test/529-long-split/src/Main.java - LeafOS-Project/android_art - Gitiles

 /*
  * Copyright (C) 2015 The Android Open Source Project
  *
  * Licensed under the Apache License, Version 2.0 (the "License");
  * you may not use 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.
  */

 public class Main  {
   public static void main(String[] args) throws Exception {
     if (testOddLow1(5L)) {
       throw new Error();
     }

     if (testNonFollowingHigh(5)) {
       throw new Error();
     }

     if (testOddLow2()) {
       throw new Error();
     }
   }

   public static boolean testOddLow1(long a /* ECX-EDX */) {
     // class instance is in EBP
     long b = myLongField1; // ESI-EDI
     int f = myField1; // EBX
     int e = myField2; // EAX
     int g = myField3; // ESI (by spilling ESI-EDI, see below)
     int h = myField4; // EDI
     myLongField2 = a; // Make sure ESI-EDI gets spilled and not ECX-EDX
     myField2 = f; // use of EBX
     myField1 = e; // use of EAX
     myField3 = h; // use of ESI
     myField4 = g; // use if EDI

     // At this point `b` has been spilled and needs to have a pair. The ordering
     // in the register allocator triggers the allocation of `res` before `b`.
     // `res` being used after the `doCall`, we want a callee saved register.
     //
     // EBP is taken by the class instance and EDI is taken by `g` (both used in the `myField4`
     // assignment below). So we end up allocating ESI for `res`.
     //
     // When we try to allocate a pair for `b` we're in the following situation:
     // EAX is free
     // ECX is taken
     // EDX is taken
     // EBX is free
     // ESP is blocked
     // EBP could be spilled
     // ESI is taken
     // EDI could be spilled
     //
     // So there is no consecutive registers available to please the register allocator.
     // The compiler used to trip then because of a bogus implementation of trying to split
     // an unaligned register pair (here ECX and EDX). The implementation would not find
     // a register and the register allocator would then complain about not having
     // enough registers for the operation.
     boolean res = a == b;
     $noinline$doCall();
     myField4 = g;
     return res;
   }

   public static boolean testNonFollowingHigh(int i) {
     // class instance is in EBP
     long b = myLongField1; // ESI-EDI
     long a = (long)i; // EAX-EDX
     int f = myField1; // EBX
     int e = myField2; // ECX
     int g = myField3; // ESI (by spilling ESI-EDI, see below)
     int h = myField4; // EDI
     myLongField2 = a; // Make sure ESI-EDI gets spilled and not ECX-EDX
     myField2 = f; // use of EBX
     myField1 = e; // use of ECX
     myField3 = h; // use of EDI
     myField4 = g; // use of ESI

     // At this point `b` has been spilled and needs to have a pair. The ordering
     // in the register allocator triggers the allocation of `res` before `b`.
     // `res` being used after the `doCall`, we want a callee saved register.
     //
     // EBP is taken by the class instance and ESI is taken by `g` (both used in the `myField4`
     // assignment below). So we end up allocating EDI for `res`.
     //
     // When we try to allocate a pair for `b` we're in the following situation:
     // EAX is taken
     // ECX is free
     // EDX is taken
     // EBX is free
     // ESP is blocked
     // EBP could be spilled
     // ESI is taken
     // EDI could be spilled
     //
     // So there is no consecutive registers available to please the register allocator.
     // The compiler used to be in a bad state because of a bogus implementation of trying
     // to split an unaligned register pair (here EAX and EDX).
     boolean res = a == b;
     $noinline$doCall();
     myField4 = g;
     return res;
   }

   public static boolean testOddLow2() {
     // class instance is in EBP
     long b = myLongField1; // ECX-EDX (hint due to call below).
     long a = myLongField2; // ESI-EDI
     int f = myField1; // EBX
     int e = myField2; // EAX
     int g = myField3; // ECX
     int h = myField4; // EDX
     int i = myField5; // ESI - callee saved due to assignment after call to $noinline$doCall.
     myField2 = f; // use of EBX
     myField1 = e; // use of EAX
     myField3 = h; // use of EDX
     myField4 = i; // use of ESI
     myField5 = g; // use of ECX

     // At this point `a` and `b` have been spilled and need to have a pairs. The ordering
     // in the register allocator triggers the allocation of `res` before `a` and `b`.
     // `res` being used after the `doCall`, we want a callee saved register.
     //
     // EBP is taken by the class instance and ESI is taken by `i` (both used in the `myField4`
     // assignment below). So we end up allocating EDI for `res`.
     //
     // We first try to allocator a pair for `b`. We're in the following situation:
     // EAX is free
     // ECX is free
     // EDX is free
     // EBX is free
     // ESP is blocked
     // EBP could be spilled
     // ESI could be spilled
     // EDI is taken
     //
     // Because `b` is used as a first argument to a call, we take its hint and allocate
     // ECX-EDX to it.
     //
     // We then try to allocate a pair for `a`. We're in the following situation:
     // EAX is free
     // ECX could be spilled
     // EDX could be spilled
     // EBX is free
     // ESP is blocked
     // EBP could be spilled
     // ESI could be spilled
     // EDI is taken
     //
     // So no consecutive two free registers are available. When trying to find a slot, we pick
     // the first unaligned or non-pair interval. In this case, this is the unaligned ECX-EDX.
     // The compiler used to then trip because it forgot to remove the high interval containing
     // the pair from the active list.

