mentat/query-sql/src/lib.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_sql;
use mentat_core::{
Entid,
TypedValue,
};
use mentat_query_algebrizer::{
DatomsColumn,
QualifiedAlias,
SourceAlias,
};
use mentat_sql::{
BuildQueryResult,
QueryBuilder,
QueryFragment,
SQLiteQueryBuilder,
SQLQuery,
};
//---------------------------------------------------------
// A Mentat-focused representation of a SQL query.
/// One of the things that can appear in a projection or a constraint. Note that we use
/// `TypedValue` here; it's not pure SQL, but it avoids us having to concern ourselves at this
/// point with the translation between a `TypedValue` and the storage-layer representation.
///
/// Eventually we might allow different translations by providing a different `QueryBuilder`
/// implementation for each storage backend. Passing `TypedValue`s here allows for that.
pub enum ColumnOrExpression {
Column(QualifiedAlias),
Entid(Entid), // Because it's so common.
Value(TypedValue),
}
pub type Name = String;
pub struct ProjectedColumn(pub ColumnOrExpression, pub Name);
pub enum Projection {
Columns(Vec<ProjectedColumn>),
Star,
One,
}
#[derive(Copy, Clone)]
pub struct Op(&'static str); // TODO: we can do better than this!
pub enum Constraint {
Infix {
op: Op,
left: ColumnOrExpression,
right: ColumnOrExpression
}
}
impl Constraint {
pub fn equal(left: ColumnOrExpression, right: ColumnOrExpression) -> Constraint {
Constraint::Infix {
op: Op("="),
left: left,
right: right,
}
}
}
#[allow(dead_code)]
enum JoinOp {
Inner,
}
// Short-hand for a list of tables all inner-joined.
pub struct TableList(pub Vec<SourceAlias>);
pub struct Join {
left: TableOrSubquery,
op: JoinOp,
right: TableOrSubquery,
// TODO: constraints (ON, USING).
}
#[allow(dead_code)]
enum TableOrSubquery {
Table(SourceAlias),
// TODO: Subquery.
}
pub enum FromClause {
TableList(TableList), // Short-hand for a pile of inner joins.
Join(Join),
}
pub struct SelectQuery {
pub projection: Projection,
pub from: FromClause,
pub constraints: Vec<Constraint>,
}
// We know that DatomsColumns are safe to serialize.
fn push_column(qb: &mut QueryBuilder, col: &DatomsColumn) {
qb.push_sql(col.as_str());
}
//---------------------------------------------------------
// Turn that representation into SQL.
impl QueryFragment for ColumnOrExpression {
fn push_sql(&self, out: &mut QueryBuilder) -> BuildQueryResult {
use self::ColumnOrExpression::*;
match self {
&Column(QualifiedAlias(ref table, ref column)) => {
out.push_identifier(table.as_str())?;
out.push_sql(".");
push_column(out, column);
Ok(())
},
&Entid(entid) => {
out.push_sql(entid.to_string().as_str());
Ok(())
},
&Value(ref v) => {
out.push_typed_value(v)
},
}
}
}
impl QueryFragment for Projection {
fn push_sql(&self, out: &mut QueryBuilder) -> BuildQueryResult {
use self::Projection::*;
match self {
&One => out.push_sql("1"),
&Star => out.push_sql("*"),
&Columns(ref cols) => {
let &ProjectedColumn(ref col, ref alias) = &cols[0];
col.push_sql(out)?;
out.push_sql(" AS ");
out.push_identifier(alias.as_str())?;
for &ProjectedColumn(ref col, ref alias) in &cols[1..] {
out.push_sql(", ");
col.push_sql(out)?;
out.push_sql(" AS ");
out.push_identifier(alias.as_str())?;
}
},
};
Ok(())
}
}
impl QueryFragment for Op {
fn push_sql(&self, out: &mut QueryBuilder) -> BuildQueryResult {
// No escaping needed.
out.push_sql(self.0);
Ok(())
}
}
impl QueryFragment for Constraint {
fn push_sql(&self, out: &mut QueryBuilder) -> BuildQueryResult {
use self::Constraint::*;
match self {
&Infix { ref op, ref left, ref right } => {
left.push_sql(out)?;
out.push_sql(" ");
op.push_sql(out)?;
out.push_sql(" ");
right.push_sql(out)
}
}
}
}
impl QueryFragment for JoinOp {
fn push_sql(&self, out: &mut QueryBuilder) -> BuildQueryResult {
out.push_sql(" JOIN ");
Ok(())
}
}
// We don't own SourceAlias or QueryFragment, so we can't implement the trait.
