_get_response(
uuid::Uuid::new_v4(),
SourceRange::default(),
ModelingCmd::CurveGetControlPoints { curve_id: *command_id },
);
let kittycad::types::OkWebSocketResponseData::Modeling {
modeling_response: kittycad::types::OkModelingCmdResponse::CurveGetControlPoints { data },
} = h.await?
else {
return Err(KclError::Engine(KclErrorDetails {
message: format!("Curve get control points response was not as expected: {:?}", resp),
source_ranges: vec![SourceRange::default()],
}));
};
control_points.push(ControlPointData {
points: data.control_points.clone(),
command: segment.command.clone(),
id: *command_id,
});
}
}
if control_points.is_empty() {
return Err(KclError::Engine(KclErrorDetails {
message: format!("No control points found for sketch {}", sketch_name),
source_ranges: vec![SourceRange::default()],
}));
}
let first_control_points = control_points.first().ok_or_else(|| {
KclError::Engine(KclErrorDetails {
message: format!("No control points found for sketch {}", sketch_name),
source_ranges: vec![SourceRange::default()],
})
})?;
let mut additional_lines = Vec::new();
let mut last_point = first_control_points.points[1].clone();
for control_point in control_points[1..].iter() {
additional_lines.push([
(control_point.points[1].x - last_point.x),
(control_point.points[1].y - last_point.y),
]);
last_point = Point3D {
x: control_point.points[1].x,
y: control_point.points[1].y,
z: control_point.points[1].z,
};
}
// Okay now let's recalculate the sketch from the control points.
let start_sketch_at_end = Point3D {
x: (first_control_points.points[1].x - first_control_points.points[0].x),
y: (first_control_points.points[1].y - first_control_points.points[0].y),
z: (first_control_points.points[1].z - first_control_points.points[0].z),
};
let sketch = create_start_sketch_at(
sketch_name,
[first_control_points.points[0].x, first_control_points.points[0].y],
[start_sketch_at_end.x, start_sketch_at_end.y],
additional_lines,
)?;
// Add the sketch back to the program.
program.replace_variable(sketch_name, sketch);
let recasted = program.recast(&FormatOptions::default(), 0);
// Re-parse the ast so we get the correct source ranges.
let tokens = crate::tokeniser::lexer(&recasted);
let parser = crate::parser::Parser::new(tokens);
*program = parser.ast()?;
Ok(recasted)
}
/// Create a pipe expression that starts a sketch at the given point and draws a line to the given point.
fn create_start_sketch_at(
name: &str,
start: [f64; 2],
end: [f64; 2],
additional_lines: Vec<[f64; 2]>,
) -> Result<VariableDeclarator, KclError> {
let start_sketch_at = CallExpression::new(
"startSketchAt",
vec![ArrayExpression::new(vec![
Literal::new(round_before_recast(start[0]).into()).into(),
Literal::new(round_before_recast(start[1]).into()).into(),
])
.into()],
)?;
// Keep track of where we are so we can close the sketch if we need to.
let mut current_position = Point2d {
x: start[0],
y: start[1],
};
current_position.x += end[0];
current_position.y += end[1];
let initial_line = CallExpression::new(
"line",
vec![
ArrayExpression::new(vec![
Literal::new(round_before_recast(end[0]).into()).into(),
Literal::new(round_before_recast(end[1]).into()).into(),
])
.into(),
PipeSubstitution::new().into(),
],
)?;
let mut pipe_body = vec![start_sketch_at.into(), initial_line.into()];
for (index, line) in additional_lines.iter().enumerate() {
current_position.x += line[0];
current_position.y += line[1];
// If we are on the last line, check if we have to close the sketch.
if index == additional_lines.len() - 1 {
let diff_x = (current_position.x - start[0]).abs();
let diff_y = (current_position.y - start[1]).abs();
// Compare the end of the last line to the start of the first line.
// This is a bit more lenient if you look at the value of epsilon.
if diff_x <= EPSILON && diff_y <= EPSILON {
// We have to close the sketch.
let close = CallExpression::new("close", vec![PipeSubstitution::new().into()])?;
pipe_body.push(close.into());
break;
}
}
// TODO: we should check if we should close the sketch.
let line = CallExpression::new(
"line",
vec![
ArrayExpression::new(vec![
Literal::new(round_before_recast(line[0]).into()).into(),
Literal::new(round_before_recast(line[1]).into()).into(),
])
.into(),
PipeSubstitution::new().into(),
],
)?;
pipe_body.push(line.into());
}
Ok(VariableDeclarator::new(name, PipeExpression::new(pipe_body).into()))
}
fn round_before_recast(num: f64) -> f64 {
// We use 2 decimal places.
(num * 100.0).round() / 100.0
}