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//! FIXME: write short doc here
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use std ::{
array ,
fmt ::{ self , Debug } ,
} ;
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use chalk_ir ::BoundVar ;
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use hir_def ::{
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db ::DefDatabase ,
find_path ,
generics ::TypeParamProvenance ,
item_scope ::ItemInNs ,
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path ::{ Path , PathKind } ,
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type_ref ::{ TypeBound , TypeRef } ,
visibility ::Visibility ,
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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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const_from_placeholder_idx , db ::HirDatabase , from_assoc_type_id , from_foreign_def_id ,
from_placeholder_idx , lt_from_placeholder_idx , primitive , subst_prefix , to_assoc_type_id ,
traits ::chalk ::from_chalk , utils ::generics , AdtId , AliasEq , AliasTy , CallableDefId ,
CallableSig , Const , ConstValue , DomainGoal , GenericArg , ImplTraitId , Interner , Lifetime ,
LifetimeData , LifetimeOutlives , Mutability , OpaqueTy , ProjectionTy , ProjectionTyExt ,
QuantifiedWhereClause , Scalar , TraitRef , Ty , TyExt , TyKind , WhereClause ,
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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 ,
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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}
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.
fn into_displayable < ' a > (
& ' a self ,
db : & ' a dyn HirDatabase ,
max_size : Option < usize > ,
omit_verbose_types : bool ,
display_target : DisplayTarget ,
) -> HirDisplayWrapper < ' a , Self >
where
Self : Sized ,
{
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assert! (
! matches! ( display_target , DisplayTarget ::SourceCode { .. } ) ,
" HirDisplayWrapper cannot fail with DisplaySourceCodeError, use HirDisplay::hir_fmt directly instead "
) ;
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HirDisplayWrapper { db , t : self , max_size , omit_verbose_types , display_target }
}
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/// Returns a `Display`able type that is human-readable.
/// 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
Self : Sized ,
{
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HirDisplayWrapper {
db ,
t : self ,
max_size : None ,
omit_verbose_types : false ,
display_target : DisplayTarget ::Diagnostics ,
}
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}
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/// Returns a `Display`able type that is human-readable and tries to be succinct.
/// 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
Self : Sized ,
{
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HirDisplayWrapper {
db ,
t : self ,
max_size ,
omit_verbose_types : true ,
display_target : DisplayTarget ::Diagnostics ,
}
}
/// Returns a String representation of `self` that can be inserted into the given module.
/// Use this when generating code (e.g. assists)
fn display_source_code < ' a > (
& ' a self ,
db : & ' a dyn HirDatabase ,
module_id : ModuleId ,
) -> Result < String , DisplaySourceCodeError > {
let mut result = String ::new ( ) ;
match self . hir_fmt ( & mut HirFormatter {
db ,
fmt : & mut result ,
buf : String ::with_capacity ( 20 ) ,
curr_size : 0 ,
max_size : None ,
omit_verbose_types : false ,
display_target : DisplayTarget ::SourceCode { module_id } ,
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} ) {
Ok ( ( ) ) = > { }
Err ( HirDisplayError ::FmtError ) = > panic! ( " Writing to String can't fail! " ) ,
Err ( HirDisplayError ::DisplaySourceCodeError ( e ) ) = > return Err ( e ) ,
} ;
Ok ( result )
}
/// 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 >
where
Self : Sized ,
{
HirDisplayWrapper {
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db ,
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t : self ,
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max_size : None ,
omit_verbose_types : false ,
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display_target : DisplayTarget ::Test ,
}
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}
}
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impl < ' a > HirFormatter < ' a > {
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pub fn write_joined < T : HirDisplay > (
& mut self ,
iter : impl IntoIterator < Item = T > ,
sep : & str ,
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) -> Result < ( ) , HirDisplayError > {
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let mut first = true ;
for e in iter {
if ! first {
write! ( self , " {} " , sep ) ? ;
}
first = false ;
e . hir_fmt ( self ) ? ;
}
Ok ( ( ) )
}
/// 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
self . buf . clear ( ) ;
fmt ::write ( & mut self . buf , args ) ? ;
self . curr_size + = self . buf . len ( ) ;
// 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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}
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
} else {
false
}
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}
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pub fn omit_verbose_types ( & self ) -> bool {
self . omit_verbose_types
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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...
/// Showing `{unknown}` or not qualifying paths is fine here.
/// There's no reason for this to fail.
Diagnostics ,
/// Display types for inserting them in source files.
/// The generated code should compile, so paths need to be qualified.
