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/**
* Copyright (C) 2019-present MongoDB, Inc.
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the Server Side Public License, version 1,
* as published by MongoDB, Inc.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* Server Side Public License for more details.
*
* You should have received a copy of the Server Side Public License
* along with this program. If not, see
* <http://www.mongodb.com/licensing/server-side-public-license>.
*
* As a special exception, the copyright holders give permission to link the
* code of portions of this program with the OpenSSL library under certain
* conditions as described in each individual source file and distribute
* linked combinations including the program with the OpenSSL library. You
* must comply with the Server Side Public License in all respects for
* all of the code used other than as permitted herein. If you modify file(s)
* with this exception, you may extend this exception to your version of the
* file(s), but you are not obligated to do so. If you do not wish to do so,
* delete this exception statement from your version. If you delete this
* exception statement from all source files in the program, then also delete
* it in the license file.
*/
#include "mongo/db/query/projection.h"
#include "mongo/base/exact_cast.h"
#include "mongo/db/query/projection_ast_path_tracking_visitor.h"
#include "mongo/db/query/tree_walker.h"
#include "mongo/db/query/util/make_data_structure.h"
namespace mongo {
namespace projection_ast {
namespace {
/**
* Holds data used for dependency analysis while walking an AST tree. This struct is attached to
* 'PathTrackingVisitorContext' and can be accessed by projection AST visitors to track the current
* context.
*/
struct DepsAnalysisData {
DepsTracker fieldDependencyTracker;
void addRequiredField(const std::string& fieldName) {
fieldDependencyTracker.fields.insert(fieldName);
}
std::vector<std::string> requiredFields() const {
return {fieldDependencyTracker.fields.begin(), fieldDependencyTracker.fields.end()};
}
};
/**
* Optimizes the expressions in the projection while walking the AST tree.
*/
class ProjectionOptimizationVisitor final : public ProjectionASTMutableVisitor {
public:
void visit(ProjectionPathASTNode* node) final {}
void visit(ProjectionPositionalASTNode* node) final {}
void visit(ProjectionSliceASTNode* node) final {}
void visit(ProjectionElemMatchASTNode* node) final {}
void visit(ExpressionASTNode* node) final {
node->optimize();
}
void visit(BooleanConstantASTNode* node) final {}
void visit(MatchExpressionASTNode* node) final {}
};
/**
* Does "broad" analysis on the projection, about whether the entire document, or details from the
* match expression are needed and so on.
*/
class ProjectionAnalysisVisitor final : public ProjectionASTConstVisitor {
public:
ProjectionAnalysisVisitor(ProjectionDependencies* deps) : _deps(deps) {
invariant(_deps);
}
void visit(const ProjectionPathASTNode* node) final {
if (node->parent()) {
_deps->hasDottedPath = true;
}
}
void visit(const ProjectionPositionalASTNode* node) final {
_deps->requiresMatchDetails = true;
_deps->requiresDocument = true;
}
void visit(const ProjectionSliceASTNode* node) final {
_deps->requiresDocument = true;
_deps->hasExpressions = true;
}
void visit(const ProjectionElemMatchASTNode* node) final {
_deps->requiresDocument = true;
_deps->hasExpressions = true;
}
void visit(const ExpressionASTNode* node) final {
_deps->hasExpressions = true;
}
void visit(const BooleanConstantASTNode* node) final {}
void visit(const MatchExpressionASTNode* node) final {}
private:
ProjectionDependencies* _deps;
};
/**
* Uses a DepsTracker to determine which fields are required from the projection.
*
* To track the current path in the projection, this visitor should be used with
* 'PathTrackingWalker' which will help to maintain the current path via
* 'PathTrackingVisitorContext'.
*/
class DepsAnalysisVisitor final : public ProjectionASTConstVisitor {
public:
DepsAnalysisVisitor(PathTrackingVisitorContext<DepsAnalysisData>* context) : _context{context} {
invariant(_context);
}
void visit(const MatchExpressionASTNode* node) final {
node->matchExpression()->addDependencies(&_context->data().fieldDependencyTracker);
}
void visit(const ProjectionPositionalASTNode* node) final {
// Positional projection on a.b.c.$ may actually modify a, a.b, a.b.c, etc.
// Treat the top-level field as a dependency.
addTopLevelPathAsDependency();
}
void visit(const ProjectionSliceASTNode* node) final {
// find() $slice on a.b.c may modify a, a.b, and a.b.c if they're all arrays.
// Treat the top-level field as a dependency.
addTopLevelPathAsDependency();
}
void visit(const ProjectionElemMatchASTNode* node) final {
addFullPathAsDependency();
}
void visit(const ExpressionASTNode* node) final {
// The output of an expression on a dotted path depends on whether that field is an array.
invariant(node->parent());
node->expressionRaw()->addDependencies(&_context->data().fieldDependencyTracker);
if (_context->fullPath().getPathLength() > 1) {
// If assigning to a top-level field, the value of that field is not actually required.
