1e5dd7070Spatrick //===- SemaTemplateDeduction.cpp - Template Argument Deduction ------------===//
2e5dd7070Spatrick //
3e5dd7070Spatrick // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
4e5dd7070Spatrick // See https://llvm.org/LICENSE.txt for license information.
5e5dd7070Spatrick // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
6e5dd7070Spatrick //
7e5dd7070Spatrick //===----------------------------------------------------------------------===//
8e5dd7070Spatrick //
9e5dd7070Spatrick // This file implements C++ template argument deduction.
10e5dd7070Spatrick //
11e5dd7070Spatrick //===----------------------------------------------------------------------===//
12e5dd7070Spatrick
13e5dd7070Spatrick #include "clang/Sema/TemplateDeduction.h"
14e5dd7070Spatrick #include "TreeTransform.h"
15e5dd7070Spatrick #include "TypeLocBuilder.h"
16e5dd7070Spatrick #include "clang/AST/ASTContext.h"
17e5dd7070Spatrick #include "clang/AST/ASTLambda.h"
18e5dd7070Spatrick #include "clang/AST/Decl.h"
19e5dd7070Spatrick #include "clang/AST/DeclAccessPair.h"
20e5dd7070Spatrick #include "clang/AST/DeclBase.h"
21e5dd7070Spatrick #include "clang/AST/DeclCXX.h"
22e5dd7070Spatrick #include "clang/AST/DeclTemplate.h"
23e5dd7070Spatrick #include "clang/AST/DeclarationName.h"
24e5dd7070Spatrick #include "clang/AST/Expr.h"
25e5dd7070Spatrick #include "clang/AST/ExprCXX.h"
26e5dd7070Spatrick #include "clang/AST/NestedNameSpecifier.h"
27e5dd7070Spatrick #include "clang/AST/RecursiveASTVisitor.h"
28e5dd7070Spatrick #include "clang/AST/TemplateBase.h"
29e5dd7070Spatrick #include "clang/AST/TemplateName.h"
30e5dd7070Spatrick #include "clang/AST/Type.h"
31e5dd7070Spatrick #include "clang/AST/TypeLoc.h"
32e5dd7070Spatrick #include "clang/AST/UnresolvedSet.h"
33e5dd7070Spatrick #include "clang/Basic/AddressSpaces.h"
34e5dd7070Spatrick #include "clang/Basic/ExceptionSpecificationType.h"
35e5dd7070Spatrick #include "clang/Basic/LLVM.h"
36e5dd7070Spatrick #include "clang/Basic/LangOptions.h"
37e5dd7070Spatrick #include "clang/Basic/PartialDiagnostic.h"
38e5dd7070Spatrick #include "clang/Basic/SourceLocation.h"
39e5dd7070Spatrick #include "clang/Basic/Specifiers.h"
40e5dd7070Spatrick #include "clang/Sema/Ownership.h"
41e5dd7070Spatrick #include "clang/Sema/Sema.h"
42e5dd7070Spatrick #include "clang/Sema/Template.h"
43e5dd7070Spatrick #include "llvm/ADT/APInt.h"
44e5dd7070Spatrick #include "llvm/ADT/APSInt.h"
45e5dd7070Spatrick #include "llvm/ADT/ArrayRef.h"
46e5dd7070Spatrick #include "llvm/ADT/DenseMap.h"
47e5dd7070Spatrick #include "llvm/ADT/FoldingSet.h"
48e5dd7070Spatrick #include "llvm/ADT/SmallBitVector.h"
49e5dd7070Spatrick #include "llvm/ADT/SmallPtrSet.h"
50e5dd7070Spatrick #include "llvm/ADT/SmallVector.h"
51e5dd7070Spatrick #include "llvm/Support/Casting.h"
52e5dd7070Spatrick #include "llvm/Support/Compiler.h"
53e5dd7070Spatrick #include "llvm/Support/ErrorHandling.h"
54e5dd7070Spatrick #include <algorithm>
55e5dd7070Spatrick #include <cassert>
56*12c85518Srobert #include <optional>
57e5dd7070Spatrick #include <tuple>
58*12c85518Srobert #include <type_traits>
59e5dd7070Spatrick #include <utility>
60e5dd7070Spatrick
61e5dd7070Spatrick namespace clang {
62e5dd7070Spatrick
63e5dd7070Spatrick /// Various flags that control template argument deduction.
64e5dd7070Spatrick ///
65e5dd7070Spatrick /// These flags can be bitwise-OR'd together.
66e5dd7070Spatrick enum TemplateDeductionFlags {
67e5dd7070Spatrick /// No template argument deduction flags, which indicates the
68e5dd7070Spatrick /// strictest results for template argument deduction (as used for, e.g.,
69e5dd7070Spatrick /// matching class template partial specializations).
70e5dd7070Spatrick TDF_None = 0,
71e5dd7070Spatrick
72e5dd7070Spatrick /// Within template argument deduction from a function call, we are
73e5dd7070Spatrick /// matching with a parameter type for which the original parameter was
74e5dd7070Spatrick /// a reference.
75e5dd7070Spatrick TDF_ParamWithReferenceType = 0x1,
76e5dd7070Spatrick
77e5dd7070Spatrick /// Within template argument deduction from a function call, we
78e5dd7070Spatrick /// are matching in a case where we ignore cv-qualifiers.
79e5dd7070Spatrick TDF_IgnoreQualifiers = 0x02,
80e5dd7070Spatrick
81e5dd7070Spatrick /// Within template argument deduction from a function call,
82e5dd7070Spatrick /// we are matching in a case where we can perform template argument
83e5dd7070Spatrick /// deduction from a template-id of a derived class of the argument type.
84e5dd7070Spatrick TDF_DerivedClass = 0x04,
85e5dd7070Spatrick
86e5dd7070Spatrick /// Allow non-dependent types to differ, e.g., when performing
87e5dd7070Spatrick /// template argument deduction from a function call where conversions
88e5dd7070Spatrick /// may apply.
89e5dd7070Spatrick TDF_SkipNonDependent = 0x08,
90e5dd7070Spatrick
91e5dd7070Spatrick /// Whether we are performing template argument deduction for
92e5dd7070Spatrick /// parameters and arguments in a top-level template argument
93e5dd7070Spatrick TDF_TopLevelParameterTypeList = 0x10,
94e5dd7070Spatrick
95e5dd7070Spatrick /// Within template argument deduction from overload resolution per
96e5dd7070Spatrick /// C++ [over.over] allow matching function types that are compatible in
97e5dd7070Spatrick /// terms of noreturn and default calling convention adjustments, or
98e5dd7070Spatrick /// similarly matching a declared template specialization against a
99e5dd7070Spatrick /// possible template, per C++ [temp.deduct.decl]. In either case, permit
100e5dd7070Spatrick /// deduction where the parameter is a function type that can be converted
101e5dd7070Spatrick /// to the argument type.
102e5dd7070Spatrick TDF_AllowCompatibleFunctionType = 0x20,
103e5dd7070Spatrick
104e5dd7070Spatrick /// Within template argument deduction for a conversion function, we are
105e5dd7070Spatrick /// matching with an argument type for which the original argument was
106e5dd7070Spatrick /// a reference.
107e5dd7070Spatrick TDF_ArgWithReferenceType = 0x40,
108e5dd7070Spatrick };
109e5dd7070Spatrick }
110e5dd7070Spatrick
111e5dd7070Spatrick using namespace clang;
112e5dd7070Spatrick using namespace sema;
113e5dd7070Spatrick
114e5dd7070Spatrick /// Compare two APSInts, extending and switching the sign as
115e5dd7070Spatrick /// necessary to compare their values regardless of underlying type.
hasSameExtendedValue(llvm::APSInt X,llvm::APSInt Y)116e5dd7070Spatrick static bool hasSameExtendedValue(llvm::APSInt X, llvm::APSInt Y) {
117e5dd7070Spatrick if (Y.getBitWidth() > X.getBitWidth())
118e5dd7070Spatrick X = X.extend(Y.getBitWidth());
119e5dd7070Spatrick else if (Y.getBitWidth() < X.getBitWidth())
120e5dd7070Spatrick Y = Y.extend(X.getBitWidth());
121e5dd7070Spatrick
122e5dd7070Spatrick // If there is a signedness mismatch, correct it.
123e5dd7070Spatrick if (X.isSigned() != Y.isSigned()) {
124e5dd7070Spatrick // If the signed value is negative, then the values cannot be the same.
125e5dd7070Spatrick if ((Y.isSigned() && Y.isNegative()) || (X.isSigned() && X.isNegative()))
126e5dd7070Spatrick return false;
127e5dd7070Spatrick
128e5dd7070Spatrick Y.setIsSigned(true);
129e5dd7070Spatrick X.setIsSigned(true);
130e5dd7070Spatrick }
131e5dd7070Spatrick
132e5dd7070Spatrick return X == Y;
133e5dd7070Spatrick }
134e5dd7070Spatrick
135*12c85518Srobert static Sema::TemplateDeductionResult DeduceTemplateArgumentsByTypeMatch(
136*12c85518Srobert Sema &S, TemplateParameterList *TemplateParams, QualType Param,
137*12c85518Srobert QualType Arg, TemplateDeductionInfo &Info,
138*12c85518Srobert SmallVectorImpl<DeducedTemplateArgument> &Deduced, unsigned TDF,
139*12c85518Srobert bool PartialOrdering = false, bool DeducedFromArrayBound = false);
140e5dd7070Spatrick
141e5dd7070Spatrick static Sema::TemplateDeductionResult
142e5dd7070Spatrick DeduceTemplateArguments(Sema &S, TemplateParameterList *TemplateParams,
143*12c85518Srobert ArrayRef<TemplateArgument> Ps,
144*12c85518Srobert ArrayRef<TemplateArgument> As,
145e5dd7070Spatrick TemplateDeductionInfo &Info,
146e5dd7070Spatrick SmallVectorImpl<DeducedTemplateArgument> &Deduced,
147e5dd7070Spatrick bool NumberOfArgumentsMustMatch);
148e5dd7070Spatrick
149e5dd7070Spatrick static void MarkUsedTemplateParameters(ASTContext &Ctx,
150e5dd7070Spatrick const TemplateArgument &TemplateArg,
151e5dd7070Spatrick bool OnlyDeduced, unsigned Depth,
152e5dd7070Spatrick llvm::SmallBitVector &Used);
153e5dd7070Spatrick
154e5dd7070Spatrick static void MarkUsedTemplateParameters(ASTContext &Ctx, QualType T,
155e5dd7070Spatrick bool OnlyDeduced, unsigned Level,
156e5dd7070Spatrick llvm::SmallBitVector &Deduced);
157e5dd7070Spatrick
158e5dd7070Spatrick /// If the given expression is of a form that permits the deduction
159e5dd7070Spatrick /// of a non-type template parameter, return the declaration of that
160e5dd7070Spatrick /// non-type template parameter.
161a9ac8606Spatrick static const NonTypeTemplateParmDecl *
getDeducedParameterFromExpr(const Expr * E,unsigned Depth)162a9ac8606Spatrick getDeducedParameterFromExpr(const Expr *E, unsigned Depth) {
163e5dd7070Spatrick // If we are within an alias template, the expression may have undergone
164e5dd7070Spatrick // any number of parameter substitutions already.
165e5dd7070Spatrick while (true) {
166a9ac8606Spatrick if (const auto *IC = dyn_cast<ImplicitCastExpr>(E))
167e5dd7070Spatrick E = IC->getSubExpr();
168a9ac8606Spatrick else if (const auto *CE = dyn_cast<ConstantExpr>(E))
169e5dd7070Spatrick E = CE->getSubExpr();
170a9ac8606Spatrick else if (const auto *Subst = dyn_cast<SubstNonTypeTemplateParmExpr>(E))
171e5dd7070Spatrick E = Subst->getReplacement();
172a9ac8606Spatrick else if (const auto *CCE = dyn_cast<CXXConstructExpr>(E)) {
173a9ac8606Spatrick // Look through implicit copy construction from an lvalue of the same type.
174a9ac8606Spatrick if (CCE->getParenOrBraceRange().isValid())
175a9ac8606Spatrick break;
176a9ac8606Spatrick // Note, there could be default arguments.
177a9ac8606Spatrick assert(CCE->getNumArgs() >= 1 && "implicit construct expr should have 1 arg");
178a9ac8606Spatrick E = CCE->getArg(0);
179a9ac8606Spatrick } else
180e5dd7070Spatrick break;
181e5dd7070Spatrick }
182e5dd7070Spatrick
183a9ac8606Spatrick if (const auto *DRE = dyn_cast<DeclRefExpr>(E))
184a9ac8606Spatrick if (const auto *NTTP = dyn_cast<NonTypeTemplateParmDecl>(DRE->getDecl()))
185a9ac8606Spatrick if (NTTP->getDepth() == Depth)
186e5dd7070Spatrick return NTTP;
187e5dd7070Spatrick
188e5dd7070Spatrick return nullptr;
189e5dd7070Spatrick }
190e5dd7070Spatrick
191a9ac8606Spatrick static const NonTypeTemplateParmDecl *
getDeducedParameterFromExpr(TemplateDeductionInfo & Info,Expr * E)192a9ac8606Spatrick getDeducedParameterFromExpr(TemplateDeductionInfo &Info, Expr *E) {
193a9ac8606Spatrick return getDeducedParameterFromExpr(E, Info.getDeducedDepth());
194a9ac8606Spatrick }
195a9ac8606Spatrick
196e5dd7070Spatrick /// Determine whether two declaration pointers refer to the same
197e5dd7070Spatrick /// declaration.
isSameDeclaration(Decl * X,Decl * Y)198e5dd7070Spatrick static bool isSameDeclaration(Decl *X, Decl *Y) {
199e5dd7070Spatrick if (NamedDecl *NX = dyn_cast<NamedDecl>(X))
200e5dd7070Spatrick X = NX->getUnderlyingDecl();
201e5dd7070Spatrick if (NamedDecl *NY = dyn_cast<NamedDecl>(Y))
202e5dd7070Spatrick Y = NY->getUnderlyingDecl();
203e5dd7070Spatrick
204e5dd7070Spatrick return X->getCanonicalDecl() == Y->getCanonicalDecl();
205e5dd7070Spatrick }
206e5dd7070Spatrick
207e5dd7070Spatrick /// Verify that the given, deduced template arguments are compatible.
208e5dd7070Spatrick ///
209e5dd7070Spatrick /// \returns The deduced template argument, or a NULL template argument if
210e5dd7070Spatrick /// the deduced template arguments were incompatible.
211e5dd7070Spatrick static DeducedTemplateArgument
checkDeducedTemplateArguments(ASTContext & Context,const DeducedTemplateArgument & X,const DeducedTemplateArgument & Y)212e5dd7070Spatrick checkDeducedTemplateArguments(ASTContext &Context,
213e5dd7070Spatrick const DeducedTemplateArgument &X,
214e5dd7070Spatrick const DeducedTemplateArgument &Y) {
215e5dd7070Spatrick // We have no deduction for one or both of the arguments; they're compatible.
216e5dd7070Spatrick if (X.isNull())
217e5dd7070Spatrick return Y;
218e5dd7070Spatrick if (Y.isNull())
219e5dd7070Spatrick return X;
220e5dd7070Spatrick
221e5dd7070Spatrick // If we have two non-type template argument values deduced for the same
222e5dd7070Spatrick // parameter, they must both match the type of the parameter, and thus must
223e5dd7070Spatrick // match each other's type. As we're only keeping one of them, we must check
224e5dd7070Spatrick // for that now. The exception is that if either was deduced from an array
225e5dd7070Spatrick // bound, the type is permitted to differ.
226e5dd7070Spatrick if (!X.wasDeducedFromArrayBound() && !Y.wasDeducedFromArrayBound()) {
227e5dd7070Spatrick QualType XType = X.getNonTypeTemplateArgumentType();
228e5dd7070Spatrick if (!XType.isNull()) {
229e5dd7070Spatrick QualType YType = Y.getNonTypeTemplateArgumentType();
230e5dd7070Spatrick if (YType.isNull() || !Context.hasSameType(XType, YType))
231e5dd7070Spatrick return DeducedTemplateArgument();
232e5dd7070Spatrick }
233e5dd7070Spatrick }
234e5dd7070Spatrick
235e5dd7070Spatrick switch (X.getKind()) {
236e5dd7070Spatrick case TemplateArgument::Null:
237e5dd7070Spatrick llvm_unreachable("Non-deduced template arguments handled above");
238e5dd7070Spatrick
239*12c85518Srobert case TemplateArgument::Type: {
240e5dd7070Spatrick // If two template type arguments have the same type, they're compatible.
241*12c85518Srobert QualType TX = X.getAsType(), TY = Y.getAsType();
242*12c85518Srobert if (Y.getKind() == TemplateArgument::Type && Context.hasSameType(TX, TY))
243*12c85518Srobert return DeducedTemplateArgument(Context.getCommonSugaredType(TX, TY),
244*12c85518Srobert X.wasDeducedFromArrayBound() ||
245*12c85518Srobert Y.wasDeducedFromArrayBound());
246e5dd7070Spatrick
247e5dd7070Spatrick // If one of the two arguments was deduced from an array bound, the other
248e5dd7070Spatrick // supersedes it.
249e5dd7070Spatrick if (X.wasDeducedFromArrayBound() != Y.wasDeducedFromArrayBound())
250e5dd7070Spatrick return X.wasDeducedFromArrayBound() ? Y : X;
251e5dd7070Spatrick
252e5dd7070Spatrick // The arguments are not compatible.
253e5dd7070Spatrick return DeducedTemplateArgument();
254*12c85518Srobert }
255e5dd7070Spatrick
256e5dd7070Spatrick case TemplateArgument::Integral:
257e5dd7070Spatrick // If we deduced a constant in one case and either a dependent expression or
258e5dd7070Spatrick // declaration in another case, keep the integral constant.
259e5dd7070Spatrick // If both are integral constants with the same value, keep that value.
260e5dd7070Spatrick if (Y.getKind() == TemplateArgument::Expression ||
261e5dd7070Spatrick Y.getKind() == TemplateArgument::Declaration ||
262e5dd7070Spatrick (Y.getKind() == TemplateArgument::Integral &&
263e5dd7070Spatrick hasSameExtendedValue(X.getAsIntegral(), Y.getAsIntegral())))
264e5dd7070Spatrick return X.wasDeducedFromArrayBound() ? Y : X;
265e5dd7070Spatrick
266e5dd7070Spatrick // All other combinations are incompatible.
267e5dd7070Spatrick return DeducedTemplateArgument();
268e5dd7070Spatrick
269e5dd7070Spatrick case TemplateArgument::Template:
270e5dd7070Spatrick if (Y.getKind() == TemplateArgument::Template &&
271e5dd7070Spatrick Context.hasSameTemplateName(X.getAsTemplate(), Y.getAsTemplate()))
272e5dd7070Spatrick return X;
273e5dd7070Spatrick
274e5dd7070Spatrick // All other combinations are incompatible.
275e5dd7070Spatrick return DeducedTemplateArgument();
276e5dd7070Spatrick
277e5dd7070Spatrick case TemplateArgument::TemplateExpansion:
278e5dd7070Spatrick if (Y.getKind() == TemplateArgument::TemplateExpansion &&
279e5dd7070Spatrick Context.hasSameTemplateName(X.getAsTemplateOrTemplatePattern(),
280e5dd7070Spatrick Y.getAsTemplateOrTemplatePattern()))
281e5dd7070Spatrick return X;
282e5dd7070Spatrick
283e5dd7070Spatrick // All other combinations are incompatible.
284e5dd7070Spatrick return DeducedTemplateArgument();
285e5dd7070Spatrick
286e5dd7070Spatrick case TemplateArgument::Expression: {
287e5dd7070Spatrick if (Y.getKind() != TemplateArgument::Expression)
288e5dd7070Spatrick return checkDeducedTemplateArguments(Context, Y, X);
289e5dd7070Spatrick
290e5dd7070Spatrick // Compare the expressions for equality
291e5dd7070Spatrick llvm::FoldingSetNodeID ID1, ID2;
292e5dd7070Spatrick X.getAsExpr()->Profile(ID1, Context, true);
293e5dd7070Spatrick Y.getAsExpr()->Profile(ID2, Context, true);
294e5dd7070Spatrick if (ID1 == ID2)
295e5dd7070Spatrick return X.wasDeducedFromArrayBound() ? Y : X;
296e5dd7070Spatrick
297e5dd7070Spatrick // Differing dependent expressions are incompatible.
298e5dd7070Spatrick return DeducedTemplateArgument();
299e5dd7070Spatrick }
300e5dd7070Spatrick
301e5dd7070Spatrick case TemplateArgument::Declaration:
302e5dd7070Spatrick assert(!X.wasDeducedFromArrayBound());
303e5dd7070Spatrick
304e5dd7070Spatrick // If we deduced a declaration and a dependent expression, keep the
305e5dd7070Spatrick // declaration.
306e5dd7070Spatrick if (Y.getKind() == TemplateArgument::Expression)
307e5dd7070Spatrick return X;
308e5dd7070Spatrick
309e5dd7070Spatrick // If we deduced a declaration and an integral constant, keep the
310e5dd7070Spatrick // integral constant and whichever type did not come from an array
311e5dd7070Spatrick // bound.
312e5dd7070Spatrick if (Y.getKind() == TemplateArgument::Integral) {
313e5dd7070Spatrick if (Y.wasDeducedFromArrayBound())
314e5dd7070Spatrick return TemplateArgument(Context, Y.getAsIntegral(),
315e5dd7070Spatrick X.getParamTypeForDecl());
316e5dd7070Spatrick return Y;
317e5dd7070Spatrick }
318e5dd7070Spatrick
319e5dd7070Spatrick // If we deduced two declarations, make sure that they refer to the
320e5dd7070Spatrick // same declaration.
321e5dd7070Spatrick if (Y.getKind() == TemplateArgument::Declaration &&
322e5dd7070Spatrick isSameDeclaration(X.getAsDecl(), Y.getAsDecl()))
323e5dd7070Spatrick return X;
324e5dd7070Spatrick
325e5dd7070Spatrick // All other combinations are incompatible.
326e5dd7070Spatrick return DeducedTemplateArgument();
327e5dd7070Spatrick
328e5dd7070Spatrick case TemplateArgument::NullPtr:
329e5dd7070Spatrick // If we deduced a null pointer and a dependent expression, keep the
330e5dd7070Spatrick // null pointer.
331e5dd7070Spatrick if (Y.getKind() == TemplateArgument::Expression)
332*12c85518Srobert return TemplateArgument(Context.getCommonSugaredType(
333*12c85518Srobert X.getNullPtrType(), Y.getAsExpr()->getType()),
334*12c85518Srobert true);
335e5dd7070Spatrick
336e5dd7070Spatrick // If we deduced a null pointer and an integral constant, keep the
337e5dd7070Spatrick // integral constant.
338e5dd7070Spatrick if (Y.getKind() == TemplateArgument::Integral)
339e5dd7070Spatrick return Y;
340e5dd7070Spatrick
341e5dd7070Spatrick // If we deduced two null pointers, they are the same.
342e5dd7070Spatrick if (Y.getKind() == TemplateArgument::NullPtr)
343*12c85518Srobert return TemplateArgument(
344*12c85518Srobert Context.getCommonSugaredType(X.getNullPtrType(), Y.getNullPtrType()),
345*12c85518Srobert true);
346e5dd7070Spatrick
347e5dd7070Spatrick // All other combinations are incompatible.
348e5dd7070Spatrick return DeducedTemplateArgument();
349e5dd7070Spatrick
350e5dd7070Spatrick case TemplateArgument::Pack: {
351e5dd7070Spatrick if (Y.getKind() != TemplateArgument::Pack ||
352e5dd7070Spatrick X.pack_size() != Y.pack_size())
353e5dd7070Spatrick return DeducedTemplateArgument();
354e5dd7070Spatrick
355e5dd7070Spatrick llvm::SmallVector<TemplateArgument, 8> NewPack;
356e5dd7070Spatrick for (TemplateArgument::pack_iterator XA = X.pack_begin(),
357e5dd7070Spatrick XAEnd = X.pack_end(),
358e5dd7070Spatrick YA = Y.pack_begin();
359e5dd7070Spatrick XA != XAEnd; ++XA, ++YA) {
360e5dd7070Spatrick TemplateArgument Merged = checkDeducedTemplateArguments(
361e5dd7070Spatrick Context, DeducedTemplateArgument(*XA, X.wasDeducedFromArrayBound()),
362e5dd7070Spatrick DeducedTemplateArgument(*YA, Y.wasDeducedFromArrayBound()));
363ec727ea7Spatrick if (Merged.isNull() && !(XA->isNull() && YA->isNull()))
364e5dd7070Spatrick return DeducedTemplateArgument();
365e5dd7070Spatrick NewPack.push_back(Merged);
366e5dd7070Spatrick }
367e5dd7070Spatrick
368e5dd7070Spatrick return DeducedTemplateArgument(
369e5dd7070Spatrick TemplateArgument::CreatePackCopy(Context, NewPack),
370e5dd7070Spatrick X.wasDeducedFromArrayBound() && Y.wasDeducedFromArrayBound());
371e5dd7070Spatrick }
372e5dd7070Spatrick }
373e5dd7070Spatrick
374e5dd7070Spatrick llvm_unreachable("Invalid TemplateArgument Kind!");
375e5dd7070Spatrick }
376e5dd7070Spatrick
377e5dd7070Spatrick /// Deduce the value of the given non-type template parameter
378e5dd7070Spatrick /// as the given deduced template argument. All non-type template parameter
379e5dd7070Spatrick /// deduction is funneled through here.
