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762e58de3b
Remappings involving extern "C" names were already supported in the context of <local-name>s, but this support didn't work for remapping the complete mangling itself. (Eg, we would remap X<foo> but not foo itself, if foo is an extern "C" function.)
390 lines
13 KiB
C++
390 lines
13 KiB
C++
//===-------------- ItaniumManglingCanonicalizerTest.cpp ------------------===//
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//
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// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
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// See https://llvm.org/LICENSE.txt for license information.
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// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
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//
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//===----------------------------------------------------------------------===//
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#include "llvm/Support/ItaniumManglingCanonicalizer.h"
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#include "llvm/ADT/ArrayRef.h"
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#include "llvm/ADT/StringRef.h"
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#include "gtest/gtest.h"
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#include <cstdlib>
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#include <map>
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#include <vector>
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using namespace llvm;
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namespace {
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using EquivalenceError = llvm::ItaniumManglingCanonicalizer::EquivalenceError;
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using FragmentKind = llvm::ItaniumManglingCanonicalizer::FragmentKind;
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struct Equivalence {
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FragmentKind Kind;
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llvm::StringRef First;
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llvm::StringRef Second;
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};
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// A set of manglings that should all be considered equivalent.
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using EquivalenceClass = std::vector<llvm::StringRef>;
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struct Testcase {
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// A set of equivalences to register.
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std::vector<Equivalence> Equivalences;
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// A set of distinct equivalence classes created by registering the
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// equivalences.
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std::vector<EquivalenceClass> Classes;
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};
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// A function that returns a set of test cases.
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static std::vector<Testcase> getTestcases() {
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return {
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// Three different manglings for std::string (old libstdc++, new libstdc++,
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// libc++).
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{
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{
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{FragmentKind::Type, "Ss",
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"NSt3__112basic_stringIcNS_11char_traitsIcEENS_9allocatorIcEEEE"},
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{FragmentKind::Type, "Ss",
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"NSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEE"},
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},
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{
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{"_Z1fv"},
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{"_Z1fSs",
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"_Z1fNSt3__112basic_stringIcNS_11char_traitsIcEENS_9allocatorIcEEEE",
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"_Z1fNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEE"},
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{"_ZNKSs4sizeEv",
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"_ZNKSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEE4sizeEv",
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"_ZNKSt3__112basic_stringIcNS_11char_traitsIcEENS_9allocatorIcEEE4sizeEv"},
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}
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},
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// Check that substitutions are properly handled.
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{
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{
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// ::X <-> ::N::X<int>
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{FragmentKind::Type, "1X", "N1N1XIiEE"},
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// ::T<T<int, int>, T<int, int>> <-> T<int>
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{FragmentKind::Type, "1TIS_IiiES0_E", "1TIiE"},
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// A::B::foo <-> AB::foo
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{FragmentKind::Name, "N1A1B3fooE", "N2AB3fooE"},
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},
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{
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{"_Z1f1XPS_RS_", "_Z1fN1N1XIiEEPS1_RS1_"},
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{"_ZN1A1B3fooE1TIS1_IiiES2_EPS3_RS3_", "_ZN2AB3fooE1TIiEPS1_RS1_"},
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}
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},
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// Check that nested equivalences are properly handled.
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{
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{
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// std::__1::char_traits == std::__cxx11::char_traits
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// (Note that this is unused and should make no difference,
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// but it should not cause us to fail to match up the cases
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// below.)
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{FragmentKind::Name,
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"NSt3__111char_traitsE",
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"NSt7__cxx1111char_traitsE"},
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// std::__1::allocator == std::allocator
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{FragmentKind::Name,
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"NSt3__19allocatorE",
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"Sa"}, // "Sa" is not strictly a <name> but we accept it as one.
