helix-mods/helix-term/src/health.rs

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use crossterm::{
style::{Color, Print, Stylize},
tty::IsTty,
};
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use helix_core::config::{default_syntax_loader, user_syntax_loader};
use helix_loader::grammar::load_runtime_file;
use helix_view::clipboard::get_clipboard_provider;
use std::io::Write;
#[derive(Copy, Clone)]
pub enum TsFeature {
Highlight,
TextObject,
AutoIndent,
}
impl TsFeature {
pub fn all() -> &'static [Self] {
&[Self::Highlight, Self::TextObject, Self::AutoIndent]
}
pub fn runtime_filename(&self) -> &'static str {
match *self {
Self::Highlight => "highlights.scm",
Self::TextObject => "textobjects.scm",
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Self::AutoIndent => "indents.scm",
}
}
pub fn long_title(&self) -> &'static str {
match *self {
Self::Highlight => "Syntax Highlighting",
Self::TextObject => "Treesitter Textobjects",
Self::AutoIndent => "Auto Indent",
}
}
pub fn short_title(&self) -> &'static str {
match *self {
Self::Highlight => "Highlight",
Self::TextObject => "Textobject",
Self::AutoIndent => "Indent",
}
}
}
/// Display general diagnostics.
pub fn general() -> std::io::Result<()> {
let stdout = std::io::stdout();
let mut stdout = stdout.lock();
let config_file = helix_loader::config_file();
let lang_file = helix_loader::lang_config_file();
let log_file = helix_loader::log_file();
Generalised to multiple runtime directories with priorities (#5411) * Generalised to multiple runtime directories with priorities This is an implementation for #3346. Previously, one of the following runtime directories were used: 1. `$HELIX_RUNTIME` 2. sibling directory to `$CARGO_MANIFEST_DIR` 3. subdirectory of user config directory 4. subdirectory of path to helix executable The first directory provided / found to exist in this order was used as a root for all runtime file searches (grammars, themes, queries). This change lowers the priority of `$HELIX_RUNTIME` so that the user config runtime has higher priority. More significantly, all of these directories are now searched for runtime files, enabling a user to override default or system-level runtime files. If the same file name appears in multiple runtime directories, the following priority is now used: 1. sibling directory to `$CARGO_MANIFEST_DIR` 2. subdirectory of user config directory 3. `$HELIX_RUNTIME` 4. subdirectory of path to helix executable One exception to this rule is that a user can have a `themes` directory directly in the user config directory that has higher piority to `themes` directories in runtime directories. That behaviour has been preserved. As part of implementing this feature `theme::Loader` was simplified and the cycle detection logic of the theme inheritance was improved to cover more cases and to be more explicit. * Removed AsRef usage to avoid binary growth * Health displaying ;-separated runtime dirs * Changed HELIX_RUNTIME build from src instructions * Updated doc for more detail on runtime directories * Improved health symlink printing and theme cycle errors The health display of runtime symlinks now prints both ends of the link. Separate errors are given when theme file is not found and when the only theme file found would form an inheritence cycle. * Satisfied clippy on passing Path * Clarified highest priority runtime directory purpose * Further clarified multiple runtime details in book Also gave markdown headings to subsections. Fixed a error with table indentation not building table that also appears present on master. --------- Co-authored-by: Paul Scott <paul.scott@anu.edu.au> Co-authored-by: Blaž Hrastnik <blaz@mxxn.io>
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let rt_dirs = helix_loader::runtime_dirs();
