third_party/v8/src/compiler/node-properties.h - cobalt - Git at Google

 // Copyright 2013 the V8 project authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #ifndef V8_COMPILER_NODE_PROPERTIES_H_
 #define V8_COMPILER_NODE_PROPERTIES_H_

 #include "src/common/globals.h"
 #include "src/compiler/node.h"
 #include "src/compiler/operator-properties.h"
 #include "src/compiler/types.h"
 #include "src/objects/map.h"
 #include "src/zone/zone-handle-set.h"

 namespace v8 {
 namespace internal {
 namespace compiler {

 class Graph;
 class Operator;
 class CommonOperatorBuilder;

 // A facade that simplifies access to the different kinds of inputs to a node.
 class V8_EXPORT_PRIVATE NodeProperties final {
  public:
   // ---------------------------------------------------------------------------
   // Input layout.
   // Inputs are always arranged in order as follows:
   //     0 [ values, context, frame state, effects, control ] node->InputCount()

   static int FirstValueIndex(Node* node) { return 0; }
   static int FirstContextIndex(Node* node) { return PastValueIndex(node); }
   static int FirstFrameStateIndex(Node* node) { return PastContextIndex(node); }
   static int FirstEffectIndex(Node* node) { return PastFrameStateIndex(node); }
   static int FirstControlIndex(Node* node) { return PastEffectIndex(node); }

   static int PastValueIndex(Node* node) {
     return FirstValueIndex(node) + node->op()->ValueInputCount();
   }

   static int PastContextIndex(Node* node) {
     return FirstContextIndex(node) +
            OperatorProperties::GetContextInputCount(node->op());
   }

   static int PastFrameStateIndex(Node* node) {
     return FirstFrameStateIndex(node) +
            OperatorProperties::GetFrameStateInputCount(node->op());
   }

   static int PastEffectIndex(Node* node) {
     return FirstEffectIndex(node) + node->op()->EffectInputCount();
   }

   static int PastControlIndex(Node* node) {
     return FirstControlIndex(node) + node->op()->ControlInputCount();
   }

   // ---------------------------------------------------------------------------
   // Input accessors.

   static Node* GetValueInput(Node* node, int index) {
     CHECK_LE(0, index);
     CHECK_LT(index, node->op()->ValueInputCount());
     return node->InputAt(FirstValueIndex(node) + index);
   }

   static Node* GetContextInput(Node* node) {
     CHECK(OperatorProperties::HasContextInput(node->op()));
     return node->InputAt(FirstContextIndex(node));
   }

   static Node* GetFrameStateInput(Node* node) {
     CHECK(OperatorProperties::HasFrameStateInput(node->op()));
     return node->InputAt(FirstFrameStateIndex(node));
   }

   static Node* GetEffectInput(Node* node, int index = 0) {
     CHECK_LE(0, index);
     CHECK_LT(index, node->op()->EffectInputCount());
     return node->InputAt(FirstEffectIndex(node) + index);
   }

   static Node* GetControlInput(Node* node, int index = 0) {
     CHECK_LE(0, index);
     CHECK_LT(index, node->op()->ControlInputCount());
     return node->InputAt(FirstControlIndex(node) + index);
   }

   // ---------------------------------------------------------------------------
   // Edge kinds.

   static bool IsValueEdge(Edge edge);
   static bool IsContextEdge(Edge edge);
   static bool IsFrameStateEdge(Edge edge);
   static bool IsEffectEdge(Edge edge);
   static bool IsControlEdge(Edge edge);

   // ---------------------------------------------------------------------------
   // Miscellaneous predicates.

   static bool IsCommon(Node* node) {
     return IrOpcode::IsCommonOpcode(node->opcode());
   }
   static bool IsControl(Node* node) {
     return IrOpcode::IsControlOpcode(node->opcode());
   }
   static bool IsConstant(Node* node) {
     return IrOpcode::IsConstantOpcode(node->opcode());
   }
   static bool IsPhi(Node* node) {
     return IrOpcode::IsPhiOpcode(node->opcode());
   }

   // Determines whether exceptions thrown by the given node are handled locally
   // within the graph (i.e. an IfException projection is present). Optionally
   // the present IfException projection is returned via {out_exception}.
   static bool IsExceptionalCall(Node* node, Node** out_exception = nullptr);

