compiler/optimizing/side_effects_test.cc - platform/art - Gitiles

 /*
  * Copyright (C) 2015 The Android Open Source Project
  *
  * Licensed under the Apache License, Version 2.0 (the "License");
  * you may not read this file except in compliance with the License.
  * You may obtain a copy of the License at
  *
  *      http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  */

 #include "gtest/gtest.h"
 #include "nodes.h"
 #include "primitive.h"

 namespace art {

 /**
  * Tests for the SideEffects class.
  */

 //
 // Helper methods.
 //

 void testWriteAndReadSanity(SideEffects write, SideEffects read) {
   EXPECT_FALSE(write.DoesNothing());
   EXPECT_FALSE(read.DoesNothing());

   EXPECT_TRUE(write.DoesAnyWrite());
   EXPECT_FALSE(write.DoesAnyRead());
   EXPECT_FALSE(read.DoesAnyWrite());
   EXPECT_TRUE(read.DoesAnyRead());

   // All-dependences.
   SideEffects all = SideEffects::All();
   EXPECT_TRUE(all.MayDependOn(write));
   EXPECT_FALSE(write.MayDependOn(all));
   EXPECT_FALSE(all.MayDependOn(read));
   EXPECT_TRUE(read.MayDependOn(all));

   // None-dependences.
   SideEffects none = SideEffects::None();
   EXPECT_FALSE(none.MayDependOn(write));
   EXPECT_FALSE(write.MayDependOn(none));
   EXPECT_FALSE(none.MayDependOn(read));
   EXPECT_FALSE(read.MayDependOn(none));
 }

 void testWriteAndReadDependence(SideEffects write, SideEffects read) {
   testWriteAndReadSanity(write, read);

   // Dependence only in one direction.
   EXPECT_FALSE(write.MayDependOn(read));
   EXPECT_TRUE(read.MayDependOn(write));
 }

 void testNoWriteAndReadDependence(SideEffects write, SideEffects read) {
   testWriteAndReadSanity(write, read);

   // No dependence in any direction.
   EXPECT_FALSE(write.MayDependOn(read));
   EXPECT_FALSE(read.MayDependOn(write));
 }

 //
 // Actual tests.
 //

 TEST(SideEffectsTest, All) {
   SideEffects all = SideEffects::All();
   EXPECT_TRUE(all.DoesAnyWrite());
   EXPECT_TRUE(all.DoesAnyRead());
   EXPECT_FALSE(all.DoesNothing());
   EXPECT_TRUE(all.DoesAllReadWrite());
 }

 TEST(SideEffectsTest, None) {
   SideEffects none = SideEffects::None();
   EXPECT_FALSE(none.DoesAnyWrite());
   EXPECT_FALSE(none.DoesAnyRead());
   EXPECT_TRUE(none.DoesNothing());
   EXPECT_FALSE(none.DoesAllReadWrite());
 }

 TEST(SideEffectsTest, DependencesAndNoDependences) {
   // Apply test to each individual primitive type.
   for (Primitive::Type type = Primitive::kPrimNot;
       type < Primitive::kPrimVoid;
       type = Primitive::Type(type + 1)) {
     // Same primitive type and access type: proper write/read dep.
     testWriteAndReadDependence(
         SideEffects::FieldWriteOfType(type, false),
         SideEffects::FieldReadOfType(type, false));
     testWriteAndReadDependence(
         SideEffects::ArrayWriteOfType(type),
         SideEffects::ArrayReadOfType(type));
     // Same primitive type but different access type: no write/read dep.
     testNoWriteAndReadDependence(
         SideEffects::FieldWriteOfType(type, false),
         SideEffects::ArrayReadOfType(type));
     testNoWriteAndReadDependence(
         SideEffects::ArrayWriteOfType(type),
         SideEffects::FieldReadOfType(type, false));
   }
 }

 TEST(SideEffectsTest, NoDependences) {
   // Different primitive type, same access type: no write/read dep.
   testNoWriteAndReadDependence(
       SideEffects::FieldWriteOfType(Primitive::kPrimInt, false),
       SideEffects::FieldReadOfType(Primitive::kPrimDouble, false));
   testNoWriteAndReadDependence(
       SideEffects::ArrayWriteOfType(Primitive::kPrimInt),
       SideEffects::ArrayReadOfType(Primitive::kPrimDouble));
   // Everything different: no write/read dep.
   testNoWriteAndReadDependence(
       SideEffects::FieldWriteOfType(Primitive::kPrimInt, false),
       SideEffects::ArrayReadOfType(Primitive::kPrimDouble));
   testNoWriteAndReadDependence(
       SideEffects::ArrayWriteOfType(Primitive::kPrimInt),
       SideEffects::FieldReadOfType(Primitive::kPrimDouble, false));
 }

