cdfd1f6b30
rusqlite must have just returned the data itself rather than relying on the Result type to communicate failures to callers. Fixing that here, albeit in a fragile way.
569 lines
20 KiB
Rust
569 lines
20 KiB
Rust
// Copyright 2016 Mozilla
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//
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// Licensed under the Apache License, Version 2.0 (the "License"); you may not use
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// this file except in compliance with the License. You may obtain a copy of the
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// License at http://www.apache.org/licenses/LICENSE-2.0
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// Unless required by applicable law or agreed to in writing, software distributed
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// under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR
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// CONDITIONS OF ANY KIND, either express or implied. See the License for the
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// specific language governing permissions and limitations under the License.
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extern crate failure;
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extern crate indexmap;
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extern crate rusqlite;
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extern crate edn;
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extern crate mentat_core;
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extern crate db_traits;
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#[macro_use]
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extern crate core_traits;
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extern crate mentat_db; // For value conversion.
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extern crate mentat_query_algebrizer;
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extern crate mentat_query_pull;
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extern crate query_pull_traits;
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extern crate query_projector_traits;
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extern crate mentat_query_sql;
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use std::collections::{
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BTreeSet,
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};
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use std::iter;
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use std::rc::Rc;
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use rusqlite::{
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Row,
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Rows,
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};
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use core_traits::{
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Binding,
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TypedValue,
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};
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use mentat_core::{
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Schema,
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ValueTypeTag,
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};
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use mentat_core::util::{
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Either,
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};
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use mentat_db::{
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TypedSQLValue,
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};
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use edn::query::{
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Element,
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FindSpec,
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Limit,
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Variable,
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};
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use mentat_query_algebrizer::{
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AlgebraicQuery,
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VariableBindings,
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};
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use mentat_query_sql::{
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GroupBy,
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Projection,
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};
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pub mod translate;
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mod binding_tuple;
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pub use binding_tuple::{
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BindingTuple,
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};
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mod project;
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mod projectors;
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mod pull;
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mod relresult;
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use project::{
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ProjectedElements,
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project_elements,
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};
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pub use project::{
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projected_column_for_var,
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};
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pub use projectors::{
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ConstantProjector,
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Projector,
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};
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use projectors::{
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CollProjector,
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CollTwoStagePullProjector,
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RelProjector,
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RelTwoStagePullProjector,
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ScalarProjector,
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ScalarTwoStagePullProjector,
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TupleProjector,
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TupleTwoStagePullProjector,
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};
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pub use relresult::{
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RelResult,
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StructuredRelResult,
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};
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use query_projector_traits::errors::{
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ProjectorError,
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Result,
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};
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#[derive(Clone, Debug, PartialEq, Eq)]
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pub struct QueryOutput {
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pub spec: Rc<FindSpec>,
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pub results: QueryResults,
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}
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#[derive(Clone, Debug, PartialEq, Eq)]
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pub enum QueryResults {
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Scalar(Option<Binding>),
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Tuple(Option<Vec<Binding>>),
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Coll(Vec<Binding>),
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Rel(RelResult<Binding>),
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}
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impl From<QueryOutput> for QueryResults {
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fn from(o: QueryOutput) -> QueryResults {
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o.results
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}
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}
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impl QueryOutput {
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pub fn empty_factory(spec: &FindSpec) -> Box<Fn() -> QueryResults> {
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use self::FindSpec::*;
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match spec {
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&FindScalar(_) => Box::new(|| QueryResults::Scalar(None)),
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&FindTuple(_) => Box::new(|| QueryResults::Tuple(None)),
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&FindColl(_) => Box::new(|| QueryResults::Coll(vec![])),
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&FindRel(ref es) => {
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let width = es.len();
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Box::new(move || QueryResults::Rel(RelResult::empty(width)))
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},
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}
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}
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pub fn len(&self) -> usize {
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self.results.len()
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}
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pub fn is_empty(&self) -> bool {
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self.results.is_empty()
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}
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pub fn empty(spec: &Rc<FindSpec>) -> QueryOutput {
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use self::FindSpec::*;
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let results =
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match &**spec {
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&FindScalar(_) => QueryResults::Scalar(None),
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&FindTuple(_) => QueryResults::Tuple(None),
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&FindColl(_) => QueryResults::Coll(vec![]),
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&FindRel(ref es) => QueryResults::Rel(RelResult::empty(es.len())),
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};
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QueryOutput {
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spec: spec.clone(),
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results: results,
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}
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}
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pub fn from_constants(spec: &Rc<FindSpec>, bindings: VariableBindings) -> QueryResults {
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use self::FindSpec::*;
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match &**spec {
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&FindScalar(Element::Variable(ref var)) |
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&FindScalar(Element::Corresponding(ref var)) => {
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let val = bindings.get(var)
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.cloned()
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.map(|v| v.into());
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QueryResults::Scalar(val)
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},
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&FindScalar(Element::Aggregate(ref _agg)) => {
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// TODO: static aggregates.