DeduceNonTypeTemplateArgument(Sema & S,TemplateParameterList * TemplateParams,const NonTypeTemplateParmDecl * NTTP,const DeducedTemplateArgument & NewDeduced,QualType ValueType,TemplateDeductionInfo & Info,SmallVectorImpl<DeducedTemplateArgument> & Deduced)380e5dd7070Spatrick static Sema::TemplateDeductionResult DeduceNonTypeTemplateArgument(
381e5dd7070Spatrick Sema &S, TemplateParameterList *TemplateParams,
382a9ac8606Spatrick const NonTypeTemplateParmDecl *NTTP, const DeducedTemplateArgument &NewDeduced,
383e5dd7070Spatrick QualType ValueType, TemplateDeductionInfo &Info,
384e5dd7070Spatrick SmallVectorImpl<DeducedTemplateArgument> &Deduced) {
385e5dd7070Spatrick assert(NTTP->getDepth() == Info.getDeducedDepth() &&
386e5dd7070Spatrick "deducing non-type template argument with wrong depth");
387e5dd7070Spatrick
388e5dd7070Spatrick DeducedTemplateArgument Result = checkDeducedTemplateArguments(
389e5dd7070Spatrick S.Context, Deduced[NTTP->getIndex()], NewDeduced);
390e5dd7070Spatrick if (Result.isNull()) {
391a9ac8606Spatrick Info.Param = const_cast<NonTypeTemplateParmDecl*>(NTTP);
392e5dd7070Spatrick Info.FirstArg = Deduced[NTTP->getIndex()];
393e5dd7070Spatrick Info.SecondArg = NewDeduced;
394e5dd7070Spatrick return Sema::TDK_Inconsistent;
395e5dd7070Spatrick }
396e5dd7070Spatrick
397e5dd7070Spatrick Deduced[NTTP->getIndex()] = Result;
398e5dd7070Spatrick if (!S.getLangOpts().CPlusPlus17)
399e5dd7070Spatrick return Sema::TDK_Success;
400e5dd7070Spatrick
401e5dd7070Spatrick if (NTTP->isExpandedParameterPack())
402e5dd7070Spatrick // FIXME: We may still need to deduce parts of the type here! But we
403e5dd7070Spatrick // don't have any way to find which slice of the type to use, and the
404e5dd7070Spatrick // type stored on the NTTP itself is nonsense. Perhaps the type of an
405e5dd7070Spatrick // expanded NTTP should be a pack expansion type?
406e5dd7070Spatrick return Sema::TDK_Success;
407e5dd7070Spatrick
408e5dd7070Spatrick // Get the type of the parameter for deduction. If it's a (dependent) array
409e5dd7070Spatrick // or function type, we will not have decayed it yet, so do that now.
410e5dd7070Spatrick QualType ParamType = S.Context.getAdjustedParameterType(NTTP->getType());
411e5dd7070Spatrick if (auto *Expansion = dyn_cast<PackExpansionType>(ParamType))
412e5dd7070Spatrick ParamType = Expansion->getPattern();
413e5dd7070Spatrick
414e5dd7070Spatrick // FIXME: It's not clear how deduction of a parameter of reference
415e5dd7070Spatrick // type from an argument (of non-reference type) should be performed.
416e5dd7070Spatrick // For now, we just remove reference types from both sides and let
417e5dd7070Spatrick // the final check for matching types sort out the mess.
418a9ac8606Spatrick ValueType = ValueType.getNonReferenceType();
419a9ac8606Spatrick if (ParamType->isReferenceType())
420a9ac8606Spatrick ParamType = ParamType.getNonReferenceType();
421a9ac8606Spatrick else
422a9ac8606Spatrick // Top-level cv-qualifiers are irrelevant for a non-reference type.
423a9ac8606Spatrick ValueType = ValueType.getUnqualifiedType();
424a9ac8606Spatrick
425e5dd7070Spatrick return DeduceTemplateArgumentsByTypeMatch(
426a9ac8606Spatrick S, TemplateParams, ParamType, ValueType, Info, Deduced,
427a9ac8606Spatrick TDF_SkipNonDependent, /*PartialOrdering=*/false,
428e5dd7070Spatrick /*ArrayBound=*/NewDeduced.wasDeducedFromArrayBound());
429e5dd7070Spatrick }
430e5dd7070Spatrick
431e5dd7070Spatrick /// Deduce the value of the given non-type template parameter
432e5dd7070Spatrick /// from the given integral constant.
DeduceNonTypeTemplateArgument(Sema & S,TemplateParameterList * TemplateParams,const NonTypeTemplateParmDecl * NTTP,const llvm::APSInt & Value,QualType ValueType,bool DeducedFromArrayBound,TemplateDeductionInfo & Info,SmallVectorImpl<DeducedTemplateArgument> & Deduced)433e5dd7070Spatrick static Sema::TemplateDeductionResult DeduceNonTypeTemplateArgument(
434e5dd7070Spatrick Sema &S, TemplateParameterList *TemplateParams,
435a9ac8606Spatrick const NonTypeTemplateParmDecl *NTTP, const llvm::APSInt &Value,
436e5dd7070Spatrick QualType ValueType, bool DeducedFromArrayBound, TemplateDeductionInfo &Info,
437e5dd7070Spatrick SmallVectorImpl<DeducedTemplateArgument> &Deduced) {
438e5dd7070Spatrick return DeduceNonTypeTemplateArgument(
439e5dd7070Spatrick S, TemplateParams, NTTP,
440e5dd7070Spatrick DeducedTemplateArgument(S.Context, Value, ValueType,
441e5dd7070Spatrick DeducedFromArrayBound),
442e5dd7070Spatrick ValueType, Info, Deduced);
443e5dd7070Spatrick }
444e5dd7070Spatrick
445e5dd7070Spatrick /// Deduce the value of the given non-type template parameter
446e5dd7070Spatrick /// from the given null pointer template argument type.
DeduceNullPtrTemplateArgument(Sema & S,TemplateParameterList * TemplateParams,const NonTypeTemplateParmDecl * NTTP,QualType NullPtrType,TemplateDeductionInfo & Info,SmallVectorImpl<DeducedTemplateArgument> & Deduced)447e5dd7070Spatrick static Sema::TemplateDeductionResult DeduceNullPtrTemplateArgument(
448e5dd7070Spatrick Sema &S, TemplateParameterList *TemplateParams,
449a9ac8606Spatrick const NonTypeTemplateParmDecl *NTTP, QualType NullPtrType,
450e5dd7070Spatrick TemplateDeductionInfo &Info,
451e5dd7070Spatrick SmallVectorImpl<DeducedTemplateArgument> &Deduced) {
452a9ac8606Spatrick Expr *Value = S.ImpCastExprToType(
453a9ac8606Spatrick new (S.Context) CXXNullPtrLiteralExpr(S.Context.NullPtrTy,
454a9ac8606Spatrick NTTP->getLocation()),
455a9ac8606Spatrick NullPtrType,
456a9ac8606Spatrick NullPtrType->isMemberPointerType() ? CK_NullToMemberPointer
457a9ac8606Spatrick : CK_NullToPointer)
458e5dd7070Spatrick .get();
459e5dd7070Spatrick return DeduceNonTypeTemplateArgument(S, TemplateParams, NTTP,
460e5dd7070Spatrick DeducedTemplateArgument(Value),
461e5dd7070Spatrick Value->getType(), Info, Deduced);
462e5dd7070Spatrick }
463e5dd7070Spatrick
464e5dd7070Spatrick /// Deduce the value of the given non-type template parameter
465e5dd7070Spatrick /// from the given type- or value-dependent expression.
466e5dd7070Spatrick ///
467e5dd7070Spatrick /// \returns true if deduction succeeded, false otherwise.
DeduceNonTypeTemplateArgument(Sema & S,TemplateParameterList * TemplateParams,const NonTypeTemplateParmDecl * NTTP,Expr * Value,TemplateDeductionInfo & Info,SmallVectorImpl<DeducedTemplateArgument> & Deduced)468e5dd7070Spatrick static Sema::TemplateDeductionResult DeduceNonTypeTemplateArgument(
469e5dd7070Spatrick Sema &S, TemplateParameterList *TemplateParams,
470a9ac8606Spatrick const NonTypeTemplateParmDecl *NTTP, Expr *Value, TemplateDeductionInfo &Info,
471e5dd7070Spatrick SmallVectorImpl<DeducedTemplateArgument> &Deduced) {
472e5dd7070Spatrick return DeduceNonTypeTemplateArgument(S, TemplateParams, NTTP,
473e5dd7070Spatrick DeducedTemplateArgument(Value),
474e5dd7070Spatrick Value->getType(), Info, Deduced);
475e5dd7070Spatrick }
476e5dd7070Spatrick
477e5dd7070Spatrick /// Deduce the value of the given non-type template parameter
478e5dd7070Spatrick /// from the given declaration.
479e5dd7070Spatrick ///
480e5dd7070Spatrick /// \returns true if deduction succeeded, false otherwise.
DeduceNonTypeTemplateArgument(Sema & S,TemplateParameterList * TemplateParams,const NonTypeTemplateParmDecl * NTTP,ValueDecl * D,QualType T,TemplateDeductionInfo & Info,SmallVectorImpl<DeducedTemplateArgument> & Deduced)481e5dd7070Spatrick static Sema::TemplateDeductionResult DeduceNonTypeTemplateArgument(
482e5dd7070Spatrick Sema &S, TemplateParameterList *TemplateParams,
483a9ac8606Spatrick const NonTypeTemplateParmDecl *NTTP, ValueDecl *D, QualType T,
484e5dd7070Spatrick TemplateDeductionInfo &Info,
485e5dd7070Spatrick SmallVectorImpl<DeducedTemplateArgument> &Deduced) {
486e5dd7070Spatrick D = D ? cast<ValueDecl>(D->getCanonicalDecl()) : nullptr;
487e5dd7070Spatrick TemplateArgument New(D, T);
488e5dd7070Spatrick return DeduceNonTypeTemplateArgument(
489e5dd7070Spatrick S, TemplateParams, NTTP, DeducedTemplateArgument(New), T, Info, Deduced);
490e5dd7070Spatrick }
491e5dd7070Spatrick
492e5dd7070Spatrick static Sema::TemplateDeductionResult
DeduceTemplateArguments(Sema & S,TemplateParameterList * TemplateParams,TemplateName Param,TemplateName Arg,TemplateDeductionInfo & Info,SmallVectorImpl<DeducedTemplateArgument> & Deduced)493e5dd7070Spatrick DeduceTemplateArguments(Sema &S,
494e5dd7070Spatrick TemplateParameterList *TemplateParams,
495e5dd7070Spatrick TemplateName Param,
496e5dd7070Spatrick TemplateName Arg,
497e5dd7070Spatrick TemplateDeductionInfo &Info,
498e5dd7070Spatrick SmallVectorImpl<DeducedTemplateArgument> &Deduced) {
499e5dd7070Spatrick TemplateDecl *ParamDecl = Param.getAsTemplateDecl();
500e5dd7070Spatrick if (!ParamDecl) {
501e5dd7070Spatrick // The parameter type is dependent and is not a template template parameter,
502e5dd7070Spatrick // so there is nothing that we can deduce.
503e5dd7070Spatrick return Sema::TDK_Success;
504e5dd7070Spatrick }
505e5dd7070Spatrick
506e5dd7070Spatrick if (TemplateTemplateParmDecl *TempParam
507e5dd7070Spatrick = dyn_cast<TemplateTemplateParmDecl>(ParamDecl)) {
508e5dd7070Spatrick // If we're not deducing at this depth, there's nothing to deduce.
509e5dd7070Spatrick if (TempParam->getDepth() != Info.getDeducedDepth())
510e5dd7070Spatrick return Sema::TDK_Success;
511e5dd7070Spatrick
512e5dd7070Spatrick DeducedTemplateArgument NewDeduced(S.Context.getCanonicalTemplateName(Arg));
513e5dd7070Spatrick DeducedTemplateArgument Result = checkDeducedTemplateArguments(S.Context,
514e5dd7070Spatrick Deduced[TempParam->getIndex()],
515e5dd7070Spatrick NewDeduced);
516e5dd7070Spatrick if (Result.isNull()) {
517e5dd7070Spatrick Info.Param = TempParam;
518e5dd7070Spatrick Info.FirstArg = Deduced[TempParam->getIndex()];
519e5dd7070Spatrick Info.SecondArg = NewDeduced;
520e5dd7070Spatrick return Sema::TDK_Inconsistent;
521e5dd7070Spatrick }
522e5dd7070Spatrick
523e5dd7070Spatrick Deduced[TempParam->getIndex()] = Result;
524e5dd7070Spatrick return Sema::TDK_Success;
525e5dd7070Spatrick }
526e5dd7070Spatrick
527e5dd7070Spatrick // Verify that the two template names are equivalent.
528e5dd7070Spatrick if (S.Context.hasSameTemplateName(Param, Arg))
529e5dd7070Spatrick return Sema::TDK_Success;
530e5dd7070Spatrick
531e5dd7070Spatrick // Mismatch of non-dependent template parameter to argument.
532e5dd7070Spatrick Info.FirstArg = TemplateArgument(Param);
533e5dd7070Spatrick Info.SecondArg = TemplateArgument(Arg);
534e5dd7070Spatrick return Sema::TDK_NonDeducedMismatch;
535e5dd7070Spatrick }
536e5dd7070Spatrick
537e5dd7070Spatrick /// Deduce the template arguments by comparing the template parameter
538e5dd7070Spatrick /// type (which is a template-id) with the template argument type.
539e5dd7070Spatrick ///
540e5dd7070Spatrick /// \param S the Sema
541e5dd7070Spatrick ///
542e5dd7070Spatrick /// \param TemplateParams the template parameters that we are deducing
543e5dd7070Spatrick ///
544*12c85518Srobert /// \param P the parameter type
545e5dd7070Spatrick ///
546*12c85518Srobert /// \param A the argument type
547e5dd7070Spatrick ///
548e5dd7070Spatrick /// \param Info information about the template argument deduction itself
549e5dd7070Spatrick ///
550e5dd7070Spatrick /// \param Deduced the deduced template arguments
551e5dd7070Spatrick ///
552e5dd7070Spatrick /// \returns the result of template argument deduction so far. Note that a
553e5dd7070Spatrick /// "success" result means that template argument deduction has not yet failed,
554e5dd7070Spatrick /// but it may still fail, later, for other reasons.
555e5dd7070Spatrick static Sema::TemplateDeductionResult
DeduceTemplateSpecArguments(Sema & S,TemplateParameterList * TemplateParams,const QualType P,QualType A,TemplateDeductionInfo & Info,SmallVectorImpl<DeducedTemplateArgument> & Deduced)556*12c85518Srobert DeduceTemplateSpecArguments(Sema &S, TemplateParameterList *TemplateParams,
557*12c85518Srobert const QualType P, QualType A,
558e5dd7070Spatrick TemplateDeductionInfo &Info,
559e5dd7070Spatrick SmallVectorImpl<DeducedTemplateArgument> &Deduced) {
560*12c85518Srobert QualType UP = P;
561*12c85518Srobert if (const auto *IP = P->getAs<InjectedClassNameType>())
562*12c85518Srobert UP = IP->getInjectedSpecializationType();
563*12c85518Srobert // FIXME: Try to preserve type sugar here, which is hard
564*12c85518Srobert // because of the unresolved template arguments.
565*12c85518Srobert const auto *TP = UP.getCanonicalType()->castAs<TemplateSpecializationType>();
566*12c85518Srobert TemplateName TNP = TP->getTemplateName();
567e5dd7070Spatrick
568*12c85518Srobert // If the parameter is an alias template, there is nothing to deduce.
569*12c85518Srobert if (const auto *TD = TNP.getAsTemplateDecl(); TD && TD->isTypeAlias())
570*12c85518Srobert return Sema::TDK_Success;
571*12c85518Srobert
572*12c85518Srobert ArrayRef<TemplateArgument> PResolved = TP->template_arguments();
573*12c85518Srobert
574*12c85518Srobert QualType UA = A;
575e5dd7070Spatrick // Treat an injected-class-name as its underlying template-id.
576*12c85518Srobert if (const auto *Injected = A->getAs<InjectedClassNameType>())
577*12c85518Srobert UA = Injected->getInjectedSpecializationType();
578e5dd7070Spatrick
579e5dd7070Spatrick // Check whether the template argument is a dependent template-id.
580*12c85518Srobert // FIXME: Should not lose sugar here.
581*12c85518Srobert if (const auto *SA =
582*12c85518Srobert dyn_cast<TemplateSpecializationType>(UA.getCanonicalType())) {
583*12c85518Srobert TemplateName TNA = SA->getTemplateName();
584*12c85518Srobert
585*12c85518Srobert // If the argument is an alias template, there is nothing to deduce.
586*12c85518Srobert if (const auto *TD = TNA.getAsTemplateDecl(); TD && TD->isTypeAlias())
587*12c85518Srobert return Sema::TDK_Success;
588*12c85518Srobert
589e5dd7070Spatrick // Perform template argument deduction for the template name.
590*12c85518Srobert if (auto Result =
591*12c85518Srobert DeduceTemplateArguments(S, TemplateParams, TNP, TNA, Info, Deduced))
592e5dd7070Spatrick return Result;
593e5dd7070Spatrick // Perform template argument deduction on each template
594e5dd7070Spatrick // argument. Ignore any missing/extra arguments, since they could be
595e5dd7070Spatrick // filled in by default arguments.
596*12c85518Srobert return DeduceTemplateArguments(S, TemplateParams, PResolved,
597*12c85518Srobert SA->template_arguments(), Info, Deduced,
598e5dd7070Spatrick /*NumberOfArgumentsMustMatch=*/false);
599e5dd7070Spatrick }
600e5dd7070Spatrick
601e5dd7070Spatrick // If the argument type is a class template specialization, we
602e5dd7070Spatrick // perform template argument deduction using its template
603e5dd7070Spatrick // arguments.
604*12c85518Srobert const auto *RA = UA->getAs<RecordType>();
605*12c85518Srobert const auto *SA =
606*12c85518Srobert RA ? dyn_cast<ClassTemplateSpecializationDecl>(RA->getDecl()) : nullptr;
607*12c85518Srobert if (!SA) {
608*12c85518Srobert Info.FirstArg = TemplateArgument(P);
609*12c85518Srobert Info.SecondArg = TemplateArgument(A);
610e5dd7070Spatrick return Sema::TDK_NonDeducedMismatch;
611e5dd7070Spatrick }
612e5dd7070Spatrick
613e5dd7070Spatrick // Perform template argument deduction for the template name.
614*12c85518Srobert if (auto Result = DeduceTemplateArguments(
615*12c85518Srobert S, TemplateParams, TP->getTemplateName(),
616*12c85518Srobert TemplateName(SA->getSpecializedTemplate()), Info, Deduced))
617e5dd7070Spatrick return Result;
618e5dd7070Spatrick
619e5dd7070Spatrick // Perform template argument deduction for the template arguments.
620*12c85518Srobert return DeduceTemplateArguments(S, TemplateParams, PResolved,
621*12c85518Srobert SA->getTemplateArgs().asArray(), Info, Deduced,
622*12c85518Srobert /*NumberOfArgumentsMustMatch=*/true);
623e5dd7070Spatrick }
624e5dd7070Spatrick
IsPossiblyOpaquelyQualifiedTypeInternal(const Type * T)625*12c85518Srobert static bool IsPossiblyOpaquelyQualifiedTypeInternal(const Type *T) {
626*12c85518Srobert assert(T->isCanonicalUnqualified());
627*12c85518Srobert
628e5dd7070Spatrick switch (T->getTypeClass()) {
629e5dd7070Spatrick case Type::TypeOfExpr:
630e5dd7070Spatrick case Type::TypeOf:
631e5dd7070Spatrick case Type::DependentName:
632e5dd7070Spatrick case Type::Decltype:
633e5dd7070Spatrick case Type::UnresolvedUsing:
634e5dd7070Spatrick case Type::TemplateTypeParm:
635e5dd7070Spatrick return true;
636e5dd7070Spatrick
637e5dd7070Spatrick case Type::ConstantArray:
638e5dd7070Spatrick case Type::IncompleteArray:
639e5dd7070Spatrick case Type::VariableArray:
640e5dd7070Spatrick case Type::DependentSizedArray:
641*12c85518Srobert return IsPossiblyOpaquelyQualifiedTypeInternal(
642*12c85518Srobert cast<ArrayType>(T)->getElementType().getTypePtr());
643e5dd7070Spatrick
644e5dd7070Spatrick default:
645e5dd7070Spatrick return false;
646e5dd7070Spatrick }
647e5dd7070Spatrick }
648e5dd7070Spatrick
649*12c85518Srobert /// Determines whether the given type is an opaque type that
650*12c85518Srobert /// might be more qualified when instantiated.
IsPossiblyOpaquelyQualifiedType(QualType T)651*12c85518Srobert static bool IsPossiblyOpaquelyQualifiedType(QualType T) {
652*12c85518Srobert return IsPossiblyOpaquelyQualifiedTypeInternal(
653*12c85518Srobert T->getCanonicalTypeInternal().getTypePtr());
654*12c85518Srobert }
655*12c85518Srobert
656e5dd7070Spatrick /// Helper function to build a TemplateParameter when we don't
657e5dd7070Spatrick /// know its type statically.
makeTemplateParameter(Decl * D)658e5dd7070Spatrick static TemplateParameter makeTemplateParameter(Decl *D) {
659e5dd7070Spatrick if (TemplateTypeParmDecl *TTP = dyn_cast<TemplateTypeParmDecl>(D))
660e5dd7070Spatrick return TemplateParameter(TTP);
661e5dd7070Spatrick if (NonTypeTemplateParmDecl *NTTP = dyn_cast<NonTypeTemplateParmDecl>(D))
662e5dd7070Spatrick return TemplateParameter(NTTP);
663e5dd7070Spatrick
664e5dd7070Spatrick return TemplateParameter(cast<TemplateTemplateParmDecl>(D));
665e5dd7070Spatrick }
666e5dd7070Spatrick
667e5dd7070Spatrick /// A pack that we're currently deducing.
668e5dd7070Spatrick struct clang::DeducedPack {
669e5dd7070Spatrick // The index of the pack.
670e5dd7070Spatrick unsigned Index;
671e5dd7070Spatrick
672e5dd7070Spatrick // The old value of the pack before we started deducing it.
673e5dd7070Spatrick DeducedTemplateArgument Saved;
674e5dd7070Spatrick
675e5dd7070Spatrick // A deferred value of this pack from an inner deduction, that couldn't be
676e5dd7070Spatrick // deduced because this deduction hadn't happened yet.
677e5dd7070Spatrick DeducedTemplateArgument DeferredDeduction;
678e5dd7070Spatrick
679e5dd7070Spatrick // The new value of the pack.
680e5dd7070Spatrick SmallVector<DeducedTemplateArgument, 4> New;
681e5dd7070Spatrick
682e5dd7070Spatrick // The outer deduction for this pack, if any.
683e5dd7070Spatrick DeducedPack *Outer = nullptr;
684e5dd7070Spatrick
DeducedPackclang::DeducedPack685e5dd7070Spatrick DeducedPack(unsigned Index) : Index(Index) {}
686e5dd7070Spatrick };
687e5dd7070Spatrick
688e5dd7070Spatrick namespace {
689e5dd7070Spatrick
690e5dd7070Spatrick /// A scope in which we're performing pack deduction.
691e5dd7070Spatrick class PackDeductionScope {
692e5dd7070Spatrick public:
693e5dd7070Spatrick /// Prepare to deduce the packs named within Pattern.
