xref: /freebsd/contrib/llvm-project/clang/lib/AST/Interp/EvalEmitter.cpp (revision fe75646a0234a261c0013bf1840fdac4acaf0cec)
1 //===--- EvalEmitter.cpp - Instruction emitter for the VM -------*- C++ -*-===//
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 "EvalEmitter.h"
10 #include "Context.h"
11 #include "Interp.h"
12 #include "Opcode.h"
13 #include "Program.h"
14 #include "clang/AST/DeclCXX.h"
15 
16 using namespace clang;
17 using namespace clang::interp;
18 
19 using APSInt = llvm::APSInt;
20 template <typename T> using Expected = llvm::Expected<T>;
21 
22 EvalEmitter::EvalEmitter(Context &Ctx, Program &P, State &Parent,
23                          InterpStack &Stk, APValue &Result)
24     : Ctx(Ctx), P(P), S(Parent, P, Stk, Ctx, this), Result(Result) {
25   // Create a dummy frame for the interpreter which does not have locals.
26   S.Current =
27       new InterpFrame(S, /*Func=*/nullptr, /*Caller=*/nullptr, CodePtr());
28 }
29 
30 llvm::Expected<bool> EvalEmitter::interpretExpr(const Expr *E) {
31   if (this->visitExpr(E))
32     return true;
33   if (BailLocation)
34     return llvm::make_error<ByteCodeGenError>(*BailLocation);
35   return false;
36 }
37 
38 llvm::Expected<bool> EvalEmitter::interpretDecl(const VarDecl *VD) {
39   if (this->visitDecl(VD))
40     return true;
41   if (BailLocation)
42     return llvm::make_error<ByteCodeGenError>(*BailLocation);
43   return false;
44 }
45 
46 void EvalEmitter::emitLabel(LabelTy Label) {
47   CurrentLabel = Label;
48 }
49 
50 EvalEmitter::LabelTy EvalEmitter::getLabel() { return NextLabel++; }
51 
52 Scope::Local EvalEmitter::createLocal(Descriptor *D) {
53   // Allocate memory for a local.
54   auto Memory = std::make_unique<char[]>(sizeof(Block) + D->getAllocSize());
55   auto *B = new (Memory.get()) Block(D, /*isStatic=*/false);
56   B->invokeCtor();
57 
58   // Initialize local variable inline descriptor.
59   InlineDescriptor &Desc = *reinterpret_cast<InlineDescriptor *>(B->rawData());
60   Desc.Desc = D;
61   Desc.Offset = sizeof(InlineDescriptor);
62   Desc.IsActive = true;
63   Desc.IsBase = false;
64   Desc.IsFieldMutable = false;
65   Desc.IsConst = false;
66   Desc.IsInitialized = false;
67 
68   // Register the local.
69   unsigned Off = Locals.size();
70   Locals.insert({Off, std::move(Memory)});
71   return {Off, D};
72 }
73 
74 bool EvalEmitter::bail(const SourceLocation &Loc) {
75   if (!BailLocation)
76     BailLocation = Loc;
77   return false;
78 }
79 
80 bool EvalEmitter::jumpTrue(const LabelTy &Label) {
81   if (isActive()) {
82     if (S.Stk.pop<bool>())
83       ActiveLabel = Label;
84   }
85   return true;
86 }
87 
88 bool EvalEmitter::jumpFalse(const LabelTy &Label) {
89   if (isActive()) {
90     if (!S.Stk.pop<bool>())
91       ActiveLabel = Label;
92   }
93   return true;
94 }
95 
96 bool EvalEmitter::jump(const LabelTy &Label) {
97   if (isActive())
98     CurrentLabel = ActiveLabel = Label;
99   return true;
100 }
101 
102 bool EvalEmitter::fallthrough(const LabelTy &Label) {
103   if (isActive())
104     ActiveLabel = Label;
105   CurrentLabel = Label;
106   return true;
107 }
108 
109 template <PrimType OpType> bool EvalEmitter::emitRet(const SourceInfo &Info) {
110   if (!isActive())
111     return true;
112   using T = typename PrimConv<OpType>::T;
113   return ReturnValue<T>(S.Stk.pop<T>(), Result);
114 }
115 
116 bool EvalEmitter::emitRetVoid(const SourceInfo &Info) { return true; }
117 
118 bool EvalEmitter::emitRetValue(const SourceInfo &Info) {
119   // Method to recursively traverse composites.