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unimplemented!();
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},
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&FindScalar(Element::Pull(ref _pull)) => {
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// TODO: static pull.
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unimplemented!();
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},
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&FindTuple(ref elements) => {
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let values = elements.iter()
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.map(|e| match e {
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&Element::Variable(ref var) |
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&Element::Corresponding(ref var) => {
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bindings.get(var)
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.cloned()
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.expect("every var to have a binding")
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.into()
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},
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&Element::Pull(ref _pull) => {
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// TODO: static pull.
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unreachable!();
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},
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&Element::Aggregate(ref _agg) => {
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// TODO: static computation of aggregates, then
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// implement the condition in `is_fully_bound`.
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unreachable!();
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},
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})
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.collect();
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QueryResults::Tuple(Some(values))
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},
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&FindColl(Element::Variable(ref var)) |
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&FindColl(Element::Corresponding(ref var)) => {
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let val = bindings.get(var)
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.cloned()
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.expect("every var to have a binding")
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.into();
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QueryResults::Coll(vec![val])
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},
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&FindColl(Element::Pull(ref _pull)) => {
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// TODO: static pull.
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unimplemented!();
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},
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&FindColl(Element::Aggregate(ref _agg)) => {
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// Does it even make sense to write
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// [:find [(max ?x) ...] :where [_ :foo/bar ?x]]
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// ?
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// TODO
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unimplemented!();
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},
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&FindRel(ref elements) => {
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let width = elements.len();
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let values = elements.iter().map(|e| match e {
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&Element::Variable(ref var) |
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&Element::Corresponding(ref var) => {
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bindings.get(var)
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.cloned()
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.expect("every var to have a binding")
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.into()
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},
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&Element::Pull(ref _pull) => {
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// TODO: static pull.
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unreachable!();
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},
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&Element::Aggregate(ref _agg) => {
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// TODO: static computation of aggregates, then
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// implement the condition in `is_fully_bound`.
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unreachable!();
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},
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}).collect();
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QueryResults::Rel(RelResult { width, values })
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},
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}
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}
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pub fn into_scalar(self) -> Result<Option<Binding>> {
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self.results.into_scalar()
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}
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pub fn into_coll(self) -> Result<Vec<Binding>> {
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self.results.into_coll()
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}
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/// Mentat tuple results can be expressed as multiple different data structures. Some
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/// structures are generic (vectors) and some are easier for pattern matching (fixed length
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/// tuples).
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///
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/// This is the moral equivalent of `collect` (and `BindingTuple` of `FromIterator`), but
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/// specialized to tuples of expected length.