PackDeductionScope(Sema & S,TemplateParameterList * TemplateParams,SmallVectorImpl<DeducedTemplateArgument> & Deduced,TemplateDeductionInfo & Info,TemplateArgument Pattern)694e5dd7070Spatrick PackDeductionScope(Sema &S, TemplateParameterList *TemplateParams,
695e5dd7070Spatrick SmallVectorImpl<DeducedTemplateArgument> &Deduced,
696e5dd7070Spatrick TemplateDeductionInfo &Info, TemplateArgument Pattern)
697e5dd7070Spatrick : S(S), TemplateParams(TemplateParams), Deduced(Deduced), Info(Info) {
698e5dd7070Spatrick unsigned NumNamedPacks = addPacks(Pattern);
699e5dd7070Spatrick finishConstruction(NumNamedPacks);
700e5dd7070Spatrick }
701e5dd7070Spatrick
702e5dd7070Spatrick /// Prepare to directly deduce arguments of the parameter with index \p Index.
PackDeductionScope(Sema & S,TemplateParameterList * TemplateParams,SmallVectorImpl<DeducedTemplateArgument> & Deduced,TemplateDeductionInfo & Info,unsigned Index)703e5dd7070Spatrick PackDeductionScope(Sema &S, TemplateParameterList *TemplateParams,
704e5dd7070Spatrick SmallVectorImpl<DeducedTemplateArgument> &Deduced,
705e5dd7070Spatrick TemplateDeductionInfo &Info, unsigned Index)
706e5dd7070Spatrick : S(S), TemplateParams(TemplateParams), Deduced(Deduced), Info(Info) {
707e5dd7070Spatrick addPack(Index);
708e5dd7070Spatrick finishConstruction(1);
709e5dd7070Spatrick }
710e5dd7070Spatrick
711e5dd7070Spatrick private:
addPack(unsigned Index)712e5dd7070Spatrick void addPack(unsigned Index) {
713e5dd7070Spatrick // Save the deduced template argument for the parameter pack expanded
714e5dd7070Spatrick // by this pack expansion, then clear out the deduction.
715e5dd7070Spatrick DeducedPack Pack(Index);
716e5dd7070Spatrick Pack.Saved = Deduced[Index];
717e5dd7070Spatrick Deduced[Index] = TemplateArgument();
718e5dd7070Spatrick
719e5dd7070Spatrick // FIXME: What if we encounter multiple packs with different numbers of
720e5dd7070Spatrick // pre-expanded expansions? (This should already have been diagnosed
721e5dd7070Spatrick // during substitution.)
722*12c85518Srobert if (std::optional<unsigned> ExpandedPackExpansions =
723e5dd7070Spatrick getExpandedPackSize(TemplateParams->getParam(Index)))
724e5dd7070Spatrick FixedNumExpansions = ExpandedPackExpansions;
725e5dd7070Spatrick
726e5dd7070Spatrick Packs.push_back(Pack);
727e5dd7070Spatrick }
728e5dd7070Spatrick
addPacks(TemplateArgument Pattern)729e5dd7070Spatrick unsigned addPacks(TemplateArgument Pattern) {
730e5dd7070Spatrick // Compute the set of template parameter indices that correspond to
731e5dd7070Spatrick // parameter packs expanded by the pack expansion.
732e5dd7070Spatrick llvm::SmallBitVector SawIndices(TemplateParams->size());
733e5dd7070Spatrick llvm::SmallVector<TemplateArgument, 4> ExtraDeductions;
734e5dd7070Spatrick
735e5dd7070Spatrick auto AddPack = [&](unsigned Index) {
736e5dd7070Spatrick if (SawIndices[Index])
737e5dd7070Spatrick return;
738e5dd7070Spatrick SawIndices[Index] = true;
739e5dd7070Spatrick addPack(Index);
740e5dd7070Spatrick
741e5dd7070Spatrick // Deducing a parameter pack that is a pack expansion also constrains the
742e5dd7070Spatrick // packs appearing in that parameter to have the same deduced arity. Also,
743e5dd7070Spatrick // in C++17 onwards, deducing a non-type template parameter deduces its
744e5dd7070Spatrick // type, so we need to collect the pending deduced values for those packs.
745e5dd7070Spatrick if (auto *NTTP = dyn_cast<NonTypeTemplateParmDecl>(
746e5dd7070Spatrick TemplateParams->getParam(Index))) {
747ec727ea7Spatrick if (!NTTP->isExpandedParameterPack())
748e5dd7070Spatrick if (auto *Expansion = dyn_cast<PackExpansionType>(NTTP->getType()))
749e5dd7070Spatrick ExtraDeductions.push_back(Expansion->getPattern());
750e5dd7070Spatrick }
751e5dd7070Spatrick // FIXME: Also collect the unexpanded packs in any type and template
752e5dd7070Spatrick // parameter packs that are pack expansions.
753e5dd7070Spatrick };
754e5dd7070Spatrick
755e5dd7070Spatrick auto Collect = [&](TemplateArgument Pattern) {
756e5dd7070Spatrick SmallVector<UnexpandedParameterPack, 2> Unexpanded;
757e5dd7070Spatrick S.collectUnexpandedParameterPacks(Pattern, Unexpanded);
758e5dd7070Spatrick for (unsigned I = 0, N = Unexpanded.size(); I != N; ++I) {
759e5dd7070Spatrick unsigned Depth, Index;
760e5dd7070Spatrick std::tie(Depth, Index) = getDepthAndIndex(Unexpanded[I]);
761e5dd7070Spatrick if (Depth == Info.getDeducedDepth())
762e5dd7070Spatrick AddPack(Index);
763e5dd7070Spatrick }
764e5dd7070Spatrick };
765e5dd7070Spatrick
766e5dd7070Spatrick // Look for unexpanded packs in the pattern.
767e5dd7070Spatrick Collect(Pattern);
768e5dd7070Spatrick assert(!Packs.empty() && "Pack expansion without unexpanded packs?");
769e5dd7070Spatrick
770e5dd7070Spatrick unsigned NumNamedPacks = Packs.size();
771e5dd7070Spatrick
772e5dd7070Spatrick // Also look for unexpanded packs that are indirectly deduced by deducing
773e5dd7070Spatrick // the sizes of the packs in this pattern.
774e5dd7070Spatrick while (!ExtraDeductions.empty())
775e5dd7070Spatrick Collect(ExtraDeductions.pop_back_val());
776e5dd7070Spatrick
777e5dd7070Spatrick return NumNamedPacks;
778e5dd7070Spatrick }
779e5dd7070Spatrick
finishConstruction(unsigned NumNamedPacks)780e5dd7070Spatrick void finishConstruction(unsigned NumNamedPacks) {
781e5dd7070Spatrick // Dig out the partially-substituted pack, if there is one.
782e5dd7070Spatrick const TemplateArgument *PartialPackArgs = nullptr;
783e5dd7070Spatrick unsigned NumPartialPackArgs = 0;
784e5dd7070Spatrick std::pair<unsigned, unsigned> PartialPackDepthIndex(-1u, -1u);
785e5dd7070Spatrick if (auto *Scope = S.CurrentInstantiationScope)
786e5dd7070Spatrick if (auto *Partial = Scope->getPartiallySubstitutedPack(
787e5dd7070Spatrick &PartialPackArgs, &NumPartialPackArgs))
788e5dd7070Spatrick PartialPackDepthIndex = getDepthAndIndex(Partial);
789e5dd7070Spatrick
790e5dd7070Spatrick // This pack expansion will have been partially or fully expanded if
791e5dd7070Spatrick // it only names explicitly-specified parameter packs (including the
792e5dd7070Spatrick // partially-substituted one, if any).
793e5dd7070Spatrick bool IsExpanded = true;
794e5dd7070Spatrick for (unsigned I = 0; I != NumNamedPacks; ++I) {
795e5dd7070Spatrick if (Packs[I].Index >= Info.getNumExplicitArgs()) {
796e5dd7070Spatrick IsExpanded = false;
797e5dd7070Spatrick IsPartiallyExpanded = false;
798e5dd7070Spatrick break;
799e5dd7070Spatrick }
800e5dd7070Spatrick if (PartialPackDepthIndex ==
801e5dd7070Spatrick std::make_pair(Info.getDeducedDepth(), Packs[I].Index)) {
802e5dd7070Spatrick IsPartiallyExpanded = true;
803e5dd7070Spatrick }
804e5dd7070Spatrick }
805e5dd7070Spatrick
806e5dd7070Spatrick // Skip over the pack elements that were expanded into separate arguments.
807e5dd7070Spatrick // If we partially expanded, this is the number of partial arguments.
808e5dd7070Spatrick if (IsPartiallyExpanded)
809e5dd7070Spatrick PackElements += NumPartialPackArgs;
810e5dd7070Spatrick else if (IsExpanded)
811e5dd7070Spatrick PackElements += *FixedNumExpansions;
812e5dd7070Spatrick
813e5dd7070Spatrick for (auto &Pack : Packs) {
814e5dd7070Spatrick if (Info.PendingDeducedPacks.size() > Pack.Index)
815e5dd7070Spatrick Pack.Outer = Info.PendingDeducedPacks[Pack.Index];
816e5dd7070Spatrick else
817e5dd7070Spatrick Info.PendingDeducedPacks.resize(Pack.Index + 1);
818e5dd7070Spatrick Info.PendingDeducedPacks[Pack.Index] = &Pack;
819e5dd7070Spatrick
820e5dd7070Spatrick if (PartialPackDepthIndex ==
821e5dd7070Spatrick std::make_pair(Info.getDeducedDepth(), Pack.Index)) {
822e5dd7070Spatrick Pack.New.append(PartialPackArgs, PartialPackArgs + NumPartialPackArgs);
823e5dd7070Spatrick // We pre-populate the deduced value of the partially-substituted
824e5dd7070Spatrick // pack with the specified value. This is not entirely correct: the
825e5dd7070Spatrick // value is supposed to have been substituted, not deduced, but the
826e5dd7070Spatrick // cases where this is observable require an exact type match anyway.
827e5dd7070Spatrick //
828e5dd7070Spatrick // FIXME: If we could represent a "depth i, index j, pack elem k"
829e5dd7070Spatrick // parameter, we could substitute the partially-substituted pack
830e5dd7070Spatrick // everywhere and avoid this.
831e5dd7070Spatrick if (!IsPartiallyExpanded)
832e5dd7070Spatrick Deduced[Pack.Index] = Pack.New[PackElements];
833e5dd7070Spatrick }
834e5dd7070Spatrick }
835e5dd7070Spatrick }
836e5dd7070Spatrick
837e5dd7070Spatrick public:
~PackDeductionScope()838e5dd7070Spatrick ~PackDeductionScope() {
839e5dd7070Spatrick for (auto &Pack : Packs)
840e5dd7070Spatrick Info.PendingDeducedPacks[Pack.Index] = Pack.Outer;
841e5dd7070Spatrick }
842e5dd7070Spatrick
843e5dd7070Spatrick /// Determine whether this pack has already been partially expanded into a
844e5dd7070Spatrick /// sequence of (prior) function parameters / template arguments.
isPartiallyExpanded()845e5dd7070Spatrick bool isPartiallyExpanded() { return IsPartiallyExpanded; }
846e5dd7070Spatrick
847e5dd7070Spatrick /// Determine whether this pack expansion scope has a known, fixed arity.
848e5dd7070Spatrick /// This happens if it involves a pack from an outer template that has
849e5dd7070Spatrick /// (notionally) already been expanded.
hasFixedArity()850*12c85518Srobert bool hasFixedArity() { return FixedNumExpansions.has_value(); }
851e5dd7070Spatrick
852e5dd7070Spatrick /// Determine whether the next element of the argument is still part of this
853e5dd7070Spatrick /// pack. This is the case unless the pack is already expanded to a fixed
854e5dd7070Spatrick /// length.
hasNextElement()855e5dd7070Spatrick bool hasNextElement() {
856e5dd7070Spatrick return !FixedNumExpansions || *FixedNumExpansions > PackElements;
857e5dd7070Spatrick }
858e5dd7070Spatrick
859e5dd7070Spatrick /// Move to deducing the next element in each pack that is being deduced.
nextPackElement()860e5dd7070Spatrick void nextPackElement() {
861e5dd7070Spatrick // Capture the deduced template arguments for each parameter pack expanded
862e5dd7070Spatrick // by this pack expansion, add them to the list of arguments we've deduced
863e5dd7070Spatrick // for that pack, then clear out the deduced argument.
864e5dd7070Spatrick for (auto &Pack : Packs) {
865e5dd7070Spatrick DeducedTemplateArgument &DeducedArg = Deduced[Pack.Index];
866e5dd7070Spatrick if (!Pack.New.empty() || !DeducedArg.isNull()) {
867e5dd7070Spatrick while (Pack.New.size() < PackElements)
868e5dd7070Spatrick Pack.New.push_back(DeducedTemplateArgument());
869e5dd7070Spatrick if (Pack.New.size() == PackElements)
870e5dd7070Spatrick Pack.New.push_back(DeducedArg);
871e5dd7070Spatrick else
872e5dd7070Spatrick Pack.New[PackElements] = DeducedArg;
873e5dd7070Spatrick DeducedArg = Pack.New.size() > PackElements + 1
874e5dd7070Spatrick ? Pack.New[PackElements + 1]
875e5dd7070Spatrick : DeducedTemplateArgument();
876e5dd7070Spatrick }
877e5dd7070Spatrick }
878e5dd7070Spatrick ++PackElements;
879e5dd7070Spatrick }
880e5dd7070Spatrick
881e5dd7070Spatrick /// Finish template argument deduction for a set of argument packs,
882e5dd7070Spatrick /// producing the argument packs and checking for consistency with prior
883e5dd7070Spatrick /// deductions.
finish()884e5dd7070Spatrick Sema::TemplateDeductionResult finish() {
885e5dd7070Spatrick // Build argument packs for each of the parameter packs expanded by this
886e5dd7070Spatrick // pack expansion.
887e5dd7070Spatrick for (auto &Pack : Packs) {
888e5dd7070Spatrick // Put back the old value for this pack.
889e5dd7070Spatrick Deduced[Pack.Index] = Pack.Saved;
890e5dd7070Spatrick
891e5dd7070Spatrick // Always make sure the size of this pack is correct, even if we didn't
892e5dd7070Spatrick // deduce any values for it.
893e5dd7070Spatrick //
894e5dd7070Spatrick // FIXME: This isn't required by the normative wording, but substitution
895e5dd7070Spatrick // and post-substitution checking will always fail if the arity of any
896e5dd7070Spatrick // pack is not equal to the number of elements we processed. (Either that
897e5dd7070Spatrick // or something else has gone *very* wrong.) We're permitted to skip any
898e5dd7070Spatrick // hard errors from those follow-on steps by the intent (but not the
899e5dd7070Spatrick // wording) of C++ [temp.inst]p8:
900e5dd7070Spatrick //
901e5dd7070Spatrick // If the function selected by overload resolution can be determined
902e5dd7070Spatrick // without instantiating a class template definition, it is unspecified
903e5dd7070Spatrick // whether that instantiation actually takes place
904e5dd7070Spatrick Pack.New.resize(PackElements);
905e5dd7070Spatrick
906e5dd7070Spatrick // Build or find a new value for this pack.
907e5dd7070Spatrick DeducedTemplateArgument NewPack;
908e5dd7070Spatrick if (Pack.New.empty()) {
909e5dd7070Spatrick // If we deduced an empty argument pack, create it now.
910e5dd7070Spatrick NewPack = DeducedTemplateArgument(TemplateArgument::getEmptyPack());
911e5dd7070Spatrick } else {
912e5dd7070Spatrick TemplateArgument *ArgumentPack =
913e5dd7070Spatrick new (S.Context) TemplateArgument[Pack.New.size()];
914e5dd7070Spatrick std::copy(Pack.New.begin(), Pack.New.end(), ArgumentPack);
915e5dd7070Spatrick NewPack = DeducedTemplateArgument(
916*12c85518Srobert TemplateArgument(llvm::ArrayRef(ArgumentPack, Pack.New.size())),
917e5dd7070Spatrick // FIXME: This is wrong, it's possible that some pack elements are
918e5dd7070Spatrick // deduced from an array bound and others are not:
919e5dd7070Spatrick // template<typename ...T, T ...V> void g(const T (&...p)[V]);
920e5dd7070Spatrick // g({1, 2, 3}, {{}, {}});
921e5dd7070Spatrick // ... should deduce T = {int, size_t (from array bound)}.
922e5dd7070Spatrick Pack.New[0].wasDeducedFromArrayBound());
923e5dd7070Spatrick }
924e5dd7070Spatrick
925e5dd7070Spatrick // Pick where we're going to put the merged pack.
926e5dd7070Spatrick DeducedTemplateArgument *Loc;
927e5dd7070Spatrick if (Pack.Outer) {
928e5dd7070Spatrick if (Pack.Outer->DeferredDeduction.isNull()) {
929e5dd7070Spatrick // Defer checking this pack until we have a complete pack to compare
930e5dd7070Spatrick // it against.
931e5dd7070Spatrick Pack.Outer->DeferredDeduction = NewPack;
932e5dd7070Spatrick continue;
933e5dd7070Spatrick }
934e5dd7070Spatrick Loc = &Pack.Outer->DeferredDeduction;
935e5dd7070Spatrick } else {
936e5dd7070Spatrick Loc = &Deduced[Pack.Index];
937e5dd7070Spatrick }
938e5dd7070Spatrick
939e5dd7070Spatrick // Check the new pack matches any previous value.
940e5dd7070Spatrick DeducedTemplateArgument OldPack = *Loc;
941e5dd7070Spatrick DeducedTemplateArgument Result =
942e5dd7070Spatrick checkDeducedTemplateArguments(S.Context, OldPack, NewPack);
943e5dd7070Spatrick
944e5dd7070Spatrick // If we deferred a deduction of this pack, check that one now too.
945e5dd7070Spatrick if (!Result.isNull() && !Pack.DeferredDeduction.isNull()) {
946e5dd7070Spatrick OldPack = Result;
947e5dd7070Spatrick NewPack = Pack.DeferredDeduction;
948e5dd7070Spatrick Result = checkDeducedTemplateArguments(S.Context, OldPack, NewPack);
949e5dd7070Spatrick }
950e5dd7070Spatrick
951e5dd7070Spatrick NamedDecl *Param = TemplateParams->getParam(Pack.Index);
952e5dd7070Spatrick if (Result.isNull()) {
953e5dd7070Spatrick Info.Param = makeTemplateParameter(Param);
954e5dd7070Spatrick Info.FirstArg = OldPack;
955e5dd7070Spatrick Info.SecondArg = NewPack;
956e5dd7070Spatrick return Sema::TDK_Inconsistent;
957e5dd7070Spatrick }
958e5dd7070Spatrick
959e5dd7070Spatrick // If we have a pre-expanded pack and we didn't deduce enough elements
960e5dd7070Spatrick // for it, fail deduction.
961*12c85518Srobert if (std::optional<unsigned> Expansions = getExpandedPackSize(Param)) {
962e5dd7070Spatrick if (*Expansions != PackElements) {
963e5dd7070Spatrick Info.Param = makeTemplateParameter(Param);
964e5dd7070Spatrick Info.FirstArg = Result;
965e5dd7070Spatrick return Sema::TDK_IncompletePack;
966e5dd7070Spatrick }
967e5dd7070Spatrick }
968e5dd7070Spatrick
969e5dd7070Spatrick *Loc = Result;
970e5dd7070Spatrick }
971e5dd7070Spatrick
972e5dd7070Spatrick return Sema::TDK_Success;
973e5dd7070Spatrick }
974e5dd7070Spatrick
975e5dd7070Spatrick private:
976e5dd7070Spatrick Sema &S;
977e5dd7070Spatrick TemplateParameterList *TemplateParams;
978e5dd7070Spatrick SmallVectorImpl<DeducedTemplateArgument> &Deduced;
979e5dd7070Spatrick TemplateDeductionInfo &Info;
980e5dd7070Spatrick unsigned PackElements = 0;
981e5dd7070Spatrick bool IsPartiallyExpanded = false;
982e5dd7070Spatrick /// The number of expansions, if we have a fully-expanded pack in this scope.
983*12c85518Srobert std::optional<unsigned> FixedNumExpansions;
984e5dd7070Spatrick
985e5dd7070Spatrick SmallVector<DeducedPack, 2> Packs;
986e5dd7070Spatrick };
987e5dd7070Spatrick
988e5dd7070Spatrick } // namespace
989e5dd7070Spatrick
990e5dd7070Spatrick /// Deduce the template arguments by comparing the list of parameter
991e5dd7070Spatrick /// types to the list of argument types, as in the parameter-type-lists of
992e5dd7070Spatrick /// function types (C++ [temp.deduct.type]p10).
993e5dd7070Spatrick ///
994e5dd7070Spatrick /// \param S The semantic analysis object within which we are deducing
995e5dd7070Spatrick ///
996e5dd7070Spatrick /// \param TemplateParams The template parameters that we are deducing
997e5dd7070Spatrick ///
998e5dd7070Spatrick /// \param Params The list of parameter types
999e5dd7070Spatrick ///
1000e5dd7070Spatrick /// \param NumParams The number of types in \c Params
1001e5dd7070Spatrick ///
1002e5dd7070Spatrick /// \param Args The list of argument types
1003e5dd7070Spatrick ///
1004e5dd7070Spatrick /// \param NumArgs The number of types in \c Args
1005e5dd7070Spatrick ///
1006e5dd7070Spatrick /// \param Info information about the template argument deduction itself
1007e5dd7070Spatrick ///
1008e5dd7070Spatrick /// \param Deduced the deduced template arguments
1009e5dd7070Spatrick ///
1010e5dd7070Spatrick /// \param TDF bitwise OR of the TemplateDeductionFlags bits that describe
1011e5dd7070Spatrick /// how template argument deduction is performed.
1012e5dd7070Spatrick ///
1013e5dd7070Spatrick /// \param PartialOrdering If true, we are performing template argument
1014e5dd7070Spatrick /// deduction for during partial ordering for a call
1015e5dd7070Spatrick /// (C++0x [temp.deduct.partial]).
1016e5dd7070Spatrick ///
1017e5dd7070Spatrick /// \returns the result of template argument deduction so far. Note that a
1018e5dd7070Spatrick /// "success" result means that template argument deduction has not yet failed,
1019e5dd7070Spatrick /// but it may still fail, later, for other reasons.
1020e5dd7070Spatrick static Sema::TemplateDeductionResult
DeduceTemplateArguments(Sema & S,TemplateParameterList * TemplateParams,const QualType * Params,unsigned NumParams,const QualType * Args,unsigned NumArgs,TemplateDeductionInfo & Info,SmallVectorImpl<DeducedTemplateArgument> & Deduced,unsigned TDF,bool PartialOrdering=false)1021e5dd7070Spatrick DeduceTemplateArguments(Sema &S,
1022e5dd7070Spatrick TemplateParameterList *TemplateParams,
1023e5dd7070Spatrick const QualType *Params, unsigned NumParams,
1024e5dd7070Spatrick const QualType *Args, unsigned NumArgs,
1025e5dd7070Spatrick TemplateDeductionInfo &Info,
1026e5dd7070Spatrick SmallVectorImpl<DeducedTemplateArgument> &Deduced,
1027e5dd7070Spatrick unsigned TDF,
1028e5dd7070Spatrick bool PartialOrdering = false) {
1029e5dd7070Spatrick // C++0x [temp.deduct.type]p10:
1030e5dd7070Spatrick // Similarly, if P has a form that contains (T), then each parameter type
1031e5dd7070Spatrick // Pi of the respective parameter-type- list of P is compared with the
1032e5dd7070Spatrick // corresponding parameter type Ai of the corresponding parameter-type-list
1033e5dd7070Spatrick // of A. [...]
1034e5dd7070Spatrick unsigned ArgIdx = 0, ParamIdx = 0;
1035e5dd7070Spatrick for (; ParamIdx != NumParams; ++ParamIdx) {
1036e5dd7070Spatrick // Check argument types.
1037e5dd7070Spatrick const PackExpansionType *Expansion
1038e5dd7070Spatrick = dyn_cast<PackExpansionType>(Params[ParamIdx]);
1039e5dd7070Spatrick if (!Expansion) {
1040e5dd7070Spatrick // Simple case: compare the parameter and argument types at this point.
1041e5dd7070Spatrick
1042e5dd7070Spatrick // Make sure we have an argument.
1043e5dd7070Spatrick if (ArgIdx >= NumArgs)
1044e5dd7070Spatrick return Sema::TDK_MiscellaneousDeductionFailure;
1045e5dd7070Spatrick
1046e5dd7070Spatrick if (isa<PackExpansionType>(Args[ArgIdx])) {
1047e5dd7070Spatrick // C++0x [temp.deduct.type]p22:
1048e5dd7070Spatrick // If the original function parameter associated with A is a function
1049e5dd7070Spatrick // parameter pack and the function parameter associated with P is not
1050e5dd7070Spatrick // a function parameter pack, then template argument deduction fails.