let clipboard_provider = get_clipboard_provider();
if config_file.exists() {
writeln!(stdout, "Config file: {}", config_file.display())?;
} else {
writeln!(stdout, "Config file: default")?;
}
if lang_file.exists() {
writeln!(stdout, "Language file: {}", lang_file.display())?;
} else {
writeln!(stdout, "Language file: default")?;
}
writeln!(stdout, "Log file: {}", log_file.display())?;
Generalised to multiple runtime directories with priorities (#5411) * Generalised to multiple runtime directories with priorities This is an implementation for #3346. Previously, one of the following runtime directories were used: 1. `$HELIX_RUNTIME` 2. sibling directory to `$CARGO_MANIFEST_DIR` 3. subdirectory of user config directory 4. subdirectory of path to helix executable The first directory provided / found to exist in this order was used as a root for all runtime file searches (grammars, themes, queries). This change lowers the priority of `$HELIX_RUNTIME` so that the user config runtime has higher priority. More significantly, all of these directories are now searched for runtime files, enabling a user to override default or system-level runtime files. If the same file name appears in multiple runtime directories, the following priority is now used: 1. sibling directory to `$CARGO_MANIFEST_DIR` 2. subdirectory of user config directory 3. `$HELIX_RUNTIME` 4. subdirectory of path to helix executable One exception to this rule is that a user can have a `themes` directory directly in the user config directory that has higher piority to `themes` directories in runtime directories. That behaviour has been preserved. As part of implementing this feature `theme::Loader` was simplified and the cycle detection logic of the theme inheritance was improved to cover more cases and to be more explicit. * Removed AsRef usage to avoid binary growth * Health displaying ;-separated runtime dirs * Changed HELIX_RUNTIME build from src instructions * Updated doc for more detail on runtime directories * Improved health symlink printing and theme cycle errors The health display of runtime symlinks now prints both ends of the link. Separate errors are given when theme file is not found and when the only theme file found would form an inheritence cycle. * Satisfied clippy on passing Path * Clarified highest priority runtime directory purpose * Further clarified multiple runtime details in book Also gave markdown headings to subsections. Fixed a error with table indentation not building table that also appears present on master. --------- Co-authored-by: Paul Scott <paul.scott@anu.edu.au> Co-authored-by: Blaž Hrastnik <blaz@mxxn.io>
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writeln!(
stdout,
"Runtime directories: {}",
rt_dirs
.iter()
.map(|d| d.to_string_lossy())
.collect::<Vec<_>>()
.join(";")
)?;
for rt_dir in rt_dirs.iter() {
if let Ok(path) = std::fs::read_link(rt_dir) {
let msg = format!(
"Runtime directory {} is symlinked to: {}",
rt_dir.display(),
path.display()
);
writeln!(stdout, "{}", msg.yellow())?;
}
if !rt_dir.exists() {
let msg = format!("Runtime directory does not exist: {}", rt_dir.display());
writeln!(stdout, "{}", msg.yellow())?;
} else if rt_dir.read_dir().ok().map(|it| it.count()) == Some(0) {
let msg = format!("Runtime directory is empty: {}", rt_dir.display());
writeln!(stdout, "{}", msg.yellow())?;
}
}
writeln!(stdout, "Clipboard provider: {}", clipboard_provider.name())?;
Ok(())
}
pub fn clipboard() -> std::io::Result<()> {
let stdout = std::io::stdout();
let mut stdout = stdout.lock();
let board = get_clipboard_provider();
match board.name().as_ref() {
"none" => {
writeln!(
stdout,
"{}",
"System clipboard provider: Not installed".red()
)?;
writeln!(
stdout,
" {}",
"For troubleshooting system clipboard issues, refer".red()
)?;
writeln!(stdout, " {}",
