Unify MachineType and RepType.

src/compiler/representation-change.h

 // 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.
 
 #ifndef V8_COMPILER_REPRESENTATION_CHANGE_H_
 #define V8_COMPILER_REPRESENTATION_CHANGE_H_
 
 #include "src/compiler/js-graph.h"
 #include "src/compiler/machine-operator.h"
 #include "src/compiler/node-properties-inl.h"
 #include "src/compiler/simplified-operator.h"
 
 namespace v8 {
 namespace internal {
 namespace compiler {
 
-// The types and representations tracked during representation inference
-// and change insertion.
-// TODO(titzer): First, merge MachineType and RepType.
-// TODO(titzer): Second, Use the real type system instead of RepType.
-enum RepType {
-  // Representations.
-  rBit = 1 << 0,
-  rWord32 = 1 << 1,
-  rWord64 = 1 << 2,
-  rFloat64 = 1 << 3,
-  rTagged = 1 << 4,
-
-  // Types.
-  tBool = 1 << 5,
-  tInt32 = 1 << 6,
-  tUint32 = 1 << 7,
-  tInt64 = 1 << 8,
-  tUint64 = 1 << 9,
-  tNumber = 1 << 10,
-  tAny = 1 << 11
-};
-
-#define REP_TYPE_STRLEN 24
-
-typedef uint16_t RepTypeUnion;
-
-
-inline void RenderRepTypeUnion(char* buf, RepTypeUnion info) {
-  base::OS::SNPrintF(buf, REP_TYPE_STRLEN, "{%s%s%s%s%s %s%s%s%s%s%s%s}",
-                     (info & rBit) ? "k" : " ", (info & rWord32) ? "w" : " ",
-                     (info & rWord64) ? "q" : " ",
-                     (info & rFloat64) ? "f" : " ",
-                     (info & rTagged) ? "t" : " ", (info & tBool) ? "Z" : " ",
-                     (info & tInt32) ? "I" : " ", (info & tUint32) ? "U" : " ",
-                     (info & tInt64) ? "L" : " ", (info & tUint64) ? "J" : " ",
-                     (info & tNumber) ? "N" : " ", (info & tAny) ? "*" : " ");
-}
-
-
-const RepTypeUnion rMask = rBit | rWord32 | rWord64 | rFloat64 | rTagged;
-const RepTypeUnion tMask =
-    tBool | tInt32 | tUint32 | tInt64 | tUint64 | tNumber | tAny;
-const RepType rPtr = kPointerSize == 4 ? rWord32 : rWord64;
-
 // Contains logic related to changing the representation of values for constants
 // and other nodes, as well as lowering Simplified->Machine operators.
 // Eagerly folds any representation changes for constants.
 class RepresentationChanger {
  public:
   RepresentationChanger(JSGraph* jsgraph, SimplifiedOperatorBuilder* simplified,
                         MachineOperatorBuilder* machine, Isolate* isolate)
       : jsgraph_(jsgraph),
         simplified_(simplified),
         machine_(machine),
         isolate_(isolate),
         testing_type_errors_(false),
         type_error_(false) {}
 
+  // TODO(titzer): should Word64 also be implicitly convertable to others?
+  static const MachineTypeUnion rWord =
+      kRepBit | kRepWord8 | kRepWord16 | kRepWord32;
 
-  Node* GetRepresentationFor(Node* node, RepTypeUnion output_type,
-                             RepTypeUnion use_type) {
-    if (!IsPowerOf2(output_type & rMask)) {
+  Node* GetRepresentationFor(Node* node, MachineTypeUnion output_type,
+                             MachineTypeUnion use_type) {
+    if (!IsPowerOf2(output_type & kRepMask)) {
       // There should be only one output representation.
       return TypeError(node, output_type, use_type);
     }
-    if ((use_type & rMask) == (output_type & rMask)) {
+    if ((use_type & kRepMask) == (output_type & kRepMask)) {
       // Representations are the same. That's a no-op.
       return node;
     }
-    if (use_type & rTagged) {
+    if ((use_type & rWord) && (output_type & rWord)) {
+      // Both are words less than or equal to 32-bits.
+      // Since loads of integers from memory implicitly sign or zero extend the
+      // value to the full machine word size and stores implicitly truncate,
+      // no representation change is necessary.
+      return node;
+    }
+    if (use_type & kRepTagged) {
       return GetTaggedRepresentationFor(node, output_type);
-    } else if (use_type & rFloat64) {
+    } else if (use_type & kRepFloat64) {
       return GetFloat64RepresentationFor(node, output_type);
-    } else if (use_type & rWord32) {
-      return GetWord32RepresentationFor(node, output_type, use_type & tUint32);
-    } else if (use_type & rBit) {
+    } else if (use_type & kRepBit) {
       return GetBitRepresentationFor(node, output_type);
-    } else if (use_type & rWord64) {
+    } else if (use_type & rWord) {
+      return GetWord32RepresentationFor(node, output_type,
+                                        use_type & kTypeUint32);
+    } else if (use_type & kRepWord64) {
       return GetWord64RepresentationFor(node, output_type);
     } else {
       return node;
     }
   }
 
