mod client ;
pub mod file_event ;
mod file_operations ;
pub mod jsonrpc ;
pub mod snippet ;
mod transport ;
pub use client ::Client ;
pub use futures_executor ::block_on ;
pub use jsonrpc ::Call ;
pub use lsp ::{ Position , Url } ;
pub use lsp_types as lsp ;
use futures_util ::stream ::select_all ::SelectAll ;
use helix_core ::syntax ::{
LanguageConfiguration , LanguageServerConfiguration , LanguageServerFeatures ,
} ;
use helix_stdx ::path ;
use tokio ::sync ::mpsc ::UnboundedReceiver ;
use std ::{
collections ::HashMap ,
path ::{ Path , PathBuf } ,
sync ::Arc ,
} ;
use thiserror ::Error ;
use tokio_stream ::wrappers ::UnboundedReceiverStream ;
pub type Result < T > = core ::result ::Result < T , Error > ;
pub type LanguageServerName = String ;
#[ derive(Error, Debug) ]
pub enum Error {
#[ error( " protocol error: {0} " ) ]
Rpc ( #[ from ] jsonrpc ::Error ) ,
#[ error( " failed to parse: {0} " ) ]
Parse ( #[ from ] serde_json ::Error ) ,
#[ error( " IO Error: {0} " ) ]
IO ( #[ from ] std ::io ::Error ) ,
#[ error( " request {0} timed out " ) ]
Timeout ( jsonrpc ::Id ) ,
#[ error( " server closed the stream " ) ]
StreamClosed ,
#[ error( " Unhandled " ) ]
Unhandled ,
#[ error(transparent) ]
ExecutableNotFound ( #[ from ] helix_stdx ::env ::ExecutableNotFoundError ) ,
#[ error(transparent) ]
Other ( #[ from ] anyhow ::Error ) ,
}
#[ derive(Clone, Copy, Debug, Default, PartialEq, Eq) ]
pub enum OffsetEncoding {
/// UTF-8 code units aka bytes
Utf8 ,
/// UTF-32 code units aka chars
Utf32 ,
/// UTF-16 code units
#[ default ]
Utf16 ,
}
pub mod util {
use super ::* ;
use helix_core ::line_ending ::{ line_end_byte_index , line_end_char_index } ;
use helix_core ::{ chars , RopeSlice , SmallVec } ;
use helix_core ::{ diagnostic ::NumberOrString , Range , Rope , Selection , Tendril , Transaction } ;
/// Converts a diagnostic in the document to [`lsp::Diagnostic`].
///
/// Panics when [`pos_to_lsp_pos`] would for an invalid range on the diagnostic.
pub fn diagnostic_to_lsp_diagnostic (
doc : & Rope ,
diag : & helix_core ::diagnostic ::Diagnostic ,
offset_encoding : OffsetEncoding ,
) -> lsp ::Diagnostic {
use helix_core ::diagnostic ::Severity ::* ;
let range = Range ::new ( diag . range . start , diag . range . end ) ;
let severity = diag . severity . map ( | s | match s {
Hint = > lsp ::DiagnosticSeverity ::HINT ,
Info = > lsp ::DiagnosticSeverity ::INFORMATION ,
Warning = > lsp ::DiagnosticSeverity ::WARNING ,
Error = > lsp ::DiagnosticSeverity ::ERROR ,
} ) ;
let code = match diag . code . clone ( ) {
Some ( x ) = > match x {
NumberOrString ::Number ( x ) = > Some ( lsp ::NumberOrString ::Number ( x ) ) ,
NumberOrString ::String ( x ) = > Some ( lsp ::NumberOrString ::String ( x ) ) ,
} ,
None = > None ,
} ;
let new_tags : Vec < _ > = diag
. tags
. iter ( )
. map ( | tag | match tag {
helix_core ::diagnostic ::DiagnosticTag ::Unnecessary = > {
lsp ::DiagnosticTag ::UNNECESSARY
}
helix_core ::diagnostic ::DiagnosticTag ::Deprecated = > lsp ::DiagnosticTag ::DEPRECATED ,
} )
. collect ( ) ;
let tags = if ! new_tags . is_empty ( ) {
Some ( new_tags )
} else {
None
} ;
lsp ::Diagnostic {
range : range_to_lsp_range ( doc , range , offset_encoding ) ,
severity ,
code ,
source : diag . source . clone ( ) ,
message : diag . message . to_owned ( ) ,
related_information : None ,
tags ,
data : diag . data . to_owned ( ) ,
.. Default ::default ( )
}
}
/// Converts [`lsp::Position`] to a position in the document.
///
/// Returns `None` if position.line is out of bounds or an overflow occurs
pub fn lsp_pos_to_pos (
doc : & Rope ,
pos : lsp ::Position ,
offset_encoding : OffsetEncoding ,
) -> Option < usize > {
let pos_line = pos . line as usize ;
if pos_line > doc . len_lines ( ) - 1 {
// If it extends past the end, truncate it to the end. This is because the
// way the LSP describes the range including the last newline is by
// specifying a line number after what we would call the last line.
log ::warn ! ( "LSP position {pos:?} out of range assuming EOF" ) ;
return Some ( doc . len_chars ( ) ) ;
}
// We need to be careful here to fully comply ith the LSP spec.
