use crate::context::CommandRegistry; use crate::deserializer::ConfigDeserializer; use crate::evaluate::evaluate_args::evaluate_args; use crate::prelude::*; use derive_new::new; use getset::Getters; use nu_errors::ShellError; use nu_parser::hir; use nu_protocol::{CallInfo, EvaluatedArgs, ReturnValue, Scope, Signature, Value}; use serde::{Deserialize, Serialize}; use std::ops::Deref; use std::sync::atomic::AtomicBool; #[derive(Deserialize, Serialize, Debug, Clone)] pub struct UnevaluatedCallInfo { pub args: hir::Call, pub source: Text, pub name_tag: Tag, } impl UnevaluatedCallInfo { pub fn evaluate( self, registry: &CommandRegistry, scope: &Scope, ) -> Result { let args = evaluate_args(&self.args, registry, scope, &self.source)?; Ok(CallInfo { args, name_tag: self.name_tag, }) } } pub trait CallInfoExt { fn process<'de, T: Deserialize<'de>>( &self, shell_manager: &ShellManager, callback: fn(T, &RunnablePerItemContext) -> Result, ) -> Result, ShellError>; } impl CallInfoExt for CallInfo { fn process<'de, T: Deserialize<'de>>( &self, shell_manager: &ShellManager, callback: fn(T, &RunnablePerItemContext) -> Result, ) -> Result, ShellError> { let mut deserializer = ConfigDeserializer::from_call_info(self.clone()); Ok(RunnablePerItemArgs { args: T::deserialize(&mut deserializer)?, context: RunnablePerItemContext { shell_manager: shell_manager.clone(), name: self.name_tag.clone(), }, callback, }) } } #[derive(Getters)] #[get = "pub(crate)"] pub struct CommandArgs { pub host: Arc>>, pub ctrl_c: Arc, pub shell_manager: ShellManager, pub call_info: UnevaluatedCallInfo, pub input: InputStream, } #[derive(Getters, Clone)] #[get = "pub(crate)"] pub struct RawCommandArgs { pub host: Arc>>, pub ctrl_c: Arc, pub shell_manager: ShellManager, pub call_info: UnevaluatedCallInfo, } impl RawCommandArgs { pub fn with_input(self, input: Vec) -> CommandArgs { CommandArgs { host: self.host, ctrl_c: self.ctrl_c, shell_manager: self.shell_manager, call_info: self.call_info, input: input.into(), } } } impl std::fmt::Debug for CommandArgs { fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result { self.call_info.fmt(f) } } impl CommandArgs { pub fn evaluate_once( self, registry: &CommandRegistry, ) -> Result { let host = self.host.clone(); let ctrl_c = self.ctrl_c.clone(); let shell_manager = self.shell_manager.clone(); let input = self.input; let call_info = self.call_info.evaluate(registry, &Scope::empty())?; Ok(EvaluatedWholeStreamCommandArgs::new( host, ctrl_c, shell_manager, call_info, input, )) } pub fn evaluate_once_with_scope( self, registry: &CommandRegistry, scope: &Scope, ) -> Result { let host = self.host.clone(); let ctrl_c = self.ctrl_c.clone(); let shell_manager = self.shell_manager.clone(); let input = self.input; let call_info = self.call_info.evaluate(registry, scope)?; Ok(EvaluatedWholeStreamCommandArgs::new( host, ctrl_c, shell_manager, call_info, input, )) } pub fn source(&self) -> Text { self.call_info.source.clone() } pub fn process<'de, T: Deserialize<'de>, O: ToOutputStream>( self, registry: &CommandRegistry, callback: fn(T, RunnableContext) -> Result, ) -> Result, ShellError> { let shell_manager = self.shell_manager.clone(); let host = self.host.clone(); let source = self.source(); let ctrl_c = self.ctrl_c.clone(); let args = self.evaluate_once(registry)?; let call_info = args.call_info.clone(); let (input, args) = args.split(); let name_tag = args.call_info.name_tag; let mut deserializer = ConfigDeserializer::from_call_info(call_info); Ok(RunnableArgs { args: T::deserialize(&mut deserializer)?, context: RunnableContext { input, commands: registry.clone(), source, shell_manager, name: name_tag, host, ctrl_c, }, callback, }) } pub fn process_raw<'de, T: Deserialize<'de>>( self, registry: &CommandRegistry, callback: fn(T, RunnableContext, RawCommandArgs) -> Result, ) -> Result, ShellError> { let raw_args = RawCommandArgs { host: self.host.clone(), ctrl_c: self.ctrl_c.clone(), shell_manager: self.shell_manager.clone(), call_info: