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//! See `AssistContext`
use std::mem;
use algo::find_covering_element;
use base_db::{FileId, FileRange};
use hir::Semantics;
use ra_ide_db::{
source_change::{SourceChange, SourceFileEdit},
RootDatabase,
};
use syntax::{
algo::{self, find_node_at_offset, SyntaxRewriter},
AstNode, SourceFile, SyntaxElement, SyntaxKind, SyntaxToken, TextRange, TextSize,
TokenAtOffset,
};
use text_edit::{TextEdit, TextEditBuilder};
use crate::{
assist_config::{AssistConfig, SnippetCap},
Assist, AssistId, AssistKind, GroupLabel, ResolvedAssist,
};
/// `AssistContext` allows to apply an assist or check if it could be applied.
///
/// Assists use a somewhat over-engineered approach, given the current needs.
/// The 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,
/// `resolve`. It first check if an edit is applicable (potentially computing
/// info required to compute the actual edit). If it is applicable, and
/// `resolve` is `true`, it then computes the actual edit.
///
/// So, to implement the original assists workflow, we can first apply each edit
/// with `resolve = false`, and then applying the selected edit again, with
/// `resolve = 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 :-)
pub(crate) struct AssistContext<'a> {
pub(crate) config: &'a AssistConfig,
pub(crate) sema: Semantics<'a, RootDatabase>,
pub(crate) frange: FileRange,
source_file: SourceFile,
}
impl<'a> AssistContext<'a> {
pub(crate) fn new(
sema: Semantics<'a, RootDatabase>,
config: &'a AssistConfig,
frange: FileRange,
) -> AssistContext<'a> {
let source_file = sema.parse(frange.file_id);
AssistContext { config, sema, frange, source_file }
}
pub(crate) fn db(&self) -> &RootDatabase {
self.sema.db
}
pub(crate) fn source_file(&self) -> &SourceFile {
&self.source_file
}
// NB, this ignores active selection.
pub(crate) fn offset(&self) -> TextSize {
self.frange.range.start()
}
pub(crate) fn token_at_offset(&self) -> TokenAtOffset<SyntaxToken> {
self.source_file.syntax().token_at_offset(self.offset())
}
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> {
find_node_at_offset(self.source_file.syntax(), self.offset())
}
pub(crate) fn find_node_at_offset_with_descend<N: AstNode>(&self) -> Option<N> {
self.sema.find_node_at_offset_with_descend(self.source_file.syntax(), self.offset())
}
pub(crate) fn covering_element(&self) -> SyntaxElement {
find_covering_element(self.source_file.syntax(), self.frange.range)
}
// FIXME: remove
pub(crate) fn covering_node_for_range(&self, range: TextRange) -> SyntaxElement {
find_covering_element(self.source_file.syntax(), range)
}
}
pub(crate) struct Assists {
resolve: bool,
file: FileId,
buf: Vec<(Assist, Option<SourceChange>)>,
allowed: Option<Vec<AssistKind>>,
}
impl Assists {
pub(crate) fn new_resolved(ctx: &AssistContext) -> Assists {
Assists {
resolve: true,
file: ctx.frange.file_id,
buf: Vec::new(),
allowed: ctx.config.allowed.clone(),
}
}
pub(crate) fn new_unresolved(ctx: &AssistContext) -> Assists {
Assists {
resolve: false,
file: ctx.frange.file_id,
buf: Vec::new(),
allowed: ctx.config.allowed.clone(),
}
}
pub(crate) fn finish_unresolved(self) -> Vec<Assist> {
assert!(!self.resolve);
self.finish()
.into_iter()
.map(|(label, edit)| {
assert!(edit.is_none());
label
})
.collect()
}
pub(crate) fn finish_resolved(self) -> Vec<ResolvedAssist> {
assert!(self.resolve);
self.finish()
.into_iter()
.map(|(label, edit)| ResolvedAssist { assist: label, source_change: edit.unwrap() })
.collect()
}
pub(crate) fn add(
&mut self,
id: AssistId,
label: impl Into<String>,
target: TextRange,
f: impl FnOnce(&mut AssistBuilder),
) -> Option<()> {
if !self.is_allowed(&id) {
return None;
}
let label = Assist::new(id, label.into(), None, target);
self.add_impl(label, f)
}
pub(crate) fn add_group(
&mut self,
group: &GroupLabel,
id: AssistId,
label: impl Into<String>,
target: TextRange,
f: impl FnOnce(&mut AssistBuilder),
) -> Option<()> {
if !self.is_allowed(&id) {
return None;
}
let label = Assist::new(id, label.into(), Some(group.clone()), target);
self.add_impl(label, f)
}
fn add_impl(&mut self, label: Assist, f: impl FnOnce(&mut AssistBuilder)) -> Option<()> {
let source_change = if self.resolve {
let mut builder = AssistBuilder::new(self.file);
f(&mut builder);
Some(builder.finish())
} else {
None
};
self.buf.push((label, source_change));
Some(())
}
fn finish(mut self) -> Vec<(Assist, Option<SourceChange>)> {
self.buf.sort_by_key(|(label, _edit)| label.target.len());
self.buf
}
fn is_allowed(&self, id: &AssistId) -> bool {
match &self.allowed {
Some(allowed) => allowed.iter().any(|kind| kind.contains(id.1)),
None => true,
}
}
}
pub(crate) struct AssistBuilder {
edit: TextEditBuilder,
file_id: FileId,
is_snippet: bool,
change: SourceChange,
}
impl AssistBuilder {
pub(crate) fn new(file_id: FileId) -> AssistBuilder {
AssistBuilder {
edit: TextEdit::builder(),
file_id,
is_snippet: false,
change: SourceChange::default(),
}
}
pub(crate) fn edit_file(&mut self, file_id: FileId) {
self.file_id = file_id;
}
fn commit(&mut self) {
let edit = mem::take(&mut self.edit).finish();
if !edit.is_empty() {
let new_edit = SourceFileEdit { file_id: self.file_id, edit };
assert!(!self.change.source_file_edits.iter().any(|it| it.file_id == new_edit.file_id));
self.change.source_file_edits.push(new_edit);
}
}
/// Remove specified `range` of text.
pub(crate) fn delete(&mut self, range: TextRange) {
self.edit.delete(range)
}
/// Append specified `text` at the given `offset`
pub(crate) fn insert(&mut self, offset: TextSize, text: impl Into<String>) {
self.edit.insert(offset, text.into())
}
/// Append specified `snippet` at the given `offset`
pub(crate) fn insert_snippet(
&mut self,
_cap: SnippetCap,
offset: TextSize,
snippet: impl Into<String>,
) {
self.is_snippet = true;
self.insert(offset, snippet);
}
/// Replaces specified `range` of text with a given string.
pub(crate) fn replace(&mut self, range: TextRange, replace_with: impl Into<String>) {
self.edit.replace(range, replace_with.into())
}
/// Replaces specified `range` of text with a given `snippet`.
pub(crate) fn replace_snippet(
&mut self,
_cap: SnippetCap,
range: TextRange,
snippet: impl Into<String>,
) {
self.is_snippet = true;
self.replace(range, snippet);
}
pub(crate) fn replace_ast<N: AstNode>(&mut self, old: N, new: N) {
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);
}
// FIXME: kill this API
/// Get access to the raw `TextEditBuilder`.
pub(crate) fn text_edit_builder(&mut self) -> &mut TextEditBuilder {
&mut self.edit
}
fn finish(mut self) -> SourceChange {
self.commit();
let mut change = mem::take(&mut self.change);
if self.is_snippet {
change.is_snippet = true;
}
change
}
}
|