// Copyright 2016 Mozilla // // Licensed under the Apache License, Version 2.0 (the "License"); you may not use // this file except in compliance with the License. You may obtain a copy of the // License at http://www.apache.org/licenses/LICENSE-2.0 // Unless required by applicable law or agreed to in writing, software distributed // under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR // CONDITIONS OF ANY KIND, either express or implied. See the License for the // specific language governing permissions and limitations under the License. extern crate chrono; extern crate edn; extern crate num; extern crate ordered_float; extern crate uuid; use std::collections::{BTreeMap, BTreeSet, LinkedList}; use std::f64; use std::iter::FromIterator; use num::bigint::ToBigInt; use num::traits::{One, Zero}; use ordered_float::OrderedFloat; use chrono::{TimeZone, Utc}; use edn::{ parse, symbols, types::{Span, SpannedValue, Value, ValueAndSpan}, utils, ParseError, }; // Helper for making wrapped keywords with a namespace. fn k_ns(ns: &str, name: &str) -> Value { Value::Keyword(symbols::Keyword::namespaced(ns, name)) } // Helper for making wrapped keywords without a namespace. fn k_plain(name: &str) -> Value { Value::Keyword(symbols::Keyword::plain(name)) } // Helper for making wrapped symbols with a namespace fn s_ns(ns: &str, name: &str) -> Value { Value::NamespacedSymbol(symbols::NamespacedSymbol::namespaced(ns, name)) } // Helper for making wrapped symbols without a namespace fn s_plain(name: &str) -> Value { Value::PlainSymbol(symbols::PlainSymbol::plain(name)) } // Helpers for parsing strings and converting them into edn::Value. macro_rules! fn_parse_into_value { ($name: ident) => { fn $name<'a, T>(src: T) -> Result where T: Into<&'a str>, { parse::$name(src.into()).map(|x| x.into()) } }; } // These look exactly like their `parse::foo` counterparts, but // automatically convert the returned result into Value. Use `parse::foo` // if you want the original ValueAndSpan instance. fn_parse_into_value!(nil); fn_parse_into_value!(nan); fn_parse_into_value!(infinity); fn_parse_into_value!(boolean); fn_parse_into_value!(bigint); fn_parse_into_value!(octalinteger); fn_parse_into_value!(hexinteger); fn_parse_into_value!(basedinteger); fn_parse_into_value!(integer); fn_parse_into_value!(float); fn_parse_into_value!(text); fn_parse_into_value!(symbol); fn_parse_into_value!(keyword); fn_parse_into_value!(list); fn_parse_into_value!(vector); fn_parse_into_value!(set); fn_parse_into_value!(map); fn_parse_into_value!(value); fn_parse_into_value!(bytes); #[test] fn test_nil() { use self::Value::*; assert_eq!(nil("nil").unwrap(), Nil); assert!(nil("true").is_err()); } #[test] fn test_span_nil() { assert_eq!( parse::value("nil").unwrap(), ValueAndSpan { inner: SpannedValue::Nil, span: Span(0, 3) } ); } #[test] fn test_nan() { use self::Value::*; assert!(nan("#fNaN").is_err()); assert!(nan("#f;x\nNaN").is_err()); assert_eq!(nan("#f NaN").unwrap(), Float(OrderedFloat(f64::NAN))); assert_eq!(nan("#f\t NaN").unwrap(), Float(OrderedFloat(f64::NAN))); assert_eq!(nan("#f,NaN").unwrap(), Float(OrderedFloat(f64::NAN))); assert!(nan("true").is_err()); } #[test] fn test_span_nan() { assert_eq!( parse::value("#f NaN").unwrap(), ValueAndSpan { inner: SpannedValue::Float(OrderedFloat(f64::NAN)), span: Span(0, 6) } ); } #[test] fn test_infinity() { use self::Value::*; assert!(infinity("#f-Infinity").is_err()); assert!(infinity("#f+Infinity").is_err()); assert!(infinity("#f;x\n-Infinity").is_err()); assert!(infinity("#f;x\n+Infinity").is_err()); assert_eq!( infinity("#f -Infinity").unwrap(), Float(OrderedFloat(f64::NEG_INFINITY)) ); assert_eq!( infinity("#f +Infinity").unwrap(), Float(OrderedFloat(f64::INFINITY)) ); assert_eq!( infinity("#f\t -Infinity").unwrap(), Float(OrderedFloat(f64::NEG_INFINITY)) ); assert_eq!( infinity("#f\t +Infinity").unwrap(), Float(OrderedFloat(f64::INFINITY)) ); assert_eq!( infinity("#f,-Infinity").unwrap(), Float(OrderedFloat(f64::NEG_INFINITY)) ); assert_eq!( infinity("#f,+Infinity").unwrap(), Float(OrderedFloat(f64::INFINITY)) ); assert!(infinity("true").is_err()); } #[test] fn test_span_infinity() { assert_eq!( parse::value("#f -Infinity").unwrap(), ValueAndSpan { inner: SpannedValue::Float(OrderedFloat(f64::NEG_INFINITY)), span: Span(0, 12) } ); assert_eq!( parse::value("#f +Infinity").unwrap(), ValueAndSpan { inner: SpannedValue::Float(OrderedFloat(f64::INFINITY)), span: Span(0, 12) } ); } #[test] fn test_boolean() { use self::Value::*; assert_eq!(boolean("true").unwrap(), Boolean(true)); assert_eq!(boolean("false").unwrap(), Boolean(false)); assert!(boolean("nil").is_err()); } #[test] fn test_span_boolean() { assert_eq!( parse::value("true").unwrap(), ValueAndSpan { inner: SpannedValue::Boolean(true), span: Span(0, 4) } ); assert_eq!