[turbofan][dataview] Add DataView Int16/Uint16 getters in TurboFan

This CL adds a Reduction for the DataViewGetInt16 and -Uint16 builtins, and the corresponding handling in LoadDataViewElement node in the effect control linearizer. It also adds tests for the new getters. Change-Id: I5101755e47657c25f10be1417f105e3ae72a3c39 Reviewed-on: https://chromium-review.googlesource.com/1126919 Commit-Queue: Théotime Grohens <theotime@google.com> Reviewed-by: Michael Starzinger <mstarzinger@chromium.org> Cr-Commit-Position: refs/heads/master@{#54271}

[turbofan][dataview] Add DataView Int16/Uint16 getters in TurboFan
This CL adds a Reduction for the DataViewGetInt16 and -Uint16 builtins, and the corresponding handling in LoadDataViewElement node in the effect control linearizer. It also adds tests for the new getters. Change-Id: I5101755e47657c25f10be1417f105e3ae72a3c39 Reviewed-on: https://chromium-review.googlesource.com/1126919 Commit-Queue: Théotime Grohens <theotime@google.com> Reviewed-by: Michael Starzinger <mstarzinger@chromium.org> Cr-Commit-Position: refs/heads/master@{#54271}
e814ee38 · Théotime Grohens · Commit Bot · 664bcd49 · e814ee38 · e814ee38
Commit e814ee38 authored Jul 05, 2018 by Théotime Grohens Committed by Commit Bot Jul 05, 2018
5 changed files
--- a/src/compiler/effect-control-linearizer.cc
+++ b/src/compiler/effect-control-linearizer.cc
@@ -3750,15 +3750,66 @@ Node* EffectControlLinearizer::LowerLoadDataViewElement(Node* node) {
  Node* buffer = node->InputAt(0);
  Node* storage = node->InputAt(1);
  Node* index = node->InputAt(2);
+  Node* is_little_endian = node->InputAt(3);

  // We need to keep the {buffer} alive so that the GC will not release the
  // ArrayBuffer (if there's any) as long as we are still operating on it.
  __ Retain(buffer);

-  // Perform the actual data view element access.
-  return __ LoadElement(AccessBuilder::ForTypedArrayElement(
-                            element_type, true, LoadSensitivity::kCritical),
-                        storage, index);
+  ElementAccess access_int8 = AccessBuilder::ForTypedArrayElement(
+      kExternalInt8Array, true, LoadSensitivity::kCritical);
+  ElementAccess access_uint8 = AccessBuilder::ForTypedArrayElement(
+      kExternalUint8Array, true, LoadSensitivity::kCritical);
+
+  switch (element_type) {
+    case kExternalUint8Array:
+      return __ LoadElement(access_uint8, storage, index);
+
+    case kExternalInt8Array:
+      return __ LoadElement(access_int8, storage, index);
+
+    case kExternalUint16Array:  // Fall through.
+    case kExternalInt16Array: {
+      auto big_endian = __ MakeLabel();
+      auto done = __ MakeLabel(MachineRepresentation::kWord32);
+
+      // If we're doing an Int16 load, sign-extend the most significant byte
+      // by loading it as an Int8 instead of Uint8.
+      ElementAccess access_msb =
+          element_type == kExternalInt16Array ? access_int8 : access_uint8;
+
+      __ GotoIfNot(is_little_endian, &big_endian);
+      {
+        // Little-endian load.
+        Node* b0 = __ LoadElement(access_uint8, storage, index);
+        Node* b1 = __ LoadElement(access_msb, storage,
+                                  __ Int32Add(index, __ Int32Constant(1)));
+
+        // result = (b1 << 8) + b0
+        Node* result = __ Int32Add(__ Word32Shl(b1, __ Int32Constant(8)), b0);
+        __ Goto(&done, result);
+      }
+
+      __ Bind(&big_endian);
+      {
+        // Big-endian load.
+        Node* b0 = __ LoadElement(access_msb, storage, index);
+        Node* b1 = __ LoadElement(access_uint8, storage,
+                                  __ Int32Add(index, __ Int32Constant(1)));
+
+        // result = (b0 << 8) + b1;
+        Node* result = __ Int32Add(__ Word32Shl(b0, __ Int32Constant(8)), b1);
+        __ Goto(&done, result);
+      }
+
+      // We're done, return {result}.
+      __ Bind(&done);
+      return done.PhiAt(0);
+    }
+
+    default:
+      UNREACHABLE();
+  }
 }