// Two relevant quotes from the spec:
//
// https://microsoft.github.io/language-server-protocol/specifications/lsp/3.17/specification/#position
// > If the character value is greater than the line length it defaults back
// > to the line length.
//
// https://microsoft.github.io/language-server-protocol/specifications/lsp/3.17/specification/#textDocuments
// > To ensure that both client and server split the string into the same
// > line representation the protocol specifies the following end-of-line sequences:
// > ‘ \n’ , ‘ \r\n’ and ‘ \r’ . Positions are line end character agnostic.
// > So you can not specify a position that denotes \r|\n or \n| where | represents the character offset.
//
// This means that while the line must be in bounds the `character`
// must be capped to the end of the line.
// Note that the end of the line here is **before** the line terminator
// so we must use `line_end_char_index` instead of `doc.line_to_char(pos_line + 1)`
//
// FIXME: Helix does not fully comply with the LSP spec for line terminators.
// The LSP standard requires that line terminators are ['\n', '\r\n', '\r'].
// Without the unicode-linebreak feature disabled, the `\r` terminator is not handled by helix.
// With the unicode-linebreak feature, helix recognizes multiple extra line break chars
// which means that positions will be decoded/encoded incorrectly in their presence
let line = match offset_encoding {
OffsetEncoding ::Utf8 = > {
let line_start = doc . line_to_byte ( pos_line ) ;
let line_end = line_end_byte_index ( & doc . slice ( .. ) , pos_line ) ;
line_start .. line_end
}
OffsetEncoding ::Utf16 = > {
// TODO directly translate line index to char-idx
// ropey can do this just as easily as utf-8 byte translation
// but the functions are just missing.
// Translate to char first and then utf-16 as a workaround
let line_start = doc . line_to_char ( pos_line ) ;
let line_end = line_end_char_index ( & doc . slice ( .. ) , pos_line ) ;
doc . char_to_utf16_cu ( line_start ) .. doc . char_to_utf16_cu ( line_end )
}
OffsetEncoding ::Utf32 = > {
let line_start = doc . line_to_char ( pos_line ) ;
let line_end = line_end_char_index ( & doc . slice ( .. ) , pos_line ) ;
line_start .. line_end
}
} ;
// The LSP spec demands that the offset is capped to the end of the line
let pos = line
. start
. checked_add ( pos . character as usize )
. unwrap_or ( line . end )
. min ( line . end ) ;
match offset_encoding {
OffsetEncoding ::Utf8 = > doc . try_byte_to_char ( pos ) . ok ( ) ,
OffsetEncoding ::Utf16 = > doc . try_utf16_cu_to_char ( pos ) . ok ( ) ,
OffsetEncoding ::Utf32 = > Some ( pos ) ,
}
}
/// Converts position in the document to [`lsp::Position`].
///
/// Panics when `pos` is out of `doc` bounds or operation overflows.
pub fn pos_to_lsp_pos (
doc : & Rope ,
pos : usize ,
offset_encoding : OffsetEncoding ,
) -> lsp ::Position {
match offset_encoding {
OffsetEncoding ::Utf8 = > {
let line = doc . char_to_line ( pos ) ;
let line_start = doc . line_to_byte ( line ) ;
let col = doc . char_to_byte ( pos ) - line_start ;
lsp ::Position ::new ( line as u32 , col as u32 )
}
OffsetEncoding ::Utf16 = > {
let line = doc . char_to_line ( pos ) ;
let line_start = doc . char_to_utf16_cu ( doc . line_to_char ( line ) ) ;
let col = doc . char_to_utf16_cu ( pos ) - line_start ;
lsp ::Position ::new ( line as u32 , col as u32 )
}
OffsetEncoding ::Utf32 = > {
let line = doc . char_to_line ( pos ) ;
let line_start = doc . line_to_char ( line ) ;
let col = pos - line_start ;
lsp ::Position ::new ( line as u32 , col as u32 )
}
}
}
/// Converts a range in the document to [`lsp::Range`].
