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Peter Collingbournebee583f2011-10-06 13:03:08 +00001//===- ClangAttrEmitter.cpp - Generate Clang attribute handling =-*- C++ -*--=//
2//
3// The LLVM Compiler Infrastructure
4//
5// This file is distributed under the University of Illinois Open Source
6// License. See LICENSE.TXT for details.
7//
8//===----------------------------------------------------------------------===//
9//
10// These tablegen backends emit Clang attribute processing code
11//
12//===----------------------------------------------------------------------===//
13
Eugene Zelenkoa9f3e902016-05-12 22:27:08 +000014#include "llvm/ADT/ArrayRef.h"
Alex Lorenz9e7bf162017-04-18 14:33:39 +000015#include "llvm/ADT/DenseMap.h"
George Burgess IV1881a572016-12-01 00:13:18 +000016#include "llvm/ADT/DenseSet.h"
Alex Lorenz3bfe9622017-04-18 10:46:41 +000017#include "llvm/ADT/STLExtras.h"
Alex Lorenz9e7bf162017-04-18 14:33:39 +000018#include "llvm/ADT/SmallString.h"
Aaron Ballman28afa182014-11-17 18:17:19 +000019#include "llvm/ADT/StringExtras.h"
Eugene Zelenkoa9f3e902016-05-12 22:27:08 +000020#include "llvm/ADT/StringRef.h"
Alex Lorenz9e7bf162017-04-18 14:33:39 +000021#include "llvm/ADT/StringSet.h"
Chandler Carruth5553d0d2014-01-07 11:51:46 +000022#include "llvm/ADT/StringSwitch.h"
Alex Lorenz9e7bf162017-04-18 14:33:39 +000023#include "llvm/ADT/iterator_range.h"
Eugene Zelenkoa9f3e902016-05-12 22:27:08 +000024#include "llvm/Support/ErrorHandling.h"
25#include "llvm/Support/raw_ostream.h"
Chandler Carruth5553d0d2014-01-07 11:51:46 +000026#include "llvm/TableGen/Error.h"
Peter Collingbournebee583f2011-10-06 13:03:08 +000027#include "llvm/TableGen/Record.h"
Douglas Gregor377f99b2012-05-02 17:33:51 +000028#include "llvm/TableGen/StringMatcher.h"
Jakob Stoklund Olesen995e0e12012-06-13 05:12:41 +000029#include "llvm/TableGen/TableGenBackend.h"
Peter Collingbournebee583f2011-10-06 13:03:08 +000030#include <algorithm>
Eugene Zelenkoa9f3e902016-05-12 22:27:08 +000031#include <cassert>
Peter Collingbournebee583f2011-10-06 13:03:08 +000032#include <cctype>
Eugene Zelenkoa9f3e902016-05-12 22:27:08 +000033#include <cstddef>
34#include <cstdint>
35#include <map>
Aaron Ballman8f1439b2014-03-05 16:49:55 +000036#include <memory>
Aaron Ballman80469032013-11-29 14:57:58 +000037#include <set>
Chandler Carruth5553d0d2014-01-07 11:51:46 +000038#include <sstream>
Eugene Zelenkoa9f3e902016-05-12 22:27:08 +000039#include <string>
40#include <utility>
41#include <vector>
Peter Collingbournebee583f2011-10-06 13:03:08 +000042
43using namespace llvm;
44
Benjamin Kramerd910d162015-03-10 18:24:01 +000045namespace {
Eugene Zelenkoa9f3e902016-05-12 22:27:08 +000046
Aaron Ballmanc669cc02014-01-27 22:10:04 +000047class FlattenedSpelling {
48 std::string V, N, NS;
49 bool K;
50
51public:
52 FlattenedSpelling(const std::string &Variety, const std::string &Name,
53 const std::string &Namespace, bool KnownToGCC) :
54 V(Variety), N(Name), NS(Namespace), K(KnownToGCC) {}
55 explicit FlattenedSpelling(const Record &Spelling) :
56 V(Spelling.getValueAsString("Variety")),
57 N(Spelling.getValueAsString("Name")) {
58
59 assert(V != "GCC" && "Given a GCC spelling, which means this hasn't been"
60 "flattened!");
Tyler Nowickie8b07ed2014-06-13 17:57:25 +000061 if (V == "CXX11" || V == "Pragma")
Aaron Ballmanc669cc02014-01-27 22:10:04 +000062 NS = Spelling.getValueAsString("Namespace");
63 bool Unset;
64 K = Spelling.getValueAsBitOrUnset("KnownToGCC", Unset);
65 }
66
67 const std::string &variety() const { return V; }
68 const std::string &name() const { return N; }
69 const std::string &nameSpace() const { return NS; }
70 bool knownToGCC() const { return K; }
71};
Eugene Zelenkoa9f3e902016-05-12 22:27:08 +000072
Hans Wennborgdcfba332015-10-06 23:40:43 +000073} // end anonymous namespace
Aaron Ballmanc669cc02014-01-27 22:10:04 +000074
Benjamin Kramerd910d162015-03-10 18:24:01 +000075static std::vector<FlattenedSpelling>
76GetFlattenedSpellings(const Record &Attr) {
Aaron Ballmanc669cc02014-01-27 22:10:04 +000077 std::vector<Record *> Spellings = Attr.getValueAsListOfDefs("Spellings");
78 std::vector<FlattenedSpelling> Ret;
79
Aaron Ballmanb097f7fe2014-03-02 17:38:37 +000080 for (const auto &Spelling : Spellings) {
81 if (Spelling->getValueAsString("Variety") == "GCC") {
Aaron Ballmanc669cc02014-01-27 22:10:04 +000082 // Gin up two new spelling objects to add into the list.
Benjamin Kramer3204b152015-05-29 19:42:19 +000083 Ret.emplace_back("GNU", Spelling->getValueAsString("Name"), "", true);
84 Ret.emplace_back("CXX11", Spelling->getValueAsString("Name"), "gnu",
85 true);
Aaron Ballmanc669cc02014-01-27 22:10:04 +000086 } else
Aaron Ballmanb097f7fe2014-03-02 17:38:37 +000087 Ret.push_back(FlattenedSpelling(*Spelling));
Aaron Ballmanc669cc02014-01-27 22:10:04 +000088 }
89
90 return Ret;
91}
92
Peter Collingbournebee583f2011-10-06 13:03:08 +000093static std::string ReadPCHRecord(StringRef type) {
94 return StringSwitch<std::string>(type)
David L. Jones267b8842017-01-24 01:04:30 +000095 .EndsWith("Decl *", "Record.GetLocalDeclAs<"
96 + std::string(type, 0, type.size()-1) + ">(Record.readInt())")
97 .Case("TypeSourceInfo *", "Record.getTypeSourceInfo()")
98 .Case("Expr *", "Record.readExpr()")
99 .Case("IdentifierInfo *", "Record.getIdentifierInfo()")
100 .Case("StringRef", "Record.readString()")
101 .Default("Record.readInt()");
Peter Collingbournebee583f2011-10-06 13:03:08 +0000102}
103
Richard Smith19978562016-05-18 00:16:51 +0000104// Get a type that is suitable for storing an object of the specified type.
105static StringRef getStorageType(StringRef type) {
106 return StringSwitch<StringRef>(type)
107 .Case("StringRef", "std::string")
108 .Default(type);
109}
110
Peter Collingbournebee583f2011-10-06 13:03:08 +0000111// Assumes that the way to get the value is SA->getname()
112static std::string WritePCHRecord(StringRef type, StringRef name) {
Richard Smith290d8012016-04-06 17:06:00 +0000113 return "Record." + StringSwitch<std::string>(type)
114 .EndsWith("Decl *", "AddDeclRef(" + std::string(name) + ");\n")
115 .Case("TypeSourceInfo *", "AddTypeSourceInfo(" + std::string(name) + ");\n")
Peter Collingbournebee583f2011-10-06 13:03:08 +0000116 .Case("Expr *", "AddStmt(" + std::string(name) + ");\n")
Richard Smith290d8012016-04-06 17:06:00 +0000117 .Case("IdentifierInfo *", "AddIdentifierRef(" + std::string(name) + ");\n")
118 .Case("StringRef", "AddString(" + std::string(name) + ");\n")
119 .Default("push_back(" + std::string(name) + ");\n");
Peter Collingbournebee583f2011-10-06 13:03:08 +0000120}
121
Michael Han4a045172012-03-07 00:12:16 +0000122// Normalize attribute name by removing leading and trailing
123// underscores. For example, __foo, foo__, __foo__ would
124// become foo.
125static StringRef NormalizeAttrName(StringRef AttrName) {
George Burgess IV1881a572016-12-01 00:13:18 +0000126 AttrName.consume_front("__");
127 AttrName.consume_back("__");
Michael Han4a045172012-03-07 00:12:16 +0000128 return AttrName;
129}
130
Aaron Ballman36a53502014-01-16 13:03:14 +0000131// Normalize the name by removing any and all leading and trailing underscores.
132// This is different from NormalizeAttrName in that it also handles names like
133// _pascal and __pascal.
134static StringRef NormalizeNameForSpellingComparison(StringRef Name) {
Benjamin Kramer5c404072015-04-10 21:37:21 +0000135 return Name.trim("_");
Aaron Ballman36a53502014-01-16 13:03:14 +0000136}
137
Justin Lebar4086fe52017-01-05 16:51:54 +0000138// Normalize the spelling of a GNU attribute (i.e. "x" in "__attribute__((x))"),
139// removing "__" if it appears at the beginning and end of the attribute's name.
140static StringRef NormalizeGNUAttrSpelling(StringRef AttrSpelling) {
Michael Han4a045172012-03-07 00:12:16 +0000141 if (AttrSpelling.startswith("__") && AttrSpelling.endswith("__")) {
142 AttrSpelling = AttrSpelling.substr(2, AttrSpelling.size() - 4);
143 }
144
145 return AttrSpelling;
146}
147
Aaron Ballman2f22b942014-05-20 19:47:14 +0000148typedef std::vector<std::pair<std::string, const Record *>> ParsedAttrMap;
Aaron Ballman64e69862013-12-15 13:05:48 +0000149
Aaron Ballmanab7691c2014-01-09 22:48:32 +0000150static ParsedAttrMap getParsedAttrList(const RecordKeeper &Records,
Craig Topper8ae12032014-05-07 06:21:57 +0000151 ParsedAttrMap *Dupes = nullptr) {
Aaron Ballmanb097f7fe2014-03-02 17:38:37 +0000152 std::vector<Record *> Attrs = Records.getAllDerivedDefinitions("Attr");
Aaron Ballman64e69862013-12-15 13:05:48 +0000153 std::set<std::string> Seen;
154 ParsedAttrMap R;
Aaron Ballman2f22b942014-05-20 19:47:14 +0000155 for (const auto *Attr : Attrs) {
Aaron Ballmanb097f7fe2014-03-02 17:38:37 +0000156 if (Attr->getValueAsBit("SemaHandler")) {
Aaron Ballman64e69862013-12-15 13:05:48 +0000157 std::string AN;
Aaron Ballmanb097f7fe2014-03-02 17:38:37 +0000158 if (Attr->isSubClassOf("TargetSpecificAttr") &&
159 !Attr->isValueUnset("ParseKind")) {
160 AN = Attr->getValueAsString("ParseKind");
Aaron Ballman64e69862013-12-15 13:05:48 +0000161
162 // If this attribute has already been handled, it does not need to be
163 // handled again.
Aaron Ballmanab7691c2014-01-09 22:48:32 +0000164 if (Seen.find(AN) != Seen.end()) {
165 if (Dupes)
Aaron Ballmanb097f7fe2014-03-02 17:38:37 +0000166 Dupes->push_back(std::make_pair(AN, Attr));
Aaron Ballman64e69862013-12-15 13:05:48 +0000167 continue;
Aaron Ballmanab7691c2014-01-09 22:48:32 +0000168 }
Aaron Ballman64e69862013-12-15 13:05:48 +0000169 Seen.insert(AN);
170 } else
Aaron Ballmanb097f7fe2014-03-02 17:38:37 +0000171 AN = NormalizeAttrName(Attr->getName()).str();
Aaron Ballman64e69862013-12-15 13:05:48 +0000172
Aaron Ballmanb097f7fe2014-03-02 17:38:37 +0000173 R.push_back(std::make_pair(AN, Attr));
Aaron Ballman64e69862013-12-15 13:05:48 +0000174 }
175 }
176 return R;
177}
178
Peter Collingbournebee583f2011-10-06 13:03:08 +0000179namespace {
Eugene Zelenkoa9f3e902016-05-12 22:27:08 +0000180
Peter Collingbournebee583f2011-10-06 13:03:08 +0000181 class Argument {
182 std::string lowerName, upperName;
183 StringRef attrName;
Aaron Ballman8ee40b72013-09-09 23:33:17 +0000184 bool isOpt;
John McCalla62c1a92015-10-28 00:17:34 +0000185 bool Fake;
Peter Collingbournebee583f2011-10-06 13:03:08 +0000186
187 public:
Aaron Ballman2f22b942014-05-20 19:47:14 +0000188 Argument(const Record &Arg, StringRef Attr)
Peter Collingbournebee583f2011-10-06 13:03:08 +0000189 : lowerName(Arg.getValueAsString("Name")), upperName(lowerName),
John McCalla62c1a92015-10-28 00:17:34 +0000190 attrName(Attr), isOpt(false), Fake(false) {
Peter Collingbournebee583f2011-10-06 13:03:08 +0000191 if (!lowerName.empty()) {
192 lowerName[0] = std::tolower(lowerName[0]);
193 upperName[0] = std::toupper(upperName[0]);
194 }
Reid Klecknerebeb0ca2016-05-31 17:42:56 +0000195 // Work around MinGW's macro definition of 'interface' to 'struct'. We
196 // have an attribute argument called 'Interface', so only the lower case
197 // name conflicts with the macro definition.
198 if (lowerName == "interface")
199 lowerName = "interface_";
Peter Collingbournebee583f2011-10-06 13:03:08 +0000200 }
Hans Wennborgdcfba332015-10-06 23:40:43 +0000201 virtual ~Argument() = default;
Peter Collingbournebee583f2011-10-06 13:03:08 +0000202
203 StringRef getLowerName() const { return lowerName; }
204 StringRef getUpperName() const { return upperName; }
205 StringRef getAttrName() const { return attrName; }
206
Aaron Ballman8ee40b72013-09-09 23:33:17 +0000207 bool isOptional() const { return isOpt; }
208 void setOptional(bool set) { isOpt = set; }
209
John McCalla62c1a92015-10-28 00:17:34 +0000210 bool isFake() const { return Fake; }
211 void setFake(bool fake) { Fake = fake; }
212
Peter Collingbournebee583f2011-10-06 13:03:08 +0000213 // These functions print the argument contents formatted in different ways.
214 virtual void writeAccessors(raw_ostream &OS) const = 0;
215 virtual void writeAccessorDefinitions(raw_ostream &OS) const {}
DeLesley Hutchinsc4a82432013-12-30 17:24:36 +0000216 virtual void writeASTVisitorTraversal(raw_ostream &OS) const {}
Peter Collingbournebee583f2011-10-06 13:03:08 +0000217 virtual void writeCloneArgs(raw_ostream &OS) const = 0;
DeLesley Hutchinsceec3062012-01-20 22:37:06 +0000218 virtual void writeTemplateInstantiationArgs(raw_ostream &OS) const = 0;
Daniel Dunbardc51baa2012-02-10 06:00:29 +0000219 virtual void writeTemplateInstantiation(raw_ostream &OS) const {}
Peter Collingbournebee583f2011-10-06 13:03:08 +0000220 virtual void writeCtorBody(raw_ostream &OS) const {}
221 virtual void writeCtorInitializers(raw_ostream &OS) const = 0;
Aaron Ballman8ee40b72013-09-09 23:33:17 +0000222 virtual void writeCtorDefaultInitializers(raw_ostream &OS) const = 0;
Peter Collingbournebee583f2011-10-06 13:03:08 +0000223 virtual void writeCtorParameters(raw_ostream &OS) const = 0;
224 virtual void writeDeclarations(raw_ostream &OS) const = 0;
225 virtual void writePCHReadArgs(raw_ostream &OS) const = 0;
226 virtual void writePCHReadDecls(raw_ostream &OS) const = 0;
227 virtual void writePCHWrite(raw_ostream &OS) const = 0;
Douglas Gregor49ccfaa2011-11-19 19:22:57 +0000228 virtual void writeValue(raw_ostream &OS) const = 0;
Alexander Kornienko5bc364e2013-01-07 17:53:08 +0000229 virtual void writeDump(raw_ostream &OS) const = 0;
230 virtual void writeDumpChildren(raw_ostream &OS) const {}
Richard Trieude5cc7d2013-01-31 01:44:26 +0000231 virtual void writeHasChildren(raw_ostream &OS) const { OS << "false"; }
Aaron Ballman682ee422013-09-11 19:47:58 +0000232
233 virtual bool isEnumArg() const { return false; }
DeLesley Hutchins210791a2013-10-04 21:28:06 +0000234 virtual bool isVariadicEnumArg() const { return false; }
Aaron Ballman8ed8dbd2014-07-31 16:37:04 +0000235 virtual bool isVariadic() const { return false; }
Aaron Ballman36a53502014-01-16 13:03:14 +0000236
237 virtual void writeImplicitCtorArgs(raw_ostream &OS) const {
238 OS << getUpperName();
239 }
Peter Collingbournebee583f2011-10-06 13:03:08 +0000240 };
241
242 class SimpleArgument : public Argument {
243 std::string type;
244
245 public:
Aaron Ballman2f22b942014-05-20 19:47:14 +0000246 SimpleArgument(const Record &Arg, StringRef Attr, std::string T)
Benjamin Kramercfeacf52016-05-27 14:27:13 +0000247 : Argument(Arg, Attr), type(std::move(T)) {}
Peter Collingbournebee583f2011-10-06 13:03:08 +0000248
DeLesley Hutchinsceec3062012-01-20 22:37:06 +0000249 std::string getType() const { return type; }
250
Aaron Ballman8cbf6332014-03-06 15:09:50 +0000251 void writeAccessors(raw_ostream &OS) const override {
Peter Collingbournebee583f2011-10-06 13:03:08 +0000252 OS << " " << type << " get" << getUpperName() << "() const {\n";
253 OS << " return " << getLowerName() << ";\n";
254 OS << " }";
255 }
Eugene Zelenkoa9f3e902016-05-12 22:27:08 +0000256
Aaron Ballman8cbf6332014-03-06 15:09:50 +0000257 void writeCloneArgs(raw_ostream &OS) const override {
Peter Collingbournebee583f2011-10-06 13:03:08 +0000258 OS << getLowerName();
259 }
Eugene Zelenkoa9f3e902016-05-12 22:27:08 +0000260
Aaron Ballman8cbf6332014-03-06 15:09:50 +0000261 void writeTemplateInstantiationArgs(raw_ostream &OS) const override {
DeLesley Hutchinsceec3062012-01-20 22:37:06 +0000262 OS << "A->get" << getUpperName() << "()";
263 }
Eugene Zelenkoa9f3e902016-05-12 22:27:08 +0000264
Aaron Ballman8cbf6332014-03-06 15:09:50 +0000265 void writeCtorInitializers(raw_ostream &OS) const override {
Peter Collingbournebee583f2011-10-06 13:03:08 +0000266 OS << getLowerName() << "(" << getUpperName() << ")";
267 }
Eugene Zelenkoa9f3e902016-05-12 22:27:08 +0000268
Aaron Ballman8cbf6332014-03-06 15:09:50 +0000269 void writeCtorDefaultInitializers(raw_ostream &OS) const override {
Aaron Ballman8ee40b72013-09-09 23:33:17 +0000270 OS << getLowerName() << "()";
271 }
Eugene Zelenkoa9f3e902016-05-12 22:27:08 +0000272
Aaron Ballman8cbf6332014-03-06 15:09:50 +0000273 void writeCtorParameters(raw_ostream &OS) const override {
Peter Collingbournebee583f2011-10-06 13:03:08 +0000274 OS << type << " " << getUpperName();
275 }
Eugene Zelenkoa9f3e902016-05-12 22:27:08 +0000276
Aaron Ballman8cbf6332014-03-06 15:09:50 +0000277 void writeDeclarations(raw_ostream &OS) const override {
Peter Collingbournebee583f2011-10-06 13:03:08 +0000278 OS << type << " " << getLowerName() << ";";
279 }
Eugene Zelenkoa9f3e902016-05-12 22:27:08 +0000280
Aaron Ballman8cbf6332014-03-06 15:09:50 +0000281 void writePCHReadDecls(raw_ostream &OS) const override {
Peter Collingbournebee583f2011-10-06 13:03:08 +0000282 std::string read = ReadPCHRecord(type);
283 OS << " " << type << " " << getLowerName() << " = " << read << ";\n";
284 }
Eugene Zelenkoa9f3e902016-05-12 22:27:08 +0000285
Aaron Ballman8cbf6332014-03-06 15:09:50 +0000286 void writePCHReadArgs(raw_ostream &OS) const override {
Peter Collingbournebee583f2011-10-06 13:03:08 +0000287 OS << getLowerName();
288 }
Eugene Zelenkoa9f3e902016-05-12 22:27:08 +0000289
Aaron Ballman8cbf6332014-03-06 15:09:50 +0000290 void writePCHWrite(raw_ostream &OS) const override {
Peter Collingbournebee583f2011-10-06 13:03:08 +0000291 OS << " " << WritePCHRecord(type, "SA->get" +
292 std::string(getUpperName()) + "()");
293 }
Eugene Zelenkoa9f3e902016-05-12 22:27:08 +0000294
Aaron Ballman8cbf6332014-03-06 15:09:50 +0000295 void writeValue(raw_ostream &OS) const override {
Douglas Gregor49ccfaa2011-11-19 19:22:57 +0000296 if (type == "FunctionDecl *") {
Richard Smithb87c4652013-10-31 21:23:20 +0000297 OS << "\" << get" << getUpperName()
298 << "()->getNameInfo().getAsString() << \"";
Douglas Gregor49ccfaa2011-11-19 19:22:57 +0000299 } else if (type == "IdentifierInfo *") {
Akira Hatanaka3d173132016-09-10 03:29:43 +0000300 OS << "\";\n";
301 if (isOptional())
302 OS << " if (get" << getUpperName() << "()) ";
303 else
304 OS << " ";
305 OS << "OS << get" << getUpperName() << "()->getName();\n";
306 OS << " OS << \"";
Richard Smithb87c4652013-10-31 21:23:20 +0000307 } else if (type == "TypeSourceInfo *") {
Douglas Gregor49ccfaa2011-11-19 19:22:57 +0000308 OS << "\" << get" << getUpperName() << "().getAsString() << \"";
Douglas Gregor49ccfaa2011-11-19 19:22:57 +0000309 } else {
310 OS << "\" << get" << getUpperName() << "() << \"";
311 }
312 }
Eugene Zelenkoa9f3e902016-05-12 22:27:08 +0000313
Aaron Ballman8cbf6332014-03-06 15:09:50 +0000314 void writeDump(raw_ostream &OS) const override {
Alexander Kornienko5bc364e2013-01-07 17:53:08 +0000315 if (type == "FunctionDecl *") {
316 OS << " OS << \" \";\n";
317 OS << " dumpBareDeclRef(SA->get" << getUpperName() << "());\n";
318 } else if (type == "IdentifierInfo *") {
Aaron Ballman415c4142015-11-30 15:25:34 +0000319 if (isOptional())
320 OS << " if (SA->get" << getUpperName() << "())\n ";
Alexander Kornienko5bc364e2013-01-07 17:53:08 +0000321 OS << " OS << \" \" << SA->get" << getUpperName()
322 << "()->getName();\n";
Richard Smithb87c4652013-10-31 21:23:20 +0000323 } else if (type == "TypeSourceInfo *") {
Alexander Kornienko5bc364e2013-01-07 17:53:08 +0000324 OS << " OS << \" \" << SA->get" << getUpperName()
325 << "().getAsString();\n";
Alexander Kornienko5bc364e2013-01-07 17:53:08 +0000326 } else if (type == "bool") {
327 OS << " if (SA->get" << getUpperName() << "()) OS << \" "
328 << getUpperName() << "\";\n";
329 } else if (type == "int" || type == "unsigned") {
330 OS << " OS << \" \" << SA->get" << getUpperName() << "();\n";
331 } else {
332 llvm_unreachable("Unknown SimpleArgument type!");
333 }
334 }
Peter Collingbournebee583f2011-10-06 13:03:08 +0000335 };
336
Aaron Ballman18a78382013-11-21 00:28:23 +0000337 class DefaultSimpleArgument : public SimpleArgument {
338 int64_t Default;
339
340 public:
Aaron Ballman2f22b942014-05-20 19:47:14 +0000341 DefaultSimpleArgument(const Record &Arg, StringRef Attr,
Aaron Ballman18a78382013-11-21 00:28:23 +0000342 std::string T, int64_t Default)
343 : SimpleArgument(Arg, Attr, T), Default(Default) {}
344
Aaron Ballman8cbf6332014-03-06 15:09:50 +0000345 void writeAccessors(raw_ostream &OS) const override {
Aaron Ballman18a78382013-11-21 00:28:23 +0000346 SimpleArgument::writeAccessors(OS);
347
348 OS << "\n\n static const " << getType() << " Default" << getUpperName()
Eugene Zelenkoa9f3e902016-05-12 22:27:08 +0000349 << " = ";
350 if (getType() == "bool")
351 OS << (Default != 0 ? "true" : "false");
352 else
353 OS << Default;
354 OS << ";";
Aaron Ballman18a78382013-11-21 00:28:23 +0000355 }
356 };
357
Peter Collingbournebee583f2011-10-06 13:03:08 +0000358 class StringArgument : public Argument {
359 public:
Aaron Ballman2f22b942014-05-20 19:47:14 +0000360 StringArgument(const Record &Arg, StringRef Attr)
Peter Collingbournebee583f2011-10-06 13:03:08 +0000361 : Argument(Arg, Attr)
362 {}
363
Aaron Ballman8cbf6332014-03-06 15:09:50 +0000364 void writeAccessors(raw_ostream &OS) const override {
Peter Collingbournebee583f2011-10-06 13:03:08 +0000365 OS << " llvm::StringRef get" << getUpperName() << "() const {\n";
366 OS << " return llvm::StringRef(" << getLowerName() << ", "
367 << getLowerName() << "Length);\n";
368 OS << " }\n";
369 OS << " unsigned get" << getUpperName() << "Length() const {\n";
370 OS << " return " << getLowerName() << "Length;\n";
371 OS << " }\n";
372 OS << " void set" << getUpperName()
373 << "(ASTContext &C, llvm::StringRef S) {\n";
374 OS << " " << getLowerName() << "Length = S.size();\n";
375 OS << " this->" << getLowerName() << " = new (C, 1) char ["
376 << getLowerName() << "Length];\n";
Chandler Carruth38a45cc2015-08-04 03:53:01 +0000377 OS << " if (!S.empty())\n";
378 OS << " std::memcpy(this->" << getLowerName() << ", S.data(), "
Peter Collingbournebee583f2011-10-06 13:03:08 +0000379 << getLowerName() << "Length);\n";
380 OS << " }";
381 }
Eugene Zelenkoa9f3e902016-05-12 22:27:08 +0000382
Aaron Ballman8cbf6332014-03-06 15:09:50 +0000383 void writeCloneArgs(raw_ostream &OS) const override {
Peter Collingbournebee583f2011-10-06 13:03:08 +0000384 OS << "get" << getUpperName() << "()";
385 }
Eugene Zelenkoa9f3e902016-05-12 22:27:08 +0000386
Aaron Ballman8cbf6332014-03-06 15:09:50 +0000387 void writeTemplateInstantiationArgs(raw_ostream &OS) const override {
DeLesley Hutchinsceec3062012-01-20 22:37:06 +0000388 OS << "A->get" << getUpperName() << "()";
389 }
Eugene Zelenkoa9f3e902016-05-12 22:27:08 +0000390
Aaron Ballman8cbf6332014-03-06 15:09:50 +0000391 void writeCtorBody(raw_ostream &OS) const override {
Chandler Carruth38a45cc2015-08-04 03:53:01 +0000392 OS << " if (!" << getUpperName() << ".empty())\n";
393 OS << " std::memcpy(" << getLowerName() << ", " << getUpperName()
Eugene Zelenkoa9f3e902016-05-12 22:27:08 +0000394 << ".data(), " << getLowerName() << "Length);\n";
Peter Collingbournebee583f2011-10-06 13:03:08 +0000395 }
Eugene Zelenkoa9f3e902016-05-12 22:27:08 +0000396
Aaron Ballman8cbf6332014-03-06 15:09:50 +0000397 void writeCtorInitializers(raw_ostream &OS) const override {
Peter Collingbournebee583f2011-10-06 13:03:08 +0000398 OS << getLowerName() << "Length(" << getUpperName() << ".size()),"
399 << getLowerName() << "(new (Ctx, 1) char[" << getLowerName()
400 << "Length])";
401 }
Eugene Zelenkoa9f3e902016-05-12 22:27:08 +0000402
Aaron Ballman8cbf6332014-03-06 15:09:50 +0000403 void writeCtorDefaultInitializers(raw_ostream &OS) const override {
Hans Wennborg59dbe862015-09-29 20:56:43 +0000404 OS << getLowerName() << "Length(0)," << getLowerName() << "(nullptr)";
Aaron Ballman8ee40b72013-09-09 23:33:17 +0000405 }
Eugene Zelenkoa9f3e902016-05-12 22:27:08 +0000406
Aaron Ballman8cbf6332014-03-06 15:09:50 +0000407 void writeCtorParameters(raw_ostream &OS) const override {
Peter Collingbournebee583f2011-10-06 13:03:08 +0000408 OS << "llvm::StringRef " << getUpperName();
409 }
Eugene Zelenkoa9f3e902016-05-12 22:27:08 +0000410
Aaron Ballman8cbf6332014-03-06 15:09:50 +0000411 void writeDeclarations(raw_ostream &OS) const override {
Peter Collingbournebee583f2011-10-06 13:03:08 +0000412 OS << "unsigned " << getLowerName() << "Length;\n";
413 OS << "char *" << getLowerName() << ";";
414 }
Eugene Zelenkoa9f3e902016-05-12 22:27:08 +0000415
Aaron Ballman8cbf6332014-03-06 15:09:50 +0000416 void writePCHReadDecls(raw_ostream &OS) const override {
Peter Collingbournebee583f2011-10-06 13:03:08 +0000417 OS << " std::string " << getLowerName()
David L. Jones267b8842017-01-24 01:04:30 +0000418 << "= Record.readString();\n";
Peter Collingbournebee583f2011-10-06 13:03:08 +0000419 }
Eugene Zelenkoa9f3e902016-05-12 22:27:08 +0000420
Aaron Ballman8cbf6332014-03-06 15:09:50 +0000421 void writePCHReadArgs(raw_ostream &OS) const override {
Peter Collingbournebee583f2011-10-06 13:03:08 +0000422 OS << getLowerName();
423 }
Eugene Zelenkoa9f3e902016-05-12 22:27:08 +0000424
Aaron Ballman8cbf6332014-03-06 15:09:50 +0000425 void writePCHWrite(raw_ostream &OS) const override {
Richard Smith290d8012016-04-06 17:06:00 +0000426 OS << " Record.AddString(SA->get" << getUpperName() << "());\n";
Peter Collingbournebee583f2011-10-06 13:03:08 +0000427 }
Eugene Zelenkoa9f3e902016-05-12 22:27:08 +0000428
Aaron Ballman8cbf6332014-03-06 15:09:50 +0000429 void writeValue(raw_ostream &OS) const override {
Douglas Gregor49ccfaa2011-11-19 19:22:57 +0000430 OS << "\\\"\" << get" << getUpperName() << "() << \"\\\"";
431 }
Eugene Zelenkoa9f3e902016-05-12 22:27:08 +0000432
Aaron Ballman8cbf6332014-03-06 15:09:50 +0000433 void writeDump(raw_ostream &OS) const override {
Alexander Kornienko5bc364e2013-01-07 17:53:08 +0000434 OS << " OS << \" \\\"\" << SA->get" << getUpperName()
435 << "() << \"\\\"\";\n";
436 }
Peter Collingbournebee583f2011-10-06 13:03:08 +0000437 };
438
439 class AlignedArgument : public Argument {
440 public:
Aaron Ballman2f22b942014-05-20 19:47:14 +0000441 AlignedArgument(const Record &Arg, StringRef Attr)
Peter Collingbournebee583f2011-10-06 13:03:08 +0000442 : Argument(Arg, Attr)
443 {}
444
Aaron Ballman8cbf6332014-03-06 15:09:50 +0000445 void writeAccessors(raw_ostream &OS) const override {
Peter Collingbournebee583f2011-10-06 13:03:08 +0000446 OS << " bool is" << getUpperName() << "Dependent() const;\n";
447
448 OS << " unsigned get" << getUpperName() << "(ASTContext &Ctx) const;\n";
449
450 OS << " bool is" << getUpperName() << "Expr() const {\n";
451 OS << " return is" << getLowerName() << "Expr;\n";
452 OS << " }\n";
453
454 OS << " Expr *get" << getUpperName() << "Expr() const {\n";
455 OS << " assert(is" << getLowerName() << "Expr);\n";
456 OS << " return " << getLowerName() << "Expr;\n";
457 OS << " }\n";
458
459 OS << " TypeSourceInfo *get" << getUpperName() << "Type() const {\n";
460 OS << " assert(!is" << getLowerName() << "Expr);\n";
461 OS << " return " << getLowerName() << "Type;\n";
462 OS << " }";
463 }
Eugene Zelenkoa9f3e902016-05-12 22:27:08 +0000464
Aaron Ballman8cbf6332014-03-06 15:09:50 +0000465 void writeAccessorDefinitions(raw_ostream &OS) const override {
Peter Collingbournebee583f2011-10-06 13:03:08 +0000466 OS << "bool " << getAttrName() << "Attr::is" << getUpperName()
467 << "Dependent() const {\n";
468 OS << " if (is" << getLowerName() << "Expr)\n";
469 OS << " return " << getLowerName() << "Expr && (" << getLowerName()
470 << "Expr->isValueDependent() || " << getLowerName()
471 << "Expr->isTypeDependent());\n";
472 OS << " else\n";
473 OS << " return " << getLowerName()
474 << "Type->getType()->isDependentType();\n";
475 OS << "}\n";
476
477 // FIXME: Do not do the calculation here
478 // FIXME: Handle types correctly
479 // A null pointer means maximum alignment
Peter Collingbournebee583f2011-10-06 13:03:08 +0000480 OS << "unsigned " << getAttrName() << "Attr::get" << getUpperName()
481 << "(ASTContext &Ctx) const {\n";
482 OS << " assert(!is" << getUpperName() << "Dependent());\n";
483 OS << " if (is" << getLowerName() << "Expr)\n";
Ulrich Weigandca3cb7f2015-04-21 17:29:35 +0000484 OS << " return " << getLowerName() << "Expr ? " << getLowerName()
485 << "Expr->EvaluateKnownConstInt(Ctx).getZExtValue()"
486 << " * Ctx.getCharWidth() : "
487 << "Ctx.getTargetDefaultAlignForAttributeAligned();\n";
Peter Collingbournebee583f2011-10-06 13:03:08 +0000488 OS << " else\n";
489 OS << " return 0; // FIXME\n";
490 OS << "}\n";
491 }
Eugene Zelenkoa9f3e902016-05-12 22:27:08 +0000492
Aaron Ballman8cbf6332014-03-06 15:09:50 +0000493 void writeCloneArgs(raw_ostream &OS) const override {
Peter Collingbournebee583f2011-10-06 13:03:08 +0000494 OS << "is" << getLowerName() << "Expr, is" << getLowerName()
495 << "Expr ? static_cast<void*>(" << getLowerName()
496 << "Expr) : " << getLowerName()
497 << "Type";
498 }
Eugene Zelenkoa9f3e902016-05-12 22:27:08 +0000499
Aaron Ballman8cbf6332014-03-06 15:09:50 +0000500 void writeTemplateInstantiationArgs(raw_ostream &OS) const override {
DeLesley Hutchinsceec3062012-01-20 22:37:06 +0000501 // FIXME: move the definition in Sema::InstantiateAttrs to here.
