use nu_parser::ParseError; use nu_parser::*; use nu_protocol::{ ast::{Expr, Expression, PipelineElement}, engine::{Command, EngineState, Stack, StateWorkingSet}, Signature, SyntaxShape, }; #[cfg(test)] #[derive(Clone)] pub struct Let; #[cfg(test)] impl Command for Let { fn name(&self) -> &str { "let" } fn usage(&self) -> &str { "Create a variable and give it a value." } fn signature(&self) -> nu_protocol::Signature { Signature::build("let") .required("var_name", SyntaxShape::VarWithOptType, "variable name") .required( "initial_value", SyntaxShape::Keyword(b"=".to_vec(), Box::new(SyntaxShape::Expression)), "equals sign followed by value", ) } fn run( &self, _engine_state: &EngineState, _stack: &mut Stack, _call: &nu_protocol::ast::Call, _input: nu_protocol::PipelineData, ) -> Result { todo!() } } #[test] pub fn parse_int() { let engine_state = EngineState::new(); let mut working_set = StateWorkingSet::new(&engine_state); let (block, err) = parse(&mut working_set, None, b"3", true, &[]); assert!(err.is_none()); assert!(block.len() == 1); let expressions = &block[0]; assert!(expressions.len() == 1); assert!(matches!( expressions[0], PipelineElement::Expression( _, Expression { expr: Expr::Int(3), .. } ) )) } #[test] pub fn parse_binary_with_hex_format() { let engine_state = EngineState::new(); let mut working_set = StateWorkingSet::new(&engine_state); let (block, err) = parse(&mut working_set, None, b"0x[13]", true, &[]); assert!(err.is_none()); assert!(block.len() == 1); let expressions = &block[0]; assert!(expressions.len() == 1); if let PipelineElement::Expression(_, expr) = &expressions[0] { assert_eq!(expr.expr, Expr::Binary(vec![0x13])) } else { panic!("Not an expression") } } #[test] pub fn parse_binary_with_incomplete_hex_format() { let engine_state = EngineState::new(); let mut working_set = StateWorkingSet::new(&engine_state); let (block, err) = parse(&mut working_set, None, b"0x[3]", true, &[]); assert!(err.is_none()); assert!(block.len() == 1); let expressions = &block[0]; assert!(expressions.len() == 1); if let PipelineElement::Expression(_, expr) = &expressions[0] { assert_eq!(expr.expr, Expr::Binary(vec![0x03])) } else { panic!("Not an expression") } } #[test] pub fn parse_binary_with_binary_format() { let engine_state = EngineState::new(); let mut working_set = StateWorkingSet::new(&engine_state); let (block, err) = parse(&mut working_set, None, b"0b[1010 1000]", true, &[]); assert!(err.is_none()); assert!(block.len() == 1); let expressions = &block[0]; assert!(expressions.len() == 1); if let PipelineElement::Expression(_, expr) = &expressions[0] { assert_eq!(expr.expr, Expr::Binary(vec![0b10101000])) } else { panic!("Not an expression") } } #[test] pub fn parse_binary_with_incomplete_binary_format() { let engine_state = EngineState::new(); let mut working_set = StateWorkingSet::new(&engine_state); let (block, err) = parse(&mut working_set, None, b"0b[10]", true, &[]); assert!(err.is_none()); assert!(block.len() == 1); let expressions = &block[0]; assert!(expressions.len() == 1); if let PipelineElement::Expression(_, expr) = &expressions[0] { assert_eq!(expr.expr, Expr::Binary(vec![0b00000010])) } else { panic!("Not an expression") } } #[test] pub fn parse_binary_with_octal_format() { let engine_state = EngineState::new(); let mut working_set = StateWorkingSet::new(&engine_state); let (block, err) = parse(&mut working_set, None, b"0o[250]", true, &[]); assert!(err.is_none()); assert!(block.len() == 1); let expressions = &block[0]; assert!(expressions.len() == 1); if let PipelineElement::Expression(_, expr) = &expressions[0] { assert_eq!(expr.expr, Expr::Binary(vec![0o250])) } else { panic!