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 {
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) ]
pub enum DisplaySourceCodeError {
PathNotFound ,
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UnknownType ,
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Closure ,
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}
pub enum HirDisplayError {
/// Errors that can occur when generating source code
DisplaySourceCodeError ( DisplaySourceCodeError ) ,
/// `FmtError` is required to be compatible with std::fmt::Display
FmtError ,
}
impl From < fmt ::Error > for HirDisplayError {
fn from ( _ : fmt ::Error ) -> Self {
Self ::FmtError
}
}
pub struct HirDisplayWrapper < ' a , T > {
db : & ' a dyn HirDatabase ,
t : & ' a T ,
max_size : Option < usize > ,
omit_verbose_types : bool ,
display_target : DisplayTarget ,
}
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impl < ' a , T > fmt ::Display for HirDisplayWrapper < ' a , T >
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where
T : HirDisplay ,
{
fn fmt ( & self , f : & mut fmt ::Formatter ) -> fmt ::Result {
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match self . t . hir_fmt ( & mut HirFormatter {
db : self . db ,
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fmt : f ,
buf : String ::with_capacity ( 20 ) ,
curr_size : 0 ,
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max_size : self . max_size ,
omit_verbose_types : self . omit_verbose_types ,
display_target : self . display_target ,
} ) {
Ok ( ( ) ) = > Ok ( ( ) ) ,
Err ( HirDisplayError ::FmtError ) = > Err ( fmt ::Error ) ,
Err ( HirDisplayError ::DisplaySourceCodeError ( _ ) ) = > {
// This should never happen
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panic! ( " HirDisplay::hir_fmt failed with DisplaySourceCodeError when calling Display::fmt! " )
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}
}
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}
}
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const TYPE_HINT_TRUNCATION : & str = " … " ;
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impl < T : HirDisplay > HirDisplay for & '_ T {
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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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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 ( ) {
return write! ( f , " {} " , TYPE_HINT_TRUNCATION ) ;
}
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let trait_ = f . db . trait_data ( self . trait_ ( f . db ) ) ;
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write! ( f , " < " ) ? ;
self . self_type_parameter ( & Interner ) . hir_fmt ( f ) ? ;
write! ( f , " as {} " , trait_ . name ) ? ;
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if self . substitution . len ( & Interner ) > 1 {
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write! ( f , " < " ) ? ;
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f . write_joined ( & self . substitution . interned ( ) [ 1 .. ] , " , " ) ? ;
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write! ( f , " > " ) ? ;
}
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write! ( f , " >::{} " , f . db . type_alias_data ( from_assoc_type_id ( self . associated_ty_id ) ) . name ) ? ;
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Ok ( ( ) )
}
}
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impl HirDisplay for OpaqueTy {
fn hir_fmt ( & self , f : & mut HirFormatter ) -> Result < ( ) , HirDisplayError > {
if f . should_truncate ( ) {
return write! ( f , " {} " , TYPE_HINT_TRUNCATION ) ;
}
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self . substitution . at ( & Interner , 0 ) . hir_fmt ( f )
}
}
impl HirDisplay for GenericArg {
fn hir_fmt ( & self , f : & mut HirFormatter ) -> Result < ( ) , HirDisplayError > {
match self . interned ( ) {
crate ::GenericArgData ::Ty ( ty ) = > ty . hir_fmt ( f ) ,
}
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}
}
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impl HirDisplay for Const {
fn hir_fmt ( & self , f : & mut HirFormatter ) -> Result < ( ) , HirDisplayError > {
let data = self . interned ( ) ;
match data . value {
ConstValue ::BoundVar ( idx ) = > idx . hir_fmt ( f ) ,
ConstValue ::InferenceVar ( .. ) = > write! ( f , " _ " ) ,
ConstValue ::Placeholder ( idx ) = > {
let id = const_from_placeholder_idx ( f . db , idx ) ;
let generics = generics ( f . db . upcast ( ) , id . parent ) ;
let param_data = & generics . params . consts [ id . local_id ] ;
write! ( f , " {} " , param_data . name )
}
ConstValue ::Concrete ( _ ) = > write! ( f , " _ " ) ,
}
}
}
impl HirDisplay for BoundVar {
fn hir_fmt ( & self , f : & mut HirFormatter ) -> Result < ( ) , HirDisplayError > {
write! ( f , " ?{}.{} " , self . debruijn . depth ( ) , self . index )
}
}
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impl HirDisplay for Ty {
fn hir_fmt ( & self , f : & mut HirFormatter ) -> Result < ( ) , HirDisplayError > {
if f . should_truncate ( ) {
return write! ( f , " {} " , TYPE_HINT_TRUNCATION ) ;
}
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match self . kind ( & Interner ) {
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TyKind ::Never = > write! ( f , " ! " ) ? ,
TyKind ::Str = > write! ( f , " str " ) ? ,
TyKind ::Scalar ( Scalar ::Bool ) = > write! ( f , " bool " ) ? ,
TyKind ::Scalar ( Scalar ::Char ) = > write! ( f , " char " ) ? ,
