arangodb/arangod/Aql/ShortestPathNode.cpp

/// @brief Implementation of Shortest Path Execution Node
///
/// @file arangod/Aql/ShortestPathNode.cpp
///
/// DISCLAIMER
///
/// Copyright 2010-2014 triagens GmbH, Cologne, Germany
///
/// 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.
///
/// Copyright holder is ArangoDB GmbH, Cologne, Germany
///
/// @author Michael Hackstein
/// @author Copyright 2015, ArangoDB GmbH, Cologne, Germany
////////////////////////////////////////////////////////////////////////////////

#include "ShortestPathNode.h"
#include "Aql/Ast.h"
#include "Aql/Collection.h"
#include "Aql/ExecutionPlan.h"
#include "Aql/Query.h"
#include "Cluster/ClusterComm.h"
#include "Graph/ShortestPathOptions.h"
#include "Indexes/Index.h"
#include "Utils/CollectionNameResolver.h"
#include "VocBase/LogicalCollection.h"

#include <velocypack/Iterator.h>
#include <velocypack/velocypack-aliases.h>

using namespace arangodb;
using namespace arangodb::basics;
using namespace arangodb::aql;
using namespace arangodb::graph;

static void parseNodeInput(AstNode const* node, std::string& id,
                           Variable const*& variable) {
  switch (node->type) {
    case NODE_TYPE_REFERENCE:
      variable = static_cast<Variable*>(node->getData());
      id = "";
      break;
    case NODE_TYPE_VALUE:
      if (node->value.type != VALUE_TYPE_STRING) {
        THROW_ARANGO_EXCEPTION_MESSAGE(TRI_ERROR_QUERY_PARSE,
                                       "invalid start vertex. Must either be "
                                       "an _id string or an object with _id.");
      }
      variable = nullptr;
      id = node->getString();
      break;
    default:
      THROW_ARANGO_EXCEPTION_MESSAGE(TRI_ERROR_QUERY_PARSE,
                                     "invalid start vertex. Must either be an "
                                     "_id string or an object with _id.");
  }
}

ShortestPathNode::ShortestPathNode(ExecutionPlan* plan, size_t id,
                                   TRI_vocbase_t* vocbase, AstNode const* direction,
                                   AstNode const* start, AstNode const* target,
                                   AstNode const* graph,
                                   std::unique_ptr<BaseOptions>& options)
    : GraphNode(plan, id, vocbase, direction, graph, options),
      _inStartVariable(nullptr),
      _inTargetVariable(nullptr),
      _fromCondition(nullptr),
      _toCondition(nullptr) {
  TRI_ASSERT(start != nullptr);
  TRI_ASSERT(target != nullptr);
  TRI_ASSERT(graph != nullptr);

  auto ast = _plan->getAst();
  // Let us build the conditions on _from and _to. Just in case we need them.
  {
    auto const* access = ast->createNodeAttributeAccess(
        getTemporaryRefNode(), StaticStrings::FromString.c_str(),
        StaticStrings::FromString.length());
    auto const* cond = ast->createNodeBinaryOperator(
        NODE_TYPE_OPERATOR_BINARY_EQ, access, _tmpIdNode);
    _fromCondition = ast->createNodeNaryOperator(NODE_TYPE_OPERATOR_NARY_AND);
    _fromCondition->addMember(cond);
  }
  TRI_ASSERT(_fromCondition != nullptr);

  {
    auto const* access = ast->createNodeAttributeAccess(
        getTemporaryRefNode(), StaticStrings::ToString.c_str(),
        StaticStrings::ToString.length());
    auto const* cond = ast->createNodeBinaryOperator(
        NODE_TYPE_OPERATOR_BINARY_EQ, access, _tmpIdNode);
    _toCondition = ast->createNodeNaryOperator(NODE_TYPE_OPERATOR_NARY_AND);
    _toCondition->addMember(cond);
  }
  TRI_ASSERT(_toCondition != nullptr);

  parseNodeInput(start, _startVertexId, _inStartVariable);
  parseNodeInput(target, _targetVertexId, _inTargetVariable);
}

/// @brief Internal constructor to clone the node.
ShortestPathNode::ShortestPathNode(
    ExecutionPlan* plan, size_t id, TRI_vocbase_t* vocbase,
    std::vector<std::unique_ptr<Collection>> const& edgeColls,
    std::vector<std::unique_ptr<Collection>> const& vertexColls,
    std::vector<TRI_edge_direction_e> const& directions,
    Variable const* inStartVariable, std::string const& startVertexId,
    Variable const* inTargetVariable, std::string const& targetVertexId,
    std::unique_ptr<BaseOptions>& options)
    : GraphNode(plan, id, vocbase, edgeColls, vertexColls, directions, options),
      _inStartVariable(inStartVariable),
      _startVertexId(startVertexId),
      _inTargetVariable(inTargetVariable),
      _targetVertexId(targetVertexId),
      _fromCondition(nullptr),
      _toCondition(nullptr) {}