   // Returns the node producing the successful control output of {node}. This is
   // the IfSuccess projection of {node} if present and {node} itself otherwise.
   static Node* FindSuccessfulControlProjection(Node* node);

   // Returns whether the node acts as the identity function on a value
   // input. The input that is passed through is returned via {out_value}.
   static bool IsValueIdentity(Node* node, Node** out_value) {
     switch (node->opcode()) {
       case IrOpcode::kTypeGuard:
         *out_value = GetValueInput(node, 0);
         return true;
       case IrOpcode::kFoldConstant:
         *out_value = GetValueInput(node, 1);
         return true;
       default:
         return false;
     }
   }

   // ---------------------------------------------------------------------------
   // Miscellaneous mutators.

   static void ReplaceValueInput(Node* node, Node* value, int index);
   static void ReplaceContextInput(Node* node, Node* context);
   static void ReplaceControlInput(Node* node, Node* control, int index = 0);
   static void ReplaceEffectInput(Node* node, Node* effect, int index = 0);
   static void ReplaceFrameStateInput(Node* node, Node* frame_state);
   static void RemoveNonValueInputs(Node* node);
   static void RemoveValueInputs(Node* node);

   // Replaces all value inputs of {node} with the single input {value}.
   static void ReplaceValueInputs(Node* node, Node* value);

   // Merge the control node {node} into the end of the graph, introducing a
   // merge node or expanding an existing merge node if necessary.
   static void MergeControlToEnd(Graph* graph, CommonOperatorBuilder* common,
                                 Node* node);

   // Removes the control node {node} from the end of the graph, reducing the
   // existing merge node's input count.
   static void RemoveControlFromEnd(Graph* graph, CommonOperatorBuilder* common,
                                    Node* node);

   // Replace all uses of {node} with the given replacement nodes. All occurring
   // use kinds need to be replaced, {nullptr} is only valid if a use kind is
   // guaranteed not to exist.
   static void ReplaceUses(Node* node, Node* value, Node* effect = nullptr,
                           Node* success = nullptr, Node* exception = nullptr);

   // Safe wrapper to mutate the operator of a node. Checks that the node is
   // currently in a state that satisfies constraints of the new operator.
   static void ChangeOp(Node* node, const Operator* new_op);

   // ---------------------------------------------------------------------------
   // Miscellaneous utilities.

   // Find the last frame state that is effect-wise before the given node. This
   // assumes a linear effect-chain up to a {CheckPoint} node in the graph.
   // Returns {unreachable_sentinel} if {node} is determined to be unreachable.
   static Node* FindFrameStateBefore(Node* node, Node* unreachable_sentinel);

   // Collect the output-value projection for the given output index.
   static Node* FindProjection(Node* node, size_t projection_index);

   // Collect the value projections from a node.
   static void CollectValueProjections(Node* node, Node** proj, size_t count);

   // Collect the branch-related projections from a node, such as IfTrue,
   // IfFalse, IfSuccess, IfException, IfValue and IfDefault.
   //  - Branch: [ IfTrue, IfFalse ]
   //  - Call  : [ IfSuccess, IfException ]
   //  - Switch: [ IfValue, ..., IfDefault ]
   static void CollectControlProjections(Node* node, Node** proj, size_t count);

   // Checks if two nodes are the same, looking past {CheckHeapObject}.
   static bool IsSame(Node* a, Node* b);

   // Check if two nodes have equal operators and reference-equal inputs. Used
   // for value numbering/hash-consing.
   static bool Equals(Node* a, Node* b);
   // A corresponding hash function.
   static size_t HashCode(Node* node);

   // Walks up the {effect} chain to find a witness that provides map
   // information about the {receiver}. Can look through potentially
   // side effecting nodes.
   enum InferMapsResult {
     kNoMaps,         // No maps inferred.
     kReliableMaps,   // Maps can be trusted.
     kUnreliableMaps  // Maps might have changed (side-effect).
   };
   // DO NOT USE InferMapsUnsafe IN NEW CODE. Use MapInference instead.
   static InferMapsResult InferMapsUnsafe(JSHeapBroker* broker, Node* object,
                                          Node* effect,
                                          ZoneHandleSet<Map>* maps);