& TyKind ::Scalar ( Scalar ::Float ( t ) ) = > write! ( f , " {} " , primitive ::float_ty_to_string ( t ) ) ? ,
& TyKind ::Scalar ( Scalar ::Int ( t ) ) = > write! ( f , " {} " , primitive ::int_ty_to_string ( t ) ) ? ,
& TyKind ::Scalar ( Scalar ::Uint ( t ) ) = > write! ( f , " {} " , primitive ::uint_ty_to_string ( t ) ) ? ,
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TyKind ::Slice ( t ) = > {
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write! ( f , " [ " ) ? ;
t . hir_fmt ( f ) ? ;
write! ( f , " ] " ) ? ;
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}
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TyKind ::Array ( t , c ) = > {
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write! ( f , " [ " ) ? ;
t . hir_fmt ( f ) ? ;
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write! ( f , " ; " ) ? ;
c . hir_fmt ( f ) ? ;
write! ( f , " ] " ) ? ;
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}
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TyKind ::Raw ( m , t ) | TyKind ::Ref ( m , _ , t ) = > {
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if matches! ( self . kind ( & Interner ) , TyKind ::Raw ( .. ) ) {
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write! (
f ,
" *{} " ,
match m {
Mutability ::Not = > " const " ,
Mutability ::Mut = > " mut " ,
}
) ? ;
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} else {
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write! (
f ,
" &{} " ,
match m {
Mutability ::Not = > " " ,
Mutability ::Mut = > " mut " ,
}
) ? ;
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}
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// FIXME: all this just to decide whether to use parentheses...
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let datas ;
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let predicates : Vec < _ > = match t . kind ( & Interner ) {
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TyKind ::Dyn ( dyn_ty ) if dyn_ty . bounds . skip_binders ( ) . interned ( ) . len ( ) > 1 = > {
dyn_ty . bounds . skip_binders ( ) . interned ( ) . iter ( ) . cloned ( ) . collect ( )
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}
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& TyKind ::Alias ( AliasTy ::Opaque ( OpaqueTy {
opaque_ty_id ,
substitution : ref parameters ,
} ) ) = > {
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let impl_trait_id = f . db . lookup_intern_impl_trait_id ( opaque_ty_id . into ( ) ) ;
if let ImplTraitId ::ReturnTypeImplTrait ( func , idx ) = impl_trait_id {
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 ( ) ) ;
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let bounds = data . substitute ( & Interner , parameters ) ;
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bounds . into_value_and_skipped_binders ( ) . 0
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} else {
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Vec ::new ( )
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}
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}
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_ = > Vec ::new ( ) ,
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} ;
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if let Some ( WhereClause ::Implemented ( trait_ref ) ) =
predicates . get ( 0 ) . map ( | b | b . skip_binders ( ) )
{
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let trait_ = trait_ref . hir_trait_id ( ) ;
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if fn_traits ( f . db . upcast ( ) , trait_ ) . any ( | it | it = = trait_ )
& & predicates . len ( ) < = 2
{
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return t . hir_fmt ( f ) ;
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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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t . hir_fmt ( f ) ? ;
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write! ( f , " ) " ) ? ;
} else {
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t . hir_fmt ( f ) ? ;
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}
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}
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TyKind ::Tuple ( _ , substs ) = > {
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if substs . len ( & Interner ) = = 1 {
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write! ( f , " ( " ) ? ;
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substs . at ( & Interner , 0 ) . hir_fmt ( f ) ? ;
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write! ( f , " ,) " ) ? ;
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} else {
write! ( f , " ( " ) ? ;
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f . write_joined ( & * substs . interned ( ) , " , " ) ? ;
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write! ( f , " ) " ) ? ;
}
}
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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 = from_chalk ( f . db , * def ) ;
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let sig = f . db . callable_item_signature ( def ) . substitute ( & Interner , parameters ) ;
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match def {
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CallableDefId ::FunctionId ( ff ) = > {
write! ( f , " fn {} " , f . db . function_data ( ff ) . name ) ?