("Not an expression") } } #[test] pub fn parse_binary_with_incomplete_octal_format() { let engine_state = EngineState::new(); let mut working_set = StateWorkingSet::new(&engine_state); let (block, err) = parse(&mut working_set, None, b"0o[2]", true, &[]); assert!(err.is_none()); assert!(block.len() == 1); let expressions = &block[0]; assert!(expressions.len() == 1); if let PipelineElement::Expression(_, expr) = &expressions[0] { assert_eq!(expr.expr, Expr::Binary(vec![0o2])) } else { panic!("Not an expression") } } #[test] pub fn parse_binary_with_invalid_octal_format() { let engine_state = EngineState::new(); let mut working_set = StateWorkingSet::new(&engine_state); let (block, err) = parse(&mut working_set, None, b"0b[90]", true, &[]); assert!(err.is_none()); assert!(block.len() == 1); let expressions = &block[0]; assert!(expressions.len() == 1); if let PipelineElement::Expression(_, expr) = &expressions[0] { assert!(!matches!(&expr.expr, Expr::Binary(_))) } else { panic!("Not an expression") } } #[test] pub fn parse_binary_with_multi_byte_char() { let engine_state = EngineState::new(); let mut working_set = StateWorkingSet::new(&engine_state); // found using fuzzing, Rust can panic if you slice into this string let contents = b"0x[\xEF\xBF\xBD]"; let (block, err) = parse(&mut working_set, None, contents, true, &[]); assert!(err.is_none()); assert!(block.len() == 1); let expressions = &block[0]; assert!(expressions.len() == 1); if let PipelineElement::Expression(_, expr) = &expressions[0] { assert!(!matches!(&expr.expr, Expr::Binary(_))) } else { panic!("Not an expression") } } #[test] pub fn parse_string() { let engine_state = EngineState::new(); let mut working_set = StateWorkingSet::new(&engine_state); let (block, err) = parse(&mut working_set, None, b"\"hello nushell\"", true, &[]); assert!(err.is_none()); assert!(block.len() == 1); let expressions = &block[0]; assert!(expressions.len() == 1); if let PipelineElement::Expression(_, expr) = &expressions[0] { assert_eq!(expr.expr, Expr::String("hello nushell".to_string())) } else { panic!("Not an expression") } } #[test] pub fn parse_escaped_string() { let engine_state = EngineState::new(); let mut working_set = StateWorkingSet::new(&engine_state); let (block, err) = parse( &mut working_set, None, b"\"hello \\u006e\\u0075\\u0073hell\"", true, &[], ); assert!(err.is_none()); assert!(block.len() == 1); let expressions = &block[0]; assert!(expressions.len() == 1); if let PipelineElement::Expression(_, expr) = &expressions[0] { assert_eq!(expr.expr, Expr::String("hello nushell".to_string())) } else { panic!("Not an expression") } } #[test] pub fn parse_call() { let engine_state = EngineState::new(); let mut working_set = StateWorkingSet::new(&engine_state); let sig = Signature::build("foo").named("--jazz", SyntaxShape::Int, "jazz!!", Some('j')); working_set.add_decl(sig.predeclare()); let (block, err) = parse(&mut working_set, None, b"foo", true, &[]); assert!(err.is_none()); assert!(block.len() == 1); let expressions = &block[0]; assert_eq!(expressions.len(), 1); if let PipelineElement::Expression( _, Expression { expr: Expr::Call(call), .. }, ) = &expressions[0] { assert_eq!(call.decl_id, 0); } } #[test] pub fn parse_call_missing_flag_arg() { let engine_state = EngineState::new(); let mut working_set = StateWorkingSet::new(&engine_state); let sig = Signature::build("foo").named("jazz", SyntaxShape::Int, "jazz!!", Some('j')); working_set.add_decl(sig.predeclare()); let (_, err) = parse(&mut working_set, None, b"foo --jazz", true, &[]); assert!(matches!