use crate::commands::{Command, UnevaluatedCallInfo}; use crate::parser::hir; use crate::prelude::*; use derive_new::new; use indexmap::IndexMap; use serde::{Deserialize, Serialize}; use std::collections::HashMap; use std::error::Error; use std::sync::Arc; use uuid::Uuid; #[derive(Clone, Debug, Serialize, Deserialize)] pub enum AnchorLocation { Url(String), File(String), Source(Text), } #[derive(Clone, Debug, Serialize, Deserialize)] pub struct SourceMap(HashMap); impl SourceMap { pub fn insert(&mut self, uuid: Uuid, anchor_location: AnchorLocation) { self.0.insert(uuid, anchor_location); } pub fn get(&self, uuid: &Uuid) -> Option<&AnchorLocation> { self.0.get(uuid) } pub fn new() -> SourceMap { SourceMap(HashMap::new()) } } #[derive(Clone, new)] pub struct CommandRegistry { #[new(value = "Arc::new(Mutex::new(IndexMap::default()))")] registry: Arc>>>, } impl CommandRegistry { pub(crate) fn empty() -> CommandRegistry { CommandRegistry { registry: Arc::new(Mutex::new(IndexMap::default())), } } pub(crate) fn get_command(&self, name: &str) -> Option> { let registry = self.registry.lock().unwrap(); registry.get(name).map(|c| c.clone()) } pub(crate) fn has(&self, name: &str) -> bool { let registry = self.registry.lock().unwrap(); registry.contains_key(name) } fn insert(&mut self, name: impl Into, command: Arc) { let mut registry = self.registry.lock().unwrap(); registry.insert(name.into(), command); } pub(crate) fn names(&self) -> Vec { let registry = self.registry.lock().unwrap(); registry.keys().cloned().collect() } } #[derive(Clone)] pub struct Context { registry: CommandRegistry, pub(crate) source_map: SourceMap, host: Arc>, pub(crate) shell_manager: ShellManager, } impl Context { pub(crate) fn registry(&self) -> &CommandRegistry { &self.registry } pub(crate) fn basic() -> Result> { let registry = CommandRegistry::new(); Ok(Context { registry: registry.clone(), source_map: SourceMap::new(), host: Arc::new(Mutex::new(crate::env::host::BasicHost)), shell_manager: ShellManager::basic(registry)?, }) } pub(crate) fn with_host(&mut self, block: impl FnOnce(&mut dyn Host)) { let mut host = self.host.lock().unwrap(); block(&mut *host) } pub fn add_commands(&mut self, commands: Vec>) { for command in commands { self.registry.insert(command.name().to_string(), command); } } pub fn add_anchor_location(&mut self, uuid: Uuid, anchor_location: AnchorLocation) { self.source_map.insert(uuid, anchor_location); } pub(crate) fn has_command(&self, name: &str) -> bool { self.registry.has(name) } pub(crate) fn get_command(&self, name: &str) -> Arc { self.registry.get_command(name).unwrap() } pub(crate) fn run_command<'a>( &mut self, command: Arc, name_tag: Tag, source_map: SourceMap, args: hir::Call, source: &Text, input: InputStream, is_first_command: bool, ) -> OutputStream { let command_args = self.command_args(args, input, source, source_map, name_tag); command.run(command_args, self.registry(), is_first_command) } fn call_info( &self, args: hir::Call, source: &Text, source_map: SourceMap, name_tag: Tag, ) -> UnevaluatedCallInfo { UnevaluatedCallInfo { args, source: source.clone(), source_map, name_tag, } } fn command_args( &self, args: hir::Call, input: InputStream, source: &Text, source_map: SourceMap, name_tag: Tag, ) -> CommandArgs { CommandArgs { host: self.host.clone(), shell_manager: self.shell_manager.clone(), call_info: self.call_info(args, source, source_map, name_tag), input, } } }