"https://github.com/helix-editor/helix/wiki/Troubleshooting#copypaste-fromto-system-clipboard-not-working"
.red().underlined())?;
}
name => writeln!(stdout, "System clipboard provider: {}", name)?,
}
Ok(())
}
pub fn languages_all() -> std::io::Result<()> {
let stdout = std::io::stdout();
let mut stdout = stdout.lock();
let mut syn_loader_conf = match user_syntax_loader() {
Ok(conf) => conf,
Err(err) => {
let stderr = std::io::stderr();
let mut stderr = stderr.lock();
writeln!(
stderr,
"{}: {}",
"Error parsing user language config".red(),
err
)?;
writeln!(stderr, "{}", "Using default language config".yellow())?;
default_syntax_loader()
}
};
let mut headings = vec!["Language", "LSP", "DAP"];
for feat in TsFeature::all() {
headings.push(feat.short_title())
}
let terminal_cols = crossterm::terminal::size().map(|(c, _)| c).unwrap_or(80);
let column_width = terminal_cols as usize / headings.len();
let is_terminal = std::io::stdout().is_tty();
let column = |item: &str, color: Color| {
let mut data = format!(
"{:width$}",
item.get(..column_width - 2)
.map(|s| format!("{}", s))
.unwrap_or_else(|| item.to_string()),
width = column_width,
);
if is_terminal {
data = data.stylize().with(color).to_string();
}
// We can't directly use println!() because of
// https://github.com/crossterm-rs/crossterm/issues/589
let _ = crossterm::execute!(std::io::stdout(), Print(data));
};
for heading in headings {
column(heading, Color::White);
}
writeln!(stdout)?;
syn_loader_conf
.language
.sort_unstable_by_key(|l| l.language_id.clone());
let check_binary = |cmd: Option<String>| match cmd {
Some(cmd) => match which::which(&cmd) {
Ok(_) => column(&format!("{}", cmd), Color::Green),
Err(_) => column(&format!("{}", cmd), Color::Red),
},
None => column("None", Color::Yellow),
};
for lang in &syn_loader_conf.language {
column(&lang.language_id, Color::Reset);
Adds support for multiple language servers per language. Language Servers are now configured in a separate table in `languages.toml`: ```toml [langauge-server.mylang-lsp] command = "mylang-lsp" args = ["--stdio"] config = { provideFormatter = true } [language-server.efm-lsp-prettier] command = "efm-langserver" [language-server.efm-lsp-prettier.config] documentFormatting = true languages = { typescript = [ { formatCommand ="prettier --stdin-filepath ${INPUT}", formatStdin = true } ] } ``` The language server for a language is configured like this (`typescript-language-server` is configured by default): ```toml [[language]] name = "typescript" language-servers = [ { name = "efm-lsp-prettier", only-features = [ "format" ] }, "typescript-language-server" ] ``` or equivalent: ```toml [[language]] name = "typescript" language-servers = [ { name = "typescript-language-server", except-features = [ "format" ] }, "efm-lsp-prettier" ] ``` Each requested LSP feature is priorized in the order of the `language-servers` array. For example the first `goto-definition` supported language server (in this case `typescript-language-server`) will be taken for the relevant LSP request (command `goto_definition`). If no `except-features` or `only-features` is given all features for the language server are enabled, as long as the language server supports these. If it doesn't the next language server which supports the feature is tried. The list of supported features are: - `format` - `goto-definition` - `goto-declaration` - `goto-type-definition` - `goto-reference` - `goto-implementation` - `signature-help` - `hover` - `document-highlight` - `completion` - `code-action` - `workspace-command` - `document-symbols` - `workspace-symbols` - `diagnostics` - `rename-symbol` - `inlay-hints` Another side-effect/difference that comes with this PR, is that only one language server instance is started if different languages use the same language server.