502 // In the meantime, aligned attributes are cloned.
503 }
Eugene Zelenkoa9f3e902016-05-12 22:27:08 +0000504
Aaron Ballman8cbf6332014-03-06 15:09:50 +0000505 void writeCtorBody(raw_ostream &OS) const override {
Peter Collingbournebee583f2011-10-06 13:03:08 +0000506 OS << " if (is" << getLowerName() << "Expr)\n";
507 OS << " " << getLowerName() << "Expr = reinterpret_cast<Expr *>("
508 << getUpperName() << ");\n";
509 OS << " else\n";
510 OS << " " << getLowerName()
511 << "Type = reinterpret_cast<TypeSourceInfo *>(" << getUpperName()
Eugene Zelenkoa9f3e902016-05-12 22:27:08 +0000512 << ");\n";
Peter Collingbournebee583f2011-10-06 13:03:08 +0000513 }
Eugene Zelenkoa9f3e902016-05-12 22:27:08 +0000514
Aaron Ballman8cbf6332014-03-06 15:09:50 +0000515 void writeCtorInitializers(raw_ostream &OS) const override {
Peter Collingbournebee583f2011-10-06 13:03:08 +0000516 OS << "is" << getLowerName() << "Expr(Is" << getUpperName() << "Expr)";
517 }
Eugene Zelenkoa9f3e902016-05-12 22:27:08 +0000518
Aaron Ballman8cbf6332014-03-06 15:09:50 +0000519 void writeCtorDefaultInitializers(raw_ostream &OS) const override {
Aaron Ballman8ee40b72013-09-09 23:33:17 +0000520 OS << "is" << getLowerName() << "Expr(false)";
521 }
Eugene Zelenkoa9f3e902016-05-12 22:27:08 +0000522
Aaron Ballman8cbf6332014-03-06 15:09:50 +0000523 void writeCtorParameters(raw_ostream &OS) const override {
Peter Collingbournebee583f2011-10-06 13:03:08 +0000524 OS << "bool Is" << getUpperName() << "Expr, void *" << getUpperName();
525 }
Eugene Zelenkoa9f3e902016-05-12 22:27:08 +0000526
Aaron Ballman8cbf6332014-03-06 15:09:50 +0000527 void writeImplicitCtorArgs(raw_ostream &OS) const override {
Aaron Ballman36a53502014-01-16 13:03:14 +0000528 OS << "Is" << getUpperName() << "Expr, " << getUpperName();
529 }
Eugene Zelenkoa9f3e902016-05-12 22:27:08 +0000530
Aaron Ballman8cbf6332014-03-06 15:09:50 +0000531 void writeDeclarations(raw_ostream &OS) const override {
Peter Collingbournebee583f2011-10-06 13:03:08 +0000532 OS << "bool is" << getLowerName() << "Expr;\n";
533 OS << "union {\n";
534 OS << "Expr *" << getLowerName() << "Expr;\n";
535 OS << "TypeSourceInfo *" << getLowerName() << "Type;\n";
536 OS << "};";
537 }
Eugene Zelenkoa9f3e902016-05-12 22:27:08 +0000538
Aaron Ballman8cbf6332014-03-06 15:09:50 +0000539 void writePCHReadArgs(raw_ostream &OS) const override {
Peter Collingbournebee583f2011-10-06 13:03:08 +0000540 OS << "is" << getLowerName() << "Expr, " << getLowerName() << "Ptr";
541 }
Eugene Zelenkoa9f3e902016-05-12 22:27:08 +0000542
Aaron Ballman8cbf6332014-03-06 15:09:50 +0000543 void writePCHReadDecls(raw_ostream &OS) const override {
David L. Jones267b8842017-01-24 01:04:30 +0000544 OS << " bool is" << getLowerName() << "Expr = Record.readInt();\n";
Peter Collingbournebee583f2011-10-06 13:03:08 +0000545 OS << " void *" << getLowerName() << "Ptr;\n";
546 OS << " if (is" << getLowerName() << "Expr)\n";
David L. Jones267b8842017-01-24 01:04:30 +0000547 OS << " " << getLowerName() << "Ptr = Record.readExpr();\n";
Peter Collingbournebee583f2011-10-06 13:03:08 +0000548 OS << " else\n";
549 OS << " " << getLowerName()
David L. Jones267b8842017-01-24 01:04:30 +0000550 << "Ptr = Record.getTypeSourceInfo();\n";
Peter Collingbournebee583f2011-10-06 13:03:08 +0000551 }
Eugene Zelenkoa9f3e902016-05-12 22:27:08 +0000552
Aaron Ballman8cbf6332014-03-06 15:09:50 +0000553 void writePCHWrite(raw_ostream &OS) const override {
Peter Collingbournebee583f2011-10-06 13:03:08 +0000554 OS << " Record.push_back(SA->is" << getUpperName() << "Expr());\n";
555 OS << " if (SA->is" << getUpperName() << "Expr())\n";
Richard Smith290d8012016-04-06 17:06:00 +0000556 OS << " Record.AddStmt(SA->get" << getUpperName() << "Expr());\n";
Peter Collingbournebee583f2011-10-06 13:03:08 +0000557 OS << " else\n";
Richard Smith290d8012016-04-06 17:06:00 +0000558 OS << " Record.AddTypeSourceInfo(SA->get" << getUpperName()
559 << "Type());\n";
Peter Collingbournebee583f2011-10-06 13:03:08 +0000560 }
Eugene Zelenkoa9f3e902016-05-12 22:27:08 +0000561
Aaron Ballman8cbf6332014-03-06 15:09:50 +0000562 void writeValue(raw_ostream &OS) const override {
Richard Trieuddd01ce2014-06-09 22:53:25 +0000563 OS << "\";\n";
Aaron Ballmanc960f562014-08-01 13:49:00 +0000564 // The aligned attribute argument expression is optional.
565 OS << " if (is" << getLowerName() << "Expr && "
566 << getLowerName() << "Expr)\n";
Hans Wennborg59dbe862015-09-29 20:56:43 +0000567 OS << " " << getLowerName() << "Expr->printPretty(OS, nullptr, Policy);\n";
Richard Trieuddd01ce2014-06-09 22:53:25 +0000568 OS << " OS << \"";
Douglas Gregor49ccfaa2011-11-19 19:22:57 +0000569 }
Eugene Zelenkoa9f3e902016-05-12 22:27:08 +0000570
571 void writeDump(raw_ostream &OS) const override {}
572
Aaron Ballman8cbf6332014-03-06 15:09:50 +0000573 void writeDumpChildren(raw_ostream &OS) const override {
Richard Smithf7514452014-10-30 21:02:37 +0000574 OS << " if (SA->is" << getUpperName() << "Expr())\n";
Alexander Kornienko5bc364e2013-01-07 17:53:08 +0000575 OS << " dumpStmt(SA->get" << getUpperName() << "Expr());\n";
Richard Smithf7514452014-10-30 21:02:37 +0000576 OS << " else\n";
Alexander Kornienko5bc364e2013-01-07 17:53:08 +0000577 OS << " dumpType(SA->get" << getUpperName()
578 << "Type()->getType());\n";
579 }
Eugene Zelenkoa9f3e902016-05-12 22:27:08 +0000580
Aaron Ballman8cbf6332014-03-06 15:09:50 +0000581 void writeHasChildren(raw_ostream &OS) const override {
Richard Trieude5cc7d2013-01-31 01:44:26 +0000582 OS << "SA->is" << getUpperName() << "Expr()";
583 }
Peter Collingbournebee583f2011-10-06 13:03:08 +0000584 };
585
586 class VariadicArgument : public Argument {
Aaron Ballmana82eaa72014-05-02 13:35:42 +0000587 std::string Type, ArgName, ArgSizeName, RangeName;
Peter Collingbournebee583f2011-10-06 13:03:08 +0000588
Aaron Ballman25a2cb92014-09-15 15:14:13 +0000589 protected:
590 // Assumed to receive a parameter: raw_ostream OS.
591 virtual void writeValueImpl(raw_ostream &OS) const {
592 OS << " OS << Val;\n";
593 }
594
Peter Collingbournebee583f2011-10-06 13:03:08 +0000595 public:
Aaron Ballman2f22b942014-05-20 19:47:14 +0000596 VariadicArgument(const Record &Arg, StringRef Attr, std::string T)
Benjamin Kramercfeacf52016-05-27 14:27:13 +0000597 : Argument(Arg, Attr), Type(std::move(T)),
598 ArgName(getLowerName().str() + "_"), ArgSizeName(ArgName + "Size"),
599 RangeName(getLowerName()) {}
Peter Collingbournebee583f2011-10-06 13:03:08 +0000600
Benjamin Kramer1b582012016-02-13 18:11:49 +0000601 const std::string &getType() const { return Type; }
602 const std::string &getArgName() const { return ArgName; }
603 const std::string &getArgSizeName() const { return ArgSizeName; }
Aaron Ballman8ed8dbd2014-07-31 16:37:04 +0000604 bool isVariadic() const override { return true; }
Peter Collingbournebee583f2011-10-06 13:03:08 +0000605
Aaron Ballman8cbf6332014-03-06 15:09:50 +0000606 void writeAccessors(raw_ostream &OS) const override {
Aaron Ballmana82eaa72014-05-02 13:35:42 +0000607 std::string IteratorType = getLowerName().str() + "_iterator";
608 std::string BeginFn = getLowerName().str() + "_begin()";
609 std::string EndFn = getLowerName().str() + "_end()";
610
611 OS << " typedef " << Type << "* " << IteratorType << ";\n";
612 OS << " " << IteratorType << " " << BeginFn << " const {"
613 << " return " << ArgName << "; }\n";
614 OS << " " << IteratorType << " " << EndFn << " const {"
615 << " return " << ArgName << " + " << ArgSizeName << "; }\n";
616 OS << " unsigned " << getLowerName() << "_size() const {"
617 << " return " << ArgSizeName << "; }\n";
618 OS << " llvm::iterator_range<" << IteratorType << "> " << RangeName
619 << "() const { return llvm::make_range(" << BeginFn << ", " << EndFn
620 << "); }\n";
Peter Collingbournebee583f2011-10-06 13:03:08 +0000621 }
Eugene Zelenkoa9f3e902016-05-12 22:27:08 +0000622
Aaron Ballman8cbf6332014-03-06 15:09:50 +0000623 void writeCloneArgs(raw_ostream &OS) const override {
Aaron Ballmana82eaa72014-05-02 13:35:42 +0000624 OS << ArgName << ", " << ArgSizeName;
Peter Collingbournebee583f2011-10-06 13:03:08 +0000625 }
Eugene Zelenkoa9f3e902016-05-12 22:27:08 +0000626
Aaron Ballman8cbf6332014-03-06 15:09:50 +0000627 void writeTemplateInstantiationArgs(raw_ostream &OS) const override {
DeLesley Hutchinsceec3062012-01-20 22:37:06 +0000628 // This isn't elegant, but we have to go through public methods...
629 OS << "A->" << getLowerName() << "_begin(), "
630 << "A->" << getLowerName() << "_size()";
631 }
Eugene Zelenkoa9f3e902016-05-12 22:27:08 +0000632
Aaron Ballman8cbf6332014-03-06 15:09:50 +0000633 void writeCtorBody(raw_ostream &OS) const override {
Aaron Ballmand6459e52014-05-01 15:21:03 +0000634 OS << " std::copy(" << getUpperName() << ", " << getUpperName()
Eugene Zelenkoa9f3e902016-05-12 22:27:08 +0000635 << " + " << ArgSizeName << ", " << ArgName << ");\n";
Peter Collingbournebee583f2011-10-06 13:03:08 +0000636 }
Eugene Zelenkoa9f3e902016-05-12 22:27:08 +0000637
Aaron Ballman8cbf6332014-03-06 15:09:50 +0000638 void writeCtorInitializers(raw_ostream &OS) const override {
Aaron Ballmana82eaa72014-05-02 13:35:42 +0000639 OS << ArgSizeName << "(" << getUpperName() << "Size), "
640 << ArgName << "(new (Ctx, 16) " << getType() << "["
641 << ArgSizeName << "])";
Peter Collingbournebee583f2011-10-06 13:03:08 +0000642 }
Eugene Zelenkoa9f3e902016-05-12 22:27:08 +0000643
Aaron Ballman8cbf6332014-03-06 15:09:50 +0000644 void writeCtorDefaultInitializers(raw_ostream &OS) const override {
Aaron Ballmana82eaa72014-05-02 13:35:42 +0000645 OS << ArgSizeName << "(0), " << ArgName << "(nullptr)";
Aaron Ballman8ee40b72013-09-09 23:33:17 +0000646 }
Eugene Zelenkoa9f3e902016-05-12 22:27:08 +0000647
Aaron Ballman8cbf6332014-03-06 15:09:50 +0000648 void writeCtorParameters(raw_ostream &OS) const override {
Peter Collingbournebee583f2011-10-06 13:03:08 +0000649 OS << getType() << " *" << getUpperName() << ", unsigned "
650 << getUpperName() << "Size";
651 }
Eugene Zelenkoa9f3e902016-05-12 22:27:08 +0000652
Aaron Ballman8cbf6332014-03-06 15:09:50 +0000653 void writeImplicitCtorArgs(raw_ostream &OS) const override {
Aaron Ballman36a53502014-01-16 13:03:14 +0000654 OS << getUpperName() << ", " << getUpperName() << "Size";
655 }
Eugene Zelenkoa9f3e902016-05-12 22:27:08 +0000656
Aaron Ballman8cbf6332014-03-06 15:09:50 +0000657 void writeDeclarations(raw_ostream &OS) const override {
Aaron Ballmana82eaa72014-05-02 13:35:42 +0000658 OS << " unsigned " << ArgSizeName << ";\n";
659 OS << " " << getType() << " *" << ArgName << ";";
Peter Collingbournebee583f2011-10-06 13:03:08 +0000660 }
Eugene Zelenkoa9f3e902016-05-12 22:27:08 +0000661
Aaron Ballman8cbf6332014-03-06 15:09:50 +0000662 void writePCHReadDecls(raw_ostream &OS) const override {
David L. Jones267b8842017-01-24 01:04:30 +0000663 OS << " unsigned " << getLowerName() << "Size = Record.readInt();\n";
Richard Smith19978562016-05-18 00:16:51 +0000664 OS << " SmallVector<" << getType() << ", 4> "
665 << getLowerName() << ";\n";
666 OS << " " << getLowerName() << ".reserve(" << getLowerName()
Peter Collingbournebee583f2011-10-06 13:03:08 +0000667 << "Size);\n";
Richard Smith19978562016-05-18 00:16:51 +0000668
669 // If we can't store the values in the current type (if it's something
670 // like StringRef), store them in a different type and convert the
671 // container afterwards.
672 std::string StorageType = getStorageType(getType());
673 std::string StorageName = getLowerName();
674 if (StorageType != getType()) {
675 StorageName += "Storage";
676 OS << " SmallVector<" << StorageType << ", 4> "
677 << StorageName << ";\n";
678 OS << " " << StorageName << ".reserve(" << getLowerName()
679 << "Size);\n";
680 }
681
682 OS << " for (unsigned i = 0; i != " << getLowerName() << "Size; ++i)\n";
Aaron Ballmana82eaa72014-05-02 13:35:42 +0000683 std::string read = ReadPCHRecord(Type);
Richard Smith19978562016-05-18 00:16:51 +0000684 OS << " " << StorageName << ".push_back(" << read << ");\n";
685
686 if (StorageType != getType()) {
687 OS << " for (unsigned i = 0; i != " << getLowerName() << "Size; ++i)\n";
688 OS << " " << getLowerName() << ".push_back("
689 << StorageName << "[i]);\n";
690 }
Peter Collingbournebee583f2011-10-06 13:03:08 +0000691 }
Eugene Zelenkoa9f3e902016-05-12 22:27:08 +0000692
Aaron Ballman8cbf6332014-03-06 15:09:50 +0000693 void writePCHReadArgs(raw_ostream &OS) const override {
Peter Collingbournebee583f2011-10-06 13:03:08 +0000694 OS << getLowerName() << ".data(), " << getLowerName() << "Size";
695 }
Eugene Zelenkoa9f3e902016-05-12 22:27:08 +0000696
Aaron Ballman8cbf6332014-03-06 15:09:50 +0000697 void writePCHWrite(raw_ostream &OS) const override {
Peter Collingbournebee583f2011-10-06 13:03:08 +0000698 OS << " Record.push_back(SA->" << getLowerName() << "_size());\n";
Aaron Ballmana82eaa72014-05-02 13:35:42 +0000699 OS << " for (auto &Val : SA->" << RangeName << "())\n";
700 OS << " " << WritePCHRecord(Type, "Val");
Peter Collingbournebee583f2011-10-06 13:03:08 +0000701 }
Eugene Zelenkoa9f3e902016-05-12 22:27:08 +0000702
Aaron Ballman8cbf6332014-03-06 15:09:50 +0000703 void writeValue(raw_ostream &OS) const override {
Douglas Gregor49ccfaa2011-11-19 19:22:57 +0000704 OS << "\";\n";
705 OS << " bool isFirst = true;\n"
Aaron Ballmana82eaa72014-05-02 13:35:42 +0000706 << " for (const auto &Val : " << RangeName << "()) {\n"
Douglas Gregor49ccfaa2011-11-19 19:22:57 +0000707 << " if (isFirst) isFirst = false;\n"
Aaron Ballman25a2cb92014-09-15 15:14:13 +0000708 << " else OS << \", \";\n";
709 writeValueImpl(OS);
710 OS << " }\n";
Douglas Gregor49ccfaa2011-11-19 19:22:57 +0000711 OS << " OS << \"";
712 }
Eugene Zelenkoa9f3e902016-05-12 22:27:08 +0000713
Aaron Ballman8cbf6332014-03-06 15:09:50 +0000714 void writeDump(raw_ostream &OS) const override {
Aaron Ballmana82eaa72014-05-02 13:35:42 +0000715 OS << " for (const auto &Val : SA->" << RangeName << "())\n";
716 OS << " OS << \" \" << Val;\n";
Alexander Kornienko5bc364e2013-01-07 17:53:08 +0000717 }
Peter Collingbournebee583f2011-10-06 13:03:08 +0000718 };
719
Reid Klecknerf526b9482014-02-12 18:22:18 +0000720 // Unique the enums, but maintain the original declaration ordering.
Reid Klecknerf06b2662014-02-12 19:26:24 +0000721 std::vector<std::string>
722 uniqueEnumsInOrder(const std::vector<std::string> &enums) {
Reid Klecknerf526b9482014-02-12 18:22:18 +0000723 std::vector<std::string> uniques;
George Burgess IV1881a572016-12-01 00:13:18 +0000724 SmallDenseSet<StringRef, 8> unique_set;
Aaron Ballmanb097f7fe2014-03-02 17:38:37 +0000725 for (const auto &i : enums) {
George Burgess IV1881a572016-12-01 00:13:18 +0000726 if (unique_set.insert(i).second)
Aaron Ballmanb097f7fe2014-03-02 17:38:37 +0000727 uniques.push_back(i);
Reid Klecknerf526b9482014-02-12 18:22:18 +0000728 }
729 return uniques;
730 }
731
Peter Collingbournebee583f2011-10-06 13:03:08 +0000732 class EnumArgument : public Argument {
733 std::string type;
Aaron Ballman0e468c02014-01-05 21:08:29 +0000734 std::vector<std::string> values, enums, uniques;
Peter Collingbournebee583f2011-10-06 13:03:08 +0000735 public:
Aaron Ballman2f22b942014-05-20 19:47:14 +0000736 EnumArgument(const Record &Arg, StringRef Attr)
Peter Collingbournebee583f2011-10-06 13:03:08 +0000737 : Argument(Arg, Attr), type(Arg.getValueAsString("Type")),
Aaron Ballman0e468c02014-01-05 21:08:29 +0000738 values(Arg.getValueAsListOfStrings("Values")),
739 enums(Arg.getValueAsListOfStrings("Enums")),
Reid Klecknerf526b9482014-02-12 18:22:18 +0000740 uniques(uniqueEnumsInOrder(enums))
Alexander Kornienko5bc364e2013-01-07 17:53:08 +0000741 {
Alexander Kornienko5bc364e2013-01-07 17:53:08 +0000742 // FIXME: Emit a proper error
743 assert(!uniques.empty());
744 }
Peter Collingbournebee583f2011-10-06 13:03:08 +0000745
Aaron Ballman8cbf6332014-03-06 15:09:50 +0000746 bool isEnumArg() const override { return true; }
Aaron Ballman682ee422013-09-11 19:47:58 +0000747
Aaron Ballman8cbf6332014-03-06 15:09:50 +0000748 void writeAccessors(raw_ostream &OS) const override {
Peter Collingbournebee583f2011-10-06 13:03:08 +0000749 OS << " " << type << " get" << getUpperName() << "() const {\n";
750 OS << " return " << getLowerName() << ";\n";
751 OS << " }";
752 }
Eugene Zelenkoa9f3e902016-05-12 22:27:08 +0000753
Aaron Ballman8cbf6332014-03-06 15:09:50 +0000754 void writeCloneArgs(raw_ostream &OS) const override {
Peter Collingbournebee583f2011-10-06 13:03:08 +0000755 OS << getLowerName();
756 }
Eugene Zelenkoa9f3e902016-05-12 22:27:08 +0000757
Aaron Ballman8cbf6332014-03-06 15:09:50 +0000758 void writeTemplateInstantiationArgs(raw_ostream &OS) const override {
DeLesley Hutchinsceec3062012-01-20 22:37:06 +0000759 OS << "A->get" << getUpperName() << "()";
760 }
Aaron Ballman8cbf6332014-03-06 15:09:50 +0000761 void writeCtorInitializers(raw_ostream &OS) const override {
Peter Collingbournebee583f2011-10-06 13:03:08 +0000762 OS << getLowerName() << "(" << getUpperName() << ")";
763 }
Aaron Ballman8cbf6332014-03-06 15:09:50 +0000764 void writeCtorDefaultInitializers(raw_ostream &OS) const override {
Aaron Ballman8ee40b72013-09-09 23:33:17 +0000765 OS << getLowerName() << "(" << type << "(0))";
766 }
Aaron Ballman8cbf6332014-03-06 15:09:50 +0000767 void writeCtorParameters(raw_ostream &OS) const override {
Peter Collingbournebee583f2011-10-06 13:03:08 +0000768 OS << type << " " << getUpperName();
769 }
Aaron Ballman8cbf6332014-03-06 15:09:50 +0000770 void writeDeclarations(raw_ostream &OS) const override {
Eugene Zelenko5f02b772015-12-08 18:49:01 +0000771 auto i = uniques.cbegin(), e = uniques.cend();
Peter Collingbournebee583f2011-10-06 13:03:08 +0000772 // The last one needs to not have a comma.
773 --e;
774
775 OS << "public:\n";
776 OS << " enum " << type << " {\n";
777 for (; i != e; ++i)
778 OS << " " << *i << ",\n";
779 OS << " " << *e << "\n";
780 OS << " };\n";
781 OS << "private:\n";
782 OS << " " << type << " " << getLowerName() << ";";
783 }
Eugene Zelenkoa9f3e902016-05-12 22:27:08 +0000784
Aaron Ballman8cbf6332014-03-06 15:09:50 +0000785 void writePCHReadDecls(raw_ostream &OS) const override {
Peter Collingbournebee583f2011-10-06 13:03:08 +0000786 OS << " " << getAttrName() << "Attr::" << type << " " << getLowerName()
787 << "(static_cast<" << getAttrName() << "Attr::" << type
David L. Jones267b8842017-01-24 01:04:30 +0000788 << ">(Record.readInt()));\n";
Peter Collingbournebee583f2011-10-06 13:03:08 +0000789 }
Eugene Zelenkoa9f3e902016-05-12 22:27:08 +0000790
Aaron Ballman8cbf6332014-03-06 15:09:50 +0000791 void writePCHReadArgs(raw_ostream &OS) const override {
Peter Collingbournebee583f2011-10-06 13:03:08 +0000792 OS << getLowerName();
793 }
Eugene Zelenkoa9f3e902016-05-12 22:27:08 +0000794
Aaron Ballman8cbf6332014-03-06 15:09:50 +0000795 void writePCHWrite(raw_ostream &OS) const override {
Peter Collingbournebee583f2011-10-06 13:03:08 +0000796 OS << "Record.push_back(SA->get" << getUpperName() << "());\n";
797 }
Eugene Zelenkoa9f3e902016-05-12 22:27:08 +0000798
Aaron Ballman8cbf6332014-03-06 15:09:50 +0000799 void writeValue(raw_ostream &OS) const override {
Aaron Ballman36d79102014-09-15 16:16:14 +0000800 // FIXME: this isn't 100% correct -- some enum arguments require printing
801 // as a string literal, while others require printing as an identifier.
802 // Tablegen currently does not distinguish between the two forms.
Aaron Ballman25a2cb92014-09-15 15:14:13 +0000803 OS << "\\\"\" << " << getAttrName() << "Attr::Convert" << type << "ToStr(get"
804 << getUpperName() << "()) << \"\\\"";
Douglas Gregor49ccfaa2011-11-19 19:22:57 +0000805 }
Eugene Zelenkoa9f3e902016-05-12 22:27:08 +0000806
Aaron Ballman8cbf6332014-03-06 15:09:50 +0000807 void writeDump(raw_ostream &OS) const override {
Alexander Kornienko5bc364e2013-01-07 17:53:08 +0000808 OS << " switch(SA->get" << getUpperName() << "()) {\n";
Aaron Ballmanb097f7fe2014-03-02 17:38:37 +0000809 for (const auto &I : uniques) {
810 OS << " case " << getAttrName() << "Attr::" << I << ":\n";
811 OS << " OS << \" " << I << "\";\n";
Alexander Kornienko5bc364e2013-01-07 17:53:08 +0000812 OS << " break;\n";
813 }
814 OS << " }\n";
815 }
Aaron Ballman682ee422013-09-11 19:47:58 +0000816
817 void writeConversion(raw_ostream &OS) const {
818 OS << " static bool ConvertStrTo" << type << "(StringRef Val, ";
819 OS << type << " &Out) {\n";
820 OS << " Optional<" << type << "> R = llvm::StringSwitch<Optional<";
Aaron Ballmanb097f7fe2014-03-02 17:38:37 +0000821 OS << type << ">>(Val)\n";
Aaron Ballman682ee422013-09-11 19:47:58 +0000822 for (size_t I = 0; I < enums.size(); ++I) {
823 OS << " .Case(\"" << values[I] << "\", ";
824 OS << getAttrName() << "Attr::" << enums[I] << ")\n";
825 }
826 OS << " .Default(Optional<" << type << ">());\n";
827 OS << " if (R) {\n";
828 OS << " Out = *R;\n return true;\n }\n";
829 OS << " return false;\n";
Aaron Ballman25a2cb92014-09-15 15:14:13 +0000830 OS << " }\n\n";
831
832 // Mapping from enumeration values back to enumeration strings isn't
833 // trivial because some enumeration values have multiple named
834 // enumerators, such as type_visibility(internal) and
835 // type_visibility(hidden) both mapping to TypeVisibilityAttr::Hidden.
