1
0
mirror of https://github.com/RPCS3/llvm-mirror.git synced 2024-11-25 04:02:41 +01:00
llvm-mirror/lib/Demangle/ItaniumDemangle.cpp

578 lines
16 KiB
C++
Raw Permalink Normal View History

//===------------------------- ItaniumDemangle.cpp ------------------------===//
//
// 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
//
//===----------------------------------------------------------------------===//
// FIXME: (possibly) incomplete list of features that clang mangles that this
// file does not yet support:
// - C++ modules TS
#include "llvm/Demangle/Demangle.h"
Move Itanium demangler implementation into a header file and add visitation support. Summary: This transforms the Itanium demangler into a generic reusable library that can be used to build, traverse, and transform Itanium mangled name trees. This is in preparation for adding a canonicalizing demangler, which cannot live in the Demangle library for layering reasons. In order to keep the diffs simpler, this patch moves more code to the new header than is strictly necessary: in particular, all of the printLeft / printRight implementations can be moved to the implementation file. (And indeed we could make them non-virtual now if we wished, and remove the vptr from Node.) All nodes are now included in the Kind enumeration, rather than omitting some of the Expr nodes, and the three different floating-point literal node types now have distinct Kind values. As a proof of concept for the visitation / matching mechanism, this patch implements a Node dumping facility on top of it, replacing the prior mechanism that produced the pretty-printed output rather than a tree dump. Sample dump output: FunctionEncoding( NameType("int"), NameWithTemplateArgs( NestedName( NameWithTemplateArgs( NameType("A"), TemplateArgs( {NameType("B")})), NameType("f")), TemplateArgs( {NameType("int")})), {}, <null>, QualConst, FunctionRefQual::FrefQualLValue) As a next step, it would make sense to move the LLVM high-level interface to the demangler (the itaniumDemangler function and ItaniumPartialDemangler class) into the Support library, and implement them in terms of the Demangle library. This would allow the libc++abi demangler implementation to be an identical copy of the llvm Demangle library, and would allow the LLVM implementation to reuse LLVM components such as llvm::BumpPtrAllocator, but we'll need to decide how to coordinate that with the MS ABI demangler, so I'm not doing that in this patch. No functionality change intended other than the behavior of dump(). Reviewers: erik.pilkington, zturner, chandlerc, dlj Subscribers: aheejin, llvm-commits Differential Revision: https://reviews.llvm.org/D50930 llvm-svn: 340203
2018-08-20 21:44:01 +02:00
#include "llvm/Demangle/ItaniumDemangle.h"
#include <cassert>
#include <cctype>
#include <cstdio>
#include <cstdlib>
#include <cstring>
#include <functional>
#include <numeric>
#include <utility>
#include <vector>
Move Itanium demangler implementation into a header file and add visitation support. Summary: This transforms the Itanium demangler into a generic reusable library that can be used to build, traverse, and transform Itanium mangled name trees. This is in preparation for adding a canonicalizing demangler, which cannot live in the Demangle library for layering reasons. In order to keep the diffs simpler, this patch moves more code to the new header than is strictly necessary: in particular, all of the printLeft / printRight implementations can be moved to the implementation file. (And indeed we could make them non-virtual now if we wished, and remove the vptr from Node.) All nodes are now included in the Kind enumeration, rather than omitting some of the Expr nodes, and the three different floating-point literal node types now have distinct Kind values. As a proof of concept for the visitation / matching mechanism, this patch implements a Node dumping facility on top of it, replacing the prior mechanism that produced the pretty-printed output rather than a tree dump. Sample dump output: FunctionEncoding( NameType("int"), NameWithTemplateArgs( NestedName( NameWithTemplateArgs( NameType("A"), TemplateArgs( {NameType("B")})), NameType("f")), TemplateArgs( {NameType("int")})), {}, <null>, QualConst, FunctionRefQual::FrefQualLValue) As a next step, it would make sense to move the LLVM high-level interface to the demangler (the itaniumDemangler function and ItaniumPartialDemangler class) into the Support library, and implement them in terms of the Demangle library. This would allow the libc++abi demangler implementation to be an identical copy of the llvm Demangle library, and would allow the LLVM implementation to reuse LLVM components such as llvm::BumpPtrAllocator, but we'll need to decide how to coordinate that with the MS ABI demangler, so I'm not doing that in this patch. No functionality change intended other than the behavior of dump(). Reviewers: erik.pilkington, zturner, chandlerc, dlj Subscribers: aheejin, llvm-commits Differential Revision: https://reviews.llvm.org/D50930 llvm-svn: 340203
2018-08-20 21:44:01 +02:00
using namespace llvm;
using namespace llvm::itanium_demangle;
Move Itanium demangler implementation into a header file and add visitation support. Summary: This transforms the Itanium demangler into a generic reusable library that can be used to build, traverse, and transform Itanium mangled name trees. This is in preparation for adding a canonicalizing demangler, which cannot live in the Demangle library for layering reasons. In order to keep the diffs simpler, this patch moves more code to the new header than is strictly necessary: in particular, all of the printLeft / printRight implementations can be moved to the implementation file. (And indeed we could make them non-virtual now if we wished, and remove the vptr from Node.) All nodes are now included in the Kind enumeration, rather than omitting some of the Expr nodes, and the three different floating-point literal node types now have distinct Kind values. As a proof of concept for the visitation / matching mechanism, this patch implements a Node dumping facility on top of it, replacing the prior mechanism that produced the pretty-printed output rather than a tree dump. Sample dump output: FunctionEncoding( NameType("int"), NameWithTemplateArgs( NestedName( NameWithTemplateArgs( NameType("A"), TemplateArgs( {NameType("B")})), NameType("f")), TemplateArgs( {NameType("int")})), {}, <null>, QualConst, FunctionRefQual::FrefQualLValue) As a next step, it would make sense to move the LLVM high-level interface to the demangler (the itaniumDemangler function and ItaniumPartialDemangler class) into the Support library, and implement them in terms of the Demangle library. This would allow the libc++abi demangler implementation to be an identical copy of the llvm Demangle library, and would allow the LLVM implementation to reuse LLVM components such as llvm::BumpPtrAllocator, but we'll need to decide how to coordinate that with the MS ABI demangler, so I'm not doing that in this patch. No functionality change intended other than the behavior of dump(). Reviewers: erik.pilkington, zturner, chandlerc, dlj Subscribers: aheejin, llvm-commits Differential Revision: https://reviews.llvm.org/D50930 llvm-svn: 340203
2018-08-20 21:44:01 +02:00
constexpr const char *itanium_demangle::FloatData<float>::spec;
constexpr const char *itanium_demangle::FloatData<double>::spec;
constexpr const char *itanium_demangle::FloatData<long double>::spec;
// <discriminator> := _ <non-negative number> # when number < 10
// := __ <non-negative number> _ # when number >= 10
// extension := decimal-digit+ # at the end of string
const char *itanium_demangle::parse_discriminator(const char *first,
const char *last) {
// parse but ignore discriminator
if (first != last) {
if (*first == '_') {
const char *t1 = first + 1;
if (t1 != last) {
if (std::isdigit(*t1))
first = t1 + 1;
else if (*t1 == '_') {
for (++t1; t1 != last && std::isdigit(*t1); ++t1)
;
if (t1 != last && *t1 == '_')
first = t1 + 1;
}
}
} else if (std::isdigit(*first)) {
const char *t1 = first + 1;
for (; t1 != last && std::isdigit(*t1); ++t1)
;
if (t1 == last)
first = last;
}
}
Move Itanium demangler implementation into a header file and add visitation support. Summary: This transforms the Itanium demangler into a generic reusable library that can be used to build, traverse, and transform Itanium mangled name trees. This is in preparation for adding a canonicalizing demangler, which cannot live in the Demangle library for layering reasons. In order to keep the diffs simpler, this patch moves more code to the new header than is strictly necessary: in particular, all of the printLeft / printRight implementations can be moved to the implementation file. (And indeed we could make them non-virtual now if we wished, and remove the vptr from Node.) All nodes are now included in the Kind enumeration, rather than omitting some of the Expr nodes, and the three different floating-point literal node types now have distinct Kind values. As a proof of concept for the visitation / matching mechanism, this patch implements a Node dumping facility on top of it, replacing the prior mechanism that produced the pretty-printed output rather than a tree dump. Sample dump output: FunctionEncoding( NameType("int"), NameWithTemplateArgs( NestedName( NameWithTemplateArgs( NameType("A"), TemplateArgs( {NameType("B")})), NameType("f")), TemplateArgs( {NameType("int")})), {}, <null>, QualConst, FunctionRefQual::FrefQualLValue) As a next step, it would make sense to move the LLVM high-level interface to the demangler (the itaniumDemangler function and ItaniumPartialDemangler class) into the Support library, and implement them in terms of the Demangle library. This would allow the libc++abi demangler implementation to be an identical copy of the llvm Demangle library, and would allow the LLVM implementation to reuse LLVM components such as llvm::BumpPtrAllocator, but we'll need to decide how to coordinate that with the MS ABI demangler, so I'm not doing that in this patch. No functionality change intended other than the behavior of dump(). Reviewers: erik.pilkington, zturner, chandlerc, dlj Subscribers: aheejin, llvm-commits Differential Revision: https://reviews.llvm.org/D50930 llvm-svn: 340203
2018-08-20 21:44:01 +02:00
return first;
}
Move Itanium demangler implementation into a header file and add visitation support. Summary: This transforms the Itanium demangler into a generic reusable library that can be used to build, traverse, and transform Itanium mangled name trees. This is in preparation for adding a canonicalizing demangler, which cannot live in the Demangle library for layering reasons. In order to keep the diffs simpler, this patch moves more code to the new header than is strictly necessary: in particular, all of the printLeft / printRight implementations can be moved to the implementation file. (And indeed we could make them non-virtual now if we wished, and remove the vptr from Node.) All nodes are now included in the Kind enumeration, rather than omitting some of the Expr nodes, and the three different floating-point literal node types now have distinct Kind values. As a proof of concept for the visitation / matching mechanism, this patch implements a Node dumping facility on top of it, replacing the prior mechanism that produced the pretty-printed output rather than a tree dump. Sample dump output: FunctionEncoding( NameType("int"), NameWithTemplateArgs( NestedName( NameWithTemplateArgs( NameType("A"), TemplateArgs( {NameType("B")})), NameType("f")), TemplateArgs( {NameType("int")})), {}, <null>, QualConst, FunctionRefQual::FrefQualLValue) As a next step, it would make sense to move the LLVM high-level interface to the demangler (the itaniumDemangler function and ItaniumPartialDemangler class) into the Support library, and implement them in terms of the Demangle library. This would allow the libc++abi demangler implementation to be an identical copy of the llvm Demangle library, and would allow the LLVM implementation to reuse LLVM components such as llvm::BumpPtrAllocator, but we'll need to decide how to coordinate that with the MS ABI demangler, so I'm not doing that in this patch. No functionality change intended other than the behavior of dump(). Reviewers: erik.pilkington, zturner, chandlerc, dlj Subscribers: aheejin, llvm-commits Differential Revision: https://reviews.llvm.org/D50930 llvm-svn: 340203
2018-08-20 21:44:01 +02:00
#ifndef NDEBUG
namespace {
struct DumpVisitor {
unsigned Depth = 0;
bool PendingNewline = false;
Move Itanium demangler implementation into a header file and add visitation support. Summary: This transforms the Itanium demangler into a generic reusable library that can be used to build, traverse, and transform Itanium mangled name trees. This is in preparation for adding a canonicalizing demangler, which cannot live in the Demangle library for layering reasons. In order to keep the diffs simpler, this patch moves more code to the new header than is strictly necessary: in particular, all of the printLeft / printRight implementations can be moved to the implementation file. (And indeed we could make them non-virtual now if we wished, and remove the vptr from Node.) All nodes are now included in the Kind enumeration, rather than omitting some of the Expr nodes, and the three different floating-point literal node types now have distinct Kind values. As a proof of concept for the visitation / matching mechanism, this patch implements a Node dumping facility on top of it, replacing the prior mechanism that produced the pretty-printed output rather than a tree dump. Sample dump output: FunctionEncoding( NameType("int"), NameWithTemplateArgs( NestedName( NameWithTemplateArgs( NameType("A"), TemplateArgs( {NameType("B")})), NameType("f")), TemplateArgs( {NameType("int")})), {}, <null>, QualConst, FunctionRefQual::FrefQualLValue) As a next step, it would make sense to move the LLVM high-level interface to the demangler (the itaniumDemangler function and ItaniumPartialDemangler class) into the Support library, and implement them in terms of the Demangle library. This would allow the libc++abi demangler implementation to be an identical copy of the llvm Demangle library, and would allow the LLVM implementation to reuse LLVM components such as llvm::BumpPtrAllocator, but we'll need to decide how to coordinate that with the MS ABI demangler, so I'm not doing that in this patch. No functionality change intended other than the behavior of dump(). Reviewers: erik.pilkington, zturner, chandlerc, dlj Subscribers: aheejin, llvm-commits Differential Revision: https://reviews.llvm.org/D50930 llvm-svn: 340203
2018-08-20 21:44:01 +02:00
template<typename NodeT> static constexpr bool wantsNewline(const NodeT *) {
return true;
}
Move Itanium demangler implementation into a header file and add visitation support. Summary: This transforms the Itanium demangler into a generic reusable library that can be used to build, traverse, and transform Itanium mangled name trees. This is in preparation for adding a canonicalizing demangler, which cannot live in the Demangle library for layering reasons. In order to keep the diffs simpler, this patch moves more code to the new header than is strictly necessary: in particular, all of the printLeft / printRight implementations can be moved to the implementation file. (And indeed we could make them non-virtual now if we wished, and remove the vptr from Node.) All nodes are now included in the Kind enumeration, rather than omitting some of the Expr nodes, and the three different floating-point literal node types now have distinct Kind values. As a proof of concept for the visitation / matching mechanism, this patch implements a Node dumping facility on top of it, replacing the prior mechanism that produced the pretty-printed output rather than a tree dump. Sample dump output: FunctionEncoding( NameType("int"), NameWithTemplateArgs( NestedName( NameWithTemplateArgs( NameType("A"), TemplateArgs( {NameType("B")})), NameType("f")), TemplateArgs( {NameType("int")})), {}, <null>, QualConst, FunctionRefQual::FrefQualLValue) As a next step, it would make sense to move the LLVM high-level interface to the demangler (the itaniumDemangler function and ItaniumPartialDemangler class) into the Support library, and implement them in terms of the Demangle library. This would allow the libc++abi demangler implementation to be an identical copy of the llvm Demangle library, and would allow the LLVM implementation to reuse LLVM components such as llvm::BumpPtrAllocator, but we'll need to decide how to coordinate that with the MS ABI demangler, so I'm not doing that in this patch. No functionality change intended other than the behavior of dump(). Reviewers: erik.pilkington, zturner, chandlerc, dlj Subscribers: aheejin, llvm-commits Differential Revision: https://reviews.llvm.org/D50930 llvm-svn: 340203
2018-08-20 21:44:01 +02:00
static bool wantsNewline(NodeArray A) { return !A.empty(); }
static constexpr bool wantsNewline(...) { return false; }
Move Itanium demangler implementation into a header file and add visitation support. Summary: This transforms the Itanium demangler into a generic reusable library that can be used to build, traverse, and transform Itanium mangled name trees. This is in preparation for adding a canonicalizing demangler, which cannot live in the Demangle library for layering reasons. In order to keep the diffs simpler, this patch moves more code to the new header than is strictly necessary: in particular, all of the printLeft / printRight implementations can be moved to the implementation file. (And indeed we could make them non-virtual now if we wished, and remove the vptr from Node.) All nodes are now included in the Kind enumeration, rather than omitting some of the Expr nodes, and the three different floating-point literal node types now have distinct Kind values. As a proof of concept for the visitation / matching mechanism, this patch implements a Node dumping facility on top of it, replacing the prior mechanism that produced the pretty-printed output rather than a tree dump. Sample dump output: FunctionEncoding( NameType("int"), NameWithTemplateArgs( NestedName( NameWithTemplateArgs( NameType("A"), TemplateArgs( {NameType("B")})), NameType("f")), TemplateArgs( {NameType("int")})), {}, <null>, QualConst, FunctionRefQual::FrefQualLValue) As a next step, it would make sense to move the LLVM high-level interface to the demangler (the itaniumDemangler function and ItaniumPartialDemangler class) into the Support library, and implement them in terms of the Demangle library. This would allow the libc++abi demangler implementation to be an identical copy of the llvm Demangle library, and would allow the LLVM implementation to reuse LLVM components such as llvm::BumpPtrAllocator, but we'll need to decide how to coordinate that with the MS ABI demangler, so I'm not doing that in this patch. No functionality change intended other than the behavior of dump(). Reviewers: erik.pilkington, zturner, chandlerc, dlj Subscribers: aheejin, llvm-commits Differential Revision: https://reviews.llvm.org/D50930 llvm-svn: 340203
2018-08-20 21:44:01 +02:00
template<typename ...Ts> static bool anyWantNewline(Ts ...Vs) {
for (bool B : {wantsNewline(Vs)...})
if (B)
return true;
return false;
}
Move Itanium demangler implementation into a header file and add visitation support. Summary: This transforms the Itanium demangler into a generic reusable library that can be used to build, traverse, and transform Itanium mangled name trees. This is in preparation for adding a canonicalizing demangler, which cannot live in the Demangle library for layering reasons. In order to keep the diffs simpler, this patch moves more code to the new header than is strictly necessary: in particular, all of the printLeft / printRight implementations can be moved to the implementation file. (And indeed we could make them non-virtual now if we wished, and remove the vptr from Node.) All nodes are now included in the Kind enumeration, rather than omitting some of the Expr nodes, and the three different floating-point literal node types now have distinct Kind values. As a proof of concept for the visitation / matching mechanism, this patch implements a Node dumping facility on top of it, replacing the prior mechanism that produced the pretty-printed output rather than a tree dump. Sample dump output: FunctionEncoding( NameType("int"), NameWithTemplateArgs( NestedName( NameWithTemplateArgs( NameType("A"), TemplateArgs( {NameType("B")})), NameType("f")), TemplateArgs( {NameType("int")})), {}, <null>, QualConst, FunctionRefQual::FrefQualLValue) As a next step, it would make sense to move the LLVM high-level interface to the demangler (the itaniumDemangler function and ItaniumPartialDemangler class) into the Support library, and implement them in terms of the Demangle library. This would allow the libc++abi demangler implementation to be an identical copy of the llvm Demangle library, and would allow the LLVM implementation to reuse LLVM components such as llvm::BumpPtrAllocator, but we'll need to decide how to coordinate that with the MS ABI demangler, so I'm not doing that in this patch. No functionality change intended other than the behavior of dump(). Reviewers: erik.pilkington, zturner, chandlerc, dlj Subscribers: aheejin, llvm-commits Differential Revision: https://reviews.llvm.org/D50930 llvm-svn: 340203
