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llvm-mirror/unittests/ADT/WaymarkingTest.cpp
Ehud Katz b99248f3f0 [ADT] Implement the Waymarking as an independent utility
This is the Waymarking algorithm implemented as an independent utility.
The utility is operating on a range of sequential elements.
First we "tag" the elements, by calling `fillWaymarks`.
Then we can "follow" the tags from every element inside the tagged
range, and reach the "head" (the first element), by calling
`followWaymarks`.

Differential Revision: https://reviews.llvm.org/D74415
2020-03-31 17:08:24 +03:00

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3.7 KiB
C++

//===- llvm/unittest/IR/WaymarkTest.cpp - Waymarking unit tests -----------===//
//
// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
//
//===----------------------------------------------------------------------===//
#include "llvm/ADT/Waymarking.h"
#include "gtest/gtest.h"
using namespace llvm;
static const int N = 100;
// Get the Waymarking Tag of the pointer.
static int tag(int *P) {
return static_cast<int>(reinterpret_cast<uintptr_t>(P) &
uintptr_t(alignof(int *) - 1));
}
// Get the actual pointer, by stripping the Waymarking Tag.
static int *ref(int *P) {
return reinterpret_cast<int *>(reinterpret_cast<uintptr_t>(P) &
~uintptr_t(alignof(int *) - 1));
}
static int **createArray(int Len) {
int **A = new int *[Len];
for (int I = 0; I < Len; ++I)
A[I] = new int(I);
return A;
}
static void freeArray(int **A, int Len) {
for (int I = 0; I < Len; ++I)
delete ref(A[I]);
delete[] A;
}
// Verify the values stored in the array are as expected, and did not change due
// to fillWaymarks.
static void verifyArrayValues(int **A, int Begin, int End) {
for (int I = Begin; I < End; ++I)
EXPECT_EQ(I, *ref(A[I]));
}
static void verifyArrayValues(int **A, int Len) {
verifyArrayValues(A, 0, Len);
}
// Verify that we can follow the waymarks to the array's head from each element
// of the array.
static void verifyFollowWaymarks(int **A, int Len) {
for (int I = 0; I < Len; ++I) {
int **P = followWaymarks(A + I);
EXPECT_EQ(A, P);
}
}
namespace {
// Test filling and following the waymarks of a single array.
TEST(WaymarkingTest, SingleHead) {
const int N2 = 2 * N;
int **volatile A = createArray(N2);
// Fill the first half of the array with waymarks.
fillWaymarks(A, A + N, 0);
verifyArrayValues(A, N2);
verifyFollowWaymarks(A, N);
// Fill the rest of the waymarks (continuing from where we stopped).
fillWaymarks(A + N, A + N2, N);
verifyArrayValues(A, N2);
verifyFollowWaymarks(A, N);
freeArray(A, N2);
}
// Test filling and following the waymarks of an array split into several
// different sections of waymarks (treated just like separate arrays).
TEST(WaymarkingTest, MultiHead) {
const int N2 = 2 * N;
const int N3 = 3 * N;
int **volatile A = createArray(N3);
// Separate the array into 3 sections of waymarks.
fillWaymarks(A, A + N, 0);
fillWaymarks(A + N, A + N2, 0);
fillWaymarks(A + N2, A + N3, 0);
verifyArrayValues(A, N3);
verifyFollowWaymarks(A, N);
verifyFollowWaymarks(A + N, N2 - N);
verifyFollowWaymarks(A + N2, N3 - N2);
freeArray(A, N3);
}
// Test reseting (value and tag of) elements inside an array of waymarks.
TEST(WaymarkingTest, Reset) {
int **volatile A = createArray(N);
fillWaymarks(A, A + N, 0);
verifyArrayValues(A, N);
const int N2 = N / 2;
const int N3 = N / 3;
const int N4 = N / 4;
// Reset specific elements and check that the tag remains the same.
int T2 = tag(A[N2]);
delete ref(A[N2]);
A[N2] = new int(N2);
fillWaymarks(A + N2, A + N2 + 1, N2);
verifyArrayValues(A, N2, N2 + 1);
EXPECT_EQ(T2, tag(A[N2]));
int T3 = tag(A[N3]);
delete ref(A[N3]);
A[N3] = new int(N3);
fillWaymarks(A + N3, A + N3 + 1, N3);
verifyArrayValues(A, N3, N3 + 1);
EXPECT_EQ(T3, tag(A[N3]));
int T4 = tag(A[N4]);
delete ref(A[N4]);
A[N4] = new int(N4);
fillWaymarks(A + N4, A + N4 + 1, N4);
verifyArrayValues(A, N4, N4 + 1);
EXPECT_EQ(T4, tag(A[N4]));
verifyArrayValues(A, N);
verifyFollowWaymarks(A, N);
freeArray(A, N);
}
} // end anonymous namespace