1 //===--- Stencil.cpp - Stencil implementation -------------------*- C++ -*-===//
2 //
3 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
4 // See https://llvm.org/LICENSE.txt for license information.
5 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
6 //
7 //===----------------------------------------------------------------------===//
8
9 #include "clang/Tooling/Transformer/Stencil.h"
10 #include "clang/AST/ASTContext.h"
11 #include "clang/AST/ASTTypeTraits.h"
12 #include "clang/AST/Expr.h"
13 #include "clang/ASTMatchers/ASTMatchFinder.h"
14 #include "clang/ASTMatchers/ASTMatchers.h"
15 #include "clang/Basic/SourceLocation.h"
16 #include "clang/Lex/Lexer.h"
17 #include "clang/Tooling/Transformer/SourceCode.h"
18 #include "clang/Tooling/Transformer/SourceCodeBuilders.h"
19 #include "llvm/ADT/SmallVector.h"
20 #include "llvm/ADT/Twine.h"
21 #include "llvm/Support/Errc.h"
22 #include "llvm/Support/Error.h"
23 #include <atomic>
24 #include <memory>
25 #include <string>
26
27 using namespace clang;
28 using namespace transformer;
29
30 using ast_matchers::MatchFinder;
31 using llvm::errc;
32 using llvm::Error;
33 using llvm::Expected;
34 using llvm::StringError;
35
36 static llvm::Expected<DynTypedNode>
getNode(const ast_matchers::BoundNodes & Nodes,StringRef Id)37 getNode(const ast_matchers::BoundNodes &Nodes, StringRef Id) {
38 auto &NodesMap = Nodes.getMap();
39 auto It = NodesMap.find(Id);
40 if (It == NodesMap.end())
41 return llvm::make_error<llvm::StringError>(llvm::errc::invalid_argument,
42 "Id not bound: " + Id);
43 return It->second;
44 }
45
46 namespace {
47 // An arbitrary fragment of code within a stencil.
48 struct RawTextData {
RawTextData__anon27ca83a90111::RawTextData49 explicit RawTextData(std::string T) : Text(std::move(T)) {}
50 std::string Text;
51 };
52
53 // A debugging operation to dump the AST for a particular (bound) AST node.
54 struct DebugPrintNodeData {
DebugPrintNodeData__anon27ca83a90111::DebugPrintNodeData55 explicit DebugPrintNodeData(std::string S) : Id(std::move(S)) {}
56 std::string Id;
57 };
58
59 // Operators that take a single node Id as an argument.
60 enum class UnaryNodeOperator {
61 Parens,
62 Deref,
63 MaybeDeref,
64 AddressOf,
65 MaybeAddressOf,
66 Describe,
67 };
68
69 // Generic container for stencil operations with a (single) node-id argument.
70 struct UnaryOperationData {
UnaryOperationData__anon27ca83a90111::UnaryOperationData71 UnaryOperationData(UnaryNodeOperator Op, std::string Id)
72 : Op(Op), Id(std::move(Id)) {}
73 UnaryNodeOperator Op;
74 std::string Id;
75 };
76
77 // The fragment of code corresponding to the selected range.
78 struct SelectorData {
SelectorData__anon27ca83a90111::SelectorData79 explicit SelectorData(RangeSelector S) : Selector(std::move(S)) {}
80 RangeSelector Selector;
81 };
82
83 // A stencil operation to build a member access `e.m` or `e->m`, as appropriate.