836 OS << " static const char *Convert" << type << "ToStr("
837 << type << " Val) {\n"
838 << " switch(Val) {\n";
George Burgess IV1881a572016-12-01 00:13:18 +0000839 SmallDenseSet<StringRef, 8> Uniques;
Aaron Ballman25a2cb92014-09-15 15:14:13 +0000840 for (size_t I = 0; I < enums.size(); ++I) {
841 if (Uniques.insert(enums[I]).second)
842 OS << " case " << getAttrName() << "Attr::" << enums[I]
843 << ": return \"" << values[I] << "\";\n";
844 }
845 OS << " }\n"
846 << " llvm_unreachable(\"No enumerator with that value\");\n"
847 << " }\n";
Aaron Ballman682ee422013-09-11 19:47:58 +0000848 }
Peter Collingbournebee583f2011-10-06 13:03:08 +0000849 };
DeLesley Hutchins210791a2013-10-04 21:28:06 +0000850
851 class VariadicEnumArgument: public VariadicArgument {
852 std::string type, QualifiedTypeName;
Aaron Ballman0e468c02014-01-05 21:08:29 +0000853 std::vector<std::string> values, enums, uniques;
Aaron Ballman25a2cb92014-09-15 15:14:13 +0000854
855 protected:
856 void writeValueImpl(raw_ostream &OS) const override {
Aaron Ballman36d79102014-09-15 16:16:14 +0000857 // FIXME: this isn't 100% correct -- some enum arguments require printing
858 // as a string literal, while others require printing as an identifier.
859 // Tablegen currently does not distinguish between the two forms.
Aaron Ballman25a2cb92014-09-15 15:14:13 +0000860 OS << " OS << \"\\\"\" << " << getAttrName() << "Attr::Convert" << type
861 << "ToStr(Val)" << "<< \"\\\"\";\n";
862 }
863
DeLesley Hutchins210791a2013-10-04 21:28:06 +0000864 public:
Aaron Ballman2f22b942014-05-20 19:47:14 +0000865 VariadicEnumArgument(const Record &Arg, StringRef Attr)
DeLesley Hutchins210791a2013-10-04 21:28:06 +0000866 : VariadicArgument(Arg, Attr, Arg.getValueAsString("Type")),
867 type(Arg.getValueAsString("Type")),
Aaron Ballman0e468c02014-01-05 21:08:29 +0000868 values(Arg.getValueAsListOfStrings("Values")),
869 enums(Arg.getValueAsListOfStrings("Enums")),
Reid Klecknerf526b9482014-02-12 18:22:18 +0000870 uniques(uniqueEnumsInOrder(enums))
DeLesley Hutchins210791a2013-10-04 21:28:06 +0000871 {
DeLesley Hutchins210791a2013-10-04 21:28:06 +0000872 QualifiedTypeName = getAttrName().str() + "Attr::" + type;
873
874 // FIXME: Emit a proper error
875 assert(!uniques.empty());
876 }
877
Aaron Ballman8cbf6332014-03-06 15:09:50 +0000878 bool isVariadicEnumArg() const override { return true; }
DeLesley Hutchins210791a2013-10-04 21:28:06 +0000879
Aaron Ballman8cbf6332014-03-06 15:09:50 +0000880 void writeDeclarations(raw_ostream &OS) const override {
Eugene Zelenko5f02b772015-12-08 18:49:01 +0000881 auto i = uniques.cbegin(), e = uniques.cend();
DeLesley Hutchins210791a2013-10-04 21:28:06 +0000882 // The last one needs to not have a comma.
883 --e;
884
885 OS << "public:\n";
886 OS << " enum " << type << " {\n";
887 for (; i != e; ++i)
888 OS << " " << *i << ",\n";
889 OS << " " << *e << "\n";
890 OS << " };\n";
891 OS << "private:\n";
892
893 VariadicArgument::writeDeclarations(OS);
894 }
Eugene Zelenkoa9f3e902016-05-12 22:27:08 +0000895
Aaron Ballman8cbf6332014-03-06 15:09:50 +0000896 void writeDump(raw_ostream &OS) const override {
DeLesley Hutchins210791a2013-10-04 21:28:06 +0000897 OS << " for (" << getAttrName() << "Attr::" << getLowerName()
898 << "_iterator I = SA->" << getLowerName() << "_begin(), E = SA->"
899 << getLowerName() << "_end(); I != E; ++I) {\n";
900 OS << " switch(*I) {\n";
Aaron Ballmanb097f7fe2014-03-02 17:38:37 +0000901 for (const auto &UI : uniques) {
902 OS << " case " << getAttrName() << "Attr::" << UI << ":\n";
903 OS << " OS << \" " << UI << "\";\n";
DeLesley Hutchins210791a2013-10-04 21:28:06 +0000904 OS << " break;\n";
905 }
906 OS << " }\n";
907 OS << " }\n";
908 }
Eugene Zelenkoa9f3e902016-05-12 22:27:08 +0000909
Aaron Ballman8cbf6332014-03-06 15:09:50 +0000910 void writePCHReadDecls(raw_ostream &OS) const override {
David L. Jones267b8842017-01-24 01:04:30 +0000911 OS << " unsigned " << getLowerName() << "Size = Record.readInt();\n";
DeLesley Hutchins210791a2013-10-04 21:28:06 +0000912 OS << " SmallVector<" << QualifiedTypeName << ", 4> " << getLowerName()
913 << ";\n";
914 OS << " " << getLowerName() << ".reserve(" << getLowerName()
915 << "Size);\n";
916 OS << " for (unsigned i = " << getLowerName() << "Size; i; --i)\n";
917 OS << " " << getLowerName() << ".push_back(" << "static_cast<"
David L. Jones267b8842017-01-24 01:04:30 +0000918 << QualifiedTypeName << ">(Record.readInt()));\n";
DeLesley Hutchins210791a2013-10-04 21:28:06 +0000919 }
Eugene Zelenkoa9f3e902016-05-12 22:27:08 +0000920
Aaron Ballman8cbf6332014-03-06 15:09:50 +0000921 void writePCHWrite(raw_ostream &OS) const override {
DeLesley Hutchins210791a2013-10-04 21:28:06 +0000922 OS << " Record.push_back(SA->" << getLowerName() << "_size());\n";
923 OS << " for (" << getAttrName() << "Attr::" << getLowerName()
924 << "_iterator i = SA->" << getLowerName() << "_begin(), e = SA->"
925 << getLowerName() << "_end(); i != e; ++i)\n";
926 OS << " " << WritePCHRecord(QualifiedTypeName, "(*i)");
927 }
Eugene Zelenkoa9f3e902016-05-12 22:27:08 +0000928
DeLesley Hutchins210791a2013-10-04 21:28:06 +0000929 void writeConversion(raw_ostream &OS) const {
930 OS << " static bool ConvertStrTo" << type << "(StringRef Val, ";
931 OS << type << " &Out) {\n";
932 OS << " Optional<" << type << "> R = llvm::StringSwitch<Optional<";
Aaron Ballmanb097f7fe2014-03-02 17:38:37 +0000933 OS << type << ">>(Val)\n";
DeLesley Hutchins210791a2013-10-04 21:28:06 +0000934 for (size_t I = 0; I < enums.size(); ++I) {
935 OS << " .Case(\"" << values[I] << "\", ";
936 OS << getAttrName() << "Attr::" << enums[I] << ")\n";
937 }
938 OS << " .Default(Optional<" << type << ">());\n";
939 OS << " if (R) {\n";
940 OS << " Out = *R;\n return true;\n }\n";
941 OS << " return false;\n";
Aaron Ballman25a2cb92014-09-15 15:14:13 +0000942 OS << " }\n\n";
943
944 OS << " static const char *Convert" << type << "ToStr("
945 << type << " Val) {\n"
946 << " switch(Val) {\n";
George Burgess IV1881a572016-12-01 00:13:18 +0000947 SmallDenseSet<StringRef, 8> Uniques;
Aaron Ballman25a2cb92014-09-15 15:14:13 +0000948 for (size_t I = 0; I < enums.size(); ++I) {
949 if (Uniques.insert(enums[I]).second)
950 OS << " case " << getAttrName() << "Attr::" << enums[I]
951 << ": return \"" << values[I] << "\";\n";
952 }
953 OS << " }\n"
954 << " llvm_unreachable(\"No enumerator with that value\");\n"
955 << " }\n";
DeLesley Hutchins210791a2013-10-04 21:28:06 +0000956 }
957 };
Peter Collingbournebee583f2011-10-06 13:03:08 +0000958
959 class VersionArgument : public Argument {
960 public:
Aaron Ballman2f22b942014-05-20 19:47:14 +0000961 VersionArgument(const Record &Arg, StringRef Attr)
Peter Collingbournebee583f2011-10-06 13:03:08 +0000962 : Argument(Arg, Attr)
963 {}
964
Aaron Ballman8cbf6332014-03-06 15:09:50 +0000965 void writeAccessors(raw_ostream &OS) const override {
Peter Collingbournebee583f2011-10-06 13:03:08 +0000966 OS << " VersionTuple get" << getUpperName() << "() const {\n";
967 OS << " return " << getLowerName() << ";\n";
968 OS << " }\n";
969 OS << " void set" << getUpperName()
970 << "(ASTContext &C, VersionTuple V) {\n";
971 OS << " " << getLowerName() << " = V;\n";
972 OS << " }";
973 }
Eugene Zelenkoa9f3e902016-05-12 22:27:08 +0000974
Aaron Ballman8cbf6332014-03-06 15:09:50 +0000975 void writeCloneArgs(raw_ostream &OS) const override {
Peter Collingbournebee583f2011-10-06 13:03:08 +0000976 OS << "get" << getUpperName() << "()";
977 }
Eugene Zelenkoa9f3e902016-05-12 22:27:08 +0000978
Aaron Ballman8cbf6332014-03-06 15:09:50 +0000979 void writeTemplateInstantiationArgs(raw_ostream &OS) const override {
DeLesley Hutchinsceec3062012-01-20 22:37:06 +0000980 OS << "A->get" << getUpperName() << "()";
981 }
Eugene Zelenkoa9f3e902016-05-12 22:27:08 +0000982
Aaron Ballman8cbf6332014-03-06 15:09:50 +0000983 void writeCtorInitializers(raw_ostream &OS) const override {
Peter Collingbournebee583f2011-10-06 13:03:08 +0000984 OS << getLowerName() << "(" << getUpperName() << ")";
985 }
Eugene Zelenkoa9f3e902016-05-12 22:27:08 +0000986
Aaron Ballman8cbf6332014-03-06 15:09:50 +0000987 void writeCtorDefaultInitializers(raw_ostream &OS) const override {
Aaron Ballman8ee40b72013-09-09 23:33:17 +0000988 OS << getLowerName() << "()";
989 }
Eugene Zelenkoa9f3e902016-05-12 22:27:08 +0000990
Aaron Ballman8cbf6332014-03-06 15:09:50 +0000991 void writeCtorParameters(raw_ostream &OS) const override {
Peter Collingbournebee583f2011-10-06 13:03:08 +0000992 OS << "VersionTuple " << getUpperName();
993 }
Eugene Zelenkoa9f3e902016-05-12 22:27:08 +0000994
Aaron Ballman8cbf6332014-03-06 15:09:50 +0000995 void writeDeclarations(raw_ostream &OS) const override {
Peter Collingbournebee583f2011-10-06 13:03:08 +0000996 OS << "VersionTuple " << getLowerName() << ";\n";
997 }
Eugene Zelenkoa9f3e902016-05-12 22:27:08 +0000998
Aaron Ballman8cbf6332014-03-06 15:09:50 +0000999 void writePCHReadDecls(raw_ostream &OS) const override {
Peter Collingbournebee583f2011-10-06 13:03:08 +00001000 OS << " VersionTuple " << getLowerName()
David L. Jones267b8842017-01-24 01:04:30 +00001001 << "= Record.readVersionTuple();\n";
Peter Collingbournebee583f2011-10-06 13:03:08 +00001002 }
Eugene Zelenkoa9f3e902016-05-12 22:27:08 +00001003
Aaron Ballman8cbf6332014-03-06 15:09:50 +00001004 void writePCHReadArgs(raw_ostream &OS) const override {
Peter Collingbournebee583f2011-10-06 13:03:08 +00001005 OS << getLowerName();
1006 }
Eugene Zelenkoa9f3e902016-05-12 22:27:08 +00001007
Aaron Ballman8cbf6332014-03-06 15:09:50 +00001008 void writePCHWrite(raw_ostream &OS) const override {
Richard Smith290d8012016-04-06 17:06:00 +00001009 OS << " Record.AddVersionTuple(SA->get" << getUpperName() << "());\n";
Peter Collingbournebee583f2011-10-06 13:03:08 +00001010 }
Eugene Zelenkoa9f3e902016-05-12 22:27:08 +00001011
Aaron Ballman8cbf6332014-03-06 15:09:50 +00001012 void writeValue(raw_ostream &OS) const override {
Douglas Gregor49ccfaa2011-11-19 19:22:57 +00001013 OS << getLowerName() << "=\" << get" << getUpperName() << "() << \"";
1014 }
Eugene Zelenkoa9f3e902016-05-12 22:27:08 +00001015
Aaron Ballman8cbf6332014-03-06 15:09:50 +00001016 void writeDump(raw_ostream &OS) const override {
Alexander Kornienko5bc364e2013-01-07 17:53:08 +00001017 OS << " OS << \" \" << SA->get" << getUpperName() << "();\n";
1018 }
Peter Collingbournebee583f2011-10-06 13:03:08 +00001019 };
DeLesley Hutchinsceec3062012-01-20 22:37:06 +00001020
1021 class ExprArgument : public SimpleArgument {
1022 public:
Aaron Ballman2f22b942014-05-20 19:47:14 +00001023 ExprArgument(const Record &Arg, StringRef Attr)
DeLesley Hutchinsceec3062012-01-20 22:37:06 +00001024 : SimpleArgument(Arg, Attr, "Expr *")
1025 {}
1026
Aaron Ballman8cbf6332014-03-06 15:09:50 +00001027 void writeASTVisitorTraversal(raw_ostream &OS) const override {
DeLesley Hutchinsc4a82432013-12-30 17:24:36 +00001028 OS << " if (!"
1029 << "getDerived().TraverseStmt(A->get" << getUpperName() << "()))\n";
1030 OS << " return false;\n";
1031 }
1032
Aaron Ballman8cbf6332014-03-06 15:09:50 +00001033 void writeTemplateInstantiationArgs(raw_ostream &OS) const override {
DeLesley Hutchinsceec3062012-01-20 22:37:06 +00001034 OS << "tempInst" << getUpperName();
1035 }
1036
Aaron Ballman8cbf6332014-03-06 15:09:50 +00001037 void writeTemplateInstantiation(raw_ostream &OS) const override {
DeLesley Hutchinsceec3062012-01-20 22:37:06 +00001038 OS << " " << getType() << " tempInst" << getUpperName() << ";\n";
1039 OS << " {\n";
1040 OS << " EnterExpressionEvaluationContext "
Faisal Valid143a0c2017-04-01 21:30:49 +00001041 << "Unevaluated(S, Sema::ExpressionEvaluationContext::Unevaluated);\n";
DeLesley Hutchinsceec3062012-01-20 22:37:06 +00001042 OS << " ExprResult " << "Result = S.SubstExpr("
1043 << "A->get" << getUpperName() << "(), TemplateArgs);\n";
1044 OS << " tempInst" << getUpperName() << " = "
Nikola Smiljanic01a75982014-05-29 10:55:11 +00001045 << "Result.getAs<Expr>();\n";
DeLesley Hutchinsceec3062012-01-20 22:37:06 +00001046 OS << " }\n";
1047 }
Alexander Kornienko5bc364e2013-01-07 17:53:08 +00001048
Craig Topper3164f332014-03-11 03:39:26 +00001049 void writeDump(raw_ostream &OS) const override {}
Alexander Kornienko5bc364e2013-01-07 17:53:08 +00001050
Aaron Ballman8cbf6332014-03-06 15:09:50 +00001051 void writeDumpChildren(raw_ostream &OS) const override {
Alexander Kornienko5bc364e2013-01-07 17:53:08 +00001052 OS << " dumpStmt(SA->get" << getUpperName() << "());\n";
1053 }
Eugene Zelenkoa9f3e902016-05-12 22:27:08 +00001054
Aaron Ballman8cbf6332014-03-06 15:09:50 +00001055 void writeHasChildren(raw_ostream &OS) const override { OS << "true"; }
DeLesley Hutchinsceec3062012-01-20 22:37:06 +00001056 };
1057
1058 class VariadicExprArgument : public VariadicArgument {
1059 public:
Aaron Ballman2f22b942014-05-20 19:47:14 +00001060 VariadicExprArgument(const Record &Arg, StringRef Attr)
DeLesley Hutchinsceec3062012-01-20 22:37:06 +00001061 : VariadicArgument(Arg, Attr, "Expr *")
1062 {}
1063
Aaron Ballman8cbf6332014-03-06 15:09:50 +00001064 void writeASTVisitorTraversal(raw_ostream &OS) const override {
DeLesley Hutchinsc4a82432013-12-30 17:24:36 +00001065 OS << " {\n";
1066 OS << " " << getType() << " *I = A->" << getLowerName()
1067 << "_begin();\n";
1068 OS << " " << getType() << " *E = A->" << getLowerName()
1069 << "_end();\n";
1070 OS << " for (; I != E; ++I) {\n";
1071 OS << " if (!getDerived().TraverseStmt(*I))\n";
1072 OS << " return false;\n";
1073 OS << " }\n";
1074 OS << " }\n";
1075 }
1076
Aaron Ballman8cbf6332014-03-06 15:09:50 +00001077 void writeTemplateInstantiationArgs(raw_ostream &OS) const override {
DeLesley Hutchinsceec3062012-01-20 22:37:06 +00001078 OS << "tempInst" << getUpperName() << ", "
1079 << "A->" << getLowerName() << "_size()";
1080 }
1081
Aaron Ballman8cbf6332014-03-06 15:09:50 +00001082 void writeTemplateInstantiation(raw_ostream &OS) const override {
Eugene Zelenko5f02b772015-12-08 18:49:01 +00001083 OS << " auto *tempInst" << getUpperName()
DeLesley Hutchinsceec3062012-01-20 22:37:06 +00001084 << " = new (C, 16) " << getType()
1085 << "[A->" << getLowerName() << "_size()];\n";
1086 OS << " {\n";
1087 OS << " EnterExpressionEvaluationContext "
Faisal Valid143a0c2017-04-01 21:30:49 +00001088 << "Unevaluated(S, Sema::ExpressionEvaluationContext::Unevaluated);\n";
DeLesley Hutchinsceec3062012-01-20 22:37:06 +00001089 OS << " " << getType() << " *TI = tempInst" << getUpperName()
1090 << ";\n";
1091 OS << " " << getType() << " *I = A->" << getLowerName()
1092 << "_begin();\n";
1093 OS << " " << getType() << " *E = A->" << getLowerName()
1094 << "_end();\n";
1095 OS << " for (; I != E; ++I, ++TI) {\n";
1096 OS << " ExprResult Result = S.SubstExpr(*I, TemplateArgs);\n";
Nikola Smiljanic01a75982014-05-29 10:55:11 +00001097 OS << " *TI = Result.getAs<Expr>();\n";
DeLesley Hutchinsceec3062012-01-20 22:37:06 +00001098 OS << " }\n";
1099 OS << " }\n";
1100 }
Alexander Kornienko5bc364e2013-01-07 17:53:08 +00001101
Craig Topper3164f332014-03-11 03:39:26 +00001102 void writeDump(raw_ostream &OS) const override {}
Alexander Kornienko5bc364e2013-01-07 17:53:08 +00001103
Aaron Ballman8cbf6332014-03-06 15:09:50 +00001104 void writeDumpChildren(raw_ostream &OS) const override {
Alexander Kornienko5bc364e2013-01-07 17:53:08 +00001105 OS << " for (" << getAttrName() << "Attr::" << getLowerName()
1106 << "_iterator I = SA->" << getLowerName() << "_begin(), E = SA->"
Richard Smithf7514452014-10-30 21:02:37 +00001107 << getLowerName() << "_end(); I != E; ++I)\n";
Alexander Kornienko5bc364e2013-01-07 17:53:08 +00001108 OS << " dumpStmt(*I);\n";
Richard Trieude5cc7d2013-01-31 01:44:26 +00001109 }
1110
Aaron Ballman8cbf6332014-03-06 15:09:50 +00001111 void writeHasChildren(raw_ostream &OS) const override {
Richard Trieude5cc7d2013-01-31 01:44:26 +00001112 OS << "SA->" << getLowerName() << "_begin() != "
1113 << "SA->" << getLowerName() << "_end()";
Alexander Kornienko5bc364e2013-01-07 17:53:08 +00001114 }
DeLesley Hutchinsceec3062012-01-20 22:37:06 +00001115 };
Richard Smithb87c4652013-10-31 21:23:20 +00001116
Peter Collingbourne915df992015-05-15 18:33:32 +00001117 class VariadicStringArgument : public VariadicArgument {
1118 public:
1119 VariadicStringArgument(const Record &Arg, StringRef Attr)
Benjamin Kramer1b582012016-02-13 18:11:49 +00001120 : VariadicArgument(Arg, Attr, "StringRef")
Peter Collingbourne915df992015-05-15 18:33:32 +00001121 {}
Eugene Zelenkoa9f3e902016-05-12 22:27:08 +00001122
Benjamin Kramer1b582012016-02-13 18:11:49 +00001123 void writeCtorBody(raw_ostream &OS) const override {
1124 OS << " for (size_t I = 0, E = " << getArgSizeName() << "; I != E;\n"
1125 " ++I) {\n"
1126 " StringRef Ref = " << getUpperName() << "[I];\n"
1127 " if (!Ref.empty()) {\n"
1128 " char *Mem = new (Ctx, 1) char[Ref.size()];\n"
1129 " std::memcpy(Mem, Ref.data(), Ref.size());\n"
1130 " " << getArgName() << "[I] = StringRef(Mem, Ref.size());\n"
1131 " }\n"
Eugene Zelenkoa9f3e902016-05-12 22:27:08 +00001132 " }\n";
Benjamin Kramer1b582012016-02-13 18:11:49 +00001133 }
Eugene Zelenkoa9f3e902016-05-12 22:27:08 +00001134
Peter Collingbourne915df992015-05-15 18:33:32 +00001135 void writeValueImpl(raw_ostream &OS) const override {
1136 OS << " OS << \"\\\"\" << Val << \"\\\"\";\n";
1137 }
1138 };
1139
Richard Smithb87c4652013-10-31 21:23:20 +00001140 class TypeArgument : public SimpleArgument {
1141 public:
Aaron Ballman2f22b942014-05-20 19:47:14 +00001142 TypeArgument(const Record &Arg, StringRef Attr)
Richard Smithb87c4652013-10-31 21:23:20 +00001143 : SimpleArgument(Arg, Attr, "TypeSourceInfo *")
1144 {}
1145
Aaron Ballman8cbf6332014-03-06 15:09:50 +00001146 void writeAccessors(raw_ostream &OS) const override {
Richard Smithb87c4652013-10-31 21:23:20 +00001147 OS << " QualType get" << getUpperName() << "() const {\n";
1148 OS << " return " << getLowerName() << "->getType();\n";
1149 OS << " }";
1150 OS << " " << getType() << " get" << getUpperName() << "Loc() const {\n";
1151 OS << " return " << getLowerName() << ";\n";
1152 OS << " }";
1153 }
Eugene Zelenkoa9f3e902016-05-12 22:27:08 +00001154
Aaron Ballman8cbf6332014-03-06 15:09:50 +00001155 void writeTemplateInstantiationArgs(raw_ostream &OS) const override {
Richard Smithb87c4652013-10-31 21:23:20 +00001156 OS << "A->get" << getUpperName() << "Loc()";
1157 }
Eugene Zelenkoa9f3e902016-05-12 22:27:08 +00001158
Aaron Ballman8cbf6332014-03-06 15:09:50 +00001159 void writePCHWrite(raw_ostream &OS) const override {
Richard Smithb87c4652013-10-31 21:23:20 +00001160 OS << " " << WritePCHRecord(
1161 getType(), "SA->get" + std::string(getUpperName()) + "Loc()");
1162 }
1163 };
Eugene Zelenkoa9f3e902016-05-12 22:27:08 +00001164
Hans Wennborgdcfba332015-10-06 23:40:43 +00001165} // end anonymous namespace
Peter Collingbournebee583f2011-10-06 13:03:08 +00001166
Aaron Ballman2f22b942014-05-20 19:47:14 +00001167static std::unique_ptr<Argument>
1168createArgument(const Record &Arg, StringRef Attr,
1169 const Record *Search = nullptr) {
Peter Collingbournebee583f2011-10-06 13:03:08 +00001170 if (!Search)
1171 Search = &Arg;
1172
David Blaikie28f30ca2014-08-08 23:59:38 +00001173 std::unique_ptr<Argument> Ptr;
Peter Collingbournebee583f2011-10-06 13:03:08 +00001174 llvm::StringRef ArgName = Search->getName();
1175
David Blaikie28f30ca2014-08-08 23:59:38 +00001176 if (ArgName == "AlignedArgument")
1177 Ptr = llvm::make_unique<AlignedArgument>(Arg, Attr);
1178 else if (ArgName == "EnumArgument")
1179 Ptr = llvm::make_unique<EnumArgument>(Arg, Attr);
1180 else if (ArgName == "ExprArgument")
1181 Ptr = llvm::make_unique<ExprArgument>(Arg, Attr);
Peter Collingbournebee583f2011-10-06 13:03:08 +00001182 else if (ArgName == "FunctionArgument")
David Blaikie28f30ca2014-08-08 23:59:38 +00001183 Ptr = llvm::make_unique<SimpleArgument>(Arg, Attr, "FunctionDecl *");
Peter Collingbournebee583f2011-10-06 13:03:08 +00001184 else if (ArgName == "IdentifierArgument")
David Blaikie28f30ca2014-08-08 23:59:38 +00001185 Ptr = llvm::make_unique<SimpleArgument>(Arg, Attr, "IdentifierInfo *");
David Majnemer4bb09802014-02-10 19:50:15 +00001186 else if (ArgName == "DefaultBoolArgument")
David Blaikie28f30ca2014-08-08 23:59:38 +00001187 Ptr = llvm::make_unique<DefaultSimpleArgument>(
1188 Arg, Attr, "bool", Arg.getValueAsBit("Default"));
1189 else if (ArgName == "BoolArgument")
1190 Ptr = llvm::make_unique<SimpleArgument>(Arg, Attr, "bool");
Aaron Ballman18a78382013-11-21 00:28:23 +00001191 else if (ArgName == "DefaultIntArgument")
David Blaikie28f30ca2014-08-08 23:59:38 +00001192 Ptr = llvm::make_unique<DefaultSimpleArgument>(
1193 Arg, Attr, "int", Arg.getValueAsInt("Default"));
1194 else if (ArgName == "IntArgument")
1195 Ptr = llvm::make_unique<SimpleArgument>(Arg, Attr, "int");
1196 else if (ArgName == "StringArgument")
1197 Ptr = llvm::make_unique<StringArgument>(Arg, Attr);
1198 else if (ArgName == "TypeArgument")
1199 Ptr = llvm::make_unique<TypeArgument>(Arg, Attr);
Peter Collingbournebee583f2011-10-06 13:03:08 +00001200 else if (ArgName == "UnsignedArgument")
David Blaikie28f30ca2014-08-08 23:59:38 +00001201 Ptr = llvm::make_unique<SimpleArgument>(Arg, Attr, "unsigned");
Peter Collingbournebee583f2011-10-06 13:03:08 +00001202 else if (ArgName == "VariadicUnsignedArgument")
David Blaikie28f30ca2014-08-08 23:59:38 +00001203 Ptr = llvm::make_unique<VariadicArgument>(Arg, Attr, "unsigned");
Peter Collingbourne915df992015-05-15 18:33:32 +00001204 else if (ArgName == "VariadicStringArgument")
1205 Ptr = llvm::make_unique<VariadicStringArgument>(Arg, Attr);
DeLesley Hutchins210791a2013-10-04 21:28:06 +00001206 else if (ArgName == "VariadicEnumArgument")
David Blaikie28f30ca2014-08-08 23:59:38 +00001207 Ptr = llvm::make_unique<VariadicEnumArgument>(Arg, Attr);
Peter Collingbournebee583f2011-10-06 13:03:08 +00001208 else if (ArgName == "VariadicExprArgument")
David Blaikie28f30ca2014-08-08 23:59:38 +00001209 Ptr = llvm::make_unique<VariadicExprArgument>(Arg, Attr);
Peter Collingbournebee583f2011-10-06 13:03:08 +00001210 else if (ArgName == "VersionArgument")
David Blaikie28f30ca2014-08-08 23:59:38 +00001211 Ptr = llvm::make_unique<VersionArgument>(Arg, Attr);
Peter Collingbournebee583f2011-10-06 13:03:08 +00001212
1213 if (!Ptr) {
Aaron Ballman18a78382013-11-21 00:28:23 +00001214 // Search in reverse order so that the most-derived type is handled first.
Craig Topper25761242016-01-18 19:52:54 +00001215 ArrayRef<std::pair<Record*, SMRange>> Bases = Search->getSuperClasses();
David Majnemerf7e36092016-06-23 00:15:04 +00001216 for (const auto &Base : llvm::reverse(Bases)) {
Craig Topper25761242016-01-18 19:52:54 +00001217 if ((Ptr = createArgument(Arg, Attr, Base.first)))
Peter Collingbournebee583f2011-10-06 13:03:08 +00001218 break;
1219 }
1220 }
Aaron Ballman8ee40b72013-09-09 23:33:17 +00001221
1222 if (Ptr && Arg.getValueAsBit("Optional"))
1223 Ptr->setOptional(true);
1224
John McCalla62c1a92015-10-28 00:17:34 +00001225 if (Ptr && Arg.getValueAsBit("Fake"))
1226 Ptr->setFake(true);
1227
David Blaikie28f30ca2014-08-08 23:59:38 +00001228 return Ptr;
Peter Collingbournebee583f2011-10-06 13:03:08 +00001229}
1230
Douglas Gregor49ccfaa2011-11-19 19:22:57 +00001231static void writeAvailabilityValue(raw_ostream &OS) {
1232 OS << "\" << getPlatform()->getName();\n"
Manman Ren42e09eb2016-03-10 23:54:12 +00001233 << " if (getStrict()) OS << \", strict\";\n"
Douglas Gregor49ccfaa2011-11-19 19:22:57 +00001234 << " if (!getIntroduced().empty()) OS << \", introduced=\" << getIntroduced();\n"
1235 << " if (!getDeprecated().empty()) OS << \", deprecated=\" << getDeprecated();\n"
1236 << " if (!getObsoleted().empty()) OS << \", obsoleted=\" << getObsoleted();\n"
1237 << " if (getUnavailable()) OS << \", unavailable\";\n"
1238 << " OS << \"";
1239}
1240
Manman Renc7890fe2016-03-16 18:50:49 +00001241static void writeDeprecatedAttrValue(raw_ostream &OS, std::string &Variety) {
1242 OS << "\\\"\" << getMessage() << \"\\\"\";\n";
1243 // Only GNU deprecated has an optional fixit argument at the second position.