( parse::value("false").unwrap(), ValueAndSpan { inner: SpannedValue::Boolean(false), span: Span(0, 5) } ); } #[test] fn test_integer() { use self::Value::*; assert_eq!(integer("0").unwrap(), Integer(0i64)); assert_eq!(integer("1").unwrap(), Integer(1i64)); assert_eq!(integer("999").unwrap(), Integer(999i64)); assert_eq!(integer("-999").unwrap(), Integer(-999i64)); assert!(integer("nil").is_err()); } #[test] fn test_hexinteger() { use self::Value::*; assert_eq!(hexinteger("0xabc111").unwrap(), Integer(11256081)); assert_eq!(hexinteger("0xABCDEF").unwrap(), Integer(11259375)); assert_eq!(hexinteger("0xabcdef").unwrap(), Integer(11259375)); assert!(hexinteger("1").is_err()); assert!(hexinteger("nil").is_err()); assert!(hexinteger("0xZZZ").is_err()); } #[test] fn test_basedinteger() { use self::Value::*; assert_eq!(basedinteger("2r111").unwrap(), Integer(7)); assert_eq!(basedinteger("36r1z").unwrap(), Integer(71)); assert_eq!(basedinteger("36r1Z").unwrap(), Integer(71)); assert_eq!(basedinteger("12r11").unwrap(), Integer(13)); assert_eq!(basedinteger("24r10").unwrap(), Integer(24)); assert!(basedinteger("1").is_err()); assert!(basedinteger("nil").is_err()); } #[test] fn test_octalinteger() { use self::Value::*; assert_eq!(octalinteger("011").unwrap(), Integer(9)); assert_eq!(octalinteger("00107").unwrap(), Integer(71)); assert!(octalinteger("1").is_err()); assert!(octalinteger("nil").is_err()); } #[test] fn test_span_integer() { assert_eq!( parse::value("42").unwrap(), ValueAndSpan { inner: SpannedValue::Integer(42), span: Span(0, 2) } ); assert_eq!( parse::value("0xabc111").unwrap(), ValueAndSpan { inner: SpannedValue::Integer(11256081), span: Span(0, 8) } ); assert_eq!( parse::value("2r111").unwrap(), ValueAndSpan { inner: SpannedValue::Integer(7), span: Span(0, 5) } ); assert_eq!( parse::value("011").unwrap(), ValueAndSpan { inner: SpannedValue::Integer(9), span: Span(0, 3) } ); } #[test] fn test_uuid() { assert!(parse::uuid("#uuid\"550e8400-e29b-41d4-a716-446655440000\"").is_err()); // No whitespace. assert!(parse::uuid("#uuid \"z50e8400-e29b-41d4-a716-446655440000\"").is_err()); // Not hex. assert!(parse::uuid("\"z50e8400-e29b-41d4-a716-446655440000\"").is_err()); // No tag. assert!(parse::uuid("#uuid \"aaaaaaaae29b-41d4-a716-446655440000\"").is_err()); // Hyphens. assert!(parse::uuid("#uuid \"aaaaaaaa-e29b-41d4-a716-446655440\"").is_err()); // Truncated. assert!(parse::uuid("#uuid \"A50e8400-e29b-41d4-a716-446655440000\"").is_err()); // Capital. let expected = uuid::Uuid::parse_str("550e8400-e29b-41d4-a716-446655440000").expect("valid UUID"); let s = "#uuid \"550e8400-e29b-41d4-a716-446655440000\""; let actual = parse::uuid(s).expect("parse success").into(); let value = self::Value::Uuid(expected); assert_eq!(value, actual); assert_eq!(format!("{}", value), s); assert_eq!(value.to_pretty(100).unwrap(), s); } #[test] fn test_bytes() { assert!(parse::bytes("#bytes01 ").is_err()); // No whitespace. assert!(parse::bytes("#bytes _ZZ").is_err()); // No whitespace. assert!(parse::bytes("#bytes 01 ").is_err()); // No whitespace. assert!(parse::bytes("#01 ").is_err()); // No whitespace. let expected = vec![1, 2, 3, 4, 5, 6, 7, 8, 9, 10]; let s = format!("{} {}", "#bytes", hex::encode(expected.clone())); let actual: Value = parse::bytes(&s).expect("parse success").into(); assert!(actual.is_bytes()); assert_eq!(expected, actual.as_bytes().unwrap().to_vec()); assert_eq!( self::bytes("#bytes 010203050403022a").unwrap(), Value::Bytes(bytes::Bytes::copy_from_slice(&vec!( 1, 2, 3, 5, 4, 3, 2, 42 ))) ); } #[test] fn test_inst() { assert!(parse::value("#inst\"2016-01-01T11:00:00.000Z\"").is_err()); // No whitespace. assert!(parse::value("#inst \"2016-01-01T11:00:00.000\"").is_err()); // No timezone. assert!(parse::value("#inst \"2016-01-01T11:00:00.000z\"").is_err()); // Lowercase timezone. let expected = Utc.timestamp(1493410985, 187000000); let s = "#inst \"2017-04-28T20:23:05.187Z\""; let actual = parse::value(s).expect("parse success").into(); let value = self::Value::Instant(expected); assert_eq!(value, actual); assert_eq!(format!("{}", value), s); assert_eq!(value.to_pretty(100).unwrap(), s); } #[test] fn test_bigint() { use self::Value::*; let max_i64 = i64::max_value().to_bigint().unwrap(); let bigger = &max_i64 * &max_i64; assert_eq!(bigint("0N").unwrap(), BigInteger(Zero::zero())); assert_eq!(bigint("1N").unwrap(), BigInteger(One::one())); assert_eq!(bigint("9223372036854775807N").unwrap(), BigInteger(max_i64)); assert_eq!( bigint("85070591730234615847396907784232501249N").unwrap(), BigInteger(bigger) ); assert!(bigint("nil").is_err()); } #[test] fn test_span_bigint() { let max_i64 = i64::max_value().to_bigint().unwrap(); let bigger = &max_i64 * &max_i64; assert_eq!( parse::value("85070591730234615847396907784232501249N").unwrap(), ValueAndSpan { inner: SpannedValue::BigInteger(bigger), span: Span(0, 39) } ); } #[test] fn test_float() { use self::Value::*; assert_eq!