use crate::{ ast::Block, engine::{ description::build_desc, CachedFile, Command, CommandType, EngineState, OverlayFrame, StateDelta, Variable, VirtualPath, Visibility, }, BlockId, Category, CompileError, Config, DeclId, FileId, GetSpan, Module, ModuleId, OverlayId, ParseError, ParseWarning, Signature, Span, SpanId, Type, Value, VarId, VirtualPathId, }; use core::panic; use std::{ collections::{HashMap, HashSet}, path::{Path, PathBuf}, sync::Arc, }; #[cfg(feature = "plugin")] use crate::{PluginIdentity, PluginRegistryItem, RegisteredPlugin}; /// A temporary extension to the global state. This handles bridging between the global state and the /// additional declarations and scope changes that are not yet part of the global scope. /// /// This working set is created by the parser as a way of handling declarations and scope changes that /// may later be merged or dropped (and not merged) depending on the needs of the code calling the parser. pub struct StateWorkingSet<'a> { pub permanent_state: &'a EngineState, pub delta: StateDelta, pub files: FileStack, /// Whether or not predeclarations are searched when looking up a command (used with aliases) pub search_predecls: bool, pub parse_errors: Vec, pub parse_warnings: Vec, pub compile_errors: Vec, } impl<'a> StateWorkingSet<'a> { pub fn new(permanent_state: &'a EngineState) -> Self { // Initialize the file stack with the top-level file. let files = if let Some(file) = permanent_state.file.clone() { FileStack::with_file(file) } else { FileStack::new() }; Self { delta: StateDelta::new(permanent_state), permanent_state, files, search_predecls: true, parse_errors: vec![], parse_warnings: vec![], compile_errors: vec![], } } pub fn permanent(&self) -> &EngineState { self.permanent_state } pub fn error(&mut self, parse_error: ParseError) { self.parse_errors.push(parse_error) } pub fn warning(&mut self, parse_warning: ParseWarning) { self.parse_warnings.push(parse_warning) } pub fn num_files(&self) -> usize { self.delta.num_files() + self.permanent_state.num_files() } pub fn num_virtual_paths(&self) -> usize { self.delta.num_virtual_paths() + self.permanent_state.num_virtual_paths() } pub fn num_decls(&self) -> usize { self.delta.num_decls() + self.permanent_state.num_decls() } pub fn num_blocks(&self) -> usize { self.delta.num_blocks() + self.permanent_state.num_blocks() } pub fn num_modules(&self) -> usize { self.delta.num_modules() + self.permanent_state.num_modules() } pub fn unique_overlay_names(&self) -> HashSet<&[u8]> { let mut names: HashSet<&[u8]> = self.permanent_state.active_overlay_names(&[]).collect(); for scope_frame in self.delta.scope.iter().rev() { for overlay_id in scope_frame.active_overlays.iter().rev() { let (overlay_name, _) = scope_frame .overlays .get(overlay_id.get()) .expect("internal error: missing overlay"); names.insert(overlay_name); names.retain(|n| !scope_frame.removed_overlays.iter().any(|m| n == m)); } } names } pub fn num_overlays(&self) -> usize { self.unique_overlay_names().len() } pub fn add_decl(&mut self, decl: Box) -> DeclId { let name = decl.name().as_bytes().to_vec(); self.delta.decls.push(decl); let decl_id = self.num_decls() - 1; let decl_id = DeclId::new(decl_id); self.last_overlay_mut().insert_decl(name, decl_id); decl_id } pub fn use_decls(&mut self, decls: Vec<(Vec, DeclId)>) { let overlay_frame = self.last_overlay_mut(); for (name, decl_id) in decls { overlay_frame.insert_decl(name, decl_id); overlay_frame.visibility.use_decl_id(&decl_id); } } pub fn use_modules(&mut self, modules: Vec<(Vec, ModuleId)>) { let overlay_frame = self.last_overlay_mut(); for (name, module_id) in modules { overlay_frame.insert_module(name, module_id); // overlay_frame.visibility.use_module_id(&module_id); // TODO: Add hiding modules } } pub fn use_variables(&mut self, variables: Vec<(Vec, VarId)>) { let overlay_frame = self.last_overlay_mut(); for (mut name, var_id) in variables { if !name.starts_with(b"$") { name.insert(0, b'$'); } overlay_frame.insert_variable(name, var_id); } } pub fn add_predecl(&mut self, decl: Box) -> Option { let name = decl.name().as_bytes().to_vec(); self.delta.decls.push(decl); let decl_id = self.num_decls() - 1; let decl_id = DeclId::new(decl_id); self.delta .last_scope_frame_mut() .predecls .insert(name, decl_id) } #[cfg(feature = "plugin")] pub fn find_or_create_plugin( &mut self, identity: &PluginIdentity, make: impl FnOnce() -> Arc, ) -> Arc { // Check in delta first, then permanent_state if let Some(plugin) = self .delta .plugins .iter() .chain(self.permanent_state.plugins()) .find(|p| p.identity() == identity) { plugin.clone() } else { let plugin = make(); self.delta.plugins.push(plugin.clone()); plugin } } #[cfg(feature = "plugin")] pub fn update_plugin_registry(&mut self, item: PluginRegistryItem) { self.delta.plugin_registry_items.push(item); } pub fn merge_predecl(&mut self, name: &[u8]) -> Option { self.move_predecls_to_overlay(); let overlay_frame = self.last_overlay_mut(); if let Some(decl_id) = overlay_frame.predecls.remove(name) { overlay_frame.insert_decl(name.into(), decl_id); return Some(decl_id); } None } pub fn move_predecls_to_overlay(&mut self) { let predecls: HashMap, DeclId> = self.delta.last_scope_frame_mut().predecls.drain().collect(); self.last_overlay_mut().predecls.extend(predecls); } pub fn hide_decl(&mut self, name: &[u8]) -> Option { let mut removed_overlays = vec![]; let mut visibility: Visibility = Visibility::new(); // Since we can mutate scope frames in delta, remove the id directly for scope_frame in self.delta.scope.iter_mut().rev() { for overlay_id in scope_frame .active_overlay_ids(&mut removed_overlays) .iter() .rev() { let overlay_frame = scope_frame.get_overlay_mut(*overlay_id); visibility.append(&overlay_frame.visibility); if let Some(decl_id) = overlay_frame.get_decl(name) { if visibility.is_decl_id_visible(&decl_id) { // Hide decl only if it's not already hidden overlay_frame.visibility.hide_decl_id(&decl_id); return Some(decl_id); } } } } // We cannot mutate the permanent state => store the information in the current overlay frame // for scope in self.permanent_state.scope.iter().rev() { for overlay_frame in self .permanent_state .active_overlays(&removed_overlays) .rev() { visibility.append(&overlay_frame.visibility); if let Some(decl_id) = overlay_frame.get_decl(name) { if visibility.is_decl_id_visible(&decl_id) { // Hide decl only if it's not already hidden self.last_overlay_mut().visibility.hide_decl_id(&decl_id); return Some(decl_id); } } } None } pub fn hide_decls(&mut self, decls: &[Vec]) { for decl in decls.iter() { self.hide_decl(decl); // let's assume no errors } } pub fn add_block(&mut self, block: Arc) -> BlockId { log::trace!( "block id={} added, has IR = {:?}", self.num_blocks(), block.ir_block.is_some() ); self.delta.blocks.push(block); BlockId::new(self.num_blocks() - 1) } pub fn add_module(&mut self, name: &str, module: Module, comments: Vec) -> ModuleId { let name = name.as_bytes().to_vec(); self.delta.modules.push(Arc::new(module)); let module_id = self.num_modules() - 1; let module_id = ModuleId::new(module_id); if !comments.is_empty() { self.delta .doccomments .add_module_comments(module_id, comments); } self.last_overlay_mut().modules.insert(name, module_id); module_id } pub fn get_module_comments(&self, module_id: ModuleId) -> Option<&[Span]> { self.delta .doccomments .get_module_comments(module_id) .or_else(|| self.permanent_state.get_module_comments(module_id)) } pub fn next_span_start(&self) -> usize { let permanent_span_start = self.permanent_state.next_span_start(); if let Some(cached_file) = self.delta.files.last() { cached_file.covered_span.end } else { permanent_span_start } } pub fn global_span_offset(&self) -> usize { self.permanent_state.next_span_start() } pub fn files(&self) -> impl Iterator { self.permanent_state.files().chain(self.delta.files.iter()) } pub