1244 if (Variety == "GNU")
1245 OS << " if (!getReplacement().empty()) OS << \", \\\"\""
1246 " << getReplacement() << \"\\\"\";\n";
1247 OS << " OS << \"";
1248}
1249
Aaron Ballman3e424b52013-12-26 18:30:57 +00001250static void writeGetSpellingFunction(Record &R, raw_ostream &OS) {
Aaron Ballmanc669cc02014-01-27 22:10:04 +00001251 std::vector<FlattenedSpelling> Spellings = GetFlattenedSpellings(R);
Aaron Ballman3e424b52013-12-26 18:30:57 +00001252
1253 OS << "const char *" << R.getName() << "Attr::getSpelling() const {\n";
1254 if (Spellings.empty()) {
1255 OS << " return \"(No spelling)\";\n}\n\n";
1256 return;
1257 }
1258
1259 OS << " switch (SpellingListIndex) {\n"
1260 " default:\n"
1261 " llvm_unreachable(\"Unknown attribute spelling!\");\n"
1262 " return \"(No spelling)\";\n";
1263
1264 for (unsigned I = 0; I < Spellings.size(); ++I)
1265 OS << " case " << I << ":\n"
Aaron Ballmanc669cc02014-01-27 22:10:04 +00001266 " return \"" << Spellings[I].name() << "\";\n";
Aaron Ballman3e424b52013-12-26 18:30:57 +00001267 // End of the switch statement.
1268 OS << " }\n";
1269 // End of the getSpelling function.
1270 OS << "}\n\n";
1271}
1272
Aaron Ballman8f1439b2014-03-05 16:49:55 +00001273static void
1274writePrettyPrintFunction(Record &R,
1275 const std::vector<std::unique_ptr<Argument>> &Args,
1276 raw_ostream &OS) {
Aaron Ballmanc669cc02014-01-27 22:10:04 +00001277 std::vector<FlattenedSpelling> Spellings = GetFlattenedSpellings(R);
Michael Han99315932013-01-24 16:46:58 +00001278
1279 OS << "void " << R.getName() << "Attr::printPretty("
1280 << "raw_ostream &OS, const PrintingPolicy &Policy) const {\n";
1281
Tyler Nowickie8b07ed2014-06-13 17:57:25 +00001282 if (Spellings.empty()) {
Michael Han99315932013-01-24 16:46:58 +00001283 OS << "}\n\n";
1284 return;
1285 }
1286
1287 OS <<
1288 " switch (SpellingListIndex) {\n"
1289 " default:\n"
1290 " llvm_unreachable(\"Unknown attribute spelling!\");\n"
1291 " break;\n";
1292
1293 for (unsigned I = 0; I < Spellings.size(); ++ I) {
1294 llvm::SmallString<16> Prefix;
1295 llvm::SmallString<8> Suffix;
1296 // The actual spelling of the name and namespace (if applicable)
1297 // of an attribute without considering prefix and suffix.
1298 llvm::SmallString<64> Spelling;
Aaron Ballmanc669cc02014-01-27 22:10:04 +00001299 std::string Name = Spellings[I].name();
1300 std::string Variety = Spellings[I].variety();
Michael Han99315932013-01-24 16:46:58 +00001301
1302 if (Variety == "GNU") {
1303 Prefix = " __attribute__((";
1304 Suffix = "))";
1305 } else if (Variety == "CXX11") {
1306 Prefix = " [[";
1307 Suffix = "]]";
Aaron Ballmanc669cc02014-01-27 22:10:04 +00001308 std::string Namespace = Spellings[I].nameSpace();
Tyler Nowickie8b07ed2014-06-13 17:57:25 +00001309 if (!Namespace.empty()) {
Michael Han99315932013-01-24 16:46:58 +00001310 Spelling += Namespace;
1311 Spelling += "::";
1312 }
1313 } else if (Variety == "Declspec") {
1314 Prefix = " __declspec(";
1315 Suffix = ")";
Nico Weber20e08042016-09-03 02:55:10 +00001316 } else if (Variety == "Microsoft") {
1317 Prefix = "[";
1318 Suffix = "]";
Richard Smith0cdcc982013-01-29 01:24:26 +00001319 } else if (Variety == "Keyword") {
1320 Prefix = " ";
1321 Suffix = "";
Tyler Nowickie8b07ed2014-06-13 17:57:25 +00001322 } else if (Variety == "Pragma") {
1323 Prefix = "#pragma ";
1324 Suffix = "\n";
1325 std::string Namespace = Spellings[I].nameSpace();
1326 if (!Namespace.empty()) {
1327 Spelling += Namespace;
1328 Spelling += " ";
1329 }
Michael Han99315932013-01-24 16:46:58 +00001330 } else {
Richard Smith0cdcc982013-01-29 01:24:26 +00001331 llvm_unreachable("Unknown attribute syntax variety!");
Michael Han99315932013-01-24 16:46:58 +00001332 }
1333
1334 Spelling += Name;
1335
1336 OS <<
1337 " case " << I << " : {\n"
Yaron Keren09fb7c62015-03-10 07:33:23 +00001338 " OS << \"" << Prefix << Spelling;
Michael Han99315932013-01-24 16:46:58 +00001339
Tyler Nowickie8b07ed2014-06-13 17:57:25 +00001340 if (Variety == "Pragma") {
1341 OS << " \";\n";
1342 OS << " printPrettyPragma(OS, Policy);\n";
Alexey Bataev6d455322015-10-12 06:59:48 +00001343 OS << " OS << \"\\n\";";
Tyler Nowickie8b07ed2014-06-13 17:57:25 +00001344 OS << " break;\n";
1345 OS << " }\n";
1346 continue;
1347 }
1348
John McCalla62c1a92015-10-28 00:17:34 +00001349 // Fake arguments aren't part of the parsed form and should not be
1350 // pretty-printed.
George Burgess IV1881a572016-12-01 00:13:18 +00001351 bool hasNonFakeArgs = llvm::any_of(
1352 Args, [](const std::unique_ptr<Argument> &A) { return !A->isFake(); });
John McCalla62c1a92015-10-28 00:17:34 +00001353
Aaron Ballmanc960f562014-08-01 13:49:00 +00001354 // FIXME: always printing the parenthesis isn't the correct behavior for
1355 // attributes which have optional arguments that were not provided. For
1356 // instance: __attribute__((aligned)) will be pretty printed as
1357 // __attribute__((aligned())). The logic should check whether there is only
1358 // a single argument, and if it is optional, whether it has been provided.
John McCalla62c1a92015-10-28 00:17:34 +00001359 if (hasNonFakeArgs)
Aaron Ballman8f1439b2014-03-05 16:49:55 +00001360 OS << "(";
Michael Han99315932013-01-24 16:46:58 +00001361 if (Spelling == "availability") {
1362 writeAvailabilityValue(OS);
Manman Renc7890fe2016-03-16 18:50:49 +00001363 } else if (Spelling == "deprecated" || Spelling == "gnu::deprecated") {
1364 writeDeprecatedAttrValue(OS, Variety);
Michael Han99315932013-01-24 16:46:58 +00001365 } else {
John McCalla62c1a92015-10-28 00:17:34 +00001366 unsigned index = 0;
1367 for (const auto &arg : Args) {
1368 if (arg->isFake()) continue;
1369 if (index++) OS << ", ";
1370 arg->writeValue(OS);
Michael Han99315932013-01-24 16:46:58 +00001371 }
1372 }
1373
John McCalla62c1a92015-10-28 00:17:34 +00001374 if (hasNonFakeArgs)
Aaron Ballman8f1439b2014-03-05 16:49:55 +00001375 OS << ")";
Yaron Keren09fb7c62015-03-10 07:33:23 +00001376 OS << Suffix + "\";\n";
Michael Han99315932013-01-24 16:46:58 +00001377
1378 OS <<
1379 " break;\n"
1380 " }\n";
1381 }
1382
1383 // End of the switch statement.
1384 OS << "}\n";
1385 // End of the print function.
1386 OS << "}\n\n";
1387}
1388
Michael Hanaf02bbe2013-02-01 01:19:17 +00001389/// \brief Return the index of a spelling in a spelling list.
Aaron Ballmanc669cc02014-01-27 22:10:04 +00001390static unsigned
1391getSpellingListIndex(const std::vector<FlattenedSpelling> &SpellingList,
1392 const FlattenedSpelling &Spelling) {
Alexander Kornienko6ee521c2015-01-23 15:36:10 +00001393 assert(!SpellingList.empty() && "Spelling list is empty!");
Michael Hanaf02bbe2013-02-01 01:19:17 +00001394
1395 for (unsigned Index = 0; Index < SpellingList.size(); ++Index) {
Aaron Ballmanc669cc02014-01-27 22:10:04 +00001396 const FlattenedSpelling &S = SpellingList[Index];
1397 if (S.variety() != Spelling.variety())
Michael Hanaf02bbe2013-02-01 01:19:17 +00001398 continue;
Aaron Ballmanc669cc02014-01-27 22:10:04 +00001399 if (S.nameSpace() != Spelling.nameSpace())
Michael Hanaf02bbe2013-02-01 01:19:17 +00001400 continue;
Aaron Ballmanc669cc02014-01-27 22:10:04 +00001401 if (S.name() != Spelling.name())
Michael Hanaf02bbe2013-02-01 01:19:17 +00001402 continue;
1403
1404 return Index;
1405 }
1406
1407 llvm_unreachable("Unknown spelling!");
1408}
1409
Aaron Ballmanb097f7fe2014-03-02 17:38:37 +00001410static void writeAttrAccessorDefinition(const Record &R, raw_ostream &OS) {
Michael Hanaf02bbe2013-02-01 01:19:17 +00001411 std::vector<Record*> Accessors = R.getValueAsListOfDefs("Accessors");
George Burgess IV1881a572016-12-01 00:13:18 +00001412 if (Accessors.empty())
1413 return;
1414
1415 const std::vector<FlattenedSpelling> SpellingList = GetFlattenedSpellings(R);
1416 assert(!SpellingList.empty() &&
1417 "Attribute with empty spelling list can't have accessors!");
Aaron Ballman2f22b942014-05-20 19:47:14 +00001418 for (const auto *Accessor : Accessors) {
Michael Hanaf02bbe2013-02-01 01:19:17 +00001419 std::string Name = Accessor->getValueAsString("Name");
George Burgess IV1881a572016-12-01 00:13:18 +00001420 std::vector<FlattenedSpelling> Spellings = GetFlattenedSpellings(*Accessor);
Michael Hanaf02bbe2013-02-01 01:19:17 +00001421
1422 OS << " bool " << Name << "() const { return SpellingListIndex == ";
1423 for (unsigned Index = 0; Index < Spellings.size(); ++Index) {
Aaron Ballmanc669cc02014-01-27 22:10:04 +00001424 OS << getSpellingListIndex(SpellingList, Spellings[Index]);
George Burgess IV1881a572016-12-01 00:13:18 +00001425 if (Index != Spellings.size() - 1)
Michael Hanaf02bbe2013-02-01 01:19:17 +00001426 OS << " ||\n SpellingListIndex == ";
1427 else
1428 OS << "; }\n";
1429 }
1430 }
1431}
1432
Aaron Ballmanc669cc02014-01-27 22:10:04 +00001433static bool
1434SpellingNamesAreCommon(const std::vector<FlattenedSpelling>& Spellings) {
Aaron Ballman36a53502014-01-16 13:03:14 +00001435 assert(!Spellings.empty() && "An empty list of spellings was provided");
1436 std::string FirstName = NormalizeNameForSpellingComparison(
Aaron Ballmanc669cc02014-01-27 22:10:04 +00001437 Spellings.front().name());
Aaron Ballman2f22b942014-05-20 19:47:14 +00001438 for (const auto &Spelling :
1439 llvm::make_range(std::next(Spellings.begin()), Spellings.end())) {
1440 std::string Name = NormalizeNameForSpellingComparison(Spelling.name());
Aaron Ballman36a53502014-01-16 13:03:14 +00001441 if (Name != FirstName)
1442 return false;
1443 }
1444 return true;
1445}
1446
Aaron Ballman81cb8cb2014-01-24 21:32:49 +00001447typedef std::map<unsigned, std::string> SemanticSpellingMap;
1448static std::string
Aaron Ballmanc669cc02014-01-27 22:10:04 +00001449CreateSemanticSpellings(const std::vector<FlattenedSpelling> &Spellings,
Aaron Ballman81cb8cb2014-01-24 21:32:49 +00001450 SemanticSpellingMap &Map) {
1451 // The enumerants are automatically generated based on the variety,
1452 // namespace (if present) and name for each attribute spelling. However,
1453 // care is taken to avoid trampling on the reserved namespace due to
1454 // underscores.
1455 std::string Ret(" enum Spelling {\n");
1456 std::set<std::string> Uniques;
1457 unsigned Idx = 0;
Aaron Ballmanb097f7fe2014-03-02 17:38:37 +00001458 for (auto I = Spellings.begin(), E = Spellings.end(); I != E; ++I, ++Idx) {
Aaron Ballmanc669cc02014-01-27 22:10:04 +00001459 const FlattenedSpelling &S = *I;
Benjamin Kramer2e018ef2016-05-27 13:36:58 +00001460 const std::string &Variety = S.variety();
1461 const std::string &Spelling = S.name();
1462 const std::string &Namespace = S.nameSpace();
Eugene Zelenkoa9f3e902016-05-12 22:27:08 +00001463 std::string EnumName;
Aaron Ballman81cb8cb2014-01-24 21:32:49 +00001464
Aaron Ballman81cb8cb2014-01-24 21:32:49 +00001465 EnumName += (Variety + "_");
1466 if (!Namespace.empty())
1467 EnumName += (NormalizeNameForSpellingComparison(Namespace).str() +
1468 "_");
1469 EnumName += NormalizeNameForSpellingComparison(Spelling);
1470
1471 // Even if the name is not unique, this spelling index corresponds to a
1472 // particular enumerant name that we've calculated.
1473 Map[Idx] = EnumName;
1474
1475 // Since we have been stripping underscores to avoid trampling on the
1476 // reserved namespace, we may have inadvertently created duplicate
1477 // enumerant names. These duplicates are not considered part of the
1478 // semantic spelling, and can be elided.
1479 if (Uniques.find(EnumName) != Uniques.end())
1480 continue;
1481
1482 Uniques.insert(EnumName);
1483 if (I != Spellings.begin())
1484 Ret += ",\n";
Aaron Ballman9bf6b752015-03-10 17:19:18 +00001485 // Duplicate spellings are not considered part of the semantic spelling
1486 // enumeration, but the spelling index and semantic spelling values are
1487 // meant to be equivalent, so we must specify a concrete value for each
1488 // enumerator.
1489 Ret += " " + EnumName + " = " + llvm::utostr(Idx);
Aaron Ballman81cb8cb2014-01-24 21:32:49 +00001490 }
1491 Ret += "\n };\n\n";
1492 return Ret;
1493}
1494
1495void WriteSemanticSpellingSwitch(const std::string &VarName,
1496 const SemanticSpellingMap &Map,
1497 raw_ostream &OS) {
1498 OS << " switch (" << VarName << ") {\n default: "
1499 << "llvm_unreachable(\"Unknown spelling list index\");\n";
Aaron Ballmanb097f7fe2014-03-02 17:38:37 +00001500 for (const auto &I : Map)
1501 OS << " case " << I.first << ": return " << I.second << ";\n";
Aaron Ballman81cb8cb2014-01-24 21:32:49 +00001502 OS << " }\n";
1503}
1504
Aaron Ballman35db2b32014-01-29 22:13:45 +00001505// Emits the LateParsed property for attributes.
1506static void emitClangAttrLateParsedList(RecordKeeper &Records, raw_ostream &OS) {
1507 OS << "#if defined(CLANG_ATTR_LATE_PARSED_LIST)\n";
1508 std::vector<Record*> Attrs = Records.getAllDerivedDefinitions("Attr");
1509
Aaron Ballman2f22b942014-05-20 19:47:14 +00001510 for (const auto *Attr : Attrs) {
Aaron Ballmanb097f7fe2014-03-02 17:38:37 +00001511 bool LateParsed = Attr->getValueAsBit("LateParsed");
Aaron Ballman35db2b32014-01-29 22:13:45 +00001512
1513 if (LateParsed) {
Aaron Ballmanb097f7fe2014-03-02 17:38:37 +00001514 std::vector<FlattenedSpelling> Spellings = GetFlattenedSpellings(*Attr);
Aaron Ballman35db2b32014-01-29 22:13:45 +00001515
1516 // FIXME: Handle non-GNU attributes
Aaron Ballmanb097f7fe2014-03-02 17:38:37 +00001517 for (const auto &I : Spellings) {
1518 if (I.variety() != "GNU")
Aaron Ballman35db2b32014-01-29 22:13:45 +00001519 continue;
Aaron Ballmanb097f7fe2014-03-02 17:38:37 +00001520 OS << ".Case(\"" << I.name() << "\", " << LateParsed << ")\n";
Aaron Ballman35db2b32014-01-29 22:13:45 +00001521 }
1522 }
1523 }
1524 OS << "#endif // CLANG_ATTR_LATE_PARSED_LIST\n\n";
1525}
1526
Alex Lorenz9e7bf162017-04-18 14:33:39 +00001527static bool hasGNUorCXX11Spelling(const Record &Attribute) {
1528 std::vector<FlattenedSpelling> Spellings = GetFlattenedSpellings(Attribute);
1529 for (const auto &I : Spellings) {
1530 if (I.variety() == "GNU" || I.variety() == "CXX11")
1531 return true;
1532 }
1533 return false;
1534}
1535
1536namespace {
1537
1538struct AttributeSubjectMatchRule {
1539 const Record *MetaSubject;
1540 const Record *Constraint;
1541
1542 AttributeSubjectMatchRule(const Record *MetaSubject, const Record *Constraint)
1543 : MetaSubject(MetaSubject), Constraint(Constraint) {
1544 assert(MetaSubject && "Missing subject");
1545 }
1546
1547 bool isSubRule() const { return Constraint != nullptr; }
1548
1549 std::vector<Record *> getSubjects() const {
1550 return (Constraint ? Constraint : MetaSubject)
1551 ->getValueAsListOfDefs("Subjects");
1552 }
1553
1554 std::vector<Record *> getLangOpts() const {
1555 if (Constraint) {
1556 // Lookup the options in the sub-rule first, in case the sub-rule
1557 // overrides the rules options.
1558 std::vector<Record *> Opts = Constraint->getValueAsListOfDefs("LangOpts");
1559 if (!Opts.empty())
1560 return Opts;
1561 }
1562 return MetaSubject->getValueAsListOfDefs("LangOpts");
1563 }
1564
1565 // Abstract rules are used only for sub-rules
1566 bool isAbstractRule() const { return getSubjects().empty(); }
1567
1568 std::string getName() const {
1569 return (Constraint ? Constraint : MetaSubject)->getValueAsString("Name");
1570 }
1571
1572 bool isNegatedSubRule() const {
1573 assert(isSubRule() && "Not a sub-rule");
1574 return Constraint->getValueAsBit("Negated");
1575 }
1576
1577 std::string getSpelling() const {
1578 std::string Result = MetaSubject->getValueAsString("Name");
1579 if (isSubRule()) {
1580 Result += '(';
1581 if (isNegatedSubRule())
1582 Result += "unless(";
1583 Result += getName();
1584 if (isNegatedSubRule())
1585 Result += ')';
1586 Result += ')';
1587 }
1588 return Result;
1589 }
1590
1591 std::string getEnumValueName() const {
1592 std::string Result =
1593 "SubjectMatchRule_" + MetaSubject->getValueAsString("Name");
1594 if (isSubRule()) {
1595 Result += "_";
1596 if (isNegatedSubRule())
1597 Result += "not_";
1598 Result += Constraint->getValueAsString("Name");
1599 }
1600 if (isAbstractRule())
1601 Result += "_abstract";
1602 return Result;
1603 }
1604
1605 std::string getEnumValue() const { return "attr::" + getEnumValueName(); }
1606
1607 static const char *EnumName;
1608};
1609
1610const char *AttributeSubjectMatchRule::EnumName = "attr::SubjectMatchRule";
1611
1612struct PragmaClangAttributeSupport {
1613 std::vector<AttributeSubjectMatchRule> Rules;
Alex Lorenz24952fb2017-04-19 15:52:11 +00001614
1615 class RuleOrAggregateRuleSet {
1616 std::vector<AttributeSubjectMatchRule> Rules;
1617 bool IsRule;
1618 RuleOrAggregateRuleSet(ArrayRef<AttributeSubjectMatchRule> Rules,
1619 bool IsRule)
1620 : Rules(Rules), IsRule(IsRule) {}
1621
1622 public:
1623 bool isRule() const { return IsRule; }
1624
1625 const AttributeSubjectMatchRule &getRule() const {
1626 assert(IsRule && "not a rule!");
1627 return Rules[0];
1628 }
1629
1630 ArrayRef<AttributeSubjectMatchRule> getAggregateRuleSet() const {
1631 return Rules;
1632 }
1633
1634 static RuleOrAggregateRuleSet
1635 getRule(const AttributeSubjectMatchRule &Rule) {
1636 return RuleOrAggregateRuleSet(Rule, /*IsRule=*/true);
1637 }
1638 static RuleOrAggregateRuleSet
1639 getAggregateRuleSet(ArrayRef<AttributeSubjectMatchRule> Rules) {
1640 return RuleOrAggregateRuleSet(Rules, /*IsRule=*/false);
1641 }
1642 };
1643 llvm::DenseMap<const Record *, RuleOrAggregateRuleSet> SubjectsToRules;
Alex Lorenz9e7bf162017-04-18 14:33:39 +00001644
1645 PragmaClangAttributeSupport(RecordKeeper &Records);
1646
1647 bool isAttributedSupported(const Record &Attribute);
1648
1649 void emitMatchRuleList(raw_ostream &OS);
1650
1651 std::string generateStrictConformsTo(const Record &Attr, raw_ostream &OS);
1652
1653 void generateParsingHelpers(raw_ostream &OS);
1654};
1655
1656} // end anonymous namespace
1657
Alex Lorenz24952fb2017-04-19 15:52:11 +00001658static bool doesDeclDeriveFrom(const Record *D, const Record *Base) {
1659 const Record *CurrentBase = D->getValueAsDef("Base");
1660 if (!CurrentBase)
1661 return false;
1662 if (CurrentBase == Base)
1663 return true;
1664 return doesDeclDeriveFrom(CurrentBase, Base);
1665}
1666
Alex Lorenz9e7bf162017-04-18 14:33:39 +00001667PragmaClangAttributeSupport::PragmaClangAttributeSupport(
1668 RecordKeeper &Records) {
1669 std::vector<Record *> MetaSubjects =
1670 Records.getAllDerivedDefinitions("AttrSubjectMatcherRule");
1671 auto MapFromSubjectsToRules = [this](const Record *SubjectContainer,
1672 const Record *MetaSubject,
1673 const Record *Constraint = nullptr) {
1674 Rules.emplace_back(MetaSubject, Constraint);
1675 std::vector<Record *> ApplicableSubjects =
1676 SubjectContainer->getValueAsListOfDefs("Subjects");
1677 for (const auto *Subject : ApplicableSubjects) {
1678 bool Inserted =
Alex Lorenz24952fb2017-04-19 15:52:11 +00001679 SubjectsToRules
1680 .try_emplace(Subject, RuleOrAggregateRuleSet::getRule(
1681 AttributeSubjectMatchRule(MetaSubject,
1682 Constraint)))
1683 .second;
Alex Lorenz9e7bf162017-04-18 14:33:39 +00001684 if (!Inserted) {
1685 PrintFatalError("Attribute subject match rules should not represent"
1686 "same attribute subjects.");
1687 }
1688 }
1689 };
1690 for (const auto *MetaSubject : MetaSubjects) {
1691 MapFromSubjectsToRules(MetaSubject, MetaSubject);
1692 std::vector<Record *> Constraints =
1693 MetaSubject->getValueAsListOfDefs("Constraints");
1694 for (const auto *Constraint : Constraints)
1695 MapFromSubjectsToRules(Constraint, MetaSubject, Constraint);
1696 }
Alex Lorenz24952fb2017-04-19 15:52:11 +00001697
1698 std::vector<Record *> Aggregates =
1699 Records.getAllDerivedDefinitions("AttrSubjectMatcherAggregateRule");
1700 std::vector<Record *> DeclNodes = Records.getAllDerivedDefinitions("DDecl");
1701 for (const auto *Aggregate : Aggregates) {
1702 Record *SubjectDecl = Aggregate->getValueAsDef("Subject");
1703
1704 // Gather sub-classes of the aggregate subject that act as attribute
1705 // subject rules.
1706 std::vector<AttributeSubjectMatchRule> Rules;
1707 for (const auto *D : DeclNodes) {
1708 if (doesDeclDeriveFrom(D, SubjectDecl)) {
1709 auto It = SubjectsToRules.find(D);
1710 if (It == SubjectsToRules.end())
1711 continue;
1712 if (!It->second.isRule() || It->second.getRule().isSubRule())
1713 continue; // Assume that the rule will be included as well.
1714 Rules.push_back(It->second.getRule());
1715 }
1716 }
1717
1718 bool Inserted =
1719 SubjectsToRules
1720 .try_emplace(SubjectDecl,
1721 RuleOrAggregateRuleSet::getAggregateRuleSet(Rules))
1722 .second;
1723 if (!Inserted) {
1724 PrintFatalError("Attribute subject match rules should not represent"
1725 "same attribute subjects.");
1726 }
1727 }
Alex Lorenz9e7bf162017-04-18 14:33:39 +00001728}
1729
1730static PragmaClangAttributeSupport &
1731getPragmaAttributeSupport(RecordKeeper &Records) {
1732 static PragmaClangAttributeSupport Instance(Records);
1733 return Instance;
1734}
1735
1736void PragmaClangAttributeSupport::emitMatchRuleList(raw_ostream &OS) {
1737 OS << "#ifndef ATTR_MATCH_SUB_RULE\n";
1738 OS << "#define ATTR_MATCH_SUB_RULE(Value, Spelling, IsAbstract, Parent, "
1739 "IsNegated) "
1740 << "ATTR_MATCH_RULE(Value, Spelling, IsAbstract)\n";
1741 OS << "#endif\n";
1742 for (const auto &Rule : Rules) {
1743 OS << (Rule.isSubRule() ? "ATTR_MATCH_SUB_RULE" : "ATTR_MATCH_RULE") << '(';
1744 OS << Rule.getEnumValueName() << ", \"" << Rule.getSpelling() << "\", "
1745 << Rule.isAbstractRule();
1746 if (Rule.isSubRule())
1747 OS << ", "
1748 << AttributeSubjectMatchRule(Rule.MetaSubject, nullptr).getEnumValue()
1749 << ", " << Rule.isNegatedSubRule();
1750 OS << ")\n";
1751 }
1752 OS << "#undef ATTR_MATCH_SUB_RULE\n";
1753}
1754
1755bool PragmaClangAttributeSupport::isAttributedSupported(
1756 const Record &Attribute) {
1757 if (Attribute.getValueAsBit("ForcePragmaAttributeSupport"))
1758 return true;
1759 // Opt-out rules:
1760 // FIXME: The documentation check should be moved before
1761 // the ForcePragmaAttributeSupport check after annotate is documented.
1762 // No documentation present.
1763 if (Attribute.isValueUnset("Documentation"))
1764 return false;
1765 std::vector<Record *> Docs = Attribute.getValueAsListOfDefs("Documentation");
1766 if (Docs.empty())
1767 return false;
1768 if (Docs.size() == 1 && Docs[0]->getName() == "Undocumented")
1769 return false;
1770 // An attribute requires delayed parsing (LateParsed is on)
1771 if (Attribute.getValueAsBit("LateParsed"))
1772 return false;
1773 // An attribute has no GNU/CXX11 spelling
1774 if (!hasGNUorCXX11Spelling(Attribute))
1775 return false;
1776 // An attribute subject list has a subject that isn't covered by one of the
1777 // subject match rules or has no subjects at all.
1778 if (Attribute.isValueUnset("Subjects"))
1779 return false;
1780 const Record *SubjectObj = Attribute.getValueAsDef("Subjects");
1781 std::vector<Record *> Subjects = SubjectObj->getValueAsListOfDefs("Subjects");
1782 if (Subjects.empty())
1783 return false;
1784 for (const auto *Subject : Subjects) {
1785 if (SubjectsToRules.find(Subject) == SubjectsToRules.end())
1786 return false;
1787 }
1788 return true;
1789}
1790
1791std::string
1792PragmaClangAttributeSupport::generateStrictConformsTo(const Record &Attr,
1793 raw_ostream &OS) {
1794 if (!isAttributedSupported(Attr))
1795 return "nullptr";
1796 // Generate a function that constructs a set of matching rules that describe
1797 // to which declarations the attribute should apply to.
1798 std::string FnName = "matchRulesFor" + Attr.getName().str();
1799 std::stringstream SS;
1800 SS << "static void " << FnName << "(llvm::SmallVectorImpl<std::pair<"
1801 << AttributeSubjectMatchRule::EnumName
1802 << ", bool>> &MatchRules, const LangOptions &LangOpts) {\n";
1803 if (Attr.isValueUnset("Subjects")) {
1804 SS << "}\n\n";
1805 OS << SS.str();
1806 return FnName;
1807 }
1808 const Record *SubjectObj = Attr.getValueAsDef("Subjects");
1809 std::vector<Record *> Subjects = SubjectObj->getValueAsListOfDefs("Subjects");
1810 for (const auto *Subject : Subjects) {
1811 auto It = SubjectsToRules.find(Subject);
1812 assert(It != SubjectsToRules.end() &&
1813 "This attribute is unsupported by #pragma clang attribute");
Alex Lorenz24952fb2017-04-19 15:52:11 +00001814 for (const auto &Rule : It->getSecond().getAggregateRuleSet()) {
1815 // The rule might be language specific, so only subtract it from the given
1816 // rules if the specific language options are specified.
1817 std::vector<Record *> LangOpts = Rule.getLangOpts();
1818 SS << " MatchRules.push_back(std::make_pair(" << Rule.getEnumValue()
1819 << ", /*IsSupported=*/";
1820 if (!LangOpts.empty()) {
1821 for (auto I = LangOpts.begin(), E = LangOpts.end(); I != E; ++I) {
1822 std::string Part = (*I)->getValueAsString("Name");
1823 if ((*I)->getValueAsBit("Negated"))
1824 SS << "!";
1825 SS << "LangOpts." + Part;
1826 if (I + 1 != E)
1827 SS << " || ";
1828 }
1829 } else
1830 SS << "true";
1831 SS << "));\n";
1832 }
Alex Lorenz9e7bf162017-04-18 14:33:39 +00001833 }
1834 SS << "}\n\n";
1835 OS << SS.str();
1836 return FnName;
1837}
1838
1839void PragmaClangAttributeSupport::generateParsingHelpers(raw_ostream &OS) {
1840 // Generate routines that check the names of sub-rules.
1841 OS << "Optional<attr::SubjectMatchRule> "
1842 "defaultIsAttributeSubjectMatchSubRuleFor(StringRef, bool) {\n";
1843 OS << " return None;\n";
1844 OS << "}\n\n";
1845
1846 std::map<const Record *, std::vector<AttributeSubjectMatchRule>>
1847 SubMatchRules;
1848 for (const auto &Rule : Rules) {
1849 if (!Rule.isSubRule())
1850 continue;
1851 SubMatchRules[Rule.MetaSubject].push_back(Rule);
1852 }
1853
1854 for (const auto &SubMatchRule : SubMatchRules) {
1855 OS << "Optional<attr::SubjectMatchRule> isAttributeSubjectMatchSubRuleFor_"
1856 << SubMatchRule.first->getValueAsString("Name")
1857 << "(StringRef Name, bool IsUnless) {\n";
1858 OS << " if (IsUnless)\n";
1859 OS << " return "
1860 "llvm::StringSwitch<Optional<attr::SubjectMatchRule>>(Name).\n";
1861 for (const auto &Rule : SubMatchRule.second) {
1862 if (Rule.isNegatedSubRule())
1863 OS << " Case(\"" << Rule.getName() << "\", " << Rule.getEnumValue()
1864 << ").\n";
1865 }
1866 OS << " Default(None);\n";
1867 OS << " return "
1868 "llvm::StringSwitch<Optional<attr::SubjectMatchRule>>(Name).\n";
1869 for (const auto &Rule : SubMatchRule.second) {
1870 if (!Rule.isNegatedSubRule())
1871 OS << " Case(\"" << Rule.getName() << "\", " << Rule.getEnumValue()
1872 << ").\n";
1873 }
1874 OS << " Default(None);\n";
1875 OS << "}\n\n";
1876 }
1877
1878 // Generate the function that checks for the top-level rules.