(err, Some(ParseError::MissingFlagParam(..)))); } #[test] pub fn parse_call_missing_short_flag_arg() { let engine_state = EngineState::new(); let mut working_set = StateWorkingSet::new(&engine_state); let sig = Signature::build("foo").named("--jazz", SyntaxShape::Int, "jazz!!", Some('j')); working_set.add_decl(sig.predeclare()); let (_, err) = parse(&mut working_set, None, b"foo -j", true, &[]); assert!(matches!(err, Some(ParseError::MissingFlagParam(..)))); } #[test] pub fn parse_call_too_many_shortflag_args() { let engine_state = EngineState::new(); let mut working_set = StateWorkingSet::new(&engine_state); let sig = Signature::build("foo") .named("--jazz", SyntaxShape::Int, "jazz!!", Some('j')) .named("--math", SyntaxShape::Int, "math!!", Some('m')); working_set.add_decl(sig.predeclare()); let (_, err) = parse(&mut working_set, None, b"foo -mj", true, &[]); assert!(matches!( err, Some(ParseError::ShortFlagBatchCantTakeArg(..)) )); } #[test] pub fn parse_call_unknown_shorthand() { let engine_state = EngineState::new(); let mut working_set = StateWorkingSet::new(&engine_state); let sig = Signature::build("foo").switch("--jazz", "jazz!!", Some('j')); working_set.add_decl(sig.predeclare()); let (_, err) = parse(&mut working_set, None, b"foo -mj", true, &[]); assert!(matches!(err, Some(ParseError::UnknownFlag(..)))); } #[test] pub fn parse_call_extra_positional() { let engine_state = EngineState::new(); let mut working_set = StateWorkingSet::new(&engine_state); let sig = Signature::build("foo").switch("--jazz", "jazz!!", Some('j')); working_set.add_decl(sig.predeclare()); let (_, err) = parse(&mut working_set, None, b"foo -j 100", true, &[]); assert!(matches!(err, Some(ParseError::ExtraPositional(..)))); } #[test] pub fn parse_call_missing_req_positional() { let engine_state = EngineState::new(); let mut working_set = StateWorkingSet::new(&engine_state); let sig = Signature::build("foo").required("jazz", SyntaxShape::Int, "jazz!!"); working_set.add_decl(sig.predeclare()); let (_, err) = parse(&mut working_set, None, b"foo", true, &[]); assert!(matches!(err, Some(ParseError::MissingPositional(..)))); } #[test] pub fn parse_call_missing_req_flag() { let engine_state = EngineState::new(); let mut working_set = StateWorkingSet::new(&engine_state); let sig = Signature::build("foo").required_named("--jazz", SyntaxShape::Int, "jazz!!", None); working_set.add_decl(sig.predeclare()); let (_, err) = parse(&mut working_set, None, b"foo", true, &[]); assert!(matches!(err, Some(ParseError::MissingRequiredFlag(..)))); } #[test] fn test_nothing_comparisson_eq() { let engine_state = EngineState::new(); let mut working_set = StateWorkingSet::new(&engine_state); let (block, err) = parse(&mut working_set, None, b"2 == $nothing", true, &[]); assert!(err.is_none()); assert!(block.len() == 1); let expressions = &block[0]; assert!(expressions.len() == 1); assert!(matches!( &expressions[0], PipelineElement::Expression( _, Expression { expr: Expr::BinaryOp(..), .. } ) )) } #[test] fn test_nothing_comparisson_neq() { let engine_state = EngineState::new(); let mut working_set = StateWorkingSet::new(&engine_state); let (block, err) = parse(&mut working_set, None, b"2 != $nothing", true, &[]); assert!(err.is_none()); assert!(block.len() == 1); let expressions = &block[0]; assert!(expressions.len() == 1); assert!(matches!( &expressions[0], PipelineElement::Expression( _, Expression { expr: Expr::BinaryOp(..), .. } ) )) } mod range { use super::*; use nu_protocol::ast::{RangeInclusion, RangeOperator}; #[test] fn parse_inclusive_range() { let engine_state = EngineState::new(); let mut working_set = StateWorkingSet::new(&engine_state); let (block, err) = parse(&mut working_set, None, b"0..10", true, &[]); assert!(err.is_none()); assert!(block.len() == 1); let expressions = &block[0]; assert!(expressions.len() == 1); assert!(matches!