-  Node* GetTaggedRepresentationFor(Node* node, RepTypeUnion output_type) {
+  Node* GetTaggedRepresentationFor(Node* node, MachineTypeUnion output_type) {
     // Eagerly fold representation changes for constants.
     switch (node->opcode()) {
       case IrOpcode::kNumberConstant:
       case IrOpcode::kHeapConstant:
         return node;  // No change necessary.
       case IrOpcode::kInt32Constant:
-        if (output_type & tUint32) {
+        if (output_type & kTypeUint32) {
           uint32_t value = ValueOf<uint32_t>(node->op());
           return jsgraph()->Constant(static_cast<double>(value));
-        } else if (output_type & tInt32) {
+        } else if (output_type & kTypeInt32) {
           int32_t value = ValueOf<int32_t>(node->op());
           return jsgraph()->Constant(value);
-        } else if (output_type & rBit) {
+        } else if (output_type & kRepBit) {
           return ValueOf<int32_t>(node->op()) == 0 ? jsgraph()->FalseConstant()
                                                    : jsgraph()->TrueConstant();
         } else {
-          return TypeError(node, output_type, rTagged);
+          return TypeError(node, output_type, kRepTagged);
         }
       case IrOpcode::kFloat64Constant:
         return jsgraph()->Constant(ValueOf<double>(node->op()));
       default:
         break;
     }
     // Select the correct X -> Tagged operator.
     Operator* op;
-    if (output_type & rBit) {
+    if (output_type & kRepBit) {
       op = simplified()->ChangeBitToBool();
-    } else if (output_type & rWord32) {
-      if (output_type & tUint32) {
+    } else if (output_type & rWord) {
+      if (output_type & kTypeUint32) {
         op = simplified()->ChangeUint32ToTagged();
-      } else if (output_type & tInt32) {
+      } else if (output_type & kTypeInt32) {
         op = simplified()->ChangeInt32ToTagged();
       } else {
-        return TypeError(node, output_type, rTagged);
+        return TypeError(node, output_type, kRepTagged);
       }
-    } else if (output_type & rFloat64) {
+    } else if (output_type & kRepFloat64) {
       op = simplified()->ChangeFloat64ToTagged();
     } else {
-      return TypeError(node, output_type, rTagged);
+      return TypeError(node, output_type, kRepTagged);
     }
     return jsgraph()->graph()->NewNode(op, node);
   }
 
-  Node* GetFloat64RepresentationFor(Node* node, RepTypeUnion output_type) {
+  Node* GetFloat64RepresentationFor(Node* node, MachineTypeUnion output_type) {
     // Eagerly fold representation changes for constants.
     switch (node->opcode()) {
       case IrOpcode::kNumberConstant:
         return jsgraph()->Float64Constant(ValueOf<double>(node->op()));
       case IrOpcode::kInt32Constant:
-        if (output_type & tUint32) {
+        if (output_type & kTypeUint32) {
           uint32_t value = ValueOf<uint32_t>(node->op());
           return jsgraph()->Float64Constant(static_cast<double>(value));
         } else {
           int32_t value = ValueOf<int32_t>(node->op());
           return jsgraph()->Float64Constant(value);
         }
       case IrOpcode::kFloat64Constant:
         return node;  // No change necessary.
       default:
         break;
     }
     // Select the correct X -> Float64 operator.
     Operator* op;
-    if (output_type & rWord32) {
-      if (output_type & tUint32) {
+    if (output_type & kRepBit) {
+      return TypeError(node, output_type, kRepFloat64);
+    } else if (output_type & rWord) {
+      if (output_type & kTypeUint32) {
         op = machine()->ChangeUint32ToFloat64();
       } else {
         op = machine()->ChangeInt32ToFloat64();
       }
-    } else if (output_type & rTagged) {
+    } else if (output_type & kRepTagged) {
       op = simplified()->ChangeTaggedToFloat64();
     } else {
-      return TypeError(node, output_type, rFloat64);
+      return TypeError(node, output_type, kRepFloat64);
     }
     return jsgraph()->graph()->NewNode(op, node);
   }
 