2018-08-20 21:44:01 +02:00
void printStr(const char *S) { fprintf(stderr, "%s", S); }
void print(StringView SV) {
fprintf(stderr, "\"%.*s\"", (int)SV.size(), SV.begin());
}
Move Itanium demangler implementation into a header file and add visitation support. Summary: This transforms the Itanium demangler into a generic reusable library that can be used to build, traverse, and transform Itanium mangled name trees. This is in preparation for adding a canonicalizing demangler, which cannot live in the Demangle library for layering reasons. In order to keep the diffs simpler, this patch moves more code to the new header than is strictly necessary: in particular, all of the printLeft / printRight implementations can be moved to the implementation file. (And indeed we could make them non-virtual now if we wished, and remove the vptr from Node.) All nodes are now included in the Kind enumeration, rather than omitting some of the Expr nodes, and the three different floating-point literal node types now have distinct Kind values. As a proof of concept for the visitation / matching mechanism, this patch implements a Node dumping facility on top of it, replacing the prior mechanism that produced the pretty-printed output rather than a tree dump. Sample dump output: FunctionEncoding( NameType("int"), NameWithTemplateArgs( NestedName( NameWithTemplateArgs( NameType("A"), TemplateArgs( {NameType("B")})), NameType("f")), TemplateArgs( {NameType("int")})), {}, <null>, QualConst, FunctionRefQual::FrefQualLValue) As a next step, it would make sense to move the LLVM high-level interface to the demangler (the itaniumDemangler function and ItaniumPartialDemangler class) into the Support library, and implement them in terms of the Demangle library. This would allow the libc++abi demangler implementation to be an identical copy of the llvm Demangle library, and would allow the LLVM implementation to reuse LLVM components such as llvm::BumpPtrAllocator, but we'll need to decide how to coordinate that with the MS ABI demangler, so I'm not doing that in this patch. No functionality change intended other than the behavior of dump(). Reviewers: erik.pilkington, zturner, chandlerc, dlj Subscribers: aheejin, llvm-commits Differential Revision: https://reviews.llvm.org/D50930 llvm-svn: 340203
2018-08-20 21:44:01 +02:00
void print(const Node *N) {
if (N)
N->visit(std::ref(*this));
else
printStr("<null>");
}
Move Itanium demangler implementation into a header file and add visitation support. Summary: This transforms the Itanium demangler into a generic reusable library that can be used to build, traverse, and transform Itanium mangled name trees. This is in preparation for adding a canonicalizing demangler, which cannot live in the Demangle library for layering reasons. In order to keep the diffs simpler, this patch moves more code to the new header than is strictly necessary: in particular, all of the printLeft / printRight implementations can be moved to the implementation file. (And indeed we could make them non-virtual now if we wished, and remove the vptr from Node.) All nodes are now included in the Kind enumeration, rather than omitting some of the Expr nodes, and the three different floating-point literal node types now have distinct Kind values. As a proof of concept for the visitation / matching mechanism, this patch implements a Node dumping facility on top of it, replacing the prior mechanism that produced the pretty-printed output rather than a tree dump. Sample dump output: FunctionEncoding( NameType("int"), NameWithTemplateArgs( NestedName( NameWithTemplateArgs( NameType("A"), TemplateArgs( {NameType("B")})), NameType("f")), TemplateArgs( {NameType("int")})), {}, <null>, QualConst, FunctionRefQual::FrefQualLValue) As a next step, it would make sense to move the LLVM high-level interface to the demangler (the itaniumDemangler function and ItaniumPartialDemangler class) into the Support library, and implement them in terms of the Demangle library. This would allow the libc++abi demangler implementation to be an identical copy of the llvm Demangle library, and would allow the LLVM implementation to reuse LLVM components such as llvm::BumpPtrAllocator, but we'll need to decide how to coordinate that with the MS ABI demangler, so I'm not doing that in this patch. No functionality change intended other than the behavior of dump(). Reviewers: erik.pilkington, zturner, chandlerc, dlj Subscribers: aheejin, llvm-commits Differential Revision: https://reviews.llvm.org/D50930 llvm-svn: 340203
2018-08-20 21:44:01 +02:00
void print(NodeArray A) {
++Depth;
printStr("{");
bool First = true;
for (const Node *N : A) {
if (First)
print(N);
else
Move Itanium demangler implementation into a header file and add visitation support. Summary: This transforms the Itanium demangler into a generic reusable library that can be used to build, traverse, and transform Itanium mangled name trees. This is in preparation for adding a canonicalizing demangler, which cannot live in the Demangle library for layering reasons. In order to keep the diffs simpler, this patch moves more code to the new header than is strictly necessary: in particular, all of the printLeft / printRight implementations can be moved to the implementation file. (And indeed we could make them non-virtual now if we wished, and remove the vptr from Node.) All nodes are now included in the Kind enumeration, rather than omitting some of the Expr nodes, and the three different floating-point literal node types now have distinct Kind values. As a proof of concept for the visitation / matching mechanism, this patch implements a Node dumping facility on top of it, replacing the prior mechanism that produced the pretty-printed output rather than a tree dump. Sample dump output: FunctionEncoding( NameType("int"), NameWithTemplateArgs( NestedName( NameWithTemplateArgs( NameType("A"), TemplateArgs( {NameType("B")})), NameType("f")), TemplateArgs( {NameType("int")})), {}, <null>, QualConst, FunctionRefQual::FrefQualLValue) As a next step, it would make sense to move the LLVM high-level interface to the demangler (the itaniumDemangler function and ItaniumPartialDemangler class) into the Support library, and implement them in terms of the Demangle library. This would allow the libc++abi demangler implementation to be an identical copy of the llvm Demangle library, and would allow the LLVM implementation to reuse LLVM components such as llvm::BumpPtrAllocator, but we'll need to decide how to coordinate that with the MS ABI demangler, so I'm not doing that in this patch. No functionality change intended other than the behavior of dump(). Reviewers: erik.pilkington, zturner, chandlerc, dlj Subscribers: aheejin, llvm-commits Differential Revision: https://reviews.llvm.org/D50930 llvm-svn: 340203
2018-08-20 21:44:01 +02:00
printWithComma(N);
First = false;
}
printStr("}");
--Depth;
}
Move Itanium demangler implementation into a header file and add visitation support. Summary: This transforms the Itanium demangler into a generic reusable library that can be used to build, traverse, and transform Itanium mangled name trees. This is in preparation for adding a canonicalizing demangler, which cannot live in the Demangle library for layering reasons. In order to keep the diffs simpler, this patch moves more code to the new header than is strictly necessary: in particular, all of the printLeft / printRight implementations can be moved to the implementation file. (And indeed we could make them non-virtual now if we wished, and remove the vptr from Node.) All nodes are now included in the Kind enumeration, rather than omitting some of the Expr nodes, and the three different floating-point literal node types now have distinct Kind values. As a proof of concept for the visitation / matching mechanism, this patch implements a Node dumping facility on top of it, replacing the prior mechanism that produced the pretty-printed output rather than a tree dump. Sample dump output: FunctionEncoding( NameType("int"), NameWithTemplateArgs( NestedName( NameWithTemplateArgs( NameType("A"), TemplateArgs( {NameType("B")})), NameType("f")), TemplateArgs( {NameType("int")})), {}, <null>, QualConst, FunctionRefQual::FrefQualLValue) As a next step, it would make sense to move the LLVM high-level interface to the demangler (the itaniumDemangler function and ItaniumPartialDemangler class) into the Support library, and implement them in terms of the Demangle library. This would allow the libc++abi demangler implementation to be an identical copy of the llvm Demangle library, and would allow the LLVM implementation to reuse LLVM components such as llvm::BumpPtrAllocator, but we'll need to decide how to coordinate that with the MS ABI demangler, so I'm not doing that in this patch. No functionality change intended other than the behavior of dump(). Reviewers: erik.pilkington, zturner, chandlerc, dlj Subscribers: aheejin, llvm-commits Differential Revision: https://reviews.llvm.org/D50930 llvm-svn: 340203
2018-08-20 21:44:01 +02:00
// Overload used when T is exactly 'bool', not merely convertible to 'bool'.
void print(bool B) { printStr(B ? "true" : "false"); }
template <class T> std::enable_if_t<std::is_unsigned<T>::value> print(T N) {
fprintf(stderr, "%llu", (unsigned long long)N);
Move Itanium demangler implementation into a header file and add visitation support. Summary: This transforms the Itanium demangler into a generic reusable library that can be used to build, traverse, and transform Itanium mangled name trees. This is in preparation for adding a canonicalizing demangler, which cannot live in the Demangle library for layering reasons. In order to keep the diffs simpler, this patch moves more code to the new header than is strictly necessary: in particular, all of the printLeft / printRight implementations can be moved to the implementation file. (And indeed we could make them non-virtual now if we wished, and remove the vptr from Node.) All nodes are now included in the Kind enumeration, rather than omitting some of the Expr nodes, and the three different floating-point literal node types now have distinct Kind values. As a proof of concept for the visitation / matching mechanism, this patch implements a Node dumping facility on top of it, replacing the prior mechanism that produced the pretty-printed output rather than a tree dump. Sample dump output: FunctionEncoding( NameType("int"), NameWithTemplateArgs( NestedName( NameWithTemplateArgs( NameType("A"), TemplateArgs( {NameType("B")})), NameType("f")), TemplateArgs( {NameType("int")})), {}, <null>, QualConst, FunctionRefQual::FrefQualLValue) As a next step, it would make sense to move the LLVM high-level interface to the demangler (the itaniumDemangler function and ItaniumPartialDemangler class) into the Support library, and implement them in terms of the Demangle library. This would allow the libc++abi demangler implementation to be an identical copy of the llvm Demangle library, and would allow the LLVM implementation to reuse LLVM components such as llvm::BumpPtrAllocator, but we'll need to decide how to coordinate that with the MS ABI demangler, so I'm not doing that in this patch. No functionality change intended other than the behavior of dump(). Reviewers: erik.pilkington, zturner, chandlerc, dlj Subscribers: aheejin, llvm-commits Differential Revision: https://reviews.llvm.org/D50930 llvm-svn: 340203
2018-08-20 21:44:01 +02:00
}
template <class T> std::enable_if_t<std::is_signed<T>::value> print(T N) {
fprintf(stderr, "%lld", (long long)N);
Move Itanium demangler implementation into a header file and add visitation support. Summary: This transforms the Itanium demangler into a generic reusable library that can be used to build, traverse, and transform Itanium mangled name trees. This is in preparation for adding a canonicalizing demangler, which cannot live in the Demangle library for layering reasons. In order to keep the diffs simpler, this patch moves more code to the new header than is strictly necessary: in particular, all of the printLeft / printRight implementations can be moved to the implementation file. (And indeed we could make them non-virtual now if we wished, and remove the vptr from Node.) All nodes are now included in the Kind enumeration, rather than omitting some of the Expr nodes, and the three different floating-point literal node types now have distinct Kind values. As a proof of concept for the visitation / matching mechanism, this patch implements a Node dumping facility on top of it, replacing the prior mechanism that produced the pretty-printed output rather than a tree dump. Sample dump output: FunctionEncoding( NameType("int"), NameWithTemplateArgs( NestedName( NameWithTemplateArgs( NameType("A"), TemplateArgs( {NameType("B")})), NameType("f")), TemplateArgs( {NameType("int")})), {}, <null>, QualConst, FunctionRefQual::FrefQualLValue) As a next step, it would make sense to move the LLVM high-level interface to the demangler (the itaniumDemangler function and ItaniumPartialDemangler class) into the Support library, and implement them in terms of the Demangle library. This would allow the libc++abi demangler implementation to be an identical copy of the llvm Demangle library, and would allow the LLVM implementation to reuse LLVM components such as llvm::BumpPtrAllocator, but we'll need to decide how to coordinate that with the MS ABI demangler, so I'm not doing that in this patch. No functionality change intended other than the behavior of dump(). Reviewers: erik.pilkington, zturner, chandlerc, dlj Subscribers: aheejin, llvm-commits Differential Revision: https://reviews.llvm.org/D50930 llvm-svn: 340203
2018-08-20 21:44:01 +02:00
}
Move Itanium demangler implementation into a header file and add visitation support. Summary: This transforms the Itanium demangler into a generic reusable library that can be used to build, traverse, and transform Itanium mangled name trees. This is in preparation for adding a canonicalizing demangler, which cannot live in the Demangle library for layering reasons. In order to keep the diffs simpler, this patch moves more code to the new header than is strictly necessary: in particular, all of the printLeft / printRight implementations can be moved to the implementation file. (And indeed we could make them non-virtual now if we wished, and remove the vptr from Node.) All nodes are now included in the Kind enumeration, rather than omitting some of the Expr nodes, and the three different floating-point literal node types now have distinct Kind values. As a proof of concept for the visitation / matching mechanism, this patch implements a Node dumping facility on top of it, replacing the prior mechanism that produced the pretty-printed output rather than a tree dump. Sample dump output: FunctionEncoding( NameType("int"), NameWithTemplateArgs( NestedName( NameWithTemplateArgs( NameType("A"), TemplateArgs( {NameType("B")})), NameType("f")), TemplateArgs( {NameType("int")})), {}, <null>, QualConst, FunctionRefQual::FrefQualLValue) As a next step, it would make sense to move the LLVM high-level interface to the demangler (the itaniumDemangler function and ItaniumPartialDemangler class) into the Support library, and implement them in terms of the Demangle library. This would allow the libc++abi demangler implementation to be an identical copy of the llvm Demangle library, and would allow the LLVM implementation to reuse LLVM components such as llvm::BumpPtrAllocator, but we'll need to decide how to coordinate that with the MS ABI demangler, so I'm not doing that in this patch. No functionality change intended other than the behavior of dump(). Reviewers: erik.pilkington, zturner, chandlerc, dlj Subscribers: aheejin, llvm-commits Differential Revision: https://reviews.llvm.org/D50930 llvm-svn: 340203
2018-08-20 21:44:01 +02:00
void print(ReferenceKind RK) {
switch (RK) {
case ReferenceKind::LValue:
return printStr("ReferenceKind::LValue");
case ReferenceKind::RValue:
return printStr("ReferenceKind::RValue");
}
}
void print(FunctionRefQual RQ) {
switch (RQ) {
case FunctionRefQual::FrefQualNone:
return printStr("FunctionRefQual::FrefQualNone");
case FunctionRefQual::FrefQualLValue:
return printStr("FunctionRefQual::FrefQualLValue");
case FunctionRefQual::FrefQualRValue:
return printStr("FunctionRefQual::FrefQualRValue");
}
}
void print(Qualifiers Qs) {
if (!Qs) return printStr("QualNone");
struct QualName { Qualifiers Q; const char *Name; } Names[] = {
{QualConst, "QualConst"},
{QualVolatile, "QualVolatile"},
{QualRestrict, "QualRestrict"},
};
for (QualName Name : Names) {
if (Qs & Name.Q) {
printStr(Name.Name);
Qs = Qualifiers(Qs & ~Name.Q);
if (Qs) printStr(" | ");
}
}
}
Move Itanium demangler implementation into a header file and add visitation support. Summary: This transforms the Itanium demangler into a generic reusable library that can be used to build, traverse, and transform Itanium mangled name trees. This is in preparation for adding a canonicalizing demangler, which cannot live in the Demangle library for layering reasons. In order to keep the diffs simpler, this patch moves more code to the new header than is strictly necessary: in particular, all of the printLeft / printRight implementations can be moved to the implementation file. (And indeed we could make them non-virtual now if we wished, and remove the vptr from Node.) All nodes are now included in the Kind enumeration, rather than omitting some of the Expr nodes, and the three different floating-point literal node types now have distinct Kind values. As a proof of concept for the visitation / matching mechanism, this patch implements a Node dumping facility on top of it, replacing the prior mechanism that produced the pretty-printed output rather than a tree dump. Sample dump output: FunctionEncoding( NameType("int"), NameWithTemplateArgs( NestedName( NameWithTemplateArgs( NameType("A"), TemplateArgs( {NameType("B")})), NameType("f")), TemplateArgs( {NameType("int")})), {}, <null>, QualConst, FunctionRefQual::FrefQualLValue) As a next step, it would make sense to move the LLVM high-level interface to the demangler (the itaniumDemangler function and ItaniumPartialDemangler class) into the Support library, and implement them in terms of the Demangle library. This would allow the libc++abi demangler implementation to be an identical copy of the llvm Demangle library, and would allow the LLVM implementation to reuse LLVM components such as llvm::BumpPtrAllocator, but we'll need to decide how to coordinate that with the MS ABI demangler, so I'm not doing that in this patch. No functionality change intended other than the behavior of dump(). Reviewers: erik.pilkington, zturner, chandlerc, dlj Subscribers: aheejin, llvm-commits Differential Revision: https://reviews.llvm.org/D50930 llvm-svn: 340203
2018-08-20 21:44:01 +02:00
void print(SpecialSubKind SSK) {
switch (SSK) {
case SpecialSubKind::allocator:
return printStr("SpecialSubKind::allocator");
case SpecialSubKind::basic_string:
return printStr("SpecialSubKind::basic_string");
case SpecialSubKind::string:
return printStr("SpecialSubKind::string");
case SpecialSubKind::istream:
return printStr("SpecialSubKind::istream");
case SpecialSubKind::ostream:
return printStr("SpecialSubKind::ostream");
case SpecialSubKind::iostream:
return printStr("SpecialSubKind::iostream");
}
}
void print(TemplateParamKind TPK) {
switch (TPK) {
case TemplateParamKind::Type:
return printStr("TemplateParamKind::Type");
case TemplateParamKind::NonType:
return printStr("TemplateParamKind::NonType");
case TemplateParamKind::Template:
return printStr("TemplateParamKind::Template");
}
}
Move Itanium demangler implementation into a header file and add visitation support. Summary: This transforms the Itanium demangler into a generic reusable library that can be used to build, traverse, and transform Itanium mangled name trees. This is in preparation for adding a canonicalizing demangler, which cannot live in the Demangle library for layering reasons. In order to keep the diffs simpler, this patch moves more code to the new header than is strictly necessary: in particular, all of the printLeft / printRight implementations can be moved to the implementation file. (And indeed we could make them non-virtual now if we wished, and remove the vptr from Node.) All nodes are now included in the Kind enumeration, rather than omitting some of the Expr nodes, and the three different floating-point literal node types now have distinct Kind values. As a proof of concept for the visitation / matching mechanism, this patch implements a Node dumping facility on top of it, replacing the prior mechanism that produced the pretty-printed output rather than a tree dump. Sample dump output: FunctionEncoding( NameType("int"), NameWithTemplateArgs( NestedName( NameWithTemplateArgs( NameType("A"), TemplateArgs( {NameType("B")})), NameType("f")), TemplateArgs( {NameType("int")})), {}, <null>, QualConst, FunctionRefQual::FrefQualLValue) As a next step, it would make sense to move the LLVM high-level interface to the demangler (the itaniumDemangler function and ItaniumPartialDemangler class) into the Support library, and implement them in terms of the Demangle library. This would allow the libc++abi demangler implementation to be an identical copy of the llvm Demangle library, and would allow the LLVM implementation to reuse LLVM components such as llvm::BumpPtrAllocator, but we'll need to decide how to coordinate that with the MS ABI demangler, so I'm not doing that in this patch. No functionality change intended other than the behavior of dump(). Reviewers: erik.pilkington, zturner, chandlerc, dlj Subscribers: aheejin, llvm-commits Differential Revision: https://reviews.llvm.org/D50930 llvm-svn: 340203
2018-08-20 21:44:01 +02:00
void newLine() {
printStr("\n");
for (unsigned I = 0; I != Depth; ++I)
printStr(" ");
PendingNewline = false;
}
Move Itanium demangler implementation into a header file and add visitation support. Summary: This transforms the Itanium demangler into a generic reusable library that can be used to build, traverse, and transform Itanium mangled name trees. This is in preparation for adding a canonicalizing demangler, which cannot live in the Demangle library for layering reasons. In order to keep the diffs simpler, this patch moves more code to the new header than is strictly necessary: in particular, all of the printLeft / printRight implementations can be moved to the implementation file. (And indeed we could make them non-virtual now if we wished, and remove the vptr from Node.) All nodes are now included in the Kind enumeration, rather than omitting some of the Expr nodes, and the three different floating-point literal node types now have distinct Kind values. As a proof of concept for the visitation / matching mechanism, this patch implements a Node dumping facility on top of it, replacing the prior mechanism that produced the pretty-printed output rather than a tree dump. Sample dump output: FunctionEncoding( NameType("int"), NameWithTemplateArgs( NestedName( NameWithTemplateArgs( NameType("A"), TemplateArgs( {NameType("B")})), NameType("f")), TemplateArgs( {NameType("int")})), {}, <null>, QualConst, FunctionRefQual::FrefQualLValue) As a next step, it would make sense to move the LLVM high-level interface to the demangler (the itaniumDemangler function and ItaniumPartialDemangler class) into the Support library, and implement them in terms of the Demangle library. This would allow the libc++abi demangler implementation to be an identical copy of the llvm Demangle library, and would allow the LLVM implementation to reuse LLVM components such as llvm::BumpPtrAllocator, but we'll need to decide how to coordinate that with the MS ABI demangler, so I'm not doing that in this patch. No functionality change intended other than the behavior of dump(). Reviewers: erik.pilkington, zturner, chandlerc, dlj Subscribers: aheejin, llvm-commits Differential Revision: https://reviews.llvm.org/D50930 llvm-svn: 340203
2018-08-20 21:44:01 +02:00
template<typename T> void printWithPendingNewline(T V) {
print(V);
if (wantsNewline(V))
PendingNewline = true;
}
Move Itanium demangler implementation into a header file and add visitation support. Summary: This transforms the Itanium demangler into a generic reusable library that can be used to build, traverse, and transform Itanium mangled name trees. This is in preparation for adding a canonicalizing demangler, which cannot live in the Demangle library for layering reasons. In order to keep the diffs simpler, this patch moves more code to the new header than is strictly necessary: in particular, all of the printLeft / printRight implementations can be moved to the implementation file. (And indeed we could make them non-virtual now if we wished, and remove the vptr from Node.) All nodes are now included in the Kind enumeration, rather than omitting some of the Expr nodes, and the three different floating-point literal node types now have distinct Kind values. As a proof of concept for the visitation / matching mechanism, this patch implements a Node dumping facility on top of it, replacing the prior mechanism that produced the pretty-printed output rather than a tree dump. Sample dump output: FunctionEncoding( NameType("int"), NameWithTemplateArgs( NestedName( NameWithTemplateArgs( NameType("A"), TemplateArgs( {NameType("B")})), NameType("f")), TemplateArgs( {NameType("int")})), {}, <null>, QualConst, FunctionRefQual::FrefQualLValue) As a next step, it would make sense to move the LLVM high-level interface to the demangler (the itaniumDemangler function and ItaniumPartialDemangler class) into the Support library, and implement them in terms of the Demangle library. This would allow the libc++abi demangler implementation to be an identical copy of the llvm Demangle library, and would allow the LLVM implementation to reuse LLVM components such as llvm::BumpPtrAllocator, but we'll need to decide how to coordinate that with the MS ABI demangler, so I'm not doing that in this patch. No functionality change intended other than the behavior of dump(). Reviewers: erik.pilkington, zturner, chandlerc, dlj Subscribers: aheejin, llvm-commits Differential Revision: https://reviews.llvm.org/D50930 llvm-svn: 340203
2018-08-20 21:44:01 +02:00
template<typename T> void printWithComma(T V) {
if (PendingNewline || wantsNewline(V)) {
printStr(",");
newLine();
} else {
printStr(", ");
}
Move Itanium demangler implementation into a header file and add visitation support. Summary: This transforms the Itanium demangler into a generic reusable library that can be used to build, traverse, and transform Itanium mangled name trees. This is in preparation for adding a canonicalizing demangler, which cannot live in the Demangle library for layering reasons. In order to keep the diffs simpler, this patch moves more code to the new header than is strictly necessary: in particular, all of the printLeft / printRight implementations can be moved to the implementation file. (And indeed we could make them non-virtual now if we wished, and remove the vptr from Node.) All nodes are now included in the Kind enumeration, rather than omitting some of the Expr nodes, and the three different floating-point literal node types now have distinct Kind values. As a proof of concept for the visitation / matching mechanism, this patch implements a Node dumping facility on top of it, replacing the prior mechanism that produced the pretty-printed output rather than a tree dump. Sample dump output: FunctionEncoding( NameType("int"), NameWithTemplateArgs( NestedName( NameWithTemplateArgs( NameType("A"), TemplateArgs( {NameType("B")})), NameType("f")), TemplateArgs( {NameType("int")})), {}, <null>, QualConst, FunctionRefQual::FrefQualLValue) As a next step, it would make sense to move the LLVM high-level interface to the demangler (the itaniumDemangler function and ItaniumPartialDemangler class) into the Support library, and implement them in terms of the Demangle library. This would allow the libc++abi demangler implementation to be an identical copy of the llvm Demangle library, and would allow the LLVM implementation to reuse LLVM components such as llvm::BumpPtrAllocator, but we'll need to decide how to coordinate that with the MS ABI demangler, so I'm not doing that in this patch. No functionality change intended other than the behavior of dump(). Reviewers: erik.pilkington, zturner, chandlerc, dlj Subscribers: aheejin, llvm-commits Differential Revision: https://reviews.llvm.org/D50930 llvm-svn: 340203
2018-08-20 21:44:01 +02:00
printWithPendingNewline(V);
}
Move Itanium demangler implementation into a header file and add visitation support. Summary: This transforms the Itanium demangler into a generic reusable library that can be used to build, traverse, and transform Itanium mangled name trees. This is in preparation for adding a canonicalizing demangler, which cannot live in the Demangle library for layering reasons. In order to keep the diffs simpler, this patch moves more code to the new header than is strictly necessary: in particular, all of the printLeft / printRight implementations can be moved to the implementation file. (And indeed we could make them non-virtual now if we wished, and remove the vptr from Node.) All nodes are now included in the Kind enumeration, rather than omitting some of the Expr nodes, and the three different floating-point literal node types now have distinct Kind values. As a proof of concept for the visitation / matching mechanism, this patch implements a Node dumping facility on top of it, replacing the prior mechanism that produced the pretty-printed output rather than a tree dump. Sample dump output: FunctionEncoding( NameType("int"), NameWithTemplateArgs( NestedName( NameWithTemplateArgs( NameType("A"), TemplateArgs( {NameType("B")})), NameType("f")), TemplateArgs( {NameType("int")})), {}, <null>, QualConst, FunctionRefQual::FrefQualLValue) As a next step, it would make sense to move the LLVM high-level interface to the demangler (the itaniumDemangler function and ItaniumPartialDemangler class) into the Support library, and implement them in terms of the Demangle library. This would allow the libc++abi demangler implementation to be an identical copy of the llvm Demangle library, and would allow the LLVM implementation to reuse LLVM components such as llvm::BumpPtrAllocator, but we'll need to decide how to coordinate that with the MS ABI demangler, so I'm not doing that in this patch. No functionality change intended other than the behavior of dump(). Reviewers: erik.pilkington, zturner, chandlerc, dlj Subscribers: aheejin, llvm-commits Differential Revision: https://reviews.llvm.org/D50930 llvm-svn: 340203
2018-08-20 21:44:01 +02:00
struct CtorArgPrinter {
DumpVisitor &Visitor;
Move Itanium demangler implementation into a header file and add visitation support. Summary: This transforms the Itanium demangler into a generic reusable library that can be used to build, traverse, and transform Itanium mangled name trees. This is in preparation for adding a canonicalizing demangler, which cannot live in the Demangle library for layering reasons. In order to keep the diffs simpler, this patch moves more code to the new header than is strictly necessary: in particular, all of the printLeft / printRight implementations can be moved to the implementation file. (And indeed we could make them non-virtual now if we wished, and remove the vptr from Node.) All nodes are now included in the Kind enumeration, rather than omitting some of the Expr nodes, and the three different floating-point literal node types now have distinct Kind values. As a proof of concept for the visitation / matching mechanism, this patch implements a Node dumping facility on top of it, replacing the prior mechanism that produced the pretty-printed output rather than a tree dump. Sample dump output: FunctionEncoding( NameType("int"), NameWithTemplateArgs( NestedName( NameWithTemplateArgs( NameType("A"), TemplateArgs( {NameType("B")})), NameType("f")), TemplateArgs( {NameType("int")})), {}, <null>, QualConst, FunctionRefQual::FrefQualLValue) As a next step, it would make sense to move the LLVM high-level interface to the demangler (the itaniumDemangler function and ItaniumPartialDemangler class) into the Support library, and implement them in terms of the Demangle library. This would allow the libc++abi demangler implementation to be an identical copy of the llvm Demangle library, and would allow the LLVM implementation to reuse LLVM components such as llvm::BumpPtrAllocator, but we'll need to decide how to coordinate that with the MS ABI demangler, so I'm not doing that in this patch. No functionality change intended other than the behavior of dump(). Reviewers: erik.pilkington, zturner, chandlerc, dlj Subscribers: aheejin, llvm-commits Differential Revision: https://reviews.llvm.org/D50930 llvm-svn: 340203
2018-08-20 21:44:01 +02:00
template<typename T, typename ...Rest> void operator()(T V, Rest ...Vs) {
if (Visitor.anyWantNewline(V, Vs...))
Visitor.newLine();
Visitor.printWithPendingNewline(V);
int PrintInOrder[] = { (Visitor.printWithComma(Vs), 0)..., 0 };
(void)PrintInOrder;
}
};
Move Itanium demangler implementation into a header file and add visitation support. Summary: This transforms the Itanium demangler into a generic reusable library that can be used to build, traverse, and transform Itanium mangled name trees. This is in preparation for adding a canonicalizing demangler, which cannot live in the Demangle library for layering reasons. In order to keep the diffs simpler, this patch moves more code to the new header than is strictly necessary: in particular, all of the printLeft / printRight implementations can be moved to the implementation file. (And indeed we could make them non-virtual now if we wished, and remove the vptr from Node.) All nodes are now included in the Kind enumeration, rather than omitting some of the Expr nodes, and the three different floating-point literal node types now have distinct Kind values. As a proof of concept for the visitation / matching mechanism, this patch implements a Node dumping facility on top of it, replacing the prior mechanism that produced the pretty-printed output rather than a tree dump. Sample dump output: FunctionEncoding( NameType("int"), NameWithTemplateArgs( NestedName( NameWithTemplateArgs( NameType("A"), TemplateArgs( {NameType("B")})), NameType("f")), TemplateArgs( {NameType("int")})), {}, <null>, QualConst, FunctionRefQual::FrefQualLValue) As a next step, it would make sense to move the LLVM high-level interface to the demangler (the itaniumDemangler function and ItaniumPartialDemangler class) into the Support library, and implement them in terms of the Demangle library. This would allow the libc++abi demangler implementation to be an identical copy of the llvm Demangle library, and would allow the LLVM implementation to reuse LLVM components such as llvm::BumpPtrAllocator, but we'll need to decide how to coordinate that with the MS ABI demangler, so I'm not doing that in this patch. No functionality change intended other than the behavior of dump(). Reviewers: erik.pilkington, zturner, chandlerc, dlj Subscribers: aheejin, llvm-commits Differential Revision: https://reviews.llvm.org/D50930 llvm-svn: 340203
2018-08-20 21:44:01 +02:00
template<typename NodeT> void operator()(const NodeT *Node) {
Depth += 2;
fprintf(stderr, "%s(", itanium_demangle::NodeKind<NodeT>::name());
Node->match(CtorArgPrinter{*this});
fprintf(stderr, ")");
Depth -= 2;
}
void operator()(const ForwardTemplateReference *Node) {
Depth += 2;
fprintf(stderr, "ForwardTemplateReference(");
if (Node->Ref && !Node->Printing) {
Node->Printing = true;
CtorArgPrinter{*this}(Node->Ref);
Node->Printing = false;
} else {
Move Itanium demangler implementation into a header file and add visitation support. Summary: This transforms the Itanium demangler into a generic reusable library that can be used to build, traverse, and transform Itanium mangled name trees. This is in preparation for adding a canonicalizing demangler, which cannot live in the Demangle library for layering reasons. In order to keep the diffs simpler, this patch moves more code to the new header than is strictly necessary: in particular, all of the printLeft / printRight implementations can be moved to the implementation file. (And indeed we could make them non-virtual now if we wished, and remove the vptr from Node.) All nodes are now included in the Kind enumeration, rather than omitting some of the Expr nodes, and the three different floating-point literal node types now have distinct Kind values. As a proof of concept for the visitation / matching mechanism, this patch implements a Node dumping facility on top of it, replacing the prior mechanism that produced the pretty-printed output rather than a tree dump. Sample dump output: FunctionEncoding( NameType("int"), NameWithTemplateArgs( NestedName( NameWithTemplateArgs( NameType("A"), TemplateArgs( {NameType("B")})), NameType("f")), TemplateArgs( {NameType("int")})), {}, <null>, QualConst, FunctionRefQual::FrefQualLValue) As a next step, it would make sense to move the LLVM high-level interface to the demangler (the itaniumDemangler function and ItaniumPartialDemangler class) into the Support library, and implement them in terms of the Demangle library. This would allow the libc++abi demangler implementation to be an identical copy of the llvm Demangle library, and would allow the LLVM implementation to reuse LLVM components such as llvm::BumpPtrAllocator, but we'll need to decide how to coordinate that with the MS ABI demangler, so I'm not doing that in this patch. No functionality change intended other than the behavior of dump(). Reviewers: erik.pilkington, zturner, chandlerc, dlj Subscribers: aheejin, llvm-commits Differential Revision: https://reviews.llvm.org/D50930 llvm-svn: 340203
2018-08-20 21:44:01 +02:00
CtorArgPrinter{*this}(Node->Index);
}
Move Itanium demangler implementation into a header file and add visitation support. Summary: This transforms the Itanium demangler into a generic reusable library that can be used to build, traverse, and transform Itanium mangled name trees. This is in preparation for adding a canonicalizing demangler, which cannot live in the Demangle library for layering reasons. In order to keep the diffs simpler, this patch moves more code to the new header than is strictly necessary: in particular, all of the printLeft / printRight implementations can be moved to the implementation file. (And indeed we could make them non-virtual now if we wished, and remove the vptr from Node.) All nodes are now included in the Kind enumeration, rather than omitting some of the Expr nodes, and the three different floating-point literal node types now have distinct Kind values. As a proof of concept for the visitation / matching mechanism, this patch implements a Node dumping facility on top of it, replacing the prior mechanism that produced the pretty-printed output rather than a tree dump. Sample dump output: FunctionEncoding( NameType("int"), NameWithTemplateArgs( NestedName( NameWithTemplateArgs( NameType("A"), TemplateArgs( {NameType("B")})), NameType("f")), TemplateArgs( {NameType("int")})), {}, <null>, QualConst, FunctionRefQual::FrefQualLValue) As a next step, it would make sense to move the LLVM high-level interface to the demangler (the itaniumDemangler function and ItaniumPartialDemangler class) into the Support library, and implement them in terms of the Demangle library. This would allow the libc++abi demangler implementation to be an identical copy of the llvm Demangle library, and would allow the LLVM implementation to reuse LLVM components such as llvm::BumpPtrAllocator, but we'll need to decide how to coordinate that with the MS ABI demangler, so I'm not doing that in this patch. No functionality change intended other than the behavior of dump(). Reviewers: erik.pilkington, zturner, chandlerc, dlj Subscribers: aheejin, llvm-commits Differential Revision: https://reviews.llvm.org/D50930 llvm-svn: 340203