self.call_info.clone(), }; let shell_manager = self.shell_manager.clone(); let host = self.host.clone(); let source = self.source(); let ctrl_c = self.ctrl_c.clone(); let args = self.evaluate_once(registry)?; let call_info = args.call_info.clone(); let (input, args) = args.split(); let name_tag = args.call_info.name_tag; let mut deserializer = ConfigDeserializer::from_call_info(call_info.clone()); Ok(RunnableRawArgs { args: T::deserialize(&mut deserializer)?, context: RunnableContext { input, commands: registry.clone(), source, shell_manager, name: name_tag, host, ctrl_c, }, raw_args, callback, }) } } pub struct RunnablePerItemContext { pub shell_manager: ShellManager, pub name: Tag, } pub struct RunnableContext { pub input: InputStream, pub shell_manager: ShellManager, pub host: Arc>>, pub source: Text, pub ctrl_c: Arc, pub commands: CommandRegistry, pub name: Tag, } impl RunnableContext { pub fn get_command(&self, name: &str) -> Option> { self.commands.get_command(name) } } pub struct RunnablePerItemArgs { args: T, context: RunnablePerItemContext, callback: fn(T, &RunnablePerItemContext) -> Result, } impl RunnablePerItemArgs { pub fn run(self) -> Result { (self.callback)(self.args, &self.context) } } pub struct RunnableArgs { args: T, context: RunnableContext, callback: fn(T, RunnableContext) -> Result, } impl RunnableArgs { pub fn run(self) -> Result { (self.callback)(self.args, self.context).map(|v| v.to_output_stream()) } } pub struct RunnableRawArgs { args: T, raw_args: RawCommandArgs, context: RunnableContext, callback: fn(T, RunnableContext, RawCommandArgs) -> Result, } impl RunnableRawArgs { pub fn run(self) -> OutputStream { match (self.callback)(self.args, self.context, self.raw_args) { Ok(stream) => stream, Err(err) => OutputStream::one(Err(err)), } } } pub struct EvaluatedWholeStreamCommandArgs { pub args: EvaluatedCommandArgs, pub input: InputStream, } impl Deref for EvaluatedWholeStreamCommandArgs { type Target = EvaluatedCommandArgs; fn deref(&self) -> &Self::Target { &self.args } } impl EvaluatedWholeStreamCommandArgs { pub fn new( host: Arc>, ctrl_c: Arc, shell_manager: ShellManager, call_info: CallInfo, input: impl Into, ) -> EvaluatedWholeStreamCommandArgs { EvaluatedWholeStreamCommandArgs { args: EvaluatedCommandArgs { host, ctrl_c, shell_manager, call_info, }, input: input.into(), } } pub fn name_tag(&self) -> Tag { self.args.call_info.name_tag.clone() } pub fn parts(self) -> (InputStream, EvaluatedArgs) { let EvaluatedWholeStreamCommandArgs { args, input } = self; (input, args.call_info.args) } pub fn split(self) -> (InputStream, EvaluatedCommandArgs) { let EvaluatedWholeStreamCommandArgs { args, input } = self; (input, args) } } #[derive(Getters)] #[get = "pub"] pub struct EvaluatedFilterCommandArgs { args: EvaluatedCommandArgs, } impl Deref for EvaluatedFilterCommandArgs { type Target = EvaluatedCommandArgs; fn deref(&self) -> &Self::Target { &self.args } } impl EvaluatedFilterCommandArgs { pub fn new( host: Arc>, ctrl_c: Arc, shell_manager: ShellManager, call_info: CallInfo, ) -> EvaluatedFilterCommandArgs { EvaluatedFilterCommandArgs { args: EvaluatedCommandArgs { host, ctrl_c, shell_manager, call_info, }, } } } #[derive(Getters, new)] #[get = "pub(crate)"] pub struct EvaluatedCommandArgs { pub host: Arc>, pub ctrl_c: Arc, pub shell_manager: ShellManager, pub call_info: CallInfo, } impl EvaluatedCommandArgs { pub fn nth(&self, pos: usize) -> Option<&Value> { self.call_info.args.nth(pos) } pub fn get(&self, name: &str) -> Option<&Value> { self.call_info.args.get(name) } pub fn has(&self, name: &str) -> bool { self.call_info.args.has(name) } } pub trait WholeStreamCommand: Send + Sync { fn name(&self) -> &str; fn signature(&self) -> Signature { Signature::new(self.name()).desc(self.usage()).filter() } fn usage(&self) -> &str; fn run( &self, args: CommandArgs, registry: &CommandRegistry, ) -> Result; fn is_binary(&self) -> bool { false } } pub trait PerItemCommand: Send + Sync { fn name(&self) -> &str; fn