(float("111.222").unwrap(), Float(OrderedFloat(111.222f64))); assert_eq!(float("3e4").unwrap(), Float(OrderedFloat(3e4f64))); assert_eq!(float("-55e-66").unwrap(), Float(OrderedFloat(-55e-66f64))); assert_eq!(float("77.88e99").unwrap(), Float(OrderedFloat(77.88e99f64))); assert_eq!(float("-9.9E-9").unwrap(), Float(OrderedFloat(-9.9E-9f64))); assert_eq!(float("42").unwrap(), Float(OrderedFloat(42f64))); assert!(float("nil").is_err()); } #[test] fn test_span_float() { assert_eq!( parse::value("42.0").unwrap(), ValueAndSpan { inner: SpannedValue::Float(OrderedFloat(42f64)), span: Span(0, 4) } ); } #[test] fn test_text() { use self::Value::*; assert_eq!( text("\"hello world\"").unwrap(), Text("hello world".to_string()) ); assert_eq!(text("\"\"").unwrap(), Text("".to_string())); assert!(text("\"").is_err()); assert!(text("nil").is_err()); let raw_edn = r#""This string contains a \" and a \\""#; let raw_string = r#"This string contains a " and a \"#; assert_eq!( parse::value(raw_edn).unwrap(), ValueAndSpan { inner: SpannedValue::Text(raw_string.to_string()), span: Span(0, raw_edn.len() as u32) } ); } #[test] fn test_span_text() { assert_eq!( parse::value("\"hello world\"").unwrap(), ValueAndSpan { inner: SpannedValue::Text("hello world".to_string()), span: Span(0, 13) } ); } #[test] fn test_symbol() { assert_eq!(symbol("$").unwrap(), s_plain("$")); assert_eq!(symbol(".").unwrap(), s_plain(".")); assert_eq!(symbol("...").unwrap(), s_plain("...")); assert_eq!(symbol("hello/world").unwrap(), s_ns("hello", "world")); assert_eq!( symbol("foo-bar/baz-boz").unwrap(), s_ns("foo-bar", "baz-boz") ); assert_eq!( symbol("foo-bar/baz_boz").unwrap(), s_ns("foo-bar", "baz_boz") ); assert_eq!( symbol("foo_bar/baz-boz").unwrap(), s_ns("foo_bar", "baz-boz") ); assert_eq!( symbol("foo_bar/baz_boz").unwrap(), s_ns("foo_bar", "baz_boz") ); assert_eq!(symbol("symbol").unwrap(), s_plain("symbol")); assert_eq!(symbol("hello").unwrap(), s_plain("hello")); assert_eq!(symbol("foo-bar").unwrap(), s_plain("foo-bar")); assert_eq!(symbol("foo_bar").unwrap(), s_plain("foo_bar")); } #[test] fn test_span_symbol() { assert_eq!( parse::value("hello").unwrap(), ValueAndSpan { inner: SpannedValue::from_symbol(None, "hello"), span: Span(0, 5) } ); assert_eq!( parse::value("hello/world").unwrap(), ValueAndSpan { inner: SpannedValue::from_symbol("hello", "world"), span: Span(0, 11) } ); } #[test] fn test_keyword() { assert_eq!(keyword(":hello/world").unwrap(), k_ns("hello", "world")); assert_eq!( keyword(":foo-bar/baz-boz").unwrap(), k_ns("foo-bar", "baz-boz") ); assert_eq!( keyword(":foo-bar/baz_boz").unwrap(), k_ns("foo-bar", "baz_boz") ); assert_eq!( keyword(":foo_bar/baz-boz").unwrap(), k_ns("foo_bar", "baz-boz") ); assert_eq!( keyword(":foo_bar/baz_boz").unwrap(), k_ns("foo_bar", "baz_boz") ); assert_eq!(keyword(":symbol").unwrap(), k_plain("symbol")); assert_eq!(keyword(":hello").unwrap(), k_plain("hello")); assert_eq!(keyword(":foo-bar").unwrap(), k_plain("foo-bar")); assert_eq!(keyword(":foo_bar").unwrap(), k_plain("foo_bar")); assert!(keyword(":").is_err()); assert!(keyword(":foo/").is_err()); assert_eq!( keyword(":foo*!_?$%&=<>-+").unwrap(), k_plain("foo*!_?$%&=<>-+") ); assert_eq!( keyword(":foo/bar*!_?$%&=<>-+").unwrap(), k_ns("foo", "bar*!_?$%&=<>-+") ); } #[test] fn test_span_keyword() { assert_eq!( parse::value(":hello").unwrap(), ValueAndSpan { inner: SpannedValue::from_keyword(None, "hello"), span: Span(0, 6) } ); assert_eq!( parse::value(":hello/world").unwrap(), ValueAndSpan { inner: SpannedValue::from_keyword("hello", "world"), span: Span(0, 12) } ); } #[test] fn test_value() { use self::Value::*; let max_i64 = i64::max_value().to_bigint().unwrap(); let bigger = &max_i64 * &max_i64; assert_eq!(value("nil").unwrap(), Nil); assert_eq!(value("true").unwrap(), Boolean(true)); assert_eq!(value("1").unwrap(), Integer(1i64)); assert_eq!(value("0xabc111").unwrap(), Integer(11256081)); assert_eq!(value("2r111").unwrap(), Integer(7)); assert_eq!(value("011").unwrap(), Integer(9)); assert_eq!( value("85070591730234615847396907784232501249N").unwrap(), BigInteger(bigger) ); assert_eq!(value("111.222").unwrap(), Float(OrderedFloat(111.222f64))); assert_eq!( value("\"hello world\"").unwrap(), Text("hello world".to_string()) ); assert_eq!(value("$").unwrap(), s_plain("$")); assert_eq!(value(".").unwrap(), s_plain(".")); assert_eq!(value("$symbol").unwrap(), s_plain("$symbol")); assert_eq!(value(":hello").unwrap(), k_plain("hello")); assert_eq!(value("[1]").unwrap(), Vector(vec![Integer(1)])); assert_eq!( value("(1)").unwrap(), List(LinkedList::from_iter(vec![Integer(1)])) ); assert_eq!( value("#{1}").unwrap(), Set(BTreeSet::from_iter(vec![Integer(1)])) ); assert_eq!( value("{1 2}").unwrap(), Map(BTreeMap::from_iter(vec![(Integer(1), Integer(2))])) ); assert_eq!