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// TODO multiple language servers (check binary for each supported language server, not just the first)
let lsp = lang.language_servers.first().and_then(|ls| {
Adds support for multiple language servers per language. Language Servers are now configured in a separate table in `languages.toml`: ```toml [langauge-server.mylang-lsp] command = "mylang-lsp" args = ["--stdio"] config = { provideFormatter = true } [language-server.efm-lsp-prettier] command = "efm-langserver" [language-server.efm-lsp-prettier.config] documentFormatting = true languages = { typescript = [ { formatCommand ="prettier --stdin-filepath ${INPUT}", formatStdin = true } ] } ``` The language server for a language is configured like this (`typescript-language-server` is configured by default): ```toml [[language]] name = "typescript" language-servers = [ { name = "efm-lsp-prettier", only-features = [ "format" ] }, "typescript-language-server" ] ``` or equivalent: ```toml [[language]] name = "typescript" language-servers = [ { name = "typescript-language-server", except-features = [ "format" ] }, "efm-lsp-prettier" ] ``` Each requested LSP feature is priorized in the order of the `language-servers` array. For example the first `goto-definition` supported language server (in this case `typescript-language-server`) will be taken for the relevant LSP request (command `goto_definition`). If no `except-features` or `only-features` is given all features for the language server are enabled, as long as the language server supports these. If it doesn't the next language server which supports the feature is tried. The list of supported features are: - `format` - `goto-definition` - `goto-declaration` - `goto-type-definition` - `goto-reference` - `goto-implementation` - `signature-help` - `hover` - `document-highlight` - `completion` - `code-action` - `workspace-command` - `document-symbols` - `workspace-symbols` - `diagnostics` - `rename-symbol` - `inlay-hints` Another side-effect/difference that comes with this PR, is that only one language server instance is started if different languages use the same language server.
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syn_loader_conf
.language_server
.get(&ls.name)
Adds support for multiple language servers per language. Language Servers are now configured in a separate table in `languages.toml`: ```toml [langauge-server.mylang-lsp] command = "mylang-lsp" args = ["--stdio"] config = { provideFormatter = true } [language-server.efm-lsp-prettier] command = "efm-langserver" [language-server.efm-lsp-prettier.config] documentFormatting = true languages = { typescript = [ { formatCommand ="prettier --stdin-filepath ${INPUT}", formatStdin = true } ] } ``` The language server for a language is configured like this (`typescript-language-server` is configured by default): ```toml [[language]] name = "typescript" language-servers = [ { name = "efm-lsp-prettier", only-features = [ "format" ] }, "typescript-language-server" ] ``` or equivalent: ```toml [[language]] name = "typescript" language-servers = [ { name = "typescript-language-server", except-features = [ "format" ] }, "efm-lsp-prettier" ] ``` Each requested LSP feature is priorized in the order of the `language-servers` array. For example the first `goto-definition` supported language server (in this case `typescript-language-server`) will be taken for the relevant LSP request (command `goto_definition`). If no `except-features` or `only-features` is given all features for the language server are enabled, as long as the language server supports these. If it doesn't the next language server which supports the feature is tried. The list of supported features are: - `format` - `goto-definition` - `goto-declaration` - `goto-type-definition` - `goto-reference` - `goto-implementation` - `signature-help` - `hover` - `document-highlight` - `completion` - `code-action` - `workspace-command` - `document-symbols` - `workspace-symbols` - `diagnostics` - `rename-symbol` - `inlay-hints` Another side-effect/difference that comes with this PR, is that only one language server instance is started if different languages use the same language server.
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.map(|config| config.command.clone())
});
check_binary(lsp);
let dap = lang.debugger.as_ref().map(|dap| dap.command.to_string());
check_binary(dap);
for ts_feat in TsFeature::all() {
match load_runtime_file(&lang.language_id, ts_feat.runtime_filename()).is_ok() {
true => column("", Color::Green),
false => column("", Color::Red),
}
}
writeln!(stdout)?;
}
Ok(())
}
/// Display diagnostics pertaining to a particular language (LSP,
/// highlight queries, etc).