ShortestPathNode::~ShortestPathNode() {}

ShortestPathNode::ShortestPathNode(ExecutionPlan* plan,
                                   arangodb::velocypack::Slice const& base)
    : GraphNode(plan, base),
      _inStartVariable(nullptr),
      _inTargetVariable(nullptr),
      _fromCondition(nullptr),
      _toCondition(nullptr) {
  // Start Vertex
  if (base.hasKey("startInVariable")) {
    _inStartVariable = varFromVPack(plan->getAst(), base, "startInVariable");
  } else {
    VPackSlice v = base.get("startVertexId");
    if (!v.isString()) {
      THROW_ARANGO_EXCEPTION_MESSAGE(TRI_ERROR_QUERY_BAD_JSON_PLAN,
                                     "start vertex must be a string");
    }
    _startVertexId = v.copyString();

    if (_startVertexId.empty()) {
      THROW_ARANGO_EXCEPTION_MESSAGE(TRI_ERROR_QUERY_BAD_JSON_PLAN,
                                     "start vertex mustn't be empty");
    }
  }

  // Target Vertex
  if (base.hasKey("targetInVariable")) {
    _inTargetVariable = varFromVPack(plan->getAst(), base, "targetInVariable");
  } else {
    VPackSlice v = base.get("targetVertexId");
    if (!v.isString()) {
      THROW_ARANGO_EXCEPTION_MESSAGE(TRI_ERROR_QUERY_BAD_JSON_PLAN,
                                     "target vertex must be a string");
    }
    _targetVertexId = v.copyString();
    if (_targetVertexId.empty()) {
      THROW_ARANGO_EXCEPTION_MESSAGE(TRI_ERROR_QUERY_BAD_JSON_PLAN,
                                     "target vertex mustn't be empty");
    }
  }

  // TODO SP Difference is here:
  /*
  std::string graphName;
  if (base.hasKey("graph") && (base.get("graph").isString())) {
    graphName = base.get("graph").copyString();
    if (base.hasKey("graphDefinition")) {
      _graphObj = plan->getAst()->query()->lookupGraphByName(graphName);

      if (_graphObj == nullptr) {
        THROW_ARANGO_EXCEPTION(TRI_ERROR_GRAPH_NOT_FOUND);
      }

      auto const& eColls = _graphObj->edgeCollections();
      for (auto const& it : eColls) {
        _edgeColls.push_back(it);

        // if there are twice as many directions as collections, this means we
        // have a shortest path with direction ANY. we must add each collection
        // twice then
        if (_directions.size() == 2 * eColls.size()) {
          // add collection again
          _edgeColls.push_back(it);
        }
      }
    } else {
      THROW_ARANGO_EXCEPTION_MESSAGE(TRI_ERROR_QUERY_BAD_JSON_PLAN,
                                     "missing graphDefinition.");
    }
  } else {
    _graphInfo.add(base.get("graph"));
    if (!_graphInfo.slice().isArray()) {
      THROW_ARANGO_EXCEPTION_MESSAGE(TRI_ERROR_QUERY_BAD_JSON_PLAN,
                                     "graph has to be an array.");
    }
    // List of edge collection names
    for (auto const& it : VPackArrayIterator(_graphInfo.slice())) {
      if (!it.isString()) {
        THROW_ARANGO_EXCEPTION_MESSAGE(TRI_ERROR_QUERY_BAD_JSON_PLAN,
                                       "graph has to be an array of strings.");
      }
      _edgeColls.emplace_back(it.copyString());
    }
    if (_edgeColls.empty()) {
      THROW_ARANGO_EXCEPTION_MESSAGE(
          TRI_ERROR_QUERY_BAD_JSON_PLAN,
          "graph has to be a non empty array of strings.");
    }
  }
  */

  // Filter Condition Parts
  TRI_ASSERT(base.hasKey("fromCondition"));
  _fromCondition = new AstNode(plan->getAst(), base.get("fromCondition"));