fn get_contents_of_file(&self, file_id: FileId) -> Option<&[u8]> { if let Some(cached_file) = self.permanent_state.get_file_contents().get(file_id.get()) { return Some(&cached_file.content); } // The index subtraction will not underflow, if we hit the permanent state first. // Check if you try reordering for locality if let Some(cached_file) = self .delta .get_file_contents() .get(file_id.get() - self.permanent_state.num_files()) { return Some(&cached_file.content); } None } #[must_use] pub fn add_file(&mut self, filename: String, contents: &[u8]) -> FileId { // First, look for the file to see if we already have it for (idx, cached_file) in self.files().enumerate() { if *cached_file.name == filename && &*cached_file.content == contents { return FileId::new(idx); } } let next_span_start = self.next_span_start(); let next_span_end = next_span_start + contents.len(); let covered_span = Span::new(next_span_start, next_span_end); self.delta.files.push(CachedFile { name: filename.into(), content: contents.into(), covered_span, }); FileId::new(self.num_files() - 1) } #[must_use] pub fn add_virtual_path(&mut self, name: String, virtual_path: VirtualPath) -> VirtualPathId { self.delta.virtual_paths.push((name, virtual_path)); VirtualPathId::new(self.num_virtual_paths() - 1) } pub fn get_span_for_filename(&self, filename: &str) -> Option { let file_id = self.files().position(|file| &*file.name == filename)?; let file_id = FileId::new(file_id); Some(self.get_span_for_file(file_id)) } /// Panics: /// On invalid `FileId` /// /// Use with care pub fn get_span_for_file(&self, file_id: FileId) -> Span { let result = self .files() .nth(file_id.get()) .expect("internal error: could not find source for previously parsed file"); result.covered_span } pub fn get_span_contents(&self, span: Span) -> &[u8] { let permanent_end = self.permanent_state.next_span_start(); if permanent_end <= span.start { for cached_file in &self.delta.files { if cached_file.covered_span.contains_span(span) { return &cached_file.content[span.start - cached_file.covered_span.start ..span.end - cached_file.covered_span.start]; } } } // if no files with span were found, fall back on permanent ones return self.permanent_state.get_span_contents(span); } pub fn enter_scope(&mut self) { self.delta.enter_scope(); } pub fn exit_scope(&mut self) { self.delta.exit_scope(); } /// Find the [`DeclId`](nu_protocol::id::DeclId) corresponding to a predeclaration with `name`. pub fn find_predecl(&self, name: &[u8]) -> Option { let mut removed_overlays = vec![]; for scope_frame in self.delta.scope.iter().rev() { if let Some(decl_id) = scope_frame.predecls.get(name) { return Some(*decl_id); } for overlay_frame in scope_frame.active_overlays(&mut removed_overlays).rev() { if let Some(decl_id) = overlay_frame.predecls.get(name) { return Some(*decl_id); } } } None } /// Find the [`DeclId`](nu_protocol::id::DeclId) corresponding to a declaration with `name`. /// /// Extends [`EngineState::find_decl`] to also search for predeclarations (if [`StateWorkingSet::search_predecls`] is set), /// and declarations from scopes existing only in [`StateDelta`]. pub fn find_decl(&self, name: &[u8]) -> Option { let mut removed_overlays = vec![]; let mut visibility: Visibility = Visibility::new(); for scope_frame in self.delta.scope.iter().rev() { if self.search_predecls { if let Some(decl_id) = scope_frame.predecls.get(name) { if visibility.is_decl_id_visible(decl_id) { return Some(*decl_id); } } } // check overlay in delta for overlay_frame in scope_frame.active_overlays(&mut removed_overlays).rev() { visibility.append(&overlay_frame.visibility); if self.search_predecls { if let Some(decl_id) = overlay_frame.predecls.get(name) { if visibility.is_decl_id_visible(decl_id) { return Some(*decl_id); } } } if let Some(decl_id) = overlay_frame.get_decl(name) { if visibility.is_decl_id_visible(&decl_id) { return Some(decl_id); } } } } // check overlay in