( value("#uuid \"e43c6f3e-3123-49b7-8098-9b47a7bc0fa4\"").unwrap(), Uuid(uuid::Uuid::parse_str("e43c6f3e-3123-49b7-8098-9b47a7bc0fa4").unwrap()) ); assert_eq!( value("#instmillis 1493410985187").unwrap(), Instant(Utc.timestamp(1493410985, 187000000)) ); assert_eq!( value("#instmicros 1493410985187123").unwrap(), Instant(Utc.timestamp(1493410985, 187123000)) ); assert_eq!( value("#inst \"2017-04-28T20:23:05.187Z\"").unwrap(), Instant(Utc.timestamp(1493410985, 187000000)) ); assert_eq!( value("#bytes 010203050403022a").unwrap(), Bytes(bytes::Bytes::copy_from_slice(&vec!( 1, 2, 3, 5, 4, 3, 2, 42 ))) ); } #[test] fn test_span_value() { let max_i64 = i64::max_value().to_bigint().unwrap(); let bigger = &max_i64 * &max_i64; assert_eq!( parse::value("nil").unwrap(), ValueAndSpan { inner: SpannedValue::Nil, span: Span(0, 3) } ); assert_eq!( parse::value("true").unwrap(), ValueAndSpan { inner: SpannedValue::Boolean(true), span: Span(0, 4) } ); assert_eq!( parse::value("1").unwrap(), ValueAndSpan { inner: SpannedValue::Integer(1i64), span: Span(0, 1) } ); assert_eq!( parse::value("85070591730234615847396907784232501249N").unwrap(), ValueAndSpan { inner: SpannedValue::BigInteger(bigger), span: Span(0, 39) } ); assert_eq!( parse::value("111.222").unwrap(), ValueAndSpan { inner: SpannedValue::Float(OrderedFloat(111.222f64)), span: Span(0, 7) } ); assert_eq!( parse::value("\"hello world\"").unwrap(), ValueAndSpan { inner: SpannedValue::Text("hello world".to_string()), span: Span(0, 13) } ); assert_eq!( parse::value("$").unwrap(), ValueAndSpan { inner: SpannedValue::from_symbol(None, "$"), span: Span(0, 1) } ); assert_eq!( parse::value(".").unwrap(), ValueAndSpan { inner: SpannedValue::from_symbol(None, "."), span: Span(0, 1) } ); assert_eq!( parse::value("$symbol").unwrap(), ValueAndSpan { inner: SpannedValue::from_symbol(None, "$symbol"), span: Span(0, 7) } ); assert_eq!( parse::value(":hello").unwrap(), ValueAndSpan { inner: SpannedValue::from_keyword(None, "hello"), span: Span(0, 6) } ); assert_eq!( parse::value("[1]").unwrap(), ValueAndSpan { inner: SpannedValue::Vector(vec![ValueAndSpan { inner: SpannedValue::Integer(1), span: Span(1, 2) }]), span: Span(0, 3) } ); assert_eq!( parse::value("(1)").unwrap(), ValueAndSpan { inner: SpannedValue::List(LinkedList::from_iter(vec![ValueAndSpan { inner: SpannedValue::Integer(1), span: Span(1, 2) }])), span: Span(0, 3) } ); assert_eq!( parse::value("#{1}").unwrap(), ValueAndSpan { inner: SpannedValue::Set(BTreeSet::from_iter(vec![ValueAndSpan { inner: SpannedValue::Integer(1), span: Span(2, 3) }])), span: Span(0, 4) } ); assert_eq!( parse::value("{1 2}").unwrap(), ValueAndSpan { inner: SpannedValue::Map(BTreeMap::from_iter(vec![( ValueAndSpan { inner: SpannedValue::Integer(1), span: Span(1, 2) }, ValueAndSpan { inner: SpannedValue::Integer(2), span: Span(3, 4) } )])), span: Span(0, 5) } ); } #[test] fn test_vector() { use self::Value::*; let max_i64 = i64::max_value().to_bigint().unwrap(); let bigger = &max_i64 * &max_i64; let test = "[]"; let value = Vector(vec![]); assert_eq!(vector(test).unwrap(), value); let test = "[ ]"; let value = Vector(vec![]); assert_eq!(vector(test).unwrap(), value); let test = "[1]"; let value = Vector(vec![Integer(1)]); assert_eq!(vector(test).unwrap(), value); let test = "[ 1 ]"; let value = Vector(vec![Integer(1)]); assert_eq!(vector(test).unwrap(), value); let test = "[nil]"; let value = Vector(vec![Nil]); assert_eq!(vector(test).unwrap(), value); let test = "[1 2]"; let value = Vector(vec![Integer(1), Integer(2)]); assert_eq!(vector(test).unwrap(), value); let test = "[1 2 3.4 85070591730234615847396907784232501249N]"; let value = Vector(vec![ Integer(1), Integer(2), Float(OrderedFloat(3.4f64)), BigInteger(bigger), ]); assert_eq!(vector(test).unwrap(), value); let test = "[1 0 nil \"nil\"]"; let value = Vector(vec![Integer(1), Integer(0), Nil, Text("nil".to_string())]); assert_eq!(vector(test).unwrap(), value); let test = "[1 [0 nil] \"nil\"]"; let value = Vector(vec![ Integer(1), Vector(vec![Integer(0), Nil]), Text("nil".to_string()), ]); assert_eq!(vector(test).unwrap(), value); assert!(vector("[").is_err()); assert!(vector("(").is_err()); assert!(vector("1)").is_err()); assert!(vector("(1 (2 nil) \"hi\"").is_err()); } #[test] fn test_list() { use self::Value::*; let test = "()"; let value = List(LinkedList::from_iter(vec![])); assert_eq!(list(test).unwrap(), value); let test = "( )"; let value = List(LinkedList::from_iter(vec![])); assert_eq!(list(test).unwrap(), value); let test = "(1)"; let value = List(LinkedList::from_iter(vec![Integer(1)])); assert_eq!(list(test).unwrap(), value); let test = "( 1 )"; let value = List(LinkedList::from_iter(vec![Integer(1)])); assert_eq!(list(test).unwrap(), value); let test = "(nil)"; let value = List(LinkedList::from_iter(vec![Nil])); assert_eq!