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// std::__1::vector == std::vector
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{FragmentKind::Name,
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"St6vector",
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"NSt3__16vectorE"},
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// std::__1::basic_string<
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// char
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// std::__1::char_traits<char>,
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// std::__1::allocator<char>> ==
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// std::__cxx11::basic_string<
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// char,
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// std::char_traits<char>,
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// std::allocator<char>>
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{FragmentKind::Type,
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"NSt3__112basic_stringIcNS_11char_traitsIcEENS_9allocatorIcEEEE",
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"NSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEE"},
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// X<A> <-> X<B>
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{FragmentKind::Type, "1XI1AE", "1XI1BE"},
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// X <-> Y
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{FragmentKind::Name, "1X", "1Y"},
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},
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{
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// f(std::string)
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{"_Z1fNSt3__112basic_stringIcNS_11char_traitsIcEENS_9allocatorIcEEEE",
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"_Z1fNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEE"},
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// f(std::vector<int>)
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{"_Z1fSt6vectorIiSaIiEE", "_Z1fNSt3__16vectorIiNS_9allocatorIiEEEE"},
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// f(X<A>), f(X<B>), f(Y<A>), f(Y<B>)
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{"_Z1f1XI1AE", "_Z1f1XI1BE", "_Z1f1YI1AE", "_Z1f1YI1BE"},
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// f(X<C>), f(Y<C>)
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{"_Z1f1XI1CE", "_Z1f1YI1CE"},
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}
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},
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// Check namespace equivalences.
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{
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{
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// std::__1 == std::__cxx11
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{FragmentKind::Name, "St3__1", "St7__cxx11"},
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// std::__1::allocator == std::allocator
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{FragmentKind::Name, "NSt3__19allocatorE", "Sa"},
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// std::vector == std::__1::vector
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{FragmentKind::Name, "St6vector", "NSt3__16vectorE"},
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// std::__cxx11::char_traits == std::char_traits
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// (This indirectly means that std::__1::char_traits == std::char_traits,
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// due to the std::__cxx11 == std::__1 equivalence, which is what we rely
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// on below.)
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{FragmentKind::Name, "NSt7__cxx1111char_traitsE", "St11char_traits"},
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},
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{
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// f(std::foo)
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{"_Z1fNSt7__cxx113fooE",
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"_Z1fNSt3__13fooE"},
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// f(std::string)
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{"_Z1fNSt7__cxx1111char_traitsIcEE",
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"_Z1fNSt3__111char_traitsIcEE",
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"_Z1fSt11char_traitsIcE"},
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// f(std::string)
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{"_Z1fNSt3__112basic_stringIcNS_11char_traitsIcEENS_9allocatorIcEEEE",
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"_Z1fNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEE"},
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// f(std::vector<int>)
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{"_Z1fSt6vectorIiSaIiEE", "_Z1fNSt3__16vectorIiNS_9allocatorIiEEEE"},
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}
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},
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// Check namespace equivalences for namespace 'std'. We support using 'St'
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// for this, despite it not technically being a <name>.
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{
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{
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// std::__1 == std
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{FragmentKind::Name, "St3__1", "St"},
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// std::__1 == std::__cxx11
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{FragmentKind::Name, "St3__1", "St7__cxx11"},
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// FIXME: Should a 'std' equivalence also cover the predefined
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// substitutions?
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// std::__1::allocator == std::allocator
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{FragmentKind::Name, "NSt3__19allocatorE", "Sa"},
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},
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{
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{"_Z1fSt3foo", "_Z1fNSt3__13fooE", "_Z1fNSt7__cxx113fooE"},
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{"_Z1fNSt3bar3bazE", "_Z1fNSt3__13bar3bazE"},
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// f(std::string)
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{"_Z1fNSt3__112basic_stringIcNS_11char_traitsIcEENS_9allocatorIcEEEE",
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"_Z1fNSt7__cxx1112basic_stringIcSt11char_traitsIcESaIcEEE"},
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// f(std::vector<int>)
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{"_Z1fSt6vectorIiSaIiEE", "_Z1fNSt3__16vectorIiNS_9allocatorIiEEEE"},
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}
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},
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// Check mutually-recursive equivalences.
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{
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{
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{FragmentKind::Type, "1A", "1B"},
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{FragmentKind::Type, "1A", "1C"},
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{FragmentKind::Type, "1D", "1B"},
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{FragmentKind::Type, "1C", "1E"},
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},
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{
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{"_Z1f1A", "_Z1f1B", "_Z1f1C", "_Z1f1D", "_Z1f1E"},
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{"_Z1f1F"},
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}
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},
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// Check <encoding>s.