perma self.permanent_state.find_decl(name, &removed_overlays) } /// Find the name of the declaration corresponding to `decl_id`. /// /// Extends [`EngineState::find_decl_name`] to also search for predeclarations (if [`StateWorkingSet::search_predecls`] is set), /// and declarations from scopes existing only in [`StateDelta`]. pub fn find_decl_name(&self, decl_id: DeclId) -> Option<&[u8]> { let mut removed_overlays = vec![]; let mut visibility: Visibility = Visibility::new(); for scope_frame in self.delta.scope.iter().rev() { if self.search_predecls { for (name, id) in scope_frame.predecls.iter() { if id == &decl_id { return Some(name); } } } // check overlay in delta for overlay_frame in scope_frame.active_overlays(&mut removed_overlays).rev() { visibility.append(&overlay_frame.visibility); if self.search_predecls { for (name, id) in overlay_frame.predecls.iter() { if id == &decl_id { return Some(name); } } } if visibility.is_decl_id_visible(&decl_id) { for (name, id) in overlay_frame.decls.iter() { if id == &decl_id { return Some(name); } } } } } // check overlay in perma self.permanent_state .find_decl_name(decl_id, &removed_overlays) } /// Find the [`ModuleId`](nu_protocol::id::ModuleId) corresponding to `name`. /// /// Extends [`EngineState::find_module`] to also search for , /// and declarations from scopes existing only in [`StateDelta`]. pub fn find_module(&self, name: &[u8]) -> Option { let mut removed_overlays = vec![]; for scope_frame in self.delta.scope.iter().rev() { for overlay_frame in scope_frame.active_overlays(&mut removed_overlays).rev() { if let Some(module_id) = overlay_frame.modules.get(name) { return Some(*module_id); } } } for overlay_frame in self .permanent_state .active_overlays(&removed_overlays) .rev() { if let Some(module_id) = overlay_frame.modules.get(name) { return Some(*module_id); } } None } pub fn contains_decl_partial_match(&self, name: &[u8]) -> bool { let mut removed_overlays = vec![]; for scope_frame in self.delta.scope.iter().rev() { for overlay_frame in scope_frame.active_overlays(&mut removed_overlays).rev() { for decl in &overlay_frame.decls { if decl.0.starts_with(name) { return true; } } } } for overlay_frame in self .permanent_state .active_overlays(&removed_overlays) .rev() { for decl in &overlay_frame.decls { if decl.0.starts_with(name) { return true; } } } false } pub fn next_var_id(&self) -> VarId { let num_permanent_vars = self.permanent_state.num_vars(); VarId::new(num_permanent_vars + self.delta.vars.len()) } pub fn list_variables(&self) -> Vec<&[u8]> { let mut removed_overlays = vec![]; let mut variables = HashSet::new(); for scope_frame in self.delta.scope.iter() { for overlay_frame in scope_frame.active_overlays(&mut removed_overlays) { variables.extend(overlay_frame.vars.keys().map(|k| &k[..])); } } let permanent_vars = self .permanent_state .active_overlays(&removed_overlays) .flat_map(|overlay_frame| overlay_frame.vars.keys().map(|k| &k[..])); variables.extend(permanent_vars); variables.into_iter().collect() } pub fn find_variable(&self, name: &[u8]) -> Option { let mut name = name.to_vec(); if !name.starts_with(b"$") { name.insert(0, b'$'); } let mut removed_overlays = vec![]; for scope_frame in self.delta.scope.iter().rev() { for overlay_frame in scope_frame.active_overlays(&mut removed_overlays).rev() { if let Some(var_id) = overlay_frame.vars.get(&name) { return Some(*var_id); } } } for overlay_frame in self .permanent_state .active_overlays(&removed_overlays) .rev() { if let Some(var_id) = overlay_frame.vars.get(&name) { return Some(*var_id); } } None } pub fn find_variable_in_current_frame(&self, name: &[u8]) -> Option { let mut removed_overlays = vec![]; for scope_frame in self.delta.scope.iter().rev().take(1) { for overlay_frame in scope_frame.active_overlays(&mut removed_overlays).rev() { if let Some(var_id) = overlay_frame.vars.get(name) { return Some(*var_id); } } } None } pub fn add_variable( &mut