-  Node* GetWord32RepresentationFor(Node* node, RepTypeUnion output_type,
+  Node* GetWord32RepresentationFor(Node* node, MachineTypeUnion output_type,
                                    bool use_unsigned) {
     // Eagerly fold representation changes for constants.
     switch (node->opcode()) {
       case IrOpcode::kInt32Constant:
         return node;  // No change necessary.
       case IrOpcode::kNumberConstant:
       case IrOpcode::kFloat64Constant: {
         double value = ValueOf<double>(node->op());
         if (value < 0) {
           DCHECK(IsInt32Double(value));
           int32_t iv = static_cast<int32_t>(value);
           return jsgraph()->Int32Constant(iv);
         } else {
           DCHECK(IsUint32Double(value));
           int32_t iv = static_cast<int32_t>(static_cast<uint32_t>(value));
           return jsgraph()->Int32Constant(iv);
         }
       }
       default:
         break;
     }
     // Select the correct X -> Word32 operator.
     Operator* op = NULL;
-    if (output_type & rFloat64) {
-      if (output_type & tUint32 || use_unsigned) {
+    if (output_type & kRepFloat64) {
+      if (output_type & kTypeUint32 || use_unsigned) {
         op = machine()->ChangeFloat64ToUint32();
       } else {
         op = machine()->ChangeFloat64ToInt32();
       }
-    } else if (output_type & rTagged) {
-      if (output_type & tUint32 || use_unsigned) {
+    } else if (output_type & kRepTagged) {
+      if (output_type & kTypeUint32 || use_unsigned) {
         op = simplified()->ChangeTaggedToUint32();
       } else {
         op = simplified()->ChangeTaggedToInt32();
       }
-    } else if (output_type & rBit) {
-      return node;  // Sloppy comparison -> word32.
     } else {
-      return TypeError(node, output_type, rWord32);
+      return TypeError(node, output_type, kRepWord32);
     }
     return jsgraph()->graph()->NewNode(op, node);
   }
 
-  Node* GetBitRepresentationFor(Node* node, RepTypeUnion output_type) {
+  Node* GetBitRepresentationFor(Node* node, MachineTypeUnion output_type) {
     // Eagerly fold representation changes for constants.
     switch (node->opcode()) {
       case IrOpcode::kInt32Constant: {
         int32_t value = ValueOf<int32_t>(node->op());
         if (value == 0 || value == 1) return node;
         return jsgraph()->OneConstant();  // value != 0
       }
       case IrOpcode::kHeapConstant: {
         Handle<Object> handle = ValueOf<Handle<Object> >(node->op());
         DCHECK(*handle == isolate()->heap()->true_value() ||
                *handle == isolate()->heap()->false_value());
         return jsgraph()->Int32Constant(
             *handle == isolate()->heap()->true_value() ? 1 : 0);
       }
       default:
         break;
     }
     // Select the correct X -> Bit operator.
     Operator* op;
-    if (output_type & rWord32) {
+    if (output_type & rWord) {
       return node;  // No change necessary.
-    } else if (output_type & rWord64) {
+    } else if (output_type & kRepWord64) {
       return node;  // TODO(titzer): No change necessary, on 64-bit.
-    } else if (output_type & rTagged) {
+    } else if (output_type & kRepTagged) {
       op = simplified()->ChangeBoolToBit();
     } else {
-      return TypeError(node, output_type, rBit);
+      return TypeError(node, output_type, kRepBit);
     }
     return jsgraph()->graph()->NewNode(op, node);
   }
 
-  Node* GetWord64RepresentationFor(Node* node, RepTypeUnion output_type) {
-    if (output_type & rBit) {
+  Node* GetWord64RepresentationFor(Node* node, MachineTypeUnion output_type) {
+    if (output_type & kRepBit) {
       return node;  // Sloppy comparison -> word64
     }
     // Can't really convert Word64 to anything else. Purported to be internal.
-    return TypeError(node, output_type, rWord64);
-  }
-
-  static RepType TypeForMachineType(MachineType rep) {
-    // TODO(titzer): merge MachineType and RepType.
-    switch (rep) {
-      case kMachineWord8:
-        return rWord32;
-      case kMachineWord16:
-        return rWord32;
-      case kMachineWord32:
-        return rWord32;
-      case kMachineWord64:
-        return rWord64;
-      case kMachineFloat64:
-        return rFloat64;
-      case kMachineTagged:
-        return rTagged;
-      default:
-        UNREACHABLE();
-        return static_cast<RepType>(0);
-    }
+    return TypeError(node, output_type, kRepWord64);
   }
 
