mirror of
https://github.com/rust-lang/rust-analyzer
synced 2025-01-20 09:03:56 +00:00
811 lines
30 KiB
Rust
811 lines
30 KiB
Rust
//! FIXME: write short doc here
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use std::{borrow::Cow, fmt};
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use arrayvec::ArrayVec;
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use chalk_ir::Mutability;
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use hir_def::{
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db::DefDatabase, find_path, generics::TypeParamProvenance, item_scope::ItemInNs,
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AssocContainerId, Lookup, ModuleId, TraitId,
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};
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use hir_expand::name::Name;
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use crate::{
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db::HirDatabase, from_foreign_def_id, primitive, utils::generics, AdtId, AliasTy,
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CallableDefId, CallableSig, GenericPredicate, Interner, Lifetime, Obligation, OpaqueTy,
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OpaqueTyId, ProjectionTy, Scalar, Substs, TraitRef, Ty, TyKind,
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};
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pub struct HirFormatter<'a> {
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pub db: &'a dyn HirDatabase,
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fmt: &'a mut dyn fmt::Write,
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buf: String,
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curr_size: usize,
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pub(crate) max_size: Option<usize>,
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omit_verbose_types: bool,
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display_target: DisplayTarget,
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}
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pub trait HirDisplay {
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fn hir_fmt(&self, f: &mut HirFormatter) -> Result<(), HirDisplayError>;
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/// Returns a `Display`able type that is human-readable.
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fn into_displayable<'a>(
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&'a self,
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db: &'a dyn HirDatabase,
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max_size: Option<usize>,
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omit_verbose_types: bool,
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display_target: DisplayTarget,
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) -> HirDisplayWrapper<'a, Self>
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where
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Self: Sized,
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{
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HirDisplayWrapper { db, t: self, max_size, omit_verbose_types, display_target }
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}
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/// Returns a `Display`able type that is human-readable.
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/// Use this for showing types to the user (e.g. diagnostics)
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fn display<'a>(&'a self, db: &'a dyn HirDatabase) -> HirDisplayWrapper<'a, Self>
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where
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Self: Sized,
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{
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HirDisplayWrapper {
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db,
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t: self,
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max_size: None,
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omit_verbose_types: false,
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display_target: DisplayTarget::Diagnostics,
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}
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}
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/// Returns a `Display`able type that is human-readable and tries to be succinct.
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/// Use this for showing types to the user where space is constrained (e.g. doc popups)
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fn display_truncated<'a>(
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&'a self,
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db: &'a dyn HirDatabase,
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max_size: Option<usize>,
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) -> HirDisplayWrapper<'a, Self>
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where
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Self: Sized,
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{
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HirDisplayWrapper {
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db,
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t: self,
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max_size,
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omit_verbose_types: true,
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display_target: DisplayTarget::Diagnostics,
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}
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}
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/// Returns a String representation of `self` that can be inserted into the given module.
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/// Use this when generating code (e.g. assists)
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fn display_source_code<'a>(
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&'a self,
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db: &'a dyn HirDatabase,
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module_id: ModuleId,
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) -> Result<String, DisplaySourceCodeError> {
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let mut result = String::new();
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match self.hir_fmt(&mut HirFormatter {
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db,
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fmt: &mut result,
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buf: String::with_capacity(20),
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curr_size: 0,
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max_size: None,
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omit_verbose_types: false,
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display_target: DisplayTarget::SourceCode { module_id },
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}) {
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Ok(()) => {}
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Err(HirDisplayError::FmtError) => panic!("Writing to String can't fail!"),
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Err(HirDisplayError::DisplaySourceCodeError(e)) => return Err(e),
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};
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Ok(result)
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}
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/// Returns a String representation of `self` for test purposes
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fn display_test<'a>(&'a self, db: &'a dyn HirDatabase) -> HirDisplayWrapper<'a, Self>
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where
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Self: Sized,
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{
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HirDisplayWrapper {
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db,
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t: self,
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max_size: None,
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omit_verbose_types: false,
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display_target: DisplayTarget::Test,
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}
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}
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}
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impl<'a> HirFormatter<'a> {
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pub fn write_joined<T: HirDisplay>(
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&mut self,
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iter: impl IntoIterator<Item = T>,
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sep: &str,
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) -> Result<(), HirDisplayError> {
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let mut first = true;
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for e in iter {
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if !first {
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write!(self, "{}", sep)?;
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}
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first = false;
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e.hir_fmt(self)?;
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}
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Ok(())
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}
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/// This allows using the `write!` macro directly with a `HirFormatter`.
