mentat/query-translator/tests/translate.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 mentat_core;
extern crate mentat_query;
extern crate mentat_query_algebrizer;
extern crate mentat_query_parser;
extern crate mentat_query_projector;
extern crate mentat_query_translator;
extern crate mentat_sql;
use std::collections::BTreeMap;
use std::rc::Rc;
use mentat_query::{
FindSpec,
Keyword,
Variable,
};
use mentat_core::{
Attribute,
Entid,
Schema,
TypedValue,
ValueType,
};
use mentat_query_parser::parse_find_string;
use mentat_query_algebrizer::{
Known,
QueryInputs,
algebrize,
algebrize_with_inputs,
};
use mentat_query_projector::{
ConstantProjector,
};
use mentat_query_translator::{
ProjectedSelect,
query_to_select,
};
use mentat_sql::SQLQuery;
/// Produce the appropriate `Variable` for the provided valid ?-prefixed name.
/// This lives here because we can't re-export macros:
/// https://github.com/rust-lang/rust/issues/29638.
macro_rules! var {
( ? $var:ident ) => {
$crate::Variable::from_valid_name(concat!("?", stringify!($var)))
};
}
fn associate_ident(schema: &mut Schema, i: Keyword, e: Entid) {
schema.entid_map.insert(e, i.clone());
schema.ident_map.insert(i.clone(), e);
}
fn add_attribute(schema: &mut Schema, e: Entid, a: Attribute) {
schema.attribute_map.insert(e, a);
}
fn query_to_sql(query: ProjectedSelect) -> SQLQuery {
match query {
ProjectedSelect::Query { query, projector: _projector } => {
query.to_sql_query().expect("to_sql_query to succeed")
},
ProjectedSelect::Constant(constant) => {
panic!("ProjectedSelect wasn't ::Query! Got constant {:#?}", constant.project_without_rows());
},
}
}
fn query_to_constant(query: ProjectedSelect) -> ConstantProjector {
match query {
ProjectedSelect::Constant(constant) => {
constant
},
_ => panic!("ProjectedSelect wasn't ::Constant!"),
}
}
fn assert_query_is_empty(query: ProjectedSelect, expected_spec: FindSpec) {
let constant = query_to_constant(query).project_without_rows().expect("constant run");
assert_eq!(*constant.spec, expected_spec);
assert!(constant.results.is_empty());
}
fn inner_translate_with_inputs(schema: &Schema, query: &'static str, inputs: QueryInputs) -> ProjectedSelect {
let known = Known::for_schema(schema);
let parsed = parse_find_string(query).expect("parse to succeed");
let algebrized = algebrize_with_inputs(known, parsed, 0, inputs).expect("algebrize to succeed");
query_to_select(schema, algebrized).expect("translate to succeed")
}
fn translate_with_inputs(schema: &Schema, query: &'static str, inputs: QueryInputs) -> SQLQuery {
query_to_sql(inner_translate_with_inputs(schema, query, inputs))
}
fn translate(schema: &Schema, query: &'static str) -> SQLQuery {
translate_with_inputs(schema, query, QueryInputs::default())
}
fn translate_with_inputs_to_constant(schema: &Schema, query: &'static str, inputs: QueryInputs) -> ConstantProjector {
query_to_constant(inner_translate_with_inputs(schema, query, inputs))
}
fn translate_to_constant(schema: &Schema, query: &'static str) -> ConstantProjector {
translate_with_inputs_to_constant(schema, query, QueryInputs::default())
}
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fn prepopulated_typed_schema(foo_type: ValueType) -> Schema {
let mut schema = Schema::default();
associate_ident(&mut schema, Keyword::namespaced("foo", "bar"), 99);
add_attribute(&mut schema, 99, Attribute {
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value_type: foo_type,
..Default::default()
});
associate_ident(&mut schema, Keyword::namespaced("foo", "fts"), 100);
add_attribute(&mut schema, 100, Attribute {
value_type: ValueType::String,
index: true,
fulltext: true,
..Default::default()
});
schema
}
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fn prepopulated_schema() -> Schema {
prepopulated_typed_schema(ValueType::String)
}
fn make_arg(name: &'static str, value: &'static str) -> (String, Rc<mentat_sql::Value>) {
(name.to_string(), Rc::new(mentat_sql::Value::Text(value.to_string())))
}
#[test]
fn test_scalar() {
let schema = prepopulated_schema();
let query = r#"[:find ?x . :where [?x :foo/bar "yyy"]]"#;
let SQLQuery { sql, args } = translate(&schema, query);
assert_eq!(sql, "SELECT `datoms00`.e AS `?x` FROM `datoms` AS `datoms00` WHERE `datoms00`.a = 99 AND `datoms00`.v = $v0 LIMIT 1");
assert_eq!(args, vec![make_arg("$v0", "yyy")]);
}
#[test]
fn test_tuple() {
let schema = prepopulated_schema();
let query = r#"[:find [?x] :where [?x :foo/bar "yyy"]]"#;
let SQLQuery { sql, args } = translate(&schema, query);
assert_eq!(sql, "SELECT `datoms00`.e AS `?x` FROM `datoms` AS `datoms00` WHERE `datoms00`.a = 99 AND `datoms00`.v = $v0 LIMIT 1");
assert_eq!(args, vec![make_arg("$v0", "yyy")]);
}
#[test]
fn test_coll() {
let schema = prepopulated_schema();
let query = r#"[:find [?x ...] :where [?x :foo/bar "yyy"]]"#;
let SQLQuery { sql, args } = translate(&schema, query);
assert_eq!(sql, "SELECT DISTINCT `datoms00`.e AS `?x` FROM `datoms` AS `datoms00` WHERE `datoms00`.a = 99 AND `datoms00`.v = $v0");
assert_eq!(args, vec![make_arg("$v0", "yyy")]);
}
#[test]
fn test_rel() {
let schema = prepopulated_schema();
let query = r#"[:find ?x :where [?x :foo/bar "yyy"]]"#;
let SQLQuery { sql, args } = translate(&schema, query);
assert_eq!(sql, "SELECT DISTINCT `datoms00`.e AS `?x` FROM `datoms` AS `datoms00` WHERE `datoms00`.a = 99 AND `datoms00`.v = $v0");
assert_eq!(args, vec![make_arg("$v0", "yyy")]);
}
#[test]
fn test_limit() {
let schema = prepopulated_schema();
let query = r#"[:find ?x :where [?x :foo/bar "yyy"] :limit 5]"#;
let SQLQuery { sql, args } = translate(&schema, query);
assert_eq!(sql, "SELECT DISTINCT `datoms00`.e AS `?x` FROM `datoms` AS `datoms00` WHERE `datoms00`.a = 99 AND `datoms00`.v = $v0 LIMIT 5");
assert_eq!(args, vec![make_arg("$v0", "yyy")]);
}
#[test]
fn test_unbound_variable_limit() {
let schema = prepopulated_schema();
// We don't know the value of the limit var, so we produce an escaped SQL variable to handle
// later input.
let query = r#"[:find ?x :in ?limit-is-9-great :where [?x :foo/bar "yyy"] :limit ?limit-is-9-great]"#;
let SQLQuery { sql, args } = translate_with_inputs(&schema, query, QueryInputs::default());
assert_eq!(sql, "SELECT DISTINCT `datoms00`.e AS `?x` \
FROM `datoms` AS `datoms00` \
WHERE `datoms00`.a = 99 AND `datoms00`.v = $v0 \
LIMIT $ilimit_is_9_great");
assert_eq!(args, vec![make_arg("$v0", "yyy")]);
}
#[test]
fn test_bound_variable_limit() {
let schema = prepopulated_schema();
// We know the value of `?limit` at algebrizing time, so we substitute directly.
let query = r#"[:find ?x :in ?limit :where [?x :foo/bar "yyy"] :limit ?limit]"#;
let inputs = QueryInputs::with_value_sequence(vec![(Variable::from_valid_name("?limit"), TypedValue::Long(92))]);
let SQLQuery { sql, args } = translate_with_inputs(&schema, query, inputs);
assert_eq!(sql, "SELECT DISTINCT `datoms00`.e AS `?x` FROM `datoms` AS `datoms00` WHERE `datoms00`.a = 99 AND `datoms00`.v = $v0 LIMIT 92");
assert_eq!(args, vec![make_arg("$v0", "yyy")]);
}
#[test]
fn test_bound_variable_limit_affects_distinct() {
let schema = prepopulated_schema();
// We know the value of `?limit` at algebrizing time, so we substitute directly.