84 struct AccessData {
AccessData__anon27ca83a90111::AccessData85 AccessData(StringRef BaseId, Stencil Member)
86 : BaseId(std::string(BaseId)), Member(std::move(Member)) {}
87 std::string BaseId;
88 Stencil Member;
89 };
90
91 struct IfBoundData {
IfBoundData__anon27ca83a90111::IfBoundData92 IfBoundData(StringRef Id, Stencil TrueStencil, Stencil FalseStencil)
93 : Id(std::string(Id)), TrueStencil(std::move(TrueStencil)),
94 FalseStencil(std::move(FalseStencil)) {}
95 std::string Id;
96 Stencil TrueStencil;
97 Stencil FalseStencil;
98 };
99
100 struct SequenceData {
SequenceData__anon27ca83a90111::SequenceData101 SequenceData(std::vector<Stencil> Stencils) : Stencils(std::move(Stencils)) {}
102 std::vector<Stencil> Stencils;
103 };
104
toStringData(const RawTextData & Data)105 std::string toStringData(const RawTextData &Data) {
106 std::string Result;
107 llvm::raw_string_ostream OS(Result);
108 OS << "\"";
109 OS.write_escaped(Data.Text);
110 OS << "\"";
111 OS.flush();
112 return Result;
113 }
114
toStringData(const DebugPrintNodeData & Data)115 std::string toStringData(const DebugPrintNodeData &Data) {
116 return (llvm::Twine("dPrint(\"") + Data.Id + "\")").str();
117 }
118
toStringData(const UnaryOperationData & Data)119 std::string toStringData(const UnaryOperationData &Data) {
120 StringRef OpName;
121 switch (Data.Op) {
122 case UnaryNodeOperator::Parens:
123 OpName = "expression";
124 break;
125 case UnaryNodeOperator::Deref:
126 OpName = "deref";
127 break;
128 case UnaryNodeOperator::MaybeDeref:
129 OpName = "maybeDeref";
130 break;
131 case UnaryNodeOperator::AddressOf:
132 OpName = "addressOf";
133 break;
134 case UnaryNodeOperator::MaybeAddressOf:
135 OpName = "maybeAddressOf";
136 break;
137 case UnaryNodeOperator::Describe:
138 OpName = "describe";
139 break;
140 }
141 return (OpName + "(\"" + Data.Id + "\")").str();
142 }
143
toStringData(const SelectorData &)144 std::string toStringData(const SelectorData &) { return "selection(...)"; }
145
toStringData(const AccessData & Data)146 std::string toStringData(const AccessData &Data) {
147 return (llvm::Twine("access(\"") + Data.BaseId + "\", " +
148 Data.Member->toString() + ")")
149 .str();
150 }
151
toStringData(const IfBoundData & Data)152 std::string toStringData(const IfBoundData &Data) {
153 return (llvm::Twine("ifBound(\"") + Data.Id + "\", " +
154 Data.TrueStencil->toString() + ", " + Data.FalseStencil->toString() +
155 ")")
156 .str();
157 }
158
toStringData(const MatchConsumer<std::string> &)159 std::string toStringData(const MatchConsumer<std::string> &) {
160 return "run(...)";
161 }
162
toStringData(const SequenceData & Data)163 std::string toStringData(const SequenceData &Data) {
164 llvm::SmallVector<std::string, 2> Parts;
165 Parts.reserve(Data.Stencils.size());
166 for (const auto &S : Data.Stencils)
167 Parts.push_back(S->toString());
168 return (llvm::Twine("seq(") + llvm::join(Parts, ", ") + ")").str();
169 }
170
171 // The `evalData()` overloads evaluate the given stencil data to a string, given
172 // the match result, and append it to `Result`. We define an overload for each
173 // type of stencil data.
174
evalData(const RawTextData & Data,const MatchFinder::MatchResult &,std::string * Result)175 Error evalData(const RawTextData &Data, const MatchFinder::MatchResult &,
176 std::string *Result) {
177 Result->append(Data.Text);
178 return Error::success();
179 }
180
printNode(StringRef Id,const MatchFinder::MatchResult & Match,std::string * Result)181 static Error printNode(StringRef Id, const MatchFinder::MatchResult &Match,
182 std::string *Result) {
183 std::string Output;
184 llvm::raw_string_ostream Os(Output);
185 auto NodeOrErr = getNode(Match.Nodes, Id);
186 if (auto Err = NodeOrErr.takeError())
187 return Err;
188 NodeOrErr->print(Os, PrintingPolicy(Match.Context->getLangOpts()));
189 *Result += Os.str();
190 return Error::success();
191 }
192
evalData(const DebugPrintNodeData & Data,const MatchFinder::MatchResult & Match,std::string * Result)193 Error evalData(const DebugPrintNodeData &Data,
194 const MatchFinder::MatchResult &Match, std::string *Result) {
195 return printNode(Data.Id, Match, Result);
196 }
197
evalData(const UnaryOperationData & Data,const MatchFinder::MatchResult & Match,std::string * Result)198 Error evalData(const UnaryOperationData &Data,
199 const MatchFinder::MatchResult &Match, std::string *Result) {
200 // The `Describe` operation can be applied to any node, not just expressions,
201 // so it is handled here, separately.
