1 //===-- GenericBitset.cpp //-----------------------------------------------===//
2 //
3 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
4 // See https://llvm.org/LICENSE.txt for license information.
5 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
6 //
7 //===----------------------------------------------------------------------===//
8 
9 #include "LibCxx.h"
10 #include "LibStdcpp.h"
11 #include "Plugins/TypeSystem/Clang/TypeSystemClang.h"
12 #include "lldb/DataFormatters/FormattersHelpers.h"
13 #include "lldb/Target/Target.h"
14 #include <optional>
15 
16 using namespace lldb;
17 using namespace lldb_private;
18 
19 namespace {
20 
21 /// This class can be used for handling bitsets from both libcxx and libstdcpp.
22 class GenericBitsetFrontEnd : public SyntheticChildrenFrontEnd {
23 public:
24   enum class StdLib {
25     LibCxx,
26     LibStdcpp,
27   };
28 
29   GenericBitsetFrontEnd(ValueObject &valobj, StdLib stdlib);
30 
31   size_t GetIndexOfChildWithName(ConstString name) override {
32     return formatters::ExtractIndexFromString(name.GetCString());
33   }
34 
35   bool MightHaveChildren() override { return true; }
36   bool Update() override;
37   size_t CalculateNumChildren() override { return m_elements.size(); }
38   ValueObjectSP GetChildAtIndex(size_t idx) override;
39 
40 private:
41   ConstString GetDataContainerMemberName();
42 
43   // The lifetime of a ValueObject and all its derivative ValueObjects
44   // (children, clones, etc.) is managed by a ClusterManager. These
45   // objects are only destroyed when every shared pointer to any of them
46   // is destroyed, so we must not store a shared pointer to any ValueObject
47   // derived from our backend ValueObject (since we're in the same cluster).
48   // Value objects created from raw data (i.e. in a different cluster) must
49   // be referenced via shared pointer to keep them alive, however.
50   std::vector<ValueObjectSP> m_elements;
51   ValueObject *m_first = nullptr;
52   CompilerType m_bool_type;
53   ByteOrder m_byte_order = eByteOrderInvalid;
54   uint8_t m_byte_size = 0;
55   StdLib m_stdlib;
56 };
57 } // namespace
58 
59 GenericBitsetFrontEnd::GenericBitsetFrontEnd(ValueObject &valobj, StdLib stdlib)
60     : SyntheticChildrenFrontEnd(valobj), m_stdlib(stdlib) {
61   m_bool_type = valobj.GetCompilerType().GetBasicTypeFromAST(eBasicTypeBool);
62   if (auto target_sp = m_backend.GetTargetSP()) {
63     m_byte_order = target_sp->GetArchitecture().GetByteOrder();
64     m_byte_size = target_sp->GetArchitecture().GetAddressByteSize();
65     Update();
66   }
67 }
68 
69 ConstString GenericBitsetFrontEnd::GetDataContainerMemberName() {
70   switch (m_stdlib) {
71   case StdLib::LibCxx:
72     return ConstString("__first_");
73   case StdLib::LibStdcpp:
74     return ConstString("_M_w");
75   }
76   llvm_unreachable("Unknown StdLib enum");
77 }
78 
79 bool GenericBitsetFrontEnd::Update() {
80   m_elements.clear();
81   m_first = nullptr;
82 
83   TargetSP target_sp = m_backend.GetTargetSP();
84   if (!target_sp)
85     return false;
86 
87   size_t size = 0;
88 
89   if (auto arg = m_backend.GetCompilerType().GetIntegralTemplateArgument(0))
90     size = arg->value.getLimitedValue();
91 
92   m_elements.assign(size, ValueObjectSP());
93   m_first =
94       m_backend.GetChildMemberWithName(GetDataContainerMemberName()).get();
95   return false;
96 }
97 
98 ValueObjectSP GenericBitsetFrontEnd::GetChildAtIndex(size_t idx) {
99   if (idx >= m_elements.size() || !m_first)
100     return ValueObjectSP();
101 
102   if (m_elements[idx])
103     return m_elements[idx];
104 
105   ExecutionContext ctx = m_backend.GetExecutionContextRef().Lock(false);
106   CompilerType type;
107   ValueObjectSP chunk;
108   // For small bitsets __first_ is not an array, but a plain size_t.
109   if (m_first->GetCompilerType().IsArrayType(&type)) {
110     std::optional<uint64_t> bit_size =
111         type.GetBitSize(ctx.GetBestExecutionContextScope());
112     if (!bit_size || *bit_size == 0)
113       return {};
114     chunk = m_first->GetChildAtIndex(idx / *bit_size);
115   } else {
116     type = m_first->GetCompilerType();
117     chunk = m_first->GetSP();
118   }
119   if (!type || !chunk)
120     return {};
121 
122   std::optional<uint64_t> bit_size =
123       type.GetBitSize(ctx.GetBestExecutionContextScope());
124   if (!bit_size || *bit_size == 0)
125     return {};
126   size_t chunk_idx = idx % *bit_size;
127   uint8_t value = !!(chunk->GetValueAsUnsigned(0) & (uint64_t(1) << chunk_idx));
128   DataExtractor data(&value, sizeof(value), m_byte_order, m_byte_size);
129 
130   m_elements[idx] = CreateValueObjectFromData(llvm::formatv("[{0}]", idx).str(),
131                                               data, ctx, m_bool_type);
132 
133   return m_elements[idx];
134 }
135 
136 SyntheticChildrenFrontEnd *formatters::LibStdcppBitsetSyntheticFrontEndCreator(
137     CXXSyntheticChildren *, lldb::ValueObjectSP valobj_sp) {
138   if (valobj_sp)
139     return new GenericBitsetFrontEnd(*valobj_sp,
140                                      GenericBitsetFrontEnd::StdLib::LibStdcpp);
141   return nullptr;
142 }
143 
144 SyntheticChildrenFrontEnd *formatters::LibcxxBitsetSyntheticFrontEndCreator(
145     CXXSyntheticChildren *, lldb::ValueObjectSP valobj_sp) {
146   if (valobj_sp)
147     return new GenericBitsetFrontEnd(*valobj_sp,
148                                      GenericBitsetFrontEnd::StdLib::LibCxx);
149   return nullptr;
150 }
151