Add Uint32 representation

runtime/vm/intermediate_language.cc

Index: runtime/vm/intermediate_language.cc
diff --git a/runtime/vm/intermediate_language.cc b/runtime/vm/intermediate_language.cc
index 552fcfa9f167822ce524e1d213e8e5af5754879b..6c5f47e57641aae6a1d1b84a3b71d3666eff8121 100644
--- a/runtime/vm/intermediate_language.cc
+++ b/runtime/vm/intermediate_language.cc
@@ -337,6 +337,41 @@ UnboxedConstantInstr::UnboxedConstantInstr(const Object& value)
       FlowGraphBuilder::FindDoubleConstant(Double::Cast(value).value());
 }
 
+
+bool Value::BindsTo32BitMaskConstant() const {
+  if (!definition()->IsUnboxInteger() || !definition()->IsUnboxUint32()) {
+    return false;
+  }
+  // Two cases to consider: UnboxInteger and UnboxUint32.
+  if (definition()->IsUnboxInteger()) {
+    UnboxIntegerInstr* instr = definition()->AsUnboxInteger();
+    if (!instr->value()->BindsToConstant()) {
+      return false;
+    }
+    const Object& obj = instr->value()->BoundConstant();
+    if (!obj.IsMint()) {
+      return false;
+    }
+    Mint& mint = Mint::Handle();
+    mint ^= obj.raw();
+    return mint.value() == kMaxUint32;
+  } else if (definition()->IsUnboxUint32()) {
+    UnboxUint32Instr* instr = definition()->AsUnboxUint32();
+    if (!instr->value()->BindsToConstant()) {
+      return false;
+    }
+    const Object& obj = instr->value()->BoundConstant();
+    if (!obj.IsMint()) {
+      return false;
+    }
+    Mint& mint = Mint::Handle();
+    mint ^= obj.raw();
+    return mint.value() == kMaxUint32;
+  }
+  return false;
+}
+
+
 // Returns true if the value represents a constant.
 bool Value::BindsToConstant() const {
   return definition()->IsConstant();
@@ -1266,7 +1301,7 @@ bool BinarySmiOpInstr::RightIsPowerOfTwoConstant() const {
 }
 
 
-static bool ToIntegerConstant(Value* value, intptr_t* result) {
+static bool ToIntegerConstant(Value* value, int64_t* result) {
   if (!value->BindsToConstant()) {
     if (value->definition()->IsUnboxDouble()) {
       return ToIntegerConstant(value->definition()->AsUnboxDouble()->value(),
@@ -1278,28 +1313,36 @@ static bool ToIntegerConstant(Value* value, intptr_t* result) {
   const Object& constant = value->BoundConstant();
   if (constant.IsDouble()) {
     const Double& double_constant = Double::Cast(constant);
-    *result = static_cast<intptr_t>(double_constant.value());
+    *result = static_cast<int64_t>(double_constant.value());
     return (static_cast<double>(*result) == double_constant.value());
   } else if (constant.IsSmi()) {
     *result = Smi::Cast(constant).Value();
     return true;
+  } else if (constant.IsMint()) {
+    *result = Mint::Cast(constant).value();
+    return true;
   }
 
   return false;
 }
 
 
-static Definition* CanonicalizeCommutativeArithmetic(Token::Kind op,
-                                                     intptr_t cid,
-                                                     Value* left,
-                                                     Value* right) {
+static Definition* CanonicalizeCommutativeArithmetic(
+    Token::Kind op,
+    intptr_t cid,
+    Value* left,
+    Value* right,
+    int64_t mask = static_cast<int64_t>(0xFFFFFFFFFFFFFFFF)) {
   ASSERT((cid == kSmiCid) || (cid == kDoubleCid) || (cid == kMintCid));
 
-  intptr_t left_value;
+  int64_t left_value;
   if (!ToIntegerConstant(left, &left_value)) {
     return NULL;
   }
 
+  // Apply truncation mask to left_value.
+  left_value &= mask;
+
   switch (op) {
     case Token::kMUL:
       if (left_value == 1) {
@@ -1464,6 +1507,51 @@ Definition* BinaryMintOpInstr::Canonicalize(FlowGraph* flow_graph) {
 }
 
 
+static bool IsUint32Mask(BinaryUint32OpInstr* defn) {
+  ASSERT(defn != NULL);
+  if (defn->op_kind() != Token::kBIT_AND) {
+    // Not a mask.
+    return false;
+  }
+  Value* left = defn->left();
+  Value* right = defn->right();
+  return left->BindsTo32BitMaskConstant() != right->BindsTo32BitMaskConstant();
+}
+
+
+Definition* BinaryUint32OpInstr::Canonicalize(FlowGraph* flow_graph) {
+  // If this is (value & 0xFFFFFFFF) the mask operation can be dropped because
+  // all Uint32 operations are implicitly masked with 0xFFFFFFFF.
+  if (IsUint32Mask(this)) {
+    return NULL;
+  }
+
+  Definition* result = NULL;
+
+  const int64_t truncation_mask = static_cast<int64_t>(0xFFFFFFFF);
+
+  result = CanonicalizeCommutativeArithmetic(op_kind(),
+                                             kMintCid,
+                                             left(),
+                                             right(),
+                                             truncation_mask);
+  if (result != NULL) {
+    return result;
+  }
+
+  result = CanonicalizeCommutativeArithmetic(op_kind(),
+                                             kMintCid,
+                                             right(),
+                                             left(),
+                                             truncation_mask);
+  if (result != NULL) {
+    return result;
+  }
+
+  return this;
+}
+
+
 // Optimizations that eliminate or simplify individual instructions.
 Instruction* Instruction::Canonicalize(FlowGraph* flow_graph) {
   return this;