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pub fn write_fmt(&mut self, args: fmt::Arguments) -> Result<(), HirDisplayError> {
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// We write to a buffer first to track output size
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self.buf.clear();
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fmt::write(&mut self.buf, args)?;
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self.curr_size += self.buf.len();
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// Then we write to the internal formatter from the buffer
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self.fmt.write_str(&self.buf).map_err(HirDisplayError::from)
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}
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pub fn should_truncate(&self) -> bool {
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if let Some(max_size) = self.max_size {
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self.curr_size >= max_size
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} else {
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false
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}
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}
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pub fn omit_verbose_types(&self) -> bool {
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self.omit_verbose_types
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}
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}
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#[derive(Clone, Copy)]
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pub enum DisplayTarget {
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/// Display types for inlays, doc popups, autocompletion, etc...
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/// Showing `{unknown}` or not qualifying paths is fine here.
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/// There's no reason for this to fail.
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Diagnostics,
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/// Display types for inserting them in source files.
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/// The generated code should compile, so paths need to be qualified.
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SourceCode { module_id: ModuleId },
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/// Only for test purpose to keep real types
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Test,
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}
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impl DisplayTarget {
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fn is_source_code(&self) -> bool {
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matches!(self, Self::SourceCode { .. })
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}
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fn is_test(&self) -> bool {
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matches!(self, Self::Test)
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}
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}
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#[derive(Debug)]
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pub enum DisplaySourceCodeError {
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PathNotFound,
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UnknownType,
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}
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pub enum HirDisplayError {
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/// Errors that can occur when generating source code
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DisplaySourceCodeError(DisplaySourceCodeError),
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/// `FmtError` is required to be compatible with std::fmt::Display
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FmtError,
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}
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impl From<fmt::Error> for HirDisplayError {
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fn from(_: fmt::Error) -> Self {
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Self::FmtError
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}
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}
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pub struct HirDisplayWrapper<'a, T> {
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db: &'a dyn HirDatabase,
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t: &'a T,
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max_size: Option<usize>,
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omit_verbose_types: bool,
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display_target: DisplayTarget,
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}
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impl<'a, T> fmt::Display for HirDisplayWrapper<'a, T>
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where
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T: HirDisplay,
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{
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fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
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match self.t.hir_fmt(&mut HirFormatter {
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db: self.db,
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fmt: f,
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buf: String::with_capacity(20),
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curr_size: 0,
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max_size: self.max_size,
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omit_verbose_types: self.omit_verbose_types,
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display_target: self.display_target,
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}) {
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Ok(()) => Ok(()),
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Err(HirDisplayError::FmtError) => Err(fmt::Error),
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Err(HirDisplayError::DisplaySourceCodeError(_)) => {
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// This should never happen
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panic!("HirDisplay failed when calling Display::fmt!")
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}
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}
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}
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}
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const TYPE_HINT_TRUNCATION: &str = "…";
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impl HirDisplay for &Ty {
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fn hir_fmt(&self, f: &mut HirFormatter) -> Result<(), HirDisplayError> {
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HirDisplay::hir_fmt(*self, f)
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}
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}
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impl HirDisplay for ProjectionTy {
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fn hir_fmt(&self, f: &mut HirFormatter) -> Result<(), HirDisplayError> {
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if f.should_truncate() {
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return write!(f, "{}", TYPE_HINT_TRUNCATION);
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}
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let trait_ = f.db.trait_data(self.trait_(f.db));
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let first_parameter = self.parameters[0].into_displayable(
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f.db,
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f.max_size,
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f.omit_verbose_types,
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f.display_target,
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);
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write!(f, "<{} as {}", first_parameter, trait_.name)?;
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if self.parameters.len() > 1 {
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write!(f, "<")?;
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f.write_joined(&self.parameters[1..], ", ")?;
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write!(f, ">")?;
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}
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write!(f, ">::{}", f.db.type_alias_data(self.associated_ty).name)?;
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Ok(())
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}
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}
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impl HirDisplay for Ty {