// As it's `1`, we know we don't need `DISTINCT`!
let query = r#"[:find ?x :in ?limit :where [?x :foo/bar "yyy"] :limit ?limit]"#;
let inputs = QueryInputs::with_value_sequence(vec![(Variable::from_valid_name("?limit"), TypedValue::Long(1))]);
let SQLQuery { sql, args } = translate_with_inputs(&schema, query, inputs);
assert_eq!(sql, "SELECT `datoms00`.e AS `?x` FROM `datoms` AS `datoms00` WHERE `datoms00`.a = 99 AND `datoms00`.v = $v0 LIMIT 1");
assert_eq!(args, vec![make_arg("$v0", "yyy")]);
}
#[test]
fn test_bound_variable_limit_affects_types() {
let schema = prepopulated_schema();
let known = Known::for_schema(&schema);
let query = r#"[:find ?x ?limit :in ?limit :where [?x _ ?limit] :limit ?limit]"#;
let parsed = parse_find_string(query).expect("parse failed");
let algebrized = algebrize(known, parsed).expect("algebrize failed");
// The type is known.
assert_eq!(Some(ValueType::Long),
algebrized.cc.known_type(&Variable::from_valid_name("?limit")));
let select = query_to_select(&schema, algebrized).expect("query to translate");
let SQLQuery { sql, args } = query_to_sql(select);
// TODO: this query isn't actually correct -- we don't yet algebrize for variables that are
// specified in `:in` but not provided at algebrizing time. But it shows what we care about
// at the moment: we don't project a type column, because we know it's a Long.
assert_eq!(sql, "SELECT DISTINCT `datoms00`.e AS `?x`, `datoms00`.v AS `?limit` FROM `datoms` AS `datoms00` LIMIT $ilimit");
assert_eq!(args, vec![]);
}
#[test]
fn test_unknown_attribute_keyword_value() {
let schema = Schema::default();
let query = r#"[:find ?x :where [?x _ :ab/yyy]]"#;
let SQLQuery { sql, args } = translate(&schema, query);
// Only match keywords, not strings: tag = 13.
assert_eq!(sql, "SELECT DISTINCT `datoms00`.e AS `?x` FROM `datoms` AS `datoms00` WHERE `datoms00`.v = $v0 AND (`datoms00`.value_type_tag = 13)");
assert_eq!(args, vec![make_arg("$v0", ":ab/yyy")]);
}
#[test]
fn test_unknown_attribute_string_value() {
let schema = Schema::default();
let query = r#"[:find ?x :where [?x _ "horses"]]"#;
let SQLQuery { sql, args } = translate(&schema, query);
// We expect all_datoms because we're querying for a string. Magic, that.
// We don't want keywords etc., so tag = 10.
assert_eq!(sql, "SELECT DISTINCT `all_datoms00`.e AS `?x` FROM `all_datoms` AS `all_datoms00` WHERE `all_datoms00`.v = $v0 AND (`all_datoms00`.value_type_tag = 10)");
assert_eq!(args, vec![make_arg("$v0", "horses")]);
}
#[test]
fn test_unknown_attribute_double_value() {
let schema = Schema::default();
let query = r#"[:find ?x :where [?x _ 9.95]]"#;
let SQLQuery { sql, args } = translate(&schema, query);
// In general, doubles _could_ be 1.0, which might match a boolean or a ref. Set tag = 5 to
// make sure we only match numbers.
assert_eq!(sql, "SELECT DISTINCT `datoms00`.e AS `?x` FROM `datoms` AS `datoms00` WHERE `datoms00`.v = 9.95e0 AND (`datoms00`.value_type_tag = 5)");
assert_eq!(args, vec![]);
}
#[test]
fn test_unknown_attribute_integer_value() {
let schema = Schema::default();
let negative = r#"[:find ?x :where [?x _ -1]]"#;
let zero = r#"[:find ?x :where [?x _ 0]]"#;
let one = r#"[:find ?x :where [?x _ 1]]"#;
let two = r#"[:find ?x :where [?x _ 2]]"#;
// Can't match boolean; no need to filter it out.
let SQLQuery { sql, args } = translate(&schema, negative);
assert_eq!(sql, "SELECT DISTINCT `datoms00`.e AS `?x` FROM `datoms` AS `datoms00` WHERE `datoms00`.v = -1");
assert_eq!(args, vec![]);
// Excludes booleans.
let SQLQuery { sql, args } = translate(&schema, zero);
assert_eq!(sql, "SELECT DISTINCT `datoms00`.e AS `?x` FROM `datoms` AS `datoms00` WHERE (`datoms00`.v = 0 AND `datoms00`.value_type_tag <> 1)");
assert_eq!(args, vec![]);
// Excludes booleans.
let SQLQuery { sql, args } = translate(&schema, one);
assert_eq!(sql, "SELECT DISTINCT `datoms00`.e AS `?x` FROM `datoms` AS `datoms00` WHERE (`datoms00`.v = 1 AND `datoms00`.value_type_tag <> 1)");
assert_eq!(args, vec![]);
// Can't match boolean; no need to filter it out.
let SQLQuery { sql, args } = translate(&schema, two);
assert_eq!(sql, "SELECT DISTINCT `datoms00`.e AS `?x` FROM `datoms` AS `datoms00` WHERE `datoms00`.v = 2");
assert_eq!(args, vec![]);
}
#[test]
fn test_unknown_ident() {
let schema = Schema::default();
let known = Known::for_schema(&schema);
let impossible = r#"[:find ?x :where [?x :db/ident :no/exist]]"#;
let parsed = parse_find_string(impossible).expect("parse failed");
let algebrized = algebrize(known, parsed).expect("algebrize failed");
// This query cannot return results: the ident doesn't resolve for a ref-typed attribute.
assert!(algebrized.is_known_empty());
// If you insist…
let select = query_to_select(&schema, algebrized).expect("query to translate");
assert_query_is_empty(select, FindSpec::FindRel(vec![var!(?x).into()]));
}
#[test]
fn test_type_required_long() {
let schema = Schema::default();
let query = r#"[:find ?x :where [?x _ ?e] [(long ?e)]]"#;
let SQLQuery { sql, args } = translate(&schema, query);
assert_eq!(sql, "SELECT DISTINCT `datoms00`.e AS `?x` \
FROM `datoms` AS `datoms00` \
WHERE ((`datoms00`.value_type_tag = 5 AND \
(typeof(`datoms00`.v) = 'integer')))");
assert_eq!(args, vec![]);
}
#[test]
fn test_type_required_double() {
let schema = Schema::default();
let query = r#"[:find ?x :where [?x _ ?e] [(double ?e)]]"#;
let SQLQuery { sql, args } = translate(&schema, query);
assert_eq!(sql, "SELECT DISTINCT `datoms00`.e AS `?x` \
FROM `datoms` AS `datoms00` \
WHERE ((`datoms00`.value_type_tag = 5 AND \
(typeof(`datoms00`.v) = 'real')))");
assert_eq!(args, vec![]);
}
#[test]
fn test_type_required_boolean() {
let schema = Schema::default();
let query = r#"[:find ?x :where [?x _ ?e] [(boolean ?e)]]"#;
let SQLQuery { sql, args } = translate(&schema, query);
assert_eq!(sql, "SELECT DISTINCT `datoms00`.e AS `?x` \
FROM `datoms` AS `datoms00` \
WHERE (`datoms00`.value_type_tag = 1)");
assert_eq!(args, vec![]);
}
#[test]
fn test_type_required_string() {
let schema = Schema::default();
let query = r#"[:find ?x :where [?x _ ?e] [(string ?e)]]"#;
let SQLQuery { sql, args } = translate(&schema, query);
// Note: strings should use `all_datoms` and not `datoms`.