   // Return the initial map of the new-target if the allocation can be inlined.
   static base::Optional<MapRef> GetJSCreateMap(JSHeapBroker* broker,
                                                Node* receiver);

   // Walks up the {effect} chain to check that there's no observable side-effect
   // between the {effect} and it's {dominator}. Aborts the walk if there's join
   // in the effect chain.
   static bool NoObservableSideEffectBetween(Node* effect, Node* dominator);

   // Returns true if the {receiver} can be a primitive value (i.e. is not
   // definitely a JavaScript object); might walk up the {effect} chain to
   // find map checks on {receiver}.
   static bool CanBePrimitive(JSHeapBroker* broker, Node* receiver,
                              Node* effect);

   // Returns true if the {receiver} can be null or undefined. Might walk
   // up the {effect} chain to find map checks for {receiver}.
   static bool CanBeNullOrUndefined(JSHeapBroker* broker, Node* receiver,
                                    Node* effect);

   // ---------------------------------------------------------------------------
   // Context.

   // Walk up the context chain from the given {node} until we reduce the {depth}
   // to 0 or hit a node that does not extend the context chain ({depth} will be
   // updated accordingly).
   static Node* GetOuterContext(Node* node, size_t* depth);

   // ---------------------------------------------------------------------------
   // Type.

   static bool IsTyped(Node* node) { return !node->type().IsInvalid(); }
   static Type GetType(Node* node) {
     DCHECK(IsTyped(node));
     return node->type();
   }
   static Type GetTypeOrAny(Node* node);
   static void SetType(Node* node, Type type) {
     DCHECK(!type.IsInvalid());
     node->set_type(type);
   }
   static void RemoveType(Node* node) { node->set_type(Type::Invalid()); }
   static bool AllValueInputsAreTyped(Node* node);

  private:
   static inline bool IsInputRange(Edge edge, int first, int count);
 };

 }  // namespace compiler
 }  // namespace internal
 }  // namespace v8

 #endif  // V8_COMPILER_NODE_PROPERTIES_H_
	// Copyright 2013 the V8 project authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#ifndef V8_COMPILER_NODE_PROPERTIES_H_
	#define V8_COMPILER_NODE_PROPERTIES_H_

	#include "src/common/globals.h"
	#include "src/compiler/node.h"
	#include "src/compiler/operator-properties.h"
	#include "src/compiler/types.h"
	#include "src/objects/map.h"
	#include "src/zone/zone-handle-set.h"

	namespace v8 {
	namespace internal {
	namespace compiler {

	class Graph;
	class Operator;
	class CommonOperatorBuilder;

	// A facade that simplifies access to the different kinds of inputs to a node.
	class V8_EXPORT_PRIVATE NodeProperties final {
	public:
	// ---------------------------------------------------------------------------
	// Input layout.
	// Inputs are always arranged in order as follows:
	// 0 [ values, context, frame state, effects, control ] node->InputCount()

	static int FirstValueIndex(Node* node) { return 0; }
	static int FirstContextIndex(Node* node) { return PastValueIndex(node); }
	static int FirstFrameStateIndex(Node* node) { return PastContextIndex(node); }
	static int FirstEffectIndex(Node* node) { return PastFrameStateIndex(node); }
	static int FirstControlIndex(Node* node) { return PastEffectIndex(node); }

	static int PastValueIndex(Node* node) {
	return FirstValueIndex(node) + node->op()->ValueInputCount();
	}

	static int PastContextIndex(Node* node) {
	return FirstContextIndex(node) +
	OperatorProperties::GetContextInputCount(node->op());
	}

	static int PastFrameStateIndex(Node* node) {
	return FirstFrameStateIndex(node) +
	OperatorProperties::GetFrameStateInputCount(node->op());
	}

	static int PastEffectIndex(Node* node) {
	return FirstEffectIndex(node) + node->op()->EffectInputCount();
	}

	static int PastControlIndex(Node* node) {
	return FirstControlIndex(node) + node->op()->ControlInputCount();
	}

	// ---------------------------------------------------------------------------
	// Input accessors.