 TEST(SideEffectsTest, VolatileDependences) {
   SideEffects volatile_write =
       SideEffects::FieldWriteOfType(Primitive::kPrimInt, true);
   SideEffects any_write =
       SideEffects::FieldWriteOfType(Primitive::kPrimInt, false);
   SideEffects volatile_read =
       SideEffects::FieldReadOfType(Primitive::kPrimByte, true);
   SideEffects any_read =
       SideEffects::FieldReadOfType(Primitive::kPrimByte, false);

   EXPECT_FALSE(volatile_write.MayDependOn(any_read));
   EXPECT_TRUE(any_read.MayDependOn(volatile_write));
   EXPECT_TRUE(volatile_write.MayDependOn(any_write));
   EXPECT_FALSE(any_write.MayDependOn(volatile_write));

   EXPECT_FALSE(volatile_read.MayDependOn(any_read));
   EXPECT_TRUE(any_read.MayDependOn(volatile_read));
   EXPECT_TRUE(volatile_read.MayDependOn(any_write));
   EXPECT_FALSE(any_write.MayDependOn(volatile_read));
 }

 TEST(SideEffectsTest, SameWidthTypes) {
   // Type I/F.
   testWriteAndReadDependence(
       SideEffects::FieldWriteOfType(Primitive::kPrimInt, false),
       SideEffects::FieldReadOfType(Primitive::kPrimFloat, false));
   testWriteAndReadDependence(
       SideEffects::ArrayWriteOfType(Primitive::kPrimInt),
       SideEffects::ArrayReadOfType(Primitive::kPrimFloat));
   // Type L/D.
   testWriteAndReadDependence(
       SideEffects::FieldWriteOfType(Primitive::kPrimLong, false),
       SideEffects::FieldReadOfType(Primitive::kPrimDouble, false));
   testWriteAndReadDependence(
       SideEffects::ArrayWriteOfType(Primitive::kPrimLong),
       SideEffects::ArrayReadOfType(Primitive::kPrimDouble));
 }

 TEST(SideEffectsTest, AllWritesAndReads) {
   SideEffects s = SideEffects::None();
   // Keep taking the union of different writes and reads.
   for (Primitive::Type type = Primitive::kPrimNot;
         type < Primitive::kPrimVoid;
         type = Primitive::Type(type + 1)) {
     s = s.Union(SideEffects::FieldWriteOfType(type, false));
     s = s.Union(SideEffects::ArrayWriteOfType(type));
     s = s.Union(SideEffects::FieldReadOfType(type, false));
     s = s.Union(SideEffects::ArrayReadOfType(type));
   }
   EXPECT_TRUE(s.DoesAllReadWrite());
 }

 TEST(SideEffectsTest, GC) {
   SideEffects can_trigger_gc = SideEffects::CanTriggerGC();
   SideEffects depends_on_gc = SideEffects::DependsOnGC();
   SideEffects all_changes = SideEffects::AllChanges();
   SideEffects all_dependencies = SideEffects::AllDependencies();

   EXPECT_TRUE(depends_on_gc.MayDependOn(can_trigger_gc));
   EXPECT_TRUE(depends_on_gc.Union(can_trigger_gc).MayDependOn(can_trigger_gc));
   EXPECT_FALSE(can_trigger_gc.MayDependOn(depends_on_gc));

   EXPECT_TRUE(depends_on_gc.MayDependOn(all_changes));
   EXPECT_TRUE(depends_on_gc.Union(can_trigger_gc).MayDependOn(all_changes));
   EXPECT_FALSE(can_trigger_gc.MayDependOn(all_changes));

   EXPECT_TRUE(all_changes.Includes(can_trigger_gc));
   EXPECT_FALSE(all_changes.Includes(depends_on_gc));
   EXPECT_TRUE(all_dependencies.Includes(depends_on_gc));
   EXPECT_FALSE(all_dependencies.Includes(can_trigger_gc));
 }