120   std::function<bool(QualType, const Pointer &, APValue &)> Composite;
121   Composite = [this, &Composite](QualType Ty, const Pointer &Ptr, APValue &R) {
122     if (auto *AT = Ty->getAs<AtomicType>())
123       Ty = AT->getValueType();
124 
125     if (auto *RT = Ty->getAs<RecordType>()) {
126       const auto *Record = Ptr.getRecord();
127       assert(Record && "Missing record descriptor");
128 
129       bool Ok = true;
130       if (RT->getDecl()->isUnion()) {
131         const FieldDecl *ActiveField = nullptr;
132         APValue Value;
133         for (auto &F : Record->fields()) {
134           const Pointer &FP = Ptr.atField(F.Offset);
135           QualType FieldTy = F.Decl->getType();
136           if (FP.isActive()) {
137             if (std::optional<PrimType> T = Ctx.classify(FieldTy)) {
138               TYPE_SWITCH(*T, Ok &= ReturnValue<T>(FP.deref<T>(), Value));
139             } else {
140               Ok &= Composite(FieldTy, FP, Value);
141             }
142             break;
143           }
144         }
145         R = APValue(ActiveField, Value);
146       } else {
147         unsigned NF = Record->getNumFields();
148         unsigned NB = Record->getNumBases();
149         unsigned NV = Ptr.isBaseClass() ? 0 : Record->getNumVirtualBases();
150 
151         R = APValue(APValue::UninitStruct(), NB, NF);
152 
153         for (unsigned I = 0; I < NF; ++I) {
154           const Record::Field *FD = Record->getField(I);
155           QualType FieldTy = FD->Decl->getType();
156           const Pointer &FP = Ptr.atField(FD->Offset);
157           APValue &Value = R.getStructField(I);
158 
159           if (std::optional<PrimType> T = Ctx.classify(FieldTy)) {
160             TYPE_SWITCH(*T, Ok &= ReturnValue<T>(FP.deref<T>(), Value));
161           } else {
162             Ok &= Composite(FieldTy, FP, Value);
163           }
164         }
165 
166         for (unsigned I = 0; I < NB; ++I) {
167           const Record::Base *BD = Record->getBase(I);
168           QualType BaseTy = Ctx.getASTContext().getRecordType(BD->Decl);
169           const Pointer &BP = Ptr.atField(BD->Offset);
170           Ok &= Composite(BaseTy, BP, R.getStructBase(I));
171         }
172 
173         for (unsigned I = 0; I < NV; ++I) {
174           const Record::Base *VD = Record->getVirtualBase(I);
175           QualType VirtBaseTy = Ctx.getASTContext().getRecordType(VD->Decl);
176           const Pointer &VP = Ptr.atField(VD->Offset);
177           Ok &= Composite(VirtBaseTy, VP, R.getStructBase(NB + I));
178         }
179       }
180       return Ok;
181     }
182     if (auto *AT = Ty->getAsArrayTypeUnsafe()) {
183       const size_t NumElems = Ptr.getNumElems();
184       QualType ElemTy = AT->getElementType();
185       R = APValue(APValue::UninitArray{}, NumElems, NumElems);
186 
187       bool Ok = true;
188       for (unsigned I = 0; I < NumElems; ++I) {
189         APValue &Slot = R.getArrayInitializedElt(I);
190         const Pointer &EP = Ptr.atIndex(I);
191         if (std::optional<PrimType> T = Ctx.classify(ElemTy)) {
192           TYPE_SWITCH(*T, Ok &= ReturnValue<T>(EP.deref<T>(), Slot));
193         } else {
194           Ok &= Composite(ElemTy, EP.narrow(), Slot);
195         }
196       }
197       return Ok;
198     }
199     llvm_unreachable("invalid value to return");
200   };
201 
202   // Return the composite type.
203   const auto &Ptr = S.Stk.pop<Pointer>();
204   return Composite(Ptr.getType(), Ptr, Result);
205 }
206 
207 bool EvalEmitter::emitGetPtrLocal(uint32_t I, const SourceInfo &Info) {
208   if (!isActive())
209     return true;
210 
211   Block *B = getLocal(I);
212   S.Stk.push<Pointer>(B, sizeof(InlineDescriptor));
213   return true;
214 }
215 
216 template <PrimType OpType>
217 bool EvalEmitter::emitGetLocal(uint32_t I, const SourceInfo &Info) {
218   if (!isActive())
219     return true;
220 
221   using T = typename PrimConv<OpType>::T;
222 
223   Block *B = getLocal(I);
224   S.Stk.push<T>(*reinterpret_cast<T *>(B->data()));
225   return true;
226 }
227 
228 template <PrimType OpType>
229 bool EvalEmitter::emitSetLocal(uint32_t I, const SourceInfo &Info) {
230   if (!isActive())
231     return true;
232 
233   using T = typename PrimConv<OpType>::T;
234 
235   Block *B = getLocal(I);
236   *reinterpret_cast<T *>(B->data()) = S.Stk.pop<T>();
237   InlineDescriptor &Desc = *reinterpret_cast<InlineDescriptor *>(B->rawData());
238   Desc.IsInitialized = true;
239 
240   return true;
241 }
242 
243 bool EvalEmitter::emitDestroy(uint32_t I, const SourceInfo &Info) {
244   if (!isActive())
245     return true;
246 
247   for (auto &Local : Descriptors[I]) {
248     Block *B = getLocal(Local.Offset);
249     S.deallocate(B);
250   }
251 
252   return true;
253 }
254 
255 //===----------------------------------------------------------------------===//
256 // Opcode evaluators
257 //===----------------------------------------------------------------------===//
258 
259 #define GET_EVAL_IMPL
260 #include "Opcodes.inc"
261 #undef GET_EVAL_IMPL
262