llvm/unittests/ADT/IListBaseTest.cpp
Duncan P. N. Exon Smith b4bd34e805 ADT: Add sentinel tracking and custom tags to ilists
This adds two declarative configuration options for intrusive lists
(available for simple_ilist, iplist, and ilist).  Both of these options
affect ilist_node interoperability and need to be passed both to the
node and the list.  Instead of adding a new traits class, they're
specified as optional template parameters (in any order).

The two options:

 1. Pass ilist_sentinel_tracking<true> or ilist_sentinel_tracking<false>
    to control whether there's a bit on ilist_node "prev" pointer
    indicating whether it's the sentinel.  The default behaviour is to
    use a bit if and only if LLVM_ENABLE_ABI_BREAKING_CHECKS.

 2. Pass ilist_tag<TagA> and ilist_tag<TagB> to allow insertion of a
    single node into two different lists (simultaneously).

I have an immediate use-case for (1) ilist_sentinel_tracking: fixing the
validation semantics of MachineBasicBlock::reverse_iterator to match
ilist::reverse_iterator (ala r280032: see the comments at the end of the
commit message there).  I'm adding (2) ilist_tag in the same commit to
validate that the options framework supports expansion.  Justin Bogner
mentioned this might enable a possible cleanup in SelectionDAG, but I'll
leave this to others to explore.  In the meantime, the unit tests and
the comments for simple_ilist and ilist_node have usage examples.

Note that there's a layer of indirection to support optional,
out-of-order, template paramaters.  Internal classes are templated on an
instantiation of the non-variadic ilist_detail::node_options.
User-facing classes use ilist_detail::compute_node_options to compute
the correct instantiation of ilist_detail::node_options.

The comments for ilist_detail::is_valid_option describe how to add new
options (e.g., ilist_packed_int<int NumBits>).

git-svn-id: https://llvm.org/svn/llvm-project/llvm/trunk@281167 91177308-0d34-0410-b5e6-96231b3b80d8
2016-09-11 16:20:53 +00:00