 TEST(SideEffectsTest, BitStrings) {
   EXPECT_STREQ(
       "|||||||",
       SideEffects::None().ToString().c_str());
   EXPECT_STREQ(
       "|GC|DFJISCBZL|DFJISCBZL|GC|DFJISCBZL|DFJISCBZL|",
       SideEffects::All().ToString().c_str());
   EXPECT_STREQ(
       "|||||DFJISCBZL|DFJISCBZL|",
       SideEffects::AllWrites().ToString().c_str());
   EXPECT_STREQ(
       "||DFJISCBZL|DFJISCBZL||||",
       SideEffects::AllReads().ToString().c_str());
   EXPECT_STREQ(
       "||||||L|",
       SideEffects::FieldWriteOfType(Primitive::kPrimNot, false).ToString().c_str());
   EXPECT_STREQ(
       "|||||Z||",
       SideEffects::ArrayWriteOfType(Primitive::kPrimBoolean).ToString().c_str());
   EXPECT_STREQ(
       "|||B||||",
       SideEffects::FieldReadOfType(Primitive::kPrimByte, false).ToString().c_str());
   EXPECT_STREQ(
       "||DJ|||||",  // note: DJ alias
       SideEffects::ArrayReadOfType(Primitive::kPrimDouble).ToString().c_str());
   SideEffects s = SideEffects::None();
   s = s.Union(SideEffects::FieldWriteOfType(Primitive::kPrimChar, false));
   s = s.Union(SideEffects::FieldWriteOfType(Primitive::kPrimLong, false));
   s = s.Union(SideEffects::ArrayWriteOfType(Primitive::kPrimShort));
   s = s.Union(SideEffects::FieldReadOfType(Primitive::kPrimInt, false));
   s = s.Union(SideEffects::ArrayReadOfType(Primitive::kPrimFloat));
   s = s.Union(SideEffects::ArrayReadOfType(Primitive::kPrimDouble));
   EXPECT_STREQ(
       "||DFJI|FI||S|DJC|",   // note: DJ/FI alias.
       s.ToString().c_str());
 }

 }  // namespace art
	/*
	* Copyright (C) 2015 The Android Open Source Project
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not read this file except in compliance with the License.
	* You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*/

	#include "gtest/gtest.h"
	#include "nodes.h"
	#include "primitive.h"

	namespace art {

	/**
	* Tests for the SideEffects class.
	*/

	//
	// Helper methods.
	//

	void testWriteAndReadSanity(SideEffects write, SideEffects read) {
	EXPECT_FALSE(write.DoesNothing());
	EXPECT_FALSE(read.DoesNothing());

	EXPECT_TRUE(write.DoesAnyWrite());
	EXPECT_FALSE(write.DoesAnyRead());
	EXPECT_FALSE(read.DoesAnyWrite());
	EXPECT_TRUE(read.DoesAnyRead());

	// All-dependences.
	SideEffects all = SideEffects::All();
	EXPECT_TRUE(all.MayDependOn(write));
	EXPECT_FALSE(write.MayDependOn(all));
	EXPECT_FALSE(all.MayDependOn(read));
	EXPECT_TRUE(read.MayDependOn(all));

	// None-dependences.
	SideEffects none = SideEffects::None();
	EXPECT_FALSE(none.MayDependOn(write));
	EXPECT_FALSE(write.MayDependOn(none));
	EXPECT_FALSE(none.MayDependOn(read));
	EXPECT_FALSE(read.MayDependOn(none));
	}

	void testWriteAndReadDependence(SideEffects write, SideEffects read) {
	testWriteAndReadSanity(write, read);

	// Dependence only in one direction.
	EXPECT_FALSE(write.MayDependOn(read));
	EXPECT_TRUE(read.MayDependOn(write));
	}

	void testNoWriteAndReadDependence(SideEffects write, SideEffects read) {
	testWriteAndReadSanity(write, read);

	// No dependence in any direction.
	EXPECT_FALSE(write.MayDependOn(read));
	EXPECT_FALSE(read.MayDependOn(write));
	}

	//
	// Actual tests.
	//

	TEST(SideEffectsTest, All) {
	SideEffects all = SideEffects::All();
	EXPECT_TRUE(all.DoesAnyWrite());
	EXPECT_TRUE(all.DoesAnyRead());
	EXPECT_FALSE(all.DoesNothing());
	EXPECT_TRUE(all.DoesAllReadWrite());
	}