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pub fn into_tuple<B>(self) -> Result<Option<B>> where B: BindingTuple {
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let expected = self.spec.expected_column_count();
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self.results.into_tuple().and_then(|vec| B::from_binding_vec(expected, vec))
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}
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pub fn into_rel(self) -> Result<RelResult<Binding>> {
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self.results.into_rel()
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}
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}
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impl QueryResults {
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pub fn len(&self) -> usize {
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use QueryResults::*;
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match self {
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&Scalar(ref o) => if o.is_some() { 1 } else { 0 },
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&Tuple(ref o) => if o.is_some() { 1 } else { 0 },
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&Coll(ref v) => v.len(),
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&Rel(ref r) => r.row_count(),
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}
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}
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pub fn is_empty(&self) -> bool {
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use QueryResults::*;
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match self {
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&Scalar(ref o) => o.is_none(),
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&Tuple(ref o) => o.is_none(),
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&Coll(ref v) => v.is_empty(),
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&Rel(ref r) => r.is_empty(),
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}
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}
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pub fn into_scalar(self) -> Result<Option<Binding>> {
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match self {
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QueryResults::Scalar(o) => Ok(o),
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QueryResults::Coll(_) => bail!(ProjectorError::UnexpectedResultsType("coll", "scalar")),
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QueryResults::Tuple(_) => bail!(ProjectorError::UnexpectedResultsType("tuple", "scalar")),
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QueryResults::Rel(_) => bail!(ProjectorError::UnexpectedResultsType("rel", "scalar")),
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}
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}
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pub fn into_coll(self) -> Result<Vec<Binding>> {
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match self {
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QueryResults::Scalar(_) => bail!(ProjectorError::UnexpectedResultsType("scalar", "coll")),
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QueryResults::Coll(c) => Ok(c),
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QueryResults::Tuple(_) => bail!(ProjectorError::UnexpectedResultsType("tuple", "coll")),
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QueryResults::Rel(_) => bail!(ProjectorError::UnexpectedResultsType("rel", "coll")),
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}
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}
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pub fn into_tuple(self) -> Result<Option<Vec<Binding>>> {
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match self {
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QueryResults::Scalar(_) => bail!(ProjectorError::UnexpectedResultsType("scalar", "tuple")),
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QueryResults::Coll(_) => bail!(ProjectorError::UnexpectedResultsType("coll", "tuple")),
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QueryResults::Tuple(t) => Ok(t),
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QueryResults::Rel(_) => bail!(ProjectorError::UnexpectedResultsType("rel", "tuple")),
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}
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}
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pub fn into_rel(self) -> Result<RelResult<Binding>> {
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match self {
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QueryResults::Scalar(_) => bail!(ProjectorError::UnexpectedResultsType("scalar", "rel")),
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QueryResults::Coll(_) => bail!(ProjectorError::UnexpectedResultsType("coll", "rel")),
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QueryResults::Tuple(_) => bail!(ProjectorError::UnexpectedResultsType("tuple", "rel")),
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QueryResults::Rel(r) => Ok(r),
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}
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}
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}
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type Index = usize; // See rusqlite::RowIndex.
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enum TypedIndex {
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Known(Index, ValueTypeTag),
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Unknown(Index, Index),
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}
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impl TypedIndex {
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/// Look up this index and type(index) pair in the provided row.
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/// This function will panic if:
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///
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/// - This is an `Unknown` and the retrieved type tag isn't an i32.
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/// - If the retrieved value can't be coerced to a rusqlite `Value`.
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/// - Either index is out of bounds.
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///
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/// Because we construct our SQL projection list, the tag that stored the data, and this
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/// consumer, a panic here implies that we have a bad bug — we put data of a very wrong type in
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/// a row, and thus can't coerce to Value, we're retrieving from the wrong place, or our
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/// generated SQL is junk.
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///
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/// This function will return a runtime error if the type tag is unknown, or the value is
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/// otherwise not convertible by the DB layer.