}
CallableDefId ::StructId ( s ) = > write! ( f , " {} " , f . db . struct_data ( s ) . name ) ? ,
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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if parameters . len ( & Interner ) > 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 ) =
generics . provenance_split ( ) ;
let total_len = parent_params + self_param + type_params ;
// We print all params except implicit impl Trait params. Still a bit weird; should we leave out parent and self?
if total_len > 0 {
write! ( f , " < " ) ? ;
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f . write_joined ( & parameters . interned ( ) [ .. total_len ] , " , " ) ? ;
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write! ( f , " > " ) ? ;
}
}
write! ( f , " ( " ) ? ;
f . write_joined ( sig . params ( ) , " , " ) ? ;
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write! ( f , " ) " ) ? ;
let ret = sig . ret ( ) ;
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if ! ret . is_unit ( ) {
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write! ( f , " -> " ) ? ;
ret . hir_fmt ( f ) ? ;
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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 ( ) ,
hir_def ::AdtId ::UnionId ( it ) = > f . db . union_data ( it ) . name . clone ( ) ,
hir_def ::AdtId ::EnumId ( it ) = > f . db . enum_data ( it ) . name . clone ( ) ,
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} ;
write! ( f , " {} " , name ) ? ;
}
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DisplayTarget ::SourceCode { module_id } = > {
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if let Some ( path ) = find_path ::find_path (
f . db . upcast ( ) ,
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ItemInNs ::Types ( ( * def_id ) . into ( ) ) ,
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module_id ,
) {
write! ( f , " {} " , path ) ? ;
} else {
return Err ( HirDisplayError ::DisplaySourceCodeError (
DisplaySourceCodeError ::PathNotFound ,
) ) ;
}
}
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}
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if parameters . len ( & Interner ) > 0 {
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let parameters_to_write = if f . display_target . is_source_code ( )
| | f . omit_verbose_types ( )
{
match self
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. as_generic_def ( f . db )
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. map ( | generic_def_id | f . db . generic_defaults ( generic_def_id ) )
. filter ( | defaults | ! defaults . is_empty ( ) )
{
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None = > parameters . interned ( ) . as_ref ( ) ,
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Some ( default_parameters ) = > {
let mut default_from = 0 ;
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for ( i , parameter ) in parameters . iter ( & Interner ) . enumerate ( ) {
match (
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parameter . assert_ty_ref ( & Interner ) . kind ( & Interner ) ,
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default_parameters . get ( i ) ,
) {
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( & TyKind ::Error , _ ) | ( _ , None ) = > {
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default_from = i + 1 ;
}
( _ , Some ( default_parameter ) ) = > {
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let actual_default =
default_parameter . clone ( ) . substitute (
& Interner ,
& subst_prefix ( parameters , i ) ,
) ;
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if parameter . assert_ty_ref ( & Interner ) ! = & actual_default
{
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default_from = i + 1 ;
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}
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}
}
}
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& parameters . interned ( ) [ 0 .. default_from ]
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}
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}
} else {
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parameters . interned ( ) . as_ref ( )
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} ;
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if ! parameters_to_write . is_empty ( ) {
write! ( f , " < " ) ? ;
f . write_joined ( parameters_to_write , " , " ) ? ;
write! ( f , " > " ) ? ;
}
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}
}
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TyKind ::AssociatedType ( assoc_type_id , parameters ) = > {
let type_alias = from_assoc_type_id ( * assoc_type_id ) ;
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let trait_ = match type_alias . lookup ( f . db . upcast ( ) ) . container {
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AssocContainerId ::TraitId ( it ) = > it ,
_ = > panic! ( " not an associated type " ) ,
} ;
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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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// 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 ( ) {
write! ( f , " {}::{} " , trait_ . name , type_alias_data . name ) ? ;
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if parameters . len ( & Interner ) > 0 {
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write! ( f , " < " ) ? ;
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f . write_joined ( & * parameters . interned ( ) , " , " ) ? ;
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write! ( f , " > " ) ? ;
}
} else {
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let projection_ty = ProjectionTy {