(list(test).unwrap(), value); let test = "(1 2)"; let value = List(LinkedList::from_iter(vec![Integer(1), Integer(2)])); assert_eq!(list(test).unwrap(), value); let test = "(1 2 3.4)"; let value = List(LinkedList::from_iter(vec![ Integer(1), Integer(2), Float(OrderedFloat(3.4f64)), ])); assert_eq!(list(test).unwrap(), value); let test = "(1 0 nil \"nil\")"; let value = List(LinkedList::from_iter(vec![ Integer(1), Integer(0), Nil, Text("nil".to_string()), ])); assert_eq!(list(test).unwrap(), value); let test = "(1 (0 nil) \"nil\")"; let value = List(LinkedList::from_iter(vec![ Integer(1), List(LinkedList::from_iter(vec![Integer(0), Nil])), Text("nil".to_string()), ])); assert_eq!(list(test).unwrap(), value); assert!(list("[").is_err()); assert!(list("(").is_err()); assert!(list("1)").is_err()); assert!(list("(1 (2 nil) \"hi\"").is_err()); } #[test] fn test_set() { use self::Value::*; let test = "#{}"; let value = Set(BTreeSet::from_iter(vec![])); assert_eq!(set(test).unwrap(), value); let test = "#{ }"; let value = Set(BTreeSet::from_iter(vec![])); assert_eq!(set(test).unwrap(), value); let test = "#{1}"; let value = Set(BTreeSet::from_iter(vec![Integer(1)])); assert_eq!(set(test).unwrap(), value); let test = "#{ 1 }"; let value = Set(BTreeSet::from_iter(vec![Integer(1)])); assert_eq!(set(test).unwrap(), value); let test = "#{nil}"; let value = Set(BTreeSet::from_iter(vec![Nil])); assert_eq!(set(test).unwrap(), value); // These tests assume the implementation of Ord for Value, (specifically the sort order which // isn't part of the spec) ideally we'd just test for set contents, however since the API // (BTreeSet) assumes sorting this seems pointless. // See the notes in types.rs for why we use BTreeSet rather than HashSet let test = "#{2 1}"; let value = Set(BTreeSet::from_iter(vec![Integer(1), Integer(2)])); assert_eq!(set(test).unwrap(), value); let test = "#{3.4 2 1}"; let value = Set(BTreeSet::from_iter(vec![ Integer(1), Integer(2), Float(OrderedFloat(3.4f64)), ])); assert_eq!(set(test).unwrap(), value); let test = "#{1 0 nil \"nil\"}"; let value = Set(BTreeSet::from_iter(vec![ Nil, Integer(0), Integer(1), Text("nil".to_string()), ])); assert_eq!(set(test).unwrap(), value); let test = "#{1 #{0 nil} \"nil\"}"; let value = Set(BTreeSet::from_iter(vec![ Integer(1), Set(BTreeSet::from_iter(vec![Nil, Integer(0)])), Text("nil".to_string()), ])); assert_eq!(set(test).unwrap(), value); assert!(set("#{").is_err()); assert!(set("}").is_err()); assert!(set("1}").is_err()); assert!(set("#{1 #{2 nil} \"hi\"").is_err()); } #[test] fn test_map() { use self::Value::*; let test = "{}"; let value = Map(BTreeMap::from_iter(vec![])); assert_eq!(map(test).unwrap(), value); let test = "{ }"; let value = Map(BTreeMap::from_iter(vec![])); assert_eq!(map(test).unwrap(), value); let test = "{\"a\" 1}"; let value = Map(BTreeMap::from_iter(vec![( Text("a".to_string()), Integer(1), )])); assert_eq!(map(test).unwrap(), value); let test = "{ \"a\" 1 }"; let value = Map(BTreeMap::from_iter(vec![( Text("a".to_string()), Integer(1), )])); assert_eq!(map(test).unwrap(), value); let test = "{nil 1, \"b\" 2}"; let value = Map(BTreeMap::from_iter(vec![ (Nil, Integer(1)), (Text("b".to_string()), Integer(2)), ])); assert_eq!(map(test).unwrap(), value); let test = "{ nil 1 \"b\" 2 }"; let value = Map(BTreeMap::from_iter(vec![ (Nil, Integer(1)), (Text("b".to_string()), Integer(2)), ])); assert_eq!(map(test).unwrap(), value); let test = "{nil 1, \"b\" 2, \"a\" 3}"; let value = Map(BTreeMap::from_iter(vec![ (Nil, Integer(1)), (Text("a".to_string()), Integer(3)), (Text("b".to_string()), Integer(2)), ])); assert_eq!(map(test).unwrap(), value); let test = "{ nil 1 \"b\" 2 \"a\" 3}"; let value = Map(BTreeMap::from_iter(vec![ (Nil, Integer(1)), (Text("a".to_string()), Integer(3)), (Text("b".to_string()), Integer(2)), ])); assert_eq!(map(test).unwrap(), value); let test = "{:a 1, $b {:b/a nil, :b/b #{nil 5}}, c [1 2], d (3 4)}"; let value = Map(BTreeMap::from_iter(vec![ (Keyword(symbols::Keyword::plain("a")), Integer(1)), ( s_plain("$b"), Map(BTreeMap::from_iter(vec![ (k_ns("b", "a"), Nil), ( k_ns("b", "b"), Set(BTreeSet::from_iter(vec![Nil, Integer(5)])), ), ])), ), (s_plain("c"), Vector(vec![Integer(1), Integer(2)])), ( s_plain("d"), List(LinkedList::from_iter(vec![Integer(3), Integer(4)])), ), ])); assert_eq!(map(test).unwrap(), value); assert!(map("#{").is_err()); assert!(map("}").is_err()); assert!(map("1}").is_err()); assert!