self, mut name: Vec, span: Span, ty: Type, mutable: bool, ) -> VarId { let next_id = self.next_var_id(); // correct name if necessary if !name.starts_with(b"$") { name.insert(0, b'$'); } self.last_overlay_mut().vars.insert(name, next_id); self.delta.vars.push(Variable::new(span, ty, mutable)); next_id } /// Returns the current working directory as a String, which is guaranteed to be canonicalized. /// Returns an empty string if $env.PWD doesn't exist, is not a String, or is not an absolute path. /// /// It does NOT consider modifications to the working directory made on a stack. #[deprecated(since = "0.92.3", note = "please use `EngineState::cwd()` instead")] pub fn get_cwd(&self) -> String { self.permanent_state .cwd(None) .map(|path| path.to_string_lossy().to_string()) .unwrap_or_default() } pub fn get_env_var(&self, name: &str) -> Option<&Value> { self.permanent_state.get_env_var(name) } /// Returns a reference to the config stored at permanent state /// /// At runtime, you most likely want to call [`Stack::get_config()`][super::Stack::get_config()] /// because this method does not capture environment updates during runtime. pub fn get_config(&self) -> &Arc { &self.permanent_state.config } pub fn set_variable_type(&mut self, var_id: VarId, ty: Type) { let num_permanent_vars = self.permanent_state.num_vars(); if var_id.get() < num_permanent_vars { panic!("Internal error: attempted to set into permanent state from working set") } else { self.delta.vars[var_id.get() - num_permanent_vars].ty = ty; } } pub fn set_variable_const_val(&mut self, var_id: VarId, val: Value) { let num_permanent_vars = self.permanent_state.num_vars(); if var_id.get() < num_permanent_vars { panic!("Internal error: attempted to set into permanent state from working set") } else { self.delta.vars[var_id.get() - num_permanent_vars].const_val = Some(val); } } pub fn get_variable(&self, var_id: VarId) -> &Variable { let num_permanent_vars = self.permanent_state.num_vars(); if var_id.get() < num_permanent_vars { self.permanent_state.get_var(var_id) } else { self.delta .vars .get(var_id.get() - num_permanent_vars) .expect("internal error: missing variable") } } pub fn get_variable_if_possible(&self, var_id: VarId) -> Option<&Variable> { let num_permanent_vars = self.permanent_state.num_vars(); if var_id.get() < num_permanent_vars { Some(self.permanent_state.get_var(var_id)) } else { self.delta.vars.get(var_id.get() - num_permanent_vars) } } pub fn get_constant(&self, var_id: VarId) -> Result<&Value, ParseError> { let var = self.get_variable(var_id); if let Some(const_val) = &var.const_val { Ok(const_val) } else { Err(ParseError::InternalError( "constant does not have a constant value".into(), var.declaration_span, )) } } pub fn get_decl(&self, decl_id: DeclId) -> &dyn Command { let num_permanent_decls = self.permanent_state.num_decls(); if decl_id.get() < num_permanent_decls { self.permanent_state.get_decl(decl_id) } else { self.delta .decls .get(decl_id.get() - num_permanent_decls) .expect("internal error: missing declaration") .as_ref() } } pub fn get_decl_mut(&mut self, decl_id: DeclId) -> &mut Box { let num_permanent_decls = self.permanent_state.num_decls(); if decl_id.get() < num_permanent_decls { panic!("internal error: can only mutate declarations in working set") } else { self.delta .decls .get_mut(decl_id.get() - num_permanent_decls) .expect("internal error: missing declaration") } } pub fn get_signature(&self, decl: &dyn Command) -> Signature { if let Some(block_id) = decl.block_id() { *self.get_block(block_id).signature.clone() } else { decl.signature() } } pub fn find_commands_by_predicate( &self, mut predicate: impl FnMut(&[u8]) -> bool, ignore_deprecated: bool, ) -> Vec<(Vec, Option, CommandType)> { let mut output = vec![]; for scope_frame in self.delta.scope.iter().rev() { for overlay_id in scope_frame.active_overlays.iter().rev() { let overlay_frame = scope_frame.get_overlay(*overlay_id); for