202 if (Data.Op == UnaryNodeOperator::Describe)
203 return printNode(Data.Id, Match, Result);
204
205 const auto *E = Match.Nodes.getNodeAs<Expr>(Data.Id);
206 if (E == nullptr)
207 return llvm::make_error<StringError>(
208 errc::invalid_argument, "Id not bound or not Expr: " + Data.Id);
209 llvm::Optional<std::string> Source;
210 switch (Data.Op) {
211 case UnaryNodeOperator::Parens:
212 Source = tooling::buildParens(*E, *Match.Context);
213 break;
214 case UnaryNodeOperator::Deref:
215 Source = tooling::buildDereference(*E, *Match.Context);
216 break;
217 case UnaryNodeOperator::MaybeDeref:
218 if (!E->getType()->isAnyPointerType()) {
219 *Result += tooling::getText(*E, *Match.Context);
220 return Error::success();
221 }
222 Source = tooling::buildDereference(*E, *Match.Context);
223 break;
224 case UnaryNodeOperator::AddressOf:
225 Source = tooling::buildAddressOf(*E, *Match.Context);
226 break;
227 case UnaryNodeOperator::MaybeAddressOf:
228 if (E->getType()->isAnyPointerType()) {
229 *Result += tooling::getText(*E, *Match.Context);
230 return Error::success();
231 }
232 Source = tooling::buildAddressOf(*E, *Match.Context);
233 break;
234 case UnaryNodeOperator::Describe:
235 llvm_unreachable("This case is handled at the start of the function");
236 }
237 if (!Source)
238 return llvm::make_error<StringError>(
239 errc::invalid_argument,
240 "Could not construct expression source from ID: " + Data.Id);
241 *Result += *Source;
242 return Error::success();
243 }
244
evalData(const SelectorData & Data,const MatchFinder::MatchResult & Match,std::string * Result)245 Error evalData(const SelectorData &Data, const MatchFinder::MatchResult &Match,
246 std::string *Result) {
247 auto RawRange = Data.Selector(Match);
248 if (!RawRange)
249 return RawRange.takeError();
250 CharSourceRange Range = Lexer::makeFileCharRange(
251 *RawRange, *Match.SourceManager, Match.Context->getLangOpts());
252 if (Range.isInvalid()) {
253 // Validate the original range to attempt to get a meaningful error message.
254 // If it's valid, then something else is the cause and we just return the
255 // generic failure message.
256 if (auto Err = tooling::validateEditRange(*RawRange, *Match.SourceManager))
257 return handleErrors(std::move(Err), [](std::unique_ptr<StringError> E) {
258 assert(E->convertToErrorCode() ==
259 llvm::make_error_code(errc::invalid_argument) &&
260 "Validation errors must carry the invalid_argument code");
261 return llvm::createStringError(
262 errc::invalid_argument,
263 "selected range could not be resolved to a valid source range; " +
264 E->getMessage());
265 });
266 return llvm::createStringError(
267 errc::invalid_argument,
268 "selected range could not be resolved to a valid source range");
269 }
270 // Validate `Range`, because `makeFileCharRange` accepts some ranges that
271 // `validateEditRange` rejects.
272 if (auto Err = tooling::validateEditRange(Range, *Match.SourceManager))
273 return joinErrors(
274 llvm::createStringError(errc::invalid_argument,
275 "selected range is not valid for editing"),
276 std::move(Err));
277 *Result += tooling::getText(Range, *Match.Context);
278 return Error::success();
279 }
280
evalData(const AccessData & Data,const MatchFinder::MatchResult & Match,std::string * Result)281 Error evalData(const AccessData &Data, const MatchFinder::MatchResult &Match,
282 std::string *Result) {
283 const auto *E = Match.Nodes.getNodeAs<Expr>(Data.BaseId);
284 if (E == nullptr)
285 return llvm::make_error<StringError>(errc::invalid_argument,
286 "Id not bound: " + Data.BaseId);
287 if (!E->isImplicitCXXThis()) {
288 if (llvm::Optional<std::string> S =
289 E->getType()->isAnyPointerType()
290 ? tooling::buildArrow(*E, *Match.Context)
291 : tooling::buildDot(*E, *Match.Context))
292 *Result += *S;
293 else
294 return llvm::make_error<StringError>(
295 errc::invalid_argument,
296 "Could not construct object text from ID: " + Data.BaseId);
297 }
298 return Data.Member->eval(Match, Result);
299 }
300
evalData(const IfBoundData & Data,const MatchFinder::MatchResult & Match,std::string * Result)301 Error evalData(const IfBoundData &Data, const MatchFinder::MatchResult &Match,
302 std::string *Result) {
303 auto &M = Match.Nodes.getMap();