// Otherwise, any assignment of an expression to a field requires the first component
// of that field. e.g. {a.b.c: <expression>} will require all of 'a' since it may be an
// array.
addTopLevelPathAsDependency();
}
}
void visit(const BooleanConstantASTNode* node) final {
// For inclusions, we depend on the field.
if (node->value()) {
addFullPathAsDependency();
}
}
void visit(const ProjectionPathASTNode* node) final {}
private:
void addTopLevelPathAsDependency() {
const auto& path = _context->fullPath();
_context->data().addRequiredField(path.front().toString());
}
void addFullPathAsDependency() {
const auto& path = _context->fullPath();
_context->data().addRequiredField(path.fullPath());
}
PathTrackingVisitorContext<DepsAnalysisData>* _context;
};
auto analyzeProjection(const ProjectionPathASTNode* root, ProjectType type) {
ProjectionDependencies deps;
PathTrackingVisitorContext<DepsAnalysisData> context;
DepsAnalysisVisitor depsAnalysisVisitor{&context};
ProjectionAnalysisVisitor projectionAnalysisVisitor{&deps};
PathTrackingWalker walker{&context, {&depsAnalysisVisitor, &projectionAnalysisVisitor}, {}};
tree_walker::walk<true, projection_ast::ASTNode>(root, &walker);
const auto& userData = context.data();
const auto& tracker = userData.fieldDependencyTracker;
if (type == ProjectType::kInclusion) {
deps.requiredFields = userData.requiredFields();
} else {
invariant(type == ProjectType::kExclusion);
deps.requiresDocument = true;
}
deps.metadataRequested = tracker.metadataDeps();
deps.requiresDocument = deps.requiresDocument || tracker.needWholeDocument;
return deps;
}
} // namespace
void optimizeProjection(ProjectionPathASTNode* root) {
PathTrackingVisitorContext context;
ProjectionOptimizationVisitor optimizationVisitor;
PathTrackingMutableWalker<PathTrackingDummyDefaultType> walker{
&context, {&optimizationVisitor}, {}};
// The walker is not const (IsConst = false) as we modify by calling 'optimize()' when walking.
tree_walker::walk<false, projection_ast::ASTNode>(root, &walker);
}
Projection::Projection(ProjectionPathASTNode root, ProjectType type)
: _root(std::move(root)), _type(type), _deps(analyzeProjection(&_root, type)) {}
namespace {
/**
* Given an AST node for a projection and a path, return the node representing the deepest
* common point between the path and the tree, as well as the index into the path following that
* node.
*
* Example:
* Node representing tree {a: {b: 1, c: {d: 1}}}
* path: "a.b"
* Returns: inclusion node for {b: 1} and index 2.
*
* Node representing tree {a: {b: 0, c: 0}}
* path: "a.b.c.d"
* Returns: exclusion node for {c: 0} and index 3.
*/
std::pair<const ASTNode*, size_t> findCommonPoint(const ASTNode* astNode,
const FieldPath& path,
size_t pathIndex) {
if (pathIndex >= path.getPathLength()) {
// We've run out of path. That is, the projection goes deeper than the path requested.
// For example, the projection may be {a.b : 1} and the requested field might be 'a'.
return {astNode, path.getPathLength()};
}
const auto* pathNode = exact_pointer_cast<const ProjectionPathASTNode*>(astNode);
if (pathNode) {
// We can look up children.
StringData field = path.getFieldName(pathIndex);
const auto* child = pathNode->getChild(field);
if (!child) {
// This node is the common point.
return {astNode, pathIndex};
}
return findCommonPoint(child, path, pathIndex + 1);
}
// This is a terminal node with respect to the projection. We can't traverse any more, so
// return the current node.
return {astNode, pathIndex};
}
} // namespace
bool Projection::isFieldRetainedExactly(StringData path) const {
FieldPath fieldPath(path);
const auto [node, pathIndex] = findCommonPoint(&_root, fieldPath, 0);
// Check the type of the node. If it's a 'path' node then we know more
// inclusions/exclusions are beneath it.
if (const auto* pathNode = exact_pointer_cast<const ProjectionPathASTNode*>(node)) {
// There are two cases:
// (I) we project a subfield of the requested path. E.g. the projection is
// {a.b.c: <value>} and the requested path was 'a.b'. In this case, the field is not
// necessarily retained exactly.
if (pathIndex == fieldPath.getPathLength()) {
return false;
}
// (II) We project a 'sibling' field of the requested path. E.g. the projection is
// {a.b.x: <value>} and the requested path is 'a.b.c'. The common point would be at 'a.b'.
// In this case, the field is retained exactly if the projection is an exclusion.
if (pathIndex < fieldPath.getPathLength()) {
invariant(!pathNode->getChild(fieldPath.getFieldName(pathIndex)));
return _type == ProjectType::kExclusion;
}
MONGO_UNREACHABLE;
} else if (const auto* boolNode = exact_pointer_cast<const BooleanConstantASTNode*>(node)) {
// If the node is an inclusion, then the path is preserved.
// This is true even if the path is deeper than the AST, e.g. if the projection is
// {a.b: 1} and the requested field is 'a.b.c.
return boolNode->value();
}
return false;
}
} // namespace projection_ast
} // namespace mongo
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