// Copyright 2014 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. #include "src/compiler/js-context-specialization.h" #include "src/compiler/common-operator.h" #include "src/compiler/js-graph.h" #include "src/compiler/js-heap-broker.h" #include "src/compiler/js-operator.h" #include "src/compiler/linkage.h" #include "src/compiler/node-matchers.h" #include "src/compiler/node-properties.h" #include "src/objects/contexts-inl.h" namespace v8 { namespace internal { namespace compiler { Reduction JSContextSpecialization::Reduce(Node* node) { switch (node->opcode()) { case IrOpcode::kParameter: return ReduceParameter(node); case IrOpcode::kJSLoadContext: return ReduceJSLoadContext(node); case IrOpcode::kJSStoreContext: return ReduceJSStoreContext(node); default: break; } return NoChange(); } Reduction JSContextSpecialization::ReduceParameter(Node* node) { DCHECK_EQ(IrOpcode::kParameter, node->opcode()); int const index = ParameterIndexOf(node->op()); if (index == Linkage::kJSCallClosureParamIndex) { // Constant-fold the function parameter {node}. Handle function; if (closure().ToHandle(&function)) { Node* value = jsgraph()->HeapConstant(function); return Replace(value); } } return NoChange(); } Reduction JSContextSpecialization::SimplifyJSLoadContext(Node* node, Node* new_context, size_t new_depth) { DCHECK_EQ(IrOpcode::kJSLoadContext, node->opcode()); const ContextAccess& access = ContextAccessOf(node->op()); DCHECK_LE(new_depth, access.depth()); if (new_depth == access.depth() && new_context == NodeProperties::GetContextInput(node)) { return NoChange(); } const Operator* op = jsgraph_->javascript()->LoadContext( new_depth, access.index(), access.immutable()); NodeProperties::ReplaceContextInput(node, new_context); NodeProperties::ChangeOp(node, op); return Changed(node); } Reduction JSContextSpecialization::SimplifyJSStoreContext(Node* node, Node* new_context, size_t new_depth) { DCHECK_EQ(IrOpcode::kJSStoreContext, node->opcode()); const ContextAccess& access = ContextAccessOf(node->op()); DCHECK_LE(new_depth, access.depth()); if (new_depth == access.depth() && new_context == NodeProperties::GetContextInput(node)) { return NoChange(); } const Operator* op = jsgraph_->javascript()->StoreContext(new_depth, access.index()); NodeProperties::ReplaceContextInput(node, new_context); NodeProperties::ChangeOp(node, op); return Changed(node); } namespace { bool IsContextParameter(Node* node) { DCHECK_EQ(IrOpcode::kParameter, node->opcode()); Node* const start = NodeProperties::GetValueInput(node, 0); DCHECK_EQ(IrOpcode::kStart, start->opcode()); int const index = ParameterIndexOf(node->op()); // The context is always the last parameter to a JavaScript function, and // {Parameter} indices start at -1, so value outputs of {Start} look like // this: closure, receiver, param0, ..., paramN, context. return index == start->op()->ValueOutputCount() - 2; } // Given a context {node} and the {distance} from that context to the target // context (which we want to read from or store to), try to return a // specialization context. If successful, update {distance} to whatever // distance remains from the specialization context. base::Optional GetSpecializationContext( JSHeapBroker* broker, Node* node, size_t* distance, Maybe maybe_outer) { switch (node->opcode()) { case IrOpcode::kHeapConstant: { HeapObjectRef object(broker, HeapConstantOf(node->op())); if (object.IsContext()) return object.AsContext(); break; } case IrOpcode::kParameter: { OuterContext outer; if (maybe_outer.To(&outer) && IsContextParameter(node) && *distance >= outer.distance) { *distance -= outer.distance; return ContextRef(broker, outer.context); } break; } default: break; } return base::Optional(); } } // anonymous namespace Reduction JSContextSpecialization::ReduceJSLoadContext(Node* node) { DCHECK_EQ(IrOpcode::kJSLoadContext, node->opcode()); const ContextAccess& access = ContextAccessOf(node->op()); size_t depth = access.depth(); // First walk up the context chain in the graph as far as possible. Node* context = NodeProperties::GetOuterContext(node, &depth); base::Optional maybe_concrete = GetSpecializationContext(broker(), context, &depth, outer()); if (!maybe_concrete.has_value()) { // We do not have a concrete context object, so we can only partially reduce // the load by folding-in the outer context node. return SimplifyJSLoadContext(node, context, depth); } // Now walk up the concrete context chain for the remaining depth. ContextRef concrete = maybe_concrete.value(); concrete = concrete.previous(&depth); if (depth > 0) { TRACE_BROKER_MISSING(broker(), "previous value for context " << concrete); return SimplifyJSLoadContext(node, jsgraph()->Constant(concrete), depth); } if (!access.immutable()) { // We found the requested context object but since the context slot is // mutable we can only partially reduce the load. return SimplifyJSLoadContext(node, jsgraph()->Constant(concrete), depth); } // This will hold the final value, if we can figure it out. base::Optional maybe_value; maybe_value = concrete.get(static_cast(access.index())); if (maybe_value.has_value() && !maybe_value->IsSmi()) { // Even though the context slot is immutable, the context might have escaped // before the function to which it belongs has initialized the slot. // We must be conservative and check if the value in the slot is currently // the hole or undefined. Only if it is neither of these, can we be sure // that it won't change anymore. OddballType oddball_type = maybe_value->AsHeapObject().map().oddball_type(); if (oddball_type == OddballType::kUndefined || oddball_type == OddballType::kHole) { maybe_value.reset(); } } if (!maybe_value.has_value()) { TRACE_BROKER_MISSING(broker(), "slot value " << access.index() << " for context " << concrete); return SimplifyJSLoadContext(node, jsgraph()->Constant(concrete), depth); } // Success. The context load can be replaced with the constant. // TODO(titzer): record the specialization for sharing code across // multiple contexts that have the same value in the corresponding context // slot. Node* constant = jsgraph_->Constant(*maybe_value); ReplaceWithValue(node, constant); return Replace(constant); } Reduction JSContextSpecialization::ReduceJSStoreContext(Node* node) { DCHECK_EQ(IrOpcode::kJSStoreContext, node->opcode()); const ContextAccess& access = ContextAccessOf(node->op()); size_t depth = access.depth(); // First walk up the context chain in the graph until we reduce the depth to 0 // or hit a node that does not have a CreateXYZContext operator. Node* context = NodeProperties::GetOuterContext(node, &depth); base::Optional maybe_concrete = GetSpecializationContext(broker(), context, &depth, outer()); if (!maybe_concrete.has_value()) { // We do not have a concrete context object, so we can only partially reduce // the load by folding-in the outer context node. return SimplifyJSStoreContext(node, context, depth); } // Now walk up the concrete context chain for the remaining depth. ContextRef concrete = maybe_concrete.value(); concrete = concrete.previous(&depth); if (depth > 0) { TRACE_BROKER_MISSING(broker(), "previous value for context " << concrete); return SimplifyJSStoreContext(node, jsgraph()->Constant(concrete), depth); } return SimplifyJSStoreContext(node, jsgraph()->Constant(concrete), depth); } Isolate* JSContextSpecialization::isolate() const { return jsgraph()->isolate(); } } // namespace compiler } // namespace internal } // namespace v8