pub fn range_to_lsp_range (
doc : & Rope ,
range : Range ,
offset_encoding : OffsetEncoding ,
) -> lsp ::Range {
let start = pos_to_lsp_pos ( doc , range . from ( ) , offset_encoding ) ;
let end = pos_to_lsp_pos ( doc , range . to ( ) , offset_encoding ) ;
lsp ::Range ::new ( start , end )
}
pub fn lsp_range_to_range (
doc : & Rope ,
mut range : lsp ::Range ,
offset_encoding : OffsetEncoding ,
) -> Option < Range > {
// This is sort of an edgecase. It's not clear from the spec how to deal with
// ranges where end < start. They don't make much sense but vscode simply caps start to end
// and because it's not specified quite a few LS rely on this as a result (for example the TS server)
if range . start > range . end {
log ::error ! (
"Invalid LSP range start {:?} > end {:?}, using an empty range at the end instead" ,
range . start ,
range . end
) ;
range . start = range . end ;
}
let start = lsp_pos_to_pos ( doc , range . start , offset_encoding ) ? ;
let end = lsp_pos_to_pos ( doc , range . end , offset_encoding ) ? ;
Some ( Range ::new ( start , end ) )
}
/// If the LS did not provide a range for the completion or the range of the
/// primary cursor can not be used for the secondary cursor, this function
/// can be used to find the completion range for a cursor
fn find_completion_range ( text : RopeSlice , replace_mode : bool , cursor : usize ) -> ( usize , usize ) {
let start = cursor
- text
. chars_at ( cursor )
. reversed ( )
. take_while ( | ch | chars ::char_is_word ( * ch ) )
. count ( ) ;
let mut end = cursor ;
if replace_mode {
end + = text
. chars_at ( cursor )
. skip ( 1 )
. take_while ( | ch | chars ::char_is_word ( * ch ) )
. count ( ) ;
}
( start , end )
}
fn completion_range (
text : RopeSlice ,
edit_offset : Option < ( i128 , i128 ) > ,
replace_mode : bool ,
cursor : usize ,
) -> Option < ( usize , usize ) > {
let res = match edit_offset {
Some ( ( start_offset , end_offset ) ) = > {
let start_offset = cursor as i128 + start_offset ;
if start_offset < 0 {
return None ;
}
let end_offset = cursor as i128 + end_offset ;
if end_offset > text . len_chars ( ) as i128 {
return None ;
}
( start_offset as usize , end_offset as usize )
}
None = > find_completion_range ( text , replace_mode , cursor ) ,
} ;
Some ( res )
}
/// Creates a [Transaction] from the [lsp::TextEdit] in a completion response.
/// The transaction applies the edit to all cursors.
pub fn generate_transaction_from_completion_edit (
doc : & Rope ,
selection : & Selection ,
edit_offset : Option < ( i128 , i128 ) > ,
replace_mode : bool ,
new_text : String ,
) -> Transaction {
let replacement : Option < Tendril > = if new_text . is_empty ( ) {
None
} else {
Some ( new_text . into ( ) )
} ;
let text = doc . slice ( .. ) ;
let ( removed_start , removed_end ) = completion_range (
text ,
edit_offset ,
replace_mode ,
selection . primary ( ) . cursor ( text ) ,
)
. expect ( "transaction must be valid for primary selection" ) ;
let removed_text = text . slice ( removed_start .. removed_end ) ;
let ( transaction , mut selection ) = Transaction ::change_by_selection_ignore_overlapping (
doc ,
selection ,
| range | {
let cursor = range . cursor ( text ) ;
completion_range ( text , edit_offset , replace_mode , cursor )
. filter ( | ( start , end ) | text . slice ( start .. end ) = = removed_text )
. unwrap_or_else ( | | find_completion_range ( text , replace_mode , cursor ) )
} ,
| _ , _ | replacement . clone ( ) ,
) ;
if transaction . changes ( ) . is_empty ( ) {
return transaction ;
}
selection = selection . map ( transaction . changes ( ) ) ;
transaction . with_selection ( selection )
}
/// Creates a [Transaction] from the [snippet::Snippet] in a completion response.
/// The transaction applies the edit to all cursors.
#[ allow(clippy::too_many_arguments) ]
pub fn generate_transaction_from_snippet (
doc : & Rope ,
selection : & Selection ,
edit_offset : Option < ( i128 , i128 ) > ,
replace_mode : bool ,
snippet : snippet ::Snippet ,
line_ending : & str ,
include_placeholder : bool ,
tab_width : usize ,
indent_width : usize ,
) -> Transaction {
let text = doc . slice ( .. ) ;
let mut off = 0 i128 ;
let mut mapped_doc = doc . clone ( ) ;
let mut selection_tabstops : SmallVec < [ _ ; 1 ] > = SmallVec ::new ( ) ;
let ( removed_start , removed_end ) = completion_range (
text ,
edit_offset ,
replace_mode ,
selection . primary ( ) . cursor ( text ) ,
)
. expect ( "transaction must be valid for primary selection" ) ;
let removed_text = text . slice ( removed_start .. removed_end ) ;