( expressions[0], PipelineElement::Expression( _, Expression { expr: Expr::Range( Some(_), None, Some(_), RangeOperator { inclusion: RangeInclusion::Inclusive, .. } ), .. } ) )) } #[test] fn parse_exclusive_range() { let engine_state = EngineState::new(); let mut working_set = StateWorkingSet::new(&engine_state); let (block, err) = parse(&mut working_set, None, b"0..<10", true, &[]); assert!(err.is_none()); assert!(block.len() == 1); let expressions = &block[0]; assert!(expressions.len() == 1); assert!(matches!( expressions[0], PipelineElement::Expression( _, Expression { expr: Expr::Range( Some(_), None, Some(_), RangeOperator { inclusion: RangeInclusion::RightExclusive, .. } ), .. } ) )) } #[test] fn parse_reverse_range() { let engine_state = EngineState::new(); let mut working_set = StateWorkingSet::new(&engine_state); let (block, err) = parse(&mut working_set, None, b"10..0", true, &[]); assert!(err.is_none()); assert!(block.len() == 1); let expressions = &block[0]; assert!(expressions.len() == 1); assert!(matches!( expressions[0], PipelineElement::Expression( _, Expression { expr: Expr::Range( Some(_), None, Some(_), RangeOperator { inclusion: RangeInclusion::Inclusive, .. } ), .. } ) )) } #[test] fn parse_subexpression_range() { let engine_state = EngineState::new(); let mut working_set = StateWorkingSet::new(&engine_state); let (block, err) = parse(&mut working_set, None, b"(3 - 3)..<(8 + 2)", true, &[]); assert!(err.is_none()); assert!(block.len() == 1); let expressions = &block[0]; assert!(expressions.len() == 1); assert!(matches!( expressions[0], PipelineElement::Expression( _, Expression { expr: Expr::Range( Some(_), None, Some(_), RangeOperator { inclusion: RangeInclusion::RightExclusive, .. } ), .. } ) )) } #[test] fn parse_variable_range() { let engine_state = EngineState::new(); let mut working_set = StateWorkingSet::new(&engine_state); working_set.add_decl(Box::new(Let)); let (block, err) = parse(&mut working_set, None, b"let a = 2; $a..10", true, &[]); assert!(err.is_none()); assert!(block.len() == 2); let expressions = &block[1]; assert!(expressions.len() == 1); assert!(matches!( expressions[0], PipelineElement::Expression( _, Expression { expr: Expr::Range( Some(_), None, Some(_), RangeOperator { inclusion: RangeInclusion::Inclusive, .. } ), .. } ) )) } #[test] fn parse_subexpression_variable_range() { let engine_state = EngineState::new(); let mut working_set = StateWorkingSet::new(&engine_state); working_set.add_decl(Box::new(Let)); let (block, err) = parse( &mut working_set, None, b"let a = 2; $a..<($a + 10)", true, &[], ); assert!(err.is_none()); assert!(block.len() == 2); let expressions = &block[1]; assert!(expressions.len() == 1); assert!(matches!( expressions[0], PipelineElement::Expression( _, Expression { expr: Expr::Range( Some(_), None, Some(_), RangeOperator { inclusion: RangeInclusion::RightExclusive, .. } ), .. } ) )) } #[test] fn parse_right_unbounded_range() { let engine_state = EngineState::new(); let mut working_set = StateWorkingSet::new(&engine_state); let (block, err) = parse(&mut working_set, None, b"0..", true, &[]); assert!(err.is_none()); assert!(block.len() == 1); let expressions = &block[0]; assert!(expressions.len() == 1); assert!(matches!( expressions[0], PipelineElement::Expression( _, Expression { expr: Expr::Range( Some(_), None, None, RangeOperator { inclusion: RangeInclusion::Inclusive, .. } ), .. } ) )) } #[test] fn parse_left_unbounded_range() { let engine_state = EngineState::new(); let mut working_set = StateWorkingSet::new(&engine_state); let (block, err) = parse(&mut working_set, None, b"..10", true, &[]); assert!(err.is_none()); assert!(block.len() == 1); let expressions = &block[0]; assert!