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associated_ty_id : to_assoc_type_id ( type_alias ) ,
substitution : parameters . clone ( ) ,
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} ;
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projection_ty . hir_fmt ( f ) ? ;
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}
}
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TyKind ::Foreign ( 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 ) = > {
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let impl_trait_id = f . db . lookup_intern_impl_trait_id ( ( * opaque_ty_id ) . into ( ) ) ;
match impl_trait_id {
ImplTraitId ::ReturnTypeImplTrait ( func , idx ) = > {
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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 ( ) ) ;
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let bounds = data . substitute ( & Interner , & parameters ) ;
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write_bounds_like_dyn_trait_with_prefix ( " impl " , bounds . skip_binders ( ) , f ) ? ;
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// FIXME: it would maybe be good to distinguish this from the alias type (when debug printing), and to show the substitution
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}
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ImplTraitId ::AsyncBlockTypeImplTrait ( .. ) = > {
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write! ( f , " impl Future<Output = " ) ? ;
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parameters . at ( & Interner , 0 ) . hir_fmt ( f ) ? ;
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write! ( f , " > " ) ? ;
}
}
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}
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TyKind ::Closure ( .. , substs ) = > {
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if f . display_target . is_source_code ( ) {
return Err ( HirDisplayError ::DisplaySourceCodeError (
DisplaySourceCodeError ::Closure ,
) ) ;
}
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let sig = substs . at ( & Interner , 0 ) . assert_ty_ref ( & Interner ) . callable_sig ( f . db ) ;
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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 , " | " ) ? ;
} ;
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write! ( f , " -> " ) ? ;
sig . ret ( ) . hir_fmt ( f ) ? ;
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} else {
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write! ( f , " {{closure}} " ) ? ;
}
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}
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TyKind ::Placeholder ( idx ) = > {
let id = from_placeholder_idx ( f . db , * idx ) ;
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let generics = generics ( f . db . upcast ( ) , id . parent ) ;
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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 = > {
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let substs = generics . type_params_subst ( f . db ) ;
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let bounds =
f . db . generic_predicates ( id . parent )
. into_iter ( )
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. map ( | pred | pred . clone ( ) . substitute ( & Interner , & substs ) )
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. filter ( | wc | match & wc . skip_binders ( ) {
WhereClause ::Implemented ( tr ) = > {
tr . self_type_parameter ( & Interner ) = = self
}
WhereClause ::AliasEq ( AliasEq {
alias : AliasTy ::Projection ( proj ) ,
ty : _ ,
} ) = > proj . self_type_parameter ( & Interner ) = = self ,
_ = > false ,
} )
. collect ::< Vec < _ > > ( ) ;
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write_bounds_like_dyn_trait_with_prefix ( " impl " , & bounds , f ) ? ;
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}
}
}
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TyKind ::BoundVar ( idx ) = > idx . hir_fmt ( f ) ? ,
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TyKind ::Dyn ( dyn_ty ) = > {
write_bounds_like_dyn_trait_with_prefix (
" dyn " ,
dyn_ty . bounds . skip_binders ( ) . interned ( ) ,
f ,
) ? ;
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}
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TyKind ::Alias ( AliasTy ::Projection ( p_ty ) ) = > p_ty . hir_fmt ( f ) ? ,
TyKind ::Alias ( AliasTy ::Opaque ( opaque_ty ) ) = > {
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let impl_trait_id = f . db . lookup_intern_impl_trait_id ( opaque_ty . opaque_ty_id . into ( ) ) ;
match impl_trait_id {
ImplTraitId ::ReturnTypeImplTrait ( func , idx ) = > {
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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 ( ) ) ;
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let bounds = data . substitute ( & Interner , & opaque_ty . substitution ) ;
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write_bounds_like_dyn_trait_with_prefix ( " impl " , bounds . skip_binders ( ) , f ) ? ;
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}
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ImplTraitId ::AsyncBlockTypeImplTrait ( .. ) = > {
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write! ( f , " {{async block}} " ) ? ;
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}
} ;
}
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TyKind ::Error = > {
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if f . display_target . is_source_code ( ) {
return Err ( HirDisplayError ::DisplaySourceCodeError (
DisplaySourceCodeError ::UnknownType ,
) ) ;
}
write! ( f , " {{unknown}} " ) ? ;
}
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TyKind ::InferenceVar ( .. ) = > write! ( f , " _ " ) ? ,
