rust/crates/ra_assists/src/assist_ctx.rs

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//! This module defines `AssistCtx` -- the API surface that is exposed to assists.
use hir::Semantics;
use ra_db::FileRange;
use ra_fmt::{leading_indent, reindent};
use ra_ide_db::RootDatabase;
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use ra_syntax::{
algo::{self, find_covering_element, find_node_at_offset},
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AstNode, SourceFile, SyntaxElement, SyntaxKind, SyntaxNode, SyntaxToken, TextRange, TextSize,
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TokenAtOffset,
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};
use ra_text_edit::TextEditBuilder;
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use crate::{AssistAction, AssistFile, AssistId, AssistLabel, GroupLabel, ResolvedAssist};
use algo::SyntaxRewriter;
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#[derive(Clone, Debug)]
pub(crate) struct Assist(pub(crate) Vec<AssistInfo>);
#[derive(Clone, Debug)]
pub(crate) struct AssistInfo {
pub(crate) label: AssistLabel,
pub(crate) group_label: Option<GroupLabel>,
pub(crate) action: Option<AssistAction>,
}
impl AssistInfo {
fn new(label: AssistLabel) -> AssistInfo {
AssistInfo { label, group_label: None, action: None }
}
fn resolved(self, action: AssistAction) -> AssistInfo {
AssistInfo { action: Some(action), ..self }
}
fn with_group(self, group_label: GroupLabel) -> AssistInfo {
AssistInfo { group_label: Some(group_label), ..self }
}
pub(crate) fn into_resolved(self) -> Option<ResolvedAssist> {
let label = self.label;
let group_label = self.group_label;
self.action.map(|action| ResolvedAssist { label, group_label, action })
}
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}
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pub(crate) type AssistHandler = fn(AssistCtx) -> Option<Assist>;
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/// `AssistCtx` allows to apply an assist or check if it could be applied.
///
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/// Assists use a somewhat over-engineered approach, given the current needs. The
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/// assists workflow consists of two phases. In the first phase, a user asks for
/// the list of available assists. In the second phase, the user picks a
/// particular assist and it gets applied.
///
/// There are two peculiarities here:
///
/// * first, we ideally avoid computing more things then necessary to answer
/// "is assist applicable" in the first phase.
/// * second, when we are applying assist, we don't have a guarantee that there
/// weren't any changes between the point when user asked for assists and when
/// they applied a particular assist. So, when applying assist, we need to do
/// all the checks from scratch.
///
/// To avoid repeating the same code twice for both "check" and "apply"
/// functions, we use an approach reminiscent of that of Django's function based
/// views dealing with forms. Each assist receives a runtime parameter,
/// `should_compute_edit`. It first check if an edit is applicable (potentially
/// computing info required to compute the actual edit). If it is applicable,
/// and `should_compute_edit` is `true`, it then computes the actual edit.
///
/// So, to implement the original assists workflow, we can first apply each edit
/// with `should_compute_edit = false`, and then applying the selected edit
/// again, with `should_compute_edit = true` this time.
///
/// Note, however, that we don't actually use such two-phase logic at the
/// moment, because the LSP API is pretty awkward in this place, and it's much
/// easier to just compute the edit eagerly :-)
#[derive(Clone)]
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pub(crate) struct AssistCtx<'a> {
pub(crate) sema: &'a Semantics<'a, RootDatabase>,
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pub(crate) db: &'a RootDatabase,
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pub(crate) frange: FileRange,
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source_file: SourceFile,
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should_compute_edit: bool,
}
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impl<'a> AssistCtx<'a> {
pub fn new(
sema: &'a Semantics<'a, RootDatabase>,
frange: FileRange,
should_compute_edit: bool,
) -> AssistCtx<'a> {
let source_file = sema.parse(frange.file_id);
AssistCtx { sema, db: sema.db, frange, source_file, should_compute_edit }
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}
pub(crate) fn add_assist(
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self,
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id: AssistId,
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label: impl Into<String>,
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f: impl FnOnce(&mut ActionBuilder),
) -> Option<Assist> {
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let label = AssistLabel::new(label.into(), id);
let mut info = AssistInfo::new(label);
if self.should_compute_edit {
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let action = {
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let mut edit = ActionBuilder::default();
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f(&mut edit);
edit.build()
};
info = info.resolved(action)
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};
Some(Assist(vec![info]))
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}
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pub(crate) fn add_assist_group(self, group_name: impl Into<String>) -> AssistGroup<'a> {
AssistGroup { ctx: self, group_name: group_name.into(), assists: Vec::new() }
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}
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pub(crate) fn token_at_offset(&self) -> TokenAtOffset<SyntaxToken> {
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self.source_file.syntax().token_at_offset(self.frange.range.start())
