use indexmap::IndexMap; use nu::{ serve_plugin, CallInfo, CommandConfig, NamedType, Plugin, PositionalType, Primitive, ReturnSuccess, ReturnValue, ShellError, Tagged, Value, }; enum Action { Downcase, Upcase, ToInteger, } struct Str { field: Option, error: Option, action: Option, } impl Str { fn new() -> Str { Str { field: None, error: None, action: None, } } fn apply(&self, input: &str) -> Value { match self.action { Some(Action::Downcase) => Value::string(input.to_ascii_lowercase()), Some(Action::Upcase) => Value::string(input.to_ascii_uppercase()), Some(Action::ToInteger) => match input.trim().parse::() { Ok(v) => Value::int(v), Err(_) => Value::string(input), }, None => Value::string(input.to_string()), } } fn for_input(&mut self, field: String) { self.field = Some(field); } fn permit(&mut self) -> bool { self.action.is_none() } fn log_error(&mut self, message: &str) { self.error = Some(message.to_string()); } fn for_to_int(&mut self) { if self.permit() { self.action = Some(Action::ToInteger); } else { self.log_error("can only apply one"); } } fn for_downcase(&mut self) { if self.permit() { self.action = Some(Action::Downcase); } else { self.log_error("can only apply one"); } } fn for_upcase(&mut self) { if self.permit() { self.action = Some(Action::Upcase); } else { self.log_error("can only apply one"); } } fn usage(&self) -> &'static str { "Usage: str field [--downcase|--upcase|--to-int]" } } impl Str { fn strutils( &self, value: Tagged, field: &Option, ) -> Result, ShellError> { match value.item { Value::Primitive(Primitive::String(ref s)) => { Ok(Tagged::from_item(self.apply(&s), value.tag())) } Value::Object(_) => match field { Some(f) => { let replacement = match value.item.get_data_by_path(value.tag(), f) { Some(result) => self.strutils(result.map(|x| x.clone()), &None)?, None => { return Err(ShellError::string("str could not find field to replace")) } }; match value .item .replace_data_at_path(value.tag(), f, replacement.item.clone()) { Some(v) => return Ok(v), None => { return Err(ShellError::string("str could not find field to replace")) } } } None => Err(ShellError::string(format!( "{}: {}", "str needs a field when applying it to a value in an object", self.usage() ))), }, x => Err(ShellError::string(format!( "Unrecognized type in stream: {:?}", x ))), } } } impl Plugin for Str { fn config(&mut self) -> Result { let mut named = IndexMap::new(); named.insert("downcase".to_string(), NamedType::Switch); named.insert("upcase".to_string(), NamedType::Switch); named.insert("to-int".to_string(), NamedType::Switch); Ok(CommandConfig { name: "str".to_string(), positional: vec![PositionalType::optional_any("Field")], is_filter: true, is_sink: false, named, rest_positional: true, }) } fn begin_filter(&mut self, call_info: CallInfo) -> Result, ShellError> { if call_info.args.has("downcase") { self.for_downcase(); } if call_info.args.has("upcase") { self.for_upcase(); } if call_info.args.has("to-int") { self.for_to_int(); } if let Some(args) = call_info.args.positional { for arg in args { match arg { Tagged { item: Value::Primitive(Primitive::String(s)), .. } => { self.for_input(s); } _ => { return Err(ShellError::string(format!( "Unrecognized type in params: {:?}", arg ))) } } } } match &self.error { Some(reason) => { return Err(ShellError::string(format!("{}: {}", reason, self.usage()))) } None => Ok(vec![]), } } fn filter(&mut self, input: Tagged) -> Result, ShellError> { Ok(vec![ReturnSuccess::value( self.strutils(input, &self.field)?, )]) } } fn main() { serve_plugin(&mut Str::new()); } #[cfg(test)] mod tests { use super::Str; use indexmap::IndexMap; use nu::{ Args, CallInfo, Plugin, ReturnSuccess, SourceMap, Span, Tag, Tagged, TaggedDictBuilder, TaggedItem, Value, }; struct CallStub { positionals: Vec>, flags: IndexMap>, } impl CallStub { fn new() -> CallStub { CallStub { positionals: vec![], flags: indexmap::IndexMap::new(), } } fn with_long_flag(&mut self, name: &str) -> &mut Self { self.flags.insert( name.to_string(), Value::boolean(true).simple_spanned(Span::unknown()), ); self } fn with_parameter(&mut self, name: &str) -> &mut Self { self.positionals .push(Value::string(name.to_string()).simple_spanned(Span::unknown())); self } fn create(&self, name_span: Span) -> CallInfo { CallInfo { args: Args::new(Some(self.positionals.clone()), Some(self.flags.clone())), source_map: SourceMap::new(), name_span, } } } fn sample_record(key: &str, value: &str) -> Tagged { let mut record = TaggedDictBuilder::new(Tag::unknown()); record.insert(key.clone(), Value::string(value)); record.into_tagged_value() } #[test] fn str_plugin_configuration_flags_wired() { let mut plugin = Str::new(); let configured = plugin.config().unwrap(); for action_flag in &["downcase", "upcase", "to-int"] { assert!(configured.named.get(*action_flag).is_some()); } } #[test] fn str_plugin_accepts_downcase() { let mut plugin = Str::new(); assert!(plugin .begin_filter( CallStub::new() .with_long_flag("downcase") .create(Span::unknown()) ) .is_ok()); assert!(plugin.action.is_some()); } #[test] fn str_plugin_accepts_upcase() { let mut plugin = Str::new(); assert!(plugin .begin_filter( CallStub::new() .with_long_flag("upcase") .create(Span::unknown()) ) .is_ok()); assert!(plugin.action.is_some()); } #[test] fn str_plugin_accepts_to_int() { let mut plugin = Str::new(); assert!(plugin .begin_filter( CallStub::new() .with_long_flag("to-int") .create(Span::unknown()) ) .is_ok()); assert!(plugin.action.is_some()); } #[test] fn str_plugin_accepts_field() { let mut plugin = Str::new(); assert!(plugin .begin_filter( CallStub::new() .with_parameter("package.description") .create(Span::unknown()) ) .is_ok()); assert_eq!(plugin.field, Some("package.description".to_string())); } #[test] fn str_plugin_accepts_only_one_action() { let mut plugin = Str::new(); assert!(plugin .begin_filter( CallStub::new() .with_long_flag("upcase") .with_long_flag("downcase") .with_long_flag("to-int") .create(Span::unknown()), ) .is_err()); assert_eq!(plugin.error, Some("can only apply one".to_string())); } #[test] fn str_downcases() { let mut strutils = Str::new(); strutils.for_downcase(); assert_eq!(strutils.apply("ANDRES"), Value::string("andres")); } #[test] fn str_upcases() { let mut strutils = Str::new(); strutils.for_upcase(); assert_eq!(strutils.apply("andres"), Value::string("ANDRES")); } #[test] fn str_to_int() { let mut strutils = Str::new(); strutils.for_to_int(); assert_eq!(strutils.apply("9999"), Value::int(9999 as i64)); } #[test] fn str_plugin_applies_upcase() { let mut plugin = Str::new(); assert!(plugin .begin_filter( CallStub::new() .with_long_flag("upcase") .with_parameter("name") .create(Span::unknown()) ) .is_ok()); let subject = sample_record("name", "jotandrehuda"); let output = plugin.filter(subject).unwrap(); match output[0].as_ref().unwrap() { ReturnSuccess::Value(Tagged { item: Value::Object(o), .. }) => assert_eq!( *o.get_data(&String::from("name")).borrow(), Value::string(String::from("JOTANDREHUDA")) ), _ => {} } } #[test] fn str_plugin_applies_downcase() { let mut plugin = Str::new(); assert!(plugin .begin_filter( CallStub::new() .with_long_flag("downcase") .with_parameter("name") .create(Span::unknown()) ) .is_ok()); let subject = sample_record("name", "JOTANDREHUDA"); let output = plugin.filter(subject).unwrap(); match output[0].as_ref().unwrap() { ReturnSuccess::Value(Tagged { item: Value::Object(o), .. }) => assert_eq!( *o.get_data(&String::from("name")).borrow(), Value::string(String::from("jotandrehuda")) ), _ => {} } } #[test] fn str_plugin_applies_to_int() { let mut plugin = Str::new(); assert!(plugin .begin_filter( CallStub::new() .with_long_flag("to-int") .with_parameter("Nu_birthday") .create(Span::unknown()) ) .is_ok()); let subject = sample_record("Nu_birthday", "10"); let output = plugin.filter(subject).unwrap(); match output[0].as_ref().unwrap() { ReturnSuccess::Value(Tagged { item: Value::Object(o), .. }) => assert_eq!( *o.get_data(&String::from("Nu_birthday")).borrow(), Value::int(10) ), _ => {} } } }