[ARM] Prevent generating NEON stack accesses under MVE.
[llvm-complete.git] / tools / llvm-pdbutil / MinimalTypeDumper.cpp
blob3fdef085f19e055be7f3be7924c4e7861c28477f
1 //===- MinimalTypeDumper.cpp ---------------------------------- *- 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 //===----------------------------------------------------------------------===//
9 #include "MinimalTypeDumper.h"
11 #include "FormatUtil.h"
12 #include "LinePrinter.h"
13 #include "TypeReferenceTracker.h"
15 #include "llvm-pdbutil.h"
16 #include "llvm/DebugInfo/CodeView/CVRecord.h"
17 #include "llvm/DebugInfo/CodeView/CVTypeVisitor.h"
18 #include "llvm/DebugInfo/CodeView/CodeView.h"
19 #include "llvm/DebugInfo/CodeView/Formatters.h"
20 #include "llvm/DebugInfo/CodeView/LazyRandomTypeCollection.h"
21 #include "llvm/DebugInfo/CodeView/TypeRecord.h"
22 #include "llvm/DebugInfo/PDB/Native/TpiHashing.h"
23 #include "llvm/DebugInfo/PDB/Native/TpiStream.h"
24 #include "llvm/Support/FormatVariadic.h"
25 #include "llvm/Support/MathExtras.h"
27 using namespace llvm;
28 using namespace llvm::codeview;
29 using namespace llvm::pdb;
31 static std::string formatClassOptions(uint32_t IndentLevel,
32 ClassOptions Options, TpiStream *Stream,
33 TypeIndex CurrentTypeIndex) {
34 std::vector<std::string> Opts;
36 if (Stream && Stream->supportsTypeLookup() &&
37 !opts::dump::DontResolveForwardRefs &&
38 ((Options & ClassOptions::ForwardReference) != ClassOptions::None)) {
39 // If we're able to resolve forward references, do that.
40 Expected<TypeIndex> ETI =
41 Stream->findFullDeclForForwardRef(CurrentTypeIndex);
42 if (!ETI) {
43 consumeError(ETI.takeError());
44 PUSH_FLAG(ClassOptions, ForwardReference, Options, "forward ref (??\?)");
45 } else {
46 const char *Direction = (*ETI == CurrentTypeIndex)
47 ? "="
48 : ((*ETI < CurrentTypeIndex) ? "<-" : "->");
49 std::string Formatted =
50 formatv("forward ref ({0} {1})", Direction, *ETI).str();
51 PUSH_FLAG(ClassOptions, ForwardReference, Options, std::move(Formatted));
53 } else {
54 PUSH_FLAG(ClassOptions, ForwardReference, Options, "forward ref");
57 PUSH_FLAG(ClassOptions, HasConstructorOrDestructor, Options,
58 "has ctor / dtor");
59 PUSH_FLAG(ClassOptions, ContainsNestedClass, Options,
60 "contains nested class");
61 PUSH_FLAG(ClassOptions, HasConversionOperator, Options,
62 "conversion operator");
63 PUSH_FLAG(ClassOptions, HasUniqueName, Options, "has unique name");
64 PUSH_FLAG(ClassOptions, Intrinsic, Options, "intrin");
65 PUSH_FLAG(ClassOptions, Nested, Options, "is nested");
66 PUSH_FLAG(ClassOptions, HasOverloadedOperator, Options,
67 "overloaded operator");
68 PUSH_FLAG(ClassOptions, HasOverloadedAssignmentOperator, Options,
69 "overloaded operator=");
70 PUSH_FLAG(ClassOptions, Packed, Options, "packed");
71 PUSH_FLAG(ClassOptions, Scoped, Options, "scoped");
72 PUSH_FLAG(ClassOptions, Sealed, Options, "sealed");
74 return typesetItemList(Opts, 4, IndentLevel, " | ");
77 static std::string pointerOptions(PointerOptions Options) {
78 std::vector<std::string> Opts;
79 PUSH_FLAG(PointerOptions, Flat32, Options, "flat32");