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}
pub(crate) fn find_token_at_offset(&self, kind: SyntaxKind) -> Option<SyntaxToken> {
self.token_at_offset().find(|it| it.kind() == kind)
}
pub(crate) fn find_node_at_offset<N: AstNode>(&self) -> Option<N> {
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find_node_at_offset(self.source_file.syntax(), self.frange.range.start())
}
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pub(crate) fn covering_element(&self) -> SyntaxElement {
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find_covering_element(self.source_file.syntax(), self.frange.range)
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}
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pub(crate) fn covering_node_for_range(&self, range: TextRange) -> SyntaxElement {
find_covering_element(self.source_file.syntax(), range)
}
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}
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pub(crate) struct AssistGroup<'a> {
ctx: AssistCtx<'a>,
group_name: String,
assists: Vec<AssistInfo>,
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}
impl<'a> AssistGroup<'a> {
pub(crate) fn add_assist(
&mut self,
id: AssistId,
label: impl Into<String>,
f: impl FnOnce(&mut ActionBuilder),
) {
let label = AssistLabel::new(label.into(), id);
let mut info = AssistInfo::new(label).with_group(GroupLabel(self.group_name.clone()));
if self.ctx.should_compute_edit {
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let action = {
let mut edit = ActionBuilder::default();
f(&mut edit);
edit.build()
};
info = info.resolved(action)
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};
self.assists.push(info)
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}
pub(crate) fn finish(self) -> Option<Assist> {
if self.assists.is_empty() {
None
} else {
Some(Assist(self.assists))
}
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}
}
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#[derive(Default)]
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pub(crate) struct ActionBuilder {
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edit: TextEditBuilder,
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cursor_position: Option<TextSize>,
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target: Option<TextRange>,
file: AssistFile,
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}
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impl ActionBuilder {
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/// Replaces specified `range` of text with a given string.
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pub(crate) fn replace(&mut self, range: TextRange, replace_with: impl Into<String>) {
self.edit.replace(range, replace_with.into())
}
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/// Replaces specified `node` of text with a given string, reindenting the
/// string to maintain `node`'s existing indent.
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// FIXME: remove in favor of ra_syntax::edit::IndentLevel::increase_indent
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pub(crate) fn replace_node_and_indent(
&mut self,
node: &SyntaxNode,
replace_with: impl Into<String>,
) {
let mut replace_with = replace_with.into();
if let Some(indent) = leading_indent(node) {
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replace_with = reindent(&replace_with, &indent)
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}
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self.replace(node.text_range(), replace_with)
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}
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/// Remove specified `range` of text.
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#[allow(unused)]
pub(crate) fn delete(&mut self, range: TextRange) {
self.edit.delete(range)
}
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/// Append specified `text` at the given `offset`
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pub(crate) fn insert(&mut self, offset: TextSize, text: impl Into<String>) {
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self.edit.insert(offset, text.into())
}
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/// Specify desired position of the cursor after the assist is applied.
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pub(crate) fn set_cursor(&mut self, offset: TextSize) {
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self.cursor_position = Some(offset)
}
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/// Specify that the assist should be active withing the `target` range.
///
/// Target ranges are used to sort assists: the smaller the target range,
/// the more specific assist is, and so it should be sorted first.
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pub(crate) fn target(&mut self, target: TextRange) {
self.target = Some(target)
}
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/// Get access to the raw `TextEditBuilder`.
pub(crate) fn text_edit_builder(&mut self) -> &mut TextEditBuilder {
&mut self.edit
}
pub(crate) fn replace_ast<N: AstNode>(&mut self, old: N, new: N) {
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algo::diff(old.syntax(), new.syntax()).into_text_edit(&mut self.edit)
}
pub(crate) fn rewrite(&mut self, rewriter: SyntaxRewriter) {
let node = rewriter.rewrite_root().unwrap();
let new = rewriter.rewrite(&node);
algo::diff(&node, &new).into_text_edit(&mut self.edit)
}
pub(crate) fn set_file(&mut self, assist_file: AssistFile) {
self.file = assist_file
}
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fn build(self) -> AssistAction {
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AssistAction {
edit: self.edit.finish(),
cursor_position: self.cursor_position,
target: self.target,
file: self.file,
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}
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}
}