(map("#{1 #{2 nil} \"hi\"").is_err()); } /// The `test_query_*` functions contain the queries taken from the old Clojure implementation of Mentat. /// 2 changes have been applied, which should be checked and maybe fixed /// TODO: Decide if these queries should be placed in a vector wrapper. Is that implied? /// Secondly, see note in `test_query_starred_pages` on the use of ' #[test] fn test_query_active_sessions() { use self::Value::*; let test = "[ :find ?id ?reason ?ts :in $ :where [?id :session/startReason ?reason ?tx] [?tx :db/txInstant ?ts] (not-join [?id] [?id :session/endReason _]) ]"; let reply = Vector(vec![ k_plain("find"), s_plain("?id"), s_plain("?reason"), s_plain("?ts"), k_plain("in"), s_plain("$"), k_plain("where"), Vector(vec![ s_plain("?id"), k_ns("session", "startReason"), s_plain("?reason"), s_plain("?tx"), ]), Vector(vec![ s_plain("?tx"), k_ns("db", "txInstant"), s_plain("?ts"), ]), List(LinkedList::from_iter(vec![ s_plain("not-join"), Vector(vec![s_plain("?id")]), Vector(vec![ s_plain("?id"), k_ns("session", "endReason"), s_plain("_"), ]), ])), ]); assert_eq!(value(test).unwrap(), reply); } #[test] fn test_query_ended_sessions() { use self::Value::*; let test = "[ :find ?id ?endReason ?ts :in $ :where [?id :session/endReason ?endReason ?tx] [?tx :db/txInstant ?ts] ]"; let reply = Vector(vec![ k_plain("find"), s_plain("?id"), s_plain("?endReason"), s_plain("?ts"), k_plain("in"), s_plain("$"), k_plain("where"), Vector(vec![ s_plain("?id"), k_ns("session", "endReason"), s_plain("?endReason"), s_plain("?tx"), ]), Vector(vec![ s_plain("?tx"), k_ns("db", "txInstant"), s_plain("?ts"), ]), ]); assert_eq!(value(test).unwrap(), reply); } #[test] fn test_query_starred_pages() { use self::Value::*; // TODO: The original query had added "'" like `:find '[?url` and `since '[$ ?since] '[$]` let test = "[ :find [?url ?title ?starredOn] :in (if since [$ ?since] [$]) :where where ]"; let reply = Vector(vec![ k_plain("find"), Vector(vec![ s_plain("?url"), s_plain("?title"), s_plain("?starredOn"), ]), k_plain("in"), List(LinkedList::from_iter(vec![ s_plain("if"), s_plain("since"), Vector(vec![s_plain("$"), s_plain("?since")]), Vector(vec![s_plain("$")]), ])), k_plain("where"), s_plain("where"), ]); assert_eq!(value(test).unwrap(), reply); } #[test] fn test_query_saved_pages() { use self::Value::*; let test = "[ :find ?page ?url ?title ?excerpt :in $ :where [?save :save/page ?page] [?save :save/savedAt ?instant] [?page :page/url ?url] [(get-else $ ?save :save/title \"\") ?title] [(get-else $ ?save :save/excerpt \"\") ?excerpt] ]"; let reply = Vector(vec![ k_plain("find"), s_plain("?page"), s_plain("?url"), s_plain("?title"), s_plain("?excerpt"), k_plain("in"), s_plain("$"), k_plain("where"), Vector(vec![ s_plain("?save"), k_ns("save", "page"), s_plain("?page"), ]), Vector(vec![ s_plain("?save"), k_ns("save", "savedAt"), s_plain("?instant"), ]), Vector(vec![s_plain("?page"), k_ns("page", "url"), s_plain("?url")]), Vector(vec![ List(LinkedList::from_iter(vec![ s_plain("get-else"), s_plain("$"), s_plain("?save"), k_ns("save", "title"), Text("".to_string()), ])), s_plain("?title"), ]), Vector(vec![ List(LinkedList::from_iter(vec![ s_plain("get-else"), s_plain("$"), s_plain("?save"), k_ns("save", "excerpt"), Text("".to_string()), ])), s_plain("?excerpt"), ]), ]); assert_eq!(value(test).unwrap(), reply); } #[test] fn test_query_pages_matching_string_1() { use self::Value::*; /* // Original query :find '[?url ?title] :in '[$] :where [ [(list 'fulltext '$ #{:page/url :page/title} string) '[[?page]]] '[(get-else $ ?page :page/url \"\") ?url] '[(get-else $ ?page :page/title \"\") ?title] ] */ let test = "[ :find [?url ?title] :in [$] :where [ [(list fulltext $ #{:page/url :page/title} string) [[?page]]] [(get-else $ ?page :page/url \"\") ?url] [(get-else $ ?page :page/title \"\") ?title] ] ]"; let reply = Vector(vec![ k_plain("find"), Vector(vec![s_plain("?url"), s_plain("?title")]), k_plain("in"), Vector(vec![s_plain("$")]), k_plain("where"), Vector(vec![ Vector(vec![ List(LinkedList::from_iter(vec![ s_plain("list"), s_plain("fulltext"), s_plain("$"), Set(BTreeSet::from_iter(vec![ k_ns("page", "url"), k_ns("page", "title"), ])), s_plain("string"), ])), Vector(vec![Vector(vec![s_plain("?page")])]), ]), Vector(vec![ List(LinkedList::from_iter(vec![ s_plain("get-else"), s_plain("$"), s_plain("?page"), k_ns("page", "url"), Text("".to_string()), ])), s_plain("?url"), ]), Vector(vec![ List(LinkedList::from_iter(vec![ s_plain("get-else"), s_plain("$"), s_plain("?page"), k_ns("page", "title"), Text("".to_string()), ])), s_plain("?title"), ]), ]), ]); assert_eq!