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fn lookup<'a>(&self, row: &Row<'a>) -> Result<Binding> {
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use TypedIndex::*;
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match self {
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&Known(value_index, value_type) => {
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let v: rusqlite::types::Value = row.get(value_index).unwrap();
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TypedValue::from_sql_value_pair(v, value_type)
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.map(|v| v.into())
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.map_err(|e| e.into())
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},
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&Unknown(value_index, type_index) => {
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let v: rusqlite::types::Value = row.get(value_index).unwrap();
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let value_type_tag: i32 = row.get(type_index).unwrap();
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TypedValue::from_sql_value_pair(v, value_type_tag)
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.map(|v| v.into())
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.map_err(|e| e.into())
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},
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}
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}
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}
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/// Combines the things you need to turn a query into SQL and turn its results into
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/// `QueryResults`: SQL-related projection information (`DISTINCT`, columns, etc.) and
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/// a Datalog projector that turns SQL into structures.
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pub struct CombinedProjection {
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/// A SQL projection, mapping columns mentioned in the body of the query to columns in the
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/// output.
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pub sql_projection: Projection,
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/// If a query contains aggregates, we need to generate a nested subquery: an inner query
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/// that returns our distinct variable bindings (and any `:with` vars), and an outer query
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/// that applies aggregation. That's so we can put `DISTINCT` in the inner query and apply
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/// aggregation afterwards -- `SELECT DISTINCT count(foo)` counts _then_ uniques, and we need
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/// the opposite to implement Datalog distinct semantics.
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/// If this is the case, `sql_projection` will be the outer query's projection list, and
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/// `pre_aggregate_projection` will be the inner.
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/// If the query doesn't use aggregation, this field will be `None`.
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pub pre_aggregate_projection: Option<Projection>,
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/// A Datalog projection. This consumes rows of the appropriate shape (as defined by
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/// the SQL projection) to yield one of the four kinds of Datalog query result.
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pub datalog_projector: Box<Projector>,
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/// True if this query requires the SQL query to include DISTINCT.
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pub distinct: bool,
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// A list of column names to use as a GROUP BY clause.
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pub group_by_cols: Vec<GroupBy>,
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}
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impl CombinedProjection {
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fn flip_distinct_for_limit(mut self, limit: &Limit) -> Self {
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if *limit == Limit::Fixed(1) {
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self.distinct = false;
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}
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self
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}
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}
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trait IsPull {
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fn is_pull(&self) -> bool;
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}
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impl IsPull for Element {
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fn is_pull(&self) -> bool {
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match self {
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&Element::Pull(_) => true,
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_ => false,
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}
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}
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}
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/// Compute a suitable SQL projection for an algebrized query.
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/// This takes into account a number of things:
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/// - The variable list in the find spec.
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/// - The presence of any aggregate operations in the find spec. TODO: for now we only handle
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/// simple variables
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/// - The bindings established by the topmost CC.
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/// - The types known at algebrizing time.
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/// - The types extracted from the store for unknown attributes.
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pub fn query_projection(schema: &Schema, query: &AlgebraicQuery) -> Result<Either<ConstantProjector, CombinedProjection>> {
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use self::FindSpec::*;
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let spec = query.find_spec.clone();
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if query.is_fully_unit_bound() {
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// Do a few gyrations to produce empty results of the right kind for the query.
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let variables: BTreeSet<Variable> = spec.columns()
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.map(|e| match e {
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&Element::Variable(ref var) |
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&Element::Corresponding(ref var) => var.clone(),
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|
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// Pull expressions can never be fully bound.
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// TODO: but the interior can be, in which case we
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// can handle this and simply project.
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&Element::Pull(_) => {
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unreachable!();
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},
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&Element::Aggregate(ref _agg) => {
|
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// TODO: static computation of aggregates, then
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// implement the condition in `is_fully_bound`.