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{
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{
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{FragmentKind::Encoding, "1fv", "1gv"},
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},
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{
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// f(void) -> g(void)
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{"_Z1fv", "_Z1gv"},
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// static local 'n' in f(void) -> static local 'n' in g(void)
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{"_ZZ1fvE1n", "_ZZ1gvE1n"},
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}
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},
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// Corner case: the substitution can appear within its own expansion.
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{
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{
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// X <-> Y<X>
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{FragmentKind::Type, "1X", "1YI1XE"},
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// A<B> <-> B
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{FragmentKind::Type, "1AI1BE", "1B"},
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},
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{
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// f(X) == f(Y<X>) == f(Y<Y<X>>) == f(Y<Y<Y<X>>>)
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{"_Z1f1X", "_Z1f1YI1XE", "_Z1f1YIS_I1XEE", "_Z1f1YIS_IS_I1XEEE"},
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// f(B) == f(A<B>) == f(A<A<B>>) == f(A<A<A<B>>>)
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{"_Z1f1B", "_Z1f1AI1BE", "_Z1f1AIS_I1BEE", "_Z1f1AIS_IS_I1BEEE"},
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}
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},
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// Redundant equivalences are accepted (and have no effect).
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{
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{
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{FragmentKind::Name, "3std", "St"},
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{FragmentKind::Name, "1X", "1Y"},
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{FragmentKind::Name, "N1X1ZE", "N1Y1ZE"},
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},
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{}
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},
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// Check that ctor and dtor variants are considered distinct.
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{
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{},
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{{"_ZN1XC1Ev"}, {"_ZN1XC2Ev"}, {"_ZN1XD1Ev"}, {"_ZN1XD2Ev"}}
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},
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// Ensure array types with and without bounds are handled properly.
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{
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{
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{FragmentKind::Type, "A_i", "A1_f"},
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},
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{
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{"_Z1fRA_i", "_Z1fRA_i", "_Z1fRA1_f"},
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{"_Z1fRA1_i"}, {"_Z1fRA_f"},
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}
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},
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// Unmangled names can be remapped as complete encodings.
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{
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{
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{FragmentKind::Encoding, "3foo", "3bar"},
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},
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{
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// foo == bar
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{"foo", "bar"},
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// void f<foo>() == void f<bar>()
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{"_Z1fIL_Z3fooEEvv", "_Z1fIL_Z3barEEvv"},
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}
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},
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};
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}
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// A function to get a set of test cases for forward template references.
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static std::vector<Testcase> getForwardTemplateReferenceTestcases() {
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return {
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// ForwardTemplateReference does not support canonicalization.
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// FIXME: We should consider ways of fixing this, perhaps by eliminating
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// the ForwardTemplateReference node with a tree transformation.
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{
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{
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// X::operator T() <with T = A> == Y::operator T() <with T = A>
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{FragmentKind::Encoding, "N1XcvT_I1AEEv", "N1YcvT_I1AEEv"},
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// A == B
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{FragmentKind::Name, "1A", "1B"},
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},
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{
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// All combinations result in unique equivalence classes.
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{"_ZN1XcvT_I1AEEv"},
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{"_ZN1XcvT_I1BEEv"},
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{"_ZN1YcvT_I1AEEv"},
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{"_ZN1YcvT_I1BEEv"},
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// Even giving the same string twice gives a new class.
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{"_ZN1XcvT_I1AEEv"},
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}
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},
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};
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}
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template<bool CanonicalizeFirst>
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static void testTestcases(ArrayRef<Testcase> Testcases) {
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for (const auto &Testcase : Testcases) {
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llvm::ItaniumManglingCanonicalizer Canonicalizer;
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for (const auto &Equiv : Testcase.Equivalences) {
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auto Result =
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Canonicalizer.addEquivalence(Equiv.Kind, Equiv.First, Equiv.Second);
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EXPECT_EQ(Result, EquivalenceError::Success)
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<< "couldn't add equivalence between " << Equiv.First << " and "
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<< Equiv.Second;
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}
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using CanonKey = llvm::ItaniumManglingCanonicalizer::Key;
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std::map<const EquivalenceClass*, CanonKey> Keys;
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if (CanonicalizeFirst)
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for (const auto &Class : Testcase.Classes)
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Keys.insert({&Class, Canonicalizer.canonicalize(*Class.begin())});
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std::map<CanonKey, llvm::StringRef> Found;
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for (const auto &Class : Testcase.Classes) {
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CanonKey ClassKey = Keys[&Class];
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for (llvm::StringRef Str : Class) {
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// Force a copy to be made when calling lookup to test that it doesn't
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// retain any part of the provided string.