1051e5dd7070Spatrick return Sema::TDK_MiscellaneousDeductionFailure;
1052e5dd7070Spatrick }
1053e5dd7070Spatrick
1054*12c85518Srobert if (Sema::TemplateDeductionResult Result =
1055*12c85518Srobert DeduceTemplateArgumentsByTypeMatch(
1056*12c85518Srobert S, TemplateParams, Params[ParamIdx].getUnqualifiedType(),
1057*12c85518Srobert Args[ArgIdx].getUnqualifiedType(), Info, Deduced, TDF,
1058*12c85518Srobert PartialOrdering,
1059*12c85518Srobert /*DeducedFromArrayBound=*/false))
1060e5dd7070Spatrick return Result;
1061e5dd7070Spatrick
1062e5dd7070Spatrick ++ArgIdx;
1063e5dd7070Spatrick continue;
1064e5dd7070Spatrick }
1065e5dd7070Spatrick
1066e5dd7070Spatrick // C++0x [temp.deduct.type]p10:
1067e5dd7070Spatrick // If the parameter-declaration corresponding to Pi is a function
1068e5dd7070Spatrick // parameter pack, then the type of its declarator- id is compared with
1069e5dd7070Spatrick // each remaining parameter type in the parameter-type-list of A. Each
1070e5dd7070Spatrick // comparison deduces template arguments for subsequent positions in the
1071e5dd7070Spatrick // template parameter packs expanded by the function parameter pack.
1072e5dd7070Spatrick
1073e5dd7070Spatrick QualType Pattern = Expansion->getPattern();
1074e5dd7070Spatrick PackDeductionScope PackScope(S, TemplateParams, Deduced, Info, Pattern);
1075e5dd7070Spatrick
1076e5dd7070Spatrick // A pack scope with fixed arity is not really a pack any more, so is not
1077e5dd7070Spatrick // a non-deduced context.
1078e5dd7070Spatrick if (ParamIdx + 1 == NumParams || PackScope.hasFixedArity()) {
1079e5dd7070Spatrick for (; ArgIdx < NumArgs && PackScope.hasNextElement(); ++ArgIdx) {
1080e5dd7070Spatrick // Deduce template arguments from the pattern.
1081*12c85518Srobert if (Sema::TemplateDeductionResult Result =
1082*12c85518Srobert DeduceTemplateArgumentsByTypeMatch(
1083*12c85518Srobert S, TemplateParams, Pattern.getUnqualifiedType(),
1084*12c85518Srobert Args[ArgIdx].getUnqualifiedType(), Info, Deduced, TDF,
1085*12c85518Srobert PartialOrdering, /*DeducedFromArrayBound=*/false))
1086e5dd7070Spatrick return Result;
1087e5dd7070Spatrick
1088e5dd7070Spatrick PackScope.nextPackElement();
1089e5dd7070Spatrick }
1090e5dd7070Spatrick } else {
1091e5dd7070Spatrick // C++0x [temp.deduct.type]p5:
1092e5dd7070Spatrick // The non-deduced contexts are:
1093e5dd7070Spatrick // - A function parameter pack that does not occur at the end of the
1094e5dd7070Spatrick // parameter-declaration-clause.
1095e5dd7070Spatrick //
1096e5dd7070Spatrick // FIXME: There is no wording to say what we should do in this case. We
1097e5dd7070Spatrick // choose to resolve this by applying the same rule that is applied for a
1098e5dd7070Spatrick // function call: that is, deduce all contained packs to their
1099e5dd7070Spatrick // explicitly-specified values (or to <> if there is no such value).
1100e5dd7070Spatrick //
1101e5dd7070Spatrick // This is seemingly-arbitrarily different from the case of a template-id
1102e5dd7070Spatrick // with a non-trailing pack-expansion in its arguments, which renders the
1103e5dd7070Spatrick // entire template-argument-list a non-deduced context.
1104e5dd7070Spatrick
1105e5dd7070Spatrick // If the parameter type contains an explicitly-specified pack that we
1106e5dd7070Spatrick // could not expand, skip the number of parameters notionally created
1107e5dd7070Spatrick // by the expansion.
1108*12c85518Srobert std::optional<unsigned> NumExpansions = Expansion->getNumExpansions();
1109e5dd7070Spatrick if (NumExpansions && !PackScope.isPartiallyExpanded()) {
1110e5dd7070Spatrick for (unsigned I = 0; I != *NumExpansions && ArgIdx < NumArgs;
1111e5dd7070Spatrick ++I, ++ArgIdx)
1112e5dd7070Spatrick PackScope.nextPackElement();
1113e5dd7070Spatrick }
1114e5dd7070Spatrick }
1115e5dd7070Spatrick
1116e5dd7070Spatrick // Build argument packs for each of the parameter packs expanded by this
1117e5dd7070Spatrick // pack expansion.
1118e5dd7070Spatrick if (auto Result = PackScope.finish())
1119e5dd7070Spatrick return Result;
1120e5dd7070Spatrick }
1121e5dd7070Spatrick
1122*12c85518Srobert // DR692, DR1395
1123*12c85518Srobert // C++0x [temp.deduct.type]p10:
1124*12c85518Srobert // If the parameter-declaration corresponding to P_i ...
1125*12c85518Srobert // During partial ordering, if Ai was originally a function parameter pack:
1126*12c85518Srobert // - if P does not contain a function parameter type corresponding to Ai then
1127*12c85518Srobert // Ai is ignored;
1128*12c85518Srobert if (PartialOrdering && ArgIdx + 1 == NumArgs &&
1129*12c85518Srobert isa<PackExpansionType>(Args[ArgIdx]))
1130*12c85518Srobert return Sema::TDK_Success;
1131*12c85518Srobert
1132e5dd7070Spatrick // Make sure we don't have any extra arguments.
1133e5dd7070Spatrick if (ArgIdx < NumArgs)
1134e5dd7070Spatrick return Sema::TDK_MiscellaneousDeductionFailure;
1135e5dd7070Spatrick
1136e5dd7070Spatrick return Sema::TDK_Success;
1137e5dd7070Spatrick }
1138e5dd7070Spatrick
1139e5dd7070Spatrick /// Determine whether the parameter has qualifiers that the argument
1140e5dd7070Spatrick /// lacks. Put another way, determine whether there is no way to add
1141e5dd7070Spatrick /// a deduced set of qualifiers to the ParamType that would result in
1142e5dd7070Spatrick /// its qualifiers matching those of the ArgType.
hasInconsistentOrSupersetQualifiersOf(QualType ParamType,QualType ArgType)1143e5dd7070Spatrick static bool hasInconsistentOrSupersetQualifiersOf(QualType ParamType,
1144e5dd7070Spatrick QualType ArgType) {
1145e5dd7070Spatrick Qualifiers ParamQs = ParamType.getQualifiers();
1146e5dd7070Spatrick Qualifiers ArgQs = ArgType.getQualifiers();
1147e5dd7070Spatrick
1148e5dd7070Spatrick if (ParamQs == ArgQs)
1149e5dd7070Spatrick return false;
1150e5dd7070Spatrick
1151e5dd7070Spatrick // Mismatched (but not missing) Objective-C GC attributes.
1152e5dd7070Spatrick if (ParamQs.getObjCGCAttr() != ArgQs.getObjCGCAttr() &&
1153e5dd7070Spatrick ParamQs.hasObjCGCAttr())
1154e5dd7070Spatrick return true;
1155e5dd7070Spatrick
1156e5dd7070Spatrick // Mismatched (but not missing) address spaces.
1157e5dd7070Spatrick if (ParamQs.getAddressSpace() != ArgQs.getAddressSpace() &&
1158e5dd7070Spatrick ParamQs.hasAddressSpace())
1159e5dd7070Spatrick return true;
1160e5dd7070Spatrick
1161e5dd7070Spatrick // Mismatched (but not missing) Objective-C lifetime qualifiers.
1162e5dd7070Spatrick if (ParamQs.getObjCLifetime() != ArgQs.getObjCLifetime() &&
1163e5dd7070Spatrick ParamQs.hasObjCLifetime())
1164e5dd7070Spatrick return true;
1165e5dd7070Spatrick
1166e5dd7070Spatrick // CVR qualifiers inconsistent or a superset.
1167e5dd7070Spatrick return (ParamQs.getCVRQualifiers() & ~ArgQs.getCVRQualifiers()) != 0;
1168e5dd7070Spatrick }
1169e5dd7070Spatrick
1170e5dd7070Spatrick /// Compare types for equality with respect to possibly compatible
1171e5dd7070Spatrick /// function types (noreturn adjustment, implicit calling conventions). If any
1172e5dd7070Spatrick /// of parameter and argument is not a function, just perform type comparison.
1173e5dd7070Spatrick ///
1174*12c85518Srobert /// \param P the template parameter type.
1175e5dd7070Spatrick ///
1176*12c85518Srobert /// \param A the argument type.
isSameOrCompatibleFunctionType(QualType P,QualType A)1177*12c85518Srobert bool Sema::isSameOrCompatibleFunctionType(QualType P, QualType A) {
1178*12c85518Srobert const FunctionType *PF = P->getAs<FunctionType>(),
1179*12c85518Srobert *AF = A->getAs<FunctionType>();
1180e5dd7070Spatrick
1181e5dd7070Spatrick // Just compare if not functions.
1182*12c85518Srobert if (!PF || !AF)
1183*12c85518Srobert return Context.hasSameType(P, A);
1184e5dd7070Spatrick
1185e5dd7070Spatrick // Noreturn and noexcept adjustment.
1186e5dd7070Spatrick QualType AdjustedParam;
1187*12c85518Srobert if (IsFunctionConversion(P, A, AdjustedParam))
1188*12c85518Srobert return Context.hasSameType(AdjustedParam, A);
1189e5dd7070Spatrick
1190e5dd7070Spatrick // FIXME: Compatible calling conventions.
1191e5dd7070Spatrick
1192*12c85518Srobert return Context.hasSameType(P, A);
1193e5dd7070Spatrick }
1194e5dd7070Spatrick
1195e5dd7070Spatrick /// Get the index of the first template parameter that was originally from the
1196e5dd7070Spatrick /// innermost template-parameter-list. This is 0 except when we concatenate
1197e5dd7070Spatrick /// the template parameter lists of a class template and a constructor template
1198e5dd7070Spatrick /// when forming an implicit deduction guide.
getFirstInnerIndex(FunctionTemplateDecl * FTD)1199e5dd7070Spatrick static unsigned getFirstInnerIndex(FunctionTemplateDecl *FTD) {
1200e5dd7070Spatrick auto *Guide = dyn_cast<CXXDeductionGuideDecl>(FTD->getTemplatedDecl());
1201e5dd7070Spatrick if (!Guide || !Guide->isImplicit())
1202e5dd7070Spatrick return 0;
1203e5dd7070Spatrick return Guide->getDeducedTemplate()->getTemplateParameters()->size();
1204e5dd7070Spatrick }
1205e5dd7070Spatrick
1206e5dd7070Spatrick /// Determine whether a type denotes a forwarding reference.
isForwardingReference(QualType Param,unsigned FirstInnerIndex)1207e5dd7070Spatrick static bool isForwardingReference(QualType Param, unsigned FirstInnerIndex) {
1208e5dd7070Spatrick // C++1z [temp.deduct.call]p3:
1209e5dd7070Spatrick // A forwarding reference is an rvalue reference to a cv-unqualified
1210e5dd7070Spatrick // template parameter that does not represent a template parameter of a
1211e5dd7070Spatrick // class template.
1212e5dd7070Spatrick if (auto *ParamRef = Param->getAs<RValueReferenceType>()) {
1213e5dd7070Spatrick if (ParamRef->getPointeeType().getQualifiers())
1214e5dd7070Spatrick return false;
1215e5dd7070Spatrick auto *TypeParm = ParamRef->getPointeeType()->getAs<TemplateTypeParmType>();
1216e5dd7070Spatrick return TypeParm && TypeParm->getIndex() >= FirstInnerIndex;
1217e5dd7070Spatrick }
1218e5dd7070Spatrick return false;
1219e5dd7070Spatrick }
1220e5dd7070Spatrick
getCanonicalRD(QualType T)1221*12c85518Srobert static CXXRecordDecl *getCanonicalRD(QualType T) {
1222*12c85518Srobert return cast<CXXRecordDecl>(
1223*12c85518Srobert T->castAs<RecordType>()->getDecl()->getCanonicalDecl());
1224*12c85518Srobert }
1225*12c85518Srobert
1226a9ac8606Spatrick /// Attempt to deduce the template arguments by checking the base types
1227a9ac8606Spatrick /// according to (C++20 [temp.deduct.call] p4b3.
1228a9ac8606Spatrick ///
1229a9ac8606Spatrick /// \param S the semantic analysis object within which we are deducing.
1230a9ac8606Spatrick ///
1231*12c85518Srobert /// \param RD the top level record object we are deducing against.
1232a9ac8606Spatrick ///
1233a9ac8606Spatrick /// \param TemplateParams the template parameters that we are deducing.
1234a9ac8606Spatrick ///
1235*12c85518Srobert /// \param P the template specialization parameter type.
1236a9ac8606Spatrick ///
1237a9ac8606Spatrick /// \param Info information about the template argument deduction itself.
1238a9ac8606Spatrick ///
1239a9ac8606Spatrick /// \param Deduced the deduced template arguments.
1240a9ac8606Spatrick ///
1241a9ac8606Spatrick /// \returns the result of template argument deduction with the bases. "invalid"
1242a9ac8606Spatrick /// means no matches, "success" found a single item, and the
1243a9ac8606Spatrick /// "MiscellaneousDeductionFailure" result happens when the match is ambiguous.
1244*12c85518Srobert static Sema::TemplateDeductionResult
DeduceTemplateBases(Sema & S,const CXXRecordDecl * RD,TemplateParameterList * TemplateParams,QualType P,TemplateDeductionInfo & Info,SmallVectorImpl<DeducedTemplateArgument> & Deduced)1245*12c85518Srobert DeduceTemplateBases(Sema &S, const CXXRecordDecl *RD,
1246*12c85518Srobert TemplateParameterList *TemplateParams, QualType P,
1247*12c85518Srobert TemplateDeductionInfo &Info,
1248a9ac8606Spatrick SmallVectorImpl<DeducedTemplateArgument> &Deduced) {
1249a9ac8606Spatrick // C++14 [temp.deduct.call] p4b3:
1250a9ac8606Spatrick // If P is a class and P has the form simple-template-id, then the
1251a9ac8606Spatrick // transformed A can be a derived class of the deduced A. Likewise if
1252a9ac8606Spatrick // P is a pointer to a class of the form simple-template-id, the
1253a9ac8606Spatrick // transformed A can be a pointer to a derived class pointed to by the
1254a9ac8606Spatrick // deduced A. However, if there is a class C that is a (direct or
1255a9ac8606Spatrick // indirect) base class of D and derived (directly or indirectly) from a
1256a9ac8606Spatrick // class B and that would be a valid deduced A, the deduced A cannot be
1257a9ac8606Spatrick // B or pointer to B, respectively.
1258a9ac8606Spatrick //
1259a9ac8606Spatrick // These alternatives are considered only if type deduction would
1260a9ac8606Spatrick // otherwise fail. If they yield more than one possible deduced A, the
1261a9ac8606Spatrick // type deduction fails.
1262a9ac8606Spatrick
1263a9ac8606Spatrick // Use a breadth-first search through the bases to collect the set of
1264a9ac8606Spatrick // successful matches. Visited contains the set of nodes we have already
1265a9ac8606Spatrick // visited, while ToVisit is our stack of records that we still need to
1266a9ac8606Spatrick // visit. Matches contains a list of matches that have yet to be
1267a9ac8606Spatrick // disqualified.
1268*12c85518Srobert llvm::SmallPtrSet<const CXXRecordDecl *, 8> Visited;
1269*12c85518Srobert SmallVector<QualType, 8> ToVisit;
1270a9ac8606Spatrick // We iterate over this later, so we have to use MapVector to ensure
1271a9ac8606Spatrick // determinism.
1272*12c85518Srobert llvm::MapVector<const CXXRecordDecl *,
1273*12c85518Srobert SmallVector<DeducedTemplateArgument, 8>>
1274a9ac8606Spatrick Matches;
1275a9ac8606Spatrick
1276*12c85518Srobert auto AddBases = [&Visited, &ToVisit](const CXXRecordDecl *RD) {
1277a9ac8606Spatrick for (const auto &Base : RD->bases()) {
1278*12c85518Srobert QualType T = Base.getType();
1279*12c85518Srobert assert(T->isRecordType() && "Base class that isn't a record?");
1280*12c85518Srobert if (Visited.insert(::getCanonicalRD(T)).second)
1281*12c85518Srobert ToVisit.push_back(T);
1282a9ac8606Spatrick }
1283a9ac8606Spatrick };
1284a9ac8606Spatrick
1285a9ac8606Spatrick // Set up the loop by adding all the bases.
1286*12c85518Srobert AddBases(RD);
1287a9ac8606Spatrick
1288a9ac8606Spatrick // Search each path of bases until we either run into a successful match
1289a9ac8606Spatrick // (where all bases of it are invalid), or we run out of bases.
1290a9ac8606Spatrick while (!ToVisit.empty()) {
1291*12c85518Srobert QualType NextT = ToVisit.pop_back_val();
1292a9ac8606Spatrick
1293a9ac8606Spatrick SmallVector<DeducedTemplateArgument, 8> DeducedCopy(Deduced.begin(),
1294a9ac8606Spatrick Deduced.end());
1295a9ac8606Spatrick TemplateDeductionInfo BaseInfo(TemplateDeductionInfo::ForBase, Info);
1296*12c85518Srobert Sema::TemplateDeductionResult BaseResult = DeduceTemplateSpecArguments(
1297*12c85518Srobert S, TemplateParams, P, NextT, BaseInfo, DeducedCopy);
1298a9ac8606Spatrick
1299a9ac8606Spatrick // If this was a successful deduction, add it to the list of matches,
1300a9ac8606Spatrick // otherwise we need to continue searching its bases.
1301*12c85518Srobert const CXXRecordDecl *RD = ::getCanonicalRD(NextT);
1302a9ac8606Spatrick if (BaseResult == Sema::TDK_Success)
1303*12c85518Srobert Matches.insert({RD, DeducedCopy});
1304a9ac8606Spatrick else
1305*12c85518Srobert AddBases(RD);
1306a9ac8606Spatrick }
1307a9ac8606Spatrick
1308a9ac8606Spatrick // At this point, 'Matches' contains a list of seemingly valid bases, however
1309a9ac8606Spatrick // in the event that we have more than 1 match, it is possible that the base
1310a9ac8606Spatrick // of one of the matches might be disqualified for being a base of another
1311a9ac8606Spatrick // valid match. We can count on cyclical instantiations being invalid to
1312a9ac8606Spatrick // simplify the disqualifications. That is, if A & B are both matches, and B
1313a9ac8606Spatrick // inherits from A (disqualifying A), we know that A cannot inherit from B.
1314a9ac8606Spatrick if (Matches.size() > 1) {
1315a9ac8606Spatrick Visited.clear();
1316a9ac8606Spatrick for (const auto &Match : Matches)
1317a9ac8606Spatrick AddBases(Match.first);
1318a9ac8606Spatrick
1319a9ac8606Spatrick // We can give up once we have a single item (or have run out of things to
1320*12c85518Srobert // search) since cyclical inheritance isn't valid.
1321a9ac8606Spatrick while (Matches.size() > 1 && !ToVisit.empty()) {
1322*12c85518Srobert const CXXRecordDecl *RD = ::getCanonicalRD(ToVisit.pop_back_val());
1323*12c85518Srobert Matches.erase(RD);
1324a9ac8606Spatrick
1325*12c85518Srobert // Always add all bases, since the inheritance tree can contain
1326a9ac8606Spatrick // disqualifications for multiple matches.
1327*12c85518Srobert AddBases(RD);
1328a9ac8606Spatrick }
1329a9ac8606Spatrick }
1330a9ac8606Spatrick
1331a9ac8606Spatrick if (Matches.empty())
1332a9ac8606Spatrick return Sema::TDK_Invalid;
1333a9ac8606Spatrick if (Matches.size() > 1)
1334a9ac8606Spatrick return Sema::TDK_MiscellaneousDeductionFailure;
1335a9ac8606Spatrick
1336a9ac8606Spatrick std::swap(Matches.front().second, Deduced);
1337a9ac8606Spatrick return Sema::TDK_Success;
1338a9ac8606Spatrick }
1339a9ac8606Spatrick
1340e5dd7070Spatrick /// Deduce the template arguments by comparing the parameter type and
1341e5dd7070Spatrick /// the argument type (C++ [temp.deduct.type]).
1342e5dd7070Spatrick ///
1343e5dd7070Spatrick /// \param S the semantic analysis object within which we are deducing
1344e5dd7070Spatrick ///
1345e5dd7070Spatrick /// \param TemplateParams the template parameters that we are deducing
1346e5dd7070Spatrick ///
1347*12c85518Srobert /// \param P the parameter type
1348e5dd7070Spatrick ///
1349*12c85518Srobert /// \param A the argument type
1350e5dd7070Spatrick ///
1351e5dd7070Spatrick /// \param Info information about the template argument deduction itself
1352e5dd7070Spatrick ///
1353e5dd7070Spatrick /// \param Deduced the deduced template arguments
1354e5dd7070Spatrick ///
1355e5dd7070Spatrick /// \param TDF bitwise OR of the TemplateDeductionFlags bits that describe
1356e5dd7070Spatrick /// how template argument deduction is performed.
1357e5dd7070Spatrick ///
1358e5dd7070Spatrick /// \param PartialOrdering Whether we're performing template argument deduction
1359e5dd7070Spatrick /// in the context of partial ordering (C++0x [temp.deduct.partial]).
1360e5dd7070Spatrick ///
1361e5dd7070Spatrick /// \returns the result of template argument deduction so far. Note that a
1362e5dd7070Spatrick /// "success" result means that template argument deduction has not yet failed,
1363e5dd7070Spatrick /// but it may still fail, later, for other reasons.
DeduceTemplateArgumentsByTypeMatch(Sema & S,TemplateParameterList * TemplateParams,QualType P,QualType A,TemplateDeductionInfo & Info,SmallVectorImpl<DeducedTemplateArgument> & Deduced,unsigned TDF,bool PartialOrdering,bool DeducedFromArrayBound)1364*12c85518Srobert static Sema::TemplateDeductionResult DeduceTemplateArgumentsByTypeMatch(
1365*12c85518Srobert Sema &S, TemplateParameterList *TemplateParams, QualType P, QualType A,
1366e5dd7070Spatrick TemplateDeductionInfo &Info,
1367*12c85518Srobert SmallVectorImpl<DeducedTemplateArgument> &Deduced, unsigned TDF,
1368*12c85518Srobert bool PartialOrdering, bool DeducedFromArrayBound) {
1369e5dd7070Spatrick
1370e5dd7070Spatrick // If the argument type is a pack expansion, look at its pattern.
1371e5dd7070Spatrick // This isn't explicitly called out
1372*12c85518Srobert if (const auto *AExp = dyn_cast<PackExpansionType>(A))
1373*12c85518Srobert A = AExp->getPattern();
1374*12c85518Srobert assert(!isa<PackExpansionType>(A.getCanonicalType()));
1375e5dd7070Spatrick
1376e5dd7070Spatrick if (PartialOrdering) {
1377e5dd7070Spatrick // C++11 [temp.deduct.partial]p5:
1378e5dd7070Spatrick // Before the partial ordering is done, certain transformations are
1379e5dd7070Spatrick // performed on the types used for partial ordering:
1380e5dd7070Spatrick // - If P is a reference type, P is replaced by the type referred to.
1381*12c85518Srobert const ReferenceType *PRef = P->getAs<ReferenceType>();
1382*12c85518Srobert if (PRef)
1383*12c85518Srobert P = PRef->getPointeeType();
1384e5dd7070Spatrick
1385e5dd7070Spatrick // - If A is a reference type, A is replaced by the type referred to.