 Node* EffectControlLinearizer::LowerLoadTypedElement(Node* node) {

--- a/src/compiler/js-call-reducer.cc
+++ b/src/compiler/js-call-reducer.cc
@@ -3434,6 +3434,12 @@ Reduction JSCallReducer::ReduceJSCall(Node* node,
    case Builtins::kDataViewPrototypeGetInt8:
      return ReduceDataViewPrototypeGet(node,
                                        ExternalArrayType::kExternalInt8Array);
+    case Builtins::kDataViewPrototypeGetUint16:
+      return ReduceDataViewPrototypeGet(
+          node, ExternalArrayType::kExternalUint16Array);
+    case Builtins::kDataViewPrototypeGetInt16:
+      return ReduceDataViewPrototypeGet(node,
+                                        ExternalArrayType::kExternalInt16Array);
    case Builtins::kTypedArrayPrototypeByteLength:
      return ReduceArrayBufferViewAccessor(
          node, JS_TYPED_ARRAY_TYPE,
@@ -6692,9 +6698,10 @@ Reduction JSCallReducer::ReduceDataViewPrototypeGet(
          graph()->NewNode(simplified()->NumberAdd(), offset, byte_offset);

      // Perform the load.
-      vfalse_range = efalse_range = graph()->NewNode(
-          simplified()->LoadDataViewElement(element_type), buffer,
-          backing_store, buffer_index, efalse_range, if_false_range);
+      vfalse_range = efalse_range =
+          graph()->NewNode(simplified()->LoadDataViewElement(element_type),
+                           buffer, backing_store, buffer_index,
+                           is_little_endian, efalse_range, if_false_range);
    }

    // Rewire potential exception edges.

--- a/src/compiler/simplified-lowering.cc
+++ b/src/compiler/simplified-lowering.cc
@@ -2636,7 +2636,8 @@ class RepresentationSelector {
        ProcessInput(node, 0, UseInfo::AnyTagged());         // buffer
        ProcessInput(node, 1, UseInfo::PointerInt());        // external pointer
        ProcessInput(node, 2, UseInfo::TruncatingWord32());  // index
-        ProcessRemainingInputs(node, 3);
+        ProcessInput(node, 3, UseInfo::Bool());              // little endian
+        ProcessRemainingInputs(node, 4);
        SetOutput(node, rep);
        return;
      }

--- a/src/compiler/simplified-operator.cc
+++ b/src/compiler/simplified-operator.cc
@@ -1531,7 +1531,7 @@ SPECULATIVE_NUMBER_BINOP_LIST(SPECULATIVE_NUMBER_BINOP)
  V(StoreElement, ElementAccess, Operator::kNoRead, 3, 1, 0)          \
  V(LoadTypedElement, ExternalArrayType, Operator::kNoWrite, 4, 1, 1) \
  V(StoreTypedElement, ExternalArrayType, Operator::kNoRead, 5, 1, 0) \
-  V(LoadDataViewElement, ExternalArrayType, Operator::kNoWrite, 3, 1, 1)
+  V(LoadDataViewElement, ExternalArrayType, Operator::kNoWrite, 4, 1, 1)

 #define ACCESS(Name, Type, properties, value_input_count, control_input_count, \
               output_count)                                                   \

--- a/test/mjsunit/compiler/dataview-get.js
+++ b/test/mjsunit/compiler/dataview-get.js
@@ -9,6 +9,10 @@ var dataview = new DataView(buffer, 8, 24);

 var values = [-1, 2, -3, 42];

+function readUint8(offset) {
+  return dataview.getUint8(offset);
+}
+
 function readInt8Handled(offset) {
  try {
    return dataview.getInt8(offset);
@@ -17,8 +21,16 @@ function readInt8Handled(offset) {
  }
 }

-function readUint8(offset) {
-  return dataview.getUint8(offset);
+function readUint16(offset, little_endian) {
+  return dataview.getUint16(offset, little_endian);
+}
+
+function readInt16Handled(offset, little_endian) {
+  try {
+    return dataview.getInt16(offset, little_endian);
+  } catch (e) {
+    return e;
+  }
 }

 function warmup(f) {
@@ -49,10 +61,28 @@ assertEquals(0xad, readUint8(5));
 assertEquals(0xbe, readUint8(6));
 assertEquals(0xef, readUint8(7));

+// TurboFan valid getUint16.
+dataview.setUint16(8, 0xabcd);
+warmup(readUint16);
+assertOptimized(readUint16);
+assertEquals(0xabcd, readUint16(8));
+assertEquals(0xcdab, readUint16(8, true));
+
+// TurboFan valid getInt16.
+dataview.setInt16(10, -0x1234);
+warmup(readInt16Handled);
+assertEquals(-0x1234, readInt16Handled(10));
+dataview.setInt16(10, -0x1234, true);
+assertEquals(-0x1234, readInt16Handled(10, true));
+
 // TurboFan out of bounds read, throw with exception handler.
 assertOptimized(readInt8Handled);
-assertInstanceof(readInt8Handled(64), RangeError);
+assertInstanceof(readInt8Handled(24), RangeError);
 assertOptimized(readInt8Handled);
+assertOptimized(readInt16Handled);
+assertInstanceof(readInt16Handled(23), RangeError);
+assertOptimized(readInt16Handled);
+
 // Without exception handler.
 assertOptimized(readUint8);
 assertThrows(() => readUint8(64));