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CanonKey ThisKey = CanonicalizeFirst
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? Canonicalizer.lookup(std::string(Str))
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: Canonicalizer.canonicalize(Str);
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EXPECT_NE(ThisKey, CanonKey()) << "couldn't canonicalize " << Str;
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if (ClassKey) {
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EXPECT_EQ(ThisKey, ClassKey)
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<< Str << " not in the same class as " << *Class.begin();
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} else {
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ClassKey = ThisKey;
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}
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}
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EXPECT_TRUE(Found.insert({ClassKey, *Class.begin()}).second)
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<< *Class.begin() << " is in the same class as " << Found[ClassKey];
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}
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}
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}
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TEST(ItaniumManglingCanonicalizerTest, TestCanonicalize) {
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testTestcases<false>(getTestcases());
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}
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TEST(ItaniumManglingCanonicalizerTest, TestLookup) {
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testTestcases<true>(getTestcases());
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}
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TEST(ItaniumManglingCanonicalizerTest, TestForwardTemplateReference) {
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// lookup(...) after canonicalization (intentionally) returns different
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// values for this testcase.
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testTestcases<false>(getForwardTemplateReferenceTestcases());
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}
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TEST(ItaniumManglingCanonicalizerTest, TestInvalidManglings) {
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llvm::ItaniumManglingCanonicalizer Canonicalizer;
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EXPECT_EQ(Canonicalizer.addEquivalence(FragmentKind::Type, "", "1X"),
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EquivalenceError::InvalidFirstMangling);
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EXPECT_EQ(Canonicalizer.addEquivalence(FragmentKind::Type, "1X", "1ab"),
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EquivalenceError::InvalidSecondMangling);
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EXPECT_EQ(Canonicalizer.canonicalize("_Z3fooE"),
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llvm::ItaniumManglingCanonicalizer::Key());
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EXPECT_EQ(Canonicalizer.canonicalize("_Zfoo"),
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llvm::ItaniumManglingCanonicalizer::Key());
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// A reference to a template parameter ('T_' etc) cannot appear in a <name>,
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// because we don't have template arguments to bind to it. (The arguments in
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// an 'I ... E' construct in the <name> aren't registered as
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// backreferenceable arguments in this sense, because they're not part of
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// the template argument list of an <encoding>.
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EXPECT_EQ(Canonicalizer.addEquivalence(FragmentKind::Name, "N1XcvT_I1AEE",
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"1f"),
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EquivalenceError::InvalidFirstMangling);
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}
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TEST(ItaniumManglingCanonicalizerTest, TestBadEquivalenceOrder) {
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llvm::ItaniumManglingCanonicalizer Canonicalizer;
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EXPECT_EQ(Canonicalizer.addEquivalence(FragmentKind::Type, "N1P1XE", "N1Q1XE"),
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EquivalenceError::Success);
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EXPECT_EQ(Canonicalizer.addEquivalence(FragmentKind::Type, "1P", "1Q"),
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EquivalenceError::ManglingAlreadyUsed);
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EXPECT_EQ(Canonicalizer.addEquivalence(FragmentKind::Type, "N1C1XE", "N1A1YE"),
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EquivalenceError::Success);
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EXPECT_EQ(Canonicalizer.addEquivalence(FragmentKind::Type, "1A", "1B"),
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EquivalenceError::Success);
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EXPECT_EQ(Canonicalizer.addEquivalence(FragmentKind::Type, "1C", "1D"),
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EquivalenceError::Success);
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EXPECT_EQ(Canonicalizer.addEquivalence(FragmentKind::Type, "1B", "1D"),
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EquivalenceError::ManglingAlreadyUsed);
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}
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} // end anonymous namespace
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