80 PUSH_FLAG(PointerOptions, Volatile, Options, "volatile");
81 PUSH_FLAG(PointerOptions, Const, Options, "const");
82 PUSH_FLAG(PointerOptions, Unaligned, Options, "unaligned");
83 PUSH_FLAG(PointerOptions, Restrict, Options, "restrict");
84 PUSH_FLAG(PointerOptions, WinRTSmartPointer, Options, "winrt");
85 if (Opts.empty())
86 return "None";
87 return join(Opts, " | ");
90 static std::string modifierOptions(ModifierOptions Options) {
91 std::vector<std::string> Opts;
92 PUSH_FLAG(ModifierOptions, Const, Options, "const");
93 PUSH_FLAG(ModifierOptions, Volatile, Options, "volatile");
94 PUSH_FLAG(ModifierOptions, Unaligned, Options, "unaligned");
95 if (Opts.empty())
96 return "None";
97 return join(Opts, " | ");
100 static std::string formatCallingConvention(CallingConvention Convention) {
101 switch (Convention) {
102 RETURN_CASE(CallingConvention, AlphaCall, "alphacall");
103 RETURN_CASE(CallingConvention, AM33Call, "am33call");
104 RETURN_CASE(CallingConvention, ArmCall, "armcall");
105 RETURN_CASE(CallingConvention, ClrCall, "clrcall");
106 RETURN_CASE(CallingConvention, FarC, "far cdecl");
107 RETURN_CASE(CallingConvention, FarFast, "far fastcall");
108 RETURN_CASE(CallingConvention, FarPascal, "far pascal");
109 RETURN_CASE(CallingConvention, FarStdCall, "far stdcall");
110 RETURN_CASE(CallingConvention, FarSysCall, "far syscall");
111 RETURN_CASE(CallingConvention, Generic, "generic");
112 RETURN_CASE(CallingConvention, Inline, "inline");
113 RETURN_CASE(CallingConvention, M32RCall, "m32rcall");
114 RETURN_CASE(CallingConvention, MipsCall, "mipscall");
115 RETURN_CASE(CallingConvention, NearC, "cdecl");
116 RETURN_CASE(CallingConvention, NearFast, "fastcall");
117 RETURN_CASE(CallingConvention, NearPascal, "pascal");
118 RETURN_CASE(CallingConvention, NearStdCall, "stdcall");
119 RETURN_CASE(CallingConvention, NearSysCall, "near syscall");
120 RETURN_CASE(CallingConvention, NearVector, "vectorcall");
121 RETURN_CASE(CallingConvention, PpcCall, "ppccall");
122 RETURN_CASE(CallingConvention, SHCall, "shcall");
123 RETURN_CASE(CallingConvention, SH5Call, "sh5call");
124 RETURN_CASE(CallingConvention, ThisCall, "thiscall");
125 RETURN_CASE(CallingConvention, TriCall, "tricall");
127 return formatUnknownEnum(Convention);
130 static std::string formatPointerMode(PointerMode Mode) {
131 switch (Mode) {
132 RETURN_CASE(PointerMode, LValueReference, "ref");
133 RETURN_CASE(PointerMode, Pointer, "pointer");
134 RETURN_CASE(PointerMode, PointerToDataMember, "data member pointer");
135 RETURN_CASE(PointerMode, PointerToMemberFunction, "member fn pointer");
136 RETURN_CASE(PointerMode, RValueReference, "rvalue ref");
138 return formatUnknownEnum(Mode);
141 static std::string memberAccess(MemberAccess Access) {
142 switch (Access) {
143 RETURN_CASE(MemberAccess, None, "");
144 RETURN_CASE(MemberAccess, Private, "private");
145 RETURN_CASE(MemberAccess, Protected, "protected");
146 RETURN_CASE(MemberAccess, Public, "public");
148 return formatUnknownEnum(Access);
151 static std::string methodKind(MethodKind Kind) {