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fn hir_fmt(&self, f: &mut HirFormatter) -> Result<(), HirDisplayError> {
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if f.should_truncate() {
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return write!(f, "{}", TYPE_HINT_TRUNCATION);
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}
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match self.interned(&Interner) {
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TyKind::Never => write!(f, "!")?,
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TyKind::Str => write!(f, "str")?,
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TyKind::Scalar(Scalar::Bool) => write!(f, "bool")?,
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TyKind::Scalar(Scalar::Char) => write!(f, "char")?,
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&TyKind::Scalar(Scalar::Float(t)) => write!(f, "{}", primitive::float_ty_to_string(t))?,
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&TyKind::Scalar(Scalar::Int(t)) => write!(f, "{}", primitive::int_ty_to_string(t))?,
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&TyKind::Scalar(Scalar::Uint(t)) => write!(f, "{}", primitive::uint_ty_to_string(t))?,
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TyKind::Slice(parameters) => {
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let t = parameters.as_single();
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write!(f, "[")?;
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t.hir_fmt(f)?;
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write!(f, "]")?;
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}
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TyKind::Array(parameters) => {
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let t = parameters.as_single();
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write!(f, "[")?;
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t.hir_fmt(f)?;
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write!(f, "; _]")?;
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}
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TyKind::Raw(m, parameters) | TyKind::Ref(m, parameters) => {
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let t = parameters.as_single();
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let ty_display =
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t.into_displayable(f.db, f.max_size, f.omit_verbose_types, f.display_target);
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if matches!(self.interned(&Interner), TyKind::Raw(..)) {
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write!(
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f,
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"*{}",
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match m {
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Mutability::Not => "const ",
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Mutability::Mut => "mut ",
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}
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)?;
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} else {
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write!(
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f,
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"&{}",
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match m {
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Mutability::Not => "",
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Mutability::Mut => "mut ",
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}
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)?;
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}
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let datas;
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let predicates = match t.interned(&Interner) {
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TyKind::Dyn(predicates) if predicates.len() > 1 => {
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Cow::Borrowed(predicates.as_ref())
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}
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&TyKind::Alias(AliasTy::Opaque(OpaqueTy {
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opaque_ty_id: OpaqueTyId::ReturnTypeImplTrait(func, idx),
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ref parameters,
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})) => {
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datas =
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f.db.return_type_impl_traits(func).expect("impl trait id without data");
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let data = (*datas)
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.as_ref()
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.map(|rpit| rpit.impl_traits[idx as usize].bounds.clone());
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let bounds = data.subst(parameters);
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Cow::Owned(bounds.value)
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}
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_ => Cow::Borrowed(&[][..]),
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};
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if let [GenericPredicate::Implemented(trait_ref), _] = predicates.as_ref() {
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let trait_ = trait_ref.trait_;
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if fn_traits(f.db.upcast(), trait_).any(|it| it == trait_) {
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return write!(f, "{}", ty_display);
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}
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}
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if predicates.len() > 1 {
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write!(f, "(")?;
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write!(f, "{}", ty_display)?;
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write!(f, ")")?;
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} else {
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write!(f, "{}", ty_display)?;
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}
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}
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TyKind::Tuple(_, substs) => {
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if substs.len() == 1 {
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write!(f, "(")?;
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substs[0].hir_fmt(f)?;
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write!(f, ",)")?;
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} else {
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write!(f, "(")?;
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f.write_joined(&*substs.0, ", ")?;
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write!(f, ")")?;
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}
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}
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TyKind::Function(fn_ptr) => {
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let sig = CallableSig::from_fn_ptr(fn_ptr);
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sig.hir_fmt(f)?;
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}
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TyKind::FnDef(def, parameters) => {
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let def = *def;
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let sig = f.db.callable_item_signature(def).subst(parameters);
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match def {
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CallableDefId::FunctionId(ff) => {
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write!(f, "fn {}", f.db.function_data(ff).name)?
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}
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CallableDefId::StructId(s) => write!(f, "{}", f.db.struct_data(s).name)?,
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CallableDefId::EnumVariantId(e) => {
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write!(f, "{}", f.db.enum_data(e.parent).variants[e.local_id].name)?
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}
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};
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if parameters.len() > 0 {
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let generics = generics(f.db.upcast(), def.into());
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let (parent_params, self_param, type_params, _impl_trait_params) =
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generics.provenance_split();
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let total_len = parent_params + self_param + type_params;
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// We print all params except implicit impl Trait params. Still a bit weird; should we leave out parent and self?