assert_eq!(sql, "SELECT DISTINCT `all_datoms00`.e AS `?x` \
FROM `all_datoms` AS `all_datoms00` \
WHERE (`all_datoms00`.value_type_tag = 10)");
assert_eq!(args, vec![]);
}
#[test]
fn test_numeric_less_than_unknown_attribute() {
let schema = Schema::default();
let query = r#"[:find ?x :where [?x _ ?y] [(< ?y 10)]]"#;
let SQLQuery { sql, args } = translate(&schema, query);
// Although we infer numericness from numeric predicates, we've already assigned a table to the
// first pattern, and so this is _still_ `all_datoms`.
assert_eq!(sql, "SELECT DISTINCT `all_datoms00`.e AS `?x` FROM `all_datoms` AS `all_datoms00` WHERE `all_datoms00`.v < 10");
assert_eq!(args, vec![]);
}
#[test]
fn test_numeric_gte_known_attribute() {
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let schema = prepopulated_typed_schema(ValueType::Double);
let query = r#"[:find ?x :where [?x :foo/bar ?y] [(>= ?y 12.9)]]"#;
let SQLQuery { sql, args } = translate(&schema, query);
assert_eq!(sql, "SELECT DISTINCT `datoms00`.e AS `?x` FROM `datoms` AS `datoms00` WHERE `datoms00`.a = 99 AND `datoms00`.v >= 1.29e1");
assert_eq!(args, vec![]);
}
#[test]
fn test_numeric_not_equals_known_attribute() {
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let schema = prepopulated_typed_schema(ValueType::Long);
let query = r#"[:find ?x . :where [?x :foo/bar ?y] [(!= ?y 12)]]"#;
let SQLQuery { sql, args } = translate(&schema, query);
assert_eq!(sql, "SELECT `datoms00`.e AS `?x` FROM `datoms` AS `datoms00` WHERE `datoms00`.a = 99 AND `datoms00`.v <> 12 LIMIT 1");
assert_eq!(args, vec![]);
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}
#[test]
fn test_compare_long_to_double_constants() {
let schema = prepopulated_typed_schema(ValueType::Double);
let query = r#"[:find ?e .
:where
[?e :foo/bar ?v]
[(< 99.0 1234512345)]]"#;
let SQLQuery { sql, args } = translate(&schema, query);
assert_eq!(sql, "SELECT `datoms00`.e AS `?e` FROM `datoms` AS `datoms00` \
WHERE `datoms00`.a = 99 \
AND 9.9e1 < 1234512345 \
LIMIT 1");
assert_eq!(args, vec![]);
}
#[test]
fn test_compare_long_to_double() {
let schema = prepopulated_typed_schema(ValueType::Double);
// You can compare longs to doubles.
let query = r#"[:find ?e .
:where
[?e :foo/bar ?t]
[(< ?t 1234512345)]]"#;
let SQLQuery { sql, args } = translate(&schema, query);
assert_eq!(sql, "SELECT `datoms00`.e AS `?e` FROM `datoms` AS `datoms00` \
WHERE `datoms00`.a = 99 \
AND `datoms00`.v < 1234512345 \
LIMIT 1");
assert_eq!(args, vec![]);
}
#[test]
fn test_compare_double_to_long() {
let schema = prepopulated_typed_schema(ValueType::Long);
// You can compare doubles to longs.
let query = r#"[:find ?e .
:where
[?e :foo/bar ?t]
[(< ?t 1234512345.0)]]"#;
let SQLQuery { sql, args } = translate(&schema, query);
assert_eq!(sql, "SELECT `datoms00`.e AS `?e` FROM `datoms` AS `datoms00` \
WHERE `datoms00`.a = 99 \
AND `datoms00`.v < 1.234512345e9 \
LIMIT 1");
assert_eq!(args, vec![]);
}
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#[test]
fn test_simple_or_join() {
let mut schema = Schema::default();
associate_ident(&mut schema, Keyword::namespaced("page", "url"), 97);
associate_ident(&mut schema, Keyword::namespaced("page", "title"), 98);
associate_ident(&mut schema, Keyword::namespaced("page", "description"), 99);
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for x in 97..100 {
add_attribute(&mut schema, x, Attribute {
value_type: ValueType::String,
..Default::default()
});
}
let query = r#"[:find [?url ?description]
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:where
(or-join [?page]
[?page :page/url "http://foo.com/"]
[?page :page/title "Foo"])
[?page :page/url ?url]
[?page :page/description ?description]]"#;
let SQLQuery { sql, args } = translate(&schema, query);
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assert_eq!(sql, "SELECT `datoms01`.v AS `?url`, `datoms02`.v AS `?description` FROM `datoms` AS `datoms00`, `datoms` AS `datoms01`, `datoms` AS `datoms02` WHERE ((`datoms00`.a = 97 AND `datoms00`.v = $v0) OR (`datoms00`.a = 98 AND `datoms00`.v = $v1)) AND `datoms01`.a = 97 AND `datoms02`.a = 99 AND `datoms00`.e = `datoms01`.e AND `datoms00`.e = `datoms02`.e LIMIT 1");
assert_eq!(args, vec![make_arg("$v0", "http://foo.com/"), make_arg("$v1", "Foo")]);
}
#[test]
fn test_complex_or_join() {
let mut schema = Schema::default();
associate_ident(&mut schema, Keyword::namespaced("page", "save"), 95);
add_attribute(&mut schema, 95, Attribute {
value_type: ValueType::Ref,
..Default::default()
});
associate_ident(&mut schema, Keyword::namespaced("save", "title"), 96);
associate_ident(&mut schema, Keyword::namespaced("page", "url"), 97);
associate_ident(&mut schema, Keyword::namespaced("page", "title"), 98);
associate_ident(&mut schema, Keyword::namespaced("page", "description"), 99);
for x in 96..100 {
add_attribute(&mut schema, x, Attribute {
value_type: ValueType::String,
..Default::default()
});
}
let query = r#"[:find [?url ?description]
:where
(or-join [?page]
[?page :page/url "http://foo.com/"]
[?page :page/title "Foo"]
(and
[?page :page/save ?save]
[?save :save/title "Foo"]))
[?page :page/url ?url]
[?page :page/description ?description]]"#;
let SQLQuery { sql, args } = translate(&schema, query);
assert_eq!(sql, "SELECT `datoms04`.v AS `?url`, \
`datoms05`.v AS `?description` \
FROM (SELECT `datoms00`.e AS `?page` \
FROM `datoms` AS `datoms00` \
WHERE `datoms00`.a = 97 \
AND `datoms00`.v = $v0 \
UNION \
SELECT `datoms01`.e AS `?page` \
FROM `datoms` AS `datoms01` \
WHERE `datoms01`.a = 98 \
AND `datoms01`.v = $v1 \
UNION \
SELECT `datoms02`.e AS `?page` \
FROM `datoms` AS `datoms02`, \
`datoms` AS `datoms03` \
WHERE `datoms02`.a = 95 \
AND `datoms03`.a = 96 \
AND `datoms03`.v = $v1 \
AND `datoms02`.v = `datoms03`.e) AS `c00`, \
`datoms` AS `datoms04`, \
`datoms` AS `datoms05` \
WHERE `datoms04`.a = 97 \
AND `datoms05`.a = 99 \
AND `c00`.`?page` = `datoms04`.e \
AND `c00`.`?page` = `datoms05`.e \
LIMIT 1");
assert_eq!(args, vec![make_arg("$v0", "http://foo.com/"),
make_arg("$v1", "Foo")]);
}
#[test]
fn test_complex_or_join_type_projection() {
let mut schema = Schema::default();
associate_ident(&mut schema, Keyword::namespaced("page", "title"), 98);
add_attribute(&mut schema, 98, Attribute {
value_type: ValueType::String,
..Default::default()
});
let query = r#"[:find [?y]
:where
(or
[6 :page/title ?y]
[5 _ ?y])]"#;
let SQLQuery { sql, args } = translate(&schema, query);
assert_eq!(sql, "SELECT `c00`.`?y` AS `?y`, \
`c00`.`?y_value_type_tag` AS `?y_value_type_tag` \
FROM (SELECT `datoms00`.v AS `?y`, \
10 AS `?y_value_type_tag` \
FROM `datoms` AS `datoms00` \
WHERE `datoms00`.e = 6 \
AND `datoms00`.a = 98 \
UNION \
SELECT `all_datoms01`.v AS `?y`, \
`all_datoms01`.value_type_tag AS `?y_value_type_tag` \
FROM `all_datoms` AS `all_datoms01` \
WHERE `all_datoms01`.e = 5) AS `c00` \
LIMIT 1");
assert_eq!(args, vec![]);
}