1879 OS << "std::pair<Optional<attr::SubjectMatchRule>, "
1880 "Optional<attr::SubjectMatchRule> (*)(StringRef, "
1881 "bool)> isAttributeSubjectMatchRule(StringRef Name) {\n";
1882 OS << " return "
1883 "llvm::StringSwitch<std::pair<Optional<attr::SubjectMatchRule>, "
1884 "Optional<attr::SubjectMatchRule> (*) (StringRef, "
1885 "bool)>>(Name).\n";
1886 for (const auto &Rule : Rules) {
1887 if (Rule.isSubRule())
1888 continue;
1889 std::string SubRuleFunction;
1890 if (SubMatchRules.count(Rule.MetaSubject))
1891 SubRuleFunction = "isAttributeSubjectMatchSubRuleFor_" + Rule.getName();
1892 else
1893 SubRuleFunction = "defaultIsAttributeSubjectMatchSubRuleFor";
1894 OS << " Case(\"" << Rule.getName() << "\", std::make_pair("
1895 << Rule.getEnumValue() << ", " << SubRuleFunction << ")).\n";
1896 }
1897 OS << " Default(std::make_pair(None, "
1898 "defaultIsAttributeSubjectMatchSubRuleFor));\n";
1899 OS << "}\n\n";
1900
1901 // Generate the function that checks for the submatch rules.
1902 OS << "const char *validAttributeSubjectMatchSubRules("
1903 << AttributeSubjectMatchRule::EnumName << " Rule) {\n";
1904 OS << " switch (Rule) {\n";
1905 for (const auto &SubMatchRule : SubMatchRules) {
1906 OS << " case "
1907 << AttributeSubjectMatchRule(SubMatchRule.first, nullptr).getEnumValue()
1908 << ":\n";
1909 OS << " return \"'";
1910 bool IsFirst = true;
1911 for (const auto &Rule : SubMatchRule.second) {
1912 if (!IsFirst)
1913 OS << ", '";
1914 IsFirst = false;
1915 if (Rule.isNegatedSubRule())
1916 OS << "unless(";
1917 OS << Rule.getName();
1918 if (Rule.isNegatedSubRule())
1919 OS << ')';
1920 OS << "'";
1921 }
1922 OS << "\";\n";
1923 }
1924 OS << " default: return nullptr;\n";
1925 OS << " }\n";
1926 OS << "}\n\n";
1927}
1928
George Burgess IV1881a572016-12-01 00:13:18 +00001929template <typename Fn>
1930static void forEachUniqueSpelling(const Record &Attr, Fn &&F) {
1931 std::vector<FlattenedSpelling> Spellings = GetFlattenedSpellings(Attr);
1932 SmallDenseSet<StringRef, 8> Seen;
1933 for (const FlattenedSpelling &S : Spellings) {
1934 if (Seen.insert(S.name()).second)
1935 F(S);
1936 }
1937}
1938
Aaron Ballman35db2b32014-01-29 22:13:45 +00001939/// \brief Emits the first-argument-is-type property for attributes.
1940static void emitClangAttrTypeArgList(RecordKeeper &Records, raw_ostream &OS) {
1941 OS << "#if defined(CLANG_ATTR_TYPE_ARG_LIST)\n";
1942 std::vector<Record *> Attrs = Records.getAllDerivedDefinitions("Attr");
1943
Aaron Ballman2f22b942014-05-20 19:47:14 +00001944 for (const auto *Attr : Attrs) {
Aaron Ballman35db2b32014-01-29 22:13:45 +00001945 // Determine whether the first argument is a type.
Aaron Ballmanb097f7fe2014-03-02 17:38:37 +00001946 std::vector<Record *> Args = Attr->getValueAsListOfDefs("Args");
Aaron Ballman35db2b32014-01-29 22:13:45 +00001947 if (Args.empty())
1948 continue;
1949
Craig Topper25761242016-01-18 19:52:54 +00001950 if (Args[0]->getSuperClasses().back().first->getName() != "TypeArgument")
Aaron Ballman35db2b32014-01-29 22:13:45 +00001951 continue;
1952
1953 // All these spellings take a single type argument.
George Burgess IV1881a572016-12-01 00:13:18 +00001954 forEachUniqueSpelling(*Attr, [&](const FlattenedSpelling &S) {
1955 OS << ".Case(\"" << S.name() << "\", " << "true" << ")\n";
1956 });
Aaron Ballman35db2b32014-01-29 22:13:45 +00001957 }
1958 OS << "#endif // CLANG_ATTR_TYPE_ARG_LIST\n\n";
1959}
1960
1961/// \brief Emits the parse-arguments-in-unevaluated-context property for
1962/// attributes.
1963static void emitClangAttrArgContextList(RecordKeeper &Records, raw_ostream &OS) {
1964 OS << "#if defined(CLANG_ATTR_ARG_CONTEXT_LIST)\n";
1965 ParsedAttrMap Attrs = getParsedAttrList(Records);
Aaron Ballmanb097f7fe2014-03-02 17:38:37 +00001966 for (const auto &I : Attrs) {
1967 const Record &Attr = *I.second;
Aaron Ballman35db2b32014-01-29 22:13:45 +00001968
1969 if (!Attr.getValueAsBit("ParseArgumentsAsUnevaluated"))
1970 continue;
1971
1972 // All these spellings take are parsed unevaluated.
George Burgess IV1881a572016-12-01 00:13:18 +00001973 forEachUniqueSpelling(Attr, [&](const FlattenedSpelling &S) {
1974 OS << ".Case(\"" << S.name() << "\", " << "true" << ")\n";
1975 });
Aaron Ballman35db2b32014-01-29 22:13:45 +00001976 }
1977 OS << "#endif // CLANG_ATTR_ARG_CONTEXT_LIST\n\n";
1978}
1979
1980static bool isIdentifierArgument(Record *Arg) {
1981 return !Arg->getSuperClasses().empty() &&
Craig Topper25761242016-01-18 19:52:54 +00001982 llvm::StringSwitch<bool>(Arg->getSuperClasses().back().first->getName())
Aaron Ballman35db2b32014-01-29 22:13:45 +00001983 .Case("IdentifierArgument", true)
1984 .Case("EnumArgument", true)
Aaron Ballman55ef1512014-12-19 16:42:04 +00001985 .Case("VariadicEnumArgument", true)
Aaron Ballman35db2b32014-01-29 22:13:45 +00001986 .Default(false);
1987}
1988
1989// Emits the first-argument-is-identifier property for attributes.
1990static void emitClangAttrIdentifierArgList(RecordKeeper &Records, raw_ostream &OS) {
1991 OS << "#if defined(CLANG_ATTR_IDENTIFIER_ARG_LIST)\n";
1992 std::vector<Record*> Attrs = Records.getAllDerivedDefinitions("Attr");
1993
Aaron Ballman2f22b942014-05-20 19:47:14 +00001994 for (const auto *Attr : Attrs) {
Aaron Ballman35db2b32014-01-29 22:13:45 +00001995 // Determine whether the first argument is an identifier.
Aaron Ballmanb097f7fe2014-03-02 17:38:37 +00001996 std::vector<Record *> Args = Attr->getValueAsListOfDefs("Args");
Aaron Ballman35db2b32014-01-29 22:13:45 +00001997 if (Args.empty() || !isIdentifierArgument(Args[0]))
1998 continue;
1999
2000 // All these spellings take an identifier argument.
George Burgess IV1881a572016-12-01 00:13:18 +00002001 forEachUniqueSpelling(*Attr, [&](const FlattenedSpelling &S) {
2002 OS << ".Case(\"" << S.name() << "\", " << "true" << ")\n";
2003 });
Aaron Ballman35db2b32014-01-29 22:13:45 +00002004 }
2005 OS << "#endif // CLANG_ATTR_IDENTIFIER_ARG_LIST\n\n";
2006}
2007
Jakob Stoklund Olesen995e0e12012-06-13 05:12:41 +00002008namespace clang {
2009
2010// Emits the class definitions for attributes.
2011void EmitClangAttrClass(RecordKeeper &Records, raw_ostream &OS) {
Dmitri Gribenko6b11fca2013-01-30 21:54:20 +00002012 emitSourceFileHeader("Attribute classes' definitions", OS);
2013
Peter Collingbournebee583f2011-10-06 13:03:08 +00002014 OS << "#ifndef LLVM_CLANG_ATTR_CLASSES_INC\n";
2015 OS << "#define LLVM_CLANG_ATTR_CLASSES_INC\n\n";
2016
2017 std::vector<Record*> Attrs = Records.getAllDerivedDefinitions("Attr");
2018
Aaron Ballman2f22b942014-05-20 19:47:14 +00002019 for (const auto *Attr : Attrs) {
2020 const Record &R = *Attr;
Aaron Ballman06bd44b2014-02-17 18:23:02 +00002021
2022 // FIXME: Currently, documentation is generated as-needed due to the fact
2023 // that there is no way to allow a generated project "reach into" the docs
2024 // directory (for instance, it may be an out-of-tree build). However, we want
2025 // to ensure that every attribute has a Documentation field, and produce an
2026 // error if it has been neglected. Otherwise, the on-demand generation which
2027 // happens server-side will fail. This code is ensuring that functionality,
2028 // even though this Emitter doesn't technically need the documentation.
2029 // When attribute documentation can be generated as part of the build
2030 // itself, this code can be removed.
2031 (void)R.getValueAsListOfDefs("Documentation");
Douglas Gregorb2daf842012-05-02 15:56:52 +00002032
2033 if (!R.getValueAsBit("ASTNode"))
2034 continue;
2035
Craig Topper25761242016-01-18 19:52:54 +00002036 ArrayRef<std::pair<Record *, SMRange>> Supers = R.getSuperClasses();
Aaron Ballman0979e9e2013-07-30 01:44:15 +00002037 assert(!Supers.empty() && "Forgot to specify a superclass for the attr");
Aaron Ballman0979e9e2013-07-30 01:44:15 +00002038 std::string SuperName;
David Majnemerf7e36092016-06-23 00:15:04 +00002039 for (const auto &Super : llvm::reverse(Supers)) {
Craig Topper25761242016-01-18 19:52:54 +00002040 const Record *R = Super.first;
2041 if (R->getName() != "TargetSpecificAttr" && SuperName.empty())
2042 SuperName = R->getName();
Aaron Ballman0979e9e2013-07-30 01:44:15 +00002043 }
Peter Collingbournebee583f2011-10-06 13:03:08 +00002044
2045 OS << "class " << R.getName() << "Attr : public " << SuperName << " {\n";
2046
2047 std::vector<Record*> ArgRecords = R.getValueAsListOfDefs("Args");
Aaron Ballman8f1439b2014-03-05 16:49:55 +00002048 std::vector<std::unique_ptr<Argument>> Args;
Peter Collingbournebee583f2011-10-06 13:03:08 +00002049 Args.reserve(ArgRecords.size());
2050
John McCalla62c1a92015-10-28 00:17:34 +00002051 bool HasOptArg = false;
2052 bool HasFakeArg = false;
Aaron Ballman2f22b942014-05-20 19:47:14 +00002053 for (const auto *ArgRecord : ArgRecords) {
Aaron Ballman8f1439b2014-03-05 16:49:55 +00002054 Args.emplace_back(createArgument(*ArgRecord, R.getName()));
2055 Args.back()->writeDeclarations(OS);
Peter Collingbournebee583f2011-10-06 13:03:08 +00002056 OS << "\n\n";
John McCalla62c1a92015-10-28 00:17:34 +00002057
2058 // For these purposes, fake takes priority over optional.
2059 if (Args.back()->isFake()) {
2060 HasFakeArg = true;
2061 } else if (Args.back()->isOptional()) {
2062 HasOptArg = true;
2063 }
Peter Collingbournebee583f2011-10-06 13:03:08 +00002064 }
2065
Eugene Zelenkoa9f3e902016-05-12 22:27:08 +00002066 OS << "public:\n";
Aaron Ballman36a53502014-01-16 13:03:14 +00002067
Aaron Ballmanc669cc02014-01-27 22:10:04 +00002068 std::vector<FlattenedSpelling> Spellings = GetFlattenedSpellings(R);
Aaron Ballman36a53502014-01-16 13:03:14 +00002069
2070 // If there are zero or one spellings, all spelling-related functionality
2071 // can be elided. If all of the spellings share the same name, the spelling
2072 // functionality can also be elided.
2073 bool ElideSpelling = (Spellings.size() <= 1) ||
2074 SpellingNamesAreCommon(Spellings);
2075
Aaron Ballman81cb8cb2014-01-24 21:32:49 +00002076 // This maps spelling index values to semantic Spelling enumerants.
2077 SemanticSpellingMap SemanticToSyntacticMap;
Aaron Ballman36a53502014-01-16 13:03:14 +00002078
Aaron Ballman81cb8cb2014-01-24 21:32:49 +00002079 if (!ElideSpelling)
2080 OS << CreateSemanticSpellings(Spellings, SemanticToSyntacticMap);
Aaron Ballman36a53502014-01-16 13:03:14 +00002081
John McCalla62c1a92015-10-28 00:17:34 +00002082 // Emit CreateImplicit factory methods.
2083 auto emitCreateImplicit = [&](bool emitFake) {
2084 OS << " static " << R.getName() << "Attr *CreateImplicit(";
2085 OS << "ASTContext &Ctx";
2086 if (!ElideSpelling)
2087 OS << ", Spelling S";
2088 for (auto const &ai : Args) {
2089 if (ai->isFake() && !emitFake) continue;
2090 OS << ", ";
2091 ai->writeCtorParameters(OS);
2092 }
2093 OS << ", SourceRange Loc = SourceRange()";
2094 OS << ") {\n";
Eugene Zelenko5f02b772015-12-08 18:49:01 +00002095 OS << " auto *A = new (Ctx) " << R.getName();
John McCalla62c1a92015-10-28 00:17:34 +00002096 OS << "Attr(Loc, Ctx, ";
2097 for (auto const &ai : Args) {
2098 if (ai->isFake() && !emitFake) continue;
2099 ai->writeImplicitCtorArgs(OS);
2100 OS << ", ";
2101 }
2102 OS << (ElideSpelling ? "0" : "S") << ");\n";
2103 OS << " A->setImplicit(true);\n";
2104 OS << " return A;\n }\n\n";
2105 };
Aaron Ballman36a53502014-01-16 13:03:14 +00002106
John McCalla62c1a92015-10-28 00:17:34 +00002107 // Emit a CreateImplicit that takes all the arguments.
2108 emitCreateImplicit(true);
2109
2110 // Emit a CreateImplicit that takes all the non-fake arguments.
2111 if (HasFakeArg) {
2112 emitCreateImplicit(false);
Peter Collingbournebee583f2011-10-06 13:03:08 +00002113 }
Michael Han99315932013-01-24 16:46:58 +00002114
John McCalla62c1a92015-10-28 00:17:34 +00002115 // Emit constructors.
2116 auto emitCtor = [&](bool emitOpt, bool emitFake) {
2117 auto shouldEmitArg = [=](const std::unique_ptr<Argument> &arg) {
2118 if (arg->isFake()) return emitFake;
2119 if (arg->isOptional()) return emitOpt;
2120 return true;
2121 };
Michael Han99315932013-01-24 16:46:58 +00002122
Aaron Ballman8ee40b72013-09-09 23:33:17 +00002123 OS << " " << R.getName() << "Attr(SourceRange R, ASTContext &Ctx\n";
Aaron Ballman8f1439b2014-03-05 16:49:55 +00002124 for (auto const &ai : Args) {
John McCalla62c1a92015-10-28 00:17:34 +00002125 if (!shouldEmitArg(ai)) continue;
2126 OS << " , ";
2127 ai->writeCtorParameters(OS);
2128 OS << "\n";
Aaron Ballman8ee40b72013-09-09 23:33:17 +00002129 }
2130
2131 OS << " , ";
Aaron Ballman36a53502014-01-16 13:03:14 +00002132 OS << "unsigned SI\n";
Aaron Ballman8ee40b72013-09-09 23:33:17 +00002133
2134 OS << " )\n";
Benjamin Kramer845e32c2015-03-19 16:06:49 +00002135 OS << " : " << SuperName << "(attr::" << R.getName() << ", R, SI, "
Eugene Zelenkoa9f3e902016-05-12 22:27:08 +00002136 << ( R.getValueAsBit("LateParsed") ? "true" : "false" ) << ", "
2137 << ( R.getValueAsBit("DuplicatesAllowedWhileMerging") ? "true" : "false" ) << ")\n";
Aaron Ballman8ee40b72013-09-09 23:33:17 +00002138
Aaron Ballman8f1439b2014-03-05 16:49:55 +00002139 for (auto const &ai : Args) {
Aaron Ballman8ee40b72013-09-09 23:33:17 +00002140 OS << " , ";
John McCalla62c1a92015-10-28 00:17:34 +00002141 if (!shouldEmitArg(ai)) {
2142 ai->writeCtorDefaultInitializers(OS);
2143 } else {
2144 ai->writeCtorInitializers(OS);
2145 }
Aaron Ballman8ee40b72013-09-09 23:33:17 +00002146 OS << "\n";
2147 }
2148
2149 OS << " {\n";
2150
Aaron Ballman8f1439b2014-03-05 16:49:55 +00002151 for (auto const &ai : Args) {
John McCalla62c1a92015-10-28 00:17:34 +00002152 if (!shouldEmitArg(ai)) continue;
2153 ai->writeCtorBody(OS);
Aaron Ballman8ee40b72013-09-09 23:33:17 +00002154 }
2155 OS << " }\n\n";
John McCalla62c1a92015-10-28 00:17:34 +00002156 };
2157
2158 // Emit a constructor that includes all the arguments.
2159 // This is necessary for cloning.
2160 emitCtor(true, true);
2161
2162 // Emit a constructor that takes all the non-fake arguments.
2163 if (HasFakeArg) {
2164 emitCtor(true, false);
2165 }
2166
2167 // Emit a constructor that takes all the non-fake, non-optional arguments.
2168 if (HasOptArg) {
2169 emitCtor(false, false);
Aaron Ballman8ee40b72013-09-09 23:33:17 +00002170 }
2171
Benjamin Kramer845e32c2015-03-19 16:06:49 +00002172 OS << " " << R.getName() << "Attr *clone(ASTContext &C) const;\n";
Craig Toppercbce6e92014-03-11 06:22:39 +00002173 OS << " void printPretty(raw_ostream &OS,\n"
Benjamin Kramer845e32c2015-03-19 16:06:49 +00002174 << " const PrintingPolicy &Policy) const;\n";
2175 OS << " const char *getSpelling() const;\n";
Aaron Ballman81cb8cb2014-01-24 21:32:49 +00002176
2177 if (!ElideSpelling) {
2178 assert(!SemanticToSyntacticMap.empty() && "Empty semantic mapping list");
2179 OS << " Spelling getSemanticSpelling() const {\n";
2180 WriteSemanticSpellingSwitch("SpellingListIndex", SemanticToSyntacticMap,
2181 OS);
2182 OS << " }\n";
2183 }
Peter Collingbournebee583f2011-10-06 13:03:08 +00002184
Michael Hanaf02bbe2013-02-01 01:19:17 +00002185 writeAttrAccessorDefinition(R, OS);
2186
Aaron Ballman8f1439b2014-03-05 16:49:55 +00002187 for (auto const &ai : Args) {
Aaron Ballmanb097f7fe2014-03-02 17:38:37 +00002188 ai->writeAccessors(OS);
Peter Collingbournebee583f2011-10-06 13:03:08 +00002189 OS << "\n\n";
Aaron Ballman682ee422013-09-11 19:47:58 +00002190
John McCalla62c1a92015-10-28 00:17:34 +00002191 // Don't write conversion routines for fake arguments.
2192 if (ai->isFake()) continue;
2193
Aaron Ballmanb097f7fe2014-03-02 17:38:37 +00002194 if (ai->isEnumArg())
Aaron Ballman8f1439b2014-03-05 16:49:55 +00002195 static_cast<const EnumArgument *>(ai.get())->writeConversion(OS);
Aaron Ballmanb097f7fe2014-03-02 17:38:37 +00002196 else if (ai->isVariadicEnumArg())
Aaron Ballman8f1439b2014-03-05 16:49:55 +00002197 static_cast<const VariadicEnumArgument *>(ai.get())
2198 ->writeConversion(OS);
Peter Collingbournebee583f2011-10-06 13:03:08 +00002199 }
2200
Jakob Stoklund Olesen6f2288b62012-01-13 04:57:47 +00002201 OS << R.getValueAsString("AdditionalMembers");
Peter Collingbournebee583f2011-10-06 13:03:08 +00002202 OS << "\n\n";
2203
2204 OS << " static bool classof(const Attr *A) { return A->getKind() == "
2205 << "attr::" << R.getName() << "; }\n";
DeLesley Hutchins30398dd2012-01-20 22:50:54 +00002206
Peter Collingbournebee583f2011-10-06 13:03:08 +00002207 OS << "};\n\n";
2208 }
2209
Eugene Zelenko5f02b772015-12-08 18:49:01 +00002210 OS << "#endif // LLVM_CLANG_ATTR_CLASSES_INC\n";
Peter Collingbournebee583f2011-10-06 13:03:08 +00002211}
2212
Jakob Stoklund Olesen995e0e12012-06-13 05:12:41 +00002213// Emits the class method definitions for attributes.
2214void EmitClangAttrImpl(RecordKeeper &Records, raw_ostream &OS) {
Dmitri Gribenko6b11fca2013-01-30 21:54:20 +00002215 emitSourceFileHeader("Attribute classes' member function definitions", OS);
Peter Collingbournebee583f2011-10-06 13:03:08 +00002216
2217 std::vector<Record*> Attrs = Records.getAllDerivedDefinitions("Attr");
Peter Collingbournebee583f2011-10-06 13:03:08 +00002218
Aaron Ballman2f22b942014-05-20 19:47:14 +00002219 for (auto *Attr : Attrs) {
2220 Record &R = *Attr;
Douglas Gregorb2daf842012-05-02 15:56:52 +00002221
2222 if (!R.getValueAsBit("ASTNode"))
2223 continue;
Peter Collingbournebee583f2011-10-06 13:03:08 +00002224
Aaron Ballman8f1439b2014-03-05 16:49:55 +00002225 std::vector<Record*> ArgRecords = R.getValueAsListOfDefs("Args");
2226 std::vector<std::unique_ptr<Argument>> Args;
Aaron Ballman2f22b942014-05-20 19:47:14 +00002227 for (const auto *Arg : ArgRecords)
2228 Args.emplace_back(createArgument(*Arg, R.getName()));
Aaron Ballman8f1439b2014-03-05 16:49:55 +00002229
2230 for (auto const &ai : Args)
Aaron Ballmanb097f7fe2014-03-02 17:38:37 +00002231 ai->writeAccessorDefinitions(OS);
Peter Collingbournebee583f2011-10-06 13:03:08 +00002232
2233 OS << R.getName() << "Attr *" << R.getName()
2234 << "Attr::clone(ASTContext &C) const {\n";
Hans Wennborg613807b2014-05-31 01:30:30 +00002235 OS << " auto *A = new (C) " << R.getName() << "Attr(getLocation(), C";
Aaron Ballman8f1439b2014-03-05 16:49:55 +00002236 for (auto const &ai : Args) {
Peter Collingbournebee583f2011-10-06 13:03:08 +00002237 OS << ", ";
Aaron Ballmanb097f7fe2014-03-02 17:38:37 +00002238 ai->writeCloneArgs(OS);
Peter Collingbournebee583f2011-10-06 13:03:08 +00002239 }
Hans Wennborg613807b2014-05-31 01:30:30 +00002240 OS << ", getSpellingListIndex());\n";
2241 OS << " A->Inherited = Inherited;\n";
2242 OS << " A->IsPackExpansion = IsPackExpansion;\n";
2243 OS << " A->Implicit = Implicit;\n";
2244 OS << " return A;\n}\n\n";
Douglas Gregor49ccfaa2011-11-19 19:22:57 +00002245
Michael Han99315932013-01-24 16:46:58 +00002246 writePrettyPrintFunction(R, Args, OS);
Aaron Ballman3e424b52013-12-26 18:30:57 +00002247 writeGetSpellingFunction(R, OS);
Peter Collingbournebee583f2011-10-06 13:03:08 +00002248 }
Benjamin Kramer845e32c2015-03-19 16:06:49 +00002249
2250 // Instead of relying on virtual dispatch we just create a huge dispatch
2251 // switch. This is both smaller and faster than virtual functions.
2252 auto EmitFunc = [&](const char *Method) {
2253 OS << " switch (getKind()) {\n";
2254 for (const auto *Attr : Attrs) {
2255 const Record &R = *Attr;
2256 if (!R.getValueAsBit("ASTNode"))
2257 continue;
2258
2259 OS << " case attr::" << R.getName() << ":\n";
2260 OS << " return cast<" << R.getName() << "Attr>(this)->" << Method
2261 << ";\n";
2262 }
Benjamin Kramer845e32c2015-03-19 16:06:49 +00002263 OS << " }\n";
2264 OS << " llvm_unreachable(\"Unexpected attribute kind!\");\n";
2265 OS << "}\n\n";
2266 };
2267
2268 OS << "const char *Attr::getSpelling() const {\n";
2269 EmitFunc("getSpelling()");
2270
2271 OS << "Attr *Attr::clone(ASTContext &C) const {\n";
2272 EmitFunc("clone(C)");
2273
2274 OS << "void Attr::printPretty(raw_ostream &OS, "
2275 "const PrintingPolicy &Policy) const {\n";
2276 EmitFunc("printPretty(OS, Policy)");
Peter Collingbournebee583f2011-10-06 13:03:08 +00002277}
2278
Jakob Stoklund Olesen995e0e12012-06-13 05:12:41 +00002279} // end namespace clang
2280
John McCall2225c8b2016-03-01 00:18:05 +00002281static void emitAttrList(raw_ostream &OS, StringRef Class,
Peter Collingbournebee583f2011-10-06 13:03:08 +00002282 const std::vector<Record*> &AttrList) {
John McCall2225c8b2016-03-01 00:18:05 +00002283 for (auto Cur : AttrList) {
2284 OS << Class << "(" << Cur->getName() << ")\n";
Peter Collingbournebee583f2011-10-06 13:03:08 +00002285 }
2286}
2287
Tyler Nowickic724a83e2014-10-12 20:46:07 +00002288// Determines if an attribute has a Pragma spelling.
2289static bool AttrHasPragmaSpelling(const Record *R) {
2290 std::vector<FlattenedSpelling> Spellings = GetFlattenedSpellings(*R);
George Burgess IV1881a572016-12-01 00:13:18 +00002291 return llvm::find_if(Spellings, [](const FlattenedSpelling &S) {
Tyler Nowickic724a83e2014-10-12 20:46:07 +00002292 return S.variety() == "Pragma";
2293 }) != Spellings.end();
2294}
Jakob Stoklund Olesen995e0e12012-06-13 05:12:41 +00002295
John McCall2225c8b2016-03-01 00:18:05 +00002296namespace {
Eugene Zelenkoa9f3e902016-05-12 22:27:08 +00002297
John McCall2225c8b2016-03-01 00:18:05 +00002298 struct AttrClassDescriptor {
2299 const char * const MacroName;
2300 const char * const TableGenName;
2301 };
Eugene Zelenkoa9f3e902016-05-12 22:27:08 +00002302
2303} // end anonymous namespace
John McCall2225c8b2016-03-01 00:18:05 +00002304
2305static const AttrClassDescriptor AttrClassDescriptors[] = {
2306 { "ATTR", "Attr" },
Richard Smith4f902c72016-03-08 00:32:55 +00002307 { "STMT_ATTR", "StmtAttr" },
John McCall2225c8b2016-03-01 00:18:05 +00002308 { "INHERITABLE_ATTR", "InheritableAttr" },
John McCall477f2bb2016-03-03 06:39:32 +00002309 { "INHERITABLE_PARAM_ATTR", "InheritableParamAttr" },
2310 { "PARAMETER_ABI_ATTR", "ParameterABIAttr" }
John McCall2225c8b2016-03-01 00:18:05 +00002311};
2312
2313static void emitDefaultDefine(raw_ostream &OS, StringRef name,
2314 const char *superName) {
2315 OS << "#ifndef " << name << "\n";
2316 OS << "#define " << name << "(NAME) ";
2317 if (superName) OS << superName << "(NAME)";
2318 OS << "\n#endif\n\n";
2319}
2320
2321namespace {
Eugene Zelenkoa9f3e902016-05-12 22:27:08 +00002322
John McCall2225c8b2016-03-01 00:18:05 +00002323 /// A class of attributes.
2324 struct AttrClass {
2325 const AttrClassDescriptor &Descriptor;
2326 Record *TheRecord;
2327 AttrClass *SuperClass = nullptr;
2328 std::vector<AttrClass*> SubClasses;
2329 std::vector<Record*> Attrs;
2330
2331 AttrClass(const AttrClassDescriptor &Descriptor, Record *R)
2332 : Descriptor(Descriptor), TheRecord(R) {}
2333
2334 void emitDefaultDefines(raw_ostream &OS) const {
2335 // Default the macro unless this is a root class (i.e. Attr).
2336 if (SuperClass) {
2337 emitDefaultDefine(OS, Descriptor.MacroName,
2338 SuperClass->Descriptor.MacroName);
2339 }
2340 }
2341
2342 void emitUndefs(raw_ostream &OS) const {
2343 OS << "#undef " << Descriptor.MacroName << "\n";
2344 }
2345
2346 void emitAttrList(raw_ostream &OS) const {
2347 for (auto SubClass : SubClasses) {
2348 SubClass->emitAttrList(OS);
2349 }
2350
2351 ::emitAttrList(OS, Descriptor.MacroName, Attrs);
2352 }
2353
2354 void classifyAttrOnRoot(Record *Attr) {
2355 bool result = classifyAttr(Attr);
2356 assert(result && "failed to classify on root"); (void) result;
2357 }
2358
2359 void emitAttrRange(raw_ostream &OS) const {
2360 OS << "ATTR_RANGE(" << Descriptor.TableGenName
2361 << ", " << getFirstAttr()->getName()
2362 << ", " << getLastAttr()->getName() << ")\n";
2363 }
2364
2365 private:
2366 bool classifyAttr(Record *Attr) {
2367 // Check all the subclasses.
2368 for (auto SubClass : SubClasses) {
2369 if (SubClass->classifyAttr(Attr))
2370 return true;
2371 }
2372
2373 // It's not more specific than this class, but it might still belong here.
2374 if (Attr->isSubClassOf(TheRecord)) {
2375 Attrs.push_back(Attr);
2376 return true;
2377 }
2378
2379 return false;
2380 }
2381
2382 Record *getFirstAttr() const {
2383 if (!SubClasses.empty())
2384 return SubClasses.front()->getFirstAttr();
2385 return Attrs.front();
2386 }
2387
2388 Record *getLastAttr() const {
2389 if (!Attrs.empty())
2390 return Attrs.back();
2391 return SubClasses.back()->getLastAttr();
2392 }
2393 };
2394
2395 /// The entire hierarchy of attribute classes.