     boolean res = a == b;
     $noinline$doCall(b);
     myField4 = i; // use of ESI
     return res;
   }

   public static void $noinline$doCall() {
   }

   public static void $noinline$doCall(long e) {
   }

   public static int myField1;
   public static int myField2;
   public static int myField3;
   public static int myField4;
   public static int myField5;
   public static long myLongField1;
   public static long myLongField2;
 }
	/*
	* Copyright (C) 2015 The Android Open Source Project
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use 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.
	*/

	public class Main {
	public static void main(String[] args) throws Exception {
	if (testOddLow1(5L)) {
	throw new Error();
	}

	if (testNonFollowingHigh(5)) {
	throw new Error();
	}

	if (testOddLow2()) {
	throw new Error();
	}
	}

	public static boolean testOddLow1(long a /* ECX-EDX */) {
	// class instance is in EBP
	long b = myLongField1; // ESI-EDI
	int f = myField1; // EBX
	int e = myField2; // EAX
	int g = myField3; // ESI (by spilling ESI-EDI, see below)
	int h = myField4; // EDI
	myLongField2 = a; // Make sure ESI-EDI gets spilled and not ECX-EDX
	myField2 = f; // use of EBX
	myField1 = e; // use of EAX
	myField3 = h; // use of ESI
	myField4 = g; // use if EDI

	// At this point `b` has been spilled and needs to have a pair. The ordering
	// in the register allocator triggers the allocation of `res` before `b`.
	// `res` being used after the `doCall`, we want a callee saved register.
	//
	// EBP is taken by the class instance and EDI is taken by `g` (both used in the `myField4`
	// assignment below). So we end up allocating ESI for `res`.
	//
	// When we try to allocate a pair for `b` we're in the following situation:
	// EAX is free
	// ECX is taken
	// EDX is taken
	// EBX is free
	// ESP is blocked
	// EBP could be spilled
	// ESI is taken
	// EDI could be spilled
	//
	// So there is no consecutive registers available to please the register allocator.
	// The compiler used to trip then because of a bogus implementation of trying to split
	// an unaligned register pair (here ECX and EDX). The implementation would not find
	// a register and the register allocator would then complain about not having
	// enough registers for the operation.
	boolean res = a == b;
	$noinline$doCall();
	myField4 = g;
	return res;
	}

	public static boolean testNonFollowingHigh(int i) {
	// class instance is in EBP
	long b = myLongField1; // ESI-EDI
	long a = (long)i; // EAX-EDX
	int f = myField1; // EBX
	int e = myField2; // ECX
	int g = myField3; // ESI (by spilling ESI-EDI, see below)
	int h = myField4; // EDI
	myLongField2 = a; // Make sure ESI-EDI gets spilled and not ECX-EDX
	myField2 = f; // use of EBX
	myField1 = e; // use of ECX
	myField3 = h; // use of EDI
	myField4 = g; // use of ESI

	// At this point `b` has been spilled and needs to have a pair. The ordering
	// in the register allocator triggers the allocation of `res` before `b`.
	// `res` being used after the `doCall`, we want a callee saved register.
	//
	// EBP is taken by the class instance and ESI is taken by `g` (both used in the `myField4`
	// assignment below). So we end up allocating EDI for `res`.
	//
	// When we try to allocate a pair for `b` we're in the following situation:
	// EAX is taken
	// ECX is free
	// EDX is taken
	// EBX is free
	// ESP is blocked
	// EBP could be spilled
	// ESI is taken
	// EDI could be spilled
	//
	// So there is no consecutive registers available to please the register allocator.
	// The compiler used to be in a bad state because of a bogus implementation of trying
	// to split an unaligned register pair (here EAX and EDX).
	boolean res = a == b;
	$noinline$doCall();
	myField4 = g;
	return res;
	}

	public static boolean testOddLow2() {
	// class instance is in EBP
	long b = myLongField1; // ECX-EDX (hint due to call below).
	long a = myLongField2; // ESI-EDI
	int f = myField1; // EBX
	int e = myField2; // EAX
	int g = myField3; // ECX
	int h = myField4; // EDX
	int i = myField5; // ESI - callee saved due to assignment after call to $noinline$doCall.
	myField2 = f; // use of EBX
	myField1 = e; // use of EAX
	myField3 = h; // use of EDX
	myField4 = i; // use of ESI
	myField5 = g; // use of ECX

	// At this point `a` and `b` have been spilled and need to have a pairs. The ordering
	// in the register allocator triggers the allocation of `res` before `a` and `b`.
	// `res` being used after the `doCall`, we want a callee saved register.
	//
	// EBP is taken by the class instance and ESI is taken by `i` (both used in the `myField4`
	// assignment below). So we end up allocating EDI for `res`.
	//
	// We first try to allocator a pair for `b`. We're in the following situation:
	// EAX is free
	// ECX is free
	// EDX is free
	// EBX is free
	// ESP is blocked
	// EBP could be spilled
	// ESI could be spilled
	// EDI is taken
	//
	// Because `b` is used as a first argument to a call, we take its hint and allocate
	// ECX-EDX to it.
	//
	// We then try to allocate a pair for `a`. We're in the following situation:
	// EAX is free
	// ECX could be spilled
	// EDX could be spilled
	// EBX is free
	// ESP is blocked
	// EBP could be spilled
	// ESI could be spilled
	// EDI is taken
	//
	// So no consecutive two free registers are available. When trying to find a slot, we pick
	// the first unaligned or non-pair interval. In this case, this is the unaligned ECX-EDX.
	// The compiler used to then trip because it forgot to remove the high interval containing
	// the pair from the active list.

	boolean res = a == b;
	$noinline$doCall(b);
	myField4 = i; // use of ESI
	return res;
	}

	public static void $noinline$doCall() {
	}

	public static void $noinline$doCall(long e) {
	}

	public static int myField1;
	public static int myField2;
	public static int myField3;
	public static int myField4;
	public static int myField5;
	public static long myLongField1;
	public static long myLongField2;
	}