decl in &overlay_frame.decls { if overlay_frame.visibility.is_decl_id_visible(decl.1) && predicate(decl.0) { let command = self.get_decl(*decl.1); if ignore_deprecated && command.signature().category == Category::Removed { continue; } output.push(( decl.0.clone(), Some(command.description().to_string()), command.command_type(), )); } } } } let mut permanent = self .permanent_state .find_commands_by_predicate(predicate, ignore_deprecated); output.append(&mut permanent); output } pub fn get_block(&self, block_id: BlockId) -> &Arc { let num_permanent_blocks = self.permanent_state.num_blocks(); if block_id.get() < num_permanent_blocks { self.permanent_state.get_block(block_id) } else { self.delta .blocks .get(block_id.get() - num_permanent_blocks) .expect("internal error: missing block") } } pub fn get_module(&self, module_id: ModuleId) -> &Module { let num_permanent_modules = self.permanent_state.num_modules(); if module_id.get() < num_permanent_modules { self.permanent_state.get_module(module_id) } else { self.delta .modules .get(module_id.get() - num_permanent_modules) .expect("internal error: missing module") } } pub fn get_block_mut(&mut self, block_id: BlockId) -> &mut Block { let num_permanent_blocks = self.permanent_state.num_blocks(); if block_id.get() < num_permanent_blocks { panic!("Attempt to mutate a block that is in the permanent (immutable) state") } else { self.delta .blocks .get_mut(block_id.get() - num_permanent_blocks) .map(Arc::make_mut) .expect("internal error: missing block") } } pub fn has_overlay(&self, name: &[u8]) -> bool { for scope_frame in self.delta.scope.iter().rev() { if scope_frame .overlays .iter() .any(|(overlay_name, _)| name == overlay_name) { return true; } } self.permanent_state.has_overlay(name) } /// Find the overlay corresponding to `name`. pub fn find_overlay(&self, name: &[u8]) -> Option<&OverlayFrame> { for scope_frame in self.delta.scope.iter().rev() { if let Some(overlay_id) = scope_frame.find_overlay(name) { return Some(scope_frame.get_overlay(overlay_id)); } } self.permanent_state .find_overlay(name) .map(|id| self.permanent_state.get_overlay(id)) } pub fn last_overlay_name(&self) -> &[u8] { let mut removed_overlays = vec![]; for scope_frame in self.delta.scope.iter().rev() { if let Some(last_name) = scope_frame .active_overlay_names(&mut removed_overlays) .iter() .rev() .last() { return last_name; } } self.permanent_state.last_overlay_name(&removed_overlays) } pub fn last_overlay(&self) -> &OverlayFrame { let mut removed_overlays = vec![]; for scope_frame in self.delta.scope.iter().rev() { if let Some(last_overlay) = scope_frame .active_overlays(&mut removed_overlays) .rev() .last() { return last_overlay; } } self.permanent_state.last_overlay(&removed_overlays) } pub fn last_overlay_mut(&mut self) -> &mut OverlayFrame { if self.delta.last_overlay_mut().is_none() { // If there is no overlay, automatically activate the last one let overlay_frame = self.last_overlay(); let name = self.last_overlay_name().to_vec(); let origin = overlay_frame.origin; let prefixed = overlay_frame.prefixed; self.add_overlay(name, origin, vec![], vec![], prefixed); } self.delta .last_overlay_mut() .expect("internal error: missing added overlay") } /// Collect all decls that belong to an overlay pub fn decls_of_overlay(&self, name: &[u8]) -> HashMap, DeclId> { let mut result = HashMap::new(); if let Some(overlay_id) = self.permanent_state.find_overlay(name) { let overlay_frame = self.permanent_state.get_overlay(overlay_id); for (decl_key, decl_id) in &overlay_frame.decls { result.insert(decl_key.to_owned(), *decl_id); } } for scope_frame in self.delta.scope.iter() { if let Some(overlay_id) = scope_frame.find_overlay(name) { let overlay_frame = scope_frame.get_overlay(overlay_id); for (decl_key, decl_id) in &overlay_frame.decls { result.insert(decl_key.to_owned(), *decl_id); } } } result } pub fn add_overlay( &mut self, name: Vec, origin: ModuleId, decls: Vec<(Vec, DeclId)>, modules: Vec<(Vec, ModuleId)>, prefixed: bool, ) { let last_scope_frame = self.delta.last_scope_frame_mut(); last_scope_frame .removed_overlays .retain(|removed_name| removed_name != &name); let overlay_id = if let Some(overlay_id) = last_scope_frame.find_overlay(&name) { last_scope_frame.get_overlay_mut(overlay_id).origin = origin; overlay_id } else { last_scope_frame .overlays .push((name, OverlayFrame::from_origin(origin, prefixed))); OverlayId::new(last_scope_frame.overlays.len() - 1) }; last_scope_frame .active_overlays .retain(|id| id != &overlay_id); last_scope_frame.active_overlays.push(overlay_id); self.move_predecls_to_overlay(); self.use_decls(decls); self.use_modules(modules); } pub fn remove_overlay(&mut self, name: &[u8], keep_custom: bool) { let last_scope_frame = self.delta.last_scope_frame_mut(); let maybe_module_id = if let Some(overlay_id) = last_scope_frame.find_overlay(name) { last_scope_frame .active_overlays .retain(|id| id != &overlay_id); Some(last_scope_frame.get_overlay(overlay_id).origin) } else { self.permanent_state .find_overlay(name) .map(|id| self.permanent_state.get_overlay(id).origin) }; if let Some(module_id) = maybe_module_id { last_scope_frame.removed_overlays.push(name.to_owned()); if keep_custom { let origin_module = self.get_module(module_id); let decls = self .decls_of_overlay(name) .into_iter() .filter(|(n, _)| !origin_module.has_decl(n)) .collect(); self.use_decls(decls); } } } pub fn render(self) -> StateDelta { self.delta } pub fn build_desc(&self, spans: &[Span]) -> (String, String) { let comment_lines: Vec<&[u8]> = spans .iter() .map(|span| self.get_span_contents(*span)) .collect(); build_desc(&comment_lines) } pub fn find_block_by_span(&self, span: Span) -> Option> { for block in &self.delta.blocks { if Some(span) == block.span { return Some(block.clone()); } } for block in self.permanent_state.blocks.iter() { if Some(span) == block.span { return Some(block.clone()); } } None } pub fn find_module_by_span(&self, span: Span) -> Option { for (id, module) in self.delta.modules.iter().enumerate() { if Some(span) == module.span { return Some(ModuleId::new(self.permanent_state.num_modules() + id)); } } for (module_id, module) in self.permanent_state.modules.iter().enumerate() { if Some(span) == module.span { return Some(ModuleId::new(module_id)); } } None } pub fn find_virtual_path(&self, name: &str) -> Option<&VirtualPath> { // Platform appropriate virtual path (slashes or backslashes) let virtual_path_name = Path::new(name); for (virtual_name, virtual_path) in self.delta.virtual_paths.iter().rev() { if Path::new(virtual_name) == virtual_path_name { return Some(virtual_path); } } for (virtual_name, virtual_path) in self.permanent_state.virtual_paths.iter().rev() { if Path::new(virtual_name) == virtual_path_name { return Some(virtual_path); } } None } pub fn get_virtual_path(&self, virtual_path_id: VirtualPathId) -> &(String, VirtualPath) { let num_permanent_virtual_paths = self.permanent_state.num_virtual_paths(); if virtual_path_id.get() < num_permanent_virtual_paths { self.permanent_state.get_virtual_path(virtual_path_id) } else { self.delta .virtual_paths .get(virtual_path_id.get() - num_permanent_virtual_paths) .expect("internal error: missing virtual path") } } pub fn add_span(&mut self, span: Span) -> SpanId { let num_permanent_spans = self.permanent_state.spans.len(); self.delta.spans.push(span); SpanId::new(num_permanent_spans + self.delta.spans.len() - 1) } } impl<'a> GetSpan for &'a StateWorkingSet<'a> { fn get_span(&self, span_id: SpanId) -> Span { let num_permanent_spans = self.permanent_state.num_spans(); if span_id.get() < num_permanent_spans { self.permanent_state.get_span(span_id) } else { *self .delta .spans .get(span_id.get() - num_permanent_spans) .expect("internal error: missing span") } } } impl<'a> miette::SourceCode for &StateWorkingSet<'a> { fn read_span<'b>( &'b self, span: &miette::SourceSpan, context_lines_before: usize, context_lines_after: usize, ) -> Result, miette::MietteError> { let debugging = std::env::var("MIETTE_DEBUG").is_ok(); if debugging { let finding_span = "Finding span in StateWorkingSet"; dbg!