let ( transaction , mut selection ) = Transaction ::change_by_selection_ignore_overlapping (
doc ,
selection ,
| range | {
let cursor = range . cursor ( text ) ;
completion_range ( text , edit_offset , replace_mode , cursor )
. filter ( | ( start , end ) | text . slice ( start .. end ) = = removed_text )
. unwrap_or_else ( | | find_completion_range ( text , replace_mode , cursor ) )
} ,
| replacement_start , replacement_end | {
let mapped_replacement_start = ( replacement_start as i128 + off ) as usize ;
let mapped_replacement_end = ( replacement_end as i128 + off ) as usize ;
let line_idx = mapped_doc . char_to_line ( mapped_replacement_start ) ;
let indent_level = helix_core ::indent ::indent_level_for_line (
mapped_doc . line ( line_idx ) ,
tab_width ,
indent_width ,
) * indent_width ;
let newline_with_offset = format! (
"{line_ending}{blank:indent_level$}" ,
line_ending = line_ending ,
blank = ""
) ;
let ( replacement , tabstops ) =
snippet ::render ( & snippet , & newline_with_offset , include_placeholder ) ;
selection_tabstops . push ( ( mapped_replacement_start , tabstops ) ) ;
mapped_doc . remove ( mapped_replacement_start .. mapped_replacement_end ) ;
mapped_doc . insert ( mapped_replacement_start , & replacement ) ;
off + =
replacement_start as i128 - replacement_end as i128 + replacement . len ( ) as i128 ;
Some ( replacement )
} ,
) ;
let changes = transaction . changes ( ) ;
if changes . is_empty ( ) {
return transaction ;
}
// Don't normalize to avoid merging/reording selections which would
// break the association between tabstops and selections. Most ranges
// will be replaced by tabstops anyways and the final selection will be
// normalized anyways
selection = selection . map_no_normalize ( changes ) ;
let mut mapped_selection = SmallVec ::with_capacity ( selection . len ( ) ) ;
let mut mapped_primary_idx = 0 ;
let primary_range = selection . primary ( ) ;
for ( range , ( tabstop_anchor , tabstops ) ) in selection . into_iter ( ) . zip ( selection_tabstops ) {
if range = = primary_range {
mapped_primary_idx = mapped_selection . len ( )
}
let tabstops = tabstops . first ( ) . filter ( | tabstops | ! tabstops . is_empty ( ) ) ;
let Some ( tabstops ) = tabstops else {
// no tabstop normal mapping
mapped_selection . push ( range ) ;
continue ;
} ;
// expand the selection to cover the tabstop to retain the helix selection semantic
// the tabstop closest to the range simply replaces `head` while anchor remains in place
// the remaining tabstops receive their own single-width cursor
if range . head < range . anchor {
let last_idx = tabstops . len ( ) - 1 ;
let last_tabstop = tabstop_anchor + tabstops [ last_idx ] . 0 ;
// if selection is forward but was moved to the right it is
// contained entirely in the replacement text, just do a point
// selection (fallback below)
if range . anchor > last_tabstop {
let range = Range ::new ( range . anchor , last_tabstop ) ;
mapped_selection . push ( range ) ;
let rem_tabstops = tabstops [ .. last_idx ]
. iter ( )
. map ( | tabstop | Range ::point ( tabstop_anchor + tabstop . 0 ) ) ;
mapped_selection . extend ( rem_tabstops ) ;
continue ;
}
} else {
let first_tabstop = tabstop_anchor + tabstops [ 0 ] . 0 ;
// if selection is forward but was moved to the right it is
// contained entirely in the replacement text, just do a point
// selection (fallback below)
if range . anchor < first_tabstop {
// we can't properly compute the the next grapheme
// here because the transaction hasn't been applied yet
// that is not a problem because the range gets grapheme aligned anyway
// tough so just adding one will always cause head to be grapheme
// aligned correctly when applied to the document
let range = Range ::new ( range . anchor , first_tabstop + 1 ) ;
mapped_selection . push ( range ) ;
let rem_tabstops = tabstops [ 1 .. ]
. iter ( )
. map ( | tabstop | Range ::point ( tabstop_anchor + tabstop . 0 ) ) ;
mapped_selection . extend ( rem_tabstops ) ;
continue ;
}
} ;
let tabstops = tabstops
. iter ( )
. map ( | tabstop | Range ::point ( tabstop_anchor + tabstop . 0 ) ) ;
mapped_selection . extend ( tabstops ) ;
}
transaction . with_selection ( Selection ::new ( mapped_selection , mapped_primary_idx ) )
}
pub fn generate_transaction_from_edits (
doc : & Rope ,
mut edits : Vec < lsp ::TextEdit > ,
offset_encoding : OffsetEncoding ,
) -> Transaction {
// Sort edits by start range, since some LSPs (Omnisharp) send them
// in reverse order.
edits . sort_unstable_by_key ( | edit | edit . range . start ) ;
// Generate a diff if the edit is a full document replacement.