(value(test).unwrap(), reply); } #[test] fn test_query_pages_matching_string_2() { use self::Value::*; /* // Original query :find '[?url ?title ?excerpt] :in '[$] :where [ [(list 'fulltext '$ #{:save/title :save/excerpt :save/content} string) '[[?save]]] '[?save :save/page ?page] '[?page :page/url ?url] '[(get-else $ ?save :save/title \"\") ?title] '[(get-else $ ?save :save/excerpt \"\") ?excerpt] ] */ let test = "[ :find [?url ?title ?excerpt] :in [$] :where [ [(list fulltext $ #{:save/title :save/excerpt :save/content} string) [[?save]]] [?save :save/page ?page] [?page :page/url ?url] [(get-else $ ?save :save/title \"\") ?title] [(get-else $ ?save :save/excerpt \"\") ?excerpt] ] ]"; let reply = Vector(vec![ k_plain("find"), Vector(vec![ s_plain("?url"), s_plain("?title"), s_plain("?excerpt"), ]), k_plain("in"), Vector(vec![s_plain("$")]), k_plain("where"), Vector(vec![ Vector(vec![ List(LinkedList::from_iter(vec![ s_plain("list"), s_plain("fulltext"), s_plain("$"), Set(BTreeSet::from_iter(vec![ k_ns("save", "title"), k_ns("save", "excerpt"), k_ns("save", "content"), ])), s_plain("string"), ])), Vector(vec![Vector(vec![s_plain("?save")])]), ]), Vector(vec![ s_plain("?save"), k_ns("save", "page"), s_plain("?page"), ]), Vector(vec![s_plain("?page"), k_ns("page", "url"), s_plain("?url")]), Vector(vec![ List(LinkedList::from_iter(vec![ s_plain("get-else"), s_plain("$"), s_plain("?save"), k_ns("save", "title"), Text("".to_string()), ])), s_plain("?title"), ]), Vector(vec![ List(LinkedList::from_iter(vec![ s_plain("get-else"), s_plain("$"), s_plain("?save"), k_ns("save", "excerpt"), Text("".to_string()), ])), s_plain("?excerpt"), ]), ]), ]); assert_eq!(value(test).unwrap(), reply); } #[test] fn test_query_visited() { use self::Value::*; /* // Original query :find '[?url ?title (max ?time)] :in (if since '[$ ?since] '[$]) :where where */ let test = "[ :find [?url ?title (max ?time)] :in (if since [$ ?since] [$]) :where where ]"; let reply = Vector(vec![ k_plain("find"), Vector(vec![ s_plain("?url"), s_plain("?title"), List(LinkedList::from_iter(vec![ s_plain("max"), s_plain("?time"), ])), ]), k_plain("in"), List(LinkedList::from_iter(vec![ s_plain("if"), s_plain("since"), Vector(vec![s_plain("$"), s_plain("?since")]), Vector(vec![s_plain("$")]), ])), k_plain("where"), s_plain("where"), ]); assert_eq!(value(test).unwrap(), reply); } #[test] fn test_query_find_title() { use self::Value::*; /* // Original query :find ?title . :in $ ?url :where [?page :page/url ?url] [(get-else $ ?page :page/title \"\") ?title] */ let test = "[ :find ?title . :in $ ?url :where [?page :page/url ?url] [(get-else $ ?page :page/title \"\") ?title] ]"; let reply = Vector(vec![ k_plain("find"), s_plain("?title"), s_plain("."), k_plain("in"), s_plain("$"), s_plain("?url"), k_plain("where"), Vector(vec![s_plain("?page"), k_ns("page", "url"), s_plain("?url")]), Vector(vec![ List(LinkedList::from_iter(vec![ s_plain("get-else"), s_plain("$"), s_plain("?page"), k_ns("page", "title"), Text("".to_string()), ])), s_plain("?title"), ]), ]); assert_eq!(value(test).unwrap(), reply); } #[test] fn test_comments() { let result = Ok(Value::Integer(0)); assert_eq!(value("0;"), result); assert_eq!(value("0;x"), result); assert_eq!(value("0;\n"), result); assert_eq!(value("0;x\n"), result); assert_eq!(value(";\n0"), result); assert_eq!(value(";\r0"), result); } #[test] fn test_whitespace() { let result = Ok(Value::Vector(vec![Value::Integer(1)])); assert_eq!(value(" [1]"), result); assert_eq!(value("[1] "), result); assert_eq!(value(" [ 1 ] "), result); } #[test] fn test_inner_whitespace() { let result = Ok(Value::Vector(vec![Value::Vector(vec![Value::Integer(1)])])); assert_eq!(value("[ [1]]"), result); assert_eq!(value("[ [1] ]"), result); assert_eq!(value("[[1] ]"), result); } #[test] fn test_commas() { let result = Ok(Value::Vector(vec![Value::Integer(1), Value::Integer(2)])); assert_eq!(value("[1,2]"), result); assert_eq!(value("[1 ,2]"), result); assert_eq!(value("[1 , 2]"), result); assert_eq!(value("[1 ,2]"), result); assert_eq!(value("[ 1,2]"), result); assert_eq!(value("[1,2 ]"), result); } #[test] fn test_spurious_commas() { let result = Ok(Value::Vector(vec![Value::Integer(3)])); assert_eq!(value("[3,]"), result); assert_eq!(value("[3 ,]"), result); assert_eq!(value("[3 , ]"), result); assert_eq!(value("[3, ]"), result); assert_eq!(value("[,3]"), result); assert_eq!(value("[,,3]"), result); assert_eq!(value("[,3,]"), result); assert_eq!(value("[3,,]"), result); } #[test] fn test_utils_merge() { // Take BTreeMap instances, wrap into Value::Map instances. let test = |left: &BTreeMap, right: &BTreeMap, expected: &BTreeMap| { let l = Value::Map(left.clone()); let r = Value::Map(right.clone()); let result = utils::merge(&l, &r).unwrap(); let e = Value::Map(expected.clone()); assert_eq!(result, e); }; let mut left = BTreeMap::new(); left.insert(Value::Integer(1), Value::Integer(1)); left.insert(Value::Text("a".into()), Value::Text("a".into())); let mut right = BTreeMap::new(); right.insert(Value::Integer(2), Value::Integer(2)); right.insert(Value::Text("a".into()), Value::Text("b".into())); let mut expected = BTreeMap::new(); expected.insert(Value::Integer(1), Value::Integer(1)); expected.insert(Value::Integer(2), Value::Integer(2)); expected.insert(Value::Text("a".into()), Value::Text("b".into())); let mut expected = BTreeMap::new(); expected.insert(Value::Integer(1), Value::Integer(1)); expected.insert(Value::Integer(2), Value::Integer(2)); expected.insert(Value::Text("a".into()), Value::Text("b".into())); test(&left, &right, &expected); let mut expected = BTreeMap::new(); expected.insert(Value::Integer(1), Value::Integer(1)); expected.insert(Value::Integer(2), Value::Integer(2)); expected.insert(Value::Text("a".into()), Value::Text("a".into())); test(&right, &left, &expected); } macro_rules! def_test_as_value_type { ($value: ident, $method: ident, $is_some: expr, $expected: expr) => { if $is_some { assert_eq!