1386*12c85518Srobert const ReferenceType *ARef = A->getAs<ReferenceType>();
1387*12c85518Srobert if (ARef)
1388*12c85518Srobert A = A->getPointeeType();
1389e5dd7070Spatrick
1390*12c85518Srobert if (PRef && ARef && S.Context.hasSameUnqualifiedType(P, A)) {
1391e5dd7070Spatrick // C++11 [temp.deduct.partial]p9:
1392e5dd7070Spatrick // If, for a given type, deduction succeeds in both directions (i.e.,
1393e5dd7070Spatrick // the types are identical after the transformations above) and both
1394e5dd7070Spatrick // P and A were reference types [...]:
1395e5dd7070Spatrick // - if [one type] was an lvalue reference and [the other type] was
1396e5dd7070Spatrick // not, [the other type] is not considered to be at least as
1397e5dd7070Spatrick // specialized as [the first type]
1398e5dd7070Spatrick // - if [one type] is more cv-qualified than [the other type],
1399e5dd7070Spatrick // [the other type] is not considered to be at least as specialized
1400e5dd7070Spatrick // as [the first type]
1401e5dd7070Spatrick // Objective-C ARC adds:
1402e5dd7070Spatrick // - [one type] has non-trivial lifetime, [the other type] has
1403e5dd7070Spatrick // __unsafe_unretained lifetime, and the types are otherwise
1404e5dd7070Spatrick // identical
1405e5dd7070Spatrick //
1406e5dd7070Spatrick // A is "considered to be at least as specialized" as P iff deduction
1407e5dd7070Spatrick // succeeds, so we model this as a deduction failure. Note that
1408e5dd7070Spatrick // [the first type] is P and [the other type] is A here; the standard
1409e5dd7070Spatrick // gets this backwards.
1410*12c85518Srobert Qualifiers PQuals = P.getQualifiers(), AQuals = A.getQualifiers();
1411*12c85518Srobert if ((PRef->isLValueReferenceType() && !ARef->isLValueReferenceType()) ||
1412*12c85518Srobert PQuals.isStrictSupersetOf(AQuals) ||
1413*12c85518Srobert (PQuals.hasNonTrivialObjCLifetime() &&
1414*12c85518Srobert AQuals.getObjCLifetime() == Qualifiers::OCL_ExplicitNone &&
1415*12c85518Srobert PQuals.withoutObjCLifetime() == AQuals.withoutObjCLifetime())) {
1416*12c85518Srobert Info.FirstArg = TemplateArgument(P);
1417*12c85518Srobert Info.SecondArg = TemplateArgument(A);
1418e5dd7070Spatrick return Sema::TDK_NonDeducedMismatch;
1419e5dd7070Spatrick }
1420e5dd7070Spatrick }
1421*12c85518Srobert Qualifiers DiscardedQuals;
1422e5dd7070Spatrick // C++11 [temp.deduct.partial]p7:
1423e5dd7070Spatrick // Remove any top-level cv-qualifiers:
1424e5dd7070Spatrick // - If P is a cv-qualified type, P is replaced by the cv-unqualified
1425e5dd7070Spatrick // version of P.
1426*12c85518Srobert P = S.Context.getUnqualifiedArrayType(P, DiscardedQuals);
1427e5dd7070Spatrick // - If A is a cv-qualified type, A is replaced by the cv-unqualified
1428e5dd7070Spatrick // version of A.
1429*12c85518Srobert A = S.Context.getUnqualifiedArrayType(A, DiscardedQuals);
1430e5dd7070Spatrick } else {
1431e5dd7070Spatrick // C++0x [temp.deduct.call]p4 bullet 1:
1432e5dd7070Spatrick // - If the original P is a reference type, the deduced A (i.e., the type
1433e5dd7070Spatrick // referred to by the reference) can be more cv-qualified than the
1434e5dd7070Spatrick // transformed A.
1435e5dd7070Spatrick if (TDF & TDF_ParamWithReferenceType) {
1436e5dd7070Spatrick Qualifiers Quals;
1437*12c85518Srobert QualType UnqualP = S.Context.getUnqualifiedArrayType(P, Quals);
1438*12c85518Srobert Quals.setCVRQualifiers(Quals.getCVRQualifiers() & A.getCVRQualifiers());
1439*12c85518Srobert P = S.Context.getQualifiedType(UnqualP, Quals);
1440e5dd7070Spatrick }
1441e5dd7070Spatrick
1442*12c85518Srobert if ((TDF & TDF_TopLevelParameterTypeList) && !P->isFunctionType()) {
1443e5dd7070Spatrick // C++0x [temp.deduct.type]p10:
1444e5dd7070Spatrick // If P and A are function types that originated from deduction when
1445e5dd7070Spatrick // taking the address of a function template (14.8.2.2) or when deducing
1446e5dd7070Spatrick // template arguments from a function declaration (14.8.2.6) and Pi and
1447e5dd7070Spatrick // Ai are parameters of the top-level parameter-type-list of P and A,
1448e5dd7070Spatrick // respectively, Pi is adjusted if it is a forwarding reference and Ai
1449e5dd7070Spatrick // is an lvalue reference, in
1450e5dd7070Spatrick // which case the type of Pi is changed to be the template parameter
1451e5dd7070Spatrick // type (i.e., T&& is changed to simply T). [ Note: As a result, when
1452e5dd7070Spatrick // Pi is T&& and Ai is X&, the adjusted Pi will be T, causing T to be
1453e5dd7070Spatrick // deduced as X&. - end note ]
1454e5dd7070Spatrick TDF &= ~TDF_TopLevelParameterTypeList;
1455*12c85518Srobert if (isForwardingReference(P, /*FirstInnerIndex=*/0) &&
1456*12c85518Srobert A->isLValueReferenceType())
1457*12c85518Srobert P = P->getPointeeType();
1458e5dd7070Spatrick }
1459e5dd7070Spatrick }
1460e5dd7070Spatrick
1461e5dd7070Spatrick // C++ [temp.deduct.type]p9:
1462e5dd7070Spatrick // A template type argument T, a template template argument TT or a
1463e5dd7070Spatrick // template non-type argument i can be deduced if P and A have one of
1464e5dd7070Spatrick // the following forms:
1465e5dd7070Spatrick //
1466e5dd7070Spatrick // T
1467e5dd7070Spatrick // cv-list T
1468*12c85518Srobert if (const auto *TTP = P->getAs<TemplateTypeParmType>()) {
1469e5dd7070Spatrick // Just skip any attempts to deduce from a placeholder type or a parameter
1470e5dd7070Spatrick // at a different depth.
1471*12c85518Srobert if (A->isPlaceholderType() || Info.getDeducedDepth() != TTP->getDepth())
1472e5dd7070Spatrick return Sema::TDK_Success;
1473e5dd7070Spatrick
1474*12c85518Srobert unsigned Index = TTP->getIndex();
1475e5dd7070Spatrick
1476e5dd7070Spatrick // If the argument type is an array type, move the qualifiers up to the
1477e5dd7070Spatrick // top level, so they can be matched with the qualifiers on the parameter.
1478*12c85518Srobert if (A->isArrayType()) {
1479e5dd7070Spatrick Qualifiers Quals;
1480*12c85518Srobert A = S.Context.getUnqualifiedArrayType(A, Quals);
1481*12c85518Srobert if (Quals)
1482*12c85518Srobert A = S.Context.getQualifiedType(A, Quals);
1483e5dd7070Spatrick }
1484e5dd7070Spatrick
1485e5dd7070Spatrick // The argument type can not be less qualified than the parameter
1486e5dd7070Spatrick // type.
1487e5dd7070Spatrick if (!(TDF & TDF_IgnoreQualifiers) &&
1488*12c85518Srobert hasInconsistentOrSupersetQualifiersOf(P, A)) {
1489e5dd7070Spatrick Info.Param = cast<TemplateTypeParmDecl>(TemplateParams->getParam(Index));
1490*12c85518Srobert Info.FirstArg = TemplateArgument(P);
1491*12c85518Srobert Info.SecondArg = TemplateArgument(A);
1492e5dd7070Spatrick return Sema::TDK_Underqualified;
1493e5dd7070Spatrick }
1494e5dd7070Spatrick
1495e5dd7070Spatrick // Do not match a function type with a cv-qualified type.
1496e5dd7070Spatrick // http://www.open-std.org/jtc1/sc22/wg21/docs/cwg_active.html#1584
1497*12c85518Srobert if (A->isFunctionType() && P.hasQualifiers())
1498e5dd7070Spatrick return Sema::TDK_NonDeducedMismatch;
1499e5dd7070Spatrick
1500*12c85518Srobert assert(TTP->getDepth() == Info.getDeducedDepth() &&
1501e5dd7070Spatrick "saw template type parameter with wrong depth");
1502*12c85518Srobert assert(A->getCanonicalTypeInternal() != S.Context.OverloadTy &&
1503*12c85518Srobert "Unresolved overloaded function");
1504*12c85518Srobert QualType DeducedType = A;
1505e5dd7070Spatrick
1506e5dd7070Spatrick // Remove any qualifiers on the parameter from the deduced type.
1507e5dd7070Spatrick // We checked the qualifiers for consistency above.
1508e5dd7070Spatrick Qualifiers DeducedQs = DeducedType.getQualifiers();
1509*12c85518Srobert Qualifiers ParamQs = P.getQualifiers();
1510e5dd7070Spatrick DeducedQs.removeCVRQualifiers(ParamQs.getCVRQualifiers());
1511e5dd7070Spatrick if (ParamQs.hasObjCGCAttr())
1512e5dd7070Spatrick DeducedQs.removeObjCGCAttr();
1513e5dd7070Spatrick if (ParamQs.hasAddressSpace())
1514e5dd7070Spatrick DeducedQs.removeAddressSpace();
1515e5dd7070Spatrick if (ParamQs.hasObjCLifetime())
1516e5dd7070Spatrick DeducedQs.removeObjCLifetime();
1517e5dd7070Spatrick
1518e5dd7070Spatrick // Objective-C ARC:
1519e5dd7070Spatrick // If template deduction would produce a lifetime qualifier on a type
1520e5dd7070Spatrick // that is not a lifetime type, template argument deduction fails.
1521e5dd7070Spatrick if (ParamQs.hasObjCLifetime() && !DeducedType->isObjCLifetimeType() &&
1522e5dd7070Spatrick !DeducedType->isDependentType()) {
1523e5dd7070Spatrick Info.Param = cast<TemplateTypeParmDecl>(TemplateParams->getParam(Index));
1524*12c85518Srobert Info.FirstArg = TemplateArgument(P);
1525*12c85518Srobert Info.SecondArg = TemplateArgument(A);
1526e5dd7070Spatrick return Sema::TDK_Underqualified;
1527e5dd7070Spatrick }
1528e5dd7070Spatrick
1529e5dd7070Spatrick // Objective-C ARC:
1530e5dd7070Spatrick // If template deduction would produce an argument type with lifetime type
1531e5dd7070Spatrick // but no lifetime qualifier, the __strong lifetime qualifier is inferred.
1532*12c85518Srobert if (S.getLangOpts().ObjCAutoRefCount && DeducedType->isObjCLifetimeType() &&
1533e5dd7070Spatrick !DeducedQs.hasObjCLifetime())
1534e5dd7070Spatrick DeducedQs.setObjCLifetime(Qualifiers::OCL_Strong);
1535e5dd7070Spatrick
1536*12c85518Srobert DeducedType =
1537*12c85518Srobert S.Context.getQualifiedType(DeducedType.getUnqualifiedType(), DeducedQs);
1538e5dd7070Spatrick
1539e5dd7070Spatrick DeducedTemplateArgument NewDeduced(DeducedType, DeducedFromArrayBound);
1540*12c85518Srobert DeducedTemplateArgument Result =
1541*12c85518Srobert checkDeducedTemplateArguments(S.Context, Deduced[Index], NewDeduced);
1542e5dd7070Spatrick if (Result.isNull()) {
1543e5dd7070Spatrick Info.Param = cast<TemplateTypeParmDecl>(TemplateParams->getParam(Index));
1544e5dd7070Spatrick Info.FirstArg = Deduced[Index];
1545e5dd7070Spatrick Info.SecondArg = NewDeduced;
1546e5dd7070Spatrick return Sema::TDK_Inconsistent;
1547e5dd7070Spatrick }
1548e5dd7070Spatrick
1549e5dd7070Spatrick Deduced[Index] = Result;
1550e5dd7070Spatrick return Sema::TDK_Success;
1551e5dd7070Spatrick }
1552e5dd7070Spatrick
1553e5dd7070Spatrick // Set up the template argument deduction information for a failure.
1554*12c85518Srobert Info.FirstArg = TemplateArgument(P);
1555*12c85518Srobert Info.SecondArg = TemplateArgument(A);
1556e5dd7070Spatrick
1557e5dd7070Spatrick // If the parameter is an already-substituted template parameter
1558e5dd7070Spatrick // pack, do nothing: we don't know which of its arguments to look
1559e5dd7070Spatrick // at, so we have to wait until all of the parameter packs in this
1560e5dd7070Spatrick // expansion have arguments.
1561*12c85518Srobert if (P->getAs<SubstTemplateTypeParmPackType>())
1562e5dd7070Spatrick return Sema::TDK_Success;
1563e5dd7070Spatrick
1564e5dd7070Spatrick // Check the cv-qualifiers on the parameter and argument types.
1565e5dd7070Spatrick if (!(TDF & TDF_IgnoreQualifiers)) {
1566e5dd7070Spatrick if (TDF & TDF_ParamWithReferenceType) {
1567*12c85518Srobert if (hasInconsistentOrSupersetQualifiersOf(P, A))
1568e5dd7070Spatrick return Sema::TDK_NonDeducedMismatch;
1569e5dd7070Spatrick } else if (TDF & TDF_ArgWithReferenceType) {
1570e5dd7070Spatrick // C++ [temp.deduct.conv]p4:
1571e5dd7070Spatrick // If the original A is a reference type, A can be more cv-qualified
1572e5dd7070Spatrick // than the deduced A
1573*12c85518Srobert if (!A.getQualifiers().compatiblyIncludes(P.getQualifiers()))
1574e5dd7070Spatrick return Sema::TDK_NonDeducedMismatch;
1575e5dd7070Spatrick
1576e5dd7070Spatrick // Strip out all extra qualifiers from the argument to figure out the
1577e5dd7070Spatrick // type we're converting to, prior to the qualification conversion.
1578e5dd7070Spatrick Qualifiers Quals;
1579*12c85518Srobert A = S.Context.getUnqualifiedArrayType(A, Quals);
1580*12c85518Srobert A = S.Context.getQualifiedType(A, P.getQualifiers());
1581*12c85518Srobert } else if (!IsPossiblyOpaquelyQualifiedType(P)) {
1582*12c85518Srobert if (P.getCVRQualifiers() != A.getCVRQualifiers())
1583e5dd7070Spatrick return Sema::TDK_NonDeducedMismatch;
1584e5dd7070Spatrick }
1585*12c85518Srobert }
1586e5dd7070Spatrick
1587e5dd7070Spatrick // If the parameter type is not dependent, there is nothing to deduce.
1588*12c85518Srobert if (!P->isDependentType()) {
1589*12c85518Srobert if (TDF & TDF_SkipNonDependent)
1590*12c85518Srobert return Sema::TDK_Success;
1591*12c85518Srobert if ((TDF & TDF_IgnoreQualifiers) ? S.Context.hasSameUnqualifiedType(P, A)
1592*12c85518Srobert : S.Context.hasSameType(P, A))
1593*12c85518Srobert return Sema::TDK_Success;
1594*12c85518Srobert if (TDF & TDF_AllowCompatibleFunctionType &&
1595*12c85518Srobert S.isSameOrCompatibleFunctionType(P, A))
1596*12c85518Srobert return Sema::TDK_Success;
1597*12c85518Srobert if (!(TDF & TDF_IgnoreQualifiers))
1598e5dd7070Spatrick return Sema::TDK_NonDeducedMismatch;
1599*12c85518Srobert // Otherwise, when ignoring qualifiers, the types not having the same
1600*12c85518Srobert // unqualified type does not mean they do not match, so in this case we
1601*12c85518Srobert // must keep going and analyze with a non-dependent parameter type.
1602e5dd7070Spatrick }
1603e5dd7070Spatrick
1604*12c85518Srobert switch (P.getCanonicalType()->getTypeClass()) {
1605e5dd7070Spatrick // Non-canonical types cannot appear here.
1606e5dd7070Spatrick #define NON_CANONICAL_TYPE(Class, Base) \
1607e5dd7070Spatrick case Type::Class: llvm_unreachable("deducing non-canonical type: " #Class);
1608e5dd7070Spatrick #define TYPE(Class, Base)
1609e5dd7070Spatrick #include "clang/AST/TypeNodes.inc"
1610e5dd7070Spatrick
1611e5dd7070Spatrick case Type::TemplateTypeParm:
1612e5dd7070Spatrick case Type::SubstTemplateTypeParmPack:
1613e5dd7070Spatrick llvm_unreachable("Type nodes handled above");
1614e5dd7070Spatrick
1615*12c85518Srobert case Type::Auto:
1616*12c85518Srobert // FIXME: Implement deduction in dependent case.
1617*12c85518Srobert if (P->isDependentType())
1618*12c85518Srobert return Sema::TDK_Success;
1619*12c85518Srobert [[fallthrough]];
1620e5dd7070Spatrick case Type::Builtin:
1621e5dd7070Spatrick case Type::VariableArray:
1622e5dd7070Spatrick case Type::Vector:
1623e5dd7070Spatrick case Type::FunctionNoProto:
1624e5dd7070Spatrick case Type::Record:
1625e5dd7070Spatrick case Type::Enum:
1626e5dd7070Spatrick case Type::ObjCObject:
1627e5dd7070Spatrick case Type::ObjCInterface:
1628e5dd7070Spatrick case Type::ObjCObjectPointer:
1629*12c85518Srobert case Type::BitInt:
1630*12c85518Srobert return (TDF & TDF_SkipNonDependent) ||
1631*12c85518Srobert ((TDF & TDF_IgnoreQualifiers)
1632*12c85518Srobert ? S.Context.hasSameUnqualifiedType(P, A)
1633*12c85518Srobert : S.Context.hasSameType(P, A))
1634*12c85518Srobert ? Sema::TDK_Success
1635*12c85518Srobert : Sema::TDK_NonDeducedMismatch;
1636e5dd7070Spatrick
1637e5dd7070Spatrick // _Complex T [placeholder extension]
1638*12c85518Srobert case Type::Complex: {
1639*12c85518Srobert const auto *CP = P->castAs<ComplexType>(), *CA = A->getAs<ComplexType>();
1640*12c85518Srobert if (!CA)
1641e5dd7070Spatrick return Sema::TDK_NonDeducedMismatch;
1642*12c85518Srobert return DeduceTemplateArgumentsByTypeMatch(
1643*12c85518Srobert S, TemplateParams, CP->getElementType(), CA->getElementType(), Info,
1644*12c85518Srobert Deduced, TDF);
1645*12c85518Srobert }
1646e5dd7070Spatrick
1647e5dd7070Spatrick // _Atomic T [extension]
1648*12c85518Srobert case Type::Atomic: {
1649*12c85518Srobert const auto *PA = P->castAs<AtomicType>(), *AA = A->getAs<AtomicType>();
1650*12c85518Srobert if (!AA)
1651e5dd7070Spatrick return Sema::TDK_NonDeducedMismatch;
1652*12c85518Srobert return DeduceTemplateArgumentsByTypeMatch(
1653*12c85518Srobert S, TemplateParams, PA->getValueType(), AA->getValueType(), Info,
1654*12c85518Srobert Deduced, TDF);
1655*12c85518Srobert }
1656e5dd7070Spatrick
1657e5dd7070Spatrick // T *
1658e5dd7070Spatrick case Type::Pointer: {
1659e5dd7070Spatrick QualType PointeeType;
1660*12c85518Srobert if (const auto *PA = A->getAs<PointerType>()) {
1661*12c85518Srobert PointeeType = PA->getPointeeType();
1662*12c85518Srobert } else if (const auto *PA = A->getAs<ObjCObjectPointerType>()) {
1663*12c85518Srobert PointeeType = PA->getPointeeType();
1664e5dd7070Spatrick } else {
1665e5dd7070Spatrick return Sema::TDK_NonDeducedMismatch;
1666e5dd7070Spatrick }
1667*12c85518Srobert return DeduceTemplateArgumentsByTypeMatch(
1668*12c85518Srobert S, TemplateParams, P->castAs<PointerType>()->getPointeeType(),
1669*12c85518Srobert PointeeType, Info, Deduced,
1670*12c85518Srobert TDF & (TDF_IgnoreQualifiers | TDF_DerivedClass));
1671e5dd7070Spatrick }
1672e5dd7070Spatrick
1673e5dd7070Spatrick // T &
1674e5dd7070Spatrick case Type::LValueReference: {
1675*12c85518Srobert const auto *RP = P->castAs<LValueReferenceType>(),
1676*12c85518Srobert *RA = A->getAs<LValueReferenceType>();
1677*12c85518Srobert if (!RA)
1678e5dd7070Spatrick return Sema::TDK_NonDeducedMismatch;
1679e5dd7070Spatrick
1680*12c85518Srobert return DeduceTemplateArgumentsByTypeMatch(
1681*12c85518Srobert S, TemplateParams, RP->getPointeeType(), RA->getPointeeType(), Info,
1682*12c85518Srobert Deduced, 0);
1683e5dd7070Spatrick }
1684e5dd7070Spatrick
1685e5dd7070Spatrick // T && [C++0x]
1686e5dd7070Spatrick case Type::RValueReference: {
1687*12c85518Srobert const auto *RP = P->castAs<RValueReferenceType>(),
1688*12c85518Srobert *RA = A->getAs<RValueReferenceType>();
1689*12c85518Srobert if (!RA)
1690e5dd7070Spatrick return Sema::TDK_NonDeducedMismatch;
1691e5dd7070Spatrick
1692*12c85518Srobert return DeduceTemplateArgumentsByTypeMatch(
1693*12c85518Srobert S, TemplateParams, RP->getPointeeType(), RA->getPointeeType(), Info,
1694*12c85518Srobert Deduced, 0);
1695e5dd7070Spatrick }
1696e5dd7070Spatrick
1697e5dd7070Spatrick // T [] (implied, but not stated explicitly)
1698e5dd7070Spatrick case Type::IncompleteArray: {
1699*12c85518Srobert const auto *IAA = S.Context.getAsIncompleteArrayType(A);
1700*12c85518Srobert if (!IAA)
1701e5dd7070Spatrick return Sema::TDK_NonDeducedMismatch;
1702e5dd7070Spatrick
1703*12c85518Srobert return DeduceTemplateArgumentsByTypeMatch(
1704*12c85518Srobert S, TemplateParams,
1705*12c85518Srobert S.Context.getAsIncompleteArrayType(P)->getElementType(),
1706*12c85518Srobert IAA->getElementType(), Info, Deduced, TDF & TDF_IgnoreQualifiers);
1707e5dd7070Spatrick }
1708e5dd7070Spatrick
1709e5dd7070Spatrick // T [integer-constant]
1710e5dd7070Spatrick case Type::ConstantArray: {
1711*12c85518Srobert const auto *CAA = S.Context.getAsConstantArrayType(A),
1712*12c85518Srobert *CAP = S.Context.getAsConstantArrayType(P);
1713*12c85518Srobert assert(CAP);
1714*12c85518Srobert if (!CAA || CAA->getSize() != CAP->getSize())
1715e5dd7070Spatrick return Sema::TDK_NonDeducedMismatch;
1716e5dd7070Spatrick
1717*12c85518Srobert return DeduceTemplateArgumentsByTypeMatch(
1718*12c85518Srobert S, TemplateParams, CAP->getElementType(), CAA->getElementType(), Info,
1719*12c85518Srobert Deduced, TDF & TDF_IgnoreQualifiers);
1720e5dd7070Spatrick }
1721e5dd7070Spatrick
1722e5dd7070Spatrick // type [i]
1723e5dd7070Spatrick case Type::DependentSizedArray: {
1724*12c85518Srobert const auto *AA = S.Context.getAsArrayType(A);
1725*12c85518Srobert if (!AA)
1726e5dd7070Spatrick return Sema::TDK_NonDeducedMismatch;
1727e5dd7070Spatrick
1728e5dd7070Spatrick // Check the element type of the arrays
1729*12c85518Srobert const auto *DAP = S.Context.getAsDependentSizedArrayType(P);
1730*12c85518Srobert assert(DAP);
1731*12c85518Srobert if (auto Result = DeduceTemplateArgumentsByTypeMatch(
1732*12c85518Srobert S, TemplateParams, DAP->getElementType(), AA->getElementType(),
1733*12c85518Srobert Info, Deduced, TDF & TDF_IgnoreQualifiers))
1734e5dd7070Spatrick return Result;
1735e5dd7070Spatrick
1736e5dd7070Spatrick // Determine the array bound is something we can deduce.
1737*12c85518Srobert const NonTypeTemplateParmDecl *NTTP =
1738*12c85518Srobert getDeducedParameterFromExpr(Info, DAP->getSizeExpr());
1739e5dd7070Spatrick if (!NTTP)
1740e5dd7070Spatrick return Sema::TDK_Success;
1741e5dd7070Spatrick
1742e5dd7070Spatrick // We can perform template argument deduction for the given non-type
1743e5dd7070Spatrick // template parameter.