#[ allow(clippy::collapsible_if) ]
if edits . len ( ) = = 1 {
let is_document_replacement = edits . first ( ) . and_then ( | edit | {
let start = lsp_pos_to_pos ( doc , edit . range . start , offset_encoding ) ? ;
let end = lsp_pos_to_pos ( doc , edit . range . end , offset_encoding ) ? ;
Some ( start .. end )
} ) = = Some ( 0 .. doc . len_chars ( ) ) ;
if is_document_replacement {
let new_text = Rope ::from ( edits . pop ( ) . unwrap ( ) . new_text ) ;
return helix_core ::diff ::compare_ropes ( doc , & new_text ) ;
}
}
Transaction ::change (
doc ,
edits . into_iter ( ) . map ( | edit | {
// simplify "" into None for cleaner changesets
let replacement = if ! edit . new_text . is_empty ( ) {
Some ( edit . new_text . into ( ) )
} else {
None
} ;
let start =
if let Some ( start ) = lsp_pos_to_pos ( doc , edit . range . start , offset_encoding ) {
start
} else {
return ( 0 , 0 , None ) ;
} ;
let end = if let Some ( end ) = lsp_pos_to_pos ( doc , edit . range . end , offset_encoding ) {
end
} else {
return ( 0 , 0 , None ) ;
} ;
( start , end , replacement )
} ) ,
)
}
}
#[ derive(Debug, PartialEq, Clone) ]
pub enum MethodCall {
WorkDoneProgressCreate ( lsp ::WorkDoneProgressCreateParams ) ,
ApplyWorkspaceEdit ( lsp ::ApplyWorkspaceEditParams ) ,
WorkspaceFolders ,
WorkspaceConfiguration ( lsp ::ConfigurationParams ) ,
RegisterCapability ( lsp ::RegistrationParams ) ,
UnregisterCapability ( lsp ::UnregistrationParams ) ,
ShowDocument ( lsp ::ShowDocumentParams ) ,
}
impl MethodCall {
pub fn parse ( method : & str , params : jsonrpc ::Params ) -> Result < MethodCall > {
use lsp ::request ::Request ;
let request = match method {
lsp ::request ::WorkDoneProgressCreate ::METHOD = > {
let params : lsp ::WorkDoneProgressCreateParams = params . parse ( ) ? ;
Self ::WorkDoneProgressCreate ( params )
}
lsp ::request ::ApplyWorkspaceEdit ::METHOD = > {
let params : lsp ::ApplyWorkspaceEditParams = params . parse ( ) ? ;
Self ::ApplyWorkspaceEdit ( params )
}
lsp ::request ::WorkspaceFoldersRequest ::METHOD = > Self ::WorkspaceFolders ,
lsp ::request ::WorkspaceConfiguration ::METHOD = > {
let params : lsp ::ConfigurationParams = params . parse ( ) ? ;
Self ::WorkspaceConfiguration ( params )
}
lsp ::request ::RegisterCapability ::METHOD = > {
let params : lsp ::RegistrationParams = params . parse ( ) ? ;
Self ::RegisterCapability ( params )
}
lsp ::request ::UnregisterCapability ::METHOD = > {
let params : lsp ::UnregistrationParams = params . parse ( ) ? ;
Self ::UnregisterCapability ( params )
}
lsp ::request ::ShowDocument ::METHOD = > {
let params : lsp ::ShowDocumentParams = params . parse ( ) ? ;
Self ::ShowDocument ( params )
}
_ = > {
return Err ( Error ::Unhandled ) ;
}
} ;
Ok ( request )
}
}
#[ derive(Debug, PartialEq, Clone) ]
pub enum Notification {
// we inject this notification to signal the LSP is ready
Initialized ,
// and this notification to signal that the LSP exited
Exit ,
PublishDiagnostics ( lsp ::PublishDiagnosticsParams ) ,
ShowMessage ( lsp ::ShowMessageParams ) ,
LogMessage ( lsp ::LogMessageParams ) ,
ProgressMessage ( lsp ::ProgressParams ) ,
}
impl Notification {
pub fn parse ( method : & str , params : jsonrpc ::Params ) -> Result < Notification > {
use lsp ::notification ::Notification as _ ;
let notification = match method {
lsp ::notification ::Initialized ::METHOD = > Self ::Initialized ,
lsp ::notification ::Exit ::METHOD = > Self ::Exit ,
lsp ::notification ::PublishDiagnostics ::METHOD = > {
let params : lsp ::PublishDiagnosticsParams = params . parse ( ) ? ;
Self ::PublishDiagnostics ( params )
}
lsp ::notification ::ShowMessage ::METHOD = > {
let params : lsp ::ShowMessageParams = params . parse ( ) ? ;
Self ::ShowMessage ( params )
}
lsp ::notification ::LogMessage ::METHOD = > {
let params : lsp ::LogMessageParams = params . parse ( ) ? ;
Self ::LogMessage ( params )
}
lsp ::notification ::Progress ::METHOD = > {
let params : lsp ::ProgressParams = params . parse ( ) ? ;
Self ::ProgressMessage ( params )
}
_ = > {
return Err ( Error ::Unhandled ) ;
}
} ;
Ok ( notification )
}
}
#[ derive(Debug) ]
pub struct Registry {
inner : HashMap < LanguageServerName , Vec < Arc < Client > > > ,
syn_loader : Arc < helix_core ::syntax ::Loader > ,
counter : usize ,
pub incoming : SelectAll < UnboundedReceiverStream < ( usize , Call ) > > ,
pub file_event_handler : file_event ::Handler ,
}
impl Registry {
pub fn new ( syn_loader : Arc < helix_core ::syntax ::Loader > ) -> Self {
Self {
inner : HashMap ::new ( ) ,
syn_loader ,
counter : 0 ,
incoming : SelectAll ::new ( ) ,
file_event_handler : file_event ::Handler ::new ( ) ,
}
}
pub fn get_by_id ( & self , id : usize ) -> Option < & Client > {
self . inner
. values ( )
. flatten ( )
. find ( | client | client . id ( ) = = id )
. map ( | client | & * * client )
}
pub fn remove_by_id ( & mut self , id : usize ) {
self . file_event_handler . remove_client ( id ) ;
self . inner . retain ( | _ , language_servers | {
language_servers . retain ( | ls | id ! = ls . id ( ) ) ;
! language_servers . is_empty ( )
} ) ;
}
fn start_client (
& mut self ,
name : String ,
ls_config : & LanguageConfiguration ,
doc_path : Option < & std ::path ::PathBuf > ,
root_dirs : & [ PathBuf ] ,
enable_snippets : bool ,
) -> Result < Option < Arc < Client > > > {
let config = self
. syn_loader
. language_server_configs ( )
. get ( & name )
. ok_or_else ( | | anyhow ::anyhow ! ( "Language server '{name}' not defined" ) ) ? ;
let id = self . counter ;
self . counter + = 1 ;
if let Some ( NewClient ( client , incoming ) ) = start_client (
id ,
name ,
ls_config ,
config ,
doc_path ,
root_dirs ,
enable_snippets ,
) ? {
self . incoming . push ( UnboundedReceiverStream ::new ( incoming ) ) ;
Ok ( Some ( client ) )
} else {
Ok ( None )
}
}
/// If this method is called, all documents that have a reference to language servers used by the language config have to refresh their language servers,
/// as it could be that language servers of these documents were stopped by this method.