2018-08-20 21:44:01 +02:00
fprintf(stderr, ")");
Depth -= 2;
}
Move Itanium demangler implementation into a header file and add visitation support. Summary: This transforms the Itanium demangler into a generic reusable library that can be used to build, traverse, and transform Itanium mangled name trees. This is in preparation for adding a canonicalizing demangler, which cannot live in the Demangle library for layering reasons. In order to keep the diffs simpler, this patch moves more code to the new header than is strictly necessary: in particular, all of the printLeft / printRight implementations can be moved to the implementation file. (And indeed we could make them non-virtual now if we wished, and remove the vptr from Node.) All nodes are now included in the Kind enumeration, rather than omitting some of the Expr nodes, and the three different floating-point literal node types now have distinct Kind values. As a proof of concept for the visitation / matching mechanism, this patch implements a Node dumping facility on top of it, replacing the prior mechanism that produced the pretty-printed output rather than a tree dump. Sample dump output: FunctionEncoding( NameType("int"), NameWithTemplateArgs( NestedName( NameWithTemplateArgs( NameType("A"), TemplateArgs( {NameType("B")})), NameType("f")), TemplateArgs( {NameType("int")})), {}, <null>, QualConst, FunctionRefQual::FrefQualLValue) As a next step, it would make sense to move the LLVM high-level interface to the demangler (the itaniumDemangler function and ItaniumPartialDemangler class) into the Support library, and implement them in terms of the Demangle library. This would allow the libc++abi demangler implementation to be an identical copy of the llvm Demangle library, and would allow the LLVM implementation to reuse LLVM components such as llvm::BumpPtrAllocator, but we'll need to decide how to coordinate that with the MS ABI demangler, so I'm not doing that in this patch. No functionality change intended other than the behavior of dump(). Reviewers: erik.pilkington, zturner, chandlerc, dlj Subscribers: aheejin, llvm-commits Differential Revision: https://reviews.llvm.org/D50930 llvm-svn: 340203
2018-08-20 21:44:01 +02:00
};
}
Move Itanium demangler implementation into a header file and add visitation support. Summary: This transforms the Itanium demangler into a generic reusable library that can be used to build, traverse, and transform Itanium mangled name trees. This is in preparation for adding a canonicalizing demangler, which cannot live in the Demangle library for layering reasons. In order to keep the diffs simpler, this patch moves more code to the new header than is strictly necessary: in particular, all of the printLeft / printRight implementations can be moved to the implementation file. (And indeed we could make them non-virtual now if we wished, and remove the vptr from Node.) All nodes are now included in the Kind enumeration, rather than omitting some of the Expr nodes, and the three different floating-point literal node types now have distinct Kind values. As a proof of concept for the visitation / matching mechanism, this patch implements a Node dumping facility on top of it, replacing the prior mechanism that produced the pretty-printed output rather than a tree dump. Sample dump output: FunctionEncoding( NameType("int"), NameWithTemplateArgs( NestedName( NameWithTemplateArgs( NameType("A"), TemplateArgs( {NameType("B")})), NameType("f")), TemplateArgs( {NameType("int")})), {}, <null>, QualConst, FunctionRefQual::FrefQualLValue) As a next step, it would make sense to move the LLVM high-level interface to the demangler (the itaniumDemangler function and ItaniumPartialDemangler class) into the Support library, and implement them in terms of the Demangle library. This would allow the libc++abi demangler implementation to be an identical copy of the llvm Demangle library, and would allow the LLVM implementation to reuse LLVM components such as llvm::BumpPtrAllocator, but we'll need to decide how to coordinate that with the MS ABI demangler, so I'm not doing that in this patch. No functionality change intended other than the behavior of dump(). Reviewers: erik.pilkington, zturner, chandlerc, dlj Subscribers: aheejin, llvm-commits Differential Revision: https://reviews.llvm.org/D50930 llvm-svn: 340203
2018-08-20 21:44:01 +02:00
void itanium_demangle::Node::dump() const {
DumpVisitor V;
visit(std::ref(V));
V.newLine();
}
#endif
Move Itanium demangler implementation into a header file and add visitation support. Summary: This transforms the Itanium demangler into a generic reusable library that can be used to build, traverse, and transform Itanium mangled name trees. This is in preparation for adding a canonicalizing demangler, which cannot live in the Demangle library for layering reasons. In order to keep the diffs simpler, this patch moves more code to the new header than is strictly necessary: in particular, all of the printLeft / printRight implementations can be moved to the implementation file. (And indeed we could make them non-virtual now if we wished, and remove the vptr from Node.) All nodes are now included in the Kind enumeration, rather than omitting some of the Expr nodes, and the three different floating-point literal node types now have distinct Kind values. As a proof of concept for the visitation / matching mechanism, this patch implements a Node dumping facility on top of it, replacing the prior mechanism that produced the pretty-printed output rather than a tree dump. Sample dump output: FunctionEncoding( NameType("int"), NameWithTemplateArgs( NestedName( NameWithTemplateArgs( NameType("A"), TemplateArgs( {NameType("B")})), NameType("f")), TemplateArgs( {NameType("int")})), {}, <null>, QualConst, FunctionRefQual::FrefQualLValue) As a next step, it would make sense to move the LLVM high-level interface to the demangler (the itaniumDemangler function and ItaniumPartialDemangler class) into the Support library, and implement them in terms of the Demangle library. This would allow the libc++abi demangler implementation to be an identical copy of the llvm Demangle library, and would allow the LLVM implementation to reuse LLVM components such as llvm::BumpPtrAllocator, but we'll need to decide how to coordinate that with the MS ABI demangler, so I'm not doing that in this patch. No functionality change intended other than the behavior of dump(). Reviewers: erik.pilkington, zturner, chandlerc, dlj Subscribers: aheejin, llvm-commits Differential Revision: https://reviews.llvm.org/D50930 llvm-svn: 340203
2018-08-20 21:44:01 +02:00
namespace {
class BumpPointerAllocator {
struct BlockMeta {
BlockMeta* Next;
size_t Current;
};
Move Itanium demangler implementation into a header file and add visitation support. Summary: This transforms the Itanium demangler into a generic reusable library that can be used to build, traverse, and transform Itanium mangled name trees. This is in preparation for adding a canonicalizing demangler, which cannot live in the Demangle library for layering reasons. In order to keep the diffs simpler, this patch moves more code to the new header than is strictly necessary: in particular, all of the printLeft / printRight implementations can be moved to the implementation file. (And indeed we could make them non-virtual now if we wished, and remove the vptr from Node.) All nodes are now included in the Kind enumeration, rather than omitting some of the Expr nodes, and the three different floating-point literal node types now have distinct Kind values. As a proof of concept for the visitation / matching mechanism, this patch implements a Node dumping facility on top of it, replacing the prior mechanism that produced the pretty-printed output rather than a tree dump. Sample dump output: FunctionEncoding( NameType("int"), NameWithTemplateArgs( NestedName( NameWithTemplateArgs( NameType("A"), TemplateArgs( {NameType("B")})), NameType("f")), TemplateArgs( {NameType("int")})), {}, <null>, QualConst, FunctionRefQual::FrefQualLValue) As a next step, it would make sense to move the LLVM high-level interface to the demangler (the itaniumDemangler function and ItaniumPartialDemangler class) into the Support library, and implement them in terms of the Demangle library. This would allow the libc++abi demangler implementation to be an identical copy of the llvm Demangle library, and would allow the LLVM implementation to reuse LLVM components such as llvm::BumpPtrAllocator, but we'll need to decide how to coordinate that with the MS ABI demangler, so I'm not doing that in this patch. No functionality change intended other than the behavior of dump(). Reviewers: erik.pilkington, zturner, chandlerc, dlj Subscribers: aheejin, llvm-commits Differential Revision: https://reviews.llvm.org/D50930 llvm-svn: 340203
2018-08-20 21:44:01 +02:00
static constexpr size_t AllocSize = 4096;
static constexpr size_t UsableAllocSize = AllocSize - sizeof(BlockMeta);
Move Itanium demangler implementation into a header file and add visitation support. Summary: This transforms the Itanium demangler into a generic reusable library that can be used to build, traverse, and transform Itanium mangled name trees. This is in preparation for adding a canonicalizing demangler, which cannot live in the Demangle library for layering reasons. In order to keep the diffs simpler, this patch moves more code to the new header than is strictly necessary: in particular, all of the printLeft / printRight implementations can be moved to the implementation file. (And indeed we could make them non-virtual now if we wished, and remove the vptr from Node.) All nodes are now included in the Kind enumeration, rather than omitting some of the Expr nodes, and the three different floating-point literal node types now have distinct Kind values. As a proof of concept for the visitation / matching mechanism, this patch implements a Node dumping facility on top of it, replacing the prior mechanism that produced the pretty-printed output rather than a tree dump. Sample dump output: FunctionEncoding( NameType("int"), NameWithTemplateArgs( NestedName( NameWithTemplateArgs( NameType("A"), TemplateArgs( {NameType("B")})), NameType("f")), TemplateArgs( {NameType("int")})), {}, <null>, QualConst, FunctionRefQual::FrefQualLValue) As a next step, it would make sense to move the LLVM high-level interface to the demangler (the itaniumDemangler function and ItaniumPartialDemangler class) into the Support library, and implement them in terms of the Demangle library. This would allow the libc++abi demangler implementation to be an identical copy of the llvm Demangle library, and would allow the LLVM implementation to reuse LLVM components such as llvm::BumpPtrAllocator, but we'll need to decide how to coordinate that with the MS ABI demangler, so I'm not doing that in this patch. No functionality change intended other than the behavior of dump(). Reviewers: erik.pilkington, zturner, chandlerc, dlj Subscribers: aheejin, llvm-commits Differential Revision: https://reviews.llvm.org/D50930 llvm-svn: 340203
2018-08-20 21:44:01 +02:00
alignas(long double) char InitialBuffer[AllocSize];
BlockMeta* BlockList = nullptr;
Move Itanium demangler implementation into a header file and add visitation support. Summary: This transforms the Itanium demangler into a generic reusable library that can be used to build, traverse, and transform Itanium mangled name trees. This is in preparation for adding a canonicalizing demangler, which cannot live in the Demangle library for layering reasons. In order to keep the diffs simpler, this patch moves more code to the new header than is strictly necessary: in particular, all of the printLeft / printRight implementations can be moved to the implementation file. (And indeed we could make them non-virtual now if we wished, and remove the vptr from Node.) All nodes are now included in the Kind enumeration, rather than omitting some of the Expr nodes, and the three different floating-point literal node types now have distinct Kind values. As a proof of concept for the visitation / matching mechanism, this patch implements a Node dumping facility on top of it, replacing the prior mechanism that produced the pretty-printed output rather than a tree dump. Sample dump output: FunctionEncoding( NameType("int"), NameWithTemplateArgs( NestedName( NameWithTemplateArgs( NameType("A"), TemplateArgs( {NameType("B")})), NameType("f")), TemplateArgs( {NameType("int")})), {}, <null>, QualConst, FunctionRefQual::FrefQualLValue) As a next step, it would make sense to move the LLVM high-level interface to the demangler (the itaniumDemangler function and ItaniumPartialDemangler class) into the Support library, and implement them in terms of the Demangle library. This would allow the libc++abi demangler implementation to be an identical copy of the llvm Demangle library, and would allow the LLVM implementation to reuse LLVM components such as llvm::BumpPtrAllocator, but we'll need to decide how to coordinate that with the MS ABI demangler, so I'm not doing that in this patch. No functionality change intended other than the behavior of dump(). Reviewers: erik.pilkington, zturner, chandlerc, dlj Subscribers: aheejin, llvm-commits Differential Revision: https://reviews.llvm.org/D50930 llvm-svn: 340203
2018-08-20 21:44:01 +02:00
void grow() {
char* NewMeta = static_cast<char *>(std::malloc(AllocSize));
if (NewMeta == nullptr)
std::terminate();
BlockList = new (NewMeta) BlockMeta{BlockList, 0};
}
Move Itanium demangler implementation into a header file and add visitation support. Summary: This transforms the Itanium demangler into a generic reusable library that can be used to build, traverse, and transform Itanium mangled name trees. This is in preparation for adding a canonicalizing demangler, which cannot live in the Demangle library for layering reasons. In order to keep the diffs simpler, this patch moves more code to the new header than is strictly necessary: in particular, all of the printLeft / printRight implementations can be moved to the implementation file. (And indeed we could make them non-virtual now if we wished, and remove the vptr from Node.) All nodes are now included in the Kind enumeration, rather than omitting some of the Expr nodes, and the three different floating-point literal node types now have distinct Kind values. As a proof of concept for the visitation / matching mechanism, this patch implements a Node dumping facility on top of it, replacing the prior mechanism that produced the pretty-printed output rather than a tree dump. Sample dump output: FunctionEncoding( NameType("int"), NameWithTemplateArgs( NestedName( NameWithTemplateArgs( NameType("A"), TemplateArgs( {NameType("B")})), NameType("f")), TemplateArgs( {NameType("int")})), {}, <null>, QualConst, FunctionRefQual::FrefQualLValue) As a next step, it would make sense to move the LLVM high-level interface to the demangler (the itaniumDemangler function and ItaniumPartialDemangler class) into the Support library, and implement them in terms of the Demangle library. This would allow the libc++abi demangler implementation to be an identical copy of the llvm Demangle library, and would allow the LLVM implementation to reuse LLVM components such as llvm::BumpPtrAllocator, but we'll need to decide how to coordinate that with the MS ABI demangler, so I'm not doing that in this patch. No functionality change intended other than the behavior of dump(). Reviewers: erik.pilkington, zturner, chandlerc, dlj Subscribers: aheejin, llvm-commits Differential Revision: https://reviews.llvm.org/D50930 llvm-svn: 340203
2018-08-20 21:44:01 +02:00
void* allocateMassive(size_t NBytes) {
NBytes += sizeof(BlockMeta);
BlockMeta* NewMeta = reinterpret_cast<BlockMeta*>(std::malloc(NBytes));
if (NewMeta == nullptr)
std::terminate();
BlockList->Next = new (NewMeta) BlockMeta{BlockList->Next, 0};
return static_cast<void*>(NewMeta + 1);
}
Move Itanium demangler implementation into a header file and add visitation support. Summary: This transforms the Itanium demangler into a generic reusable library that can be used to build, traverse, and transform Itanium mangled name trees. This is in preparation for adding a canonicalizing demangler, which cannot live in the Demangle library for layering reasons. In order to keep the diffs simpler, this patch moves more code to the new header than is strictly necessary: in particular, all of the printLeft / printRight implementations can be moved to the implementation file. (And indeed we could make them non-virtual now if we wished, and remove the vptr from Node.) All nodes are now included in the Kind enumeration, rather than omitting some of the Expr nodes, and the three different floating-point literal node types now have distinct Kind values. As a proof of concept for the visitation / matching mechanism, this patch implements a Node dumping facility on top of it, replacing the prior mechanism that produced the pretty-printed output rather than a tree dump. Sample dump output: FunctionEncoding( NameType("int"), NameWithTemplateArgs( NestedName( NameWithTemplateArgs( NameType("A"), TemplateArgs( {NameType("B")})), NameType("f")), TemplateArgs( {NameType("int")})), {}, <null>, QualConst, FunctionRefQual::FrefQualLValue) As a next step, it would make sense to move the LLVM high-level interface to the demangler (the itaniumDemangler function and ItaniumPartialDemangler class) into the Support library, and implement them in terms of the Demangle library. This would allow the libc++abi demangler implementation to be an identical copy of the llvm Demangle library, and would allow the LLVM implementation to reuse LLVM components such as llvm::BumpPtrAllocator, but we'll need to decide how to coordinate that with the MS ABI demangler, so I'm not doing that in this patch. No functionality change intended other than the behavior of dump(). Reviewers: erik.pilkington, zturner, chandlerc, dlj Subscribers: aheejin, llvm-commits Differential Revision: https://reviews.llvm.org/D50930 llvm-svn: 340203
2018-08-20 21:44:01 +02:00
public:
BumpPointerAllocator()
: BlockList(new (InitialBuffer) BlockMeta{nullptr, 0}) {}
Move Itanium demangler implementation into a header file and add visitation support. Summary: This transforms the Itanium demangler into a generic reusable library that can be used to build, traverse, and transform Itanium mangled name trees. This is in preparation for adding a canonicalizing demangler, which cannot live in the Demangle library for layering reasons. In order to keep the diffs simpler, this patch moves more code to the new header than is strictly necessary: in particular, all of the printLeft / printRight implementations can be moved to the implementation file. (And indeed we could make them non-virtual now if we wished, and remove the vptr from Node.) All nodes are now included in the Kind enumeration, rather than omitting some of the Expr nodes, and the three different floating-point literal node types now have distinct Kind values. As a proof of concept for the visitation / matching mechanism, this patch implements a Node dumping facility on top of it, replacing the prior mechanism that produced the pretty-printed output rather than a tree dump. Sample dump output: FunctionEncoding( NameType("int"), NameWithTemplateArgs( NestedName( NameWithTemplateArgs( NameType("A"), TemplateArgs( {NameType("B")})), NameType("f")), TemplateArgs( {NameType("int")})), {}, <null>, QualConst, FunctionRefQual::FrefQualLValue) As a next step, it would make sense to move the LLVM high-level interface to the demangler (the itaniumDemangler function and ItaniumPartialDemangler class) into the Support library, and implement them in terms of the Demangle library. This would allow the libc++abi demangler implementation to be an identical copy of the llvm Demangle library, and would allow the LLVM implementation to reuse LLVM components such as llvm::BumpPtrAllocator, but we'll need to decide how to coordinate that with the MS ABI demangler, so I'm not doing that in this patch. No functionality change intended other than the behavior of dump(). Reviewers: erik.pilkington, zturner, chandlerc, dlj Subscribers: aheejin, llvm-commits Differential Revision: https://reviews.llvm.org/D50930 llvm-svn: 340203