pub fn language(lang_str: String) -> std::io::Result<()> {
let stdout = std::io::stdout();
let mut stdout = stdout.lock();
let syn_loader_conf = match user_syntax_loader() {
Ok(conf) => conf,
Err(err) => {
let stderr = std::io::stderr();
let mut stderr = stderr.lock();
writeln!(
stderr,
"{}: {}",
"Error parsing user language config".red(),
err
)?;
writeln!(stderr, "{}", "Using default language config".yellow())?;
default_syntax_loader()
}
};
let lang = match syn_loader_conf
.language
.iter()
.find(|l| l.language_id == lang_str)
{
Some(l) => l,
None => {
let msg = format!("Language '{}' not found", lang_str);
writeln!(stdout, "{}", msg.red())?;
let suggestions: Vec<&str> = syn_loader_conf
.language
.iter()
.filter(|l| l.language_id.starts_with(lang_str.chars().next().unwrap()))
.map(|l| l.language_id.as_str())
.collect();
if !suggestions.is_empty() {
let suggestions = suggestions.join(", ");
writeln!(
stdout,
"Did you mean one of these: {} ?",
suggestions.yellow()
)?;
}
return Ok(());
}
};
Adds support for multiple language servers per language. Language Servers are now configured in a separate table in `languages.toml`: ```toml [langauge-server.mylang-lsp] command = "mylang-lsp" args = ["--stdio"] config = { provideFormatter = true } [language-server.efm-lsp-prettier] command = "efm-langserver" [language-server.efm-lsp-prettier.config] documentFormatting = true languages = { typescript = [ { formatCommand ="prettier --stdin-filepath ${INPUT}", formatStdin = true } ] } ``` The language server for a language is configured like this (`typescript-language-server` is configured by default): ```toml [[language]] name = "typescript" language-servers = [ { name = "efm-lsp-prettier", only-features = [ "format" ] }, "typescript-language-server" ] ``` or equivalent: ```toml [[language]] name = "typescript" language-servers = [ { name = "typescript-language-server", except-features = [ "format" ] }, "efm-lsp-prettier" ] ``` Each requested LSP feature is priorized in the order of the `language-servers` array. For example the first `goto-definition` supported language server (in this case `typescript-language-server`) will be taken for the relevant LSP request (command `goto_definition`). If no `except-features` or `only-features` is given all features for the language server are enabled, as long as the language server supports these. If it doesn't the next language server which supports the feature is tried. The list of supported features are: - `format` - `goto-definition` - `goto-declaration` - `goto-type-definition` - `goto-reference` - `goto-implementation` - `signature-help` - `hover` - `document-highlight` - `completion` - `code-action` - `workspace-command` - `document-symbols` - `workspace-symbols` - `diagnostics` - `rename-symbol` - `inlay-hints` Another side-effect/difference that comes with this PR, is that only one language server instance is started if different languages use the same language server.
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// TODO multiple language servers
probe_protocol(
"language server",
lang.language_servers.first().and_then(|ls| {
Adds support for multiple language servers per language. Language Servers are now configured in a separate table in `languages.toml`: ```toml [langauge-server.mylang-lsp] command = "mylang-lsp" args = ["--stdio"] config = { provideFormatter = true } [language-server.efm-lsp-prettier] command = "efm-langserver" [language-server.efm-lsp-prettier.config] documentFormatting = true languages = { typescript = [ { formatCommand ="prettier --stdin-filepath ${INPUT}", formatStdin = true } ] } ``` The language server for a language is configured like this (`typescript-language-server` is configured by default): ```toml [[language]] name = "typescript" language-servers = [ { name = "efm-lsp-prettier", only-features = [ "format" ] }, "typescript-language-server" ] ``` or equivalent: ```toml [[language]] name = "typescript" language-servers = [ { name = "typescript-language-server", except-features = [ "format" ] }, "efm-lsp-prettier" ] ``` Each requested LSP feature is priorized in the order of the `language-servers` array. For example the first `goto-definition` supported language server (in this case `typescript-language-server`) will be taken for the relevant LSP request (command `goto_definition`). If no `except-features` or `only-features` is given all features for the language server are enabled, as long as the language server supports these. If it doesn't the next language server which supports the feature is tried. The list of supported features are: - `format` - `goto-definition` - `goto-declaration` - `goto-type-definition` - `goto-reference` - `goto-implementation` - `signature-help` - `hover` - `document-highlight` - `completion` - `code-action` - `workspace-command` - `document-symbols` - `workspace-symbols` - `diagnostics` - `rename-symbol` - `inlay-hints` Another side-effect/difference that comes with this PR, is that only one language server instance is started if different languages use the same language server.