152 switch (Kind) {
153 RETURN_CASE(MethodKind, Vanilla, "");
154 RETURN_CASE(MethodKind, Virtual, "virtual");
155 RETURN_CASE(MethodKind, Static, "static");
156 RETURN_CASE(MethodKind, Friend, "friend");
157 RETURN_CASE(MethodKind, IntroducingVirtual, "intro virtual");
158 RETURN_CASE(MethodKind, PureVirtual, "pure virtual");
159 RETURN_CASE(MethodKind, PureIntroducingVirtual, "pure intro virtual");
161 return formatUnknownEnum(Kind);
164 static std::string pointerKind(PointerKind Kind) {
165 switch (Kind) {
166 RETURN_CASE(PointerKind, Near16, "ptr16");
167 RETURN_CASE(PointerKind, Far16, "far ptr16");
168 RETURN_CASE(PointerKind, Huge16, "huge ptr16");
169 RETURN_CASE(PointerKind, BasedOnSegment, "segment based");
170 RETURN_CASE(PointerKind, BasedOnValue, "value based");
171 RETURN_CASE(PointerKind, BasedOnSegmentValue, "segment value based");
172 RETURN_CASE(PointerKind, BasedOnAddress, "address based");
173 RETURN_CASE(PointerKind, BasedOnSegmentAddress, "segment address based");
174 RETURN_CASE(PointerKind, BasedOnType, "type based");
175 RETURN_CASE(PointerKind, BasedOnSelf, "self based");
176 RETURN_CASE(PointerKind, Near32, "ptr32");
177 RETURN_CASE(PointerKind, Far32, "far ptr32");
178 RETURN_CASE(PointerKind, Near64, "ptr64");
180 return formatUnknownEnum(Kind);
183 static std::string memberAttributes(const MemberAttributes &Attrs) {
184 std::vector<std::string> Opts;
185 std::string Access = memberAccess(Attrs.getAccess());
186 std::string Kind = methodKind(Attrs.getMethodKind());
187 if (!Access.empty())
188 Opts.push_back(Access);
189 if (!Kind.empty())
190 Opts.push_back(Kind);
191 MethodOptions Flags = Attrs.getFlags();
192 PUSH_FLAG(MethodOptions, Pseudo, Flags, "pseudo");
193 PUSH_FLAG(MethodOptions, NoInherit, Flags, "noinherit");
194 PUSH_FLAG(MethodOptions, NoConstruct, Flags, "noconstruct");
195 PUSH_FLAG(MethodOptions, CompilerGenerated, Flags, "compiler-generated");
196 PUSH_FLAG(MethodOptions, Sealed, Flags, "sealed");
197 return join(Opts, " ");
200 static std::string formatPointerAttrs(const PointerRecord &Record) {
201 PointerMode Mode = Record.getMode();
202 PointerOptions Opts = Record.getOptions();
203 PointerKind Kind = Record.getPointerKind();
204 return formatv("mode = {0}, opts = {1}, kind = {2}", formatPointerMode(Mode),
205 pointerOptions(Opts), pointerKind(Kind));
208 static std::string formatFunctionOptions(FunctionOptions Options) {
209 std::vector<std::string> Opts;
211 PUSH_FLAG(FunctionOptions, CxxReturnUdt, Options, "returns cxx udt");
212 PUSH_FLAG(FunctionOptions, ConstructorWithVirtualBases, Options,
213 "constructor with virtual bases");
214 PUSH_FLAG(FunctionOptions, Constructor, Options, "constructor");
215 if (Opts.empty())
216 return "None";
217 return join(Opts, " | ");
220 Error MinimalTypeDumpVisitor::visitTypeBegin(CVType &Record, TypeIndex Index) {
221 CurrentTypeIndex = Index;
222 // formatLine puts the newline at the beginning, so we use formatLine here
223 // to start a new line, and then individual visit methods use format to
224 // append to the existing line.