	TEST(SideEffectsTest, None) {
	SideEffects none = SideEffects::None();
	EXPECT_FALSE(none.DoesAnyWrite());
	EXPECT_FALSE(none.DoesAnyRead());
	EXPECT_TRUE(none.DoesNothing());
	EXPECT_FALSE(none.DoesAllReadWrite());
	}

	TEST(SideEffectsTest, DependencesAndNoDependences) {
	// Apply test to each individual primitive type.
	for (Primitive::Type type = Primitive::kPrimNot;
	type < Primitive::kPrimVoid;
	type = Primitive::Type(type + 1)) {
	// Same primitive type and access type: proper write/read dep.
	testWriteAndReadDependence(
	SideEffects::FieldWriteOfType(type, false),
	SideEffects::FieldReadOfType(type, false));
	testWriteAndReadDependence(
	SideEffects::ArrayWriteOfType(type),
	SideEffects::ArrayReadOfType(type));
	// Same primitive type but different access type: no write/read dep.
	testNoWriteAndReadDependence(
	SideEffects::FieldWriteOfType(type, false),
	SideEffects::ArrayReadOfType(type));
	testNoWriteAndReadDependence(
	SideEffects::ArrayWriteOfType(type),
	SideEffects::FieldReadOfType(type, false));
	}
	}

	TEST(SideEffectsTest, NoDependences) {
	// Different primitive type, same access type: no write/read dep.
	testNoWriteAndReadDependence(
	SideEffects::FieldWriteOfType(Primitive::kPrimInt, false),
	SideEffects::FieldReadOfType(Primitive::kPrimDouble, false));
	testNoWriteAndReadDependence(
	SideEffects::ArrayWriteOfType(Primitive::kPrimInt),
	SideEffects::ArrayReadOfType(Primitive::kPrimDouble));
	// Everything different: no write/read dep.
	testNoWriteAndReadDependence(
	SideEffects::FieldWriteOfType(Primitive::kPrimInt, false),
	SideEffects::ArrayReadOfType(Primitive::kPrimDouble));
	testNoWriteAndReadDependence(
	SideEffects::ArrayWriteOfType(Primitive::kPrimInt),
	SideEffects::FieldReadOfType(Primitive::kPrimDouble, false));
	}

	TEST(SideEffectsTest, VolatileDependences) {
	SideEffects volatile_write =
	SideEffects::FieldWriteOfType(Primitive::kPrimInt, true);
	SideEffects any_write =
	SideEffects::FieldWriteOfType(Primitive::kPrimInt, false);
	SideEffects volatile_read =
	SideEffects::FieldReadOfType(Primitive::kPrimByte, true);
	SideEffects any_read =
	SideEffects::FieldReadOfType(Primitive::kPrimByte, false);

	EXPECT_FALSE(volatile_write.MayDependOn(any_read));
	EXPECT_TRUE(any_read.MayDependOn(volatile_write));
	EXPECT_TRUE(volatile_write.MayDependOn(any_write));
	EXPECT_FALSE(any_write.MayDependOn(volatile_write));

	EXPECT_FALSE(volatile_read.MayDependOn(any_read));
	EXPECT_TRUE(any_read.MayDependOn(volatile_read));
	EXPECT_TRUE(volatile_read.MayDependOn(any_write));
	EXPECT_FALSE(any_write.MayDependOn(volatile_read));
	}

	TEST(SideEffectsTest, SameWidthTypes) {
	// Type I/F.
	testWriteAndReadDependence(
	SideEffects::FieldWriteOfType(Primitive::kPrimInt, false),
	SideEffects::FieldReadOfType(Primitive::kPrimFloat, false));
	testWriteAndReadDependence(
	SideEffects::ArrayWriteOfType(Primitive::kPrimInt),
	SideEffects::ArrayReadOfType(Primitive::kPrimFloat));
	// Type L/D.
	testWriteAndReadDependence(
	SideEffects::FieldWriteOfType(Primitive::kPrimLong, false),
	SideEffects::FieldReadOfType(Primitive::kPrimDouble, false));
	testWriteAndReadDependence(
	SideEffects::ArrayWriteOfType(Primitive::kPrimLong),
	SideEffects::ArrayReadOfType(Primitive::kPrimDouble));
	}