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unreachable!();
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},
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})
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.collect();
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|
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// TODO: error handling
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let results = QueryOutput::from_constants(&spec, query.cc.value_bindings(&variables));
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let f = Box::new(move || { results.clone() });
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Ok(Either::Left(ConstantProjector::new(spec, f)))
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} else if query.is_known_empty() {
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// Do a few gyrations to produce empty results of the right kind for the query.
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let empty = QueryOutput::empty_factory(&spec);
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Ok(Either::Left(ConstantProjector::new(spec, empty)))
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} else {
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match *query.find_spec {
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FindColl(ref element) => {
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let elements = project_elements(1, iter::once(element), query)?;
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if element.is_pull() {
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CollTwoStagePullProjector::combine(spec, elements)
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} else {
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CollProjector::combine(spec, elements)
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}.map(|p| p.flip_distinct_for_limit(&query.limit))
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},
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FindScalar(ref element) => {
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let elements = project_elements(1, iter::once(element), query)?;
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if element.is_pull() {
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ScalarTwoStagePullProjector::combine(schema, spec, elements)
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} else {
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ScalarProjector::combine(spec, elements)
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}
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},
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FindRel(ref elements) => {
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let is_pull = elements.iter().any(|e| e.is_pull());
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let column_count = query.find_spec.expected_column_count();
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let elements = project_elements(column_count, elements, query)?;
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if is_pull {
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RelTwoStagePullProjector::combine(spec, column_count, elements)
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} else {
|
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RelProjector::combine(spec, column_count, elements)
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}.map(|p| p.flip_distinct_for_limit(&query.limit))
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},
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FindTuple(ref elements) => {
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let is_pull = elements.iter().any(|e| e.is_pull());
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let column_count = query.find_spec.expected_column_count();
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let elements = project_elements(column_count, elements, query)?;
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if is_pull {
|
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TupleTwoStagePullProjector::combine(spec, column_count, elements)
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} else {
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TupleProjector::combine(spec, column_count, elements)
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}
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},
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}.map(Either::Right)
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}
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}
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|
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#[test]
|
|
fn test_into_tuple() {
|
|
let query_output = QueryOutput {
|
|
spec: Rc::new(FindSpec::FindTuple(vec![Element::Variable(Variable::from_valid_name("?x")),
|
|
Element::Variable(Variable::from_valid_name("?y"))])),
|
|
results: QueryResults::Tuple(Some(vec![Binding::Scalar(TypedValue::Long(0)),
|
|
Binding::Scalar(TypedValue::Long(2))])),
|
|
};
|
|
|
|
assert_eq!(query_output.clone().into_tuple().expect("into_tuple"),
|
|
Some((Binding::Scalar(TypedValue::Long(0)),
|
|
Binding::Scalar(TypedValue::Long(2)))));
|
|
|
|
match query_output.clone().into_tuple() {
|
|
Err(ProjectorError::UnexpectedResultsTupleLength(expected, got)) => {
|
|
assert_eq!((expected, got), (3, 2));
|
|
},
|
|
// This forces the result type.
|
|
Ok(Some((_, _, _))) | _ => panic!("expected error"),
|
|
}
|
|
|
|
let query_output = QueryOutput {
|
|
spec: Rc::new(FindSpec::FindTuple(vec![Element::Variable(Variable::from_valid_name("?x")),
|
|
Element::Variable(Variable::from_valid_name("?y"))])),
|
|
results: QueryResults::Tuple(None),
|
|
};
|
|
|
|
|
|
match query_output.clone().into_tuple() {
|
|
Ok(None) => {},
|
|
// This forces the result type.
|
|
Ok(Some((_, _))) | _ => panic!("expected error"),
|
|
}
|
|
|
|
match query_output.clone().into_tuple() {
|
|
Err(ProjectorError::UnexpectedResultsTupleLength(expected, got)) => {
|
|
assert_eq!((expected, got), (3, 2));
|
|
},
|
|
// This forces the result type.
|
|
Ok(Some((_, _, _))) | _ => panic!("expected error"),
|
|
}
|
|
}
|