304 return (M.find(Data.Id) != M.end() ? Data.TrueStencil : Data.FalseStencil)
305 ->eval(Match, Result);
306 }
307
evalData(const MatchConsumer<std::string> & Fn,const MatchFinder::MatchResult & Match,std::string * Result)308 Error evalData(const MatchConsumer<std::string> &Fn,
309 const MatchFinder::MatchResult &Match, std::string *Result) {
310 Expected<std::string> Value = Fn(Match);
311 if (!Value)
312 return Value.takeError();
313 *Result += *Value;
314 return Error::success();
315 }
316
evalData(const SequenceData & Data,const MatchFinder::MatchResult & Match,std::string * Result)317 Error evalData(const SequenceData &Data, const MatchFinder::MatchResult &Match,
318 std::string *Result) {
319 for (const auto &S : Data.Stencils)
320 if (auto Err = S->eval(Match, Result))
321 return Err;
322 return Error::success();
323 }
324
325 template <typename T> class StencilImpl : public StencilInterface {
326 T Data;
327
328 public:
329 template <typename... Ps>
StencilImpl(Ps &&...Args)330 explicit StencilImpl(Ps &&... Args) : Data(std::forward<Ps>(Args)...) {}
331
eval(const MatchFinder::MatchResult & Match,std::string * Result) const332 Error eval(const MatchFinder::MatchResult &Match,
333 std::string *Result) const override {
334 return evalData(Data, Match, Result);
335 }
336
toString() const337 std::string toString() const override { return toStringData(Data); }
338 };
339 } // namespace
340
makeStencil(StringRef Text)341 Stencil transformer::detail::makeStencil(StringRef Text) {
342 return std::make_shared<StencilImpl<RawTextData>>(std::string(Text));
343 }
344
makeStencil(RangeSelector Selector)345 Stencil transformer::detail::makeStencil(RangeSelector Selector) {
346 return std::make_shared<StencilImpl<SelectorData>>(std::move(Selector));
347 }
348
dPrint(StringRef Id)349 Stencil transformer::dPrint(StringRef Id) {
350 return std::make_shared<StencilImpl<DebugPrintNodeData>>(std::string(Id));
351 }
352
expression(llvm::StringRef Id)353 Stencil transformer::expression(llvm::StringRef Id) {
354 return std::make_shared<StencilImpl<UnaryOperationData>>(
355 UnaryNodeOperator::Parens, std::string(Id));
356 }
357
deref(llvm::StringRef ExprId)358 Stencil transformer::deref(llvm::StringRef ExprId) {
359 return std::make_shared<StencilImpl<UnaryOperationData>>(
360 UnaryNodeOperator::Deref, std::string(ExprId));
361 }
362
maybeDeref(llvm::StringRef ExprId)363 Stencil transformer::maybeDeref(llvm::StringRef ExprId) {
364 return std::make_shared<StencilImpl<UnaryOperationData>>(
365 UnaryNodeOperator::MaybeDeref, std::string(ExprId));
366 }
367
addressOf(llvm::StringRef ExprId)368 Stencil transformer::addressOf(llvm::StringRef ExprId) {
369 return std::make_shared<StencilImpl<UnaryOperationData>>(
370 UnaryNodeOperator::AddressOf, std::string(ExprId));
371 }
372
maybeAddressOf(llvm::StringRef ExprId)373 Stencil transformer::maybeAddressOf(llvm::StringRef ExprId) {
374 return std::make_shared<StencilImpl<UnaryOperationData>>(
375 UnaryNodeOperator::MaybeAddressOf, std::string(ExprId));
376 }
377
describe(StringRef Id)378 Stencil transformer::describe(StringRef Id) {
379 return std::make_shared<StencilImpl<UnaryOperationData>>(
380 UnaryNodeOperator::Describe, std::string(Id));
381 }
382
access(StringRef BaseId,Stencil Member)383 Stencil transformer::access(StringRef BaseId, Stencil Member) {
384 return std::make_shared<StencilImpl<AccessData>>(BaseId, std::move(Member));
385 }
386
ifBound(StringRef Id,Stencil TrueStencil,Stencil FalseStencil)387 Stencil transformer::ifBound(StringRef Id, Stencil TrueStencil,
388 Stencil FalseStencil) {
389 return std::make_shared<StencilImpl<IfBoundData>>(Id, std::move(TrueStencil),
390 std::move(FalseStencil));
391 }
392
run(MatchConsumer<std::string> Fn)393 Stencil transformer::run(MatchConsumer<std::string> Fn) {
394 return std::make_shared<StencilImpl<MatchConsumer<std::string>>>(
395 std::move(Fn));
396 }
397
catVector(std::vector<Stencil> Parts)398 Stencil transformer::catVector(std::vector<Stencil> Parts) {
399 // Only one argument, so don't wrap in sequence.
400 if (Parts.size() == 1)
401 return std::move(Parts[0]);
402 return std::make_shared<StencilImpl<SequenceData>>(std::move(Parts));
403 }
404