	static Node* GetValueInput(Node* node, int index) {
	CHECK_LE(0, index);
	CHECK_LT(index, node->op()->ValueInputCount());
	return node->InputAt(FirstValueIndex(node) + index);
	}

	static Node* GetContextInput(Node* node) {
	CHECK(OperatorProperties::HasContextInput(node->op()));
	return node->InputAt(FirstContextIndex(node));
	}

	static Node* GetFrameStateInput(Node* node) {
	CHECK(OperatorProperties::HasFrameStateInput(node->op()));
	return node->InputAt(FirstFrameStateIndex(node));
	}

	static Node* GetEffectInput(Node* node, int index = 0) {
	CHECK_LE(0, index);
	CHECK_LT(index, node->op()->EffectInputCount());
	return node->InputAt(FirstEffectIndex(node) + index);
	}

	static Node* GetControlInput(Node* node, int index = 0) {
	CHECK_LE(0, index);
	CHECK_LT(index, node->op()->ControlInputCount());
	return node->InputAt(FirstControlIndex(node) + index);
	}

	// ---------------------------------------------------------------------------
	// Edge kinds.

	static bool IsValueEdge(Edge edge);
	static bool IsContextEdge(Edge edge);
	static bool IsFrameStateEdge(Edge edge);
	static bool IsEffectEdge(Edge edge);
	static bool IsControlEdge(Edge edge);

	// ---------------------------------------------------------------------------
	// Miscellaneous predicates.

	static bool IsCommon(Node* node) {
	return IrOpcode::IsCommonOpcode(node->opcode());
	}
	static bool IsControl(Node* node) {
	return IrOpcode::IsControlOpcode(node->opcode());
	}
	static bool IsConstant(Node* node) {
	return IrOpcode::IsConstantOpcode(node->opcode());
	}
	static bool IsPhi(Node* node) {
	return IrOpcode::IsPhiOpcode(node->opcode());
	}

	// Determines whether exceptions thrown by the given node are handled locally
	// within the graph (i.e. an IfException projection is present). Optionally
	// the present IfException projection is returned via {out_exception}.
	static bool IsExceptionalCall(Node* node, Node** out_exception = nullptr);

	// Returns the node producing the successful control output of {node}. This is
	// the IfSuccess projection of {node} if present and {node} itself otherwise.
	static Node* FindSuccessfulControlProjection(Node* node);

	// Returns whether the node acts as the identity function on a value
	// input. The input that is passed through is returned via {out_value}.
	static bool IsValueIdentity(Node* node, Node** out_value) {
	switch (node->opcode()) {
	case IrOpcode::kTypeGuard:
	*out_value = GetValueInput(node, 0);
	return true;
	case IrOpcode::kFoldConstant:
	*out_value = GetValueInput(node, 1);
	return true;
	default:
	return false;
	}
	}

	// ---------------------------------------------------------------------------
	// Miscellaneous mutators.

	static void ReplaceValueInput(Node* node, Node* value, int index);
	static void ReplaceContextInput(Node* node, Node* context);
	static void ReplaceControlInput(Node* node, Node* control, int index = 0);
	static void ReplaceEffectInput(Node* node, Node* effect, int index = 0);
	static void ReplaceFrameStateInput(Node* node, Node* frame_state);
	static void RemoveNonValueInputs(Node* node);
	static void RemoveValueInputs(Node* node);

	// Replaces all value inputs of {node} with the single input {value}.
	static void ReplaceValueInputs(Node* node, Node* value);

	// Merge the control node {node} into the end of the graph, introducing a
	// merge node or expanding an existing merge node if necessary.
	static void MergeControlToEnd(Graph* graph, CommonOperatorBuilder* common,
	Node* node);

	// Removes the control node {node} from the end of the graph, reducing the
	// existing merge node's input count.
	static void RemoveControlFromEnd(Graph* graph, CommonOperatorBuilder* common,
	Node* node);

	// Replace all uses of {node} with the given replacement nodes. All occurring
	// use kinds need to be replaced, {nullptr} is only valid if a use kind is
	// guaranteed not to exist.
	static void ReplaceUses(Node* node, Node* value, Node* effect = nullptr,
	Node* success = nullptr, Node* exception = nullptr);

	// Safe wrapper to mutate the operator of a node. Checks that the node is
	// currently in a state that satisfies constraints of the new operator.
	static void ChangeOp(Node* node, const Operator* new_op);

	// ---------------------------------------------------------------------------
	// Miscellaneous utilities.