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if total_len > 0 {
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write!(f, "<")?;
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f.write_joined(¶meters.0[..total_len], ", ")?;
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write!(f, ">")?;
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}
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}
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write!(f, "(")?;
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f.write_joined(sig.params(), ", ")?;
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write!(f, ")")?;
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let ret = sig.ret();
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if *ret != Ty::unit() {
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let ret_display = ret.into_displayable(
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f.db,
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f.max_size,
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f.omit_verbose_types,
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f.display_target,
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);
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write!(f, " -> {}", ret_display)?;
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}
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}
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TyKind::Adt(AdtId(def_id), parameters) => {
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match f.display_target {
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DisplayTarget::Diagnostics | DisplayTarget::Test => {
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let name = match *def_id {
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hir_def::AdtId::StructId(it) => f.db.struct_data(it).name.clone(),
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hir_def::AdtId::UnionId(it) => f.db.union_data(it).name.clone(),
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hir_def::AdtId::EnumId(it) => f.db.enum_data(it).name.clone(),
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};
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write!(f, "{}", name)?;
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}
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DisplayTarget::SourceCode { module_id } => {
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if let Some(path) = find_path::find_path(
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f.db.upcast(),
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ItemInNs::Types((*def_id).into()),
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module_id,
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) {
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write!(f, "{}", path)?;
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} else {
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return Err(HirDisplayError::DisplaySourceCodeError(
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DisplaySourceCodeError::PathNotFound,
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));
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}
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}
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}
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|
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if parameters.len() > 0 {
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let parameters_to_write = if f.display_target.is_source_code()
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|| f.omit_verbose_types()
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{
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match self
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.as_generic_def()
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.map(|generic_def_id| f.db.generic_defaults(generic_def_id))
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.filter(|defaults| !defaults.is_empty())
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{
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None => parameters.0.as_ref(),
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Some(default_parameters) => {
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let mut default_from = 0;
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for (i, parameter) in parameters.iter().enumerate() {
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match (parameter.interned(&Interner), default_parameters.get(i))
