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mentat/edn/tests/tests.rs

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// 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 edn;
extern crate num;
extern crate ordered_float;
use std::collections::{BTreeSet, BTreeMap, LinkedList};
use std::iter::FromIterator;
use num::bigint::ToBigInt;
use num::traits::{Zero, One};
use ordered_float::OrderedFloat;
use edn::symbols;
use edn::types::Value;
use edn::types::Value::*;
use edn::parse::*;
// Helper for making wrapped keywords with a namespace.
fn k_ns(ns: &str, name: &str) -> Value {
return NamespacedKeyword(symbols::NamespacedKeyword::new(ns, name));
}
// Helper for making wrapped keywords without a namespace.
fn k_plain(name: &str) -> Value {
return Keyword(symbols::Keyword::new(name));
}
fn s_plain(name: &str) -> Value {
return PlainSymbol(symbols::PlainSymbol::new(name));
}
#[test]
fn test_nil() {
assert_eq!(nil("nil").unwrap(), Nil);
assert!(nil("true").is_err());
}
#[test]
fn test_boolean() {
assert_eq!(boolean("true").unwrap(), Boolean(true));
assert_eq!(boolean("false").unwrap(), Boolean(false));
assert!(boolean("nil").is_err());
}
#[test]
fn test_integer() {
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_bigint() {
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_float() {
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!(float("nil").is_err());
}
#[test]
fn test_text() {
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());
}
#[test]
fn test_symbol() {
assert_eq!(symbol("$").unwrap(), s_plain("$"));
assert_eq!(symbol(".").unwrap(), s_plain("."));
//assert_eq!(symbol("r_r").unwrap(), s_plain("r_r"));
//assert_eq!(symbol("$symbol").unwrap(), s_plain("$symbol"));
//assert_eq!(symbol("hello").unwrap(), s_plain("hello"));
}
#[test]
fn test_keyword() {
assert_eq!(keyword(":hello/world").unwrap(), k_ns("hello", "world"));
assert_eq!(keyword(":symbol").unwrap(), k_plain("symbol"));
assert_eq!(keyword(":hello").unwrap(), k_plain("hello"));
}
#[test]
fn test_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("\"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("111.222").unwrap(), Float(OrderedFloat(111.222f64)));
assert_eq!(value("85070591730234615847396907784232501249N").unwrap(), BigInteger(bigger));
}
#[test]
fn test_vector() {
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 = "[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() {
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 = "(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() {
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 = "#{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() {
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 = "{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 = "{:a 1, $b {:b/a nil, :b/b #{nil 5}}, c [1 2], d (3 4)}";
let value = Map(
BTreeMap::from_iter(
vec![
(Keyword(symbols::Keyword::new("a")), Integer(1)),
(s_plain("$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() {
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() {
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("$"),
k_plain("where"),
Vector(vec![
s_plain("?id"),
k_ns("session", "endReason"),
s_plain("?endReason"),
s_plain("?tx"),
]),
Vector(vec![
s_plain("?tx"),
k_ns("db", "txInstant"),
s_plain("?ts"),
]),
]);
assert_eq!(value(test).unwrap(), reply);
}
#[test]
fn test_query_starred_pages() {
// TODO: The original query had added "'" like `:find '[?url` and `since '[$ ?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() {
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("$"),
s_plain("?save"),
k_ns("save", "excerpt"),
Text("".to_string()),
])),
s_plain("?excerpt"),
]),
]);
assert_eq!(value(test).unwrap(), reply);
}
#[test]
fn test_query_pages_matching_string_1() {
/*
// Original query
:find '[?url ?title]
:in '[$]
: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() {
/*
// 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() {
/*
// 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() {
/*
// 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);
}
/*
// Handy templates for creating test cases follow:
Text("".to_string()),
Vector(vec![
]),
List(LinkedList::from_iter(vec![
])),
Set(BTreeSet::from_iter(vec![
])),
*/
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