Parse and Algebrize `not` & `not-join`. (#302) (Closes #303, #389, #422 ) r=rnewman * Part 1 - Parse `not` and `not-join` * Part 2 - Validate `not` and `not-join` pre-algebrization * Address review comments rnewman. * Remove `WhereNotClause` and populate `NotJoin` with `WhereClause`. * Fix validation for `not` and `not-join`, removing tests that were invalid. * Address rustification comments. * Rebase against `rust` branch. * Part 3 - Add required types for NotJoin. * Implement `PartialEq` for `ConjoiningClauses` so `ComputedTable` can be included inside `ColumnConstraint::NotExists` * Part 4 - Implement `apply_not_join` * Part 5 - Call `apply_not_join` from inside `apply_clause` * Part 6 - Translate `not-join` into `NOT EXISTS` SQL * Address review comments. * Rename `projected` to `unified` to better describe the fact that we are not projecting any variables. * Check for presence of each unified var in either `column_bindings` or `input_bindings` and bail if not there. * Copy over `input_bindings` for each var in `unified`. * Only copy over the first `column_binding` for each variable in `unified` rather than the whole list. * Update tests. * Address review comments. * Make output from Debug for NotExists more useful * Clear up misunderstanding. Any single failing clause in the not will cause the entire not to be considered empty * Address review comments. * Remove Limit requirement from cc_to_exists. * Use Entry.or_insert instead of matching on the entry to add to column_bindings. * Move addition of value_bindings to before apply_clauses on template. * Tidy up tests with some variable reuse. * Addressed nits, * Address review comments. * Move addition of column_bindings to above apply_clause. * Update tests. * Add test to ensure that unbound vars fail * Improve test for unbound variable to check for correct variable and error * address nits
2017-04-28 09:44:11 +00:00
#[test]
fn test_not() {
let mut schema = Schema::default();
associate_ident(&mut schema, Keyword::namespaced("page", "url"), 97);
associate_ident(&mut schema, Keyword::namespaced("page", "title"), 98);
associate_ident(&mut schema, Keyword::namespaced("page", "bookmarked"), 99);
Parse and Algebrize `not` & `not-join`. (#302) (Closes #303, #389, #422 ) r=rnewman * Part 1 - Parse `not` and `not-join` * Part 2 - Validate `not` and `not-join` pre-algebrization * Address review comments rnewman. * Remove `WhereNotClause` and populate `NotJoin` with `WhereClause`. * Fix validation for `not` and `not-join`, removing tests that were invalid. * Address rustification comments. * Rebase against `rust` branch. * Part 3 - Add required types for NotJoin. * Implement `PartialEq` for `ConjoiningClauses` so `ComputedTable` can be included inside `ColumnConstraint::NotExists` * Part 4 - Implement `apply_not_join` * Part 5 - Call `apply_not_join` from inside `apply_clause` * Part 6 - Translate `not-join` into `NOT EXISTS` SQL * Address review comments. * Rename `projected` to `unified` to better describe the fact that we are not projecting any variables. * Check for presence of each unified var in either `column_bindings` or `input_bindings` and bail if not there. * Copy over `input_bindings` for each var in `unified`. * Only copy over the first `column_binding` for each variable in `unified` rather than the whole list. * Update tests. * Address review comments. * Make output from Debug for NotExists more useful * Clear up misunderstanding. Any single failing clause in the not will cause the entire not to be considered empty * Address review comments. * Remove Limit requirement from cc_to_exists. * Use Entry.or_insert instead of matching on the entry to add to column_bindings. * Move addition of value_bindings to before apply_clauses on template. * Tidy up tests with some variable reuse. * Addressed nits, * Address review comments. * Move addition of column_bindings to above apply_clause. * Update tests. * Add test to ensure that unbound vars fail * Improve test for unbound variable to check for correct variable and error * address nits
2017-04-28 09:44:11 +00:00
for x in 97..99 {
add_attribute(&mut schema, x, Attribute {
value_type: ValueType::String,
..Default::default()
});
}
add_attribute(&mut schema, 99, Attribute {
value_type: ValueType::Boolean,
..Default::default()
});
let query = r#"[:find ?title
:where [?page :page/title ?title]
(not [?page :page/url "http://foo.com/"]
[?page :page/bookmarked true])]"#;
let SQLQuery { sql, args } = translate(&schema, query);
assert_eq!(sql, "SELECT DISTINCT `datoms00`.v AS `?title` FROM `datoms` AS `datoms00` WHERE `datoms00`.a = 98 AND NOT EXISTS (SELECT 1 FROM `datoms` AS `datoms01`, `datoms` AS `datoms02` WHERE `datoms01`.a = 97 AND `datoms01`.v = $v0 AND `datoms02`.a = 99 AND `datoms02`.v = 1 AND `datoms00`.e = `datoms01`.e AND `datoms00`.e = `datoms02`.e)");
assert_eq!(args, vec![make_arg("$v0", "http://foo.com/")]);
}
#[test]
fn test_not_join() {
let mut schema = Schema::default();
associate_ident(&mut schema, Keyword::namespaced("page", "url"), 97);
associate_ident(&mut schema, Keyword::namespaced("bookmarks", "page"), 98);
associate_ident(&mut schema, Keyword::namespaced("bookmarks", "date_created"), 99);
Parse and Algebrize `not` & `not-join`. (#302) (Closes #303, #389, #422 ) r=rnewman * Part 1 - Parse `not` and `not-join` * Part 2 - Validate `not` and `not-join` pre-algebrization * Address review comments rnewman. * Remove `WhereNotClause` and populate `NotJoin` with `WhereClause`. * Fix validation for `not` and `not-join`, removing tests that were invalid. * Address rustification comments. * Rebase against `rust` branch. * Part 3 - Add required types for NotJoin. * Implement `PartialEq` for `ConjoiningClauses` so `ComputedTable` can be included inside `ColumnConstraint::NotExists` * Part 4 - Implement `apply_not_join` * Part 5 - Call `apply_not_join` from inside `apply_clause` * Part 6 - Translate `not-join` into `NOT EXISTS` SQL * Address review comments. * Rename `projected` to `unified` to better describe the fact that we are not projecting any variables. * Check for presence of each unified var in either `column_bindings` or `input_bindings` and bail if not there. * Copy over `input_bindings` for each var in `unified`. * Only copy over the first `column_binding` for each variable in `unified` rather than the whole list. * Update tests. * Address review comments. * Make output from Debug for NotExists more useful * Clear up misunderstanding. Any single failing clause in the not will cause the entire not to be considered empty * Address review comments. * Remove Limit requirement from cc_to_exists. * Use Entry.or_insert instead of matching on the entry to add to column_bindings. * Move addition of value_bindings to before apply_clauses on template. * Tidy up tests with some variable reuse. * Addressed nits, * Address review comments. * Move addition of column_bindings to above apply_clause. * Update tests. * Add test to ensure that unbound vars fail * Improve test for unbound variable to check for correct variable and error * address nits
2017-04-28 09:44:11 +00:00
add_attribute(&mut schema, 97, Attribute {
value_type: ValueType::String,
..Default::default()
});
add_attribute(&mut schema, 98, Attribute {
value_type: ValueType::Ref,
..Default::default()
});
add_attribute(&mut schema, 99, Attribute {
value_type: ValueType::String,
..Default::default()
});
let query = r#"[:find ?url
:where [?url :page/url]
(not-join [?url]
[?page :bookmarks/page ?url]
[?page :bookmarks/date_created "4/4/2017"])]"#;
let SQLQuery { sql, args } = translate(&schema, query);
assert_eq!(sql, "SELECT DISTINCT `datoms00`.e AS `?url` FROM `datoms` AS `datoms00` WHERE `datoms00`.a = 97 AND NOT EXISTS (SELECT 1 FROM `datoms` AS `datoms01`, `datoms` AS `datoms02` WHERE `datoms01`.a = 98 AND `datoms02`.a = 99 AND `datoms02`.v = $v0 AND `datoms01`.e = `datoms02`.e AND `datoms00`.e = `datoms01`.v)");
assert_eq!(args, vec![make_arg("$v0", "4/4/2017")]);
}
#[test]
fn test_with_without_aggregate() {
let schema = prepopulated_schema();
// Known type.