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{
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(&TyKind::Unknown, _) | (_, None) => {
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default_from = i + 1;
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}
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(_, Some(default_parameter)) => {
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let actual_default = default_parameter
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.clone()
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.subst(¶meters.prefix(i));
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if parameter != &actual_default {
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default_from = i + 1;
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}
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}
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}
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}
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¶meters.0[0..default_from]
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}
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}
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} else {
|
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parameters.0.as_ref()
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};
|
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if !parameters_to_write.is_empty() {
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write!(f, "<")?;
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f.write_joined(parameters_to_write, ", ")?;
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write!(f, ">")?;
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}
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}
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}
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|
TyKind::AssociatedType(type_alias, parameters) => {
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let trait_ = match type_alias.lookup(f.db.upcast()).container {
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AssocContainerId::TraitId(it) => it,
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_ => panic!("not an associated type"),
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};
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let trait_ = f.db.trait_data(trait_);
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let type_alias_data = f.db.type_alias_data(*type_alias);
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|
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// Use placeholder associated types when the target is test (https://rust-lang.github.io/chalk/book/clauses/type_equality.html#placeholder-associated-types)
|
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if f.display_target.is_test() {
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write!(f, "{}::{}", trait_.name, type_alias_data.name)?;
|
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if parameters.len() > 0 {
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write!(f, "<")?;
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f.write_joined(&*parameters.0, ", ")?;
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write!(f, ">")?;
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}
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} else {
|
|
let projection_ty =
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ProjectionTy { associated_ty: *type_alias, parameters: parameters.clone() };
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|
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projection_ty.hir_fmt(f)?;
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}
|
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}
|
|
TyKind::ForeignType(type_alias) => {
|
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let type_alias = f.db.type_alias_data(from_foreign_def_id(*type_alias));
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write!(f, "{}", type_alias.name)?;
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}
|
|
TyKind::OpaqueType(opaque_ty_id, parameters) => {
|
|
match opaque_ty_id {
|
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&OpaqueTyId::ReturnTypeImplTrait(func, idx) => {
|
|
let datas =
|
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f.db.return_type_impl_traits(func).expect("impl trait id without data");
|
|
let data = (*datas)
|
|
.as_ref()