1744e5dd7070Spatrick assert(NTTP->getDepth() == Info.getDeducedDepth() &&
1745e5dd7070Spatrick "saw non-type template parameter with wrong depth");
1746*12c85518Srobert if (const auto *CAA = dyn_cast<ConstantArrayType>(AA)) {
1747*12c85518Srobert llvm::APSInt Size(CAA->getSize());
1748*12c85518Srobert return DeduceNonTypeTemplateArgument(
1749*12c85518Srobert S, TemplateParams, NTTP, Size, S.Context.getSizeType(),
1750*12c85518Srobert /*ArrayBound=*/true, Info, Deduced);
1751e5dd7070Spatrick }
1752*12c85518Srobert if (const auto *DAA = dyn_cast<DependentSizedArrayType>(AA))
1753*12c85518Srobert if (DAA->getSizeExpr())
1754*12c85518Srobert return DeduceNonTypeTemplateArgument(
1755*12c85518Srobert S, TemplateParams, NTTP, DAA->getSizeExpr(), Info, Deduced);
1756e5dd7070Spatrick
1757e5dd7070Spatrick // Incomplete type does not match a dependently-sized array type
1758e5dd7070Spatrick return Sema::TDK_NonDeducedMismatch;
1759e5dd7070Spatrick }
1760e5dd7070Spatrick
1761e5dd7070Spatrick // type(*)(T)
1762e5dd7070Spatrick // T(*)()
1763e5dd7070Spatrick // T(*)(T)
1764e5dd7070Spatrick case Type::FunctionProto: {
1765*12c85518Srobert const auto *FPP = P->castAs<FunctionProtoType>(),
1766*12c85518Srobert *FPA = A->getAs<FunctionProtoType>();
1767*12c85518Srobert if (!FPA)
1768e5dd7070Spatrick return Sema::TDK_NonDeducedMismatch;
1769e5dd7070Spatrick
1770*12c85518Srobert if (FPP->getMethodQuals() != FPA->getMethodQuals() ||
1771*12c85518Srobert FPP->getRefQualifier() != FPA->getRefQualifier() ||
1772*12c85518Srobert FPP->isVariadic() != FPA->isVariadic())
1773e5dd7070Spatrick return Sema::TDK_NonDeducedMismatch;
1774e5dd7070Spatrick
1775e5dd7070Spatrick // Check return types.
1776e5dd7070Spatrick if (auto Result = DeduceTemplateArgumentsByTypeMatch(
1777*12c85518Srobert S, TemplateParams, FPP->getReturnType(), FPA->getReturnType(),
1778*12c85518Srobert Info, Deduced, 0,
1779*12c85518Srobert /*PartialOrdering=*/false,
1780*12c85518Srobert /*DeducedFromArrayBound=*/false))
1781e5dd7070Spatrick return Result;
1782e5dd7070Spatrick
1783e5dd7070Spatrick // Check parameter types.
1784e5dd7070Spatrick if (auto Result = DeduceTemplateArguments(
1785*12c85518Srobert S, TemplateParams, FPP->param_type_begin(), FPP->getNumParams(),
1786*12c85518Srobert FPA->param_type_begin(), FPA->getNumParams(), Info, Deduced,
1787*12c85518Srobert TDF & TDF_TopLevelParameterTypeList, PartialOrdering))
1788e5dd7070Spatrick return Result;
1789e5dd7070Spatrick
1790e5dd7070Spatrick if (TDF & TDF_AllowCompatibleFunctionType)
1791e5dd7070Spatrick return Sema::TDK_Success;
1792e5dd7070Spatrick
1793e5dd7070Spatrick // FIXME: Per core-2016/10/1019 (no corresponding core issue yet), permit
1794e5dd7070Spatrick // deducing through the noexcept-specifier if it's part of the canonical
1795e5dd7070Spatrick // type. libstdc++ relies on this.
1796*12c85518Srobert Expr *NoexceptExpr = FPP->getNoexceptExpr();
1797a9ac8606Spatrick if (const NonTypeTemplateParmDecl *NTTP =
1798e5dd7070Spatrick NoexceptExpr ? getDeducedParameterFromExpr(Info, NoexceptExpr)
1799e5dd7070Spatrick : nullptr) {
1800e5dd7070Spatrick assert(NTTP->getDepth() == Info.getDeducedDepth() &&
1801e5dd7070Spatrick "saw non-type template parameter with wrong depth");
1802e5dd7070Spatrick
1803e5dd7070Spatrick llvm::APSInt Noexcept(1);
1804*12c85518Srobert switch (FPA->canThrow()) {
1805e5dd7070Spatrick case CT_Cannot:
1806e5dd7070Spatrick Noexcept = 1;
1807*12c85518Srobert [[fallthrough]];
1808e5dd7070Spatrick
1809e5dd7070Spatrick case CT_Can:
1810e5dd7070Spatrick // We give E in noexcept(E) the "deduced from array bound" treatment.
1811e5dd7070Spatrick // FIXME: Should we?
1812e5dd7070Spatrick return DeduceNonTypeTemplateArgument(
1813e5dd7070Spatrick S, TemplateParams, NTTP, Noexcept, S.Context.BoolTy,
1814*12c85518Srobert /*DeducedFromArrayBound=*/true, Info, Deduced);
1815e5dd7070Spatrick
1816e5dd7070Spatrick case CT_Dependent:
1817*12c85518Srobert if (Expr *ArgNoexceptExpr = FPA->getNoexceptExpr())
1818e5dd7070Spatrick return DeduceNonTypeTemplateArgument(
1819e5dd7070Spatrick S, TemplateParams, NTTP, ArgNoexceptExpr, Info, Deduced);
1820e5dd7070Spatrick // Can't deduce anything from throw(T...).
1821e5dd7070Spatrick break;
1822e5dd7070Spatrick }
1823e5dd7070Spatrick }
1824e5dd7070Spatrick // FIXME: Detect non-deduced exception specification mismatches?
1825e5dd7070Spatrick //
1826e5dd7070Spatrick // Careful about [temp.deduct.call] and [temp.deduct.conv], which allow
1827e5dd7070Spatrick // top-level differences in noexcept-specifications.
1828e5dd7070Spatrick
1829e5dd7070Spatrick return Sema::TDK_Success;
1830e5dd7070Spatrick }
1831e5dd7070Spatrick
1832e5dd7070Spatrick case Type::InjectedClassName:
1833e5dd7070Spatrick // Treat a template's injected-class-name as if the template
1834e5dd7070Spatrick // specialization type had been used.
1835e5dd7070Spatrick
1836e5dd7070Spatrick // template-name<T> (where template-name refers to a class template)
1837e5dd7070Spatrick // template-name<i>
1838e5dd7070Spatrick // TT<T>
1839e5dd7070Spatrick // TT<i>
1840e5dd7070Spatrick // TT<>
1841e5dd7070Spatrick case Type::TemplateSpecialization: {
1842e5dd7070Spatrick // When Arg cannot be a derived class, we can just try to deduce template
1843e5dd7070Spatrick // arguments from the template-id.
1844*12c85518Srobert if (!(TDF & TDF_DerivedClass) || !A->isRecordType())
1845*12c85518Srobert return DeduceTemplateSpecArguments(S, TemplateParams, P, A, Info,
1846e5dd7070Spatrick Deduced);
1847e5dd7070Spatrick
1848e5dd7070Spatrick SmallVector<DeducedTemplateArgument, 8> DeducedOrig(Deduced.begin(),
1849e5dd7070Spatrick Deduced.end());
1850e5dd7070Spatrick
1851*12c85518Srobert auto Result =
1852*12c85518Srobert DeduceTemplateSpecArguments(S, TemplateParams, P, A, Info, Deduced);
1853e5dd7070Spatrick if (Result == Sema::TDK_Success)
1854e5dd7070Spatrick return Result;
1855e5dd7070Spatrick
1856e5dd7070Spatrick // We cannot inspect base classes as part of deduction when the type
1857e5dd7070Spatrick // is incomplete, so either instantiate any templates necessary to
1858e5dd7070Spatrick // complete the type, or skip over it if it cannot be completed.
1859*12c85518Srobert if (!S.isCompleteType(Info.getLocation(), A))
1860e5dd7070Spatrick return Result;
1861e5dd7070Spatrick
1862e5dd7070Spatrick // Reset the incorrectly deduced argument from above.
1863e5dd7070Spatrick Deduced = DeducedOrig;
1864e5dd7070Spatrick
1865a9ac8606Spatrick // Check bases according to C++14 [temp.deduct.call] p4b3:
1866*12c85518Srobert auto BaseResult = DeduceTemplateBases(S, getCanonicalRD(A),
1867*12c85518Srobert TemplateParams, P, Info, Deduced);
1868*12c85518Srobert return BaseResult != Sema::TDK_Invalid ? BaseResult : Result;
1869e5dd7070Spatrick }
1870e5dd7070Spatrick
1871e5dd7070Spatrick // T type::*
1872e5dd7070Spatrick // T T::*
1873e5dd7070Spatrick // T (type::*)()
1874e5dd7070Spatrick // type (T::*)()
1875e5dd7070Spatrick // type (type::*)(T)
1876e5dd7070Spatrick // type (T::*)(T)
1877e5dd7070Spatrick // T (type::*)(T)
1878e5dd7070Spatrick // T (T::*)()
1879e5dd7070Spatrick // T (T::*)(T)
1880e5dd7070Spatrick case Type::MemberPointer: {
1881*12c85518Srobert const auto *MPP = P->castAs<MemberPointerType>(),
1882*12c85518Srobert *MPA = A->getAs<MemberPointerType>();
1883*12c85518Srobert if (!MPA)
1884e5dd7070Spatrick return Sema::TDK_NonDeducedMismatch;
1885e5dd7070Spatrick
1886*12c85518Srobert QualType PPT = MPP->getPointeeType();
1887*12c85518Srobert if (PPT->isFunctionType())
1888*12c85518Srobert S.adjustMemberFunctionCC(PPT, /*IsStatic=*/true,
1889e5dd7070Spatrick /*IsCtorOrDtor=*/false, Info.getLocation());
1890*12c85518Srobert QualType APT = MPA->getPointeeType();
1891*12c85518Srobert if (APT->isFunctionType())
1892*12c85518Srobert S.adjustMemberFunctionCC(APT, /*IsStatic=*/true,
1893e5dd7070Spatrick /*IsCtorOrDtor=*/false, Info.getLocation());
1894e5dd7070Spatrick
1895*12c85518Srobert unsigned SubTDF = TDF & TDF_IgnoreQualifiers;
1896*12c85518Srobert if (auto Result = DeduceTemplateArgumentsByTypeMatch(
1897*12c85518Srobert S, TemplateParams, PPT, APT, Info, Deduced, SubTDF))
1898e5dd7070Spatrick return Result;
1899*12c85518Srobert return DeduceTemplateArgumentsByTypeMatch(
1900*12c85518Srobert S, TemplateParams, QualType(MPP->getClass(), 0),
1901*12c85518Srobert QualType(MPA->getClass(), 0), Info, Deduced, SubTDF);
1902e5dd7070Spatrick }
1903e5dd7070Spatrick
1904e5dd7070Spatrick // (clang extension)
1905e5dd7070Spatrick //
1906e5dd7070Spatrick // type(^)(T)
1907e5dd7070Spatrick // T(^)()
1908e5dd7070Spatrick // T(^)(T)
1909e5dd7070Spatrick case Type::BlockPointer: {
1910*12c85518Srobert const auto *BPP = P->castAs<BlockPointerType>(),
1911*12c85518Srobert *BPA = A->getAs<BlockPointerType>();
1912*12c85518Srobert if (!BPA)
1913e5dd7070Spatrick return Sema::TDK_NonDeducedMismatch;
1914*12c85518Srobert return DeduceTemplateArgumentsByTypeMatch(
1915*12c85518Srobert S, TemplateParams, BPP->getPointeeType(), BPA->getPointeeType(), Info,
1916*12c85518Srobert Deduced, 0);
1917e5dd7070Spatrick }
1918e5dd7070Spatrick
1919e5dd7070Spatrick // (clang extension)
1920e5dd7070Spatrick //
1921e5dd7070Spatrick // T __attribute__(((ext_vector_type(<integral constant>))))
1922e5dd7070Spatrick case Type::ExtVector: {
1923*12c85518Srobert const auto *VP = P->castAs<ExtVectorType>();
1924*12c85518Srobert QualType ElementType;
1925*12c85518Srobert if (const auto *VA = A->getAs<ExtVectorType>()) {
1926e5dd7070Spatrick // Make sure that the vectors have the same number of elements.
1927*12c85518Srobert if (VP->getNumElements() != VA->getNumElements())
1928e5dd7070Spatrick return Sema::TDK_NonDeducedMismatch;
1929*12c85518Srobert ElementType = VA->getElementType();
1930*12c85518Srobert } else if (const auto *VA = A->getAs<DependentSizedExtVectorType>()) {
1931e5dd7070Spatrick // We can't check the number of elements, since the argument has a
1932e5dd7070Spatrick // dependent number of elements. This can only occur during partial
1933e5dd7070Spatrick // ordering.
1934*12c85518Srobert ElementType = VA->getElementType();
1935*12c85518Srobert } else {
1936e5dd7070Spatrick return Sema::TDK_NonDeducedMismatch;
1937e5dd7070Spatrick }
1938*12c85518Srobert // Perform deduction on the element types.
1939*12c85518Srobert return DeduceTemplateArgumentsByTypeMatch(
1940*12c85518Srobert S, TemplateParams, VP->getElementType(), ElementType, Info, Deduced,
1941*12c85518Srobert TDF);
1942*12c85518Srobert }
1943e5dd7070Spatrick
1944e5dd7070Spatrick case Type::DependentVector: {
1945*12c85518Srobert const auto *VP = P->castAs<DependentVectorType>();
1946e5dd7070Spatrick
1947*12c85518Srobert if (const auto *VA = A->getAs<VectorType>()) {
1948e5dd7070Spatrick // Perform deduction on the element types.
1949*12c85518Srobert if (auto Result = DeduceTemplateArgumentsByTypeMatch(
1950*12c85518Srobert S, TemplateParams, VP->getElementType(), VA->getElementType(),
1951*12c85518Srobert Info, Deduced, TDF))
1952e5dd7070Spatrick return Result;
1953e5dd7070Spatrick
1954e5dd7070Spatrick // Perform deduction on the vector size, if we can.
1955a9ac8606Spatrick const NonTypeTemplateParmDecl *NTTP =
1956*12c85518Srobert getDeducedParameterFromExpr(Info, VP->getSizeExpr());
1957e5dd7070Spatrick if (!NTTP)
1958e5dd7070Spatrick return Sema::TDK_Success;
1959e5dd7070Spatrick
1960e5dd7070Spatrick llvm::APSInt ArgSize(S.Context.getTypeSize(S.Context.IntTy), false);
1961*12c85518Srobert ArgSize = VA->getNumElements();
1962e5dd7070Spatrick // Note that we use the "array bound" rules here; just like in that
1963e5dd7070Spatrick // case, we don't have any particular type for the vector size, but
1964e5dd7070Spatrick // we can provide one if necessary.
1965e5dd7070Spatrick return DeduceNonTypeTemplateArgument(S, TemplateParams, NTTP, ArgSize,
1966e5dd7070Spatrick S.Context.UnsignedIntTy, true,
1967e5dd7070Spatrick Info, Deduced);
1968e5dd7070Spatrick }
1969e5dd7070Spatrick
1970*12c85518Srobert if (const auto *VA = A->getAs<DependentVectorType>()) {
1971e5dd7070Spatrick // Perform deduction on the element types.
1972*12c85518Srobert if (auto Result = DeduceTemplateArgumentsByTypeMatch(
1973*12c85518Srobert S, TemplateParams, VP->getElementType(), VA->getElementType(),
1974*12c85518Srobert Info, Deduced, TDF))
1975e5dd7070Spatrick return Result;
1976e5dd7070Spatrick
1977e5dd7070Spatrick // Perform deduction on the vector size, if we can.
1978*12c85518Srobert const NonTypeTemplateParmDecl *NTTP =
1979*12c85518Srobert getDeducedParameterFromExpr(Info, VP->getSizeExpr());
1980e5dd7070Spatrick if (!NTTP)
1981e5dd7070Spatrick return Sema::TDK_Success;
1982e5dd7070Spatrick
1983*12c85518Srobert return DeduceNonTypeTemplateArgument(S, TemplateParams, NTTP,
1984*12c85518Srobert VA->getSizeExpr(), Info, Deduced);
1985e5dd7070Spatrick }
1986e5dd7070Spatrick
1987e5dd7070Spatrick return Sema::TDK_NonDeducedMismatch;
1988e5dd7070Spatrick }
1989e5dd7070Spatrick
1990e5dd7070Spatrick // (clang extension)
1991e5dd7070Spatrick //
1992e5dd7070Spatrick // T __attribute__(((ext_vector_type(N))))
1993e5dd7070Spatrick case Type::DependentSizedExtVector: {
1994*12c85518Srobert const auto *VP = P->castAs<DependentSizedExtVectorType>();
1995e5dd7070Spatrick
1996*12c85518Srobert if (const auto *VA = A->getAs<ExtVectorType>()) {
1997e5dd7070Spatrick // Perform deduction on the element types.
1998*12c85518Srobert if (auto Result = DeduceTemplateArgumentsByTypeMatch(
1999*12c85518Srobert S, TemplateParams, VP->getElementType(), VA->getElementType(),
2000e5dd7070Spatrick Info, Deduced, TDF))
2001e5dd7070Spatrick return Result;
2002e5dd7070Spatrick
2003e5dd7070Spatrick // Perform deduction on the vector size, if we can.
2004a9ac8606Spatrick const NonTypeTemplateParmDecl *NTTP =
2005*12c85518Srobert getDeducedParameterFromExpr(Info, VP->getSizeExpr());
2006e5dd7070Spatrick if (!NTTP)
2007e5dd7070Spatrick return Sema::TDK_Success;
2008e5dd7070Spatrick
2009e5dd7070Spatrick llvm::APSInt ArgSize(S.Context.getTypeSize(S.Context.IntTy), false);
2010*12c85518Srobert ArgSize = VA->getNumElements();
2011e5dd7070Spatrick // Note that we use the "array bound" rules here; just like in that
2012e5dd7070Spatrick // case, we don't have any particular type for the vector size, but
2013e5dd7070Spatrick // we can provide one if necessary.
2014e5dd7070Spatrick return DeduceNonTypeTemplateArgument(S, TemplateParams, NTTP, ArgSize,
2015e5dd7070Spatrick S.Context.IntTy, true, Info,
2016e5dd7070Spatrick Deduced);
2017e5dd7070Spatrick }
2018e5dd7070Spatrick
2019*12c85518Srobert if (const auto *VA = A->getAs<DependentSizedExtVectorType>()) {
2020e5dd7070Spatrick // Perform deduction on the element types.
2021*12c85518Srobert if (auto Result = DeduceTemplateArgumentsByTypeMatch(
2022*12c85518Srobert S, TemplateParams, VP->getElementType(), VA->getElementType(),
2023e5dd7070Spatrick Info, Deduced, TDF))
2024e5dd7070Spatrick return Result;
2025e5dd7070Spatrick
2026e5dd7070Spatrick // Perform deduction on the vector size, if we can.
2027a9ac8606Spatrick const NonTypeTemplateParmDecl *NTTP =
2028*12c85518Srobert getDeducedParameterFromExpr(Info, VP->getSizeExpr());
2029e5dd7070Spatrick if (!NTTP)
2030e5dd7070Spatrick return Sema::TDK_Success;
2031e5dd7070Spatrick
2032e5dd7070Spatrick return DeduceNonTypeTemplateArgument(S, TemplateParams, NTTP,
2033*12c85518Srobert VA->getSizeExpr(), Info, Deduced);
2034e5dd7070Spatrick }
2035e5dd7070Spatrick
2036e5dd7070Spatrick return Sema::TDK_NonDeducedMismatch;
2037e5dd7070Spatrick }
2038e5dd7070Spatrick
2039e5dd7070Spatrick // (clang extension)
2040e5dd7070Spatrick //
2041ec727ea7Spatrick // T __attribute__((matrix_type(<integral constant>,
2042ec727ea7Spatrick // <integral constant>)))
2043ec727ea7Spatrick case Type::ConstantMatrix: {
2044*12c85518Srobert const auto *MP = P->castAs<ConstantMatrixType>(),
2045*12c85518Srobert *MA = A->getAs<ConstantMatrixType>();
2046*12c85518Srobert if (!MA)
2047ec727ea7Spatrick return Sema::TDK_NonDeducedMismatch;
2048ec727ea7Spatrick
2049ec727ea7Spatrick // Check that the dimensions are the same
2050*12c85518Srobert if (MP->getNumRows() != MA->getNumRows() ||
2051*12c85518Srobert MP->getNumColumns() != MA->getNumColumns()) {
2052ec727ea7Spatrick return Sema::TDK_NonDeducedMismatch;
2053ec727ea7Spatrick }
2054ec727ea7Spatrick // Perform deduction on element types.
2055ec727ea7Spatrick return DeduceTemplateArgumentsByTypeMatch(
2056*12c85518Srobert S, TemplateParams, MP->getElementType(), MA->getElementType(), Info,
2057*12c85518Srobert Deduced, TDF);
2058ec727ea7Spatrick }
2059ec727ea7Spatrick
2060ec727ea7Spatrick case Type::DependentSizedMatrix: {
2061*12c85518Srobert const auto *MP = P->castAs<DependentSizedMatrixType>();
2062*12c85518Srobert const auto *MA = A->getAs<MatrixType>();
2063*12c85518Srobert if (!MA)
2064ec727ea7Spatrick return Sema::TDK_NonDeducedMismatch;
2065ec727ea7Spatrick
2066ec727ea7Spatrick // Check the element type of the matrixes.
2067*12c85518Srobert if (auto Result = DeduceTemplateArgumentsByTypeMatch(
2068*12c85518Srobert S, TemplateParams, MP->getElementType(), MA->getElementType(),
2069*12c85518Srobert Info, Deduced, TDF))
2070ec727ea7Spatrick return Result;
2071ec727ea7Spatrick
2072ec727ea7Spatrick // Try to deduce a matrix dimension.
2073ec727ea7Spatrick auto DeduceMatrixArg =
2074ec727ea7Spatrick [&S, &Info, &Deduced, &TemplateParams](
2075*12c85518Srobert Expr *ParamExpr, const MatrixType *A,
2076ec727ea7Spatrick unsigned (ConstantMatrixType::*GetArgDimension)() const,
2077ec727ea7Spatrick Expr *(DependentSizedMatrixType::*GetArgDimensionExpr)() const) {
2078*12c85518Srobert const auto *ACM = dyn_cast<ConstantMatrixType>(A);
2079*12c85518Srobert const auto *ADM = dyn_cast<DependentSizedMatrixType>(A);
2080ec727ea7Spatrick if (!ParamExpr->isValueDependent()) {
2081*12c85518Srobert std::optional<llvm::APSInt> ParamConst =
2082a9ac8606Spatrick ParamExpr->getIntegerConstantExpr(S.Context);
2083a9ac8606Spatrick if (!ParamConst)
2084ec727ea7Spatrick return Sema::TDK_NonDeducedMismatch;
2085ec727ea7Spatrick
2086*12c85518Srobert if (ACM) {
2087*12c85518Srobert if ((ACM->*GetArgDimension)() == *ParamConst)
2088ec727ea7Spatrick return Sema::TDK_Success;
2089ec727ea7Spatrick return Sema::TDK_NonDeducedMismatch;
2090ec727ea7Spatrick }
2091ec727ea7Spatrick
2092*12c85518Srobert Expr *ArgExpr = (ADM->*GetArgDimensionExpr)();
2093*12c85518Srobert if (std::optional<llvm::APSInt> ArgConst =
2094a9ac8606Spatrick ArgExpr->getIntegerConstantExpr(S.Context))
2095a9ac8606Spatrick if (*ArgConst == *ParamConst)
2096ec727ea7Spatrick return Sema::TDK_Success;
2097ec727ea7Spatrick return Sema::TDK_NonDeducedMismatch;
2098ec727ea7Spatrick }
2099ec727ea7Spatrick
2100a9ac8606Spatrick const NonTypeTemplateParmDecl *NTTP =
2101ec727ea7Spatrick getDeducedParameterFromExpr(Info, ParamExpr);
2102ec727ea7Spatrick if (!NTTP)
2103ec727ea7Spatrick return Sema::TDK_Success;
2104ec727ea7Spatrick
2105*12c85518Srobert if (ACM) {
2106ec727ea7Spatrick llvm::APSInt ArgConst(
2107ec727ea7Spatrick S.Context.getTypeSize(S.Context.getSizeType()));
2108*12c85518Srobert ArgConst = (ACM->*GetArgDimension)();
2109ec727ea7Spatrick return DeduceNonTypeTemplateArgument(
2110ec727ea7Spatrick S, TemplateParams, NTTP, ArgConst, S.Context.getSizeType(),
2111ec727ea7Spatrick /*ArrayBound=*/true, Info, Deduced);
2112ec727ea7Spatrick }
2113ec727ea7Spatrick
2114*12c85518Srobert return DeduceNonTypeTemplateArgument(S, TemplateParams, NTTP,
2115*12c85518Srobert (ADM->*GetArgDimensionExpr)(),
2116ec727ea7Spatrick Info, Deduced);
2117ec727ea7Spatrick };
2118ec727ea7Spatrick
2119*12c85518Srobert if (auto Result = DeduceMatrixArg(MP->getRowExpr(), MA,
2120ec727ea7Spatrick &ConstantMatrixType::getNumRows,
2121*12c85518Srobert &DependentSizedMatrixType::getRowExpr))
2122ec727ea7Spatrick return Result;
2123ec727ea7Spatrick
2124*12c85518Srobert return DeduceMatrixArg(MP->getColumnExpr(), MA,
2125ec727ea7Spatrick &ConstantMatrixType::getNumColumns,
2126ec727ea7Spatrick &DependentSizedMatrixType::getColumnExpr);
2127ec727ea7Spatrick }
2128ec727ea7Spatrick
2129ec727ea7Spatrick // (clang extension)
2130ec727ea7Spatrick //
2131e5dd7070Spatrick // T __attribute__(((address_space(N))))
2132e5dd7070Spatrick case Type::DependentAddressSpace: {
2133*12c85518Srobert const auto *ASP = P->castAs<DependentAddressSpaceType>();
2134e5dd7070Spatrick
2135*12c85518Srobert if (const auto *ASA = A->getAs<DependentAddressSpaceType>()) {
2136e5dd7070Spatrick // Perform deduction on the pointer type.