2018-08-20 21:44:01 +02:00
void* allocate(size_t N) {
N = (N + 15u) & ~15u;
if (N + BlockList->Current >= UsableAllocSize) {
if (N > UsableAllocSize)
return allocateMassive(N);
grow();
}
Move Itanium demangler implementation into a header file and add visitation support. Summary: This transforms the Itanium demangler into a generic reusable library that can be used to build, traverse, and transform Itanium mangled name trees. This is in preparation for adding a canonicalizing demangler, which cannot live in the Demangle library for layering reasons. In order to keep the diffs simpler, this patch moves more code to the new header than is strictly necessary: in particular, all of the printLeft / printRight implementations can be moved to the implementation file. (And indeed we could make them non-virtual now if we wished, and remove the vptr from Node.) All nodes are now included in the Kind enumeration, rather than omitting some of the Expr nodes, and the three different floating-point literal node types now have distinct Kind values. As a proof of concept for the visitation / matching mechanism, this patch implements a Node dumping facility on top of it, replacing the prior mechanism that produced the pretty-printed output rather than a tree dump. Sample dump output: FunctionEncoding( NameType("int"), NameWithTemplateArgs( NestedName( NameWithTemplateArgs( NameType("A"), TemplateArgs( {NameType("B")})), NameType("f")), TemplateArgs( {NameType("int")})), {}, <null>, QualConst, FunctionRefQual::FrefQualLValue) As a next step, it would make sense to move the LLVM high-level interface to the demangler (the itaniumDemangler function and ItaniumPartialDemangler class) into the Support library, and implement them in terms of the Demangle library. This would allow the libc++abi demangler implementation to be an identical copy of the llvm Demangle library, and would allow the LLVM implementation to reuse LLVM components such as llvm::BumpPtrAllocator, but we'll need to decide how to coordinate that with the MS ABI demangler, so I'm not doing that in this patch. No functionality change intended other than the behavior of dump(). Reviewers: erik.pilkington, zturner, chandlerc, dlj Subscribers: aheejin, llvm-commits Differential Revision: https://reviews.llvm.org/D50930 llvm-svn: 340203
2018-08-20 21:44:01 +02:00
BlockList->Current += N;
return static_cast<void*>(reinterpret_cast<char*>(BlockList + 1) +
BlockList->Current - N);
}
Move Itanium demangler implementation into a header file and add visitation support. Summary: This transforms the Itanium demangler into a generic reusable library that can be used to build, traverse, and transform Itanium mangled name trees. This is in preparation for adding a canonicalizing demangler, which cannot live in the Demangle library for layering reasons. In order to keep the diffs simpler, this patch moves more code to the new header than is strictly necessary: in particular, all of the printLeft / printRight implementations can be moved to the implementation file. (And indeed we could make them non-virtual now if we wished, and remove the vptr from Node.) All nodes are now included in the Kind enumeration, rather than omitting some of the Expr nodes, and the three different floating-point literal node types now have distinct Kind values. As a proof of concept for the visitation / matching mechanism, this patch implements a Node dumping facility on top of it, replacing the prior mechanism that produced the pretty-printed output rather than a tree dump. Sample dump output: FunctionEncoding( NameType("int"), NameWithTemplateArgs( NestedName( NameWithTemplateArgs( NameType("A"), TemplateArgs( {NameType("B")})), NameType("f")), TemplateArgs( {NameType("int")})), {}, <null>, QualConst, FunctionRefQual::FrefQualLValue) As a next step, it would make sense to move the LLVM high-level interface to the demangler (the itaniumDemangler function and ItaniumPartialDemangler class) into the Support library, and implement them in terms of the Demangle library. This would allow the libc++abi demangler implementation to be an identical copy of the llvm Demangle library, and would allow the LLVM implementation to reuse LLVM components such as llvm::BumpPtrAllocator, but we'll need to decide how to coordinate that with the MS ABI demangler, so I'm not doing that in this patch. No functionality change intended other than the behavior of dump(). Reviewers: erik.pilkington, zturner, chandlerc, dlj Subscribers: aheejin, llvm-commits Differential Revision: https://reviews.llvm.org/D50930 llvm-svn: 340203
2018-08-20 21:44:01 +02:00
void reset() {
while (BlockList) {
BlockMeta* Tmp = BlockList;
BlockList = BlockList->Next;
if (reinterpret_cast<char*>(Tmp) != InitialBuffer)
std::free(Tmp);
}
Move Itanium demangler implementation into a header file and add visitation support. Summary: This transforms the Itanium demangler into a generic reusable library that can be used to build, traverse, and transform Itanium mangled name trees. This is in preparation for adding a canonicalizing demangler, which cannot live in the Demangle library for layering reasons. In order to keep the diffs simpler, this patch moves more code to the new header than is strictly necessary: in particular, all of the printLeft / printRight implementations can be moved to the implementation file. (And indeed we could make them non-virtual now if we wished, and remove the vptr from Node.) All nodes are now included in the Kind enumeration, rather than omitting some of the Expr nodes, and the three different floating-point literal node types now have distinct Kind values. As a proof of concept for the visitation / matching mechanism, this patch implements a Node dumping facility on top of it, replacing the prior mechanism that produced the pretty-printed output rather than a tree dump. Sample dump output: FunctionEncoding( NameType("int"), NameWithTemplateArgs( NestedName( NameWithTemplateArgs( NameType("A"), TemplateArgs( {NameType("B")})), NameType("f")), TemplateArgs( {NameType("int")})), {}, <null>, QualConst, FunctionRefQual::FrefQualLValue) As a next step, it would make sense to move the LLVM high-level interface to the demangler (the itaniumDemangler function and ItaniumPartialDemangler class) into the Support library, and implement them in terms of the Demangle library. This would allow the libc++abi demangler implementation to be an identical copy of the llvm Demangle library, and would allow the LLVM implementation to reuse LLVM components such as llvm::BumpPtrAllocator, but we'll need to decide how to coordinate that with the MS ABI demangler, so I'm not doing that in this patch. No functionality change intended other than the behavior of dump(). Reviewers: erik.pilkington, zturner, chandlerc, dlj Subscribers: aheejin, llvm-commits Differential Revision: https://reviews.llvm.org/D50930 llvm-svn: 340203
2018-08-20 21:44:01 +02:00
BlockList = new (InitialBuffer) BlockMeta{nullptr, 0};
}
Move Itanium demangler implementation into a header file and add visitation support. Summary: This transforms the Itanium demangler into a generic reusable library that can be used to build, traverse, and transform Itanium mangled name trees. This is in preparation for adding a canonicalizing demangler, which cannot live in the Demangle library for layering reasons. In order to keep the diffs simpler, this patch moves more code to the new header than is strictly necessary: in particular, all of the printLeft / printRight implementations can be moved to the implementation file. (And indeed we could make them non-virtual now if we wished, and remove the vptr from Node.) All nodes are now included in the Kind enumeration, rather than omitting some of the Expr nodes, and the three different floating-point literal node types now have distinct Kind values. As a proof of concept for the visitation / matching mechanism, this patch implements a Node dumping facility on top of it, replacing the prior mechanism that produced the pretty-printed output rather than a tree dump. Sample dump output: FunctionEncoding( NameType("int"), NameWithTemplateArgs( NestedName( NameWithTemplateArgs( NameType("A"), TemplateArgs( {NameType("B")})), NameType("f")), TemplateArgs( {NameType("int")})), {}, <null>, QualConst, FunctionRefQual::FrefQualLValue) As a next step, it would make sense to move the LLVM high-level interface to the demangler (the itaniumDemangler function and ItaniumPartialDemangler class) into the Support library, and implement them in terms of the Demangle library. This would allow the libc++abi demangler implementation to be an identical copy of the llvm Demangle library, and would allow the LLVM implementation to reuse LLVM components such as llvm::BumpPtrAllocator, but we'll need to decide how to coordinate that with the MS ABI demangler, so I'm not doing that in this patch. No functionality change intended other than the behavior of dump(). Reviewers: erik.pilkington, zturner, chandlerc, dlj Subscribers: aheejin, llvm-commits Differential Revision: https://reviews.llvm.org/D50930 llvm-svn: 340203
2018-08-20 21:44:01 +02:00
~BumpPointerAllocator() { reset(); }
};
Move Itanium demangler implementation into a header file and add visitation support. Summary: This transforms the Itanium demangler into a generic reusable library that can be used to build, traverse, and transform Itanium mangled name trees. This is in preparation for adding a canonicalizing demangler, which cannot live in the Demangle library for layering reasons. In order to keep the diffs simpler, this patch moves more code to the new header than is strictly necessary: in particular, all of the printLeft / printRight implementations can be moved to the implementation file. (And indeed we could make them non-virtual now if we wished, and remove the vptr from Node.) All nodes are now included in the Kind enumeration, rather than omitting some of the Expr nodes, and the three different floating-point literal node types now have distinct Kind values. As a proof of concept for the visitation / matching mechanism, this patch implements a Node dumping facility on top of it, replacing the prior mechanism that produced the pretty-printed output rather than a tree dump. Sample dump output: FunctionEncoding( NameType("int"), NameWithTemplateArgs( NestedName( NameWithTemplateArgs( NameType("A"), TemplateArgs( {NameType("B")})), NameType("f")), TemplateArgs( {NameType("int")})), {}, <null>, QualConst, FunctionRefQual::FrefQualLValue) As a next step, it would make sense to move the LLVM high-level interface to the demangler (the itaniumDemangler function and ItaniumPartialDemangler class) into the Support library, and implement them in terms of the Demangle library. This would allow the libc++abi demangler implementation to be an identical copy of the llvm Demangle library, and would allow the LLVM implementation to reuse LLVM components such as llvm::BumpPtrAllocator, but we'll need to decide how to coordinate that with the MS ABI demangler, so I'm not doing that in this patch. No functionality change intended other than the behavior of dump(). Reviewers: erik.pilkington, zturner, chandlerc, dlj Subscribers: aheejin, llvm-commits Differential Revision: https://reviews.llvm.org/D50930 llvm-svn: 340203
2018-08-20 21:44:01 +02:00
class DefaultAllocator {
BumpPointerAllocator Alloc;
Move Itanium demangler implementation into a header file and add visitation support. Summary: This transforms the Itanium demangler into a generic reusable library that can be used to build, traverse, and transform Itanium mangled name trees. This is in preparation for adding a canonicalizing demangler, which cannot live in the Demangle library for layering reasons. In order to keep the diffs simpler, this patch moves more code to the new header than is strictly necessary: in particular, all of the printLeft / printRight implementations can be moved to the implementation file. (And indeed we could make them non-virtual now if we wished, and remove the vptr from Node.) All nodes are now included in the Kind enumeration, rather than omitting some of the Expr nodes, and the three different floating-point literal node types now have distinct Kind values. As a proof of concept for the visitation / matching mechanism, this patch implements a Node dumping facility on top of it, replacing the prior mechanism that produced the pretty-printed output rather than a tree dump. Sample dump output: FunctionEncoding( NameType("int"), NameWithTemplateArgs( NestedName( NameWithTemplateArgs( NameType("A"), TemplateArgs( {NameType("B")})), NameType("f")), TemplateArgs( {NameType("int")})), {}, <null>, QualConst, FunctionRefQual::FrefQualLValue) As a next step, it would make sense to move the LLVM high-level interface to the demangler (the itaniumDemangler function and ItaniumPartialDemangler class) into the Support library, and implement them in terms of the Demangle library. This would allow the libc++abi demangler implementation to be an identical copy of the llvm Demangle library, and would allow the LLVM implementation to reuse LLVM components such as llvm::BumpPtrAllocator, but we'll need to decide how to coordinate that with the MS ABI demangler, so I'm not doing that in this patch. No functionality change intended other than the behavior of dump(). Reviewers: erik.pilkington, zturner, chandlerc, dlj Subscribers: aheejin, llvm-commits Differential Revision: https://reviews.llvm.org/D50930 llvm-svn: 340203
2018-08-20 21:44:01 +02:00
public:
void reset() { Alloc.reset(); }
Move Itanium demangler implementation into a header file and add visitation support. Summary: This transforms the Itanium demangler into a generic reusable library that can be used to build, traverse, and transform Itanium mangled name trees. This is in preparation for adding a canonicalizing demangler, which cannot live in the Demangle library for layering reasons. In order to keep the diffs simpler, this patch moves more code to the new header than is strictly necessary: in particular, all of the printLeft / printRight implementations can be moved to the implementation file. (And indeed we could make them non-virtual now if we wished, and remove the vptr from Node.) All nodes are now included in the Kind enumeration, rather than omitting some of the Expr nodes, and the three different floating-point literal node types now have distinct Kind values. As a proof of concept for the visitation / matching mechanism, this patch implements a Node dumping facility on top of it, replacing the prior mechanism that produced the pretty-printed output rather than a tree dump. Sample dump output: FunctionEncoding( NameType("int"), NameWithTemplateArgs( NestedName( NameWithTemplateArgs( NameType("A"), TemplateArgs( {NameType("B")})), NameType("f")), TemplateArgs( {NameType("int")})), {}, <null>, QualConst, FunctionRefQual::FrefQualLValue) As a next step, it would make sense to move the LLVM high-level interface to the demangler (the itaniumDemangler function and ItaniumPartialDemangler class) into the Support library, and implement them in terms of the Demangle library. This would allow the libc++abi demangler implementation to be an identical copy of the llvm Demangle library, and would allow the LLVM implementation to reuse LLVM components such as llvm::BumpPtrAllocator, but we'll need to decide how to coordinate that with the MS ABI demangler, so I'm not doing that in this patch. No functionality change intended other than the behavior of dump(). Reviewers: erik.pilkington, zturner, chandlerc, dlj Subscribers: aheejin, llvm-commits Differential Revision: https://reviews.llvm.org/D50930 llvm-svn: 340203
2018-08-20 21:44:01 +02:00
template<typename T, typename ...Args> T *makeNode(Args &&...args) {
return new (Alloc.allocate(sizeof(T)))
T(std::forward<Args>(args)...);
}
Move Itanium demangler implementation into a header file and add visitation support. Summary: This transforms the Itanium demangler into a generic reusable library that can be used to build, traverse, and transform Itanium mangled name trees. This is in preparation for adding a canonicalizing demangler, which cannot live in the Demangle library for layering reasons. In order to keep the diffs simpler, this patch moves more code to the new header than is strictly necessary: in particular, all of the printLeft / printRight implementations can be moved to the implementation file. (And indeed we could make them non-virtual now if we wished, and remove the vptr from Node.) All nodes are now included in the Kind enumeration, rather than omitting some of the Expr nodes, and the three different floating-point literal node types now have distinct Kind values. As a proof of concept for the visitation / matching mechanism, this patch implements a Node dumping facility on top of it, replacing the prior mechanism that produced the pretty-printed output rather than a tree dump. Sample dump output: FunctionEncoding( NameType("int"), NameWithTemplateArgs( NestedName( NameWithTemplateArgs( NameType("A"), TemplateArgs( {NameType("B")})), NameType("f")), TemplateArgs( {NameType("int")})), {}, <null>, QualConst, FunctionRefQual::FrefQualLValue) As a next step, it would make sense to move the LLVM high-level interface to the demangler (the itaniumDemangler function and ItaniumPartialDemangler class) into the Support library, and implement them in terms of the Demangle library. This would allow the libc++abi demangler implementation to be an identical copy of the llvm Demangle library, and would allow the LLVM implementation to reuse LLVM components such as llvm::BumpPtrAllocator, but we'll need to decide how to coordinate that with the MS ABI demangler, so I'm not doing that in this patch. No functionality change intended other than the behavior of dump(). Reviewers: erik.pilkington, zturner, chandlerc, dlj Subscribers: aheejin, llvm-commits Differential Revision: https://reviews.llvm.org/D50930 llvm-svn: 340203
2018-08-20 21:44:01 +02:00
void *allocateNodeArray(size_t sz) {
return Alloc.allocate(sizeof(Node *) * sz);
}
};
} // unnamed namespace
Move Itanium demangler implementation into a header file and add visitation support. Summary: This transforms the Itanium demangler into a generic reusable library that can be used to build, traverse, and transform Itanium mangled name trees. This is in preparation for adding a canonicalizing demangler, which cannot live in the Demangle library for layering reasons. In order to keep the diffs simpler, this patch moves more code to the new header than is strictly necessary: in particular, all of the printLeft / printRight implementations can be moved to the implementation file. (And indeed we could make them non-virtual now if we wished, and remove the vptr from Node.) All nodes are now included in the Kind enumeration, rather than omitting some of the Expr nodes, and the three different floating-point literal node types now have distinct Kind values. As a proof of concept for the visitation / matching mechanism, this patch implements a Node dumping facility on top of it, replacing the prior mechanism that produced the pretty-printed output rather than a tree dump. Sample dump output: FunctionEncoding( NameType("int"), NameWithTemplateArgs( NestedName( NameWithTemplateArgs( NameType("A"), TemplateArgs( {NameType("B")})), NameType("f")), TemplateArgs( {NameType("int")})), {}, <null>, QualConst, FunctionRefQual::FrefQualLValue) As a next step, it would make sense to move the LLVM high-level interface to the demangler (the itaniumDemangler function and ItaniumPartialDemangler class) into the Support library, and implement them in terms of the Demangle library. This would allow the libc++abi demangler implementation to be an identical copy of the llvm Demangle library, and would allow the LLVM implementation to reuse LLVM components such as llvm::BumpPtrAllocator, but we'll need to decide how to coordinate that with the MS ABI demangler, so I'm not doing that in this patch. No functionality change intended other than the behavior of dump(). Reviewers: erik.pilkington, zturner, chandlerc, dlj Subscribers: aheejin, llvm-commits Differential Revision: https://reviews.llvm.org/D50930 llvm-svn: 340203
2018-08-20 21:44:01 +02:00
//===----------------------------------------------------------------------===//
// Code beyond this point should not be synchronized with libc++abi.