|
|
.map(|rpit| rpit.impl_traits[idx as usize].bounds.clone());
|
|
let bounds = data.subst(¶meters);
|
|
write_bounds_like_dyn_trait_with_prefix("impl", &bounds.value, f)?;
|
|
// FIXME: it would maybe be good to distinguish this from the alias type (when debug printing), and to show the substitution
|
|
}
|
|
OpaqueTyId::AsyncBlockTypeImplTrait(..) => {
|
|
write!(f, "impl Future<Output = ")?;
|
|
parameters[0].hir_fmt(f)?;
|
|
write!(f, ">")?;
|
|
}
|
|
}
|
|
}
|
|
TyKind::Closure(.., substs) => {
|
|
let sig = substs[0].callable_sig(f.db);
|
|
if let Some(sig) = sig {
|
|
if sig.params().is_empty() {
|
|
write!(f, "||")?;
|
|
} else if f.omit_verbose_types() {
|
|
write!(f, "|{}|", TYPE_HINT_TRUNCATION)?;
|
|
} else {
|
|
write!(f, "|")?;
|
|
f.write_joined(sig.params(), ", ")?;
|
|
write!(f, "|")?;
|
|
};
|
|
|
|
let ret_display = sig.ret().into_displayable(
|
|
f.db,
|
|
f.max_size,
|
|
f.omit_verbose_types,
|
|
f.display_target,
|
|
);
|
|
write!(f, " -> {}", ret_display)?;
|
|
} else {
|
|
write!(f, "{{closure}}")?;
|
|
}
|
|
}
|
|
TyKind::Placeholder(id) => {
|
|
let generics = generics(f.db.upcast(), id.parent);
|
|
let param_data = &generics.params.types[id.local_id];
|
|
match param_data.provenance {
|
|
TypeParamProvenance::TypeParamList | TypeParamProvenance::TraitSelf => {
|
|
write!(f, "{}", param_data.name.clone().unwrap_or_else(Name::missing))?
|
|
}
|
|
TypeParamProvenance::ArgumentImplTrait => {
|
|
let bounds = f.db.generic_predicates_for_param(*id);
|
|
let substs = Substs::type_params_for_generics(&generics);
|
|
write_bounds_like_dyn_trait_with_prefix(
|
|
"impl",
|
|
&bounds.iter().map(|b| b.clone().subst(&substs)).collect::<Vec<_>>(),
|
|
f,
|
|
)?;
|
|
}
|
|
}
|
|
}
|
|
TyKind::BoundVar(idx) => write!(f, "?{}.{}", idx.debruijn.depth(), idx.index)?,
|
|
TyKind::Dyn(predicates) => {
|
|
write_bounds_like_dyn_trait_with_prefix("dyn", predicates, f)?;
|
|
}
|
|
TyKind::Alias(AliasTy::Projection(p_ty)) => p_ty.hir_fmt(f)?,
|
|
TyKind::Alias(AliasTy::Opaque(opaque_ty)) => {
|
|
match opaque_ty.opaque_ty_id {
|
|
OpaqueTyId::ReturnTypeImplTrait(func, idx) => {
|
|
let datas =
|
|
f.db.return_type_impl_traits(func).expect("impl trait id without data");
|
|
let data = (*datas)
|
|
.as_ref()
|
|
.map(|rpit| rpit.impl_traits[idx as usize].bounds.clone());
|
|
let bounds = data.subst(&opaque_ty.parameters);
|
|
write_bounds_like_dyn_trait_with_prefix("impl", &bounds.value, f)?;
|
|
}
|
|
OpaqueTyId::AsyncBlockTypeImplTrait(..) => {
|
|
write!(f, "{{async block}}")?;
|
|
}
|
|
};
|
|
}
|
|
TyKind::Unknown => {
|
|
if f.display_target.is_source_code() {
|
|
return Err(HirDisplayError::DisplaySourceCodeError(
|
|
DisplaySourceCodeError::UnknownType,
|
|
));
|
|
}
|
|
write!(f, "{{unknown}}")?;
|
|
}
|
|
TyKind::InferenceVar(..) => write!(f, "_")?,
|
|
}
|
|
Ok(())
|
|
}
|
|
}
|
|
|
|
impl HirDisplay for CallableSig {
|
|
fn hir_fmt(&self, f: &mut HirFormatter) -> Result<(), HirDisplayError> {
|
|
write!(f, "fn(")?;
|
|
f.write_joined(self.params(), ", ")?;
|
|
if self.is_varargs {
|
|
if self.params().is_empty() {
|
|
write!(f, "...")?;
|
|
} else {
|
|
write!(f, ", ...")?;
|
|
}
|
|
}
|
|
write!(f, ")")?;
|
|
let ret = self.ret();
|
|
if *ret != Ty::unit() {
|
|
let ret_display =
|
|
ret.into_displayable(f.db, f.max_size, f.omit_verbose_types, f.display_target);
|
|
write!(f, " -> {}", ret_display)?;
|
|
}
|
|
Ok(())
|
|
}
|
|
}
|
|
|
|
fn fn_traits(db: &dyn DefDatabase, trait_: TraitId) -> impl Iterator<Item = TraitId> {
|
|
let krate = trait_.lookup(db).container.krate();
|
|
let fn_traits = [
|
|
db.lang_item(krate, "fn".into()),
|
|
db.lang_item(krate, "fn_mut".into()),
|
|
db.lang_item(krate, "fn_once".into()),
|
|
];
|
|
// FIXME: Replace ArrayVec when into_iter is a thing on arrays
|
|
ArrayVec::from(fn_traits).into_iter().flatten().flat_map(|it| it.as_trait())
|
|
}
|
|
|
|
pub fn write_bounds_like_dyn_trait_with_prefix(
|
|
prefix: &str,
|
|
predicates: &[GenericPredicate],
|
|
f: &mut HirFormatter,
|
|
) -> Result<(), HirDisplayError> {
|
|
write!(f, "{}", prefix)?;
|
|
if !predicates.is_empty() {
|
|
write!(f, " ")?;
|
|
write_bounds_like_dyn_trait(predicates, f)
|
|
} else {
|
|
Ok(())
|
|
}
|
|
}
|
|
|
|
fn write_bounds_like_dyn_trait(
|
|
predicates: &[GenericPredicate],
|
|
f: &mut HirFormatter,
|
|
) -> Result<(), HirDisplayError> {
|
|
// Note: This code is written to produce nice results (i.e.
|
|
// corresponding to surface Rust) for types that can occur in
|
|
// actual Rust. It will have weird results if the predicates
|
|