2137*12c85518Srobert if (auto Result = DeduceTemplateArgumentsByTypeMatch(
2138*12c85518Srobert S, TemplateParams, ASP->getPointeeType(), ASA->getPointeeType(),
2139*12c85518Srobert Info, Deduced, TDF))
2140e5dd7070Spatrick return Result;
2141e5dd7070Spatrick
2142e5dd7070Spatrick // Perform deduction on the address space, if we can.
2143*12c85518Srobert const NonTypeTemplateParmDecl *NTTP =
2144*12c85518Srobert getDeducedParameterFromExpr(Info, ASP->getAddrSpaceExpr());
2145e5dd7070Spatrick if (!NTTP)
2146e5dd7070Spatrick return Sema::TDK_Success;
2147e5dd7070Spatrick
2148e5dd7070Spatrick return DeduceNonTypeTemplateArgument(
2149*12c85518Srobert S, TemplateParams, NTTP, ASA->getAddrSpaceExpr(), Info, Deduced);
2150e5dd7070Spatrick }
2151e5dd7070Spatrick
2152*12c85518Srobert if (isTargetAddressSpace(A.getAddressSpace())) {
2153e5dd7070Spatrick llvm::APSInt ArgAddressSpace(S.Context.getTypeSize(S.Context.IntTy),
2154e5dd7070Spatrick false);
2155*12c85518Srobert ArgAddressSpace = toTargetAddressSpace(A.getAddressSpace());
2156e5dd7070Spatrick
2157e5dd7070Spatrick // Perform deduction on the pointer types.
2158*12c85518Srobert if (auto Result = DeduceTemplateArgumentsByTypeMatch(
2159*12c85518Srobert S, TemplateParams, ASP->getPointeeType(),
2160*12c85518Srobert S.Context.removeAddrSpaceQualType(A), Info, Deduced, TDF))
2161e5dd7070Spatrick return Result;
2162e5dd7070Spatrick
2163e5dd7070Spatrick // Perform deduction on the address space, if we can.
2164*12c85518Srobert const NonTypeTemplateParmDecl *NTTP =
2165*12c85518Srobert getDeducedParameterFromExpr(Info, ASP->getAddrSpaceExpr());
2166e5dd7070Spatrick if (!NTTP)
2167e5dd7070Spatrick return Sema::TDK_Success;
2168e5dd7070Spatrick
2169e5dd7070Spatrick return DeduceNonTypeTemplateArgument(S, TemplateParams, NTTP,
2170e5dd7070Spatrick ArgAddressSpace, S.Context.IntTy,
2171e5dd7070Spatrick true, Info, Deduced);
2172e5dd7070Spatrick }
2173e5dd7070Spatrick
2174e5dd7070Spatrick return Sema::TDK_NonDeducedMismatch;
2175e5dd7070Spatrick }
2176*12c85518Srobert case Type::DependentBitInt: {
2177*12c85518Srobert const auto *IP = P->castAs<DependentBitIntType>();
2178ec727ea7Spatrick
2179*12c85518Srobert if (const auto *IA = A->getAs<BitIntType>()) {
2180*12c85518Srobert if (IP->isUnsigned() != IA->isUnsigned())
2181ec727ea7Spatrick return Sema::TDK_NonDeducedMismatch;
2182ec727ea7Spatrick
2183a9ac8606Spatrick const NonTypeTemplateParmDecl *NTTP =
2184*12c85518Srobert getDeducedParameterFromExpr(Info, IP->getNumBitsExpr());
2185ec727ea7Spatrick if (!NTTP)
2186ec727ea7Spatrick return Sema::TDK_Success;
2187ec727ea7Spatrick
2188ec727ea7Spatrick llvm::APSInt ArgSize(S.Context.getTypeSize(S.Context.IntTy), false);
2189*12c85518Srobert ArgSize = IA->getNumBits();
2190ec727ea7Spatrick
2191ec727ea7Spatrick return DeduceNonTypeTemplateArgument(S, TemplateParams, NTTP, ArgSize,
2192ec727ea7Spatrick S.Context.IntTy, true, Info,
2193ec727ea7Spatrick Deduced);
2194ec727ea7Spatrick }
2195ec727ea7Spatrick
2196*12c85518Srobert if (const auto *IA = A->getAs<DependentBitIntType>()) {
2197*12c85518Srobert if (IP->isUnsigned() != IA->isUnsigned())
2198ec727ea7Spatrick return Sema::TDK_NonDeducedMismatch;
2199ec727ea7Spatrick return Sema::TDK_Success;
2200ec727ea7Spatrick }
2201*12c85518Srobert
2202ec727ea7Spatrick return Sema::TDK_NonDeducedMismatch;
2203ec727ea7Spatrick }
2204e5dd7070Spatrick
2205e5dd7070Spatrick case Type::TypeOfExpr:
2206e5dd7070Spatrick case Type::TypeOf:
2207e5dd7070Spatrick case Type::DependentName:
2208e5dd7070Spatrick case Type::UnresolvedUsing:
2209e5dd7070Spatrick case Type::Decltype:
2210e5dd7070Spatrick case Type::UnaryTransform:
2211e5dd7070Spatrick case Type::DeducedTemplateSpecialization:
2212e5dd7070Spatrick case Type::DependentTemplateSpecialization:
2213e5dd7070Spatrick case Type::PackExpansion:
2214e5dd7070Spatrick case Type::Pipe:
2215e5dd7070Spatrick // No template argument deduction for these types
2216e5dd7070Spatrick return Sema::TDK_Success;
2217e5dd7070Spatrick }
2218e5dd7070Spatrick
2219e5dd7070Spatrick llvm_unreachable("Invalid Type Class!");
2220e5dd7070Spatrick }
2221e5dd7070Spatrick
2222e5dd7070Spatrick static Sema::TemplateDeductionResult
DeduceTemplateArguments(Sema & S,TemplateParameterList * TemplateParams,const TemplateArgument & P,TemplateArgument A,TemplateDeductionInfo & Info,SmallVectorImpl<DeducedTemplateArgument> & Deduced)2223*12c85518Srobert DeduceTemplateArguments(Sema &S, TemplateParameterList *TemplateParams,
2224*12c85518Srobert const TemplateArgument &P, TemplateArgument A,
2225e5dd7070Spatrick TemplateDeductionInfo &Info,
2226e5dd7070Spatrick SmallVectorImpl<DeducedTemplateArgument> &Deduced) {
2227e5dd7070Spatrick // If the template argument is a pack expansion, perform template argument
2228e5dd7070Spatrick // deduction against the pattern of that expansion. This only occurs during
2229e5dd7070Spatrick // partial ordering.
2230*12c85518Srobert if (A.isPackExpansion())
2231*12c85518Srobert A = A.getPackExpansionPattern();
2232e5dd7070Spatrick
2233*12c85518Srobert switch (P.getKind()) {
2234e5dd7070Spatrick case TemplateArgument::Null:
2235e5dd7070Spatrick llvm_unreachable("Null template argument in parameter list");
2236e5dd7070Spatrick
2237e5dd7070Spatrick case TemplateArgument::Type:
2238*12c85518Srobert if (A.getKind() == TemplateArgument::Type)
2239*12c85518Srobert return DeduceTemplateArgumentsByTypeMatch(
2240*12c85518Srobert S, TemplateParams, P.getAsType(), A.getAsType(), Info, Deduced, 0);
2241*12c85518Srobert Info.FirstArg = P;
2242*12c85518Srobert Info.SecondArg = A;
2243e5dd7070Spatrick return Sema::TDK_NonDeducedMismatch;
2244e5dd7070Spatrick
2245e5dd7070Spatrick case TemplateArgument::Template:
2246*12c85518Srobert if (A.getKind() == TemplateArgument::Template)
2247*12c85518Srobert return DeduceTemplateArguments(S, TemplateParams, P.getAsTemplate(),
2248*12c85518Srobert A.getAsTemplate(), Info, Deduced);
2249*12c85518Srobert Info.FirstArg = P;
2250*12c85518Srobert Info.SecondArg = A;
2251e5dd7070Spatrick return Sema::TDK_NonDeducedMismatch;
2252e5dd7070Spatrick
2253e5dd7070Spatrick case TemplateArgument::TemplateExpansion:
2254e5dd7070Spatrick llvm_unreachable("caller should handle pack expansions");
2255e5dd7070Spatrick
2256e5dd7070Spatrick case TemplateArgument::Declaration:
2257*12c85518Srobert if (A.getKind() == TemplateArgument::Declaration &&
2258*12c85518Srobert isSameDeclaration(P.getAsDecl(), A.getAsDecl()))
2259e5dd7070Spatrick return Sema::TDK_Success;
2260e5dd7070Spatrick
2261*12c85518Srobert Info.FirstArg = P;
2262*12c85518Srobert Info.SecondArg = A;
2263e5dd7070Spatrick return Sema::TDK_NonDeducedMismatch;
2264e5dd7070Spatrick
2265e5dd7070Spatrick case TemplateArgument::NullPtr:
2266*12c85518Srobert if (A.getKind() == TemplateArgument::NullPtr &&
2267*12c85518Srobert S.Context.hasSameType(P.getNullPtrType(), A.getNullPtrType()))
2268e5dd7070Spatrick return Sema::TDK_Success;
2269e5dd7070Spatrick
2270*12c85518Srobert Info.FirstArg = P;
2271*12c85518Srobert Info.SecondArg = A;
2272e5dd7070Spatrick return Sema::TDK_NonDeducedMismatch;
2273e5dd7070Spatrick
2274e5dd7070Spatrick case TemplateArgument::Integral:
2275*12c85518Srobert if (A.getKind() == TemplateArgument::Integral) {
2276*12c85518Srobert if (hasSameExtendedValue(P.getAsIntegral(), A.getAsIntegral()))
2277e5dd7070Spatrick return Sema::TDK_Success;
2278e5dd7070Spatrick }
2279*12c85518Srobert Info.FirstArg = P;
2280*12c85518Srobert Info.SecondArg = A;
2281e5dd7070Spatrick return Sema::TDK_NonDeducedMismatch;
2282e5dd7070Spatrick
2283e5dd7070Spatrick case TemplateArgument::Expression:
2284a9ac8606Spatrick if (const NonTypeTemplateParmDecl *NTTP =
2285*12c85518Srobert getDeducedParameterFromExpr(Info, P.getAsExpr())) {
2286*12c85518Srobert if (A.getKind() == TemplateArgument::Integral)
2287*12c85518Srobert return DeduceNonTypeTemplateArgument(
2288*12c85518Srobert S, TemplateParams, NTTP, A.getAsIntegral(), A.getIntegralType(),
2289*12c85518Srobert /*ArrayBound=*/false, Info, Deduced);
2290*12c85518Srobert if (A.getKind() == TemplateArgument::NullPtr)
2291e5dd7070Spatrick return DeduceNullPtrTemplateArgument(S, TemplateParams, NTTP,
2292*12c85518Srobert A.getNullPtrType(), Info, Deduced);
2293*12c85518Srobert if (A.getKind() == TemplateArgument::Expression)
2294e5dd7070Spatrick return DeduceNonTypeTemplateArgument(S, TemplateParams, NTTP,
2295*12c85518Srobert A.getAsExpr(), Info, Deduced);
2296*12c85518Srobert if (A.getKind() == TemplateArgument::Declaration)
2297*12c85518Srobert return DeduceNonTypeTemplateArgument(
2298*12c85518Srobert S, TemplateParams, NTTP, A.getAsDecl(), A.getParamTypeForDecl(),
2299e5dd7070Spatrick Info, Deduced);
2300e5dd7070Spatrick
2301*12c85518Srobert Info.FirstArg = P;
2302*12c85518Srobert Info.SecondArg = A;
2303e5dd7070Spatrick return Sema::TDK_NonDeducedMismatch;
2304e5dd7070Spatrick }
2305e5dd7070Spatrick
2306e5dd7070Spatrick // Can't deduce anything, but that's okay.
2307e5dd7070Spatrick return Sema::TDK_Success;
2308e5dd7070Spatrick case TemplateArgument::Pack:
2309e5dd7070Spatrick llvm_unreachable("Argument packs should be expanded by the caller!");
2310e5dd7070Spatrick }
2311e5dd7070Spatrick
2312e5dd7070Spatrick llvm_unreachable("Invalid TemplateArgument Kind!");
2313e5dd7070Spatrick }
2314e5dd7070Spatrick
2315e5dd7070Spatrick /// Determine whether there is a template argument to be used for
2316e5dd7070Spatrick /// deduction.
2317e5dd7070Spatrick ///
2318e5dd7070Spatrick /// This routine "expands" argument packs in-place, overriding its input
2319e5dd7070Spatrick /// parameters so that \c Args[ArgIdx] will be the available template argument.
2320e5dd7070Spatrick ///
2321e5dd7070Spatrick /// \returns true if there is another template argument (which will be at
2322e5dd7070Spatrick /// \c Args[ArgIdx]), false otherwise.
hasTemplateArgumentForDeduction(ArrayRef<TemplateArgument> & Args,unsigned & ArgIdx)2323e5dd7070Spatrick static bool hasTemplateArgumentForDeduction(ArrayRef<TemplateArgument> &Args,
2324e5dd7070Spatrick unsigned &ArgIdx) {
2325e5dd7070Spatrick if (ArgIdx == Args.size())
2326e5dd7070Spatrick return false;
2327e5dd7070Spatrick
2328e5dd7070Spatrick const TemplateArgument &Arg = Args[ArgIdx];
2329e5dd7070Spatrick if (Arg.getKind() != TemplateArgument::Pack)
2330e5dd7070Spatrick return true;
2331e5dd7070Spatrick
2332e5dd7070Spatrick assert(ArgIdx == Args.size() - 1 && "Pack not at the end of argument list?");
2333e5dd7070Spatrick Args = Arg.pack_elements();
2334e5dd7070Spatrick ArgIdx = 0;
2335e5dd7070Spatrick return ArgIdx < Args.size();
2336e5dd7070Spatrick }
2337e5dd7070Spatrick
2338e5dd7070Spatrick /// Determine whether the given set of template arguments has a pack
2339e5dd7070Spatrick /// expansion that is not the last template argument.
hasPackExpansionBeforeEnd(ArrayRef<TemplateArgument> Args)2340e5dd7070Spatrick static bool hasPackExpansionBeforeEnd(ArrayRef<TemplateArgument> Args) {
2341e5dd7070Spatrick bool FoundPackExpansion = false;
2342e5dd7070Spatrick for (const auto &A : Args) {
2343e5dd7070Spatrick if (FoundPackExpansion)
2344e5dd7070Spatrick return true;
2345e5dd7070Spatrick
2346e5dd7070Spatrick if (A.getKind() == TemplateArgument::Pack)
2347e5dd7070Spatrick return hasPackExpansionBeforeEnd(A.pack_elements());
2348e5dd7070Spatrick
2349e5dd7070Spatrick // FIXME: If this is a fixed-arity pack expansion from an outer level of
2350e5dd7070Spatrick // templates, it should not be treated as a pack expansion.
2351e5dd7070Spatrick if (A.isPackExpansion())
2352e5dd7070Spatrick FoundPackExpansion = true;
2353e5dd7070Spatrick }
2354e5dd7070Spatrick
2355e5dd7070Spatrick return false;
2356e5dd7070Spatrick }
2357e5dd7070Spatrick
2358e5dd7070Spatrick static Sema::TemplateDeductionResult
DeduceTemplateArguments(Sema & S,TemplateParameterList * TemplateParams,ArrayRef<TemplateArgument> Ps,ArrayRef<TemplateArgument> As,TemplateDeductionInfo & Info,SmallVectorImpl<DeducedTemplateArgument> & Deduced,bool NumberOfArgumentsMustMatch)2359e5dd7070Spatrick DeduceTemplateArguments(Sema &S, TemplateParameterList *TemplateParams,
2360*12c85518Srobert ArrayRef<TemplateArgument> Ps,
2361*12c85518Srobert ArrayRef<TemplateArgument> As,
2362e5dd7070Spatrick TemplateDeductionInfo &Info,
2363e5dd7070Spatrick SmallVectorImpl<DeducedTemplateArgument> &Deduced,
2364e5dd7070Spatrick bool NumberOfArgumentsMustMatch) {
2365e5dd7070Spatrick // C++0x [temp.deduct.type]p9:
2366e5dd7070Spatrick // If the template argument list of P contains a pack expansion that is not
2367e5dd7070Spatrick // the last template argument, the entire template argument list is a
2368e5dd7070Spatrick // non-deduced context.
2369*12c85518Srobert if (hasPackExpansionBeforeEnd(Ps))
2370e5dd7070Spatrick return Sema::TDK_Success;
2371e5dd7070Spatrick
2372e5dd7070Spatrick // C++0x [temp.deduct.type]p9:
2373e5dd7070Spatrick // If P has a form that contains <T> or <i>, then each argument Pi of the
2374e5dd7070Spatrick // respective template argument list P is compared with the corresponding
2375e5dd7070Spatrick // argument Ai of the corresponding template argument list of A.
2376e5dd7070Spatrick unsigned ArgIdx = 0, ParamIdx = 0;
2377*12c85518Srobert for (; hasTemplateArgumentForDeduction(Ps, ParamIdx); ++ParamIdx) {
2378*12c85518Srobert const TemplateArgument &P = Ps[ParamIdx];
2379*12c85518Srobert if (!P.isPackExpansion()) {
2380e5dd7070Spatrick // The simple case: deduce template arguments by matching Pi and Ai.
2381e5dd7070Spatrick
2382e5dd7070Spatrick // Check whether we have enough arguments.
2383*12c85518Srobert if (!hasTemplateArgumentForDeduction(As, ArgIdx))
2384e5dd7070Spatrick return NumberOfArgumentsMustMatch
2385e5dd7070Spatrick ? Sema::TDK_MiscellaneousDeductionFailure
2386e5dd7070Spatrick : Sema::TDK_Success;
2387e5dd7070Spatrick
2388e5dd7070Spatrick // C++1z [temp.deduct.type]p9:
2389e5dd7070Spatrick // During partial ordering, if Ai was originally a pack expansion [and]
2390e5dd7070Spatrick // Pi is not a pack expansion, template argument deduction fails.
2391*12c85518Srobert if (As[ArgIdx].isPackExpansion())
2392e5dd7070Spatrick return Sema::TDK_MiscellaneousDeductionFailure;
2393e5dd7070Spatrick
2394e5dd7070Spatrick // Perform deduction for this Pi/Ai pair.
2395*12c85518Srobert if (auto Result = DeduceTemplateArguments(S, TemplateParams, P,
2396*12c85518Srobert As[ArgIdx], Info, Deduced))
2397e5dd7070Spatrick return Result;
2398e5dd7070Spatrick
2399e5dd7070Spatrick // Move to the next argument.
2400e5dd7070Spatrick ++ArgIdx;
2401e5dd7070Spatrick continue;
2402e5dd7070Spatrick }
2403e5dd7070Spatrick
2404e5dd7070Spatrick // The parameter is a pack expansion.
2405e5dd7070Spatrick
2406e5dd7070Spatrick // C++0x [temp.deduct.type]p9:
2407e5dd7070Spatrick // If Pi is a pack expansion, then the pattern of Pi is compared with
2408e5dd7070Spatrick // each remaining argument in the template argument list of A. Each
2409e5dd7070Spatrick // comparison deduces template arguments for subsequent positions in the
2410e5dd7070Spatrick // template parameter packs expanded by Pi.
2411*12c85518Srobert TemplateArgument Pattern = P.getPackExpansionPattern();
2412e5dd7070Spatrick
2413e5dd7070Spatrick // Prepare to deduce the packs within the pattern.
2414e5dd7070Spatrick PackDeductionScope PackScope(S, TemplateParams, Deduced, Info, Pattern);
2415e5dd7070Spatrick
2416e5dd7070Spatrick // Keep track of the deduced template arguments for each parameter pack
2417e5dd7070Spatrick // expanded by this pack expansion (the outer index) and for each
2418e5dd7070Spatrick // template argument (the inner SmallVectors).
2419*12c85518Srobert for (; hasTemplateArgumentForDeduction(As, ArgIdx) &&
2420e5dd7070Spatrick PackScope.hasNextElement();
2421e5dd7070Spatrick ++ArgIdx) {
2422e5dd7070Spatrick // Deduce template arguments from the pattern.
2423*12c85518Srobert if (auto Result = DeduceTemplateArguments(S, TemplateParams, Pattern,
2424*12c85518Srobert As[ArgIdx], Info, Deduced))
2425e5dd7070Spatrick return Result;
2426e5dd7070Spatrick
2427e5dd7070Spatrick PackScope.nextPackElement();
2428e5dd7070Spatrick }
2429e5dd7070Spatrick
2430e5dd7070Spatrick // Build argument packs for each of the parameter packs expanded by this
2431e5dd7070Spatrick // pack expansion.
2432e5dd7070Spatrick if (auto Result = PackScope.finish())
2433e5dd7070Spatrick return Result;
2434e5dd7070Spatrick }
2435e5dd7070Spatrick
2436e5dd7070Spatrick return Sema::TDK_Success;
2437e5dd7070Spatrick }
2438e5dd7070Spatrick
2439e5dd7070Spatrick static Sema::TemplateDeductionResult
DeduceTemplateArguments(Sema & S,TemplateParameterList * TemplateParams,const TemplateArgumentList & ParamList,const TemplateArgumentList & ArgList,TemplateDeductionInfo & Info,SmallVectorImpl<DeducedTemplateArgument> & Deduced)2440*12c85518Srobert DeduceTemplateArguments(Sema &S, TemplateParameterList *TemplateParams,
2441e5dd7070Spatrick const TemplateArgumentList &ParamList,
2442e5dd7070Spatrick const TemplateArgumentList &ArgList,
2443e5dd7070Spatrick TemplateDeductionInfo &Info,
2444e5dd7070Spatrick SmallVectorImpl<DeducedTemplateArgument> &Deduced) {
2445e5dd7070Spatrick return DeduceTemplateArguments(S, TemplateParams, ParamList.asArray(),
2446e5dd7070Spatrick ArgList.asArray(), Info, Deduced,
2447*12c85518Srobert /*NumberOfArgumentsMustMatch=*/false);
2448e5dd7070Spatrick }
2449e5dd7070Spatrick
2450e5dd7070Spatrick /// Determine whether two template arguments are the same.
isSameTemplateArg(ASTContext & Context,TemplateArgument X,const TemplateArgument & Y,bool PartialOrdering,bool PackExpansionMatchesPack=false)2451e5dd7070Spatrick static bool isSameTemplateArg(ASTContext &Context,
2452e5dd7070Spatrick TemplateArgument X,
2453e5dd7070Spatrick const TemplateArgument &Y,
2454*12c85518Srobert bool PartialOrdering,
2455e5dd7070Spatrick bool PackExpansionMatchesPack = false) {
2456e5dd7070Spatrick // If we're checking deduced arguments (X) against original arguments (Y),
2457e5dd7070Spatrick // we will have flattened packs to non-expansions in X.