let query = r#"[:find ?x :with ?y :where [?x :foo/bar ?y]]"#;
let SQLQuery { sql, args } = translate(&schema, query);
assert_eq!(sql, "SELECT DISTINCT `datoms00`.e AS `?x` FROM `datoms` AS `datoms00` WHERE `datoms00`.a = 99");
assert_eq!(args, vec![]);
// Unknown type.
let query = r#"[:find ?x :with ?y :where [?x _ ?y]]"#;
let SQLQuery { sql, args } = translate(&schema, query);
assert_eq!(sql, "SELECT DISTINCT `all_datoms00`.e AS `?x` FROM `all_datoms` AS `all_datoms00`");
assert_eq!(args, vec![]);
}
#[test]
fn test_order_by() {
let schema = prepopulated_schema();
// Known type.
let query = r#"[:find ?x :where [?x :foo/bar ?y] :order (desc ?y)]"#;
let SQLQuery { sql, args } = translate(&schema, query);
assert_eq!(sql, "SELECT DISTINCT `datoms00`.e AS `?x`, `datoms00`.v AS `?y` \
FROM `datoms` AS `datoms00` \
WHERE `datoms00`.a = 99 \
ORDER BY `?y` DESC");
assert_eq!(args, vec![]);
// Unknown type.
let query = r#"[:find ?x :with ?y :where [?x _ ?y] :order ?y ?x]"#;
let SQLQuery { sql, args } = translate(&schema, query);
assert_eq!(sql, "SELECT DISTINCT `all_datoms00`.e AS `?x`, `all_datoms00`.v AS `?y`, \
`all_datoms00`.value_type_tag AS `?y_value_type_tag` \
FROM `all_datoms` AS `all_datoms00` \
ORDER BY `?y_value_type_tag` ASC, `?y` ASC, `?x` ASC");
assert_eq!(args, vec![]);
}
#[test]
fn test_complex_nested_or_join_type_projection() {
let mut schema = Schema::default();
associate_ident(&mut schema, Keyword::namespaced("page", "title"), 98);
add_attribute(&mut schema, 98, Attribute {
value_type: ValueType::String,
..Default::default()
});
let input = r#"[:find [?y]
:where
(or
(or
[_ :page/title ?y])
(or
[_ :page/title ?y]))]"#;
let SQLQuery { sql, args } = translate(&schema, input);
assert_eq!(sql, "SELECT `c00`.`?y` AS `?y` \
FROM (SELECT `datoms00`.v AS `?y` \
FROM `datoms` AS `datoms00` \
WHERE `datoms00`.a = 98 \
UNION \
SELECT `datoms01`.v AS `?y` \
FROM `datoms` AS `datoms01` \
WHERE `datoms01`.a = 98) \
AS `c00` \
LIMIT 1");
assert_eq!(args, vec![]);
}
#[test]
fn test_ground_scalar() {
let schema = prepopulated_schema();
// Verify that we accept inline constants.
let query = r#"[:find ?x . :where [(ground "yyy") ?x]]"#;
let constant = translate_to_constant(&schema, query);
assert_eq!(constant.project_without_rows().unwrap()
.into_scalar().unwrap(),
Some(TypedValue::typed_string("yyy").into()));
// Verify that we accept bound input constants.
let query = r#"[:find ?x . :in ?v :where [(ground ?v) ?x]]"#;
let inputs = QueryInputs::with_value_sequence(vec![(Variable::from_valid_name("?v"), "aaa".into())]);
let constant = translate_with_inputs_to_constant(&schema, query, inputs);
assert_eq!(constant.project_without_rows().unwrap()
.into_scalar().unwrap(),
Some(TypedValue::typed_string("aaa").into()));
}
#[test]
fn test_ground_tuple() {
let schema = prepopulated_schema();
// Verify that we accept inline constants.
let query = r#"[:find ?x ?y :where [(ground [1 "yyy"]) [?x ?y]]]"#;
let constant = translate_to_constant(&schema, query);
assert_eq!(constant.project_without_rows().unwrap()
.into_rel().unwrap(),
vec![vec![TypedValue::Long(1), TypedValue::typed_string("yyy")]].into());
// Verify that we accept bound input constants.
let query = r#"[:find [?x ?y] :in ?u ?v :where [(ground [?u ?v]) [?x ?y]]]"#;
let inputs = QueryInputs::with_value_sequence(vec![(Variable::from_valid_name("?u"), TypedValue::Long(2)),
(Variable::from_valid_name("?v"), "aaa".into()),]);
let constant = translate_with_inputs_to_constant(&schema, query, inputs);
assert_eq!(constant.project_without_rows().unwrap()
.into_tuple().unwrap(),
Some(vec![TypedValue::Long(2).into(), TypedValue::typed_string("aaa").into()]));
// TODO: treat 2 as an input variable that could be bound late, rather than eagerly binding it.
// In that case the query wouldn't be constant, and would look more like:
// let SQLQuery { sql, args } = translate_with_inputs(&schema, query, inputs);
// assert_eq!(sql, "SELECT 2 AS `?x`, $v0 AS `?y` LIMIT 1");
// assert_eq!(args, vec![make_arg("$v0", "aaa"),]);
}
#[test]
fn test_ground_coll() {
let schema = prepopulated_schema();
// Verify that we accept inline constants.
let query = r#"[:find ?x :where [(ground ["xxx" "yyy"]) [?x ...]]]"#;
let SQLQuery { sql, args } = translate(&schema, query);
assert_eq!(sql, "SELECT DISTINCT `c00`.`?x` AS `?x` FROM \
(SELECT 0 AS `?x` WHERE 0 UNION ALL VALUES ($v0), ($v1)) AS `c00`");
assert_eq!(args, vec![make_arg("$v0", "xxx"),
make_arg("$v1", "yyy")]);
// Verify that we accept bound input constants.