167 lines
4.4 KiB
C++

//===- unittests/ADT/IListBaseTest.cpp - ilist_base unit tests ------------===//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
#include "llvm/ADT/ilist_base.h"
#include "gtest/gtest.h"
using namespace llvm;
namespace {
// Test fixture.
template <typename T> class IListBaseTest : public ::testing::Test {};
// Test variants with the same test.
typedef ::testing::Types<ilist_base<false>, ilist_base<true>>
IListBaseTestTypes;
TYPED_TEST_CASE(IListBaseTest, IListBaseTestTypes);
TYPED_TEST(IListBaseTest, insertBeforeImpl) {
typedef TypeParam list_base_type;
typedef typename list_base_type::node_base_type node_base_type;
node_base_type S, A, B;
// [S] <-> [S]
S.setPrev(&S);
S.setNext(&S);
// [S] <-> A <-> [S]
list_base_type::insertBeforeImpl(S, A);
EXPECT_EQ(&A, S.getPrev());
EXPECT_EQ(&S, A.getPrev());
EXPECT_EQ(&A, S.getNext());
EXPECT_EQ(&S, A.getNext());
// [S] <-> A <-> B <-> [S]
list_base_type::insertBeforeImpl(S, B);
EXPECT_EQ(&B, S.getPrev());
EXPECT_EQ(&A, B.getPrev());
EXPECT_EQ(&S, A.getPrev());
EXPECT_EQ(&A, S.getNext());
EXPECT_EQ(&B, A.getNext());
EXPECT_EQ(&S, B.getNext());
}
TYPED_TEST(IListBaseTest, removeImpl) {
typedef TypeParam list_base_type;
typedef typename list_base_type::node_base_type node_base_type;
node_base_type S, A, B;
// [S] <-> A <-> B <-> [S]
S.setPrev(&S);
S.setNext(&S);
list_base_type::insertBeforeImpl(S, A);
list_base_type::insertBeforeImpl(S, B);
// [S] <-> B <-> [S]
list_base_type::removeImpl(A);
EXPECT_EQ(&B, S.getPrev());
EXPECT_EQ(&S, B.getPrev());
EXPECT_EQ(&B, S.getNext());
EXPECT_EQ(&S, B.getNext());
EXPECT_EQ(nullptr, A.getPrev());
EXPECT_EQ(nullptr, A.getNext());
// [S] <-> [S]
list_base_type::removeImpl(B);
EXPECT_EQ(&S, S.getPrev());
EXPECT_EQ(&S, S.getNext());
EXPECT_EQ(nullptr, B.getPrev());
EXPECT_EQ(nullptr, B.getNext());
}
TYPED_TEST(IListBaseTest, removeRangeImpl) {
typedef TypeParam list_base_type;
typedef typename list_base_type::node_base_type node_base_type;
node_base_type S, A, B, C, D;
// [S] <-> A <-> B <-> C <-> D <-> [S]
S.setPrev(&S);
S.setNext(&S);
list_base_type::insertBeforeImpl(S, A);
list_base_type::insertBeforeImpl(S, B);
list_base_type::insertBeforeImpl(S, C);
list_base_type::insertBeforeImpl(S, D);
// [S] <-> A <-> D <-> [S]
list_base_type::removeRangeImpl(B, D);
EXPECT_EQ(&D, S.getPrev());
EXPECT_EQ(&A, D.getPrev());
EXPECT_EQ(&S, A.getPrev());
EXPECT_EQ(&A, S.getNext());
EXPECT_EQ(&D, A.getNext());
EXPECT_EQ(&S, D.getNext());
EXPECT_EQ(nullptr, B.getPrev());
EXPECT_EQ(nullptr, C.getNext());
}
TYPED_TEST(IListBaseTest, removeRangeImplAllButSentinel) {
typedef TypeParam list_base_type;
typedef typename list_base_type::node_base_type node_base_type;
node_base_type S, A, B;
// [S] <-> A <-> B <-> [S]
S.setPrev(&S);
S.setNext(&S);
list_base_type::insertBeforeImpl(S, A);
list_base_type::insertBeforeImpl(S, B);
// [S] <-> [S]
list_base_type::removeRangeImpl(A, S);
EXPECT_EQ(&S, S.getPrev());
EXPECT_EQ(&S, S.getNext());
EXPECT_EQ(nullptr, A.getPrev());
EXPECT_EQ(nullptr, B.getNext());
}
TYPED_TEST(IListBaseTest, transferBeforeImpl) {
typedef TypeParam list_base_type;
typedef typename list_base_type::node_base_type node_base_type;
node_base_type S1, S2, A, B, C, D, E;
// [S1] <-> A <-> B <-> C <-> [S1]
S1.setPrev(&S1);
S1.setNext(&S1);
list_base_type::insertBeforeImpl(S1, A);
list_base_type::insertBeforeImpl(S1, B);
list_base_type::insertBeforeImpl(S1, C);
// [S2] <-> D <-> E <-> [S2]
S2.setPrev(&S2);
S2.setNext(&S2);
list_base_type::insertBeforeImpl(S2, D);
list_base_type::insertBeforeImpl(S2, E);
// [S1] <-> C <-> [S1]
list_base_type::transferBeforeImpl(D, A, C);
EXPECT_EQ(&C, S1.getPrev());
EXPECT_EQ(&S1, C.getPrev());
EXPECT_EQ(&C, S1.getNext());
EXPECT_EQ(&S1, C.getNext());
// [S2] <-> A <-> B <-> D <-> E <-> [S2]
EXPECT_EQ(&E, S2.getPrev());
EXPECT_EQ(&D, E.getPrev());
EXPECT_EQ(&B, D.getPrev());
EXPECT_EQ(&A, B.getPrev());
EXPECT_EQ(&S2, A.getPrev());
EXPECT_EQ(&A, S2.getNext());
EXPECT_EQ(&B, A.getNext());
EXPECT_EQ(&D, B.getNext());
EXPECT_EQ(&E, D.getNext());
EXPECT_EQ(&S2, E.getNext());
}
} // end namespace