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c3a4c4429d
rust/crates/ra_ide/src/call_hierarchy.rs
Aleksey Kladov c3a4c4429d Refactor primary IDE API 
This introduces the new type -- Semantics.
Semantics maps SyntaxNodes to various semantic info, such as type,
name resolution or macro expansions.

To do so, Semantics maintains a HashMap which maps every node it saw
to the file from which the node originated. This is enough to get all
the necessary hir bits just from syntax.
2020-02-26 12:55:50 +01:00

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Rust
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//! Entry point for call-hierarchy
use indexmap::IndexMap;
use hir::Semantics;
use ra_ide_db::RootDatabase;
use ra_syntax::{ast, match_ast, AstNode, TextRange};
use crate::{
call_info::FnCallNode, display::ToNav, goto_definition, references, FilePosition,
NavigationTarget, RangeInfo,
};
#[derive(Debug, Clone)]
pub struct CallItem {
pub target: NavigationTarget,
pub ranges: Vec<TextRange>,
}
impl CallItem {
#[cfg(test)]
pub(crate) fn assert_match(&self, expected: &str) {
let actual = self.debug_render();
test_utils::assert_eq_text!(expected.trim(), actual.trim(),);
}
#[cfg(test)]
pub(crate) fn debug_render(&self) -> String {
format!("{} : {:?}", self.target.debug_render(), self.ranges)
}
}
pub(crate) fn call_hierarchy(
db: &RootDatabase,
position: FilePosition,
) -> Option<RangeInfo<Vec<NavigationTarget>>> {
goto_definition::goto_definition(db, position)
}
pub(crate) fn incoming_calls(db: &RootDatabase, position: FilePosition) -> Option<Vec<CallItem>> {
let sema = Semantics::new(db);
// 1. Find all refs
// 2. Loop through refs and determine unique fndef. This will become our `from: CallHierarchyItem,` in the reply.
// 3. Add ranges relative to the start of the fndef.
let refs = references::find_all_refs(db, position, None)?;
let mut calls = CallLocations::default();
for reference in refs.info.references() {
let file_id = reference.file_range.file_id;
let file = sema.parse(file_id);
let file = file.syntax();
let token = file.token_at_offset(reference.file_range.range.start()).next()?;
let token = sema.descend_into_macros(token);
let syntax = token.parent();
// This target is the containing function
if let Some(nav) = syntax.ancestors().find_map(|node| {
match_ast! {
match node {
ast::FnDef(it) => {
let def = sema.to_def(&it)?;
Some(def.to_nav(sema.db))
},
_ => None,
}
}
}) {
let relative_range = reference.file_range.range;
calls.add(&nav, relative_range);
}
}
Some(calls.into_items())
}
pub(crate) fn outgoing_calls(db: &RootDatabase, position: FilePosition) -> Option<Vec<CallItem>> {
let sema = Semantics::new(db);
let file_id = position.file_id;
let file = sema.parse(file_id);
let file = file.syntax();
let token = file.token_at_offset(position.offset).next()?;
let token = sema.descend_into_macros(token);
let syntax = token.parent();
let mut calls = CallLocations::default();
syntax
.descendants()
.filter_map(|node| FnCallNode::with_node_exact(&node))
.filter_map(|call_node| {
let name_ref = call_node.name_ref()?;
if let Some(func_target) = match &call_node {
FnCallNode::CallExpr(expr) => {
//FIXME: Type::as_callable is broken
let callable_def = sema.type_of_expr(&expr.expr()?)?.as_callable()?;
match callable_def {
hir::CallableDef::FunctionId(it) => {
let fn_def: hir::Function = it.into();
let nav = fn_def.to_nav(db);
Some(nav)
}
_ => None,
}
}
FnCallNode::MethodCallExpr(expr) => {
let function = sema.resolve_method_call(&expr)?;
Some(function.to_nav(db))
}
FnCallNode::MacroCallExpr(macro_call) => {
let macro_def = sema.resolve_macro_call(&macro_call)?;
Some(macro_def.to_nav(db))
}
} {
Some((func_target, name_ref.syntax().text_range()))
} else {
None
}
})