let query = r#"[:find ?x :in ?u ?v :where [(ground [?u ?v]) [?x ...]]]"#;
let inputs = QueryInputs::with_value_sequence(vec![(Variable::from_valid_name("?u"), TypedValue::Long(2)),
(Variable::from_valid_name("?v"), TypedValue::Long(3)),]);
let SQLQuery { sql, args } = translate_with_inputs(&schema, query, inputs);
// TODO: treat 2 and 3 as input variables that could be bound late, rather than eagerly binding.
assert_eq!(sql, "SELECT DISTINCT `c00`.`?x` AS `?x` FROM \
(SELECT 0 AS `?x` WHERE 0 UNION ALL VALUES (2), (3)) AS `c00`");
assert_eq!(args, vec![]);
}
#[test]
fn test_ground_rel() {
let schema = prepopulated_schema();
// Verify that we accept inline constants.
let query = r#"[:find ?x ?y :where [(ground [[1 "xxx"] [2 "yyy"]]) [[?x ?y]]]]"#;
let SQLQuery { sql, args } = translate(&schema, query);
assert_eq!(sql, "SELECT DISTINCT `c00`.`?x` AS `?x`, `c00`.`?y` AS `?y` FROM \
(SELECT 0 AS `?x`, 0 AS `?y` WHERE 0 UNION ALL VALUES (1, $v0), (2, $v1)) AS `c00`");
assert_eq!(args, vec![make_arg("$v0", "xxx"),
make_arg("$v1", "yyy")]);
// Verify that we accept bound input constants.
let query = r#"[:find ?x ?y :in ?u ?v :where [(ground [[?u 1] [?v 2]]) [[?x ?y]]]]"#;
let inputs = QueryInputs::with_value_sequence(vec![(Variable::from_valid_name("?u"), TypedValue::Long(3)),
(Variable::from_valid_name("?v"), TypedValue::Long(4)),]);
let SQLQuery { sql, args } = translate_with_inputs(&schema, query, inputs);
// TODO: treat 3 and 4 as input variables that could be bound late, rather than eagerly binding.
assert_eq!(sql, "SELECT DISTINCT `c00`.`?x` AS `?x`, `c00`.`?y` AS `?y` FROM \
(SELECT 0 AS `?x`, 0 AS `?y` WHERE 0 UNION ALL VALUES (3, 1), (4, 2)) AS `c00`");
assert_eq!(args, vec![]);
}
#[test]
fn test_compound_with_ground() {
let schema = prepopulated_schema();
// Verify that we can use the resulting CCs as children in compound CCs.
let query = r#"[:find ?x :where (or [(ground "yyy") ?x]
[(ground "zzz") ?x])]"#;
let SQLQuery { sql, args } = translate(&schema, query);
// This is confusing because the computed tables (like `c00`) are numbered sequentially in each
// arm of the `or` rather than numbered globally. But SQLite scopes the names correctly, so it
// works. In the future, we might number the computed tables globally to make this more clear.
assert_eq!(sql, "SELECT DISTINCT `c00`.`?x` AS `?x` FROM (\
SELECT $v0 AS `?x` UNION \
SELECT $v1 AS `?x`) AS `c00`");
assert_eq!(args, vec![make_arg("$v0", "yyy"),
make_arg("$v1", "zzz"),]);
// Verify that we can use ground to constrain the bindings produced by earlier clauses.
let query = r#"[:find ?x . :where [_ :foo/bar ?x] [(ground "yyy") ?x]]"#;
let SQLQuery { sql, args } = translate(&schema, query);
assert_eq!(sql, "SELECT $v0 AS `?x` FROM `datoms` AS `datoms00` \
WHERE `datoms00`.a = 99 AND `datoms00`.v = $v0 LIMIT 1");
assert_eq!(args, vec![make_arg("$v0", "yyy")]);
// Verify that we can further constrain the bindings produced by our clause.
let query = r#"[:find ?x . :where [(ground "yyy") ?x] [_ :foo/bar ?x]]"#;
let SQLQuery { sql, args } = translate(&schema, query);
assert_eq!(sql, "SELECT $v0 AS `?x` FROM `datoms` AS `datoms00` \
WHERE `datoms00`.a = 99 AND `datoms00`.v = $v0 LIMIT 1");
assert_eq!(args, vec![make_arg("$v0", "yyy")]);
}
#[test]
fn test_unbound_attribute_with_ground_entity() {
let query = r#"[:find ?x ?v :where [?x _ ?v] (not [(ground 17) ?x])]"#;
let schema = prepopulated_schema();
let SQLQuery { sql, .. } = translate(&schema, query);
assert_eq!(sql, "SELECT DISTINCT `all_datoms00`.e AS `?x`, \
`all_datoms00`.v AS `?v`, \
`all_datoms00`.value_type_tag AS `?v_value_type_tag` \
FROM `all_datoms` AS `all_datoms00` \
WHERE NOT EXISTS (SELECT 1 WHERE `all_datoms00`.e = 17)");
}
#[test]
fn test_unbound_attribute_with_ground() {
let query = r#"[:find ?x ?v :where [?x _ ?v] (not [(ground 17) ?v])]"#;
let schema = prepopulated_schema();
let SQLQuery { sql, .. } = translate(&schema, query);
assert_eq!(sql, "SELECT DISTINCT `all_datoms00`.e AS `?x`, \
`all_datoms00`.v AS `?v`, \
`all_datoms00`.value_type_tag AS `?v_value_type_tag` \
FROM `all_datoms` AS `all_datoms00` \
WHERE NOT EXISTS (SELECT 1 WHERE `all_datoms00`.v = 17 AND \
(`all_datoms00`.value_type_tag = 5))");
}
#[test]
fn test_not_with_ground() {
let mut schema = prepopulated_schema();
associate_ident(&mut schema, Keyword::namespaced("db", "valueType"), 7);
associate_ident(&mut schema, Keyword::namespaced("db.type", "ref"), 23);
associate_ident(&mut schema, Keyword::namespaced("db.type", "bool"), 28);
associate_ident(&mut schema, Keyword::namespaced("db.type", "instant"), 29);
add_attribute(&mut schema, 7, Attribute {
value_type: ValueType::Ref,
multival: false,
..Default::default()
});
// Scalar.
// TODO: this kind of simple `not` should be implemented without the subquery. #476.
let query = r#"[:find ?x :where [?x :db/valueType ?v] (not [(ground :db.type/instant) ?v])]"#;
let SQLQuery { sql, .. } = translate(&schema, query);
assert_eq!(sql,
"SELECT DISTINCT `datoms00`.e AS `?x` FROM `datoms` AS `datoms00` WHERE `datoms00`.a = 7 AND NOT \
EXISTS (SELECT 1 WHERE `datoms00`.v = 29)");
// Coll.
// TODO: we can generate better SQL for this, too. #476.
let query = r#"[:find ?x :where [?x :db/valueType ?v] (not [(ground [:db.type/bool :db.type/instant]) [?v ...]])]"#;
let SQLQuery { sql, .. } = translate(&schema, query);
assert_eq!(sql,
"SELECT DISTINCT `datoms00`.e AS `?x` FROM `datoms` AS `datoms00` \
WHERE `datoms00`.a = 7 AND NOT EXISTS \
(SELECT 1 FROM (SELECT 0 AS `?v` WHERE 0 UNION ALL VALUES (28), (29)) AS `c00` \
WHERE `datoms00`.v = `c00`.`?v`)");
}
#[test]
fn test_fulltext() {
let schema = prepopulated_typed_schema(ValueType::Double);
let query = r#"[:find ?entity ?value ?tx ?score :where [(fulltext $ :foo/fts "needle") [[?entity ?value ?tx ?score]]]]"#;
let SQLQuery { sql, args } = translate(&schema, query);
assert_eq!(sql, "SELECT DISTINCT `datoms01`.e AS `?entity`, \
`fulltext_values00`.text AS `?value`, \
`datoms01`.tx AS `?tx`, \
0e0 AS `?score` \
FROM `fulltext_values` AS `fulltext_values00`, \
`datoms` AS `datoms01` \
WHERE `datoms01`.a = 100 \
AND `datoms01`.v = `fulltext_values00`.rowid \
AND `fulltext_values00`.text MATCH $v0");
assert_eq!(args, vec![make_arg("$v0", "needle"),]);
let query = r#"[:find ?entity ?value ?tx :where [(fulltext $ :foo/fts "needle") [[?entity ?value ?tx ?score]]]]"#;
let SQLQuery { sql, args } = translate(&schema, query);
// Observe that the computed table isn't dropped, even though `?score` isn't bound in the final conjoining clause.