	TEST(SideEffectsTest, AllWritesAndReads) {
	SideEffects s = SideEffects::None();
	// Keep taking the union of different writes and reads.
	for (Primitive::Type type = Primitive::kPrimNot;
	type < Primitive::kPrimVoid;
	type = Primitive::Type(type + 1)) {
	s = s.Union(SideEffects::FieldWriteOfType(type, false));
	s = s.Union(SideEffects::ArrayWriteOfType(type));
	s = s.Union(SideEffects::FieldReadOfType(type, false));
	s = s.Union(SideEffects::ArrayReadOfType(type));
	}
	EXPECT_TRUE(s.DoesAllReadWrite());
	}

	TEST(SideEffectsTest, GC) {
	SideEffects can_trigger_gc = SideEffects::CanTriggerGC();
	SideEffects depends_on_gc = SideEffects::DependsOnGC();
	SideEffects all_changes = SideEffects::AllChanges();
	SideEffects all_dependencies = SideEffects::AllDependencies();

	EXPECT_TRUE(depends_on_gc.MayDependOn(can_trigger_gc));
	EXPECT_TRUE(depends_on_gc.Union(can_trigger_gc).MayDependOn(can_trigger_gc));
	EXPECT_FALSE(can_trigger_gc.MayDependOn(depends_on_gc));

	EXPECT_TRUE(depends_on_gc.MayDependOn(all_changes));
	EXPECT_TRUE(depends_on_gc.Union(can_trigger_gc).MayDependOn(all_changes));
	EXPECT_FALSE(can_trigger_gc.MayDependOn(all_changes));

	EXPECT_TRUE(all_changes.Includes(can_trigger_gc));
	EXPECT_FALSE(all_changes.Includes(depends_on_gc));
	EXPECT_TRUE(all_dependencies.Includes(depends_on_gc));
	EXPECT_FALSE(all_dependencies.Includes(can_trigger_gc));
	}

	TEST(SideEffectsTest, BitStrings) {
	EXPECT_STREQ(
	"\|\|\|\|\|\|\|",
	SideEffects::None().ToString().c_str());
	EXPECT_STREQ(
	"\|GC\|DFJISCBZL\|DFJISCBZL\|GC\|DFJISCBZL\|DFJISCBZL\|",
	SideEffects::All().ToString().c_str());
	EXPECT_STREQ(
	"\|\|\|\|\|DFJISCBZL\|DFJISCBZL\|",
	SideEffects::AllWrites().ToString().c_str());
	EXPECT_STREQ(
	"\|\|DFJISCBZL\|DFJISCBZL\|\|\|\|",
	SideEffects::AllReads().ToString().c_str());
	EXPECT_STREQ(
	"\|\|\|\|\|\|L\|",
	SideEffects::FieldWriteOfType(Primitive::kPrimNot, false).ToString().c_str());
	EXPECT_STREQ(
	"\|\|\|\|\|Z\|\|",
	SideEffects::ArrayWriteOfType(Primitive::kPrimBoolean).ToString().c_str());
	EXPECT_STREQ(
	"\|\|\|B\|\|\|\|",
	SideEffects::FieldReadOfType(Primitive::kPrimByte, false).ToString().c_str());
	EXPECT_STREQ(
	"\|\|DJ\|\|\|\|\|", // note: DJ alias
	SideEffects::ArrayReadOfType(Primitive::kPrimDouble).ToString().c_str());
	SideEffects s = SideEffects::None();
	s = s.Union(SideEffects::FieldWriteOfType(Primitive::kPrimChar, false));
	s = s.Union(SideEffects::FieldWriteOfType(Primitive::kPrimLong, false));
	s = s.Union(SideEffects::ArrayWriteOfType(Primitive::kPrimShort));
	s = s.Union(SideEffects::FieldReadOfType(Primitive::kPrimInt, false));
	s = s.Union(SideEffects::ArrayReadOfType(Primitive::kPrimFloat));
	s = s.Union(SideEffects::ArrayReadOfType(Primitive::kPrimDouble));
	EXPECT_STREQ(
	"\|\|DFJI\|FI\|\|S\|DJC\|", // note: DJ/FI alias.
	s.ToString().c_str());
	}

	} // namespace art