225 P.formatLine("{0} | {1} [size = {2}",
226 fmt_align(Index, AlignStyle::Right, Width),
227 formatTypeLeafKind(Record.kind()), Record.length());
228 if (Hashes) {
229 std::string H;
230 if (Index.toArrayIndex() >= HashValues.size()) {
231 H = "(not present)";
232 } else {
233 uint32_t Hash = HashValues[Index.toArrayIndex()];
234 Expected<uint32_t> MaybeHash = hashTypeRecord(Record);
235 if (!MaybeHash)
236 return MaybeHash.takeError();
237 uint32_t OurHash = *MaybeHash;
238 OurHash %= NumHashBuckets;
239 if (Hash == OurHash)
240 H = "0x" + utohexstr(Hash);
241 else
242 H = "0x" + utohexstr(Hash) + ", our hash = 0x" + utohexstr(OurHash);
244 P.format(", hash = {0}", H);
246 if (RefTracker) {
247 if (RefTracker->isTypeReferenced(Index))
248 P.format(", referenced");
249 else
250 P.format(", unreferenced");
252 P.format("]");
253 P.Indent(Width + 3);
254 return Error::success();
257 Error MinimalTypeDumpVisitor::visitTypeEnd(CVType &Record) {
258 P.Unindent(Width + 3);
259 if (RecordBytes) {
260 AutoIndent Indent(P, 9);
261 P.formatBinary("Bytes", Record.RecordData, 0);
263 return Error::success();
266 Error MinimalTypeDumpVisitor::visitMemberBegin(CVMemberRecord &Record) {
267 P.formatLine("- {0}", formatTypeLeafKind(Record.Kind));
268 return Error::success();
271 Error MinimalTypeDumpVisitor::visitMemberEnd(CVMemberRecord &Record) {
272 if (RecordBytes) {
273 AutoIndent Indent(P, 2);
274 P.formatBinary("Bytes", Record.Data, 0);
276 return Error::success();
279 StringRef MinimalTypeDumpVisitor::getTypeName(TypeIndex TI) const {
280 if (TI.isNoneType())
281 return "";
282 return Types.getTypeName(TI);
285 Error MinimalTypeDumpVisitor::visitKnownRecord(CVType &CVR,
286 FieldListRecord &FieldList) {
287 if (auto EC = codeview::visitMemberRecordStream(FieldList.Data, *this))
288 return EC;
290 return Error::success();
293 Error MinimalTypeDumpVisitor::visitKnownRecord(CVType &CVR,
294 StringIdRecord &String) {
295 P.format(" ID: {0}, String: {1}", String.getId(), String.getString());
296 return Error::success();
299 Error MinimalTypeDumpVisitor::visitKnownRecord(CVType &CVR,
300 ArgListRecord &Args) {
301 auto Indices = Args.getIndices();
302 if (Indices.empty())
303 return Error::success();
305 auto Max = std::max_element(Indices.begin(), Indices.end());
306 uint32_t W = NumDigits(Max->getIndex()) + 2;
308 for (auto I : Indices)
309 P.formatLine("{0}: `{1}`", fmt_align(I, AlignStyle::Right, W),
310 getTypeName(I));
311 return Error::success();
314 Error MinimalTypeDumpVisitor::visitKnownRecord(CVType &CVR,
315 StringListRecord &Strings) {
316 auto Indices = Strings.getIndices();
317 if (Indices.empty())
318 return Error::success();
320 auto Max = std::max_element(Indices.begin(), Indices.end());
321 uint32_t W = NumDigits(Max->getIndex()) + 2;
323 for (auto I : Indices)
324 P.formatLine("{0}: `{1}`", fmt_align(I, AlignStyle::Right, W),
325 getTypeName(I));
326 return Error::success();
329 Error MinimalTypeDumpVisitor::visitKnownRecord(CVType &CVR,
330 ClassRecord &Class) {