//===----------------------------------------------------------------------===//
using Demangler = itanium_demangle::ManglingParser<DefaultAllocator>;
Move Itanium demangler implementation into a header file and add visitation support. Summary: This transforms the Itanium demangler into a generic reusable library that can be used to build, traverse, and transform Itanium mangled name trees. This is in preparation for adding a canonicalizing demangler, which cannot live in the Demangle library for layering reasons. In order to keep the diffs simpler, this patch moves more code to the new header than is strictly necessary: in particular, all of the printLeft / printRight implementations can be moved to the implementation file. (And indeed we could make them non-virtual now if we wished, and remove the vptr from Node.) All nodes are now included in the Kind enumeration, rather than omitting some of the Expr nodes, and the three different floating-point literal node types now have distinct Kind values. As a proof of concept for the visitation / matching mechanism, this patch implements a Node dumping facility on top of it, replacing the prior mechanism that produced the pretty-printed output rather than a tree dump. Sample dump output: FunctionEncoding( NameType("int"), NameWithTemplateArgs( NestedName( NameWithTemplateArgs( NameType("A"), TemplateArgs( {NameType("B")})), NameType("f")), TemplateArgs( {NameType("int")})), {}, <null>, QualConst, FunctionRefQual::FrefQualLValue) As a next step, it would make sense to move the LLVM high-level interface to the demangler (the itaniumDemangler function and ItaniumPartialDemangler class) into the Support library, and implement them in terms of the Demangle library. This would allow the libc++abi demangler implementation to be an identical copy of the llvm Demangle library, and would allow the LLVM implementation to reuse LLVM components such as llvm::BumpPtrAllocator, but we'll need to decide how to coordinate that with the MS ABI demangler, so I'm not doing that in this patch. No functionality change intended other than the behavior of dump(). Reviewers: erik.pilkington, zturner, chandlerc, dlj Subscribers: aheejin, llvm-commits Differential Revision: https://reviews.llvm.org/D50930 llvm-svn: 340203
2018-08-20 21:44:01 +02:00
char *llvm::itaniumDemangle(const char *MangledName, char *Buf,
size_t *N, int *Status) {
if (MangledName == nullptr || (Buf != nullptr && N == nullptr)) {
if (Status)
*Status = demangle_invalid_args;
return nullptr;
}
int InternalStatus = demangle_success;
Move Itanium demangler implementation into a header file and add visitation support. Summary: This transforms the Itanium demangler into a generic reusable library that can be used to build, traverse, and transform Itanium mangled name trees. This is in preparation for adding a canonicalizing demangler, which cannot live in the Demangle library for layering reasons. In order to keep the diffs simpler, this patch moves more code to the new header than is strictly necessary: in particular, all of the printLeft / printRight implementations can be moved to the implementation file. (And indeed we could make them non-virtual now if we wished, and remove the vptr from Node.) All nodes are now included in the Kind enumeration, rather than omitting some of the Expr nodes, and the three different floating-point literal node types now have distinct Kind values. As a proof of concept for the visitation / matching mechanism, this patch implements a Node dumping facility on top of it, replacing the prior mechanism that produced the pretty-printed output rather than a tree dump. Sample dump output: FunctionEncoding( NameType("int"), NameWithTemplateArgs( NestedName( NameWithTemplateArgs( NameType("A"), TemplateArgs( {NameType("B")})), NameType("f")), TemplateArgs( {NameType("int")})), {}, <null>, QualConst, FunctionRefQual::FrefQualLValue) As a next step, it would make sense to move the LLVM high-level interface to the demangler (the itaniumDemangler function and ItaniumPartialDemangler class) into the Support library, and implement them in terms of the Demangle library. This would allow the libc++abi demangler implementation to be an identical copy of the llvm Demangle library, and would allow the LLVM implementation to reuse LLVM components such as llvm::BumpPtrAllocator, but we'll need to decide how to coordinate that with the MS ABI demangler, so I'm not doing that in this patch. No functionality change intended other than the behavior of dump(). Reviewers: erik.pilkington, zturner, chandlerc, dlj Subscribers: aheejin, llvm-commits Differential Revision: https://reviews.llvm.org/D50930 llvm-svn: 340203
2018-08-20 21:44:01 +02:00
Demangler Parser(MangledName, MangledName + std::strlen(MangledName));
OutputStream S;
Node *AST = Parser.parse();
if (AST == nullptr)
InternalStatus = demangle_invalid_mangled_name;
else if (!initializeOutputStream(Buf, N, S, 1024))
InternalStatus = demangle_memory_alloc_failure;
else {
assert(Parser.ForwardTemplateRefs.empty());
AST->print(S);
S += '\0';
if (N != nullptr)
*N = S.getCurrentPosition();
Buf = S.getBuffer();
}
if (Status)
*Status = InternalStatus;
return InternalStatus == demangle_success ? Buf : nullptr;
}
ItaniumPartialDemangler::ItaniumPartialDemangler()
Move Itanium demangler implementation into a header file and add visitation support. Summary: This transforms the Itanium demangler into a generic reusable library that can be used to build, traverse, and transform Itanium mangled name trees. This is in preparation for adding a canonicalizing demangler, which cannot live in the Demangle library for layering reasons. In order to keep the diffs simpler, this patch moves more code to the new header than is strictly necessary: in particular, all of the printLeft / printRight implementations can be moved to the implementation file. (And indeed we could make them non-virtual now if we wished, and remove the vptr from Node.) All nodes are now included in the Kind enumeration, rather than omitting some of the Expr nodes, and the three different floating-point literal node types now have distinct Kind values. As a proof of concept for the visitation / matching mechanism, this patch implements a Node dumping facility on top of it, replacing the prior mechanism that produced the pretty-printed output rather than a tree dump. Sample dump output: FunctionEncoding( NameType("int"), NameWithTemplateArgs( NestedName( NameWithTemplateArgs( NameType("A"), TemplateArgs( {NameType("B")})), NameType("f")), TemplateArgs( {NameType("int")})), {}, <null>, QualConst, FunctionRefQual::FrefQualLValue) As a next step, it would make sense to move the LLVM high-level interface to the demangler (the itaniumDemangler function and ItaniumPartialDemangler class) into the Support library, and implement them in terms of the Demangle library. This would allow the libc++abi demangler implementation to be an identical copy of the llvm Demangle library, and would allow the LLVM implementation to reuse LLVM components such as llvm::BumpPtrAllocator, but we'll need to decide how to coordinate that with the MS ABI demangler, so I'm not doing that in this patch. No functionality change intended other than the behavior of dump(). Reviewers: erik.pilkington, zturner, chandlerc, dlj Subscribers: aheejin, llvm-commits Differential Revision: https://reviews.llvm.org/D50930 llvm-svn: 340203
2018-08-20 21:44:01 +02:00
: RootNode(nullptr), Context(new Demangler{nullptr, nullptr}) {}
ItaniumPartialDemangler::~ItaniumPartialDemangler() {
Move Itanium demangler implementation into a header file and add visitation support. Summary: This transforms the Itanium demangler into a generic reusable library that can be used to build, traverse, and transform Itanium mangled name trees. This is in preparation for adding a canonicalizing demangler, which cannot live in the Demangle library for layering reasons. In order to keep the diffs simpler, this patch moves more code to the new header than is strictly necessary: in particular, all of the printLeft / printRight implementations can be moved to the implementation file. (And indeed we could make them non-virtual now if we wished, and remove the vptr from Node.) All nodes are now included in the Kind enumeration, rather than omitting some of the Expr nodes, and the three different floating-point literal node types now have distinct Kind values. As a proof of concept for the visitation / matching mechanism, this patch implements a Node dumping facility on top of it, replacing the prior mechanism that produced the pretty-printed output rather than a tree dump. Sample dump output: FunctionEncoding( NameType("int"), NameWithTemplateArgs( NestedName( NameWithTemplateArgs( NameType("A"), TemplateArgs( {NameType("B")})), NameType("f")), TemplateArgs( {NameType("int")})), {}, <null>, QualConst, FunctionRefQual::FrefQualLValue) As a next step, it would make sense to move the LLVM high-level interface to the demangler (the itaniumDemangler function and ItaniumPartialDemangler class) into the Support library, and implement them in terms of the Demangle library. This would allow the libc++abi demangler implementation to be an identical copy of the llvm Demangle library, and would allow the LLVM implementation to reuse LLVM components such as llvm::BumpPtrAllocator, but we'll need to decide how to coordinate that with the MS ABI demangler, so I'm not doing that in this patch. No functionality change intended other than the behavior of dump(). Reviewers: erik.pilkington, zturner, chandlerc, dlj Subscribers: aheejin, llvm-commits Differential Revision: https://reviews.llvm.org/D50930 llvm-svn: 340203
2018-08-20 21:44:01 +02:00
delete static_cast<Demangler *>(Context);
}
ItaniumPartialDemangler::ItaniumPartialDemangler(
ItaniumPartialDemangler &&Other)
: RootNode(Other.RootNode), Context(Other.Context) {
Other.Context = Other.RootNode = nullptr;
}
ItaniumPartialDemangler &ItaniumPartialDemangler::
operator=(ItaniumPartialDemangler &&Other) {
std::swap(RootNode, Other.RootNode);
std::swap(Context, Other.Context);
return *this;
}
// Demangle MangledName into an AST, storing it into this->RootNode.
bool ItaniumPartialDemangler::partialDemangle(const char *MangledName) {
Move Itanium demangler implementation into a header file and add visitation support. Summary: This transforms the Itanium demangler into a generic reusable library that can be used to build, traverse, and transform Itanium mangled name trees. This is in preparation for adding a canonicalizing demangler, which cannot live in the Demangle library for layering reasons. In order to keep the diffs simpler, this patch moves more code to the new header than is strictly necessary: in particular, all of the printLeft / printRight implementations can be moved to the implementation file. (And indeed we could make them non-virtual now if we wished, and remove the vptr from Node.) All nodes are now included in the Kind enumeration, rather than omitting some of the Expr nodes, and the three different floating-point literal node types now have distinct Kind values. As a proof of concept for the visitation / matching mechanism, this patch implements a Node dumping facility on top of it, replacing the prior mechanism that produced the pretty-printed output rather than a tree dump. Sample dump output: FunctionEncoding( NameType("int"), NameWithTemplateArgs( NestedName( NameWithTemplateArgs( NameType("A"), TemplateArgs( {NameType("B")})), NameType("f")), TemplateArgs( {NameType("int")})), {}, <null>, QualConst, FunctionRefQual::FrefQualLValue) As a next step, it would make sense to move the LLVM high-level interface to the demangler (the itaniumDemangler function and ItaniumPartialDemangler class) into the Support library, and implement them in terms of the Demangle library. This would allow the libc++abi demangler implementation to be an identical copy of the llvm Demangle library, and would allow the LLVM implementation to reuse LLVM components such as llvm::BumpPtrAllocator, but we'll need to decide how to coordinate that with the MS ABI demangler, so I'm not doing that in this patch. No functionality change intended other than the behavior of dump(). Reviewers: erik.pilkington, zturner, chandlerc, dlj Subscribers: aheejin, llvm-commits Differential Revision: https://reviews.llvm.org/D50930 llvm-svn: 340203
2018-08-20 21:44:01 +02:00
Demangler *Parser = static_cast<Demangler *>(Context);
size_t Len = std::strlen(MangledName);
Parser->reset(MangledName, MangledName + Len);
RootNode = Parser->parse();
return RootNode == nullptr;
}
Move Itanium demangler implementation into a header file and add visitation support. Summary: This transforms the Itanium demangler into a generic reusable library that can be used to build, traverse, and transform Itanium mangled name trees. This is in preparation for adding a canonicalizing demangler, which cannot live in the Demangle library for layering reasons. In order to keep the diffs simpler, this patch moves more code to the new header than is strictly necessary: in particular, all of the printLeft / printRight implementations can be moved to the implementation file. (And indeed we could make them non-virtual now if we wished, and remove the vptr from Node.) All nodes are now included in the Kind enumeration, rather than omitting some of the Expr nodes, and the three different floating-point literal node types now have distinct Kind values. As a proof of concept for the visitation / matching mechanism, this patch implements a Node dumping facility on top of it, replacing the prior mechanism that produced the pretty-printed output rather than a tree dump. Sample dump output: FunctionEncoding( NameType("int"), NameWithTemplateArgs( NestedName( NameWithTemplateArgs( NameType("A"), TemplateArgs( {NameType("B")})), NameType("f")), TemplateArgs( {NameType("int")})), {}, <null>, QualConst, FunctionRefQual::FrefQualLValue) As a next step, it would make sense to move the LLVM high-level interface to the demangler (the itaniumDemangler function and ItaniumPartialDemangler class) into the Support library, and implement them in terms of the Demangle library. This would allow the libc++abi demangler implementation to be an identical copy of the llvm Demangle library, and would allow the LLVM implementation to reuse LLVM components such as llvm::BumpPtrAllocator, but we'll need to decide how to coordinate that with the MS ABI demangler, so I'm not doing that in this patch. No functionality change intended other than the behavior of dump(). Reviewers: erik.pilkington, zturner, chandlerc, dlj Subscribers: aheejin, llvm-commits Differential Revision: https://reviews.llvm.org/D50930 llvm-svn: 340203
2018-08-20 21:44:01 +02:00
static char *printNode(const Node *RootNode, char *Buf, size_t *N) {
OutputStream S;
if (!initializeOutputStream(Buf, N, S, 128))
return nullptr;
RootNode->print(S);
S += '\0';
if (N != nullptr)
*N = S.getCurrentPosition();
return S.getBuffer();
}
char *ItaniumPartialDemangler::getFunctionBaseName(char *Buf, size_t *N) const {
if (!isFunction())
return nullptr;
Move Itanium demangler implementation into a header file and add visitation support. Summary: This transforms the Itanium demangler into a generic reusable library that can be used to build, traverse, and transform Itanium mangled name trees. This is in preparation for adding a canonicalizing demangler, which cannot live in the Demangle library for layering reasons. In order to keep the diffs simpler, this patch moves more code to the new header than is strictly necessary: in particular, all of the printLeft / printRight implementations can be moved to the implementation file. (And indeed we could make them non-virtual now if we wished, and remove the vptr from Node.) All nodes are now included in the Kind enumeration, rather than omitting some of the Expr nodes, and the three different floating-point literal node types now have distinct Kind values. As a proof of concept for the visitation / matching mechanism, this patch implements a Node dumping facility on top of it, replacing the prior mechanism that produced the pretty-printed output rather than a tree dump. Sample dump output: FunctionEncoding( NameType("int"), NameWithTemplateArgs( NestedName( NameWithTemplateArgs( NameType("A"), TemplateArgs( {NameType("B")})), NameType("f")), TemplateArgs( {NameType("int")})), {}, <null>, QualConst, FunctionRefQual::FrefQualLValue) As a next step, it would make sense to move the LLVM high-level interface to the demangler (the itaniumDemangler function and ItaniumPartialDemangler class) into the Support library, and implement them in terms of the Demangle library. This would allow the libc++abi demangler implementation to be an identical copy of the llvm Demangle library, and would allow the LLVM implementation to reuse LLVM components such as llvm::BumpPtrAllocator, but we'll need to decide how to coordinate that with the MS ABI demangler, so I'm not doing that in this patch. No functionality change intended other than the behavior of dump(). Reviewers: erik.pilkington, zturner, chandlerc, dlj Subscribers: aheejin, llvm-commits Differential Revision: https://reviews.llvm.org/D50930 llvm-svn: 340203
2018-08-20 21:44:01 +02:00
const Node *Name = static_cast<const FunctionEncoding *>(RootNode)->getName();
while (true) {
switch (Name->getKind()) {
case Node::KAbiTagAttr:
Move Itanium demangler implementation into a header file and add visitation support. Summary: This transforms the Itanium demangler into a generic reusable library that can be used to build, traverse, and transform Itanium mangled name trees. This is in preparation for adding a canonicalizing demangler, which cannot live in the Demangle library for layering reasons. In order to keep the diffs simpler, this patch moves more code to the new header than is strictly necessary: in particular, all of the printLeft / printRight implementations can be moved to the implementation file. (And indeed we could make them non-virtual now if we wished, and remove the vptr from Node.) All nodes are now included in the Kind enumeration, rather than omitting some of the Expr nodes, and the three different floating-point literal node types now have distinct Kind values. As a proof of concept for the visitation / matching mechanism, this patch implements a Node dumping facility on top of it, replacing the prior mechanism that produced the pretty-printed output rather than a tree dump. Sample dump output: FunctionEncoding( NameType("int"), NameWithTemplateArgs( NestedName( NameWithTemplateArgs( NameType("A"), TemplateArgs( {NameType("B")})), NameType("f")), TemplateArgs( {NameType("int")})), {}, <null>, QualConst, FunctionRefQual::FrefQualLValue) As a next step, it would make sense to move the LLVM high-level interface to the demangler (the itaniumDemangler function and ItaniumPartialDemangler class) into the Support library, and implement them in terms of the Demangle library. This would allow the libc++abi demangler implementation to be an identical copy of the llvm Demangle library, and would allow the LLVM implementation to reuse LLVM components such as llvm::BumpPtrAllocator, but we'll need to decide how to coordinate that with the MS ABI demangler, so I'm not doing that in this patch. No functionality change intended other than the behavior of dump(). Reviewers: erik.pilkington, zturner, chandlerc, dlj Subscribers: aheejin, llvm-commits Differential Revision: https://reviews.llvm.org/D50930 llvm-svn: 340203
2018-08-20 21:44:01 +02:00
Name = static_cast<const AbiTagAttr *>(Name)->Base;
continue;
case Node::KStdQualifiedName:
Move Itanium demangler implementation into a header file and add visitation support. Summary: This transforms the Itanium demangler into a generic reusable library that can be used to build, traverse, and transform Itanium mangled name trees. This is in preparation for adding a canonicalizing demangler, which cannot live in the Demangle library for layering reasons. In order to keep the diffs simpler, this patch moves more code to the new header than is strictly necessary: in particular, all of the printLeft / printRight implementations can be moved to the implementation file. (And indeed we could make them non-virtual now if we wished, and remove the vptr from Node.) All nodes are now included in the Kind enumeration, rather than omitting some of the Expr nodes, and the three different floating-point literal node types now have distinct Kind values. As a proof of concept for the visitation / matching mechanism, this patch implements a Node dumping facility on top of it, replacing the prior mechanism that produced the pretty-printed output rather than a tree dump. Sample dump output: FunctionEncoding( NameType("int"), NameWithTemplateArgs( NestedName( NameWithTemplateArgs( NameType("A"), TemplateArgs( {NameType("B")})), NameType("f")), TemplateArgs( {NameType("int")})), {}, <null>, QualConst, FunctionRefQual::FrefQualLValue) As a next step, it would make sense to move the LLVM high-level interface to the demangler (the itaniumDemangler function and ItaniumPartialDemangler class) into the Support library, and implement them in terms of the Demangle library. This would allow the libc++abi demangler implementation to be an identical copy of the llvm Demangle library, and would allow the LLVM implementation to reuse LLVM components such as llvm::BumpPtrAllocator, but we'll need to decide how to coordinate that with the MS ABI demangler, so I'm not doing that in this patch. No functionality change intended other than the behavior of dump(). Reviewers: erik.pilkington, zturner, chandlerc, dlj Subscribers: aheejin, llvm-commits Differential Revision: https://reviews.llvm.org/D50930 llvm-svn: 340203
2018-08-20 21:44:01 +02:00
Name = static_cast<const StdQualifiedName *>(Name)->Child;
continue;
case Node::KNestedName:
Move Itanium demangler implementation into a header file and add visitation support. Summary: This transforms the Itanium demangler into a generic reusable library that can be used to build, traverse, and transform Itanium mangled name trees. This is in preparation for adding a canonicalizing demangler, which cannot live in the Demangle library for layering reasons. In order to keep the diffs simpler, this patch moves more code to the new header than is strictly necessary: in particular, all of the printLeft / printRight implementations can be moved to the implementation file. (And indeed we could make them non-virtual now if we wished, and remove the vptr from Node.) All nodes are now included in the Kind enumeration, rather than omitting some of the Expr nodes, and the three different floating-point literal node types now have distinct Kind values. As a proof of concept for the visitation / matching mechanism, this patch implements a Node dumping facility on top of it, replacing the prior mechanism that produced the pretty-printed output rather than a tree dump. Sample dump output: FunctionEncoding( NameType("int"), NameWithTemplateArgs( NestedName( NameWithTemplateArgs( NameType("A"), TemplateArgs( {NameType("B")})), NameType("f")), TemplateArgs( {NameType("int")})), {}, <null>, QualConst, FunctionRefQual::FrefQualLValue) As a next step, it would make sense to move the LLVM high-level interface to the demangler (the itaniumDemangler function and ItaniumPartialDemangler class) into the Support library, and implement them in terms of the Demangle library. This would allow the libc++abi demangler implementation to be an identical copy of the llvm Demangle library, and would allow the LLVM implementation to reuse LLVM components such as llvm::BumpPtrAllocator, but we'll need to decide how to coordinate that with the MS ABI demangler, so I'm not doing that in this patch. No functionality change intended other than the behavior of dump(). Reviewers: erik.pilkington, zturner, chandlerc, dlj Subscribers: aheejin, llvm-commits Differential Revision: https://reviews.llvm.org/D50930 llvm-svn: 340203
2018-08-20 21:44:01 +02:00
Name = static_cast<const NestedName *>(Name)->Name;
continue;
case Node::KLocalName:
Move Itanium demangler implementation into a header file and add visitation support. Summary: This transforms the Itanium demangler into a generic reusable library that can be used to build, traverse, and transform Itanium mangled name trees. This is in preparation for adding a canonicalizing demangler, which cannot live in the Demangle library for layering reasons. In order to keep the diffs simpler, this patch moves more code to the new header than is strictly necessary: in particular, all of the printLeft / printRight implementations can be moved to the implementation file. (And indeed we could make them non-virtual now if we wished, and remove the vptr from Node.) All nodes are now included in the Kind enumeration, rather than omitting some of the Expr nodes, and the three different floating-point literal node types now have distinct Kind values. As a proof of concept for the visitation / matching mechanism, this patch implements a Node dumping facility on top of it, replacing the prior mechanism that produced the pretty-printed output rather than a tree dump. Sample dump output: FunctionEncoding( NameType("int"), NameWithTemplateArgs( NestedName( NameWithTemplateArgs( NameType("A"), TemplateArgs( {NameType("B")})), NameType("f")), TemplateArgs( {NameType("int")})), {}, <null>, QualConst, FunctionRefQual::FrefQualLValue) As a next step, it would make sense to move the LLVM high-level interface to the demangler (the itaniumDemangler function and ItaniumPartialDemangler class) into the Support library, and implement them in terms of the Demangle library. This would allow the libc++abi demangler implementation to be an identical copy of the llvm Demangle library, and would allow the LLVM implementation to reuse LLVM components such as llvm::BumpPtrAllocator, but we'll need to decide how to coordinate that with the MS ABI demangler, so I'm not doing that in this patch. No functionality change intended other than the behavior of dump(). Reviewers: erik.pilkington, zturner, chandlerc, dlj Subscribers: aheejin, llvm-commits Differential Revision: https://reviews.llvm.org/D50930 llvm-svn: 340203
2018-08-20 21:44:01 +02:00
Name = static_cast<const LocalName *>(Name)->Entity;
continue;
case Node::KNameWithTemplateArgs:
Move Itanium demangler implementation into a header file and add visitation support. Summary: This transforms the Itanium demangler into a generic reusable library that can be used to build, traverse, and transform Itanium mangled name trees. This is in preparation for adding a canonicalizing demangler, which cannot live in the Demangle library for layering reasons. In order to keep the diffs simpler, this patch moves more code to the new header than is strictly necessary: in particular, all of the printLeft / printRight implementations can be moved to the implementation file. (And indeed we could make them non-virtual now if we wished, and remove the vptr from Node.) All nodes are now included in the Kind enumeration, rather than omitting some of the Expr nodes, and the three different floating-point literal node types now have distinct Kind values. As a proof of concept for the visitation / matching mechanism, this patch implements a Node dumping facility on top of it, replacing the prior mechanism that produced the pretty-printed output rather than a tree dump. Sample dump output: FunctionEncoding( NameType("int"), NameWithTemplateArgs( NestedName( NameWithTemplateArgs( NameType("A"), TemplateArgs( {NameType("B")})), NameType("f")), TemplateArgs( {NameType("int")})), {}, <null>, QualConst, FunctionRefQual::FrefQualLValue) As a next step, it would make sense to move the LLVM high-level interface to the demangler (the itaniumDemangler function and ItaniumPartialDemangler class) into the Support library, and implement them in terms of the Demangle library. This would allow the libc++abi demangler implementation to be an identical copy of the llvm Demangle library, and would allow the LLVM implementation to reuse LLVM components such as llvm::BumpPtrAllocator, but we'll need to decide how to coordinate that with the MS ABI demangler, so I'm not doing that in this patch. No functionality change intended other than the behavior of dump(). Reviewers: erik.pilkington, zturner, chandlerc, dlj Subscribers: aheejin, llvm-commits Differential Revision: https://reviews.llvm.org/D50930 llvm-svn: 340203
2018-08-20 21:44:01 +02:00
Name = static_cast<const NameWithTemplateArgs *>(Name)->Name;
continue;
default:
return printNode(Name, Buf, N);
}
}
}
char *ItaniumPartialDemangler::getFunctionDeclContextName(char *Buf,
size_t *N) const {
if (!isFunction())
return nullptr;
Move Itanium demangler implementation into a header file and add visitation support. Summary: This transforms the Itanium demangler into a generic reusable library that can be used to build, traverse, and transform Itanium mangled name trees. This is in preparation for adding a canonicalizing demangler, which cannot live in the Demangle library for layering reasons. In order to keep the diffs simpler, this patch moves more code to the new header than is strictly necessary: in particular, all of the printLeft / printRight implementations can be moved to the implementation file. (And indeed we could make them non-virtual now if we wished, and remove the vptr from Node.) All nodes are now included in the Kind enumeration, rather than omitting some of the Expr nodes, and the three different floating-point literal node types now have distinct Kind values. As a proof of concept for the visitation / matching mechanism, this patch implements a Node dumping facility on top of it, replacing the prior mechanism that produced the pretty-printed output rather than a tree dump. Sample dump output: FunctionEncoding( NameType("int"), NameWithTemplateArgs( NestedName( NameWithTemplateArgs( NameType("A"), TemplateArgs( {NameType("B")})), NameType("f")), TemplateArgs( {NameType("int")})), {}, <null>, QualConst, FunctionRefQual::FrefQualLValue) As a next step, it would make sense to move the LLVM high-level interface to the demangler (the itaniumDemangler function and ItaniumPartialDemangler class) into the Support library, and implement them in terms of the Demangle library. This would allow the libc++abi demangler implementation to be an identical copy of the llvm Demangle library, and would allow the LLVM implementation to reuse LLVM components such as llvm::BumpPtrAllocator, but we'll need to decide how to coordinate that with the MS ABI demangler, so I'm not doing that in this patch. No functionality change intended other than the behavior of dump(). Reviewers: erik.pilkington, zturner, chandlerc, dlj Subscribers: aheejin, llvm-commits Differential Revision: https://reviews.llvm.org/D50930 llvm-svn: 340203
2018-08-20 21:44:01 +02:00
const Node *Name = static_cast<const FunctionEncoding *>(RootNode)->getName();
OutputStream S;
if (!initializeOutputStream(Buf, N, S, 128))
return nullptr;
KeepGoingLocalFunction:
while (true) {
if (Name->getKind() == Node::KAbiTagAttr) {
Move Itanium demangler implementation into a header file and add visitation support. Summary: This transforms the Itanium demangler into a generic reusable library that can be used to build, traverse, and transform Itanium mangled name trees. This is in preparation for adding a canonicalizing demangler, which cannot live in the Demangle library for layering reasons. In order to keep the diffs simpler, this patch moves more code to the new header than is strictly necessary: in particular, all of the printLeft / printRight implementations can be moved to the implementation file. (And indeed we could make them non-virtual now if we wished, and remove the vptr from Node.) All nodes are now included in the Kind enumeration, rather than omitting some of the Expr nodes, and the three different floating-point literal node types now have distinct Kind values. As a proof of concept for the visitation / matching mechanism, this patch implements a Node dumping facility on top of it, replacing the prior mechanism that produced the pretty-printed output rather than a tree dump. Sample dump output: FunctionEncoding( NameType("int"), NameWithTemplateArgs( NestedName( NameWithTemplateArgs( NameType("A"), TemplateArgs( {NameType("B")})), NameType("f")), TemplateArgs( {NameType("int")})), {}, <null>, QualConst, FunctionRefQual::FrefQualLValue) As a next step, it would make sense to move the LLVM high-level interface to the demangler (the itaniumDemangler function and ItaniumPartialDemangler class) into the Support library, and implement them in terms of the Demangle library. This would allow the libc++abi demangler implementation to be an identical copy of the llvm Demangle library, and would allow the LLVM implementation to reuse LLVM components such as llvm::BumpPtrAllocator, but we'll need to decide how to coordinate that with the MS ABI demangler, so I'm not doing that in this patch. No functionality change intended other than the behavior of dump(). Reviewers: erik.pilkington, zturner, chandlerc, dlj Subscribers: aheejin, llvm-commits Differential Revision: https://reviews.llvm.org/D50930 llvm-svn: 340203
2018-08-20 21:44:01 +02:00
Name = static_cast<const AbiTagAttr *>(Name)->Base;
continue;
}
if (Name->getKind() == Node::KNameWithTemplateArgs) {
Move Itanium demangler implementation into a header file and add visitation support. Summary: This transforms the Itanium demangler into a generic reusable library that can be used to build, traverse, and transform Itanium mangled name trees. This is in preparation for adding a canonicalizing demangler, which cannot live in the Demangle library for layering reasons. In order to keep the diffs simpler, this patch moves more code to the new header than is strictly necessary: in particular, all of the printLeft / printRight implementations can be moved to the implementation file. (And indeed we could make them non-virtual now if we wished, and remove the vptr from Node.) All nodes are now included in the Kind enumeration, rather than omitting some of the Expr nodes, and the three different floating-point literal node types now have distinct Kind values. As a proof of concept for the visitation / matching mechanism, this patch implements a Node dumping facility on top of it, replacing the prior mechanism that produced the pretty-printed output rather than a tree dump. Sample dump output: FunctionEncoding( NameType("int"), NameWithTemplateArgs( NestedName( NameWithTemplateArgs( NameType("A"), TemplateArgs( {NameType("B")})), NameType("f")), TemplateArgs( {NameType("int")})), {}, <null>, QualConst, FunctionRefQual::FrefQualLValue) As a next step, it would make sense to move the LLVM high-level interface to the demangler (the itaniumDemangler function and ItaniumPartialDemangler class) into the Support library, and implement them in terms of the Demangle library. This would allow the libc++abi demangler implementation to be an identical copy of the llvm Demangle library, and would allow the LLVM implementation to reuse LLVM components such as llvm::BumpPtrAllocator, but we'll need to decide how to coordinate that with the MS ABI demangler, so I'm not doing that in this patch. No functionality change intended other than the behavior of dump(). Reviewers: erik.pilkington, zturner, chandlerc, dlj Subscribers: aheejin, llvm-commits Differential Revision: https://reviews.llvm.org/D50930 llvm-svn: 340203
2018-08-20 21:44:01 +02:00
Name = static_cast<const NameWithTemplateArgs *>(Name)->Name;
continue;
}
break;
}
switch (Name->getKind()) {
case Node::KStdQualifiedName:
S += "std";
break;
case Node::KNestedName:
Move Itanium demangler implementation into a header file and add visitation support. Summary: This transforms the Itanium demangler into a generic reusable library that can be used to build, traverse, and transform Itanium mangled name trees. This is in preparation for adding a canonicalizing demangler, which cannot live in the Demangle library for layering reasons. In order to keep the diffs simpler, this patch moves more code to the new header than is strictly necessary: in particular, all of the printLeft / printRight implementations can be moved to the implementation file. (And indeed we could make them non-virtual now if we wished, and remove the vptr from Node.) All nodes are now included in the Kind enumeration, rather than omitting some of the Expr nodes, and the three different floating-point literal node types now have distinct Kind values. As a proof of concept for the visitation / matching mechanism, this patch implements a Node dumping facility on top of it, replacing the prior mechanism that produced the pretty-printed output rather than a tree dump. Sample dump output: FunctionEncoding( NameType("int"), NameWithTemplateArgs( NestedName( NameWithTemplateArgs( NameType("A"), TemplateArgs( {NameType("B")})), NameType("f")), TemplateArgs( {NameType("int")})), {}, <null>, QualConst, FunctionRefQual::FrefQualLValue) As a next step, it would make sense to move the LLVM high-level interface to the demangler (the itaniumDemangler function and ItaniumPartialDemangler class) into the Support library, and implement them in terms of the Demangle library. This would allow the libc++abi demangler implementation to be an identical copy of the llvm Demangle library, and would allow the LLVM implementation to reuse LLVM components such as llvm::BumpPtrAllocator, but we'll need to decide how to coordinate that with the MS ABI demangler, so I'm not doing that in this patch. No functionality change intended other than the behavior of dump(). Reviewers: erik.pilkington, zturner, chandlerc, dlj Subscribers: aheejin, llvm-commits Differential Revision: https://reviews.llvm.org/D50930 llvm-svn: 340203
2018-08-20 21:44:01 +02:00
static_cast<const NestedName *>(Name)->Qual->print(S);
break;
case Node::KLocalName: {
Move Itanium demangler implementation into a header file and add visitation support. Summary: This transforms the Itanium demangler into a generic reusable library that can be used to build, traverse, and transform Itanium mangled name trees. This is in preparation for adding a canonicalizing demangler, which cannot live in the Demangle library for layering reasons. In order to keep the diffs simpler, this patch moves more code to the new header than is strictly necessary: in particular, all of the printLeft / printRight implementations can be moved to the implementation file. (And indeed we could make them non-virtual now if we wished, and remove the vptr from Node.) All nodes are now included in the Kind enumeration, rather than omitting some of the Expr nodes, and the three different floating-point literal node types now have distinct Kind values. As a proof of concept for the visitation / matching mechanism, this patch implements a Node dumping facility on top of it, replacing the prior mechanism that produced the pretty-printed output rather than a tree dump. Sample dump output: FunctionEncoding( NameType("int"), NameWithTemplateArgs( NestedName( NameWithTemplateArgs( NameType("A"), TemplateArgs( {NameType("B")})), NameType("f")), TemplateArgs( {NameType("int")})), {}, <null>, QualConst, FunctionRefQual::FrefQualLValue) As a next step, it would make sense to move the LLVM high-level interface to the demangler (the itaniumDemangler function and ItaniumPartialDemangler class) into the Support library, and implement them in terms of the Demangle library. This would allow the libc++abi demangler implementation to be an identical copy of the llvm Demangle library, and would allow the LLVM implementation to reuse LLVM components such as llvm::BumpPtrAllocator, but we'll need to decide how to coordinate that with the MS ABI demangler, so I'm not doing that in this patch. No functionality change intended other than the behavior of dump(). Reviewers: erik.pilkington, zturner, chandlerc, dlj Subscribers: aheejin, llvm-commits Differential Revision: https://reviews.llvm.org/D50930 llvm-svn: 340203
2018-08-20 21:44:01 +02:00
auto *LN = static_cast<const LocalName *>(Name);
LN->Encoding->print(S);
S += "::";
Name = LN->Entity;
goto KeepGoingLocalFunction;
}
default:
break;
}
S += '\0';
if (N != nullptr)
*N = S.getCurrentPosition();
return S.getBuffer();
}
char *ItaniumPartialDemangler::getFunctionName(char *Buf, size_t *N) const {
if (!isFunction())
return nullptr;
auto *Name = static_cast<FunctionEncoding *>(RootNode)->getName();
return printNode(Name, Buf, N);
}
char *ItaniumPartialDemangler::getFunctionParameters(char *Buf,
size_t *N) const {
if (!isFunction())
return nullptr;
NodeArray Params = static_cast<FunctionEncoding *>(RootNode)->getParams();
OutputStream S;
if (!initializeOutputStream(Buf, N, S, 128))
return nullptr;
S += '(';
Params.printWithComma(S);
S += ')';
S += '\0';
if (N != nullptr)
*N = S.getCurrentPosition();
return S.getBuffer();
}
char *ItaniumPartialDemangler::getFunctionReturnType(
char *Buf, size_t *N) const {
if (!isFunction())
return nullptr;
OutputStream S;
if (!initializeOutputStream(Buf, N, S, 128))
return nullptr;
Move Itanium demangler implementation into a header file and add visitation support. Summary: This transforms the Itanium demangler into a generic reusable library that can be used to build, traverse, and transform Itanium mangled name trees. This is in preparation for adding a canonicalizing demangler, which cannot live in the Demangle library for layering reasons. In order to keep the diffs simpler, this patch moves more code to the new header than is strictly necessary: in particular, all of the printLeft / printRight implementations can be moved to the implementation file. (And indeed we could make them non-virtual now if we wished, and remove the vptr from Node.) All nodes are now included in the Kind enumeration, rather than omitting some of the Expr nodes, and the three different floating-point literal node types now have distinct Kind values. As a proof of concept for the visitation / matching mechanism, this patch implements a Node dumping facility on top of it, replacing the prior mechanism that produced the pretty-printed output rather than a tree dump. Sample dump output: FunctionEncoding( NameType("int"), NameWithTemplateArgs( NestedName( NameWithTemplateArgs( NameType("A"), TemplateArgs( {NameType("B")})), NameType("f")), TemplateArgs( {NameType("int")})), {}, <null>, QualConst, FunctionRefQual::FrefQualLValue) As a next step, it would make sense to move the LLVM high-level interface to the demangler (the itaniumDemangler function and ItaniumPartialDemangler class) into the Support library, and implement them in terms of the Demangle library. This would allow the libc++abi demangler implementation to be an identical copy of the llvm Demangle library, and would allow the LLVM implementation to reuse LLVM components such as llvm::BumpPtrAllocator, but we'll need to decide how to coordinate that with the MS ABI demangler, so I'm not doing that in this patch. No functionality change intended other than the behavior of dump(). Reviewers: erik.pilkington, zturner, chandlerc, dlj Subscribers: aheejin, llvm-commits Differential Revision: https://reviews.llvm.org/D50930 llvm-svn: 340203
2018-08-20 21:44:01 +02:00
if (const Node *Ret =
static_cast<const FunctionEncoding *>(RootNode)->getReturnType())
Ret->print(S);
S += '\0';
if (N != nullptr)
*N = S.getCurrentPosition();
return S.getBuffer();
}
char *ItaniumPartialDemangler::finishDemangle(char *Buf, size_t *N) const {
assert(RootNode != nullptr && "must call partialDemangle()");
return printNode(static_cast<Node *>(RootNode), Buf, N);
}
bool ItaniumPartialDemangler::hasFunctionQualifiers() const {
assert(RootNode != nullptr && "must call partialDemangle()");
if (!isFunction())
return false;