2396 class AttrClassHierarchy {
2397 std::vector<std::unique_ptr<AttrClass>> Classes;
Eugene Zelenkoa9f3e902016-05-12 22:27:08 +00002398
John McCall2225c8b2016-03-01 00:18:05 +00002399 public:
2400 AttrClassHierarchy(RecordKeeper &Records) {
2401 // Find records for all the classes.
2402 for (auto &Descriptor : AttrClassDescriptors) {
2403 Record *ClassRecord = Records.getClass(Descriptor.TableGenName);
2404 AttrClass *Class = new AttrClass(Descriptor, ClassRecord);
2405 Classes.emplace_back(Class);
2406 }
2407
2408 // Link up the hierarchy.
2409 for (auto &Class : Classes) {
2410 if (AttrClass *SuperClass = findSuperClass(Class->TheRecord)) {
2411 Class->SuperClass = SuperClass;
2412 SuperClass->SubClasses.push_back(Class.get());
2413 }
2414 }
2415
2416#ifndef NDEBUG
2417 for (auto i = Classes.begin(), e = Classes.end(); i != e; ++i) {
2418 assert((i == Classes.begin()) == ((*i)->SuperClass == nullptr) &&
2419 "only the first class should be a root class!");
2420 }
2421#endif
2422 }
2423
2424 void emitDefaultDefines(raw_ostream &OS) const {
2425 for (auto &Class : Classes) {
2426 Class->emitDefaultDefines(OS);
2427 }
2428 }
2429
2430 void emitUndefs(raw_ostream &OS) const {
2431 for (auto &Class : Classes) {
2432 Class->emitUndefs(OS);
2433 }
2434 }
2435
2436 void emitAttrLists(raw_ostream &OS) const {
2437 // Just start from the root class.
2438 Classes[0]->emitAttrList(OS);
2439 }
2440
2441 void emitAttrRanges(raw_ostream &OS) const {
2442 for (auto &Class : Classes)
2443 Class->emitAttrRange(OS);
2444 }
2445
2446 void classifyAttr(Record *Attr) {
2447 // Add the attribute to the root class.
2448 Classes[0]->classifyAttrOnRoot(Attr);
2449 }
2450
2451 private:
2452 AttrClass *findClassByRecord(Record *R) const {
2453 for (auto &Class : Classes) {
2454 if (Class->TheRecord == R)
2455 return Class.get();
2456 }
2457 return nullptr;
2458 }
2459
2460 AttrClass *findSuperClass(Record *R) const {
2461 // TableGen flattens the superclass list, so we just need to walk it
2462 // in reverse.
2463 auto SuperClasses = R->getSuperClasses();
2464 for (signed i = 0, e = SuperClasses.size(); i != e; ++i) {
2465 auto SuperClass = findClassByRecord(SuperClasses[e - i - 1].first);
2466 if (SuperClass) return SuperClass;
2467 }
2468 return nullptr;
2469 }
2470 };
Eugene Zelenkoa9f3e902016-05-12 22:27:08 +00002471
2472} // end anonymous namespace
John McCall2225c8b2016-03-01 00:18:05 +00002473
Tyler Nowickic724a83e2014-10-12 20:46:07 +00002474namespace clang {
Eugene Zelenkoa9f3e902016-05-12 22:27:08 +00002475
Jakob Stoklund Olesen995e0e12012-06-13 05:12:41 +00002476// Emits the enumeration list for attributes.
2477void EmitClangAttrList(RecordKeeper &Records, raw_ostream &OS) {
Dmitri Gribenko6b11fca2013-01-30 21:54:20 +00002478 emitSourceFileHeader("List of all attributes that Clang recognizes", OS);
Peter Collingbournebee583f2011-10-06 13:03:08 +00002479
John McCall2225c8b2016-03-01 00:18:05 +00002480 AttrClassHierarchy Hierarchy(Records);
Peter Collingbournebee583f2011-10-06 13:03:08 +00002481
John McCall2225c8b2016-03-01 00:18:05 +00002482 // Add defaulting macro definitions.
2483 Hierarchy.emitDefaultDefines(OS);
2484 emitDefaultDefine(OS, "PRAGMA_SPELLING_ATTR", nullptr);
Peter Collingbournebee583f2011-10-06 13:03:08 +00002485
John McCall2225c8b2016-03-01 00:18:05 +00002486 std::vector<Record *> Attrs = Records.getAllDerivedDefinitions("Attr");
2487 std::vector<Record *> PragmaAttrs;
Aaron Ballman2f22b942014-05-20 19:47:14 +00002488 for (auto *Attr : Attrs) {
2489 if (!Attr->getValueAsBit("ASTNode"))
Douglas Gregorb2daf842012-05-02 15:56:52 +00002490 continue;
Tyler Nowickic724a83e2014-10-12 20:46:07 +00002491
John McCall2225c8b2016-03-01 00:18:05 +00002492 // Add the attribute to the ad-hoc groups.
Tyler Nowickic724a83e2014-10-12 20:46:07 +00002493 if (AttrHasPragmaSpelling(Attr))
2494 PragmaAttrs.push_back(Attr);
2495
John McCall2225c8b2016-03-01 00:18:05 +00002496 // Place it in the hierarchy.
2497 Hierarchy.classifyAttr(Attr);
Peter Collingbournebee583f2011-10-06 13:03:08 +00002498 }
2499
John McCall2225c8b2016-03-01 00:18:05 +00002500 // Emit the main attribute list.
2501 Hierarchy.emitAttrLists(OS);
Peter Collingbournebee583f2011-10-06 13:03:08 +00002502
John McCall2225c8b2016-03-01 00:18:05 +00002503 // Emit the ad hoc groups.
2504 emitAttrList(OS, "PRAGMA_SPELLING_ATTR", PragmaAttrs);
2505
2506 // Emit the attribute ranges.
2507 OS << "#ifdef ATTR_RANGE\n";
2508 Hierarchy.emitAttrRanges(OS);
2509 OS << "#undef ATTR_RANGE\n";
2510 OS << "#endif\n";
2511
2512 Hierarchy.emitUndefs(OS);
Tyler Nowickic724a83e2014-10-12 20:46:07 +00002513 OS << "#undef PRAGMA_SPELLING_ATTR\n";
Peter Collingbournebee583f2011-10-06 13:03:08 +00002514}
2515
Alex Lorenz9e7bf162017-04-18 14:33:39 +00002516// Emits the enumeration list for attributes.
2517void EmitClangAttrSubjectMatchRuleList(RecordKeeper &Records, raw_ostream &OS) {
2518 emitSourceFileHeader(
2519 "List of all attribute subject matching rules that Clang recognizes", OS);
2520 PragmaClangAttributeSupport &PragmaAttributeSupport =
2521 getPragmaAttributeSupport(Records);
2522 emitDefaultDefine(OS, "ATTR_MATCH_RULE", nullptr);
2523 PragmaAttributeSupport.emitMatchRuleList(OS);
2524 OS << "#undef ATTR_MATCH_RULE\n";
2525}
2526
Jakob Stoklund Olesen995e0e12012-06-13 05:12:41 +00002527// Emits the code to read an attribute from a precompiled header.
2528void EmitClangAttrPCHRead(RecordKeeper &Records, raw_ostream &OS) {
Dmitri Gribenko6b11fca2013-01-30 21:54:20 +00002529 emitSourceFileHeader("Attribute deserialization code", OS);
Peter Collingbournebee583f2011-10-06 13:03:08 +00002530
2531 Record *InhClass = Records.getClass("InheritableAttr");
2532 std::vector<Record*> Attrs = Records.getAllDerivedDefinitions("Attr"),
2533 ArgRecords;
Aaron Ballman8f1439b2014-03-05 16:49:55 +00002534 std::vector<std::unique_ptr<Argument>> Args;
Peter Collingbournebee583f2011-10-06 13:03:08 +00002535
2536 OS << " switch (Kind) {\n";
Aaron Ballman2f22b942014-05-20 19:47:14 +00002537 for (const auto *Attr : Attrs) {
2538 const Record &R = *Attr;
Douglas Gregorb2daf842012-05-02 15:56:52 +00002539 if (!R.getValueAsBit("ASTNode"))
2540 continue;
2541
Peter Collingbournebee583f2011-10-06 13:03:08 +00002542 OS << " case attr::" << R.getName() << ": {\n";
2543 if (R.isSubClassOf(InhClass))
David L. Jones267b8842017-01-24 01:04:30 +00002544 OS << " bool isInherited = Record.readInt();\n";
2545 OS << " bool isImplicit = Record.readInt();\n";
2546 OS << " unsigned Spelling = Record.readInt();\n";
Peter Collingbournebee583f2011-10-06 13:03:08 +00002547 ArgRecords = R.getValueAsListOfDefs("Args");
2548 Args.clear();
Aaron Ballman2f22b942014-05-20 19:47:14 +00002549 for (const auto *Arg : ArgRecords) {
2550 Args.emplace_back(createArgument(*Arg, R.getName()));
Aaron Ballman8f1439b2014-03-05 16:49:55 +00002551 Args.back()->writePCHReadDecls(OS);
Peter Collingbournebee583f2011-10-06 13:03:08 +00002552 }
2553 OS << " New = new (Context) " << R.getName() << "Attr(Range, Context";
Aaron Ballman8f1439b2014-03-05 16:49:55 +00002554 for (auto const &ri : Args) {
Peter Collingbournebee583f2011-10-06 13:03:08 +00002555 OS << ", ";
Aaron Ballmanb097f7fe2014-03-02 17:38:37 +00002556 ri->writePCHReadArgs(OS);
Peter Collingbournebee583f2011-10-06 13:03:08 +00002557 }
Aaron Ballman36a53502014-01-16 13:03:14 +00002558 OS << ", Spelling);\n";
Peter Collingbournebee583f2011-10-06 13:03:08 +00002559 if (R.isSubClassOf(InhClass))
2560 OS << " cast<InheritableAttr>(New)->setInherited(isInherited);\n";
Aaron Ballman36a53502014-01-16 13:03:14 +00002561 OS << " New->setImplicit(isImplicit);\n";
Peter Collingbournebee583f2011-10-06 13:03:08 +00002562 OS << " break;\n";
2563 OS << " }\n";
2564 }
2565 OS << " }\n";
2566}
2567
Jakob Stoklund Olesen995e0e12012-06-13 05:12:41 +00002568// Emits the code to write an attribute to a precompiled header.
2569void EmitClangAttrPCHWrite(RecordKeeper &Records, raw_ostream &OS) {
Dmitri Gribenko6b11fca2013-01-30 21:54:20 +00002570 emitSourceFileHeader("Attribute serialization code", OS);
2571
Peter Collingbournebee583f2011-10-06 13:03:08 +00002572 Record *InhClass = Records.getClass("InheritableAttr");
2573 std::vector<Record*> Attrs = Records.getAllDerivedDefinitions("Attr"), Args;
Peter Collingbournebee583f2011-10-06 13:03:08 +00002574
2575 OS << " switch (A->getKind()) {\n";
Aaron Ballman2f22b942014-05-20 19:47:14 +00002576 for (const auto *Attr : Attrs) {
2577 const Record &R = *Attr;
Douglas Gregorb2daf842012-05-02 15:56:52 +00002578 if (!R.getValueAsBit("ASTNode"))
2579 continue;
Peter Collingbournebee583f2011-10-06 13:03:08 +00002580 OS << " case attr::" << R.getName() << ": {\n";
2581 Args = R.getValueAsListOfDefs("Args");
2582 if (R.isSubClassOf(InhClass) || !Args.empty())
Eugene Zelenko5f02b772015-12-08 18:49:01 +00002583 OS << " const auto *SA = cast<" << R.getName()
Peter Collingbournebee583f2011-10-06 13:03:08 +00002584 << "Attr>(A);\n";
2585 if (R.isSubClassOf(InhClass))
2586 OS << " Record.push_back(SA->isInherited());\n";
Aaron Ballman36a53502014-01-16 13:03:14 +00002587 OS << " Record.push_back(A->isImplicit());\n";
2588 OS << " Record.push_back(A->getSpellingListIndex());\n";
2589
Aaron Ballman2f22b942014-05-20 19:47:14 +00002590 for (const auto *Arg : Args)
2591 createArgument(*Arg, R.getName())->writePCHWrite(OS);
Peter Collingbournebee583f2011-10-06 13:03:08 +00002592 OS << " break;\n";
2593 OS << " }\n";
2594 }
2595 OS << " }\n";
2596}
2597
Bob Wilson0058b822015-07-20 22:57:36 +00002598// Generate a conditional expression to check if the current target satisfies
2599// the conditions for a TargetSpecificAttr record, and append the code for
2600// those checks to the Test string. If the FnName string pointer is non-null,
2601// append a unique suffix to distinguish this set of target checks from other
2602// TargetSpecificAttr records.
2603static void GenerateTargetSpecificAttrChecks(const Record *R,
2604 std::vector<std::string> &Arches,
2605 std::string &Test,
2606 std::string *FnName) {
2607 // It is assumed that there will be an llvm::Triple object
2608 // named "T" and a TargetInfo object named "Target" within
2609 // scope that can be used to determine whether the attribute exists in
2610 // a given target.
2611 Test += "(";
2612
2613 for (auto I = Arches.begin(), E = Arches.end(); I != E; ++I) {
2614 std::string Part = *I;
2615 Test += "T.getArch() == llvm::Triple::" + Part;
2616 if (I + 1 != E)
2617 Test += " || ";
2618 if (FnName)
2619 *FnName += Part;
2620 }
2621 Test += ")";
2622
2623 // If the attribute is specific to particular OSes, check those.
2624 if (!R->isValueUnset("OSes")) {
2625 // We know that there was at least one arch test, so we need to and in the
2626 // OS tests.
2627 Test += " && (";
2628 std::vector<std::string> OSes = R->getValueAsListOfStrings("OSes");
2629 for (auto I = OSes.begin(), E = OSes.end(); I != E; ++I) {
2630 std::string Part = *I;
2631
2632 Test += "T.getOS() == llvm::Triple::" + Part;
2633 if (I + 1 != E)
2634 Test += " || ";
2635 if (FnName)
2636 *FnName += Part;
2637 }
2638 Test += ")";
2639 }
2640
2641 // If one or more CXX ABIs are specified, check those as well.
2642 if (!R->isValueUnset("CXXABIs")) {
2643 Test += " && (";
2644 std::vector<std::string> CXXABIs = R->getValueAsListOfStrings("CXXABIs");
2645 for (auto I = CXXABIs.begin(), E = CXXABIs.end(); I != E; ++I) {
2646 std::string Part = *I;
2647 Test += "Target.getCXXABI().getKind() == TargetCXXABI::" + Part;
2648 if (I + 1 != E)
2649 Test += " || ";
2650 if (FnName)
2651 *FnName += Part;
2652 }
2653 Test += ")";
2654 }
2655}
2656
Aaron Ballman2fbf9942014-03-31 13:14:44 +00002657static void GenerateHasAttrSpellingStringSwitch(
2658 const std::vector<Record *> &Attrs, raw_ostream &OS,
2659 const std::string &Variety = "", const std::string &Scope = "") {
2660 for (const auto *Attr : Attrs) {
Aaron Ballmana0344c52014-11-14 13:44:02 +00002661 // C++11-style attributes have specific version information associated with
2662 // them. If the attribute has no scope, the version information must not
2663 // have the default value (1), as that's incorrect. Instead, the unscoped
2664 // attribute version information should be taken from the SD-6 standing
2665 // document, which can be found at:
2666 // https://isocpp.org/std/standing-documents/sd-6-sg10-feature-test-recommendations
2667 int Version = 1;
2668
2669 if (Variety == "CXX11") {
2670 std::vector<Record *> Spellings = Attr->getValueAsListOfDefs("Spellings");
2671 for (const auto &Spelling : Spellings) {
2672 if (Spelling->getValueAsString("Variety") == "CXX11") {
2673 Version = static_cast<int>(Spelling->getValueAsInt("Version"));
2674 if (Scope.empty() && Version == 1)
2675 PrintError(Spelling->getLoc(), "C++ standard attributes must "
2676 "have valid version information.");
2677 break;
2678 }
2679 }
2680 }
2681
Aaron Ballman0fa06d82014-01-09 22:57:44 +00002682 std::string Test;
Aaron Ballman2fbf9942014-03-31 13:14:44 +00002683 if (Attr->isSubClassOf("TargetSpecificAttr")) {
2684 const Record *R = Attr->getValueAsDef("Target");
Aaron Ballman0fa06d82014-01-09 22:57:44 +00002685 std::vector<std::string> Arches = R->getValueAsListOfStrings("Arches");
Hans Wennborgdcfba332015-10-06 23:40:43 +00002686 GenerateTargetSpecificAttrChecks(R, Arches, Test, nullptr);
Bob Wilson7c730832015-07-20 22:57:31 +00002687
Aaron Ballman2fbf9942014-03-31 13:14:44 +00002688 // If this is the C++11 variety, also add in the LangOpts test.
2689 if (Variety == "CXX11")
2690 Test += " && LangOpts.CPlusPlus11";
2691 } else if (Variety == "CXX11")
2692 // C++11 mode should be checked against LangOpts, which is presumed to be
2693 // present in the caller.
2694 Test = "LangOpts.CPlusPlus11";
Aaron Ballman0fa06d82014-01-09 22:57:44 +00002695
Aaron Ballmana0344c52014-11-14 13:44:02 +00002696 std::string TestStr =
Aaron Ballman28afa182014-11-17 18:17:19 +00002697 !Test.empty() ? Test + " ? " + llvm::itostr(Version) + " : 0" : "1";
Aaron Ballman2fbf9942014-03-31 13:14:44 +00002698 std::vector<FlattenedSpelling> Spellings = GetFlattenedSpellings(*Attr);
Aaron Ballmanb097f7fe2014-03-02 17:38:37 +00002699 for (const auto &S : Spellings)
Aaron Ballman2fbf9942014-03-31 13:14:44 +00002700 if (Variety.empty() || (Variety == S.variety() &&
2701 (Scope.empty() || Scope == S.nameSpace())))
Aaron Ballmana0344c52014-11-14 13:44:02 +00002702 OS << " .Case(\"" << S.name() << "\", " << TestStr << ")\n";
Peter Collingbournebee583f2011-10-06 13:03:08 +00002703 }
Aaron Ballmana0344c52014-11-14 13:44:02 +00002704 OS << " .Default(0);\n";
Aaron Ballman2fbf9942014-03-31 13:14:44 +00002705}
2706
2707// Emits the list of spellings for attributes.
2708void EmitClangAttrHasAttrImpl(RecordKeeper &Records, raw_ostream &OS) {
2709 emitSourceFileHeader("Code to implement the __has_attribute logic", OS);
2710
2711 // Separate all of the attributes out into four group: generic, C++11, GNU,
2712 // and declspecs. Then generate a big switch statement for each of them.
2713 std::vector<Record *> Attrs = Records.getAllDerivedDefinitions("Attr");
Nico Weber20e08042016-09-03 02:55:10 +00002714 std::vector<Record *> Declspec, Microsoft, GNU, Pragma;
Aaron Ballman2fbf9942014-03-31 13:14:44 +00002715 std::map<std::string, std::vector<Record *>> CXX;
2716
2717 // Walk over the list of all attributes, and split them out based on the
2718 // spelling variety.
2719 for (auto *R : Attrs) {
2720 std::vector<FlattenedSpelling> Spellings = GetFlattenedSpellings(*R);
2721 for (const auto &SI : Spellings) {
Benjamin Kramer2e018ef2016-05-27 13:36:58 +00002722 const std::string &Variety = SI.variety();
Aaron Ballman2fbf9942014-03-31 13:14:44 +00002723 if (Variety == "GNU")
2724 GNU.push_back(R);
2725 else if (Variety == "Declspec")
2726 Declspec.push_back(R);
Nico Weber20e08042016-09-03 02:55:10 +00002727 else if (Variety == "Microsoft")
2728 Microsoft.push_back(R);
Tyler Nowickie8b07ed2014-06-13 17:57:25 +00002729 else if (Variety == "CXX11")
Aaron Ballman2fbf9942014-03-31 13:14:44 +00002730 CXX[SI.nameSpace()].push_back(R);
Tyler Nowickie8b07ed2014-06-13 17:57:25 +00002731 else if (Variety == "Pragma")
2732 Pragma.push_back(R);
Aaron Ballman2fbf9942014-03-31 13:14:44 +00002733 }
2734 }
2735
Bob Wilson7c730832015-07-20 22:57:31 +00002736 OS << "const llvm::Triple &T = Target.getTriple();\n";
Aaron Ballman2fbf9942014-03-31 13:14:44 +00002737 OS << "switch (Syntax) {\n";
Aaron Ballman2fbf9942014-03-31 13:14:44 +00002738 OS << "case AttrSyntax::GNU:\n";
Aaron Ballmana0344c52014-11-14 13:44:02 +00002739 OS << " return llvm::StringSwitch<int>(Name)\n";
Aaron Ballman2fbf9942014-03-31 13:14:44 +00002740 GenerateHasAttrSpellingStringSwitch(GNU, OS, "GNU");
2741 OS << "case AttrSyntax::Declspec:\n";
Aaron Ballmana0344c52014-11-14 13:44:02 +00002742 OS << " return llvm::StringSwitch<int>(Name)\n";
Aaron Ballman2fbf9942014-03-31 13:14:44 +00002743 GenerateHasAttrSpellingStringSwitch(Declspec, OS, "Declspec");
Nico Weber20e08042016-09-03 02:55:10 +00002744 OS << "case AttrSyntax::Microsoft:\n";
2745 OS << " return llvm::StringSwitch<int>(Name)\n";
2746 GenerateHasAttrSpellingStringSwitch(Microsoft, OS, "Microsoft");
Tyler Nowickie8b07ed2014-06-13 17:57:25 +00002747 OS << "case AttrSyntax::Pragma:\n";
Aaron Ballmana0344c52014-11-14 13:44:02 +00002748 OS << " return llvm::StringSwitch<int>(Name)\n";
Tyler Nowickie8b07ed2014-06-13 17:57:25 +00002749 GenerateHasAttrSpellingStringSwitch(Pragma, OS, "Pragma");
Aaron Ballman2fbf9942014-03-31 13:14:44 +00002750 OS << "case AttrSyntax::CXX: {\n";
2751 // C++11-style attributes are further split out based on the Scope.
Eugene Zelenko5f02b772015-12-08 18:49:01 +00002752 for (auto I = CXX.cbegin(), E = CXX.cend(); I != E; ++I) {
Aaron Ballman2fbf9942014-03-31 13:14:44 +00002753 if (I != CXX.begin())
2754 OS << " else ";
2755 if (I->first.empty())
2756 OS << "if (!Scope || Scope->getName() == \"\") {\n";
2757 else
2758 OS << "if (Scope->getName() == \"" << I->first << "\") {\n";
Aaron Ballmana0344c52014-11-14 13:44:02 +00002759 OS << " return llvm::StringSwitch<int>(Name)\n";
Aaron Ballman2fbf9942014-03-31 13:14:44 +00002760 GenerateHasAttrSpellingStringSwitch(I->second, OS, "CXX11", I->first);
2761 OS << "}";
2762 }
2763 OS << "\n}\n";
2764 OS << "}\n";
Peter Collingbournebee583f2011-10-06 13:03:08 +00002765}
2766
Michael Han99315932013-01-24 16:46:58 +00002767void EmitClangAttrSpellingListIndex(RecordKeeper &Records, raw_ostream &OS) {
Dmitri Gribenko6b11fca2013-01-30 21:54:20 +00002768 emitSourceFileHeader("Code to translate different attribute spellings "
2769 "into internal identifiers", OS);
Michael Han99315932013-01-24 16:46:58 +00002770
John McCall2225c8b2016-03-01 00:18:05 +00002771 OS << " switch (AttrKind) {\n";
Michael Han99315932013-01-24 16:46:58 +00002772
Aaron Ballman64e69862013-12-15 13:05:48 +00002773 ParsedAttrMap Attrs = getParsedAttrList(Records);
Aaron Ballmanb097f7fe2014-03-02 17:38:37 +00002774 for (const auto &I : Attrs) {
Aaron Ballman2f22b942014-05-20 19:47:14 +00002775 const Record &R = *I.second;
Aaron Ballmanc669cc02014-01-27 22:10:04 +00002776 std::vector<FlattenedSpelling> Spellings = GetFlattenedSpellings(R);
Aaron Ballmanb097f7fe2014-03-02 17:38:37 +00002777 OS << " case AT_" << I.first << ": {\n";
Richard Smith852e9ce2013-11-27 01:46:48 +00002778 for (unsigned I = 0; I < Spellings.size(); ++ I) {
Tyler Nowickie8b07ed2014-06-13 17:57:25 +00002779 OS << " if (Name == \"" << Spellings[I].name() << "\" && "
2780 << "SyntaxUsed == "
2781 << StringSwitch<unsigned>(Spellings[I].variety())
2782 .Case("GNU", 0)
2783 .Case("CXX11", 1)
2784 .Case("Declspec", 2)
Nico Weber20e08042016-09-03 02:55:10 +00002785 .Case("Microsoft", 3)
2786 .Case("Keyword", 4)
2787 .Case("Pragma", 5)
Tyler Nowickie8b07ed2014-06-13 17:57:25 +00002788 .Default(0)
2789 << " && Scope == \"" << Spellings[I].nameSpace() << "\")\n"
2790 << " return " << I << ";\n";
Michael Han99315932013-01-24 16:46:58 +00002791 }
Richard Smith852e9ce2013-11-27 01:46:48 +00002792
2793 OS << " break;\n";
2794 OS << " }\n";
Michael Han99315932013-01-24 16:46:58 +00002795 }
2796
2797 OS << " }\n";
Aaron Ballman64e69862013-12-15 13:05:48 +00002798 OS << " return 0;\n";
Michael Han99315932013-01-24 16:46:58 +00002799}
2800
DeLesley Hutchinsc4a82432013-12-30 17:24:36 +00002801// Emits code used by RecursiveASTVisitor to visit attributes
2802void EmitClangAttrASTVisitor(RecordKeeper &Records, raw_ostream &OS) {
2803 emitSourceFileHeader("Used by RecursiveASTVisitor to visit attributes.", OS);
2804
2805 std::vector<Record*> Attrs = Records.getAllDerivedDefinitions("Attr");
2806
2807 // Write method declarations for Traverse* methods.
2808 // We emit this here because we only generate methods for attributes that
2809 // are declared as ASTNodes.
2810 OS << "#ifdef ATTR_VISITOR_DECLS_ONLY\n\n";
Aaron Ballman2f22b942014-05-20 19:47:14 +00002811 for (const auto *Attr : Attrs) {
2812 const Record &R = *Attr;
DeLesley Hutchinsc4a82432013-12-30 17:24:36 +00002813 if (!R.getValueAsBit("ASTNode"))
2814 continue;
2815 OS << " bool Traverse"
2816 << R.getName() << "Attr(" << R.getName() << "Attr *A);\n";
2817 OS << " bool Visit"
2818 << R.getName() << "Attr(" << R.getName() << "Attr *A) {\n"
2819 << " return true; \n"
Hans Wennborg4afe5042015-07-22 20:46:26 +00002820 << " }\n";
DeLesley Hutchinsc4a82432013-12-30 17:24:36 +00002821 }
2822 OS << "\n#else // ATTR_VISITOR_DECLS_ONLY\n\n";
2823
2824 // Write individual Traverse* methods for each attribute class.
Aaron Ballman2f22b942014-05-20 19:47:14 +00002825 for (const auto *Attr : Attrs) {
2826 const Record &R = *Attr;
DeLesley Hutchinsc4a82432013-12-30 17:24:36 +00002827 if (!R.getValueAsBit("ASTNode"))
2828 continue;
2829
2830 OS << "template <typename Derived>\n"
DeLesley Hutchinsbb79c332013-12-30 21:03:02 +00002831 << "bool VISITORCLASS<Derived>::Traverse"
DeLesley Hutchinsc4a82432013-12-30 17:24:36 +00002832 << R.getName() << "Attr(" << R.getName() << "Attr *A) {\n"
2833 << " if (!getDerived().VisitAttr(A))\n"
2834 << " return false;\n"
2835 << " if (!getDerived().Visit" << R.getName() << "Attr(A))\n"
2836 << " return false;\n";
2837
2838 std::vector<Record*> ArgRecords = R.getValueAsListOfDefs("Args");
Aaron Ballman2f22b942014-05-20 19:47:14 +00002839 for (const auto *Arg : ArgRecords)
2840 createArgument(*Arg, R.getName())->writeASTVisitorTraversal(OS);
DeLesley Hutchinsc4a82432013-12-30 17:24:36 +00002841
2842 OS << " return true;\n";
2843 OS << "}\n\n";
2844 }
2845
2846 // Write generic Traverse routine
2847 OS << "template <typename Derived>\n"
DeLesley Hutchinsbb79c332013-12-30 21:03:02 +00002848 << "bool VISITORCLASS<Derived>::TraverseAttr(Attr *A) {\n"
DeLesley Hutchinsc4a82432013-12-30 17:24:36 +00002849 << " if (!A)\n"
2850 << " return true;\n"
2851 << "\n"
John McCall2225c8b2016-03-01 00:18:05 +00002852 << " switch (A->getKind()) {\n";
DeLesley Hutchinsc4a82432013-12-30 17:24:36 +00002853
Aaron Ballman2f22b942014-05-20 19:47:14 +00002854 for (const auto *Attr : Attrs) {
2855 const Record &R = *Attr;
DeLesley Hutchinsc4a82432013-12-30 17:24:36 +00002856 if (!R.getValueAsBit("ASTNode"))
2857 continue;
2858
2859 OS << " case attr::" << R.getName() << ":\n"
2860 << " return getDerived().Traverse" << R.getName() << "Attr("
2861 << "cast<" << R.getName() << "Attr>(A));\n";
2862 }
John McCall5d7cf772016-03-01 02:09:20 +00002863 OS << " }\n"; // end switch
2864 OS << " llvm_unreachable(\"bad attribute kind\");\n";
DeLesley Hutchinsc4a82432013-12-30 17:24:36 +00002865 OS << "}\n"; // end function
2866 OS << "#endif // ATTR_VISITOR_DECLS_ONLY\n";
2867}
2868
Erich Keanea32910d2017-03-23 18:51:54 +00002869void EmitClangAttrTemplateInstantiateHelper(const std::vector<Record *> &Attrs,
2870 raw_ostream &OS,
2871 bool AppliesToDecl) {
DeLesley Hutchinsceec3062012-01-20 22:37:06 +00002872
Erich Keanea32910d2017-03-23 18:51:54 +00002873 OS << " switch (At->getKind()) {\n";
Aaron Ballman2f22b942014-05-20 19:47:14 +00002874 for (const auto *Attr : Attrs) {
2875 const Record &R = *Attr;
Douglas Gregorb2daf842012-05-02 15:56:52 +00002876 if (!R.getValueAsBit("ASTNode"))
2877 continue;
DeLesley Hutchinsceec3062012-01-20 22:37:06 +00002878 OS << " case attr::" << R.getName() << ": {\n";
Erich Keanea32910d2017-03-23 18:51:54 +00002879 bool ShouldClone = R.getValueAsBit("Clone") &&
2880 (!AppliesToDecl ||
2881 R.getValueAsBit("MeaningfulToClassTemplateDefinition"));
Rafael Espindola7f90b7d2012-05-15 14:09:55 +00002882
2883 if (!ShouldClone) {
Hans Wennborg59dbe862015-09-29 20:56:43 +00002884 OS << " return nullptr;\n";
Rafael Espindola7f90b7d2012-05-15 14:09:55 +00002885 OS << " }\n";
2886 continue;
2887 }
2888
Eugene Zelenko5f02b772015-12-08 18:49:01 +00002889 OS << " const auto *A = cast<"
DeLesley Hutchinsceec3062012-01-20 22:37:06 +00002890 << R.getName() << "Attr>(At);\n";
2891 bool TDependent = R.getValueAsBit("TemplateDependent");
2892
2893 if (!TDependent) {
2894 OS << " return A->clone(C);\n";
2895 OS << " }\n";
2896 continue;
2897 }
2898
2899 std::vector<Record*> ArgRecords = R.getValueAsListOfDefs("Args");
Aaron Ballman8f1439b2014-03-05 16:49:55 +00002900 std::vector<std::unique_ptr<Argument>> Args;
DeLesley Hutchinsceec3062012-01-20 22:37:06 +00002901 Args.reserve(ArgRecords.size());
2902
Aaron Ballman2f22b942014-05-20 19:47:14 +00002903 for (const auto *ArgRecord : ArgRecords)
Aaron Ballman8f1439b2014-03-05 16:49:55 +00002904 Args.emplace_back(createArgument(*ArgRecord, R.getName()));
DeLesley Hutchinsceec3062012-01-20 22:37:06 +00002905
Aaron Ballman8f1439b2014-03-05 16:49:55 +00002906 for (auto const &ai : Args)
Aaron Ballmanb097f7fe2014-03-02 17:38:37 +00002907 ai->writeTemplateInstantiation(OS);
Aaron Ballman8f1439b2014-03-05 16:49:55 +00002908
DeLesley Hutchinsceec3062012-01-20 22:37:06 +00002909 OS << " return new (C) " << R.getName() << "Attr(A->getLocation(), C";
Aaron Ballman8f1439b2014-03-05 16:49:55 +00002910 for (auto const &ai : Args) {
DeLesley Hutchinsceec3062012-01-20 22:37:06 +00002911 OS << ", ";
Aaron Ballmanb097f7fe2014-03-02 17:38:37 +00002912 ai->writeTemplateInstantiationArgs(OS);
DeLesley Hutchinsceec3062012-01-20 22:37:06 +00002913 }
Aaron Ballman36a53502014-01-16 13:03:14 +00002914 OS << ", A->getSpellingListIndex());\n }\n";
DeLesley Hutchinsceec3062012-01-20 22:37:06 +00002915 }
2916 OS << " } // end switch\n"
2917 << " llvm_unreachable(\"Unknown attribute!\");\n"
Erich Keanea32910d2017-03-23 18:51:54 +00002918 << " return nullptr;\n";
2919}
2920
2921// Emits code to instantiate dependent attributes on templates.