331 P.format(" `{0}`", Class.Name);
332 if (Class.hasUniqueName())
333 P.formatLine("unique name: `{0}`", Class.UniqueName);
334 P.formatLine("vtable: {0}, base list: {1}, field list: {2}",
335 Class.VTableShape, Class.DerivationList, Class.FieldList);
336 P.formatLine("options: {0}, sizeof {1}",
337 formatClassOptions(P.getIndentLevel(), Class.Options, Stream,
338 CurrentTypeIndex),
339 Class.Size);
340 return Error::success();
343 Error MinimalTypeDumpVisitor::visitKnownRecord(CVType &CVR,
344 UnionRecord &Union) {
345 P.format(" `{0}`", Union.Name);
346 if (Union.hasUniqueName())
347 P.formatLine("unique name: `{0}`", Union.UniqueName);
348 P.formatLine("field list: {0}", Union.FieldList);
349 P.formatLine("options: {0}, sizeof {1}",
350 formatClassOptions(P.getIndentLevel(), Union.Options, Stream,
351 CurrentTypeIndex),
352 Union.Size);
353 return Error::success();
356 Error MinimalTypeDumpVisitor::visitKnownRecord(CVType &CVR, EnumRecord &Enum) {
357 P.format(" `{0}`", Enum.Name);
358 if (Enum.hasUniqueName())
359 P.formatLine("unique name: `{0}`", Enum.UniqueName);
360 P.formatLine("field list: {0}, underlying type: {1}", Enum.FieldList,
361 Enum.UnderlyingType);
362 P.formatLine("options: {0}",
363 formatClassOptions(P.getIndentLevel(), Enum.Options, Stream,
364 CurrentTypeIndex));
365 return Error::success();
368 Error MinimalTypeDumpVisitor::visitKnownRecord(CVType &CVR, ArrayRecord &AT) {
369 if (AT.Name.empty()) {
370 P.formatLine("size: {0}, index type: {1}, element type: {2}", AT.Size,
371 AT.IndexType, AT.ElementType);
372 } else {
373 P.formatLine("name: {0}, size: {1}, index type: {2}, element type: {3}",
374 AT.Name, AT.Size, AT.IndexType, AT.ElementType);
376 return Error::success();
379 Error MinimalTypeDumpVisitor::visitKnownRecord(CVType &CVR,
380 VFTableRecord &VFT) {
381 P.formatLine("offset: {0}, complete class: {1}, overridden vftable: {2}",
382 VFT.VFPtrOffset, VFT.CompleteClass, VFT.OverriddenVFTable);
383 P.formatLine("method names: ");
384 if (!VFT.MethodNames.empty()) {
385 std::string Sep =
386 formatv("\n{0}",
387 fmt_repeat(' ', P.getIndentLevel() + strlen("method names: ")))
388 .str();
389 P.print(join(VFT.MethodNames, Sep));
391 return Error::success();
394 Error MinimalTypeDumpVisitor::visitKnownRecord(CVType &CVR,
395 MemberFuncIdRecord &Id) {
396 P.formatLine("name = {0}, type = {1}, class type = {2}", Id.Name,
397 Id.FunctionType, Id.ClassType);
398 return Error::success();
401 Error MinimalTypeDumpVisitor::visitKnownRecord(CVType &CVR,
402 ProcedureRecord &Proc) {
403 P.formatLine("return type = {0}, # args = {1}, param list = {2}",
404 Proc.ReturnType, Proc.ParameterCount, Proc.ArgumentList);
405 P.formatLine("calling conv = {0}, options = {1}",
406 formatCallingConvention(Proc.CallConv),
407 formatFunctionOptions(Proc.Options));
408 return Error::success();
411 Error MinimalTypeDumpVisitor::visitKnownRecord(CVType &CVR,
412 MemberFunctionRecord &MF) {
413 P.formatLine("return type = {0}, # args = {1}, param list = {2}",
414 MF.ReturnType, MF.ParameterCount, MF.ArgumentList);