assert_eq!(sql, "SELECT DISTINCT `datoms01`.e AS `?entity`, \
`fulltext_values00`.text AS `?value`, \
`datoms01`.tx AS `?tx` \
FROM `fulltext_values` AS `fulltext_values00`, \
`datoms` AS `datoms01` \
WHERE `datoms01`.a = 100 \
AND `datoms01`.v = `fulltext_values00`.rowid \
AND `fulltext_values00`.text MATCH $v0");
assert_eq!(args, vec![make_arg("$v0", "needle"),]);
let query = r#"[:find ?entity ?value ?tx :where [(fulltext $ :foo/fts "needle") [[?entity ?value ?tx _]]]]"#;
let SQLQuery { sql, args } = translate(&schema, query);
// Observe that the computed table isn't included at all when `?score` isn't bound.
assert_eq!(sql, "SELECT DISTINCT `datoms01`.e AS `?entity`, \
`fulltext_values00`.text AS `?value`, \
`datoms01`.tx AS `?tx` \
FROM `fulltext_values` AS `fulltext_values00`, \
`datoms` AS `datoms01` \
WHERE `datoms01`.a = 100 \
AND `datoms01`.v = `fulltext_values00`.rowid \
AND `fulltext_values00`.text MATCH $v0");
assert_eq!(args, vec![make_arg("$v0", "needle"),]);
let query = r#"[:find ?entity ?value ?tx :where [(fulltext $ :foo/fts "needle") [[?entity ?value ?tx ?score]]] [?entity :foo/bar ?score]]"#;
let SQLQuery { sql, args } = translate(&schema, query);
assert_eq!(sql, "SELECT DISTINCT `datoms01`.e AS `?entity`, \
`fulltext_values00`.text AS `?value`, \
`datoms01`.tx AS `?tx` \
FROM `fulltext_values` AS `fulltext_values00`, \
`datoms` AS `datoms01`, \
`datoms` AS `datoms02` \
WHERE `datoms01`.a = 100 \
AND `datoms01`.v = `fulltext_values00`.rowid \
AND `fulltext_values00`.text MATCH $v0 \
AND `datoms02`.a = 99 \
AND `datoms02`.v = 0e0 \
AND `datoms01`.e = `datoms02`.e");
assert_eq!(args, vec![make_arg("$v0", "needle"),]);
let query = r#"[:find ?entity ?value ?tx :where [?entity :foo/bar ?score] [(fulltext $ :foo/fts "needle") [[?entity ?value ?tx ?score]]]]"#;
let SQLQuery { sql, args } = translate(&schema, query);
assert_eq!(sql, "SELECT DISTINCT `datoms00`.e AS `?entity`, \
`fulltext_values01`.text AS `?value`, \
`datoms02`.tx AS `?tx` \
FROM `datoms` AS `datoms00`, \
`fulltext_values` AS `fulltext_values01`, \
`datoms` AS `datoms02` \
WHERE `datoms00`.a = 99 \
AND `datoms02`.a = 100 \
AND `datoms02`.v = `fulltext_values01`.rowid \
AND `fulltext_values01`.text MATCH $v0 \
AND `datoms00`.v = 0e0 \
AND `datoms00`.e = `datoms02`.e");
assert_eq!(args, vec![make_arg("$v0", "needle"),]);
}
#[test]
fn test_fulltext_inputs() {
let schema = prepopulated_typed_schema(ValueType::String);
// Bind ?entity. We expect the output to collide.
let query = r#"[:find ?val
:in ?entity
:where [(fulltext $ :foo/fts "hello") [[?entity ?val _ _]]]]"#;
let mut types = BTreeMap::default();
types.insert(Variable::from_valid_name("?entity"), ValueType::Ref);
let inputs = QueryInputs::new(types, BTreeMap::default()).expect("valid inputs");
// Without binding the value. q_once will err if you try this!
let SQLQuery { sql, args } = translate_with_inputs(&schema, query, inputs);
assert_eq!(sql, "SELECT DISTINCT `fulltext_values00`.text AS `?val` \
FROM \
`fulltext_values` AS `fulltext_values00`, \
`datoms` AS `datoms01` \
WHERE `datoms01`.a = 100 \
AND `datoms01`.v = `fulltext_values00`.rowid \
AND `fulltext_values00`.text MATCH $v0");
assert_eq!(args, vec![make_arg("$v0", "hello"),]);
// With the value bound.
let inputs = QueryInputs::with_value_sequence(vec![(Variable::from_valid_name("?entity"), TypedValue::Ref(111))]);
let SQLQuery { sql, args } = translate_with_inputs(&schema, query, inputs);
assert_eq!(sql, "SELECT DISTINCT `fulltext_values00`.text AS `?val` \
FROM \
`fulltext_values` AS `fulltext_values00`, \
`datoms` AS `datoms01` \
WHERE `datoms01`.a = 100 \
AND `datoms01`.v = `fulltext_values00`.rowid \
AND `fulltext_values00`.text MATCH $v0 \
AND `datoms01`.e = 111");
assert_eq!(args, vec![make_arg("$v0", "hello"),]);
// Same again, but retrieving the entity.
let query = r#"[:find ?entity .
:in ?entity
:where [(fulltext $ :foo/fts "hello") [[?entity _ _]]]]"#;
let inputs = QueryInputs::with_value_sequence(vec![(Variable::from_valid_name("?entity"), TypedValue::Ref(111))]);
let SQLQuery { sql, args } = translate_with_inputs(&schema, query, inputs);
assert_eq!(sql, "SELECT 111 AS `?entity` FROM \
`fulltext_values` AS `fulltext_values00`, \
`datoms` AS `datoms01` \
WHERE `datoms01`.a = 100 \
AND `datoms01`.v = `fulltext_values00`.rowid \
AND `fulltext_values00`.text MATCH $v0 \
AND `datoms01`.e = 111 \
LIMIT 1");
assert_eq!(args, vec![make_arg("$v0", "hello"),]);
// A larger pattern.
let query = r#"[:find ?entity ?value ?friend
:in ?entity
:where
[(fulltext $ :foo/fts "hello") [[?entity ?value]]]
[?entity :foo/bar ?friend]]"#;
let inputs = QueryInputs::with_value_sequence(vec![(Variable::from_valid_name("?entity"), TypedValue::Ref(121))]);
let SQLQuery { sql, args } = translate_with_inputs(&schema, query, inputs);
assert_eq!(sql, "SELECT DISTINCT 121 AS `?entity`, \
`fulltext_values00`.text AS `?value`, \
`datoms02`.v AS `?friend` \
FROM \
`fulltext_values` AS `fulltext_values00`, \
`datoms` AS `datoms01`, \
`datoms` AS `datoms02` \
WHERE `datoms01`.a = 100 \
AND `datoms01`.v = `fulltext_values00`.rowid \
AND `fulltext_values00`.text MATCH $v0 \
AND `datoms01`.e = 121 \
AND `datoms02`.e = 121 \
AND `datoms02`.a = 99");
assert_eq!(args, vec![make_arg("$v0", "hello"),]);
}
#[test]
fn test_instant_range() {
let schema = prepopulated_typed_schema(ValueType::Instant);
let query = r#"[:find ?e
:where
[?e :foo/bar ?t]
[(> ?t #inst "2017-06-16T00:56:41.257Z")]]"#;
let SQLQuery { sql, args } = translate(&schema, query);
assert_eq!(sql, "SELECT DISTINCT `datoms00`.e AS `?e` \
FROM \
`datoms` AS `datoms00` \
WHERE `datoms00`.a = 99 \
AND `datoms00`.v > 1497574601257000");
assert_eq!(args, vec![]);
}
#[test]
fn test_project_aggregates() {
let schema = prepopulated_typed_schema(ValueType::Long);
let query = r#"[:find ?e (max ?t)
:where
[?e :foo/bar ?t]]"#;
let SQLQuery { sql, args } = translate(&schema, query);
// No outer DISTINCT: we aggregate or group by every variable.