2922void EmitClangAttrTemplateInstantiate(RecordKeeper &Records, raw_ostream &OS) {
2923 emitSourceFileHeader("Template instantiation code for attributes", OS);
2924
2925 std::vector<Record*> Attrs = Records.getAllDerivedDefinitions("Attr");
2926
2927 OS << "namespace clang {\n"
2928 << "namespace sema {\n\n"
2929 << "Attr *instantiateTemplateAttribute(const Attr *At, ASTContext &C, "
2930 << "Sema &S,\n"
2931 << " const MultiLevelTemplateArgumentList &TemplateArgs) {\n";
2932 EmitClangAttrTemplateInstantiateHelper(Attrs, OS, /*AppliesToDecl*/false);
2933 OS << "}\n\n"
2934 << "Attr *instantiateTemplateAttributeForDecl(const Attr *At,\n"
2935 << " ASTContext &C, Sema &S,\n"
2936 << " const MultiLevelTemplateArgumentList &TemplateArgs) {\n";
2937 EmitClangAttrTemplateInstantiateHelper(Attrs, OS, /*AppliesToDecl*/true);
2938 OS << "}\n\n"
Benjamin Kramerbf8da9d2012-02-06 11:13:08 +00002939 << "} // end namespace sema\n"
2940 << "} // end namespace clang\n";
DeLesley Hutchinsceec3062012-01-20 22:37:06 +00002941}
2942
Aaron Ballman8ee40b72013-09-09 23:33:17 +00002943// Emits the list of parsed attributes.
2944void EmitClangAttrParsedAttrList(RecordKeeper &Records, raw_ostream &OS) {
2945 emitSourceFileHeader("List of all attributes that Clang recognizes", OS);
2946
2947 OS << "#ifndef PARSED_ATTR\n";
2948 OS << "#define PARSED_ATTR(NAME) NAME\n";
2949 OS << "#endif\n\n";
2950
2951 ParsedAttrMap Names = getParsedAttrList(Records);
Aaron Ballmanb097f7fe2014-03-02 17:38:37 +00002952 for (const auto &I : Names) {
2953 OS << "PARSED_ATTR(" << I.first << ")\n";
Aaron Ballman8ee40b72013-09-09 23:33:17 +00002954 }
2955}
2956
Aaron Ballman8ed8dbd2014-07-31 16:37:04 +00002957static bool isArgVariadic(const Record &R, StringRef AttrName) {
2958 return createArgument(R, AttrName)->isVariadic();
2959}
2960
Aaron Ballman74eeeae2013-11-27 13:27:02 +00002961static void emitArgInfo(const Record &R, std::stringstream &OS) {
Aaron Ballman8ee40b72013-09-09 23:33:17 +00002962 // This function will count the number of arguments specified for the
2963 // attribute and emit the number of required arguments followed by the
2964 // number of optional arguments.
2965 std::vector<Record *> Args = R.getValueAsListOfDefs("Args");
2966 unsigned ArgCount = 0, OptCount = 0;
Aaron Ballman8ed8dbd2014-07-31 16:37:04 +00002967 bool HasVariadic = false;
Aaron Ballman2f22b942014-05-20 19:47:14 +00002968 for (const auto *Arg : Args) {
George Burgess IV8a36ace2016-12-01 17:52:39 +00002969 // If the arg is fake, it's the user's job to supply it: general parsing
2970 // logic shouldn't need to know anything about it.
2971 if (Arg->getValueAsBit("Fake"))
2972 continue;
Aaron Ballmanb097f7fe2014-03-02 17:38:37 +00002973 Arg->getValueAsBit("Optional") ? ++OptCount : ++ArgCount;
Aaron Ballman8ed8dbd2014-07-31 16:37:04 +00002974 if (!HasVariadic && isArgVariadic(*Arg, R.getName()))
2975 HasVariadic = true;
Aaron Ballman8ee40b72013-09-09 23:33:17 +00002976 }
Aaron Ballman8ed8dbd2014-07-31 16:37:04 +00002977
2978 // If there is a variadic argument, we will set the optional argument count
2979 // to its largest value. Since it's currently a 4-bit number, we set it to 15.
2980 OS << ArgCount << ", " << (HasVariadic ? 15 : OptCount);
Aaron Ballman8ee40b72013-09-09 23:33:17 +00002981}
2982
Aaron Ballman74eeeae2013-11-27 13:27:02 +00002983static void GenerateDefaultAppertainsTo(raw_ostream &OS) {
Aaron Ballman93b5cc62013-12-02 19:36:42 +00002984 OS << "static bool defaultAppertainsTo(Sema &, const AttributeList &,";
Aaron Ballman74eeeae2013-11-27 13:27:02 +00002985 OS << "const Decl *) {\n";
2986 OS << " return true;\n";
2987 OS << "}\n\n";
2988}
2989
2990static std::string CalculateDiagnostic(const Record &S) {
2991 // If the SubjectList object has a custom diagnostic associated with it,
2992 // return that directly.
2993 std::string CustomDiag = S.getValueAsString("CustomDiag");
2994 if (!CustomDiag.empty())
2995 return CustomDiag;
2996
2997 // Given the list of subjects, determine what diagnostic best fits.
2998 enum {
2999 Func = 1U << 0,
3000 Var = 1U << 1,
3001 ObjCMethod = 1U << 2,
3002 Param = 1U << 3,
3003 Class = 1U << 4,
Aaron Ballmanc1494bd2013-11-27 20:14:30 +00003004 GenericRecord = 1U << 5,
Aaron Ballman74eeeae2013-11-27 13:27:02 +00003005 Type = 1U << 6,
3006 ObjCIVar = 1U << 7,
3007 ObjCProp = 1U << 8,
3008 ObjCInterface = 1U << 9,
3009 Block = 1U << 10,
3010 Namespace = 1U << 11,
Aaron Ballman981ba242014-05-20 14:10:53 +00003011 Field = 1U << 12,
3012 CXXMethod = 1U << 13,
Alexis Hunt724f14e2014-11-28 00:53:20 +00003013 ObjCProtocol = 1U << 14,
Alex Lorenz24952fb2017-04-19 15:52:11 +00003014 Enum = 1U << 15,
3015 Named = 1U << 16,
Aaron Ballman74eeeae2013-11-27 13:27:02 +00003016 };
3017 uint32_t SubMask = 0;
3018
3019 std::vector<Record *> Subjects = S.getValueAsListOfDefs("Subjects");
Aaron Ballman2f22b942014-05-20 19:47:14 +00003020 for (const auto *Subject : Subjects) {
3021 const Record &R = *Subject;
Aaron Ballman80469032013-11-29 14:57:58 +00003022 std::string Name;
3023
3024 if (R.isSubClassOf("SubsetSubject")) {
3025 PrintError(R.getLoc(), "SubsetSubjects should use a custom diagnostic");
3026 // As a fallback, look through the SubsetSubject to see what its base
3027 // type is, and use that. This needs to be updated if SubsetSubjects
3028 // are allowed within other SubsetSubjects.
3029 Name = R.getValueAsDef("Base")->getName();
3030 } else
3031 Name = R.getName();
3032
3033 uint32_t V = StringSwitch<uint32_t>(Name)
Aaron Ballman74eeeae2013-11-27 13:27:02 +00003034 .Case("Function", Func)
3035 .Case("Var", Var)
3036 .Case("ObjCMethod", ObjCMethod)
3037 .Case("ParmVar", Param)
3038 .Case("TypedefName", Type)
3039 .Case("ObjCIvar", ObjCIVar)
3040 .Case("ObjCProperty", ObjCProp)
Aaron Ballmanc1494bd2013-11-27 20:14:30 +00003041 .Case("Record", GenericRecord)
Aaron Ballman74eeeae2013-11-27 13:27:02 +00003042 .Case("ObjCInterface", ObjCInterface)
Ted Kremenekd980da22013-12-10 19:43:42 +00003043 .Case("ObjCProtocol", ObjCProtocol)
Aaron Ballman74eeeae2013-11-27 13:27:02 +00003044 .Case("Block", Block)
3045 .Case("CXXRecord", Class)
3046 .Case("Namespace", Namespace)
Aaron Ballman74eeeae2013-11-27 13:27:02 +00003047 .Case("Field", Field)
3048 .Case("CXXMethod", CXXMethod)
Alexis Hunt724f14e2014-11-28 00:53:20 +00003049 .Case("Enum", Enum)
Alex Lorenz24952fb2017-04-19 15:52:11 +00003050 .Case("Named", Named)
Aaron Ballman74eeeae2013-11-27 13:27:02 +00003051 .Default(0);
3052 if (!V) {
3053 // Something wasn't in our mapping, so be helpful and let the developer
3054 // know about it.
Aaron Ballmanb097f7fe2014-03-02 17:38:37 +00003055 PrintFatalError(R.getLoc(), "Unknown subject type: " + R.getName());
Aaron Ballman74eeeae2013-11-27 13:27:02 +00003056 return "";
3057 }
3058
3059 SubMask |= V;
3060 }
3061
3062 switch (SubMask) {
3063 // For the simple cases where there's only a single entry in the mask, we
3064 // don't have to resort to bit fiddling.
3065 case Func: return "ExpectedFunction";
3066 case Var: return "ExpectedVariable";
3067 case Param: return "ExpectedParameter";
3068 case Class: return "ExpectedClass";
Alexis Hunt724f14e2014-11-28 00:53:20 +00003069 case Enum: return "ExpectedEnum";
Aaron Ballman74eeeae2013-11-27 13:27:02 +00003070 case CXXMethod:
3071 // FIXME: Currently, this maps to ExpectedMethod based on existing code,
3072 // but should map to something a bit more accurate at some point.
3073 case ObjCMethod: return "ExpectedMethod";
3074 case Type: return "ExpectedType";
3075 case ObjCInterface: return "ExpectedObjectiveCInterface";
Ted Kremenekd980da22013-12-10 19:43:42 +00003076 case ObjCProtocol: return "ExpectedObjectiveCProtocol";
Aaron Ballman74eeeae2013-11-27 13:27:02 +00003077
Aaron Ballmanc1494bd2013-11-27 20:14:30 +00003078 // "GenericRecord" means struct, union or class; check the language options
3079 // and if not compiling for C++, strip off the class part. Note that this
3080 // relies on the fact that the context for this declares "Sema &S".
3081 case GenericRecord:
Aaron Ballman17046b82013-11-27 19:16:55 +00003082 return "(S.getLangOpts().CPlusPlus ? ExpectedStructOrUnionOrClass : "
3083 "ExpectedStructOrUnion)";
Aaron Ballman74eeeae2013-11-27 13:27:02 +00003084 case Func | ObjCMethod | Block: return "ExpectedFunctionMethodOrBlock";
3085 case Func | ObjCMethod | Class: return "ExpectedFunctionMethodOrClass";
3086 case Func | Param:
3087 case Func | ObjCMethod | Param: return "ExpectedFunctionMethodOrParameter";
Aaron Ballman74eeeae2013-11-27 13:27:02 +00003088 case Func | ObjCMethod: return "ExpectedFunctionOrMethod";
3089 case Func | Var: return "ExpectedVariableOrFunction";
Aaron Ballman604dfec2013-12-02 17:07:07 +00003090
3091 // If not compiling for C++, the class portion does not apply.
3092 case Func | Var | Class:
3093 return "(S.getLangOpts().CPlusPlus ? ExpectedFunctionVariableOrClass : "
3094 "ExpectedVariableOrFunction)";
3095
Saleem Abdulrasool511f2e52016-07-15 20:41:10 +00003096 case Func | Var | Class | ObjCInterface:
3097 return "(S.getLangOpts().CPlusPlus"
3098 " ? ((S.getLangOpts().ObjC1 || S.getLangOpts().ObjC2)"
3099 " ? ExpectedFunctionVariableClassOrObjCInterface"
3100 " : ExpectedFunctionVariableOrClass)"
3101 " : ((S.getLangOpts().ObjC1 || S.getLangOpts().ObjC2)"
3102 " ? ExpectedFunctionVariableOrObjCInterface"
3103 " : ExpectedVariableOrFunction))";
3104
Aaron Ballman74eeeae2013-11-27 13:27:02 +00003105 case ObjCMethod | ObjCProp: return "ExpectedMethodOrProperty";
Aaron Ballman173361e2014-07-16 20:28:10 +00003106 case ObjCProtocol | ObjCInterface:
3107 return "ExpectedObjectiveCInterfaceOrProtocol";
Aaron Ballman74eeeae2013-11-27 13:27:02 +00003108 case Field | Var: return "ExpectedFieldOrGlobalVar";
Alex Lorenz24952fb2017-04-19 15:52:11 +00003109
3110 case Named:
3111 return "ExpectedNamedDecl";
Aaron Ballman74eeeae2013-11-27 13:27:02 +00003112 }
3113
3114 PrintFatalError(S.getLoc(),
3115 "Could not deduce diagnostic argument for Attr subjects");
3116
3117 return "";
3118}
3119
Aaron Ballman12b9f652014-01-16 13:55:42 +00003120static std::string GetSubjectWithSuffix(const Record *R) {
George Burgess IV1881a572016-12-01 00:13:18 +00003121 const std::string &B = R->getName();
Aaron Ballman12b9f652014-01-16 13:55:42 +00003122 if (B == "DeclBase")
3123 return "Decl";
3124 return B + "Decl";
3125}
Hans Wennborgdcfba332015-10-06 23:40:43 +00003126
Alex Lorenz9e7bf162017-04-18 14:33:39 +00003127static std::string functionNameForCustomAppertainsTo(const Record &Subject) {
3128 return "is" + Subject.getName().str();
3129}
3130
Aaron Ballman80469032013-11-29 14:57:58 +00003131static std::string GenerateCustomAppertainsTo(const Record &Subject,
3132 raw_ostream &OS) {
Alex Lorenz9e7bf162017-04-18 14:33:39 +00003133 std::string FnName = functionNameForCustomAppertainsTo(Subject);
Aaron Ballmana358c902013-12-02 14:58:17 +00003134
Aaron Ballman80469032013-11-29 14:57:58 +00003135 // If this code has already been generated, simply return the previous
3136 // instance of it.
3137 static std::set<std::string> CustomSubjectSet;
Eugene Zelenko5f02b772015-12-08 18:49:01 +00003138 auto I = CustomSubjectSet.find(FnName);
Aaron Ballman80469032013-11-29 14:57:58 +00003139 if (I != CustomSubjectSet.end())
3140 return *I;
3141
3142 Record *Base = Subject.getValueAsDef("Base");
3143
3144 // Not currently support custom subjects within custom subjects.
3145 if (Base->isSubClassOf("SubsetSubject")) {
3146 PrintFatalError(Subject.getLoc(),
3147 "SubsetSubjects within SubsetSubjects is not supported");
3148 return "";
3149 }
3150
Aaron Ballman80469032013-11-29 14:57:58 +00003151 OS << "static bool " << FnName << "(const Decl *D) {\n";
Eugene Zelenko5f02b772015-12-08 18:49:01 +00003152 OS << " if (const auto *S = dyn_cast<";
Aaron Ballman12b9f652014-01-16 13:55:42 +00003153 OS << GetSubjectWithSuffix(Base);
Aaron Ballman47553042014-01-16 14:32:03 +00003154 OS << ">(D))\n";
3155 OS << " return " << Subject.getValueAsString("CheckCode") << ";\n";
3156 OS << " return false;\n";
Aaron Ballman80469032013-11-29 14:57:58 +00003157 OS << "}\n\n";
3158
3159 CustomSubjectSet.insert(FnName);
3160 return FnName;
3161}
3162
Aaron Ballman74eeeae2013-11-27 13:27:02 +00003163static std::string GenerateAppertainsTo(const Record &Attr, raw_ostream &OS) {
3164 // If the attribute does not contain a Subjects definition, then use the
3165 // default appertainsTo logic.
3166 if (Attr.isValueUnset("Subjects"))
Aaron Ballman93b5cc62013-12-02 19:36:42 +00003167 return "defaultAppertainsTo";
Aaron Ballman74eeeae2013-11-27 13:27:02 +00003168
3169 const Record *SubjectObj = Attr.getValueAsDef("Subjects");
3170 std::vector<Record*> Subjects = SubjectObj->getValueAsListOfDefs("Subjects");
3171
3172 // If the list of subjects is empty, it is assumed that the attribute
3173 // appertains to everything.
3174 if (Subjects.empty())
Aaron Ballman93b5cc62013-12-02 19:36:42 +00003175 return "defaultAppertainsTo";
Aaron Ballman74eeeae2013-11-27 13:27:02 +00003176
Aaron Ballman74eeeae2013-11-27 13:27:02 +00003177 bool Warn = SubjectObj->getValueAsDef("Diag")->getValueAsBit("Warn");
3178
3179 // Otherwise, generate an appertainsTo check specific to this attribute which
3180 // checks all of the given subjects against the Decl passed in. Return the
3181 // name of that check to the caller.
Matthias Braunbbbf5d42016-12-04 05:55:09 +00003182 std::string FnName = "check" + Attr.getName().str() + "AppertainsTo";
Aaron Ballman74eeeae2013-11-27 13:27:02 +00003183 std::stringstream SS;
3184 SS << "static bool " << FnName << "(Sema &S, const AttributeList &Attr, ";
3185 SS << "const Decl *D) {\n";
3186 SS << " if (";
Aaron Ballmanb097f7fe2014-03-02 17:38:37 +00003187 for (auto I = Subjects.begin(), E = Subjects.end(); I != E; ++I) {
Aaron Ballman80469032013-11-29 14:57:58 +00003188 // If the subject has custom code associated with it, generate a function
3189 // for it. The function cannot be inlined into this check (yet) because it
3190 // requires the subject to be of a specific type, and were that information
3191 // inlined here, it would not support an attribute with multiple custom
3192 // subjects.
3193 if ((*I)->isSubClassOf("SubsetSubject")) {
3194 SS << "!" << GenerateCustomAppertainsTo(**I, OS) << "(D)";
3195 } else {
Aaron Ballman12b9f652014-01-16 13:55:42 +00003196 SS << "!isa<" << GetSubjectWithSuffix(*I) << ">(D)";
Aaron Ballman80469032013-11-29 14:57:58 +00003197 }
Aaron Ballman74eeeae2013-11-27 13:27:02 +00003198
Aaron Ballman74eeeae2013-11-27 13:27:02 +00003199 if (I + 1 != E)
3200 SS << " && ";
3201 }
3202 SS << ") {\n";
3203 SS << " S.Diag(Attr.getLoc(), diag::";
3204 SS << (Warn ? "warn_attribute_wrong_decl_type" :
3205 "err_attribute_wrong_decl_type");
3206 SS << ")\n";
3207 SS << " << Attr.getName() << ";
3208 SS << CalculateDiagnostic(*SubjectObj) << ";\n";
3209 SS << " return false;\n";
3210 SS << " }\n";
3211 SS << " return true;\n";
3212 SS << "}\n\n";
3213
Aaron Ballman74eeeae2013-11-27 13:27:02 +00003214 OS << SS.str();
3215 return FnName;
3216}
3217
Alex Lorenz9e7bf162017-04-18 14:33:39 +00003218static void
3219emitAttributeMatchRules(PragmaClangAttributeSupport &PragmaAttributeSupport,
3220 raw_ostream &OS) {
3221 OS << "static bool checkAttributeMatchRuleAppliesTo(const Decl *D, "
3222 << AttributeSubjectMatchRule::EnumName << " rule) {\n";
3223 OS << " switch (rule) {\n";
3224 for (const auto &Rule : PragmaAttributeSupport.Rules) {
3225 if (Rule.isAbstractRule()) {
3226 OS << " case " << Rule.getEnumValue() << ":\n";
3227 OS << " assert(false && \"Abstract matcher rule isn't allowed\");\n";
3228 OS << " return false;\n";
3229 continue;
3230 }
3231 std::vector<Record *> Subjects = Rule.getSubjects();
3232 assert(!Subjects.empty() && "Missing subjects");
3233 OS << " case " << Rule.getEnumValue() << ":\n";
3234 OS << " return ";
3235 for (auto I = Subjects.begin(), E = Subjects.end(); I != E; ++I) {
3236 // If the subject has custom code associated with it, use the function
3237 // that was generated for GenerateAppertainsTo to check if the declaration
3238 // is valid.
3239 if ((*I)->isSubClassOf("SubsetSubject"))
3240 OS << functionNameForCustomAppertainsTo(**I) << "(D)";
3241 else
3242 OS << "isa<" << GetSubjectWithSuffix(*I) << ">(D)";
3243
3244 if (I + 1 != E)
3245 OS << " || ";
3246 }
3247 OS << ";\n";
3248 }
3249 OS << " }\n";
3250 OS << " llvm_unreachable(\"Invalid match rule\");\nreturn false;\n";
3251 OS << "}\n\n";
3252}
3253
Aaron Ballman3aff6332013-12-02 19:30:36 +00003254static void GenerateDefaultLangOptRequirements(raw_ostream &OS) {
3255 OS << "static bool defaultDiagnoseLangOpts(Sema &, ";
3256 OS << "const AttributeList &) {\n";
3257 OS << " return true;\n";
3258 OS << "}\n\n";
3259}
3260
3261static std::string GenerateLangOptRequirements(const Record &R,
3262 raw_ostream &OS) {
3263 // If the attribute has an empty or unset list of language requirements,
3264 // return the default handler.
3265 std::vector<Record *> LangOpts = R.getValueAsListOfDefs("LangOpts");
3266 if (LangOpts.empty())
3267 return "defaultDiagnoseLangOpts";
3268
3269 // Generate the test condition, as well as a unique function name for the
3270 // diagnostic test. The list of options should usually be short (one or two
3271 // options), and the uniqueness isn't strictly necessary (it is just for
3272 // codegen efficiency).
3273 std::string FnName = "check", Test;
Aaron Ballmanb097f7fe2014-03-02 17:38:37 +00003274 for (auto I = LangOpts.begin(), E = LangOpts.end(); I != E; ++I) {
Aaron Ballman3aff6332013-12-02 19:30:36 +00003275 std::string Part = (*I)->getValueAsString("Name");
Eric Fiselier341e8252016-09-02 18:53:31 +00003276 if ((*I)->getValueAsBit("Negated")) {
3277 FnName += "Not";
Alexis Hunt724f14e2014-11-28 00:53:20 +00003278 Test += "!";
Eric Fiselier341e8252016-09-02 18:53:31 +00003279 }
Aaron Ballman3aff6332013-12-02 19:30:36 +00003280 Test += "S.LangOpts." + Part;
3281 if (I + 1 != E)
3282 Test += " || ";
3283 FnName += Part;
3284 }
3285 FnName += "LangOpts";
3286
3287 // If this code has already been generated, simply return the previous
3288 // instance of it.
3289 static std::set<std::string> CustomLangOptsSet;
Eugene Zelenko5f02b772015-12-08 18:49:01 +00003290 auto I = CustomLangOptsSet.find(FnName);
Aaron Ballman3aff6332013-12-02 19:30:36 +00003291 if (I != CustomLangOptsSet.end())
3292 return *I;
3293
3294 OS << "static bool " << FnName << "(Sema &S, const AttributeList &Attr) {\n";
3295 OS << " if (" << Test << ")\n";
3296 OS << " return true;\n\n";
3297 OS << " S.Diag(Attr.getLoc(), diag::warn_attribute_ignored) ";
3298 OS << "<< Attr.getName();\n";
3299 OS << " return false;\n";
3300 OS << "}\n\n";
3301
3302 CustomLangOptsSet.insert(FnName);
3303 return FnName;
3304}
3305
Aaron Ballmanab7691c2014-01-09 22:48:32 +00003306static void GenerateDefaultTargetRequirements(raw_ostream &OS) {
Bob Wilson7c730832015-07-20 22:57:31 +00003307 OS << "static bool defaultTargetRequirements(const TargetInfo &) {\n";
Aaron Ballmanab7691c2014-01-09 22:48:32 +00003308 OS << " return true;\n";
3309 OS << "}\n\n";
3310}
3311
3312static std::string GenerateTargetRequirements(const Record &Attr,
3313 const ParsedAttrMap &Dupes,
3314 raw_ostream &OS) {
3315 // If the attribute is not a target specific attribute, return the default
3316 // target handler.
3317 if (!Attr.isSubClassOf("TargetSpecificAttr"))
3318 return "defaultTargetRequirements";
3319
3320 // Get the list of architectures to be tested for.
3321 const Record *R = Attr.getValueAsDef("Target");
3322 std::vector<std::string> Arches = R->getValueAsListOfStrings("Arches");
3323 if (Arches.empty()) {
3324 PrintError(Attr.getLoc(), "Empty list of target architectures for a "
3325 "target-specific attr");
3326 return "defaultTargetRequirements";
3327 }
3328
3329 // If there are other attributes which share the same parsed attribute kind,
3330 // such as target-specific attributes with a shared spelling, collapse the
3331 // duplicate architectures. This is required because a shared target-specific
3332 // attribute has only one AttributeList::Kind enumeration value, but it
3333 // applies to multiple target architectures. In order for the attribute to be
3334 // considered valid, all of its architectures need to be included.
3335 if (!Attr.isValueUnset("ParseKind")) {
3336 std::string APK = Attr.getValueAsString("ParseKind");
Aaron Ballmanb097f7fe2014-03-02 17:38:37 +00003337 for (const auto &I : Dupes) {
3338 if (I.first == APK) {
3339 std::vector<std::string> DA = I.second->getValueAsDef("Target")
3340 ->getValueAsListOfStrings("Arches");
George Burgess IV1881a572016-12-01 00:13:18 +00003341 std::move(DA.begin(), DA.end(), std::back_inserter(Arches));
Aaron Ballmanab7691c2014-01-09 22:48:32 +00003342 }
3343 }
3344 }
3345
Bob Wilson0058b822015-07-20 22:57:36 +00003346 std::string FnName = "isTarget";
3347 std::string Test;
3348 GenerateTargetSpecificAttrChecks(R, Arches, Test, &FnName);
Bob Wilson7c730832015-07-20 22:57:31 +00003349
Aaron Ballmanab7691c2014-01-09 22:48:32 +00003350 // If this code has already been generated, simply return the previous
3351 // instance of it.
3352 static std::set<std::string> CustomTargetSet;
Eugene Zelenko5f02b772015-12-08 18:49:01 +00003353 auto I = CustomTargetSet.find(FnName);
Aaron Ballmanab7691c2014-01-09 22:48:32 +00003354 if (I != CustomTargetSet.end())
3355 return *I;
3356
Bob Wilson7c730832015-07-20 22:57:31 +00003357 OS << "static bool " << FnName << "(const TargetInfo &Target) {\n";
3358 OS << " const llvm::Triple &T = Target.getTriple();\n";
Aaron Ballmanab7691c2014-01-09 22:48:32 +00003359 OS << " return " << Test << ";\n";
3360 OS << "}\n\n";
3361
3362 CustomTargetSet.insert(FnName);
3363 return FnName;
3364}
3365
Aaron Ballman81cb8cb2014-01-24 21:32:49 +00003366static void GenerateDefaultSpellingIndexToSemanticSpelling(raw_ostream &OS) {
3367 OS << "static unsigned defaultSpellingIndexToSemanticSpelling("
3368 << "const AttributeList &Attr) {\n";
3369 OS << " return UINT_MAX;\n";
3370 OS << "}\n\n";
3371}
3372
3373static std::string GenerateSpellingIndexToSemanticSpelling(const Record &Attr,
3374 raw_ostream &OS) {
3375 // If the attribute does not have a semantic form, we can bail out early.
3376 if (!Attr.getValueAsBit("ASTNode"))
3377 return "defaultSpellingIndexToSemanticSpelling";
3378
Aaron Ballmanc669cc02014-01-27 22:10:04 +00003379 std::vector<FlattenedSpelling> Spellings = GetFlattenedSpellings(Attr);
Aaron Ballman81cb8cb2014-01-24 21:32:49 +00003380
3381 // If there are zero or one spellings, or all of the spellings share the same
3382 // name, we can also bail out early.
3383 if (Spellings.size() <= 1 || SpellingNamesAreCommon(Spellings))
3384 return "defaultSpellingIndexToSemanticSpelling";
3385
3386 // Generate the enumeration we will use for the mapping.
3387 SemanticSpellingMap SemanticToSyntacticMap;
3388 std::string Enum = CreateSemanticSpellings(Spellings, SemanticToSyntacticMap);
Matthias Braunbbbf5d42016-12-04 05:55:09 +00003389 std::string Name = Attr.getName().str() + "AttrSpellingMap";
Aaron Ballman81cb8cb2014-01-24 21:32:49 +00003390
3391 OS << "static unsigned " << Name << "(const AttributeList &Attr) {\n";
3392 OS << Enum;
3393 OS << " unsigned Idx = Attr.getAttributeSpellingListIndex();\n";
3394 WriteSemanticSpellingSwitch("Idx", SemanticToSyntacticMap, OS);
3395 OS << "}\n\n";
3396
3397 return Name;
3398}
3399
Aaron Ballmanc669cc02014-01-27 22:10:04 +00003400static bool IsKnownToGCC(const Record &Attr) {
3401 // Look at the spellings for this subject; if there are any spellings which
3402 // claim to be known to GCC, the attribute is known to GCC.