415 P.formatLine("class type = {0}, this type = {1}, this adjust = {2}",
416 MF.ClassType, MF.ThisType, MF.ThisPointerAdjustment);
417 P.formatLine("calling conv = {0}, options = {1}",
418 formatCallingConvention(MF.CallConv),
419 formatFunctionOptions(MF.Options));
420 return Error::success();
423 Error MinimalTypeDumpVisitor::visitKnownRecord(CVType &CVR,
424 FuncIdRecord &Func) {
425 P.formatLine("name = {0}, type = {1}, parent scope = {2}", Func.Name,
426 Func.FunctionType, Func.ParentScope);
427 return Error::success();
430 Error MinimalTypeDumpVisitor::visitKnownRecord(CVType &CVR,
431 TypeServer2Record &TS) {
432 P.formatLine("name = {0}, age = {1}, guid = {2}", TS.Name, TS.Age, TS.Guid);
433 return Error::success();
436 Error MinimalTypeDumpVisitor::visitKnownRecord(CVType &CVR,
437 PointerRecord &Ptr) {
438 P.formatLine("referent = {0}, {1}", Ptr.ReferentType,
439 formatPointerAttrs(Ptr));
440 return Error::success();
443 Error MinimalTypeDumpVisitor::visitKnownRecord(CVType &CVR,
444 ModifierRecord &Mod) {
445 P.formatLine("referent = {0}, modifiers = {1}", Mod.ModifiedType,
446 modifierOptions(Mod.Modifiers));
447 return Error::success();
450 Error MinimalTypeDumpVisitor::visitKnownRecord(CVType &CVR,
451 VFTableShapeRecord &Shape) {
452 return Error::success();
455 Error MinimalTypeDumpVisitor::visitKnownRecord(CVType &CVR,
456 UdtModSourceLineRecord &U) {
457 P.formatLine("udt = {0}, mod = {1}, file = {2}, line = {3}", U.UDT, U.Module,
458 U.SourceFile.getIndex(), U.LineNumber);
459 return Error::success();
462 Error MinimalTypeDumpVisitor::visitKnownRecord(CVType &CVR,
463 UdtSourceLineRecord &U) {
464 P.formatLine("udt = {0}, file = {1}, line = {2}", U.UDT,
465 U.SourceFile.getIndex(), U.LineNumber);
466 return Error::success();
469 Error MinimalTypeDumpVisitor::visitKnownRecord(CVType &CVR,
470 BitFieldRecord &BF) {
471 P.formatLine("type = {0}, bit offset = {1}, # bits = {2}", BF.Type,
472 BF.BitOffset, BF.BitSize);
473 return Error::success();
476 Error MinimalTypeDumpVisitor::visitKnownRecord(
477 CVType &CVR, MethodOverloadListRecord &Overloads) {
478 for (auto &M : Overloads.Methods)
479 P.formatLine("- Method [type = {0}, vftable offset = {1}, attrs = {2}]",
480 M.Type, M.VFTableOffset, memberAttributes(M.Attrs));
481 return Error::success();
484 Error MinimalTypeDumpVisitor::visitKnownRecord(CVType &CVR,
485 BuildInfoRecord &BI) {
486 auto Indices = BI.ArgIndices;
487 if (Indices.empty())
488 return Error::success();
490 auto Max = std::max_element(Indices.begin(), Indices.end());
491 uint32_t W = NumDigits(Max->getIndex()) + 2;
493 for (auto I : Indices)
494 P.formatLine("{0}: `{1}`", fmt_align(I, AlignStyle::Right, W),
495 getTypeName(I));
496 return Error::success();
499 Error MinimalTypeDumpVisitor::visitKnownRecord(CVType &CVR, LabelRecord &R) {
500 std::string Type = (R.Mode == LabelType::Far) ? "far" : "near";
501 P.format(" type = {0}", Type);
502 return Error::success();
505 Error MinimalTypeDumpVisitor::visitKnownRecord(CVType &CVR,
