// Standard Uses use std::path::Path; // Local Uses // External Uses use comline::schema::{idl, ir}; use comline::schema::idl::constants::SCHEMA_EXTENSION; use comline::schema::idl::ast::unit::ASTUnit; use comline::utils::codemap::Span; #[test] fn from_raw_to_unit() { let path = &format!("tests/idl/simple.{}", SCHEMA_EXTENSION); let path = Path::new(path); let raw = std::fs::read_to_string(path).unwrap(); let sourced = idl::parser_new::parse_source( raw, path.to_str().unwrap().to_owned() ).unwrap(); /* pretty_assertions::assert_eq!( sourced.1, vec![ (Span(1), ASTUnit::Namespace(Span(2), "tests::idl::simple".to_owned())), (Span(3), (ASTUnit::Import( Span(4), "std::validators::string_bounds::StringBounds".to_string())) ), (Span(5), ASTUnit::Constant { docstring: vec![], name: (Span(6), "POWER".to_owned()), kind: (Span(7), "u8".to_owned()), default_value: Some((Span(8), "1".to_owned())), }), (Span(9), ASTUnit::Constant { docstring: vec![], name: (Span(10), "DEFAULT_NAME".to_owned()), kind: (Span(11), "str".to_owned()), default_value: Some((Span(12), "f\"flower power: {POWER}\"".to_owned())), }), (Span(13), ASTUnit::Settings { docstring: vec![], name: (Span(14), "Test".to_owned()), parameters: vec![ (Span(15), ASTUnit::Parameter { name: (Span(16), "forbid_indexing".to_string()), default_value: (Span(17), "True".to_string()), }), (Span(18), ASTUnit::Parameter { name: (Span(19), "forbid_optional_indexing".to_string()), default_value: (Span(20), "True".to_string()), }) ], }), (Span(21), ASTUnit::Enum { docstring: vec![], name: (Span(22), "EncryptionAlgorithm".to_owned()), variants: vec![ (Span(23), ASTUnit::EnumVariant { name: (Span(24), "Bad".to_owned()), kind: None }), (Span(25), ASTUnit::EnumVariant { name: (Span(26), "Medium".to_owned()), kind: None }) ] }), (Span(27), ASTUnit::Enum { docstring: vec![], name: (Span(28), "EncryptionMode".to_string()), variants: vec![ (Span(29), ASTUnit::EnumVariant { name: (Span(30), "None".to_string()), kind: None }), (Span(31), ASTUnit::EnumVariant { name: (Span(32), "Encrypt".to_string()), kind: None }) ], }), (Span(33), ASTUnit::Struct { docstring: vec![ (Span(34), ASTUnit::Docstring { variable: None, description: " A message that can be sent through the mail protocol".to_owned(), }), ], parameters: vec![], name: (Span(35), "Message".to_owned()), fields: vec![ (Span(36), ASTUnit::Field { docstring: vec![], parameters: vec![], optional: false, name: "name".to_owned(), kind: "str".to_owned(), default_value: Some("DEFAULT_NAME".to_owned()), }), (Span(37), ASTUnit::Field { docstring: vec![], parameters: vec![], optional: false, name: "encryption_mode".to_owned(), kind: "EncryptionMode".to_owned(), default_value: Some("default".to_owned()), }), (Span(38), ASTUnit::Field { docstring: vec![], parameters: vec![], optional: true, name: "recipient".to_owned(), kind: "str".to_owned(), default_value: Some("\"bee\"".to_owned()), }) ], }), (Span(39), ASTUnit::Error { docstring: vec![ (Span(40), ASTUnit::Docstring { variable: None, description: " Throw when sending a message to a missing recipient".to_string() } ), ], parameters: vec![ (Span(42), ASTUnit::Parameter { name: (Span(43), "message".to_owned()), default_value: ( Span(44), "\"Recipient with name {self.recipient} not found\"".to_owned() ), }) ], name: (Span(41), "RecipientNotFoundError".to_owned()), properties: vec![], fields: vec![ (Span(45), ASTUnit::Field { docstring: vec![], parameters: vec![], optional: false, name: "recipient".to_string(), kind: "str".to_string(), default_value: None, }) ], }), (Span(46), ASTUnit::Protocol { docstring: vec![ (Span(47), ASTUnit::Docstring { variable: None, description: " Mail API for receiving and sending emails".to_string(), }) ], parameters: vec![ (Span(48), ASTUnit::Parameter { name: (Span(49), "provider".to_owned()), default_value: (Span(50), "Any".to_owned(), ), }), ], name: (Span(51), "Mail".to_owned()), functions: vec![ (Span(52), ASTUnit::Function { docstring: vec![], parameters: vec![ (Span(53), ASTUnit::Parameter { name: (Span(54), "timeout_ms".to_string()), default_value: (Span(55), "1000".to_string()), }) ], name: (Span(56), "send_message".to_owned()), asynchronous: None, arguments: vec![ (Span(57), ASTUnit::Argument { name: Some((Span(58), "message".to_owned())), kind: (Span(59), "Message".to_string()), }) ], returns: vec![ (Span(60), "str".to_owned()) ], throws: vec![ (Span(61), "RecipientNotFoundError(function.message.recipient)\n".to_owned()) ], }) ], }) ] ) */ } #[allow(unused)] #[test] fn compile_unit() { let path = &format!("tests/idl/simple.{}", SCHEMA_EXTENSION); let path = Path::new(path); let unit = idl::parser_new::from_path(path).unwrap(); let context = ir::context::SchemaContext::with_main(unit); /* let frozen_unit = interpreter::interpret_context(context).unwrap(); pretty_assertions::assert_eq!( frozen_unit, vec![ FrozenUnit::Namespace("tests::idl::simple".to_string()), FrozenUnit::Import("std::validators::string_bounds::StringBounds".to_string()), FrozenUnit::Constant { docstring: None, name: "POWER".to_string(), kind_value: KindValue::Primitive(Primitive::U8(Some(1))), }, FrozenUnit::Constant { docstring: None, name: "DEFAULT_NAME".to_string(), kind_value: KindValue::Primitive(Primitive::String( Some("f\"flower power: {POWER}\"".to_string()) )), }, FrozenUnit::Enum { docstring: None, name: "EncryptionAlgorithm".to_string(), variants: vec![ FrozenUnit::EnumVariant(KindValue::EnumVariant( "Bad".to_owned(), None )), FrozenUnit::EnumVariant(KindValue::EnumVariant( "Medium".to_owned(), None )) ], }, FrozenUnit::Enum { docstring: None, name: "EncryptionMode".to_string(), variants: vec![ FrozenUnit::EnumVariant(KindValue::EnumVariant( "None".to_owned(), None) ), FrozenUnit::EnumVariant(KindValue::EnumVariant( "Encrypt".to_owned(), None // TODO; The reference bellow is a feature that needs thought, uncomment later /* Some(Box::from(KindValue::EnumVariant( "Medium".to_string(), None ))) */ )) ] } ] ); */ }