	// Find the last frame state that is effect-wise before the given node. This
	// assumes a linear effect-chain up to a {CheckPoint} node in the graph.
	// Returns {unreachable_sentinel} if {node} is determined to be unreachable.
	static Node* FindFrameStateBefore(Node* node, Node* unreachable_sentinel);

	// Collect the output-value projection for the given output index.
	static Node* FindProjection(Node* node, size_t projection_index);

	// Collect the value projections from a node.
	static void CollectValueProjections(Node* node, Node** proj, size_t count);

	// Collect the branch-related projections from a node, such as IfTrue,
	// IfFalse, IfSuccess, IfException, IfValue and IfDefault.
	// - Branch: [ IfTrue, IfFalse ]
	// - Call : [ IfSuccess, IfException ]
	// - Switch: [ IfValue, ..., IfDefault ]
	static void CollectControlProjections(Node* node, Node** proj, size_t count);

	// Checks if two nodes are the same, looking past {CheckHeapObject}.
	static bool IsSame(Node* a, Node* b);

	// Check if two nodes have equal operators and reference-equal inputs. Used
	// for value numbering/hash-consing.
	static bool Equals(Node* a, Node* b);
	// A corresponding hash function.
	static size_t HashCode(Node* node);

	// Walks up the {effect} chain to find a witness that provides map
	// information about the {receiver}. Can look through potentially
	// side effecting nodes.
	enum InferMapsResult {
	kNoMaps, // No maps inferred.
	kReliableMaps, // Maps can be trusted.
	kUnreliableMaps // Maps might have changed (side-effect).
	};
	// DO NOT USE InferMapsUnsafe IN NEW CODE. Use MapInference instead.
	static InferMapsResult InferMapsUnsafe(JSHeapBroker* broker, Node* object,
	Node* effect,
	ZoneHandleSet<Map>* maps);

	// Return the initial map of the new-target if the allocation can be inlined.
	static base::Optional<MapRef> GetJSCreateMap(JSHeapBroker* broker,
	Node* receiver);

	// Walks up the {effect} chain to check that there's no observable side-effect
	// between the {effect} and it's {dominator}. Aborts the walk if there's join
	// in the effect chain.
	static bool NoObservableSideEffectBetween(Node* effect, Node* dominator);

	// Returns true if the {receiver} can be a primitive value (i.e. is not
	// definitely a JavaScript object); might walk up the {effect} chain to
	// find map checks on {receiver}.
	static bool CanBePrimitive(JSHeapBroker* broker, Node* receiver,
	Node* effect);

	// Returns true if the {receiver} can be null or undefined. Might walk
	// up the {effect} chain to find map checks for {receiver}.
	static bool CanBeNullOrUndefined(JSHeapBroker* broker, Node* receiver,
	Node* effect);

	// ---------------------------------------------------------------------------
	// Context.

	// Walk up the context chain from the given {node} until we reduce the {depth}
	// to 0 or hit a node that does not extend the context chain ({depth} will be
	// updated accordingly).
	static Node* GetOuterContext(Node* node, size_t* depth);

	// ---------------------------------------------------------------------------
	// Type.

	static bool IsTyped(Node* node) { return !node->type().IsInvalid(); }
	static Type GetType(Node* node) {
	DCHECK(IsTyped(node));
	return node->type();
	}
	static Type GetTypeOrAny(Node* node);
	static void SetType(Node* node, Type type) {
	DCHECK(!type.IsInvalid());
	node->set_type(type);
	}
	static void RemoveType(Node* node) { node->set_type(Type::Invalid()); }
	static bool AllValueInputsAreTyped(Node* node);

	private:
	static inline bool IsInputRange(Edge edge, int first, int count);
	};

	} // namespace compiler
	} // namespace internal
	} // namespace v8

	#endif // V8_COMPILER_NODE_PROPERTIES_H_