($value.$method().unwrap(), $expected) } assert_eq!($value.$method().is_some(), $is_some); }; } macro_rules! def_test_as_type { ($value: ident, $method: ident, $is_some: expr, $expected: expr) => { if $is_some { assert_eq!(*$value.$method().unwrap(), $expected) } assert_eq!($value.$method().is_some(), $is_some); }; } macro_rules! def_test_into_type { ($value: ident, $method: ident, $is_some: expr, $expected: expr) => { if $is_some { assert_eq!($value.clone().$method().unwrap(), $expected) } assert_eq!($value.clone().$method().is_some(), $is_some); }; } #[test] #[cfg_attr(feature = "cargo-clippy", allow(clippy::float_cmp, clippy::unit_cmp))] fn test_is_and_as_type_helper_functions() { let max_i64 = i64::max_value().to_bigint().unwrap(); let bigger = &max_i64 * &max_i64; let values = [ Value::Nil, Value::Boolean(false), Value::Integer(1i64), Value::BigInteger(bigger), Value::Float(OrderedFloat(22.22f64)), Value::Text("hello world".to_string()), s_plain("$symbol"), s_ns("$ns", "$symbol"), k_plain("hello"), k_ns("hello", "world"), Value::Vector(vec![Value::Integer(1)]), Value::List(LinkedList::from_iter(vec![])), Value::Set(BTreeSet::from_iter(vec![])), Value::Map(BTreeMap::from_iter(vec![( Value::Text("a".to_string()), Value::Integer(1), )])), ]; for (i, value) in values.iter().enumerate() { let is_result = [ value.is_nil(), value.is_boolean(), value.is_integer(), value.is_big_integer(), value.is_float(), value.is_text(), value.is_symbol(), value.is_namespaced_symbol(), value.is_keyword(), value.is_namespaced_keyword(), value.is_vector(), value.is_list(), value.is_set(), value.is_map(), ]; assert_eq!(values.len(), is_result.len()); for (j, result) in is_result.iter().enumerate() { assert_eq!( j == i, *result, "Expected {} = {} to equal {}", j, i, result ); } if i == 0 { assert_eq!(value.as_nil().unwrap(), ()) } else { assert!(!value.as_nil().is_some()) } // These return copied values, not references. def_test_as_value_type!(value, as_boolean, i == 1, false); def_test_as_value_type!(value, as_integer, i == 2, 1i64); def_test_as_value_type!(value, as_float, i == 4, 22.22f64); def_test_as_type!(value, as_big_integer, i == 3, &max_i64 * &max_i64); def_test_as_type!(value, as_ordered_float, i == 4, OrderedFloat(22.22f64)); def_test_as_type!(value, as_text, i == 5, "hello world".to_string()); def_test_as_type!( value, as_symbol, i == 6, symbols::PlainSymbol::plain("$symbol") ); def_test_as_type!( value, as_namespaced_symbol, i == 7, symbols::NamespacedSymbol::namespaced("$ns", "$symbol") ); def_test_as_type!( value, as_plain_keyword, i == 8, symbols::Keyword::plain("hello") ); def_test_as_type!( value, as_namespaced_keyword, i == 9, symbols::Keyword::namespaced("hello", "world") ); def_test_as_type!(value, as_vector, i == 10, vec![Value::Integer(1)]); def_test_as_type!(value, as_list, i == 11, LinkedList::from_iter(vec![])); def_test_as_type!(value, as_set, i == 12, BTreeSet::from_iter(vec![])); def_test_as_type!( value, as_map, i == 13, BTreeMap::from_iter(vec![(Value::Text("a".to_string()), Value::Integer(1)),]) ); def_test_into_type!(value, into_boolean, i == 1, false); def_test_into_type!(value, into_integer, i == 2, 1i64); def_test_into_type!(value, into_float, i == 4, 22.22f64); def_test_into_type!(value, into_big_integer, i == 3, &max_i64 * &max_i64); def_test_into_type!(value, into_ordered_float, i == 4, OrderedFloat(22.22f64)); def_test_into_type!(value, into_text, i == 5, "hello world".to_string()); def_test_into_type!( value, into_symbol, i == 6, symbols::PlainSymbol::plain("$symbol") ); def_test_into_type!( value, into_namespaced_symbol, i == 7, symbols::NamespacedSymbol::namespaced("$ns", "$symbol") ); def_test_into_type!( value, into_plain_keyword, i == 8, symbols::Keyword::plain("hello") ); def_test_into_type!( value, into_namespaced_keyword, i == 9, symbols::Keyword::namespaced("hello", "world") ); def_test_into_type!(value, into_vector, i == 10, vec![Value::Integer(1)]); def_test_into_type!(value, into_list, i == 11, LinkedList::from_iter(vec![])); def_test_into_type!(value, into_set, i == 12, BTreeSet::from_iter(vec![])); def_test_into_type!( value, into_map, i == 13, BTreeMap::from_iter(vec![(Value::Text("a".to_string()), Value::Integer(1)),]) ); } } /* // Handy templates for creating test cases follow: Text("".to_string()), Vector(vec![ ]), List(LinkedList::from_iter(vec![ ])), Set(BTreeSet::from_iter(vec![ ])), */