(expressions.len() == 1); assert!(matches!( expressions[0], PipelineElement::Expression( _, Expression { expr: Expr::Range( None, None, Some(_), RangeOperator { inclusion: RangeInclusion::Inclusive, .. } ), .. } ) )) } #[test] fn parse_negative_range() { let engine_state = EngineState::new(); let mut working_set = StateWorkingSet::new(&engine_state); let (block, err) = parse(&mut working_set, None, b"-10..-3", true, &[]); assert!(err.is_none()); assert!(block.len() == 1); let expressions = &block[0]; assert!(expressions.len() == 1); assert!(matches!( expressions[0], PipelineElement::Expression( _, Expression { expr: Expr::Range( Some(_), None, Some(_), RangeOperator { inclusion: RangeInclusion::Inclusive, .. } ), .. } ) )) } #[test] fn parse_float_range() { let engine_state = EngineState::new(); let mut working_set = StateWorkingSet::new(&engine_state); let (block, err) = parse(&mut working_set, None, b"2.0..4.0..10.0", true, &[]); assert!(err.is_none()); assert!(block.len() == 1); let expressions = &block[0]; assert!(expressions.len() == 1); assert!(matches!( expressions[0], PipelineElement::Expression( _, Expression { expr: Expr::Range( Some(_), Some(_), Some(_), RangeOperator { inclusion: RangeInclusion::Inclusive, .. } ), .. } ) )) } #[test] fn bad_parse_does_crash() { let engine_state = EngineState::new(); let mut working_set = StateWorkingSet::new(&engine_state); let (_, err) = parse(&mut working_set, None, b"(0)..\"a\"", true, &[]); assert!(err.is_some()); } } #[cfg(test)] mod input_types { use super::*; use nu_protocol::{ast::Argument, Category, Type}; #[derive(Clone)] pub struct LsTest; impl Command for LsTest { fn name(&self) -> &str { "ls" } fn usage(&self) -> &str { "Mock ls command" } fn signature(&self) -> nu_protocol::Signature { Signature::build(self.name()).category(Category::Default) } fn run( &self, _engine_state: &EngineState, _stack: &mut Stack, _call: &nu_protocol::ast::Call, _input: nu_protocol::PipelineData, ) -> Result { todo!() } } #[derive(Clone)] pub struct GroupBy; impl Command for GroupBy { fn name(&self) -> &str { "group-by" } fn usage(&self) -> &str { "Mock group-by command" } fn signature(&self) -> nu_protocol::Signature { Signature::build(self.name()) .required("column", SyntaxShape::String, "column name") .category(Category::Default) } fn run( &self, _engine_state: &EngineState, _stack: &mut Stack, _call: &nu_protocol::ast::Call, _input: nu_protocol::PipelineData, ) -> Result { todo!() } } #[derive(Clone)] pub struct ToCustom; impl Command for ToCustom { fn name(&self) -> &str { "to-custom" } fn usage(&self) -> &str { "Mock converter command" } fn signature(&self) -> nu_protocol::Signature { Signature::build(self.name()) .input_type(Type::Any) .output_type(Type::Custom("custom".into())) .category(Category::Custom("custom".into())) } fn run( &self, _engine_state: &EngineState, _stack: &mut Stack, _call: &nu_protocol::ast::Call, _input: nu_protocol::PipelineData, ) -> Result { todo!() } } #[derive(Clone)] pub struct GroupByCustom; impl Command for GroupByCustom { fn name(&self) -> &str { "group-by" } fn usage(&self) -> &str { "Mock custom group-by command" } fn signature(&self) -> nu_protocol::Signature { Signature::build(self.name()) .required("column", SyntaxShape::String, "column name") .required("other", SyntaxShape::String, "other value") .input_type(Type::Custom("custom".into())) .output_type(Type::Custom("custom".into())) .category(Category::Custom("custom".into())) } fn run( &self, _engine_state: &EngineState, _stack: &mut Stack, _call: &nu_protocol::ast::Call, _input: nu_protocol::PipelineData, ) -> Result { todo!