signature(&self) -> Signature { Signature::new(self.name()).desc(self.usage()).filter() } fn usage(&self) -> &str; fn run( &self, call_info: &CallInfo, registry: &CommandRegistry, raw_args: &RawCommandArgs, input: Value, ) -> Result; fn is_binary(&self) -> bool { false } } pub enum Command { WholeStream(Arc), PerItem(Arc), } impl PrettyDebugWithSource for Command { fn pretty_debug(&self, source: &str) -> DebugDocBuilder { match self { Command::WholeStream(command) => b::typed( "whole stream command", b::description(command.name()) + b::space() + b::equals() + b::space() + command.signature().pretty_debug(source), ), Command::PerItem(command) => b::typed( "per item command", b::description(command.name()) + b::space() + b::equals() + b::space() + command.signature().pretty_debug(source), ), } } } impl std::fmt::Debug for Command { fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result { match self { Command::WholeStream(command) => write!(f, "WholeStream({})", command.name()), Command::PerItem(command) => write!(f, "PerItem({})", command.name()), } } } impl Command { pub fn name(&self) -> &str { match self { Command::WholeStream(command) => command.name(), Command::PerItem(command) => command.name(), } } pub fn signature(&self) -> Signature { match self { Command::WholeStream(command) => command.signature(), Command::PerItem(command) => command.signature(), } } pub fn usage(&self) -> &str { match self { Command::WholeStream(command) => command.usage(), Command::PerItem(command) => command.usage(), } } pub fn run(&self, args: CommandArgs, registry: &CommandRegistry) -> OutputStream { match self { Command::WholeStream(command) => match command.run(args, registry) { Ok(stream) => stream, Err(err) => OutputStream::one(Err(err)), }, Command::PerItem(command) => self.run_helper(command.clone(), args, registry.clone()), } } fn run_helper( &self, command: Arc, args: CommandArgs, registry: CommandRegistry, ) -> OutputStream { let raw_args = RawCommandArgs { host: args.host, ctrl_c: args.ctrl_c, shell_manager: args.shell_manager, call_info: args.call_info, }; let out = args .input .values .map(move |x| { let call_info = raw_args .clone() .call_info .evaluate(®istry, &Scope::it_value(x.clone())); match call_info { Ok(call_info) => match command.run(&call_info, ®istry, &raw_args, x) { Ok(o) => o, Err(e) => VecDeque::from(vec![ReturnValue::Err(e)]).to_output_stream(), }, Err(e) => VecDeque::from(vec![ReturnValue::Err(e)]).to_output_stream(), } }) .flatten(); out.to_output_stream() } pub fn is_binary(&self) -> bool { match self { Command::WholeStream(command) => command.is_binary(), Command::PerItem(command) => command.is_binary(), } } } pub struct FnFilterCommand { name: String, func: fn(EvaluatedFilterCommandArgs) -> Result, } impl WholeStreamCommand for FnFilterCommand { fn name(&self) -> &str { &self.name } fn usage(&self) -> &str { "usage" } fn run( &self, args: CommandArgs, registry: &CommandRegistry, ) -> Result { let CommandArgs { host, ctrl_c, shell_manager, call_info, input, } = args; let host: Arc> = host.clone(); let shell_manager = shell_manager.clone(); let registry: CommandRegistry = registry.clone(); let func = self.func; let result = input.values.map(move |it| { let registry = registry.clone(); let call_info = match call_info.clone().evaluate(®istry, &Scope::it_value(it)) { Err(err) => return OutputStream::from(vec![Err(err)]).values, Ok(args) => args, }; let args = EvaluatedFilterCommandArgs::new( host.clone(), ctrl_c.clone(), shell_manager.clone(), call_info, ); match func(args) { Err(err) => OutputStream::from(vec![Err(err)]).values, Ok(stream) => stream.values, } }); let result = result.flatten(); let result: BoxStream = result.boxed(); Ok(result.into()) } } pub fn whole_stream_command(command: impl WholeStreamCommand + 'static) -> Arc { Arc::new(Command::WholeStream(Arc::new(command))) } pub fn per_item_command(command: impl PerItemCommand + 'static) -> Arc { Arc::new(Command::PerItem(Arc::new(command))) }