/// See helix_view::editor::Editor::refresh_language_servers
pub fn restart (
& mut self ,
language_config : & LanguageConfiguration ,
doc_path : Option < & std ::path ::PathBuf > ,
root_dirs : & [ PathBuf ] ,
enable_snippets : bool ,
) -> Result < Vec < Arc < Client > > > {
language_config
. language_servers
. iter ( )
. filter_map ( | LanguageServerFeatures { name , .. } | {
if self . inner . contains_key ( name ) {
let client = match self . start_client (
name . clone ( ) ,
language_config ,
doc_path ,
root_dirs ,
enable_snippets ,
) {
Ok ( client ) = > client ? ,
Err ( error ) = > return Some ( Err ( error ) ) ,
} ;
let old_clients = self
. inner
. insert ( name . clone ( ) , vec! [ client . clone ( ) ] )
. unwrap ( ) ;
for old_client in old_clients {
self . file_event_handler . remove_client ( old_client . id ( ) ) ;
tokio ::spawn ( async move {
let _ = old_client . force_shutdown ( ) . await ;
} ) ;
}
Some ( Ok ( client ) )
} else {
None
}
} )
. collect ( )
}
pub fn stop ( & mut self , name : & str ) {
if let Some ( clients ) = self . inner . remove ( name ) {
for client in clients {
self . file_event_handler . remove_client ( client . id ( ) ) ;
tokio ::spawn ( async move {
let _ = client . force_shutdown ( ) . await ;
} ) ;
}
}
}
pub fn get < ' a > (
& ' a mut self ,
language_config : & ' a LanguageConfiguration ,
doc_path : Option < & ' a std ::path ::PathBuf > ,
root_dirs : & ' a [ PathBuf ] ,
enable_snippets : bool ,
) -> impl Iterator < Item = ( LanguageServerName , Result < Arc < Client > > ) > + ' a {
language_config . language_servers . iter ( ) . filter_map (
move | LanguageServerFeatures { name , .. } | {
if let Some ( clients ) = self . inner . get ( name ) {
if let Some ( ( _ , client ) ) = clients . iter ( ) . enumerate ( ) . find ( | ( i , client ) | {
client . try_add_doc ( & language_config . roots , root_dirs , doc_path , * i = = 0 )
} ) {
return Some ( ( name . to_owned ( ) , Ok ( client . clone ( ) ) ) ) ;
}
}
match self . start_client (
name . clone ( ) ,
language_config ,
doc_path ,
root_dirs ,
enable_snippets ,
) {
Ok ( client ) = > {
let client = client ? ;
self . inner
. entry ( name . to_owned ( ) )
. or_default ( )
. push ( client . clone ( ) ) ;
Some ( ( name . clone ( ) , Ok ( client ) ) )
}
Err ( err ) = > Some ( ( name . to_owned ( ) , Err ( err ) ) ) ,
}
} ,
)
}
pub fn iter_clients ( & self ) -> impl Iterator < Item = & Arc < Client > > {
self . inner . values ( ) . flatten ( )
}
}
#[ derive(Debug) ]
pub enum ProgressStatus {
Created ,
Started ( lsp ::WorkDoneProgress ) ,
}
impl ProgressStatus {
pub fn progress ( & self ) -> Option < & lsp ::WorkDoneProgress > {
match & self {
ProgressStatus ::Created = > None ,
ProgressStatus ::Started ( progress ) = > Some ( progress ) ,
}
}
}
#[ derive(Default, Debug) ]
/// Acts as a container for progress reported by language servers. Each server
/// has a unique id assigned at creation through [`Registry`]. This id is then used
/// to store the progress in this map.