(finding_span, span); } for cached_file in self.files() { let (filename, start, end) = ( &cached_file.name, cached_file.covered_span.start, cached_file.covered_span.end, ); if debugging { dbg!(&filename, start, end); } if span.offset() >= start && span.offset() + span.len() <= end { if debugging { let found_file = "Found matching file"; dbg!(found_file); } let our_span = cached_file.covered_span; // We need to move to a local span because we're only reading // the specific file contents via self.get_span_contents. let local_span = (span.offset() - start, span.len()).into(); if debugging { dbg!(&local_span); } let span_contents = self.get_span_contents(our_span); if debugging { dbg!(String::from_utf8_lossy(span_contents)); } let span_contents = span_contents.read_span( &local_span, context_lines_before, context_lines_after, )?; let content_span = span_contents.span(); // Back to "global" indexing let retranslated = (content_span.offset() + start, content_span.len()).into(); if debugging { dbg!(&retranslated); } let data = span_contents.data(); if &**filename == "" { if debugging { let success_cli = "Successfully read CLI span"; dbg!(success_cli, String::from_utf8_lossy(data)); } return Ok(Box::new(miette::MietteSpanContents::new( data, retranslated, span_contents.line(), span_contents.column(), span_contents.line_count(), ))); } else { if debugging { let success_file = "Successfully read file span"; dbg!(success_file); } return Ok(Box::new(miette::MietteSpanContents::new_named( (**filename).to_owned(), data, retranslated, span_contents.line(), span_contents.column(), span_contents.line_count(), ))); } } } Err(miette::MietteError::OutOfBounds) } } /// Files being evaluated, arranged as a stack. /// /// The current active file is on the top of the stack. /// When a file source/import another file, the new file is pushed onto the stack. /// Attempting to add files that are already in the stack (circular import) results in an error. /// /// Note that file paths are compared without canonicalization, so the same /// physical file may still appear multiple times under different paths. /// This doesn't affect circular import detection though. #[derive(Debug, Default)] pub struct FileStack(Vec); impl FileStack { /// Creates an empty stack. pub fn new() -> Self { Self(vec![]) } /// Creates a stack with a single file on top. /// /// This is a convenience method that creates an empty stack, then pushes the file onto it. /// It skips the circular import check and always succeeds. pub fn with_file(path: PathBuf) -> Self { Self(vec![path]) } /// Adds a file to the stack. /// /// If the same file is already present in the stack, returns `ParseError::CircularImport`. pub fn push(&mut self, path: PathBuf, span: Span) -> Result<(), ParseError> { // Check for circular import. if let Some(i) = self.0.iter().rposition(|p| p == &path) { let filenames: Vec = self.0[i..] .iter() .chain(std::iter::once(&path)) .map(|p| p.to_string_lossy().to_string()) .collect(); let msg = filenames.join("\nuses "); return Err(ParseError::CircularImport(msg, span)); } self.0.push(path); Ok(()) } /// Removes a file from the stack and returns its path, or None if the stack is empty. pub fn pop(&mut self) -> Option { self.0.pop() } /// Returns the active file (that is, the file on the top of the stack), or None if the stack is empty. pub fn top(&self) -> Option<&Path> { self.0.last().map(PathBuf::as_path) } /// Returns the parent directory of the active file, or None if the stack is empty /// or the active file doesn't have a parent directory as part of its path. pub fn current_working_directory(&self) -> Option<&Path> { self.0.last().and_then(|path| path.parent()) } }