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syn_loader_conf
.language_server
.get(&ls.name)
Adds support for multiple language servers per language. Language Servers are now configured in a separate table in `languages.toml`: ```toml [langauge-server.mylang-lsp] command = "mylang-lsp" args = ["--stdio"] config = { provideFormatter = true } [language-server.efm-lsp-prettier] command = "efm-langserver" [language-server.efm-lsp-prettier.config] documentFormatting = true languages = { typescript = [ { formatCommand ="prettier --stdin-filepath ${INPUT}", formatStdin = true } ] } ``` The language server for a language is configured like this (`typescript-language-server` is configured by default): ```toml [[language]] name = "typescript" language-servers = [ { name = "efm-lsp-prettier", only-features = [ "format" ] }, "typescript-language-server" ] ``` or equivalent: ```toml [[language]] name = "typescript" language-servers = [ { name = "typescript-language-server", except-features = [ "format" ] }, "efm-lsp-prettier" ] ``` Each requested LSP feature is priorized in the order of the `language-servers` array. For example the first `goto-definition` supported language server (in this case `typescript-language-server`) will be taken for the relevant LSP request (command `goto_definition`). If no `except-features` or `only-features` is given all features for the language server are enabled, as long as the language server supports these. If it doesn't the next language server which supports the feature is tried. The list of supported features are: - `format` - `goto-definition` - `goto-declaration` - `goto-type-definition` - `goto-reference` - `goto-implementation` - `signature-help` - `hover` - `document-highlight` - `completion` - `code-action` - `workspace-command` - `document-symbols` - `workspace-symbols` - `diagnostics` - `rename-symbol` - `inlay-hints` Another side-effect/difference that comes with this PR, is that only one language server instance is started if different languages use the same language server.
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.map(|config| config.command.clone())
}),
)?;
probe_protocol(
"debug adapter",
lang.debugger.as_ref().map(|dap| dap.command.to_string()),
)?;
for ts_feat in TsFeature::all() {
probe_treesitter_feature(&lang_str, *ts_feat)?
}
Ok(())
}
/// Display diagnostics about LSP and DAP.
fn probe_protocol(protocol_name: &str, server_cmd: Option<String>) -> std::io::Result<()> {
let stdout = std::io::stdout();
let mut stdout = stdout.lock();
let cmd_name = match server_cmd {
Some(ref cmd) => cmd.as_str().green(),
None => "None".yellow(),
};
writeln!(stdout, "Configured {}: {}", protocol_name, cmd_name)?;
if let Some(cmd) = server_cmd {
let path = match which::which(&cmd) {
Ok(path) => path.display().to_string().green(),
Err(_) => format!("'{}' not found in $PATH", cmd).red(),
};
writeln!(stdout, "Binary for {}: {}", protocol_name, path)?;
}
Ok(())
}
/// Display diagnostics about a feature that requires tree-sitter
/// query files (highlights, textobjects, etc).
fn probe_treesitter_feature(lang: &str, feature: TsFeature) -> std::io::Result<()> {
let stdout = std::io::stdout();
let mut stdout = stdout.lock();
let found = match load_runtime_file(lang, feature.runtime_filename()).is_ok() {
true => "".green(),
false => "".red(),
};
writeln!(stdout, "{} queries: {}", feature.short_title(), found)?;
Ok(())
}
pub fn print_health(health_arg: Option<String>) -> std::io::Result<()> {
match health_arg.as_deref() {
Some("languages") => languages_all()?,
Some("clipboard") => clipboard()?,
None | Some("all") => {
general()?;
clipboard()?;
writeln!(std::io::stdout().lock())?;
languages_all()?;
}
Some(lang) => language(lang.to_string())?,
}
Ok(())
}