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}
Ok ( ( ) )
}
}
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impl HirDisplay for CallableSig {
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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 ( ) ;
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if ! ret . is_unit ( ) {
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write! ( f , " -> " ) ? ;
ret . hir_fmt ( f ) ? ;
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}
Ok ( ( ) )
}
}
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fn fn_traits ( db : & dyn DefDatabase , trait_ : TraitId ) -> impl Iterator < Item = TraitId > {
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let krate = trait_ . lookup ( db ) . container . krate ( ) ;
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let fn_traits = [
db . lang_item ( krate , " fn " . into ( ) ) ,
db . lang_item ( krate , " fn_mut " . into ( ) ) ,
db . lang_item ( krate , " fn_once " . into ( ) ) ,
] ;
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array ::IntoIter ::new ( fn_traits ) . into_iter ( ) . flatten ( ) . flat_map ( | it | it . as_trait ( ) )
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}
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pub fn write_bounds_like_dyn_trait_with_prefix (
prefix : & str ,
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predicates : & [ QuantifiedWhereClause ] ,
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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 (
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predicates : & [ QuantifiedWhereClause ] ,
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f : & mut HirFormatter ,
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) -> Result < ( ) , HirDisplayError > {
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// 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 ;
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let mut is_fn_trait = false ;
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for p in predicates . iter ( ) {
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match p . skip_binders ( ) {
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WhereClause ::Implemented ( trait_ref ) = > {
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let trait_ = trait_ref . hir_trait_id ( ) ;
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if ! is_fn_trait {
is_fn_trait = fn_traits ( f . db . upcast ( ) , trait_ ) . any ( | it | it = = trait_ ) ;
}
if ! is_fn_trait & & angle_open {
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write! ( f , " > " ) ? ;
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angle_open = false ;
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}
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
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write! ( f , " {} " , f . db . trait_data ( trait_ ) . name ) ? ;
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if let [ _ , params @ .. ] = & * trait_ref . substitution . interned ( ) {
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if is_fn_trait {
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if let Some ( args ) =
params . first ( ) . and_then ( | it | it . assert_ty_ref ( & Interner ) . as_tuple ( ) )
{
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write! ( f , " ( " ) ? ;
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f . write_joined ( & * args . interned ( ) , " , " ) ? ;
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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 ;
}
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}
}
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WhereClause ::AliasEq ( alias_eq ) if is_fn_trait = > {
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is_fn_trait = false ;
write! ( f , " -> " ) ? ;
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alias_eq . ty . hir_fmt ( f ) ? ;
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}
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WhereClause ::AliasEq ( AliasEq { ty , alias } ) = > {
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// 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 ;
}
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if let AliasTy ::Projection ( proj ) = alias {
let type_alias =
f . db . type_alias_data ( from_assoc_type_id ( proj . associated_ty_id ) ) ;
write! ( f , " {} = " , type_alias . name ) ? ;
}
ty . hir_fmt ( f ) ? ;
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}
}
first = false ;
}
if angle_open {
write! ( f , " > " ) ? ;
}
Ok ( ( ) )
}
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fn fmt_trait_ref ( tr : & TraitRef , f : & mut HirFormatter , use_as : bool ) -> Result < ( ) , HirDisplayError > {
if f . should_truncate ( ) {
return write! ( f , " {} " , TYPE_HINT_TRUNCATION ) ;
}
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tr . self_type_parameter ( & Interner ) . hir_fmt ( f ) ? ;
if use_as {
write! ( f , " as " ) ? ;
} else {
write! ( f , " : " ) ? ;
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}
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write! ( f , " {} " , f . db . trait_data ( tr . hir_trait_id ( ) ) . name ) ? ;
if tr . substitution . len ( & Interner ) > 1 {
write! ( f , " < " ) ? ;
f . write_joined ( & tr . substitution . interned ( ) [ 1 .. ] , " , " ) ? ;
write! ( f , " > " ) ? ;
}
Ok ( ( ) )
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}
impl HirDisplay for TraitRef {
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fn hir_fmt ( & self , f : & mut HirFormatter ) -> Result < ( ) , HirDisplayError > {