() } } #[derive(Clone)] pub struct AggCustom; impl Command for AggCustom { fn name(&self) -> &str { "agg" } fn usage(&self) -> &str { "Mock custom agg command" } fn signature(&self) -> nu_protocol::Signature { Signature::build(self.name()) .required("operation", SyntaxShape::String, "operation") .input_type(Type::Custom("custom".into())) .category(Category::Custom("custom".into())) } fn run( &self, _engine_state: &EngineState, _stack: &mut Stack, _call: &nu_protocol::ast::Call, _input: nu_protocol::PipelineData, ) -> Result { todo!() } } #[derive(Clone)] pub struct AggMin; impl Command for AggMin { fn name(&self) -> &str { "min" } fn usage(&self) -> &str { "Mock custom min command" } fn signature(&self) -> nu_protocol::Signature { Signature::build(self.name()).category(Category::Custom("custom".into())) } fn run( &self, _engine_state: &EngineState, _stack: &mut Stack, _call: &nu_protocol::ast::Call, _input: nu_protocol::PipelineData, ) -> Result { todo!() } } #[derive(Clone)] pub struct WithColumn; impl Command for WithColumn { fn name(&self) -> &str { "with-column" } fn usage(&self) -> &str { "Mock custom with-column command" } fn signature(&self) -> nu_protocol::Signature { Signature::build(self.name()) .rest("operation", SyntaxShape::Any, "operation") .input_type(Type::Custom("custom".into())) .output_type(Type::Custom("custom".into())) .category(Category::Custom("custom".into())) } fn run( &self, _engine_state: &EngineState, _stack: &mut Stack, _call: &nu_protocol::ast::Call, _input: nu_protocol::PipelineData, ) -> Result { todo!() } } #[derive(Clone)] pub struct Collect; impl Command for Collect { fn name(&self) -> &str { "collect" } fn usage(&self) -> &str { "Mock custom collect command" } fn signature(&self) -> nu_protocol::Signature { Signature::build(self.name()) .input_type(Type::Custom("custom".into())) .output_type(Type::Custom("custom".into())) .category(Category::Custom("custom".into())) } fn run( &self, _engine_state: &EngineState, _stack: &mut Stack, _call: &nu_protocol::ast::Call, _input: nu_protocol::PipelineData, ) -> Result { todo!() } } #[derive(Clone)] pub struct IfMocked; impl Command for IfMocked { fn name(&self) -> &str { "if" } fn usage(&self) -> &str { "Mock if command" } fn signature(&self) -> nu_protocol::Signature { Signature::build("if") .required("cond", SyntaxShape::Expression, "condition to check") .required( "then_block", SyntaxShape::Block, "block to run if check succeeds", ) .optional( "else_expression", SyntaxShape::Keyword(b"else".to_vec(), Box::new(SyntaxShape::Expression)), "expression or block to run if check fails", ) .category(Category::Core) } fn run( &self, _engine_state: &EngineState, _stack: &mut Stack, _call: &nu_protocol::ast::Call, _input: nu_protocol::PipelineData, ) -> Result { todo!() } } fn add_declations(engine_state: &mut EngineState) { let delta = { let mut working_set = StateWorkingSet::new(engine_state); working_set.add_decl(Box::new(Let)); working_set.add_decl(Box::new(AggCustom)); working_set.add_decl(Box::new(GroupByCustom)); working_set.add_decl(Box::new(GroupBy)); working_set.add_decl(Box::new(LsTest)); working_set.add_decl(Box::new(ToCustom)); working_set.add_decl(Box::new(AggMin)); working_set.add_decl(Box::new(Collect)); working_set.add_decl(Box::new(WithColumn)); working_set.add_decl(Box::new(IfMocked)); working_set.render() }; engine_state .merge_delta(delta) .expect("Error merging delta"); } #[test] fn call_types_test() { let mut engine_state = EngineState::new(); add_declations(&mut engine_state); let mut working_set = StateWorkingSet::new(&engine_state); let input = r#"ls | to-custom | group-by name other"#; let (block, err) = parse(&mut working_set, None, input.as_bytes(), true, &[]); assert!(err.is_none()); assert!(block.len() == 1); let expressions = &block[0]; assert!