// aren't as expected (i.e. self types = $0, projection
|
|
// predicates for a certain trait come after the Implemented
|
|
// predicate for that trait).
|
|
let mut first = true;
|
|
let mut angle_open = false;
|
|
let mut is_fn_trait = false;
|
|
for p in predicates.iter() {
|
|
match p {
|
|
GenericPredicate::Implemented(trait_ref) => {
|
|
let trait_ = trait_ref.trait_;
|
|
if !is_fn_trait {
|
|
is_fn_trait = fn_traits(f.db.upcast(), trait_).any(|it| it == trait_);
|
|
}
|
|
if !is_fn_trait && angle_open {
|
|
write!(f, ">")?;
|
|
angle_open = false;
|
|
}
|
|
if !first {
|
|
write!(f, " + ")?;
|
|
}
|
|
// We assume that the self type is $0 (i.e. the
|
|
// existential) here, which is the only thing that's
|
|
// possible in actual Rust, and hence don't print it
|
|
write!(f, "{}", f.db.trait_data(trait_).name)?;
|
|
if let [_, params @ ..] = &*trait_ref.substs.0 {
|
|
if is_fn_trait {
|
|
if let Some(args) = params.first().and_then(|it| it.as_tuple()) {
|
|
write!(f, "(")?;
|
|
f.write_joined(&*args.0, ", ")?;
|
|
write!(f, ")")?;
|
|
}
|
|
} else if !params.is_empty() {
|
|
write!(f, "<")?;
|
|
f.write_joined(params, ", ")?;
|
|
// there might be assoc type bindings, so we leave the angle brackets open
|
|
angle_open = true;
|
|
}
|
|
}
|
|
}
|
|
GenericPredicate::Projection(projection_pred) if is_fn_trait => {
|
|
is_fn_trait = false;
|
|
write!(f, " -> ")?;
|
|
projection_pred.ty.hir_fmt(f)?;
|
|
}
|
|
GenericPredicate::Projection(projection_pred) => {
|
|
// in types in actual Rust, these will always come
|
|
// after the corresponding Implemented predicate
|
|
if angle_open {
|
|
write!(f, ", ")?;
|
|
} else {
|
|
write!(f, "<")?;
|
|
angle_open = true;
|
|
}
|
|
let type_alias = f.db.type_alias_data(projection_pred.projection_ty.associated_ty);
|
|
write!(f, "{} = ", type_alias.name)?;
|
|
projection_pred.ty.hir_fmt(f)?;
|
|
}
|
|
GenericPredicate::Error => {
|
|
if angle_open {
|
|
// impl Trait<X, {error}>
|
|
write!(f, ", ")?;
|
|
} else if !first {
|
|
// impl Trait + {error}
|
|
write!(f, " + ")?;
|
|
}
|
|
p.hir_fmt(f)?;
|
|
}
|
|
}
|
|
first = false;
|
|
}
|
|
if angle_open {
|
|
write!(f, ">")?;
|
|
}
|
|
Ok(())
|
|
}
|
|
|
|
impl TraitRef {
|
|
fn hir_fmt_ext(&self, f: &mut HirFormatter, use_as: bool) -> Result<(), HirDisplayError> {
|
|
if f.should_truncate() {
|
|
return write!(f, "{}", TYPE_HINT_TRUNCATION);
|
|
}
|
|
|
|
self.substs[0].hir_fmt(f)?;
|
|
if use_as {
|
|
write!(f, " as ")?;
|
|
} else {
|
|
write!(f, ": ")?;
|
|
}
|
|
write!(f, "{}", f.db.trait_data(self.trait_).name)?;
|
|
if self.substs.len() > 1 {
|
|
write!(f, "<")?;
|
|
f.write_joined(&self.substs[1..], ", ")?;
|
|
write!(f, ">")?;
|
|
}
|
|
Ok(())
|
|
}
|
|
}
|
|
|
|
impl HirDisplay for TraitRef {
|
|
fn hir_fmt(&self, f: &mut HirFormatter) -> Result<(), HirDisplayError> {
|
|
self.hir_fmt_ext(f, false)
|
|
}
|
|
}
|
|
|
|
impl HirDisplay for &GenericPredicate {
|
|
fn hir_fmt(&self, f: &mut HirFormatter) -> Result<(), HirDisplayError> {
|
|
HirDisplay::hir_fmt(*self, f)
|
|
}
|
|
}
|
|
|
|
impl HirDisplay for GenericPredicate {
|
|
fn hir_fmt(&self, f: &mut HirFormatter) -> Result<(), HirDisplayError> {
|
|
if f.should_truncate() {
|
|
return write!(f, "{}", TYPE_HINT_TRUNCATION);
|
|
}
|
|
|
|
match self {
|
|
GenericPredicate::Implemented(trait_ref) => trait_ref.hir_fmt(f)?,
|
|
GenericPredicate::Projection(projection_pred) => {
|
|
write!(f, "<")?;
|
|
projection_pred.projection_ty.trait_ref(f.db).hir_fmt_ext(f, true)?;
|
|
write!(
|
|
f,
|
|
">::{} = ",
|
|
f.db.type_alias_data(projection_pred.projection_ty.associated_ty).name,
|
|
)?;
|
|
projection_pred.ty.hir_fmt(f)?;
|
|
}
|
|
GenericPredicate::Error => write!(f, "{{error}}")?,
|
|
}
|
|
Ok(())
|
|
}
|
|
}
|
|
|
|
impl HirDisplay for Lifetime {
|
|
fn hir_fmt(&self, f: &mut HirFormatter) -> Result<(), HirDisplayError> {
|
|
match self {
|
|
Lifetime::Parameter(id) => {
|
|
let generics = generics(f.db.upcast(), id.parent);
|
|
let param_data = &generics.params.lifetimes[id.local_id];
|
|
write!(f, "{}", ¶m_data.name)
|
|
}
|
|
Lifetime::Static => write!(f, "'static"),
|
|
}
|
|
}
|
|
}
|
|
|
|
impl HirDisplay for Obligation {
|
|
fn hir_fmt(&self, f: &mut HirFormatter) -> Result<(), HirDisplayError> {
|
|
match self {
|
|
Obligation::Trait(tr) => {
|
|
write!(f, "Implements(")?;
|
|
tr.hir_fmt(f)?;
|
|
write!(f, ")")
|
|
}
|
|
Obligation::Projection(proj) => {
|
|
write!(f, "Normalize(")?;
|
|
proj.projection_ty.hir_fmt(f)?;
|
|
write!(f, " => ")?;
|
|
proj.ty.hir_fmt(f)?;
|
|
write!(f, ")")
|
|
}
|
|
}
|
|
}
|
|
}
|