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fmt_trait_ref ( self , f , false )
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}
}
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impl HirDisplay for WhereClause {
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fn hir_fmt ( & self , f : & mut HirFormatter ) -> Result < ( ) , HirDisplayError > {
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if f . should_truncate ( ) {
return write! ( f , " {} " , TYPE_HINT_TRUNCATION ) ;
}
match self {
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WhereClause ::Implemented ( trait_ref ) = > trait_ref . hir_fmt ( f ) ? ,
WhereClause ::AliasEq ( AliasEq { alias : AliasTy ::Projection ( projection_ty ) , ty } ) = > {
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write! ( f , " < " ) ? ;
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fmt_trait_ref ( & projection_ty . trait_ref ( f . db ) , f , true ) ? ;
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write! (
f ,
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" >::{} = " ,
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f . db . type_alias_data ( from_assoc_type_id ( projection_ty . associated_ty_id ) ) . name ,
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) ? ;
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ty . hir_fmt ( f ) ? ;
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}
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WhereClause ::AliasEq ( _ ) = > write! ( f , " {{error}} " ) ? ,
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}
Ok ( ( ) )
}
}
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impl HirDisplay for LifetimeOutlives {
fn hir_fmt ( & self , f : & mut HirFormatter ) -> Result < ( ) , HirDisplayError > {
self . a . hir_fmt ( f ) ? ;
write! ( f , " : " ) ? ;
self . b . hir_fmt ( f )
}
}
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impl HirDisplay for Lifetime {
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fn hir_fmt ( & self , f : & mut HirFormatter ) -> Result < ( ) , HirDisplayError > {
self . interned ( ) . hir_fmt ( f )
}
}
impl HirDisplay for LifetimeData {
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fn hir_fmt ( & self , f : & mut HirFormatter ) -> Result < ( ) , HirDisplayError > {
match self {
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LifetimeData ::BoundVar ( idx ) = > idx . hir_fmt ( f ) ,
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LifetimeData ::InferenceVar ( _ ) = > write! ( f , " _ " ) ,
LifetimeData ::Placeholder ( idx ) = > {
let id = lt_from_placeholder_idx ( f . db , * idx ) ;
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let generics = generics ( f . db . upcast ( ) , id . parent ) ;
let param_data = & generics . params . lifetimes [ id . local_id ] ;
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write! ( f , " {} " , param_data . name )
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}
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LifetimeData ::Static = > write! ( f , " 'static " ) ,
LifetimeData ::Empty ( _ ) = > Ok ( ( ) ) ,
LifetimeData ::Erased = > Ok ( ( ) ) ,
LifetimeData ::Phantom ( _ , _ ) = > Ok ( ( ) ) ,
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}
}
}
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impl HirDisplay for DomainGoal {
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fn hir_fmt ( & self , f : & mut HirFormatter ) -> Result < ( ) , HirDisplayError > {
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match self {
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DomainGoal ::Holds ( wc ) = > {
write! ( f , " Holds( " ) ? ;
wc . hir_fmt ( f ) ? ;
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write! ( f , " ) " )
}
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}
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}
}
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pub fn write_visibility (
module_id : ModuleId ,
vis : Visibility ,
f : & mut HirFormatter ,
) -> Result < ( ) , HirDisplayError > {
match vis {
Visibility ::Public = > write! ( f , " pub " ) ,
Visibility ::Module ( vis_id ) = > {
let def_map = module_id . def_map ( f . db . upcast ( ) ) ;
let root_module_id = def_map . module_id ( def_map . root ( ) ) ;
if vis_id = = module_id {
// pub(self) or omitted
Ok ( ( ) )
} else if root_module_id = = vis_id {
write! ( f , " pub(crate) " )
} else if module_id . containing_module ( f . db . upcast ( ) ) = = Some ( vis_id ) {
write! ( f , " pub(super) " )
} else {
write! ( f , " pub(in ...) " )
}
}
}
}
impl HirDisplay for TypeRef {
fn hir_fmt ( & self , f : & mut HirFormatter ) -> Result < ( ) , HirDisplayError > {
match self {
TypeRef ::Never = > write! ( f , " ! " ) ? ,
TypeRef ::Placeholder = > write! ( f , " _ " ) ? ,
TypeRef ::Tuple ( elems ) = > {
write! ( f , " ( " ) ? ;
f . write_joined ( elems , " , " ) ? ;
if elems . len ( ) = = 1 {
write! ( f , " , " ) ? ;
}
write! ( f , " ) " ) ? ;
}
TypeRef ::Path ( path ) = > path . hir_fmt ( f ) ? ,
TypeRef ::RawPtr ( inner , mutability ) = > {
let mutability = match mutability {
hir_def ::type_ref ::Mutability ::Shared = > " *const " ,
hir_def ::type_ref ::Mutability ::Mut = > " *mut " ,
} ;
write! ( f , " {} " , mutability ) ? ;
inner . hir_fmt ( f ) ? ;
}
TypeRef ::Reference ( inner , lifetime , mutability ) = > {
let mutability = match mutability {
hir_def ::type_ref ::Mutability ::Shared = > " " ,
hir_def ::type_ref ::Mutability ::Mut = > " mut " ,
} ;
write! ( f , " & " ) ? ;
if let Some ( lifetime ) = lifetime {
write! ( f , " {} " , lifetime . name ) ? ;
}
write! ( f , " {} " , mutability ) ? ;
inner . hir_fmt ( f ) ? ;
}
TypeRef ::Array ( inner ) = > {
write! ( f , " [ " ) ? ;
inner . hir_fmt ( f ) ? ;
// FIXME: Array length?