  TRI_ASSERT(base.hasKey("toCondition"));
  _toCondition = new AstNode(plan->getAst(), base.get("toCondition"));
}

void ShortestPathNode::toVelocyPackHelper(VPackBuilder& nodes,
                                          bool verbose) const {
  GraphNode::toVelocyPackHelper(nodes, verbose);  // call base class method
  // In variables
  if (usesStartInVariable()) {
    nodes.add(VPackValue("startInVariable"));
    startInVariable()->toVelocyPack(nodes);
  } else {
    nodes.add("startVertexId", VPackValue(_startVertexId));
  }

  if (usesTargetInVariable()) {
    nodes.add(VPackValue("targetInVariable"));
    targetInVariable()->toVelocyPack(nodes);
  } else {
    nodes.add("targetVertexId", VPackValue(_targetVertexId));
  }

  // Filter Conditions
  TRI_ASSERT(_fromCondition != nullptr);
  nodes.add(VPackValue("fromCondition"));
  _fromCondition->toVelocyPack(nodes, verbose);

  TRI_ASSERT(_toCondition != nullptr);
  nodes.add(VPackValue("toCondition"));
  _toCondition->toVelocyPack(nodes, verbose);

  // And close it:
  nodes.close();
}

ExecutionNode* ShortestPathNode::clone(ExecutionPlan* plan,
                                       bool withDependencies,
                                       bool withProperties) const {
  TRI_ASSERT(!_optionsBuild);
  auto oldOpts = static_cast<ShortestPathOptions*>(options());
  std::unique_ptr<BaseOptions> tmp =
      std::make_unique<ShortestPathOptions>(*oldOpts);
  auto c = new ShortestPathNode(plan, _id, _vocbase, _edgeColls, _vertexColls,
                                _directions, _inStartVariable, _startVertexId,
                                _inTargetVariable, _targetVertexId, tmp);
  if (usesVertexOutVariable()) {
    auto vertexOutVariable = _vertexOutVariable;
    if (withProperties) {
      vertexOutVariable =
          plan->getAst()->variables()->createVariable(vertexOutVariable);
    }
    TRI_ASSERT(vertexOutVariable != nullptr);
    c->setVertexOutput(vertexOutVariable);
  }

  if (usesEdgeOutVariable()) {
    auto edgeOutVariable = _edgeOutVariable;
    if (withProperties) {
      edgeOutVariable =
          plan->getAst()->variables()->createVariable(edgeOutVariable);
    }
    TRI_ASSERT(edgeOutVariable != nullptr);
    c->setEdgeOutput(edgeOutVariable);
  }

  // Temporary Filter Objects
  c->_tmpObjVariable = _tmpObjVariable;
  c->_tmpObjVarNode = _tmpObjVarNode;
  c->_tmpIdNode = _tmpIdNode;

  // Filter Condition Parts
  c->_fromCondition = _fromCondition->clone(_plan->getAst());
  c->_toCondition = _toCondition->clone(_plan->getAst());

  cloneHelper(c, plan, withDependencies, withProperties);

  return static_cast<ExecutionNode*>(c);
}

double ShortestPathNode::estimateCost(size_t& nrItems) const {
  size_t incoming = 0;
  double depCost = _dependencies.at(0)->getCost(incoming);
  return depCost + (incoming * _options->estimateCost(nrItems));
}

void ShortestPathNode::prepareOptions() {
  if (_optionsBuild) {
    return;
  }
  TRI_ASSERT(!_optionsBuild);

  size_t numEdgeColls = _edgeColls.size();
  Ast* ast = _plan->getAst();
  auto opts = static_cast<ShortestPathOptions*>(options());
  opts->setVariable(getTemporaryVariable());

  // Compute Indexes.
  for (size_t i = 0; i < numEdgeColls; ++i) {
    auto dir = _directions[i];
    switch (dir) {
      case TRI_EDGE_IN:
        opts->addLookupInfo(ast, _edgeColls[i]->getName(),
                            StaticStrings::ToString, _toCondition->clone(ast));
        opts->addReverseLookupInfo(ast, _edgeColls[i]->getName(),
                                   StaticStrings::FromString,
                                   _fromCondition->clone(ast));
        break;
      case TRI_EDGE_OUT:
        opts->addLookupInfo(ast, _edgeColls[i]->getName(),
                            StaticStrings::FromString,
                            _fromCondition->clone(ast));
        opts->addReverseLookupInfo(ast, _edgeColls[i]->getName(),
                                   StaticStrings::ToString,
                                   _toCondition->clone(ast));
        break;
      case TRI_EDGE_ANY:
        TRI_ASSERT(false);
        break;
    }
  }
  // If we use the path output the cache should activate document
  // caching otherwise it is not worth it.
  _options->activateCache(false, engines());
  _optionsBuild = true;
}