pub struct LspProgressMap ( HashMap < usize , HashMap < lsp ::ProgressToken , ProgressStatus > > ) ;
impl LspProgressMap {
pub fn new ( ) -> Self {
Self ::default ( )
}
/// Returns a map of all tokens corresponding to the language server with `id`.
pub fn progress_map ( & self , id : usize ) -> Option < & HashMap < lsp ::ProgressToken , ProgressStatus > > {
self . 0. get ( & id )
}
pub fn is_progressing ( & self , id : usize ) -> bool {
self . 0. get ( & id ) . map ( | it | ! it . is_empty ( ) ) . unwrap_or_default ( )
}
/// Returns last progress status for a given server with `id` and `token`.
pub fn progress ( & self , id : usize , token : & lsp ::ProgressToken ) -> Option < & ProgressStatus > {
self . 0. get ( & id ) . and_then ( | values | values . get ( token ) )
}
/// Checks if progress `token` for server with `id` is created.
pub fn is_created ( & mut self , id : usize , token : & lsp ::ProgressToken ) -> bool {
self . 0
. get ( & id )
. map ( | values | values . get ( token ) . is_some ( ) )
. unwrap_or_default ( )
}
pub fn create ( & mut self , id : usize , token : lsp ::ProgressToken ) {
self . 0
. entry ( id )
. or_default ( )
. insert ( token , ProgressStatus ::Created ) ;
}
/// Ends the progress by removing the `token` from server with `id`, if removed returns the value.
pub fn end_progress (
& mut self ,
id : usize ,
token : & lsp ::ProgressToken ,
) -> Option < ProgressStatus > {
self . 0. get_mut ( & id ) . and_then ( | vals | vals . remove ( token ) )
}
/// Updates the progress of `token` for server with `id` to `status`, returns the value replaced or `None`.
pub fn update (
& mut self ,
id : usize ,
token : lsp ::ProgressToken ,
status : lsp ::WorkDoneProgress ,
) -> Option < ProgressStatus > {
self . 0
. entry ( id )
. or_default ( )
. insert ( token , ProgressStatus ::Started ( status ) )
}
}
struct NewClient ( Arc < Client > , UnboundedReceiver < ( usize , Call ) > ) ;
/// start_client takes both a LanguageConfiguration and a LanguageServerConfiguration to ensure that
/// it is only called when it makes sense.
fn start_client (
id : usize ,
name : String ,
config : & LanguageConfiguration ,
ls_config : & LanguageServerConfiguration ,
doc_path : Option < & std ::path ::PathBuf > ,
root_dirs : & [ PathBuf ] ,
enable_snippets : bool ,
) -> Result < Option < NewClient > > {
let ( workspace , workspace_is_cwd ) = helix_loader ::find_workspace ( ) ;
let workspace = path ::normalize ( workspace ) ;
let root = find_lsp_workspace (
doc_path
. and_then ( | x | x . parent ( ) . and_then ( | x | x . to_str ( ) ) )
. unwrap_or ( "." ) ,
& config . roots ,
config . workspace_lsp_roots . as_deref ( ) . unwrap_or ( root_dirs ) ,
& workspace ,
workspace_is_cwd ,
) ;
// `root_uri` and `workspace_folder` can be empty in case there is no workspace
// `root_url` can not, use `workspace` as a fallback
let root_path = root . clone ( ) . unwrap_or_else ( | | workspace . clone ( ) ) ;
let root_uri = root . and_then ( | root | lsp ::Url ::from_file_path ( root ) . ok ( ) ) ;
if let Some ( globset ) = & ls_config . required_root_patterns {
if ! root_path
. read_dir ( ) ?