(expressions.len() == 3); match &expressions[0] { PipelineElement::Expression( _, Expression { expr: Expr::Call(call), .. }, ) => { let expected_id = working_set .find_decl(b"ls", &Type::Any) .expect("Error merging delta"); assert_eq!(call.decl_id, expected_id) } _ => panic!("Expected expression Call not found"), } match &expressions[1] { PipelineElement::Expression( _, Expression { expr: Expr::Call(call), .. }, ) => { let expected_id = working_set.find_decl(b"to-custom", &Type::Any).unwrap(); assert_eq!(call.decl_id, expected_id) } _ => panic!("Expected expression Call not found"), } match &expressions[2] { PipelineElement::Expression( _, Expression { expr: Expr::Call(call), .. }, ) => { let expected_id = working_set .find_decl(b"group-by", &Type::Custom("custom".into())) .unwrap(); assert_eq!(call.decl_id, expected_id) } _ => panic!("Expected expression Call not found"), } } #[test] fn storing_variable_test() { let mut engine_state = EngineState::new(); add_declations(&mut engine_state); let mut working_set = StateWorkingSet::new(&engine_state); let input = r#"let a = (ls | to-custom | group-by name other); let b = (1+3); $a | agg sum"#; let (block, err) = parse(&mut working_set, None, input.as_bytes(), true, &[]); assert!(err.is_none()); assert!(block.len() == 3); let expressions = &block[2]; match &expressions[1] { PipelineElement::Expression( _, Expression { expr: Expr::Call(call), .. }, ) => { let expected_id = working_set .find_decl(b"agg", &Type::Custom("custom".into())) .unwrap(); assert_eq!(call.decl_id, expected_id) } _ => panic!("Expected expression Call not found"), } } #[test] fn stored_variable_operation_test() { let mut engine_state = EngineState::new(); add_declations(&mut engine_state); let mut working_set = StateWorkingSet::new(&engine_state); let input = r#"let a = (ls | to-custom | group-by name other); ($a + $a) | agg sum"#; let (block, err) = parse(&mut working_set, None, input.as_bytes(), true, &[]); assert!(err.is_none()); assert!(block.len() == 2); let expressions = &block[1]; match &expressions[1] { PipelineElement::Expression( _, Expression { expr: Expr::Call(call), .. }, ) => { let expected_id = working_set .find_decl(b"agg", &Type::Custom("custom".into())) .unwrap(); assert_eq!(call.decl_id, expected_id) } _ => panic!("Expected expression Call not found"), } } #[test] fn multiple_stored_variable_test() { let mut engine_state = EngineState::new(); add_declations(&mut engine_state); let mut working_set = StateWorkingSet::new(&engine_state); let input = r#" let a = (ls | to-custom | group-by name other); [1 2 3] | to-custom; [1 2 3] | to-custom"#; let (block, err) = parse(&mut working_set, None, input.as_bytes(), true, &[]); assert!(err.is_none()); assert!(block.len() == 3); let expressions = &block[1]; match &expressions[1] { PipelineElement::Expression( _, Expression { expr: Expr::Call(call), .. }, ) => { let expected_id = working_set.find_decl(b"to-custom", &Type::Any).unwrap(); assert_eq!(call.decl_id, expected_id) } _ => panic!("Expected expression Call not found"), } let expressions = &block[2]; match &expressions[1] { PipelineElement::Expression( _, Expression { expr: Expr::Call(call), .. }, ) => { let expected_id = working_set.find_decl(b"to-custom", &Type::Any).unwrap(); assert_eq!(call.decl_id, expected_id) } _ => panic!("Expected expression Call not found"), } } #[test] fn call_non_custom_types_test() { let mut engine_state = EngineState::new(); add_declations(&mut engine_state); let mut working_set = StateWorkingSet::new(&engine_state); let input = r#"ls | group-by name"#; let (block, err) = parse(&mut working_set, None, input.as_bytes(), true, &[]); assert!(err.is_none()); assert!