assert_eq!(sql, "SELECT `?e` AS `?e`, max(`?t`) AS `(max ?t)` \
FROM \
(SELECT DISTINCT \
`datoms00`.e AS `?e`, \
`datoms00`.v AS `?t` \
FROM `datoms` AS `datoms00` \
WHERE `datoms00`.a = 99) \
GROUP BY `?e`");
assert_eq!(args, vec![]);
let query = r#"[:find (max ?t)
:with ?e
:where
[?e :foo/bar ?t]]"#;
let SQLQuery { sql, args } = translate(&schema, query);
assert_eq!(sql, "SELECT max(`?t`) AS `(max ?t)` \
FROM \
(SELECT DISTINCT \
`datoms00`.v AS `?t`, \
`datoms00`.e AS `?e` \
FROM `datoms` AS `datoms00` \
WHERE `datoms00`.a = 99)");
assert_eq!(args, vec![]);
}
#[test]
fn test_tx_before_and_after() {
let schema = prepopulated_typed_schema(ValueType::Long);
let query = r#"[:find ?x :where [?x _ _ ?tx] [(tx-after ?tx 12345)]]"#;
let SQLQuery { sql, args } = translate(&schema, query);
assert_eq!(sql, "SELECT DISTINCT \
`datoms00`.e AS `?x` \
FROM `datoms` AS `datoms00` \
WHERE `datoms00`.tx > 12345");
assert_eq!(args, vec![]);
let query = r#"[:find ?x :where [?x _ _ ?tx] [(tx-before ?tx 12345)]]"#;
let SQLQuery { sql, args } = translate(&schema, query);
assert_eq!(sql, "SELECT DISTINCT \
`datoms00`.e AS `?x` \
FROM `datoms` AS `datoms00` \
WHERE `datoms00`.tx < 12345");
assert_eq!(args, vec![]);
}
#[test]
fn test_tx_ids() {
let mut schema = prepopulated_typed_schema(ValueType::Double);
associate_ident(&mut schema, Keyword::namespaced("db", "txInstant"), 101);
add_attribute(&mut schema, 101, Attribute {
value_type: ValueType::Instant,
multival: false,
index: true,
..Default::default()
});
let query = r#"[:find ?tx :where [(tx-ids $ 1000 2000) [[?tx]]]]"#;
let SQLQuery { sql, args } = translate(&schema, query);
assert_eq!(sql, "SELECT DISTINCT `transactions00`.tx AS `?tx` \
FROM `transactions` AS `transactions00` \
WHERE 1000 <= `transactions00`.tx \
AND `transactions00`.tx < 2000");
assert_eq!(args, vec![]);
// This is rather artificial but verifies that binding the arguments to (tx-ids) works.
let query = r#"[:find ?tx :where [?first :db/txInstant #inst "2016-01-01T11:00:00.000Z"] [?last :db/txInstant #inst "2017-01-01T11:00:00.000Z"] [(tx-ids $ ?first ?last) [?tx ...]]]"#;
let SQLQuery { sql, args } = translate(&schema, query);
assert_eq!(sql, "SELECT DISTINCT `transactions02`.tx AS `?tx` \
FROM `datoms` AS `datoms00`, \
`datoms` AS `datoms01`, \
`transactions` AS `transactions02` \
WHERE `datoms00`.a = 101 \
AND `datoms00`.v = 1451646000000000 \
AND `datoms01`.a = 101 \
AND `datoms01`.v = 1483268400000000 \
AND `datoms00`.e <= `transactions02`.tx \
AND `transactions02`.tx < `datoms01`.e");
assert_eq!(args, vec![]);
// In practice the following query would be inefficient because of the filter on all_datoms.tx,
// but that is what (tx-data) is for.
let query = r#"[:find ?e ?a ?v ?tx :where [(tx-ids $ 1000 2000) [[?tx]]] [?e ?a ?v ?tx]]"#;
let SQLQuery { sql, args } = translate(&schema, query);
assert_eq!(sql, "SELECT DISTINCT `all_datoms01`.e AS `?e`, \
`all_datoms01`.a AS `?a`, \
`all_datoms01`.v AS `?v`, \
`all_datoms01`.value_type_tag AS `?v_value_type_tag`, \
`transactions00`.tx AS `?tx` \
FROM `transactions` AS `transactions00`, \
`all_datoms` AS `all_datoms01` \
WHERE 1000 <= `transactions00`.tx \
AND `transactions00`.tx < 2000 \
AND `transactions00`.tx = `all_datoms01`.tx");
assert_eq!(args, vec![]);
}
#[test]
fn test_tx_data() {
let schema = prepopulated_typed_schema(ValueType::Double);
let query = r#"[:find ?e ?a ?v ?tx ?added :where [(tx-data $ 1000) [[?e ?a ?v ?tx ?added]]]]"#;
let SQLQuery { sql, args } = translate(&schema, query);
assert_eq!(sql, "SELECT DISTINCT `transactions00`.e AS `?e`, \
`transactions00`.a AS `?a`, \
`transactions00`.v AS `?v`, \
`transactions00`.value_type_tag AS `?v_value_type_tag`, \
`transactions00`.tx AS `?tx`, \
`transactions00`.added AS `?added` \
FROM `transactions` AS `transactions00` \
WHERE `transactions00`.tx = 1000");
assert_eq!(args, vec![]);
// Ensure that we don't project columns that we don't need, even if they are bound to named
// variables or to placeholders.
let query = r#"[:find [?a ?v ?added] :where [(tx-data $ 1000) [[?e ?a ?v _ ?added]]]]"#;
let SQLQuery { sql, args } = translate(&schema, query);
assert_eq!(sql, "SELECT `transactions00`.a AS `?a`, \
`transactions00`.v AS `?v`, \
`transactions00`.value_type_tag AS `?v_value_type_tag`, \
`transactions00`.added AS `?added` \
FROM `transactions` AS `transactions00` \
WHERE `transactions00`.tx = 1000 \
LIMIT 1");
assert_eq!(args, vec![]);
// This is awkward since the transactions table is queried twice, once to list transaction IDs
// and a second time to extract data. https://github.com/mozilla/mentat/issues/644 tracks
// improving this, perhaps by optimizing certain combinations of functions and bindings.
let query = r#"[:find ?e ?a ?v ?tx ?added :where [(tx-ids $ 1000 2000) [[?tx]]] [(tx-data $ ?tx) [[?e ?a ?v _ ?added]]]]"#;
let SQLQuery { sql, args } = translate(&schema, query);
assert_eq!(sql, "SELECT DISTINCT `transactions01`.e AS `?e`, \
`transactions01`.a AS `?a`, \
`transactions01`.v AS `?v`, \
`transactions01`.value_type_tag AS `?v_value_type_tag`, \
`transactions00`.tx AS `?tx`, \
`transactions01`.added AS `?added` \
FROM `transactions` AS `transactions00`, \
`transactions` AS `transactions01` \
WHERE 1000 <= `transactions00`.tx \
AND `transactions00`.tx < 2000 \
AND `transactions01`.tx = `transactions00`.tx");
assert_eq!(args, vec![]);
}