. flatten ( )
. map ( | entry | entry . file_name ( ) )
. any ( | entry | globset . is_match ( entry ) )
{
return Ok ( None ) ;
}
}
let ( client , incoming , initialize_notify ) = Client ::start (
& ls_config . command ,
& ls_config . args ,
ls_config . config . clone ( ) ,
ls_config . environment . clone ( ) ,
root_path ,
root_uri ,
id ,
name ,
ls_config . timeout ,
) ? ;
let client = Arc ::new ( client ) ;
// Initialize the client asynchronously
let _client = client . clone ( ) ;
tokio ::spawn ( async move {
use futures_util ::TryFutureExt ;
let value = _client
. capabilities
. get_or_try_init ( | | {
_client
. initialize ( enable_snippets )
. map_ok ( | response | response . capabilities )
} )
. await ;
if let Err ( e ) = value {
log ::error ! ( "failed to initialize language server: {}" , e ) ;
return ;
}
// next up, notify<initialized>
let notification_result = _client
. notify ::< lsp ::notification ::Initialized > ( lsp ::InitializedParams { } )
. await ;
if let Err ( e ) = notification_result {
log ::error ! (
"failed to notify language server of its initialization: {}" ,
e
) ;
return ;
}
initialize_notify . notify_one ( ) ;
} ) ;
Ok ( Some ( NewClient ( client , incoming ) ) )
}
/// Find an LSP workspace of a file using the following mechanism:
/// * if the file is outside `workspace` return `None`
/// * start at `file` and search the file tree upward
/// * stop the search at the first `root_dirs` entry that contains `file`
/// * if no `root_dirs` matches `file` stop at workspace
/// * Returns the top most directory that contains a `root_marker`
/// * If no root marker and we stopped at a `root_dirs` entry, return the directory we stopped at
/// * If we stopped at `workspace` instead and `workspace_is_cwd == false` return `None`
/// * If we stopped at `workspace` instead and `workspace_is_cwd == true` return `workspace`
pub fn find_lsp_workspace (
file : & str ,
root_markers : & [ String ] ,
root_dirs : & [ PathBuf ] ,
workspace : & Path ,
workspace_is_cwd : bool ,
) -> Option < PathBuf > {
let file = std ::path ::Path ::new ( file ) ;
let mut file = if file . is_absolute ( ) {
file . to_path_buf ( )
} else {
let current_dir = helix_stdx ::env ::current_working_dir ( ) ;
current_dir . join ( file )
} ;
file = path ::normalize ( & file ) ;
if ! file . starts_with ( workspace ) {
return None ;
}
let mut top_marker = None ;
for ancestor in file . ancestors ( ) {
if root_markers
. iter ( )
. any ( | marker | ancestor . join ( marker ) . exists ( ) )
{
top_marker = Some ( ancestor ) ;
}
if root_dirs
. iter ( )
. any ( | root_dir | path ::normalize ( workspace . join ( root_dir ) ) = = ancestor )
{
// if the worskapce is the cwd do not search any higher for workspaces
// but specify
return Some ( top_marker . unwrap_or ( workspace ) . to_owned ( ) ) ;
}
if ancestor = = workspace {
// if the workspace is the CWD, let the LSP decide what the workspace
// is
return top_marker
. or_else ( | | ( ! workspace_is_cwd ) . then_some ( workspace ) )
. map ( Path ::to_owned ) ;
}
}
debug_assert! ( false , "workspace must be an ancestor of <file>" ) ;
None
}
#[ cfg(test) ]
mod tests {
use super ::{ lsp , util ::* , OffsetEncoding } ;
use helix_core ::Rope ;
#[ test ]
fn converts_lsp_pos_to_pos ( ) {
macro_rules! test_case {
( $doc :expr , ( $x :expr , $y :expr ) = > $want :expr ) = > {
let doc = Rope ::from ( $doc ) ;
let pos = lsp ::Position ::new ( $x , $y ) ;
assert_eq! ( $want , lsp_pos_to_pos ( & doc , pos , OffsetEncoding ::Utf16 ) ) ;
assert_eq! ( $want , lsp_pos_to_pos ( & doc , pos , OffsetEncoding ::Utf8 ) )
} ;
}
test_case ! ( "" , ( 0 , 0 ) = > Some ( 0 ) ) ;
test_case ! ( "" , ( 0 , 1 ) = > Some ( 0 ) ) ;
test_case ! ( "" , ( 1 , 0 ) = > Some ( 0 ) ) ;
test_case ! ( "\n\n" , ( 0 , 0 ) = > Some ( 0 ) ) ;
test_case ! ( "\n\n" , ( 1 , 0 ) = > Some ( 1 ) ) ;
test_case ! ( "\n\n" , ( 1 , 1 ) = > Some ( 1 ) ) ;
test_case ! ( "\n\n" , ( 2 , 0 ) = > Some ( 2 ) ) ;
test_case ! ( "\n\n" , ( 3 , 0 ) = > Some ( 2 ) ) ;
test_case ! ( "test\n\n\n\ncase" , ( 4 , 3 ) = > Some ( 11 ) ) ;
test_case ! ( "test\n\n\n\ncase" , ( 4 , 4 ) = > Some ( 12 ) ) ;
test_case ! ( "test\n\n\n\ncase" , ( 4 , 5 ) = > Some ( 12 ) ) ;
test_case ! ( "" , ( u32 ::MAX , u32 ::MAX ) = > Some ( 0 ) ) ;
}
#[ test ]
fn emoji_format_gh_4791 ( ) {
use lsp_types ::{ Position , Range , TextEdit } ;
let edits = vec! [
TextEdit {
range : Range {
start : Position {
line : 0 ,
character : 1 ,
} ,
end : Position {
line : 1 ,
character : 0 ,
} ,
} ,
new_text : "\n " . to_string ( ) ,
} ,
TextEdit {
range : Range {
start : Position {
line : 1 ,
character : 7 ,
} ,
end : Position {
line : 2 ,
character : 0 ,
} ,
} ,
new_text : "\n " . to_string ( ) ,
} ,
] ;
let mut source = Rope ::from_str ( "[\n\"🇺🇸\",\n\"🎄\",\n]" ) ;
let transaction = generate_transaction_from_edits ( & source , edits , OffsetEncoding ::Utf8 ) ;
assert! ( transaction . apply ( & mut source ) ) ;
}
}