fn source_alias_push_sql(out: &mut QueryBuilder, sa: &SourceAlias) -> BuildQueryResult {
let &SourceAlias(ref table, ref alias) = sa;
out.push_identifier(table.name())?;
out.push_sql(" AS ");
out.push_identifier(alias.as_str())
}
impl QueryFragment for TableList {
fn push_sql(&self, out: &mut QueryBuilder) -> BuildQueryResult {
if self.0.is_empty() {
return Ok(());
}
source_alias_push_sql(out, &self.0[0])?;
for sa in self.0.iter().skip(1) {
out.push_sql(", ");
source_alias_push_sql(out, sa)?;
}
Ok(())
}
}
impl QueryFragment for Join {
fn push_sql(&self, out: &mut QueryBuilder) -> BuildQueryResult {
self.left.push_sql(out)?;
self.op.push_sql(out)?;
self.right.push_sql(out)
}
}
impl QueryFragment for TableOrSubquery {
fn push_sql(&self, out: &mut QueryBuilder) -> BuildQueryResult {
use self::TableOrSubquery::*;
match self {
&Table(ref sa) => source_alias_push_sql(out, sa)
}
}
}
impl QueryFragment for FromClause {
fn push_sql(&self, out: &mut QueryBuilder) -> BuildQueryResult {
use self::FromClause::*;
match self {
&TableList(ref table_list) => table_list.push_sql(out),
&Join(ref join) => join.push_sql(out),
}
}
}
impl QueryFragment for SelectQuery {
fn push_sql(&self, out: &mut QueryBuilder) -> BuildQueryResult {
out.push_sql("SELECT ");
self.projection.push_sql(out)?;
out.push_sql(" FROM ");
self.from.push_sql(out)?;
if self.constraints.is_empty() {
return Ok(());
}
out.push_sql(" WHERE ");
self.constraints[0].push_sql(out)?;
for constraint in self.constraints[1..].iter() {
out.push_sql(" AND ");
constraint.push_sql(out)?;
}
Ok(())
}
}
impl SelectQuery {
pub fn to_sql_query(&self) -> mentat_sql::Result<SQLQuery> {
let mut builder = SQLiteQueryBuilder::new();
self.push_sql(&mut builder).map(|_| builder.finish())
}
}
#[cfg(test)]
mod tests {
use super::*;
use mentat_query_algebrizer::DatomsTable;
#[test]
fn test_end_to_end() {
// [:find ?x :where [?x 65537 ?v] [?x 65536 ?v]]
let datoms00 = "datoms00".to_string();
let datoms01 = "datoms01".to_string();
let eq = Op("=");
let source_aliases = vec![
SourceAlias(DatomsTable::Datoms, datoms00.clone()),
SourceAlias(DatomsTable::Datoms, datoms01.clone()),
];
let query = SelectQuery {
projection: Projection::Columns(
vec![
ProjectedColumn(
ColumnOrExpression::Column(QualifiedAlias(datoms00.clone(), DatomsColumn::Entity)),
"x".to_string()),
]),
from: FromClause::TableList(TableList(source_aliases)),
constraints: vec![
Constraint::Infix {
op: eq.clone(),
left: ColumnOrExpression::Column(QualifiedAlias(datoms01.clone(), DatomsColumn::Value)),
right: ColumnOrExpression::Column(QualifiedAlias(datoms00.clone(), DatomsColumn::Value)),
},
Constraint::Infix {
op: eq.clone(),
left: ColumnOrExpression::Column(QualifiedAlias(datoms00.clone(), DatomsColumn::Attribute)),
right: ColumnOrExpression::Entid(65537),
},
Constraint::Infix {
op: eq.clone(),
left: ColumnOrExpression::Column(QualifiedAlias(datoms01.clone(), DatomsColumn::Attribute)),
right: ColumnOrExpression::Entid(65536),
},
],
};
let SQLQuery { sql, args } = query.to_sql_query().unwrap();
println!("{}", sql);
assert_eq!("SELECT `datoms00`.e AS `x` FROM `datoms` AS `datoms00`, `datoms` AS `datoms01` WHERE `datoms01`.v = `datoms00`.v AND `datoms00`.a = 65537 AND `datoms01`.a = 65536", sql);
assert!(args.is_empty());
}
}