   Operator* Int32OperatorFor(IrOpcode::Value opcode) {
     switch (opcode) {
       case IrOpcode::kNumberAdd:
         return machine()->Int32Add();
       case IrOpcode::kNumberSubtract:
         return machine()->Int32Sub();
       case IrOpcode::kNumberEqual:
         return machine()->Word32Equal();
@@ skipping 42 matching lines @@
       case IrOpcode::kNumberLessThan:
         return machine()->Float64LessThan();
       case IrOpcode::kNumberLessThanOrEqual:
         return machine()->Float64LessThanOrEqual();
       default:
         UNREACHABLE();
         return NULL;
     }
   }
 
-  RepType TypeForField(const FieldAccess& access) {
-    RepType tElement = static_cast<RepType>(0);  // TODO(titzer)
-    RepType rElement = TypeForMachineType(access.representation);
-    return static_cast<RepType>(tElement | rElement);
+  MachineType TypeForBasePointer(const FieldAccess& access) {
+    return access.tag() != 0 ? kMachAnyTagged : kMachPtr;
   }
 
-  RepType TypeForElement(const ElementAccess& access) {
-    RepType tElement = static_cast<RepType>(0);  // TODO(titzer)
-    RepType rElement = TypeForMachineType(access.representation);
-    return static_cast<RepType>(tElement | rElement);
+  MachineType TypeForBasePointer(const ElementAccess& access) {
+    return access.tag() != 0 ? kMachAnyTagged : kMachPtr;
   }
 
-  RepType TypeForBasePointer(const FieldAccess& access) {
-    if (access.tag() != 0) return static_cast<RepType>(tAny | rTagged);
-    return kPointerSize == 8 ? rWord64 : rWord32;
-  }
-
-  RepType TypeForBasePointer(const ElementAccess& access) {
-    if (access.tag() != 0) return static_cast<RepType>(tAny | rTagged);
-    return kPointerSize == 8 ? rWord64 : rWord32;
-  }
-
-  RepType TypeFromUpperBound(Type* type) {
+  MachineType TypeFromUpperBound(Type* type) {
     if (type->Is(Type::None()))
-      return tAny;  // TODO(titzer): should be an error
-    if (type->Is(Type::Signed32())) return tInt32;
-    if (type->Is(Type::Unsigned32())) return tUint32;
-    if (type->Is(Type::Number())) return tNumber;
-    if (type->Is(Type::Boolean())) return tBool;
-    return tAny;
+      return kTypeAny;  // TODO(titzer): should be an error
+    if (type->Is(Type::Signed32())) return kTypeInt32;
+    if (type->Is(Type::Unsigned32())) return kTypeUint32;
+    if (type->Is(Type::Number())) return kTypeNumber;
+    if (type->Is(Type::Boolean())) return kTypeBool;
+    return kTypeAny;
   }
 
  private:
   JSGraph* jsgraph_;
   SimplifiedOperatorBuilder* simplified_;
   MachineOperatorBuilder* machine_;
   Isolate* isolate_;
 
   friend class RepresentationChangerTester;  // accesses the below fields.
 
   bool testing_type_errors_;  // If {true}, don't abort on a type error.
   bool type_error_;           // Set when a type error is detected.
 
-  Node* TypeError(Node* node, RepTypeUnion output_type, RepTypeUnion use) {
+  Node* TypeError(Node* node, MachineTypeUnion output_type,
+                  MachineTypeUnion use) {
     type_error_ = true;
     if (!testing_type_errors_) {
-      char buf1[REP_TYPE_STRLEN];
-      char buf2[REP_TYPE_STRLEN];
-      RenderRepTypeUnion(buf1, output_type);
-      RenderRepTypeUnion(buf2, use);
+      OStringStream out_str;
+      PrintMachineTypeUnionTo(out_str, output_type);
+
+      OStringStream use_str;
+      PrintMachineTypeUnionTo(use_str, use);
+
       V8_Fatal(__FILE__, __LINE__,
-               "RepresentationChangerError: node #%d:%s of rep"
-               "%s cannot be changed to rep%s",
-               node->id(), node->op()->mnemonic(), buf1, buf2);
+               "RepresentationChangerError: node #%d:%s of "
+               "%s cannot be changed to %s",
+               node->id(), node->op()->mnemonic(), out_str.c_str(),
+               use_str.c_str());
     }
     return node;
   }
 
   JSGraph* jsgraph() { return jsgraph_; }
   Isolate* isolate() { return isolate_; }
   SimplifiedOperatorBuilder* simplified() { return simplified_; }
   MachineOperatorBuilder* machine() { return machine_; }
 };
 }
 }
 }  // namespace v8::internal::compiler
 
 #endif  // V8_COMPILER_REPRESENTATION_CHANGE_H_