Move Itanium demangler implementation into a header file and add visitation support. Summary: This transforms the Itanium demangler into a generic reusable library that can be used to build, traverse, and transform Itanium mangled name trees. This is in preparation for adding a canonicalizing demangler, which cannot live in the Demangle library for layering reasons. In order to keep the diffs simpler, this patch moves more code to the new header than is strictly necessary: in particular, all of the printLeft / printRight implementations can be moved to the implementation file. (And indeed we could make them non-virtual now if we wished, and remove the vptr from Node.) All nodes are now included in the Kind enumeration, rather than omitting some of the Expr nodes, and the three different floating-point literal node types now have distinct Kind values. As a proof of concept for the visitation / matching mechanism, this patch implements a Node dumping facility on top of it, replacing the prior mechanism that produced the pretty-printed output rather than a tree dump. Sample dump output: FunctionEncoding( NameType("int"), NameWithTemplateArgs( NestedName( NameWithTemplateArgs( NameType("A"), TemplateArgs( {NameType("B")})), NameType("f")), TemplateArgs( {NameType("int")})), {}, <null>, QualConst, FunctionRefQual::FrefQualLValue) As a next step, it would make sense to move the LLVM high-level interface to the demangler (the itaniumDemangler function and ItaniumPartialDemangler class) into the Support library, and implement them in terms of the Demangle library. This would allow the libc++abi demangler implementation to be an identical copy of the llvm Demangle library, and would allow the LLVM implementation to reuse LLVM components such as llvm::BumpPtrAllocator, but we'll need to decide how to coordinate that with the MS ABI demangler, so I'm not doing that in this patch. No functionality change intended other than the behavior of dump(). Reviewers: erik.pilkington, zturner, chandlerc, dlj Subscribers: aheejin, llvm-commits Differential Revision: https://reviews.llvm.org/D50930 llvm-svn: 340203
2018-08-20 21:44:01 +02:00
auto *E = static_cast<const FunctionEncoding *>(RootNode);
return E->getCVQuals() != QualNone || E->getRefQual() != FrefQualNone;
}
bool ItaniumPartialDemangler::isCtorOrDtor() const {
Move Itanium demangler implementation into a header file and add visitation support. Summary: This transforms the Itanium demangler into a generic reusable library that can be used to build, traverse, and transform Itanium mangled name trees. This is in preparation for adding a canonicalizing demangler, which cannot live in the Demangle library for layering reasons. In order to keep the diffs simpler, this patch moves more code to the new header than is strictly necessary: in particular, all of the printLeft / printRight implementations can be moved to the implementation file. (And indeed we could make them non-virtual now if we wished, and remove the vptr from Node.) All nodes are now included in the Kind enumeration, rather than omitting some of the Expr nodes, and the three different floating-point literal node types now have distinct Kind values. As a proof of concept for the visitation / matching mechanism, this patch implements a Node dumping facility on top of it, replacing the prior mechanism that produced the pretty-printed output rather than a tree dump. Sample dump output: FunctionEncoding( NameType("int"), NameWithTemplateArgs( NestedName( NameWithTemplateArgs( NameType("A"), TemplateArgs( {NameType("B")})), NameType("f")), TemplateArgs( {NameType("int")})), {}, <null>, QualConst, FunctionRefQual::FrefQualLValue) As a next step, it would make sense to move the LLVM high-level interface to the demangler (the itaniumDemangler function and ItaniumPartialDemangler class) into the Support library, and implement them in terms of the Demangle library. This would allow the libc++abi demangler implementation to be an identical copy of the llvm Demangle library, and would allow the LLVM implementation to reuse LLVM components such as llvm::BumpPtrAllocator, but we'll need to decide how to coordinate that with the MS ABI demangler, so I'm not doing that in this patch. No functionality change intended other than the behavior of dump(). Reviewers: erik.pilkington, zturner, chandlerc, dlj Subscribers: aheejin, llvm-commits Differential Revision: https://reviews.llvm.org/D50930 llvm-svn: 340203
2018-08-20 21:44:01 +02:00
const Node *N = static_cast<const Node *>(RootNode);
while (N) {
switch (N->getKind()) {
default:
return false;
case Node::KCtorDtorName:
return true;
case Node::KAbiTagAttr:
Move Itanium demangler implementation into a header file and add visitation support. Summary: This transforms the Itanium demangler into a generic reusable library that can be used to build, traverse, and transform Itanium mangled name trees. This is in preparation for adding a canonicalizing demangler, which cannot live in the Demangle library for layering reasons. In order to keep the diffs simpler, this patch moves more code to the new header than is strictly necessary: in particular, all of the printLeft / printRight implementations can be moved to the implementation file. (And indeed we could make them non-virtual now if we wished, and remove the vptr from Node.) All nodes are now included in the Kind enumeration, rather than omitting some of the Expr nodes, and the three different floating-point literal node types now have distinct Kind values. As a proof of concept for the visitation / matching mechanism, this patch implements a Node dumping facility on top of it, replacing the prior mechanism that produced the pretty-printed output rather than a tree dump. Sample dump output: FunctionEncoding( NameType("int"), NameWithTemplateArgs( NestedName( NameWithTemplateArgs( NameType("A"), TemplateArgs( {NameType("B")})), NameType("f")), TemplateArgs( {NameType("int")})), {}, <null>, QualConst, FunctionRefQual::FrefQualLValue) As a next step, it would make sense to move the LLVM high-level interface to the demangler (the itaniumDemangler function and ItaniumPartialDemangler class) into the Support library, and implement them in terms of the Demangle library. This would allow the libc++abi demangler implementation to be an identical copy of the llvm Demangle library, and would allow the LLVM implementation to reuse LLVM components such as llvm::BumpPtrAllocator, but we'll need to decide how to coordinate that with the MS ABI demangler, so I'm not doing that in this patch. No functionality change intended other than the behavior of dump(). Reviewers: erik.pilkington, zturner, chandlerc, dlj Subscribers: aheejin, llvm-commits Differential Revision: https://reviews.llvm.org/D50930 llvm-svn: 340203
2018-08-20 21:44:01 +02:00
N = static_cast<const AbiTagAttr *>(N)->Base;
break;
case Node::KFunctionEncoding:
Move Itanium demangler implementation into a header file and add visitation support. Summary: This transforms the Itanium demangler into a generic reusable library that can be used to build, traverse, and transform Itanium mangled name trees. This is in preparation for adding a canonicalizing demangler, which cannot live in the Demangle library for layering reasons. In order to keep the diffs simpler, this patch moves more code to the new header than is strictly necessary: in particular, all of the printLeft / printRight implementations can be moved to the implementation file. (And indeed we could make them non-virtual now if we wished, and remove the vptr from Node.) All nodes are now included in the Kind enumeration, rather than omitting some of the Expr nodes, and the three different floating-point literal node types now have distinct Kind values. As a proof of concept for the visitation / matching mechanism, this patch implements a Node dumping facility on top of it, replacing the prior mechanism that produced the pretty-printed output rather than a tree dump. Sample dump output: FunctionEncoding( NameType("int"), NameWithTemplateArgs( NestedName( NameWithTemplateArgs( NameType("A"), TemplateArgs( {NameType("B")})), NameType("f")), TemplateArgs( {NameType("int")})), {}, <null>, QualConst, FunctionRefQual::FrefQualLValue) As a next step, it would make sense to move the LLVM high-level interface to the demangler (the itaniumDemangler function and ItaniumPartialDemangler class) into the Support library, and implement them in terms of the Demangle library. This would allow the libc++abi demangler implementation to be an identical copy of the llvm Demangle library, and would allow the LLVM implementation to reuse LLVM components such as llvm::BumpPtrAllocator, but we'll need to decide how to coordinate that with the MS ABI demangler, so I'm not doing that in this patch. No functionality change intended other than the behavior of dump(). Reviewers: erik.pilkington, zturner, chandlerc, dlj Subscribers: aheejin, llvm-commits Differential Revision: https://reviews.llvm.org/D50930 llvm-svn: 340203
2018-08-20 21:44:01 +02:00
N = static_cast<const FunctionEncoding *>(N)->getName();
break;
case Node::KLocalName:
Move Itanium demangler implementation into a header file and add visitation support. Summary: This transforms the Itanium demangler into a generic reusable library that can be used to build, traverse, and transform Itanium mangled name trees. This is in preparation for adding a canonicalizing demangler, which cannot live in the Demangle library for layering reasons. In order to keep the diffs simpler, this patch moves more code to the new header than is strictly necessary: in particular, all of the printLeft / printRight implementations can be moved to the implementation file. (And indeed we could make them non-virtual now if we wished, and remove the vptr from Node.) All nodes are now included in the Kind enumeration, rather than omitting some of the Expr nodes, and the three different floating-point literal node types now have distinct Kind values. As a proof of concept for the visitation / matching mechanism, this patch implements a Node dumping facility on top of it, replacing the prior mechanism that produced the pretty-printed output rather than a tree dump. Sample dump output: FunctionEncoding( NameType("int"), NameWithTemplateArgs( NestedName( NameWithTemplateArgs( NameType("A"), TemplateArgs( {NameType("B")})), NameType("f")), TemplateArgs( {NameType("int")})), {}, <null>, QualConst, FunctionRefQual::FrefQualLValue) As a next step, it would make sense to move the LLVM high-level interface to the demangler (the itaniumDemangler function and ItaniumPartialDemangler class) into the Support library, and implement them in terms of the Demangle library. This would allow the libc++abi demangler implementation to be an identical copy of the llvm Demangle library, and would allow the LLVM implementation to reuse LLVM components such as llvm::BumpPtrAllocator, but we'll need to decide how to coordinate that with the MS ABI demangler, so I'm not doing that in this patch. No functionality change intended other than the behavior of dump(). Reviewers: erik.pilkington, zturner, chandlerc, dlj Subscribers: aheejin, llvm-commits Differential Revision: https://reviews.llvm.org/D50930 llvm-svn: 340203
2018-08-20 21:44:01 +02:00
N = static_cast<const LocalName *>(N)->Entity;
break;
case Node::KNameWithTemplateArgs:
Move Itanium demangler implementation into a header file and add visitation support. Summary: This transforms the Itanium demangler into a generic reusable library that can be used to build, traverse, and transform Itanium mangled name trees. This is in preparation for adding a canonicalizing demangler, which cannot live in the Demangle library for layering reasons. In order to keep the diffs simpler, this patch moves more code to the new header than is strictly necessary: in particular, all of the printLeft / printRight implementations can be moved to the implementation file. (And indeed we could make them non-virtual now if we wished, and remove the vptr from Node.) All nodes are now included in the Kind enumeration, rather than omitting some of the Expr nodes, and the three different floating-point literal node types now have distinct Kind values. As a proof of concept for the visitation / matching mechanism, this patch implements a Node dumping facility on top of it, replacing the prior mechanism that produced the pretty-printed output rather than a tree dump. Sample dump output: FunctionEncoding( NameType("int"), NameWithTemplateArgs( NestedName( NameWithTemplateArgs( NameType("A"), TemplateArgs( {NameType("B")})), NameType("f")), TemplateArgs( {NameType("int")})), {}, <null>, QualConst, FunctionRefQual::FrefQualLValue) As a next step, it would make sense to move the LLVM high-level interface to the demangler (the itaniumDemangler function and ItaniumPartialDemangler class) into the Support library, and implement them in terms of the Demangle library. This would allow the libc++abi demangler implementation to be an identical copy of the llvm Demangle library, and would allow the LLVM implementation to reuse LLVM components such as llvm::BumpPtrAllocator, but we'll need to decide how to coordinate that with the MS ABI demangler, so I'm not doing that in this patch. No functionality change intended other than the behavior of dump(). Reviewers: erik.pilkington, zturner, chandlerc, dlj Subscribers: aheejin, llvm-commits Differential Revision: https://reviews.llvm.org/D50930 llvm-svn: 340203
2018-08-20 21:44:01 +02:00
N = static_cast<const NameWithTemplateArgs *>(N)->Name;
break;
case Node::KNestedName:
Move Itanium demangler implementation into a header file and add visitation support. Summary: This transforms the Itanium demangler into a generic reusable library that can be used to build, traverse, and transform Itanium mangled name trees. This is in preparation for adding a canonicalizing demangler, which cannot live in the Demangle library for layering reasons. In order to keep the diffs simpler, this patch moves more code to the new header than is strictly necessary: in particular, all of the printLeft / printRight implementations can be moved to the implementation file. (And indeed we could make them non-virtual now if we wished, and remove the vptr from Node.) All nodes are now included in the Kind enumeration, rather than omitting some of the Expr nodes, and the three different floating-point literal node types now have distinct Kind values. As a proof of concept for the visitation / matching mechanism, this patch implements a Node dumping facility on top of it, replacing the prior mechanism that produced the pretty-printed output rather than a tree dump. Sample dump output: FunctionEncoding( NameType("int"), NameWithTemplateArgs( NestedName( NameWithTemplateArgs( NameType("A"), TemplateArgs( {NameType("B")})), NameType("f")), TemplateArgs( {NameType("int")})), {}, <null>, QualConst, FunctionRefQual::FrefQualLValue) As a next step, it would make sense to move the LLVM high-level interface to the demangler (the itaniumDemangler function and ItaniumPartialDemangler class) into the Support library, and implement them in terms of the Demangle library. This would allow the libc++abi demangler implementation to be an identical copy of the llvm Demangle library, and would allow the LLVM implementation to reuse LLVM components such as llvm::BumpPtrAllocator, but we'll need to decide how to coordinate that with the MS ABI demangler, so I'm not doing that in this patch. No functionality change intended other than the behavior of dump(). Reviewers: erik.pilkington, zturner, chandlerc, dlj Subscribers: aheejin, llvm-commits Differential Revision: https://reviews.llvm.org/D50930 llvm-svn: 340203
2018-08-20 21:44:01 +02:00
N = static_cast<const NestedName *>(N)->Name;
break;
case Node::KStdQualifiedName:
Move Itanium demangler implementation into a header file and add visitation support. Summary: This transforms the Itanium demangler into a generic reusable library that can be used to build, traverse, and transform Itanium mangled name trees. This is in preparation for adding a canonicalizing demangler, which cannot live in the Demangle library for layering reasons. In order to keep the diffs simpler, this patch moves more code to the new header than is strictly necessary: in particular, all of the printLeft / printRight implementations can be moved to the implementation file. (And indeed we could make them non-virtual now if we wished, and remove the vptr from Node.) All nodes are now included in the Kind enumeration, rather than omitting some of the Expr nodes, and the three different floating-point literal node types now have distinct Kind values. As a proof of concept for the visitation / matching mechanism, this patch implements a Node dumping facility on top of it, replacing the prior mechanism that produced the pretty-printed output rather than a tree dump. Sample dump output: FunctionEncoding( NameType("int"), NameWithTemplateArgs( NestedName( NameWithTemplateArgs( NameType("A"), TemplateArgs( {NameType("B")})), NameType("f")), TemplateArgs( {NameType("int")})), {}, <null>, QualConst, FunctionRefQual::FrefQualLValue) As a next step, it would make sense to move the LLVM high-level interface to the demangler (the itaniumDemangler function and ItaniumPartialDemangler class) into the Support library, and implement them in terms of the Demangle library. This would allow the libc++abi demangler implementation to be an identical copy of the llvm Demangle library, and would allow the LLVM implementation to reuse LLVM components such as llvm::BumpPtrAllocator, but we'll need to decide how to coordinate that with the MS ABI demangler, so I'm not doing that in this patch. No functionality change intended other than the behavior of dump(). Reviewers: erik.pilkington, zturner, chandlerc, dlj Subscribers: aheejin, llvm-commits Differential Revision: https://reviews.llvm.org/D50930 llvm-svn: 340203
2018-08-20 21:44:01 +02:00
N = static_cast<const StdQualifiedName *>(N)->Child;
break;
}
}
return false;
}
bool ItaniumPartialDemangler::isFunction() const {
assert(RootNode != nullptr && "must call partialDemangle()");
Move Itanium demangler implementation into a header file and add visitation support. Summary: This transforms the Itanium demangler into a generic reusable library that can be used to build, traverse, and transform Itanium mangled name trees. This is in preparation for adding a canonicalizing demangler, which cannot live in the Demangle library for layering reasons. In order to keep the diffs simpler, this patch moves more code to the new header than is strictly necessary: in particular, all of the printLeft / printRight implementations can be moved to the implementation file. (And indeed we could make them non-virtual now if we wished, and remove the vptr from Node.) All nodes are now included in the Kind enumeration, rather than omitting some of the Expr nodes, and the three different floating-point literal node types now have distinct Kind values. As a proof of concept for the visitation / matching mechanism, this patch implements a Node dumping facility on top of it, replacing the prior mechanism that produced the pretty-printed output rather than a tree dump. Sample dump output: FunctionEncoding( NameType("int"), NameWithTemplateArgs( NestedName( NameWithTemplateArgs( NameType("A"), TemplateArgs( {NameType("B")})), NameType("f")), TemplateArgs( {NameType("int")})), {}, <null>, QualConst, FunctionRefQual::FrefQualLValue) As a next step, it would make sense to move the LLVM high-level interface to the demangler (the itaniumDemangler function and ItaniumPartialDemangler class) into the Support library, and implement them in terms of the Demangle library. This would allow the libc++abi demangler implementation to be an identical copy of the llvm Demangle library, and would allow the LLVM implementation to reuse LLVM components such as llvm::BumpPtrAllocator, but we'll need to decide how to coordinate that with the MS ABI demangler, so I'm not doing that in this patch. No functionality change intended other than the behavior of dump(). Reviewers: erik.pilkington, zturner, chandlerc, dlj Subscribers: aheejin, llvm-commits Differential Revision: https://reviews.llvm.org/D50930 llvm-svn: 340203
2018-08-20 21:44:01 +02:00
return static_cast<const Node *>(RootNode)->getKind() ==
Node::KFunctionEncoding;
}
bool ItaniumPartialDemangler::isSpecialName() const {
assert(RootNode != nullptr && "must call partialDemangle()");
Move Itanium demangler implementation into a header file and add visitation support. Summary: This transforms the Itanium demangler into a generic reusable library that can be used to build, traverse, and transform Itanium mangled name trees. This is in preparation for adding a canonicalizing demangler, which cannot live in the Demangle library for layering reasons. In order to keep the diffs simpler, this patch moves more code to the new header than is strictly necessary: in particular, all of the printLeft / printRight implementations can be moved to the implementation file. (And indeed we could make them non-virtual now if we wished, and remove the vptr from Node.) All nodes are now included in the Kind enumeration, rather than omitting some of the Expr nodes, and the three different floating-point literal node types now have distinct Kind values. As a proof of concept for the visitation / matching mechanism, this patch implements a Node dumping facility on top of it, replacing the prior mechanism that produced the pretty-printed output rather than a tree dump. Sample dump output: FunctionEncoding( NameType("int"), NameWithTemplateArgs( NestedName( NameWithTemplateArgs( NameType("A"), TemplateArgs( {NameType("B")})), NameType("f")), TemplateArgs( {NameType("int")})), {}, <null>, QualConst, FunctionRefQual::FrefQualLValue) As a next step, it would make sense to move the LLVM high-level interface to the demangler (the itaniumDemangler function and ItaniumPartialDemangler class) into the Support library, and implement them in terms of the Demangle library. This would allow the libc++abi demangler implementation to be an identical copy of the llvm Demangle library, and would allow the LLVM implementation to reuse LLVM components such as llvm::BumpPtrAllocator, but we'll need to decide how to coordinate that with the MS ABI demangler, so I'm not doing that in this patch. No functionality change intended other than the behavior of dump(). Reviewers: erik.pilkington, zturner, chandlerc, dlj Subscribers: aheejin, llvm-commits Differential Revision: https://reviews.llvm.org/D50930 llvm-svn: 340203
2018-08-20 21:44:01 +02:00
auto K = static_cast<const Node *>(RootNode)->getKind();
return K == Node::KSpecialName || K == Node::KCtorVtableSpecialName;
}
bool ItaniumPartialDemangler::isData() const {
return !isFunction() && !isSpecialName();
}