George Burgess IV1881a572016-12-01 00:13:18 +00003403 return llvm::any_of(
3404 GetFlattenedSpellings(Attr),
3405 [](const FlattenedSpelling &S) { return S.knownToGCC(); });
Aaron Ballman9a99e0d2014-01-20 17:18:35 +00003406}
3407
Aaron Ballman8ee40b72013-09-09 23:33:17 +00003408/// Emits the parsed attribute helpers
3409void EmitClangAttrParsedAttrImpl(RecordKeeper &Records, raw_ostream &OS) {
3410 emitSourceFileHeader("Parsed attribute helpers", OS);
3411
Alex Lorenz9e7bf162017-04-18 14:33:39 +00003412 PragmaClangAttributeSupport &PragmaAttributeSupport =
3413 getPragmaAttributeSupport(Records);
3414
Aaron Ballmanab7691c2014-01-09 22:48:32 +00003415 // Get the list of parsed attributes, and accept the optional list of
3416 // duplicates due to the ParseKind.
3417 ParsedAttrMap Dupes;
3418 ParsedAttrMap Attrs = getParsedAttrList(Records, &Dupes);
Aaron Ballman8ee40b72013-09-09 23:33:17 +00003419
Aaron Ballman81cb8cb2014-01-24 21:32:49 +00003420 // Generate the default appertainsTo, target and language option diagnostic,
3421 // and spelling list index mapping methods.
Aaron Ballman74eeeae2013-11-27 13:27:02 +00003422 GenerateDefaultAppertainsTo(OS);
Aaron Ballman3aff6332013-12-02 19:30:36 +00003423 GenerateDefaultLangOptRequirements(OS);
Aaron Ballmanab7691c2014-01-09 22:48:32 +00003424 GenerateDefaultTargetRequirements(OS);
Aaron Ballman81cb8cb2014-01-24 21:32:49 +00003425 GenerateDefaultSpellingIndexToSemanticSpelling(OS);
Aaron Ballman74eeeae2013-11-27 13:27:02 +00003426
3427 // Generate the appertainsTo diagnostic methods and write their names into
3428 // another mapping. At the same time, generate the AttrInfoMap object
3429 // contents. Due to the reliance on generated code, use separate streams so
3430 // that code will not be interleaved.
3431 std::stringstream SS;
Aaron Ballmanb097f7fe2014-03-02 17:38:37 +00003432 for (auto I = Attrs.begin(), E = Attrs.end(); I != E; ++I) {
Aaron Ballmanab7691c2014-01-09 22:48:32 +00003433 // TODO: If the attribute's kind appears in the list of duplicates, that is
3434 // because it is a target-specific attribute that appears multiple times.
3435 // It would be beneficial to test whether the duplicates are "similar
3436 // enough" to each other to not cause problems. For instance, check that
Alp Toker96cf7582014-01-18 21:49:37 +00003437 // the spellings are identical, and custom parsing rules match, etc.
Aaron Ballmanab7691c2014-01-09 22:48:32 +00003438
Aaron Ballman8ee40b72013-09-09 23:33:17 +00003439 // We need to generate struct instances based off ParsedAttrInfo from
3440 // AttributeList.cpp.
Aaron Ballman74eeeae2013-11-27 13:27:02 +00003441 SS << " { ";
3442 emitArgInfo(*I->second, SS);
3443 SS << ", " << I->second->getValueAsBit("HasCustomParsing");
Aaron Ballmanab7691c2014-01-09 22:48:32 +00003444 SS << ", " << I->second->isSubClassOf("TargetSpecificAttr");
3445 SS << ", " << I->second->isSubClassOf("TypeAttr");
Richard Smith4f902c72016-03-08 00:32:55 +00003446 SS << ", " << I->second->isSubClassOf("StmtAttr");
Aaron Ballmanc669cc02014-01-27 22:10:04 +00003447 SS << ", " << IsKnownToGCC(*I->second);
Alex Lorenz9e7bf162017-04-18 14:33:39 +00003448 SS << ", " << PragmaAttributeSupport.isAttributedSupported(*I->second);
Aaron Ballman74eeeae2013-11-27 13:27:02 +00003449 SS << ", " << GenerateAppertainsTo(*I->second, OS);
Aaron Ballman3aff6332013-12-02 19:30:36 +00003450 SS << ", " << GenerateLangOptRequirements(*I->second, OS);
Aaron Ballmanab7691c2014-01-09 22:48:32 +00003451 SS << ", " << GenerateTargetRequirements(*I->second, Dupes, OS);
Aaron Ballman81cb8cb2014-01-24 21:32:49 +00003452 SS << ", " << GenerateSpellingIndexToSemanticSpelling(*I->second, OS);
Alex Lorenz9e7bf162017-04-18 14:33:39 +00003453 SS << ", "
3454 << PragmaAttributeSupport.generateStrictConformsTo(*I->second, OS);
Aaron Ballman74eeeae2013-11-27 13:27:02 +00003455 SS << " }";
Aaron Ballman8ee40b72013-09-09 23:33:17 +00003456
3457 if (I + 1 != E)
Aaron Ballman74eeeae2013-11-27 13:27:02 +00003458 SS << ",";
3459
3460 SS << " // AT_" << I->first << "\n";
Aaron Ballman8ee40b72013-09-09 23:33:17 +00003461 }
Aaron Ballman74eeeae2013-11-27 13:27:02 +00003462
3463 OS << "static const ParsedAttrInfo AttrInfoMap[AttributeList::UnknownAttribute + 1] = {\n";
3464 OS << SS.str();
Aaron Ballman8ee40b72013-09-09 23:33:17 +00003465 OS << "};\n\n";
Alex Lorenz9e7bf162017-04-18 14:33:39 +00003466
3467 // Generate the attribute match rules.
3468 emitAttributeMatchRules(PragmaAttributeSupport, OS);
Michael Han4a045172012-03-07 00:12:16 +00003469}
3470
Jakob Stoklund Olesen995e0e12012-06-13 05:12:41 +00003471// Emits the kind list of parsed attributes
3472void EmitClangAttrParsedAttrKinds(RecordKeeper &Records, raw_ostream &OS) {
Dmitri Gribenko6b11fca2013-01-30 21:54:20 +00003473 emitSourceFileHeader("Attribute name matcher", OS);
3474
Aaron Ballman09e98ff2014-01-13 21:42:39 +00003475 std::vector<Record *> Attrs = Records.getAllDerivedDefinitions("Attr");
Nico Weber20e08042016-09-03 02:55:10 +00003476 std::vector<StringMatcher::StringPair> GNU, Declspec, Microsoft, CXX11,
3477 Keywords, Pragma;
Aaron Ballman64e69862013-12-15 13:05:48 +00003478 std::set<std::string> Seen;
Aaron Ballman2f22b942014-05-20 19:47:14 +00003479 for (const auto *A : Attrs) {
3480 const Record &Attr = *A;
Richard Smith852e9ce2013-11-27 01:46:48 +00003481
Michael Han4a045172012-03-07 00:12:16 +00003482 bool SemaHandler = Attr.getValueAsBit("SemaHandler");
Douglas Gregor19fbb8f2012-05-02 16:18:45 +00003483 bool Ignored = Attr.getValueAsBit("Ignored");
Douglas Gregor19fbb8f2012-05-02 16:18:45 +00003484 if (SemaHandler || Ignored) {
Aaron Ballman09e98ff2014-01-13 21:42:39 +00003485 // Attribute spellings can be shared between target-specific attributes,
3486 // and can be shared between syntaxes for the same attribute. For
3487 // instance, an attribute can be spelled GNU<"interrupt"> for an ARM-
3488 // specific attribute, or MSP430-specific attribute. Additionally, an
3489 // attribute can be spelled GNU<"dllexport"> and Declspec<"dllexport">
3490 // for the same semantic attribute. Ultimately, we need to map each of
3491 // these to a single AttributeList::Kind value, but the StringMatcher
3492 // class cannot handle duplicate match strings. So we generate a list of
3493 // string to match based on the syntax, and emit multiple string matchers
3494 // depending on the syntax used.
Aaron Ballman64e69862013-12-15 13:05:48 +00003495 std::string AttrName;
3496 if (Attr.isSubClassOf("TargetSpecificAttr") &&
3497 !Attr.isValueUnset("ParseKind")) {
3498 AttrName = Attr.getValueAsString("ParseKind");
3499 if (Seen.find(AttrName) != Seen.end())
3500 continue;
3501 Seen.insert(AttrName);
3502 } else
3503 AttrName = NormalizeAttrName(StringRef(Attr.getName())).str();
3504
Aaron Ballmanc669cc02014-01-27 22:10:04 +00003505 std::vector<FlattenedSpelling> Spellings = GetFlattenedSpellings(Attr);
Aaron Ballmanb097f7fe2014-03-02 17:38:37 +00003506 for (const auto &S : Spellings) {
Benjamin Kramer2e018ef2016-05-27 13:36:58 +00003507 const std::string &RawSpelling = S.name();
Craig Topper8ae12032014-05-07 06:21:57 +00003508 std::vector<StringMatcher::StringPair> *Matches = nullptr;
Benjamin Kramer2e018ef2016-05-27 13:36:58 +00003509 std::string Spelling;
3510 const std::string &Variety = S.variety();
Aaron Ballman09e98ff2014-01-13 21:42:39 +00003511 if (Variety == "CXX11") {
3512 Matches = &CXX11;
Aaron Ballmanb097f7fe2014-03-02 17:38:37 +00003513 Spelling += S.nameSpace();
Alexis Hunt3bc72c12012-06-19 23:57:03 +00003514 Spelling += "::";
Aaron Ballman09e98ff2014-01-13 21:42:39 +00003515 } else if (Variety == "GNU")
3516 Matches = &GNU;
3517 else if (Variety == "Declspec")
3518 Matches = &Declspec;
Nico Weber20e08042016-09-03 02:55:10 +00003519 else if (Variety == "Microsoft")
3520 Matches = &Microsoft;
Aaron Ballman09e98ff2014-01-13 21:42:39 +00003521 else if (Variety == "Keyword")
3522 Matches = &Keywords;
Tyler Nowickie8b07ed2014-06-13 17:57:25 +00003523 else if (Variety == "Pragma")
3524 Matches = &Pragma;
Alexis Hunta0e54d42012-06-18 16:13:52 +00003525
Aaron Ballman09e98ff2014-01-13 21:42:39 +00003526 assert(Matches && "Unsupported spelling variety found");
3527
Justin Lebar4086fe52017-01-05 16:51:54 +00003528 if (Variety == "GNU")
3529 Spelling += NormalizeGNUAttrSpelling(RawSpelling);
3530 else
3531 Spelling += RawSpelling;
3532
Douglas Gregor19fbb8f2012-05-02 16:18:45 +00003533 if (SemaHandler)
Aaron Ballman09e98ff2014-01-13 21:42:39 +00003534 Matches->push_back(StringMatcher::StringPair(Spelling,
3535 "return AttributeList::AT_" + AttrName + ";"));
Douglas Gregor19fbb8f2012-05-02 16:18:45 +00003536 else
Aaron Ballman09e98ff2014-01-13 21:42:39 +00003537 Matches->push_back(StringMatcher::StringPair(Spelling,
3538 "return AttributeList::IgnoredAttribute;"));
Michael Han4a045172012-03-07 00:12:16 +00003539 }
3540 }
3541 }
Douglas Gregor377f99b2012-05-02 17:33:51 +00003542
Aaron Ballman09e98ff2014-01-13 21:42:39 +00003543 OS << "static AttributeList::Kind getAttrKind(StringRef Name, ";
3544 OS << "AttributeList::Syntax Syntax) {\n";
3545 OS << " if (AttributeList::AS_GNU == Syntax) {\n";
3546 StringMatcher("Name", GNU, OS).Emit();
3547 OS << " } else if (AttributeList::AS_Declspec == Syntax) {\n";
3548 StringMatcher("Name", Declspec, OS).Emit();
Nico Weber20e08042016-09-03 02:55:10 +00003549 OS << " } else if (AttributeList::AS_Microsoft == Syntax) {\n";
3550 StringMatcher("Name", Microsoft, OS).Emit();
Aaron Ballman09e98ff2014-01-13 21:42:39 +00003551 OS << " } else if (AttributeList::AS_CXX11 == Syntax) {\n";
3552 StringMatcher("Name", CXX11, OS).Emit();
Douglas Gregorbec595a2015-06-19 18:27:45 +00003553 OS << " } else if (AttributeList::AS_Keyword == Syntax || ";
3554 OS << "AttributeList::AS_ContextSensitiveKeyword == Syntax) {\n";
Aaron Ballman09e98ff2014-01-13 21:42:39 +00003555 StringMatcher("Name", Keywords, OS).Emit();
Tyler Nowickie8b07ed2014-06-13 17:57:25 +00003556 OS << " } else if (AttributeList::AS_Pragma == Syntax) {\n";
3557 StringMatcher("Name", Pragma, OS).Emit();
Aaron Ballman09e98ff2014-01-13 21:42:39 +00003558 OS << " }\n";
3559 OS << " return AttributeList::UnknownAttribute;\n"
Douglas Gregor377f99b2012-05-02 17:33:51 +00003560 << "}\n";
Michael Han4a045172012-03-07 00:12:16 +00003561}
3562
Alexander Kornienko5bc364e2013-01-07 17:53:08 +00003563// Emits the code to dump an attribute.
3564void EmitClangAttrDump(RecordKeeper &Records, raw_ostream &OS) {
Dmitri Gribenko6b11fca2013-01-30 21:54:20 +00003565 emitSourceFileHeader("Attribute dumper", OS);
3566
John McCall2225c8b2016-03-01 00:18:05 +00003567 OS << " switch (A->getKind()) {\n";
Alexander Kornienko5bc364e2013-01-07 17:53:08 +00003568 std::vector<Record*> Attrs = Records.getAllDerivedDefinitions("Attr"), Args;
Aaron Ballman2f22b942014-05-20 19:47:14 +00003569 for (const auto *Attr : Attrs) {
3570 const Record &R = *Attr;
Alexander Kornienko5bc364e2013-01-07 17:53:08 +00003571 if (!R.getValueAsBit("ASTNode"))
3572 continue;
3573 OS << " case attr::" << R.getName() << ": {\n";
Aaron Ballmanbc909612014-01-22 21:51:20 +00003574
3575 // If the attribute has a semantically-meaningful name (which is determined
3576 // by whether there is a Spelling enumeration for it), then write out the
3577 // spelling used for the attribute.
Aaron Ballmanc669cc02014-01-27 22:10:04 +00003578 std::vector<FlattenedSpelling> Spellings = GetFlattenedSpellings(R);
Aaron Ballmanbc909612014-01-22 21:51:20 +00003579 if (Spellings.size() > 1 && !SpellingNamesAreCommon(Spellings))
3580 OS << " OS << \" \" << A->getSpelling();\n";
3581
Alexander Kornienko5bc364e2013-01-07 17:53:08 +00003582 Args = R.getValueAsListOfDefs("Args");
3583 if (!Args.empty()) {
Eugene Zelenko5f02b772015-12-08 18:49:01 +00003584 OS << " const auto *SA = cast<" << R.getName()
Alexander Kornienko5bc364e2013-01-07 17:53:08 +00003585 << "Attr>(A);\n";
Aaron Ballman2f22b942014-05-20 19:47:14 +00003586 for (const auto *Arg : Args)
3587 createArgument(*Arg, R.getName())->writeDump(OS);
Richard Trieude5cc7d2013-01-31 01:44:26 +00003588
Eugene Zelenko5f02b772015-12-08 18:49:01 +00003589 for (const auto *AI : Args)
3590 createArgument(*AI, R.getName())->writeDumpChildren(OS);
Alexander Kornienko5bc364e2013-01-07 17:53:08 +00003591 }
3592 OS <<
3593 " break;\n"
3594 " }\n";
3595 }
3596 OS << " }\n";
3597}
3598
Aaron Ballman35db2b32014-01-29 22:13:45 +00003599void EmitClangAttrParserStringSwitches(RecordKeeper &Records,
3600 raw_ostream &OS) {
3601 emitSourceFileHeader("Parser-related llvm::StringSwitch cases", OS);
3602 emitClangAttrArgContextList(Records, OS);
3603 emitClangAttrIdentifierArgList(Records, OS);
3604 emitClangAttrTypeArgList(Records, OS);
3605 emitClangAttrLateParsedList(Records, OS);
3606}
3607
Alex Lorenz9e7bf162017-04-18 14:33:39 +00003608void EmitClangAttrSubjectMatchRulesParserStringSwitches(RecordKeeper &Records,
3609 raw_ostream &OS) {
3610 getPragmaAttributeSupport(Records).generateParsingHelpers(OS);
3611}
3612
Aaron Ballman97dba042014-02-17 15:27:10 +00003613class DocumentationData {
3614public:
Aaron Ballman1a3e5852014-02-17 16:18:32 +00003615 const Record *Documentation;
3616 const Record *Attribute;
Aaron Ballman97dba042014-02-17 15:27:10 +00003617
Aaron Ballman4de1b582014-02-19 22:59:32 +00003618 DocumentationData(const Record &Documentation, const Record &Attribute)
3619 : Documentation(&Documentation), Attribute(&Attribute) {}
Aaron Ballman97dba042014-02-17 15:27:10 +00003620};
3621
Aaron Ballman4de1b582014-02-19 22:59:32 +00003622static void WriteCategoryHeader(const Record *DocCategory,
Aaron Ballman97dba042014-02-17 15:27:10 +00003623 raw_ostream &OS) {
Aaron Ballman4de1b582014-02-19 22:59:32 +00003624 const std::string &Name = DocCategory->getValueAsString("Name");
3625 OS << Name << "\n" << std::string(Name.length(), '=') << "\n";
3626
3627 // If there is content, print that as well.
3628 std::string ContentStr = DocCategory->getValueAsString("Content");
Benjamin Kramer5c404072015-04-10 21:37:21 +00003629 // Trim leading and trailing newlines and spaces.
3630 OS << StringRef(ContentStr).trim();
3631
Aaron Ballman4de1b582014-02-19 22:59:32 +00003632 OS << "\n\n";
Aaron Ballman97dba042014-02-17 15:27:10 +00003633}
3634
Aaron Ballmana66b5742014-02-17 15:36:08 +00003635enum SpellingKind {
3636 GNU = 1 << 0,
3637 CXX11 = 1 << 1,
3638 Declspec = 1 << 2,
Nico Weber20e08042016-09-03 02:55:10 +00003639 Microsoft = 1 << 3,
3640 Keyword = 1 << 4,
3641 Pragma = 1 << 5
Aaron Ballmana66b5742014-02-17 15:36:08 +00003642};
3643
Alex Lorenz9e7bf162017-04-18 14:33:39 +00003644static void WriteDocumentation(RecordKeeper &Records,
3645 const DocumentationData &Doc, raw_ostream &OS) {
Aaron Ballman97dba042014-02-17 15:27:10 +00003646 // FIXME: there is no way to have a per-spelling category for the attribute
3647 // documentation. This may not be a limiting factor since the spellings
3648 // should generally be consistently applied across the category.
3649
Aaron Ballman1a3e5852014-02-17 16:18:32 +00003650 std::vector<FlattenedSpelling> Spellings = GetFlattenedSpellings(*Doc.Attribute);
Aaron Ballman97dba042014-02-17 15:27:10 +00003651
3652 // Determine the heading to be used for this attribute.
Aaron Ballman1a3e5852014-02-17 16:18:32 +00003653 std::string Heading = Doc.Documentation->getValueAsString("Heading");
Aaron Ballmanea6668c2014-02-21 14:14:04 +00003654 bool CustomHeading = !Heading.empty();
Aaron Ballman97dba042014-02-17 15:27:10 +00003655 if (Heading.empty()) {
3656 // If there's only one spelling, we can simply use that.
3657 if (Spellings.size() == 1)
3658 Heading = Spellings.begin()->name();
3659 else {
3660 std::set<std::string> Uniques;
Aaron Ballmanb097f7fe2014-03-02 17:38:37 +00003661 for (auto I = Spellings.begin(), E = Spellings.end();
3662 I != E && Uniques.size() <= 1; ++I) {
Aaron Ballman97dba042014-02-17 15:27:10 +00003663 std::string Spelling = NormalizeNameForSpellingComparison(I->name());
3664 Uniques.insert(Spelling);
3665 }
3666 // If the semantic map has only one spelling, that is sufficient for our
3667 // needs.
3668 if (Uniques.size() == 1)
3669 Heading = *Uniques.begin();
3670 }
3671 }
3672
3673 // If the heading is still empty, it is an error.
3674 if (Heading.empty())
Aaron Ballman1a3e5852014-02-17 16:18:32 +00003675 PrintFatalError(Doc.Attribute->getLoc(),
Aaron Ballman97dba042014-02-17 15:27:10 +00003676 "This attribute requires a heading to be specified");
3677
3678 // Gather a list of unique spellings; this is not the same as the semantic
3679 // spelling for the attribute. Variations in underscores and other non-
3680 // semantic characters are still acceptable.
3681 std::vector<std::string> Names;
3682
Aaron Ballman97dba042014-02-17 15:27:10 +00003683 unsigned SupportedSpellings = 0;
Aaron Ballmanb097f7fe2014-03-02 17:38:37 +00003684 for (const auto &I : Spellings) {
3685 SpellingKind Kind = StringSwitch<SpellingKind>(I.variety())
Tyler Nowickie8b07ed2014-06-13 17:57:25 +00003686 .Case("GNU", GNU)
3687 .Case("CXX11", CXX11)
3688 .Case("Declspec", Declspec)
Nico Weber20e08042016-09-03 02:55:10 +00003689 .Case("Microsoft", Microsoft)
Tyler Nowickie8b07ed2014-06-13 17:57:25 +00003690 .Case("Keyword", Keyword)
3691 .Case("Pragma", Pragma);
Aaron Ballman97dba042014-02-17 15:27:10 +00003692
3693 // Mask in the supported spelling.
3694 SupportedSpellings |= Kind;
3695
3696 std::string Name;
Aaron Ballmanb097f7fe2014-03-02 17:38:37 +00003697 if (Kind == CXX11 && !I.nameSpace().empty())
3698 Name = I.nameSpace() + "::";
3699 Name += I.name();
Aaron Ballman97dba042014-02-17 15:27:10 +00003700
3701 // If this name is the same as the heading, do not add it.
3702 if (Name != Heading)
3703 Names.push_back(Name);
3704 }
3705
3706 // Print out the heading for the attribute. If there are alternate spellings,
3707 // then display those after the heading.
Aaron Ballmanea6668c2014-02-21 14:14:04 +00003708 if (!CustomHeading && !Names.empty()) {
Aaron Ballman97dba042014-02-17 15:27:10 +00003709 Heading += " (";
Aaron Ballmanb097f7fe2014-03-02 17:38:37 +00003710 for (auto I = Names.begin(), E = Names.end(); I != E; ++I) {
Aaron Ballman97dba042014-02-17 15:27:10 +00003711 if (I != Names.begin())
3712 Heading += ", ";
3713 Heading += *I;
3714 }
3715 Heading += ")";
3716 }
3717 OS << Heading << "\n" << std::string(Heading.length(), '-') << "\n";
3718
3719 if (!SupportedSpellings)
Aaron Ballman1a3e5852014-02-17 16:18:32 +00003720 PrintFatalError(Doc.Attribute->getLoc(),
Aaron Ballman97dba042014-02-17 15:27:10 +00003721 "Attribute has no supported spellings; cannot be "
3722 "documented");
3723
3724 // List what spelling syntaxes the attribute supports.
3725 OS << ".. csv-table:: Supported Syntaxes\n";
Tyler Nowickie8b07ed2014-06-13 17:57:25 +00003726 OS << " :header: \"GNU\", \"C++11\", \"__declspec\", \"Keyword\",";
Alex Lorenz9e7bf162017-04-18 14:33:39 +00003727 OS << " \"Pragma\", \"Pragma clang attribute\"\n\n";
Aaron Ballman97dba042014-02-17 15:27:10 +00003728 OS << " \"";
3729 if (SupportedSpellings & GNU) OS << "X";
3730 OS << "\",\"";
3731 if (SupportedSpellings & CXX11) OS << "X";
3732 OS << "\",\"";
3733 if (SupportedSpellings & Declspec) OS << "X";
3734 OS << "\",\"";
3735 if (SupportedSpellings & Keyword) OS << "X";
Aaron Ballman120c79f2014-06-25 12:48:06 +00003736 OS << "\", \"";
Tyler Nowickie8b07ed2014-06-13 17:57:25 +00003737 if (SupportedSpellings & Pragma) OS << "X";
Alex Lorenz9e7bf162017-04-18 14:33:39 +00003738 OS << "\", \"";
3739 if (getPragmaAttributeSupport(Records).isAttributedSupported(*Doc.Attribute))
3740 OS << "X";
Tyler Nowickie8b07ed2014-06-13 17:57:25 +00003741 OS << "\"\n\n";
Aaron Ballman97dba042014-02-17 15:27:10 +00003742
3743 // If the attribute is deprecated, print a message about it, and possibly
3744 // provide a replacement attribute.
Aaron Ballman1a3e5852014-02-17 16:18:32 +00003745 if (!Doc.Documentation->isValueUnset("Deprecated")) {
Aaron Ballman97dba042014-02-17 15:27:10 +00003746 OS << "This attribute has been deprecated, and may be removed in a future "
3747 << "version of Clang.";
Aaron Ballman1a3e5852014-02-17 16:18:32 +00003748 const Record &Deprecated = *Doc.Documentation->getValueAsDef("Deprecated");
Aaron Ballman97dba042014-02-17 15:27:10 +00003749 std::string Replacement = Deprecated.getValueAsString("Replacement");
3750 if (!Replacement.empty())
3751 OS << " This attribute has been superseded by ``"
3752 << Replacement << "``.";
3753 OS << "\n\n";
3754 }
3755
Aaron Ballman1a3e5852014-02-17 16:18:32 +00003756 std::string ContentStr = Doc.Documentation->getValueAsString("Content");
Aaron Ballman97dba042014-02-17 15:27:10 +00003757 // Trim leading and trailing newlines and spaces.
Benjamin Kramer5c404072015-04-10 21:37:21 +00003758 OS << StringRef(ContentStr).trim();
Aaron Ballman97dba042014-02-17 15:27:10 +00003759
3760 OS << "\n\n\n";
3761}
3762
3763void EmitClangAttrDocs(RecordKeeper &Records, raw_ostream &OS) {
3764 // Get the documentation introduction paragraph.
3765 const Record *Documentation = Records.getDef("GlobalDocumentation");
3766 if (!Documentation) {
3767 PrintFatalError("The Documentation top-level definition is missing, "
3768 "no documentation will be generated.");
3769 return;
3770 }
3771
Aaron Ballman4de1b582014-02-19 22:59:32 +00003772 OS << Documentation->getValueAsString("Intro") << "\n";
Aaron Ballman97dba042014-02-17 15:27:10 +00003773
Aaron Ballman97dba042014-02-17 15:27:10 +00003774 // Gather the Documentation lists from each of the attributes, based on the
3775 // category provided.
3776 std::vector<Record *> Attrs = Records.getAllDerivedDefinitions("Attr");
Aaron Ballmanb097f7fe2014-03-02 17:38:37 +00003777 std::map<const Record *, std::vector<DocumentationData>> SplitDocs;
Aaron Ballman2f22b942014-05-20 19:47:14 +00003778 for (const auto *A : Attrs) {
3779 const Record &Attr = *A;
Aaron Ballman97dba042014-02-17 15:27:10 +00003780 std::vector<Record *> Docs = Attr.getValueAsListOfDefs("Documentation");
Aaron Ballman2f22b942014-05-20 19:47:14 +00003781 for (const auto *D : Docs) {
3782 const Record &Doc = *D;
Aaron Ballman4de1b582014-02-19 22:59:32 +00003783 const Record *Category = Doc.getValueAsDef("Category");
Aaron Ballman97dba042014-02-17 15:27:10 +00003784 // If the category is "undocumented", then there cannot be any other
3785 // documentation categories (otherwise, the attribute would become
3786 // documented).
Aaron Ballman4de1b582014-02-19 22:59:32 +00003787 std::string Cat = Category->getValueAsString("Name");
3788 bool Undocumented = Cat == "Undocumented";
Aaron Ballman97dba042014-02-17 15:27:10 +00003789 if (Undocumented && Docs.size() > 1)
3790 PrintFatalError(Doc.getLoc(),
3791 "Attribute is \"Undocumented\", but has multiple "
3792 "documentation categories");
3793
3794 if (!Undocumented)
Aaron Ballman4de1b582014-02-19 22:59:32 +00003795 SplitDocs[Category].push_back(DocumentationData(Doc, Attr));
Aaron Ballman97dba042014-02-17 15:27:10 +00003796 }
3797 }
3798
3799 // Having split the attributes out based on what documentation goes where,
3800 // we can begin to generate sections of documentation.
Aaron Ballmanb097f7fe2014-03-02 17:38:37 +00003801 for (const auto &I : SplitDocs) {
3802 WriteCategoryHeader(I.first, OS);
Aaron Ballman97dba042014-02-17 15:27:10 +00003803
3804 // Walk over each of the attributes in the category and write out their
3805 // documentation.
Aaron Ballmanb097f7fe2014-03-02 17:38:37 +00003806 for (const auto &Doc : I.second)
Alex Lorenz9e7bf162017-04-18 14:33:39 +00003807 WriteDocumentation(Records, Doc, OS);
3808 }
3809}
3810
3811void EmitTestPragmaAttributeSupportedAttributes(RecordKeeper &Records,
3812 raw_ostream &OS) {
3813 PragmaClangAttributeSupport Support = getPragmaAttributeSupport(Records);
3814 ParsedAttrMap Attrs = getParsedAttrList(Records);
3815 unsigned NumAttrs = 0;
3816 for (const auto &I : Attrs) {
3817 if (Support.isAttributedSupported(*I.second))
3818 ++NumAttrs;
3819 }
3820 OS << "#pragma clang attribute supports " << NumAttrs << " attributes:\n";
3821 for (const auto &I : Attrs) {
3822 if (!Support.isAttributedSupported(*I.second))
3823 continue;
3824 OS << I.first;
3825 if (I.second->isValueUnset("Subjects")) {
3826 OS << " ()\n";
3827 continue;
3828 }
3829 const Record *SubjectObj = I.second->getValueAsDef("Subjects");
3830 std::vector<Record *> Subjects =
3831 SubjectObj->getValueAsListOfDefs("Subjects");
3832 OS << " (";
3833 for (const auto &Subject : llvm::enumerate(Subjects)) {
3834 if (Subject.index())
3835 OS << ", ";
Alex Lorenz24952fb2017-04-19 15:52:11 +00003836 PragmaClangAttributeSupport::RuleOrAggregateRuleSet &RuleSet =
3837 Support.SubjectsToRules.find(Subject.value())->getSecond();
3838 if (RuleSet.isRule()) {
3839 OS << RuleSet.getRule().getEnumValueName();
3840 continue;
3841 }
3842 OS << "(";
3843 for (const auto &Rule : llvm::enumerate(RuleSet.getAggregateRuleSet())) {
3844 if (Rule.index())
3845 OS << ", ";
3846 OS << Rule.value().getEnumValueName();
3847 }
3848 OS << ")";
Alex Lorenz9e7bf162017-04-18 14:33:39 +00003849 }
3850 OS << ")\n";
Aaron Ballman97dba042014-02-17 15:27:10 +00003851 }
3852}
3853
Jakob Stoklund Olesen995e0e12012-06-13 05:12:41 +00003854} // end namespace clang