write! ( f , " ; _] " ) ? ;
}
TypeRef ::Slice ( inner ) = > {
write! ( f , " [ " ) ? ;
inner . hir_fmt ( f ) ? ;
write! ( f , " ] " ) ? ;
}
TypeRef ::Fn ( tys , is_varargs ) = > {
// FIXME: Function pointer qualifiers.
write! ( f , " fn( " ) ? ;
f . write_joined ( & tys [ .. tys . len ( ) - 1 ] , " , " ) ? ;
if * is_varargs {
write! ( f , " {}... " , if tys . len ( ) = = 1 { " " } else { " , " } ) ? ;
}
write! ( f , " ) " ) ? ;
let ret_ty = tys . last ( ) . unwrap ( ) ;
match ret_ty {
TypeRef ::Tuple ( tup ) if tup . is_empty ( ) = > { }
_ = > {
write! ( f , " -> " ) ? ;
ret_ty . hir_fmt ( f ) ? ;
}
}
}
TypeRef ::ImplTrait ( bounds ) = > {
write! ( f , " impl " ) ? ;
f . write_joined ( bounds , " + " ) ? ;
}
TypeRef ::DynTrait ( bounds ) = > {
write! ( f , " dyn " ) ? ;
f . write_joined ( bounds , " + " ) ? ;
}
TypeRef ::Error = > write! ( f , " {{error}} " ) ? ,
}
Ok ( ( ) )
}
}
impl HirDisplay for TypeBound {
fn hir_fmt ( & self , f : & mut HirFormatter ) -> Result < ( ) , HirDisplayError > {
match self {
TypeBound ::Path ( path ) = > path . hir_fmt ( f ) ,
TypeBound ::Lifetime ( lifetime ) = > write! ( f , " {} " , lifetime . name ) ,
TypeBound ::Error = > write! ( f , " {{error}} " ) ,
}
}
}
impl HirDisplay for Path {
fn hir_fmt ( & self , f : & mut HirFormatter ) -> Result < ( ) , HirDisplayError > {
match ( self . type_anchor ( ) , self . kind ( ) ) {
( Some ( anchor ) , _ ) = > {
write! ( f , " < " ) ? ;
anchor . hir_fmt ( f ) ? ;
write! ( f , " > " ) ? ;
}
( _ , PathKind ::Plain ) = > { }
( _ , PathKind ::Abs ) = > write! ( f , " :: " ) ? ,
( _ , PathKind ::Crate ) = > write! ( f , " crate " ) ? ,
( _ , PathKind ::Super ( 0 ) ) = > write! ( f , " self " ) ? ,
( _ , PathKind ::Super ( n ) ) = > {
write! ( f , " super " ) ? ;
for _ in 0 .. * n {
write! ( f , " ::super " ) ? ;
}
}
( _ , PathKind ::DollarCrate ( _ ) ) = > write! ( f , " {{extern_crate}} " ) ? ,
}
for ( seg_idx , segment ) in self . segments ( ) . iter ( ) . enumerate ( ) {
if seg_idx ! = 0 {
write! ( f , " :: " ) ? ;
}
write! ( f , " {} " , segment . name ) ? ;
if let Some ( generic_args ) = segment . args_and_bindings {
// We should be in type context, so format as `Foo<Bar>` instead of `Foo::<Bar>`.
// Do we actually format expressions?
write! ( f , " < " ) ? ;
let mut first = true ;
for arg in & generic_args . args {
if first {
first = false ;
if generic_args . has_self_type {
// FIXME: Convert to `<Ty as Trait>` form.
write! ( f , " Self = " ) ? ;
}
} else {
write! ( f , " , " ) ? ;
}
arg . hir_fmt ( f ) ? ;
}
for binding in & generic_args . bindings {
if first {
first = false ;
} else {
write! ( f , " , " ) ? ;
}
write! ( f , " {} " , binding . name ) ? ;
match & binding . type_ref {
Some ( ty ) = > {
write! ( f , " = " ) ? ;
ty . hir_fmt ( f ) ?
}
None = > {
write! ( f , " : " ) ? ;
f . write_joined ( & binding . bounds , " + " ) ? ;
}
}
}
write! ( f , " > " ) ? ;
}
}
Ok ( ( ) )
}
}
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impl HirDisplay for hir_def ::path ::GenericArg {
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fn hir_fmt ( & self , f : & mut HirFormatter ) -> Result < ( ) , HirDisplayError > {
match self {
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hir_def ::path ::GenericArg ::Type ( ty ) = > ty . hir_fmt ( f ) ,
hir_def ::path ::GenericArg ::Lifetime ( lifetime ) = > write! ( f , " {} " , lifetime . name ) ,
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}
}
}