(block.len() == 1); let expressions = &block[0]; assert!(expressions.len() == 2); match &expressions[0] { PipelineElement::Expression( _, Expression { expr: Expr::Call(call), .. }, ) => { let expected_id = working_set.find_decl(b"ls", &Type::Any).unwrap(); assert_eq!(call.decl_id, expected_id) } _ => panic!("Expected expression Call not found"), } match &expressions[1] { PipelineElement::Expression( _, Expression { expr: Expr::Call(call), .. }, ) => { let expected_id = working_set.find_decl(b"group-by", &Type::Any).unwrap(); assert_eq!(call.decl_id, expected_id) } _ => panic!("Expected expression Call not found"), } } #[test] fn nested_operations_test() { let mut engine_state = EngineState::new(); add_declations(&mut engine_state); let (block, delta) = { let mut working_set = StateWorkingSet::new(&engine_state); let input = r#"ls | to-custom | group-by name other | agg ("b" | min)"#; let (block, _) = parse(&mut working_set, None, input.as_bytes(), true, &[]); (block, working_set.render()) }; engine_state.merge_delta(delta).unwrap(); let expressions = &block[0]; match &expressions[3] { PipelineElement::Expression( _, Expression { expr: Expr::Call(call), .. }, ) => { let arg = &call.arguments[0]; match arg { Argument::Positional(a) => match &a.expr { Expr::FullCellPath(path) => match &path.head.expr { Expr::Subexpression(id) => { let block = engine_state.get_block(*id); let expressions = &block[0]; assert!(expressions.len() == 2); match &expressions[1] { PipelineElement::Expression( _, Expression { expr: Expr::Call(call), .. }, ) => { let working_set = StateWorkingSet::new(&engine_state); let expected_id = working_set.find_decl(b"min", &Type::Any).unwrap(); assert_eq!(call.decl_id, expected_id) } _ => panic!("Expected expression Call not found"), } } _ => panic!("Expected Subexpression not found"), }, _ => panic!("Expected FullCellPath not found"), }, _ => panic!("Expected Argument Positional not found"), } } _ => panic!("Expected expression Call not found"), } } #[test] fn call_with_list_test() { let mut engine_state = EngineState::new(); add_declations(&mut engine_state); let mut working_set = StateWorkingSet::new(&engine_state); let input = r#"[[a b]; [1 2] [3 4]] | to-custom | with-column [ ("a" | min) ("b" | min) ] | collect"#; let (block, err) = parse(&mut working_set, None, input.as_bytes(), true, &[]); assert!(err.is_none()); assert!(block.len() == 1); let expressions = &block[0]; match &expressions[2] { PipelineElement::Expression( _, Expression { expr: Expr::Call(call), .. }, ) => { let expected_id = working_set .find_decl(b"with-column", &Type::Custom("custom".into())) .unwrap(); assert_eq!(call.decl_id, expected_id) } _ => panic!("Expected expression Call not found"), } match &expressions[3] { PipelineElement::Expression( _, Expression { expr: Expr::Call(call), .. }, ) => { let expected_id = working_set .find_decl(b"collect", &Type::Custom("custom".into())) .unwrap(); assert_eq!(call.decl_id, expected_id) } _ => panic!("Expected expression Call not found"), } } #[test] fn operations_within_blocks_test() { let mut engine_state = EngineState::new(); add_declations(&mut engine_state); let mut working_set = StateWorkingSet::new(&engine_state); let inputs = vec![ r#"let a = 'b'; ($a == 'b') or ($a == 'b')"#, r#"let a = 'b'; ($a == 'b') or ($a == 'b') and ($a == 'b')"#, r#"let a = 1; ($a == 1) or ($a == 2) and ($a == 3)"#, r#"let a = 'b'; if ($a == 'b') or ($a == 'b') { true } else { false }"#, r#"let a = 1; if ($a == 1) or ($a > 0) { true } else { false }"#, ]; for input in inputs { let (block, err) = parse(&mut working_set, None, input.as_bytes(), true, &[]); assert!(err.is_none(), "testing: {}", input); assert!(block.len() == 2, "testing: {}", input); } } }