506 PrecompRecord &Precomp) {
507 P.format(" start index = {0:X+}, types count = {1:X+}, signature = {2:X+},"
508 " precomp path = {3}",
509 Precomp.StartTypeIndex, Precomp.TypesCount, Precomp.Signature,
510 Precomp.PrecompFilePath);
511 return Error::success();
514 Error MinimalTypeDumpVisitor::visitKnownRecord(CVType &CVR,
515 EndPrecompRecord &EP) {
516 P.format(" signature = {0:X+}", EP.Signature);
517 return Error::success();
520 Error MinimalTypeDumpVisitor::visitKnownMember(CVMemberRecord &CVR,
521 NestedTypeRecord &Nested) {
522 P.format(" [name = `{0}`, parent = {1}]", Nested.Name, Nested.Type);
523 return Error::success();
526 Error MinimalTypeDumpVisitor::visitKnownMember(CVMemberRecord &CVR,
527 OneMethodRecord &Method) {
528 P.format(" [name = `{0}`]", Method.Name);
529 AutoIndent Indent(P);
530 P.formatLine("type = {0}, vftable offset = {1}, attrs = {2}", Method.Type,
531 Method.VFTableOffset, memberAttributes(Method.Attrs));
532 return Error::success();
535 Error MinimalTypeDumpVisitor::visitKnownMember(CVMemberRecord &CVR,
536 OverloadedMethodRecord &Method) {
537 P.format(" [name = `{0}`, # overloads = {1}, overload list = {2}]",
538 Method.Name, Method.NumOverloads, Method.MethodList);
539 return Error::success();
542 Error MinimalTypeDumpVisitor::visitKnownMember(CVMemberRecord &CVR,
543 DataMemberRecord &Field) {
544 P.format(" [name = `{0}`, Type = {1}, offset = {2}, attrs = {3}]", Field.Name,
545 Field.Type, Field.FieldOffset, memberAttributes(Field.Attrs));
546 return Error::success();
549 Error MinimalTypeDumpVisitor::visitKnownMember(CVMemberRecord &CVR,
550 StaticDataMemberRecord &Field) {
551 P.format(" [name = `{0}`, type = {1}, attrs = {2}]", Field.Name, Field.Type,
552 memberAttributes(Field.Attrs));
553 return Error::success();
556 Error MinimalTypeDumpVisitor::visitKnownMember(CVMemberRecord &CVR,
557 EnumeratorRecord &Enum) {
558 P.format(" [{0} = {1}]", Enum.Name,
559 Enum.Value.toString(10, Enum.Value.isSigned()));
560 return Error::success();
563 Error MinimalTypeDumpVisitor::visitKnownMember(CVMemberRecord &CVR,
564 BaseClassRecord &Base) {
565 AutoIndent Indent(P);
566 P.formatLine("type = {0}, offset = {1}, attrs = {2}", Base.Type, Base.Offset,
567 memberAttributes(Base.Attrs));
568 return Error::success();
571 Error MinimalTypeDumpVisitor::visitKnownMember(CVMemberRecord &CVR,
572 VirtualBaseClassRecord &Base) {
573 AutoIndent Indent(P);
574 P.formatLine(
575 "base = {0}, vbptr = {1}, vbptr offset = {2}, vtable index = {3}",
576 Base.BaseType, Base.VBPtrType, Base.VBPtrOffset, Base.VTableIndex);
577 P.formatLine("attrs = {0}", memberAttributes(Base.Attrs));
578 return Error::success();
581 Error MinimalTypeDumpVisitor::visitKnownMember(CVMemberRecord &CVR,
582 ListContinuationRecord &Cont) {
583 P.format(" continuation = {0}", Cont.ContinuationIndex);
584 return Error::success();
587 Error MinimalTypeDumpVisitor::visitKnownMember(CVMemberRecord &CVR,
588 VFPtrRecord &VFP) {
589 P.format(" type = {0}", VFP.Type);
590 return Error::success();