.for_each(|(nav, range)| calls.add(&nav, range));
Some(calls.into_items())
}
#[derive(Default)]
struct CallLocations {
funcs: IndexMap<NavigationTarget, Vec<TextRange>>,
}
impl CallLocations {
fn add(&mut self, target: &NavigationTarget, range: TextRange) {
self.funcs.entry(target.clone()).or_default().push(range);
}
fn into_items(self) -> Vec<CallItem> {
self.funcs.into_iter().map(|(target, ranges)| CallItem { target, ranges }).collect()
}
}
#[cfg(test)]
mod tests {
use ra_db::FilePosition;
use crate::mock_analysis::analysis_and_position;
fn check_hierarchy(
fixture: &str,
expected: &str,
expected_incoming: &[&str],
expected_outgoing: &[&str],
) {
let (analysis, pos) = analysis_and_position(fixture);
let mut navs = analysis.call_hierarchy(pos).unwrap().unwrap().info;
assert_eq!(navs.len(), 1);
let nav = navs.pop().unwrap();
nav.assert_match(expected);
let item_pos = FilePosition { file_id: nav.file_id(), offset: nav.range().start() };
let incoming_calls = analysis.incoming_calls(item_pos).unwrap().unwrap();
assert_eq!(incoming_calls.len(), expected_incoming.len());
for call in 0..incoming_calls.len() {
incoming_calls[call].assert_match(expected_incoming[call]);
}
let outgoing_calls = analysis.outgoing_calls(item_pos).unwrap().unwrap();
assert_eq!(outgoing_calls.len(), expected_outgoing.len());
for call in 0..outgoing_calls.len() {
outgoing_calls[call].assert_match(expected_outgoing[call]);
}
}
#[test]
fn test_call_hierarchy_on_ref() {
check_hierarchy(
r#"
//- /lib.rs
fn callee() {}
fn caller() {
call<|>ee();
}
"#,
"callee FN_DEF FileId(1) [0; 14) [3; 9)",
&["caller FN_DEF FileId(1) [15; 44) [18; 24) : [[33; 39)]"],
&[],
);
}
#[test]
fn test_call_hierarchy_on_def() {
check_hierarchy(
r#"
//- /lib.rs
fn call<|>ee() {}
fn caller() {
callee();
}
"#,
"callee FN_DEF FileId(1) [0; 14) [3; 9)",
&["caller FN_DEF FileId(1) [15; 44) [18; 24) : [[33; 39)]"],
&[],
);
}
#[test]
fn test_call_hierarchy_in_same_fn() {
check_hierarchy(
r#"
//- /lib.rs
fn callee() {}
fn caller() {
call<|>ee();
callee();
}
"#,
"callee FN_DEF FileId(1) [0; 14) [3; 9)",
&["caller FN_DEF FileId(1) [15; 58) [18; 24) : [[33; 39), [47; 53)]"],
&[],
);
}
#[test]
fn test_call_hierarchy_in_different_fn() {
check_hierarchy(
r#"
//- /lib.rs
fn callee() {}
fn caller1() {
call<|>ee();
}
fn caller2() {
callee();
}
"#,
"callee FN_DEF FileId(1) [0; 14) [3; 9)",
&[
"caller1 FN_DEF FileId(1) [15; 45) [18; 25) : [[34; 40)]",
"caller2 FN_DEF FileId(1) [46; 76) [49; 56) : [[65; 71)]",
],
&[],
);
}
#[test]
fn test_call_hierarchy_in_different_files() {
check_hierarchy(
r#"
//- /lib.rs
mod foo;
use foo::callee;
fn caller() {
call<|>ee();
}
//- /foo/mod.rs
pub fn callee() {}
"#,
"callee FN_DEF FileId(2) [0; 18) [7; 13)",
&["caller FN_DEF FileId(1) [26; 55) [29; 35) : [[44; 50)]"],
&[],
);
}
#[test]
fn test_call_hierarchy_outgoing() {
check_hierarchy(
r#"
//- /lib.rs
fn callee() {}
fn call<|>er() {
callee();
callee();
}
"#,
"caller FN_DEF FileId(1) [15; 58) [18; 24)",
&[],
&["callee FN_DEF FileId(1) [0; 14) [3; 9) : [[33; 39), [47; 53)]"],
);
}
#[test]
fn test_call_hierarchy_outgoing_in_different_files() {
check_hierarchy(
r#"
//- /lib.rs
mod foo;
use foo::callee;
fn call<|>er() {
callee();
}
//- /foo/mod.rs
pub fn callee() {}
"#,
"caller FN_DEF FileId(1) [26; 55) [29; 35)",
&[],
&["callee FN_DEF FileId(2) [0; 18) [7; 13) : [[44; 50)]"],
);
}
#[test]
fn test_call_hierarchy_incoming_outgoing() {
check_hierarchy(
r#"
//- /lib.rs
fn caller1() {
call<|>er2();
}
fn caller2() {
caller3();
}
fn caller3() {
}
"#,
"caller2 FN_DEF FileId(1) [32; 63) [35; 42)",
&["caller1 FN_DEF FileId(1) [0; 31) [3; 10) : [[19; 26)]"],
&["caller3 FN_DEF FileId(1) [64; 80) [67; 74) : [[51; 58)]"],
);
}
}
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