2458e5dd7070Spatrick if (PackExpansionMatchesPack && X.isPackExpansion() && !Y.isPackExpansion())
2459e5dd7070Spatrick X = X.getPackExpansionPattern();
2460e5dd7070Spatrick
2461e5dd7070Spatrick if (X.getKind() != Y.getKind())
2462e5dd7070Spatrick return false;
2463e5dd7070Spatrick
2464e5dd7070Spatrick switch (X.getKind()) {
2465e5dd7070Spatrick case TemplateArgument::Null:
2466e5dd7070Spatrick llvm_unreachable("Comparing NULL template argument");
2467e5dd7070Spatrick
2468e5dd7070Spatrick case TemplateArgument::Type:
2469e5dd7070Spatrick return Context.getCanonicalType(X.getAsType()) ==
2470e5dd7070Spatrick Context.getCanonicalType(Y.getAsType());
2471e5dd7070Spatrick
2472e5dd7070Spatrick case TemplateArgument::Declaration:
2473e5dd7070Spatrick return isSameDeclaration(X.getAsDecl(), Y.getAsDecl());
2474e5dd7070Spatrick
2475e5dd7070Spatrick case TemplateArgument::NullPtr:
2476e5dd7070Spatrick return Context.hasSameType(X.getNullPtrType(), Y.getNullPtrType());
2477e5dd7070Spatrick
2478e5dd7070Spatrick case TemplateArgument::Template:
2479e5dd7070Spatrick case TemplateArgument::TemplateExpansion:
2480e5dd7070Spatrick return Context.getCanonicalTemplateName(
2481e5dd7070Spatrick X.getAsTemplateOrTemplatePattern()).getAsVoidPointer() ==
2482e5dd7070Spatrick Context.getCanonicalTemplateName(
2483e5dd7070Spatrick Y.getAsTemplateOrTemplatePattern()).getAsVoidPointer();
2484e5dd7070Spatrick
2485e5dd7070Spatrick case TemplateArgument::Integral:
2486e5dd7070Spatrick return hasSameExtendedValue(X.getAsIntegral(), Y.getAsIntegral());
2487e5dd7070Spatrick
2488e5dd7070Spatrick case TemplateArgument::Expression: {
2489e5dd7070Spatrick llvm::FoldingSetNodeID XID, YID;
2490e5dd7070Spatrick X.getAsExpr()->Profile(XID, Context, true);
2491e5dd7070Spatrick Y.getAsExpr()->Profile(YID, Context, true);
2492e5dd7070Spatrick return XID == YID;
2493e5dd7070Spatrick }
2494e5dd7070Spatrick
2495*12c85518Srobert case TemplateArgument::Pack: {
2496*12c85518Srobert unsigned PackIterationSize = X.pack_size();
2497*12c85518Srobert if (X.pack_size() != Y.pack_size()) {
2498*12c85518Srobert if (!PartialOrdering)
2499e5dd7070Spatrick return false;
2500e5dd7070Spatrick
2501*12c85518Srobert // C++0x [temp.deduct.type]p9:
2502*12c85518Srobert // During partial ordering, if Ai was originally a pack expansion:
2503*12c85518Srobert // - if P does not contain a template argument corresponding to Ai
2504*12c85518Srobert // then Ai is ignored;
2505*12c85518Srobert bool XHasMoreArg = X.pack_size() > Y.pack_size();
2506*12c85518Srobert if (!(XHasMoreArg && X.pack_elements().back().isPackExpansion()) &&
2507*12c85518Srobert !(!XHasMoreArg && Y.pack_elements().back().isPackExpansion()))
2508e5dd7070Spatrick return false;
2509e5dd7070Spatrick
2510*12c85518Srobert if (XHasMoreArg)
2511*12c85518Srobert PackIterationSize = Y.pack_size();
2512*12c85518Srobert }
2513*12c85518Srobert
2514*12c85518Srobert ArrayRef<TemplateArgument> XP = X.pack_elements();
2515*12c85518Srobert ArrayRef<TemplateArgument> YP = Y.pack_elements();
2516*12c85518Srobert for (unsigned i = 0; i < PackIterationSize; ++i)
2517*12c85518Srobert if (!isSameTemplateArg(Context, XP[i], YP[i], PartialOrdering,
2518*12c85518Srobert PackExpansionMatchesPack))
2519*12c85518Srobert return false;
2520e5dd7070Spatrick return true;
2521e5dd7070Spatrick }
2522*12c85518Srobert }
2523e5dd7070Spatrick
2524e5dd7070Spatrick llvm_unreachable("Invalid TemplateArgument Kind!");
2525e5dd7070Spatrick }
2526e5dd7070Spatrick
2527e5dd7070Spatrick /// Allocate a TemplateArgumentLoc where all locations have
2528e5dd7070Spatrick /// been initialized to the given location.
2529e5dd7070Spatrick ///
2530e5dd7070Spatrick /// \param Arg The template argument we are producing template argument
2531e5dd7070Spatrick /// location information for.
2532e5dd7070Spatrick ///
2533e5dd7070Spatrick /// \param NTTPType For a declaration template argument, the type of
2534e5dd7070Spatrick /// the non-type template parameter that corresponds to this template
2535e5dd7070Spatrick /// argument. Can be null if no type sugar is available to add to the
2536e5dd7070Spatrick /// type from the template argument.
2537e5dd7070Spatrick ///
2538e5dd7070Spatrick /// \param Loc The source location to use for the resulting template
2539e5dd7070Spatrick /// argument.
2540e5dd7070Spatrick TemplateArgumentLoc
getTrivialTemplateArgumentLoc(const TemplateArgument & Arg,QualType NTTPType,SourceLocation Loc)2541e5dd7070Spatrick Sema::getTrivialTemplateArgumentLoc(const TemplateArgument &Arg,
2542e5dd7070Spatrick QualType NTTPType, SourceLocation Loc) {
2543e5dd7070Spatrick switch (Arg.getKind()) {
2544e5dd7070Spatrick case TemplateArgument::Null:
2545e5dd7070Spatrick llvm_unreachable("Can't get a NULL template argument here");
2546e5dd7070Spatrick
2547e5dd7070Spatrick case TemplateArgument::Type:
2548e5dd7070Spatrick return TemplateArgumentLoc(
2549e5dd7070Spatrick Arg, Context.getTrivialTypeSourceInfo(Arg.getAsType(), Loc));
2550e5dd7070Spatrick
2551e5dd7070Spatrick case TemplateArgument::Declaration: {
2552e5dd7070Spatrick if (NTTPType.isNull())
2553e5dd7070Spatrick NTTPType = Arg.getParamTypeForDecl();
2554e5dd7070Spatrick Expr *E = BuildExpressionFromDeclTemplateArgument(Arg, NTTPType, Loc)
2555e5dd7070Spatrick .getAs<Expr>();
2556e5dd7070Spatrick return TemplateArgumentLoc(TemplateArgument(E), E);
2557e5dd7070Spatrick }
2558e5dd7070Spatrick
2559e5dd7070Spatrick case TemplateArgument::NullPtr: {
2560e5dd7070Spatrick if (NTTPType.isNull())
2561e5dd7070Spatrick NTTPType = Arg.getNullPtrType();
2562e5dd7070Spatrick Expr *E = BuildExpressionFromDeclTemplateArgument(Arg, NTTPType, Loc)
2563e5dd7070Spatrick .getAs<Expr>();
2564e5dd7070Spatrick return TemplateArgumentLoc(TemplateArgument(NTTPType, /*isNullPtr*/true),
2565e5dd7070Spatrick E);
2566e5dd7070Spatrick }
2567e5dd7070Spatrick
2568e5dd7070Spatrick case TemplateArgument::Integral: {
2569e5dd7070Spatrick Expr *E =
2570e5dd7070Spatrick BuildExpressionFromIntegralTemplateArgument(Arg, Loc).getAs<Expr>();
2571e5dd7070Spatrick return TemplateArgumentLoc(TemplateArgument(E), E);
2572e5dd7070Spatrick }
2573e5dd7070Spatrick
2574e5dd7070Spatrick case TemplateArgument::Template:
2575e5dd7070Spatrick case TemplateArgument::TemplateExpansion: {
2576e5dd7070Spatrick NestedNameSpecifierLocBuilder Builder;
2577e5dd7070Spatrick TemplateName Template = Arg.getAsTemplateOrTemplatePattern();
2578e5dd7070Spatrick if (DependentTemplateName *DTN = Template.getAsDependentTemplateName())
2579e5dd7070Spatrick Builder.MakeTrivial(Context, DTN->getQualifier(), Loc);
2580e5dd7070Spatrick else if (QualifiedTemplateName *QTN =
2581e5dd7070Spatrick Template.getAsQualifiedTemplateName())
2582e5dd7070Spatrick Builder.MakeTrivial(Context, QTN->getQualifier(), Loc);
2583e5dd7070Spatrick
2584e5dd7070Spatrick if (Arg.getKind() == TemplateArgument::Template)
2585a9ac8606Spatrick return TemplateArgumentLoc(Context, Arg,
2586a9ac8606Spatrick Builder.getWithLocInContext(Context), Loc);
2587e5dd7070Spatrick
2588a9ac8606Spatrick return TemplateArgumentLoc(
2589a9ac8606Spatrick Context, Arg, Builder.getWithLocInContext(Context), Loc, Loc);
2590e5dd7070Spatrick }
2591e5dd7070Spatrick
2592e5dd7070Spatrick case TemplateArgument::Expression:
2593e5dd7070Spatrick return TemplateArgumentLoc(Arg, Arg.getAsExpr());
2594e5dd7070Spatrick
2595e5dd7070Spatrick case TemplateArgument::Pack:
2596e5dd7070Spatrick return TemplateArgumentLoc(Arg, TemplateArgumentLocInfo());
2597e5dd7070Spatrick }
2598e5dd7070Spatrick
2599e5dd7070Spatrick llvm_unreachable("Invalid TemplateArgument Kind!");
2600e5dd7070Spatrick }
2601e5dd7070Spatrick
2602e5dd7070Spatrick TemplateArgumentLoc
getIdentityTemplateArgumentLoc(NamedDecl * TemplateParm,SourceLocation Location)2603e5dd7070Spatrick Sema::getIdentityTemplateArgumentLoc(NamedDecl *TemplateParm,
2604e5dd7070Spatrick SourceLocation Location) {
2605e5dd7070Spatrick return getTrivialTemplateArgumentLoc(
2606e5dd7070Spatrick Context.getInjectedTemplateArg(TemplateParm), QualType(), Location);
2607e5dd7070Spatrick }
2608e5dd7070Spatrick
2609e5dd7070Spatrick /// Convert the given deduced template argument and add it to the set of
2610e5dd7070Spatrick /// fully-converted template arguments.
ConvertDeducedTemplateArgument(Sema & S,NamedDecl * Param,DeducedTemplateArgument Arg,NamedDecl * Template,TemplateDeductionInfo & Info,bool IsDeduced,SmallVectorImpl<TemplateArgument> & SugaredOutput,SmallVectorImpl<TemplateArgument> & CanonicalOutput)2611*12c85518Srobert static bool ConvertDeducedTemplateArgument(
2612*12c85518Srobert Sema &S, NamedDecl *Param, DeducedTemplateArgument Arg, NamedDecl *Template,
2613*12c85518Srobert TemplateDeductionInfo &Info, bool IsDeduced,
2614*12c85518Srobert SmallVectorImpl<TemplateArgument> &SugaredOutput,
2615*12c85518Srobert SmallVectorImpl<TemplateArgument> &CanonicalOutput) {
2616e5dd7070Spatrick auto ConvertArg = [&](DeducedTemplateArgument Arg,
2617e5dd7070Spatrick unsigned ArgumentPackIndex) {
2618e5dd7070Spatrick // Convert the deduced template argument into a template
2619e5dd7070Spatrick // argument that we can check, almost as if the user had written
2620e5dd7070Spatrick // the template argument explicitly.
2621e5dd7070Spatrick TemplateArgumentLoc ArgLoc =
2622e5dd7070Spatrick S.getTrivialTemplateArgumentLoc(Arg, QualType(), Info.getLocation());
2623e5dd7070Spatrick
2624e5dd7070Spatrick // Check the template argument, converting it as necessary.
2625e5dd7070Spatrick return S.CheckTemplateArgument(
2626e5dd7070Spatrick Param, ArgLoc, Template, Template->getLocation(),
2627*12c85518Srobert Template->getSourceRange().getEnd(), ArgumentPackIndex, SugaredOutput,
2628*12c85518Srobert CanonicalOutput,
2629e5dd7070Spatrick IsDeduced
2630e5dd7070Spatrick ? (Arg.wasDeducedFromArrayBound() ? Sema::CTAK_DeducedFromArrayBound
2631e5dd7070Spatrick : Sema::CTAK_Deduced)
2632e5dd7070Spatrick : Sema::CTAK_Specified);
2633e5dd7070Spatrick };
2634e5dd7070Spatrick
2635e5dd7070Spatrick if (Arg.getKind() == TemplateArgument::Pack) {
2636e5dd7070Spatrick // This is a template argument pack, so check each of its arguments against
2637e5dd7070Spatrick // the template parameter.
2638*12c85518Srobert SmallVector<TemplateArgument, 2> SugaredPackedArgsBuilder,
2639*12c85518Srobert CanonicalPackedArgsBuilder;
2640e5dd7070Spatrick for (const auto &P : Arg.pack_elements()) {
2641e5dd7070Spatrick // When converting the deduced template argument, append it to the
2642e5dd7070Spatrick // general output list. We need to do this so that the template argument
2643e5dd7070Spatrick // checking logic has all of the prior template arguments available.
2644e5dd7070Spatrick DeducedTemplateArgument InnerArg(P);
2645e5dd7070Spatrick InnerArg.setDeducedFromArrayBound(Arg.wasDeducedFromArrayBound());
2646e5dd7070Spatrick assert(InnerArg.getKind() != TemplateArgument::Pack &&
2647e5dd7070Spatrick "deduced nested pack");
2648e5dd7070Spatrick if (P.isNull()) {
2649e5dd7070Spatrick // We deduced arguments for some elements of this pack, but not for
2650e5dd7070Spatrick // all of them. This happens if we get a conditionally-non-deduced
2651e5dd7070Spatrick // context in a pack expansion (such as an overload set in one of the
2652e5dd7070Spatrick // arguments).
2653e5dd7070Spatrick S.Diag(Param->getLocation(),
2654e5dd7070Spatrick diag::err_template_arg_deduced_incomplete_pack)
2655e5dd7070Spatrick << Arg << Param;
2656e5dd7070Spatrick return true;
2657e5dd7070Spatrick }
2658*12c85518Srobert if (ConvertArg(InnerArg, SugaredPackedArgsBuilder.size()))
2659e5dd7070Spatrick return true;
2660e5dd7070Spatrick
2661e5dd7070Spatrick // Move the converted template argument into our argument pack.
2662*12c85518Srobert SugaredPackedArgsBuilder.push_back(SugaredOutput.pop_back_val());
2663*12c85518Srobert CanonicalPackedArgsBuilder.push_back(CanonicalOutput.pop_back_val());
2664e5dd7070Spatrick }
2665e5dd7070Spatrick
2666e5dd7070Spatrick // If the pack is empty, we still need to substitute into the parameter
2667e5dd7070Spatrick // itself, in case that substitution fails.
2668*12c85518Srobert if (SugaredPackedArgsBuilder.empty()) {
2669e5dd7070Spatrick LocalInstantiationScope Scope(S);
2670*12c85518Srobert MultiLevelTemplateArgumentList Args(Template, SugaredOutput,
2671*12c85518Srobert /*Final=*/true);
2672e5dd7070Spatrick
2673e5dd7070Spatrick if (auto *NTTP = dyn_cast<NonTypeTemplateParmDecl>(Param)) {
2674e5dd7070Spatrick Sema::InstantiatingTemplate Inst(S, Template->getLocation(), Template,
2675*12c85518Srobert NTTP, SugaredOutput,
2676e5dd7070Spatrick Template->getSourceRange());
2677e5dd7070Spatrick if (Inst.isInvalid() ||
2678e5dd7070Spatrick S.SubstType(NTTP->getType(), Args, NTTP->getLocation(),
2679e5dd7070Spatrick NTTP->getDeclName()).isNull())
2680e5dd7070Spatrick return true;
2681e5dd7070Spatrick } else if (auto *TTP = dyn_cast<TemplateTemplateParmDecl>(Param)) {
2682e5dd7070Spatrick Sema::InstantiatingTemplate Inst(S, Template->getLocation(), Template,
2683*12c85518Srobert TTP, SugaredOutput,
2684e5dd7070Spatrick Template->getSourceRange());
2685e5dd7070Spatrick if (Inst.isInvalid() || !S.SubstDecl(TTP, S.CurContext, Args))
2686e5dd7070Spatrick return true;
2687e5dd7070Spatrick }
2688e5dd7070Spatrick // For type parameters, no substitution is ever required.
2689e5dd7070Spatrick }
2690e5dd7070Spatrick
2691e5dd7070Spatrick // Create the resulting argument pack.
2692*12c85518Srobert SugaredOutput.push_back(
2693*12c85518Srobert TemplateArgument::CreatePackCopy(S.Context, SugaredPackedArgsBuilder));
2694*12c85518Srobert CanonicalOutput.push_back(TemplateArgument::CreatePackCopy(
2695*12c85518Srobert S.Context, CanonicalPackedArgsBuilder));
2696e5dd7070Spatrick return false;
2697e5dd7070Spatrick }
2698e5dd7070Spatrick
2699e5dd7070Spatrick return ConvertArg(Arg, 0);
2700e5dd7070Spatrick }
2701e5dd7070Spatrick
2702e5dd7070Spatrick // FIXME: This should not be a template, but
2703e5dd7070Spatrick // ClassTemplatePartialSpecializationDecl sadly does not derive from
2704e5dd7070Spatrick // TemplateDecl.
2705e5dd7070Spatrick template <typename TemplateDeclT>
ConvertDeducedTemplateArguments(Sema & S,TemplateDeclT * Template,bool IsDeduced,SmallVectorImpl<DeducedTemplateArgument> & Deduced,TemplateDeductionInfo & Info,SmallVectorImpl<TemplateArgument> & SugaredBuilder,SmallVectorImpl<TemplateArgument> & CanonicalBuilder,LocalInstantiationScope * CurrentInstantiationScope=nullptr,unsigned NumAlreadyConverted=0,bool PartialOverloading=false)2706e5dd7070Spatrick static Sema::TemplateDeductionResult ConvertDeducedTemplateArguments(
2707e5dd7070Spatrick Sema &S, TemplateDeclT *Template, bool IsDeduced,
2708e5dd7070Spatrick SmallVectorImpl<DeducedTemplateArgument> &Deduced,
2709*12c85518Srobert TemplateDeductionInfo &Info,
2710*12c85518Srobert SmallVectorImpl<TemplateArgument> &SugaredBuilder,
2711*12c85518Srobert SmallVectorImpl<TemplateArgument> &CanonicalBuilder,
2712e5dd7070Spatrick LocalInstantiationScope *CurrentInstantiationScope = nullptr,
2713e5dd7070Spatrick unsigned NumAlreadyConverted = 0, bool PartialOverloading = false) {
2714e5dd7070Spatrick TemplateParameterList *TemplateParams = Template->getTemplateParameters();
2715e5dd7070Spatrick
2716e5dd7070Spatrick for (unsigned I = 0, N = TemplateParams->size(); I != N; ++I) {
2717e5dd7070Spatrick NamedDecl *Param = TemplateParams->getParam(I);
2718e5dd7070Spatrick
2719e5dd7070Spatrick // C++0x [temp.arg.explicit]p3:
2720e5dd7070Spatrick // A trailing template parameter pack (14.5.3) not otherwise deduced will
2721e5dd7070Spatrick // be deduced to an empty sequence of template arguments.
2722e5dd7070Spatrick // FIXME: Where did the word "trailing" come from?
2723e5dd7070Spatrick if (Deduced[I].isNull() && Param->isTemplateParameterPack()) {
2724e5dd7070Spatrick if (auto Result =
2725e5dd7070Spatrick PackDeductionScope(S, TemplateParams, Deduced, Info, I).finish())
2726e5dd7070Spatrick return Result;
2727e5dd7070Spatrick }
2728e5dd7070Spatrick
2729e5dd7070Spatrick if (!Deduced[I].isNull()) {
2730e5dd7070Spatrick if (I < NumAlreadyConverted) {
2731e5dd7070Spatrick // We may have had explicitly-specified template arguments for a
2732e5dd7070Spatrick // template parameter pack (that may or may not have been extended
2733e5dd7070Spatrick // via additional deduced arguments).
2734e5dd7070Spatrick if (Param->isParameterPack() && CurrentInstantiationScope &&
2735e5dd7070Spatrick CurrentInstantiationScope->getPartiallySubstitutedPack() == Param) {
2736e5dd7070Spatrick // Forget the partially-substituted pack; its substitution is now
2737e5dd7070Spatrick // complete.
2738e5dd7070Spatrick CurrentInstantiationScope->ResetPartiallySubstitutedPack();
2739e5dd7070Spatrick // We still need to check the argument in case it was extended by
2740e5dd7070Spatrick // deduction.
2741e5dd7070Spatrick } else {
2742e5dd7070Spatrick // We have already fully type-checked and converted this
2743e5dd7070Spatrick // argument, because it was explicitly-specified. Just record the
2744e5dd7070Spatrick // presence of this argument.
2745*12c85518Srobert SugaredBuilder.push_back(Deduced[I]);
2746*12c85518Srobert CanonicalBuilder.push_back(
2747*12c85518Srobert S.Context.getCanonicalTemplateArgument(Deduced[I]));
2748e5dd7070Spatrick continue;
2749e5dd7070Spatrick }
2750e5dd7070Spatrick }
2751e5dd7070Spatrick
2752e5dd7070Spatrick // We may have deduced this argument, so it still needs to be
2753e5dd7070Spatrick // checked and converted.
2754e5dd7070Spatrick if (ConvertDeducedTemplateArgument(S, Param, Deduced[I], Template, Info,
2755*12c85518Srobert IsDeduced, SugaredBuilder,
2756*12c85518Srobert CanonicalBuilder)) {
2757e5dd7070Spatrick Info.Param = makeTemplateParameter(Param);
2758e5dd7070Spatrick // FIXME: These template arguments are temporary. Free them!
2759*12c85518Srobert Info.reset(
2760*12c85518Srobert TemplateArgumentList::CreateCopy(S.Context, SugaredBuilder),
2761*12c85518Srobert TemplateArgumentList::CreateCopy(S.Context, CanonicalBuilder));
2762e5dd7070Spatrick return Sema::TDK_SubstitutionFailure;
2763e5dd7070Spatrick }
2764e5dd7070Spatrick
2765e5dd7070Spatrick continue;
2766e5dd7070Spatrick }
2767e5dd7070Spatrick
2768e5dd7070Spatrick // Substitute into the default template argument, if available.
2769e5dd7070Spatrick bool HasDefaultArg = false;
2770e5dd7070Spatrick TemplateDecl *TD = dyn_cast<TemplateDecl>(Template);
2771e5dd7070Spatrick if (!TD) {
2772e5dd7070Spatrick assert(isa<ClassTemplatePartialSpecializationDecl>(Template) ||
2773e5dd7070Spatrick isa<VarTemplatePartialSpecializationDecl>(Template));
2774e5dd7070Spatrick return Sema::TDK_Incomplete;
2775e5dd7070Spatrick }
2776e5dd7070Spatrick
2777*12c85518Srobert TemplateArgumentLoc DefArg;
2778*12c85518Srobert {
2779*12c85518Srobert Qualifiers ThisTypeQuals;
2780*12c85518Srobert CXXRecordDecl *ThisContext = nullptr;
2781*12c85518Srobert if (auto *Rec = dyn_cast<CXXRecordDecl>(TD->getDeclContext()))
2782*12c85518Srobert if (Rec->isLambda())
2783*12c85518Srobert if (auto *Method = dyn_cast<CXXMethodDecl>(Rec->getDeclContext())) {
2784*12c85518Srobert ThisContext = Method->getParent();
2785*12c85518Srobert ThisTypeQuals = Method->getMethodQualifiers();
2786*12c85518Srobert }
2787*12c85518Srobert
2788*12c85518Srobert Sema::CXXThisScopeRAII ThisScope(S, ThisContext, ThisTypeQuals,
2789*12c85518Srobert S.getLangOpts().CPlusPlus17);
2790*12c85518Srobert
2791*12c85518Srobert DefArg = S.SubstDefaultTemplateArgumentIfAvailable(
2792*12c85518Srobert TD, TD->getLocation(), TD->getSourceRange().getEnd(), Param,
2793*12c85518Srobert SugaredBuilder, CanonicalBuilder, HasDefaultArg);
2794*12c85518Srobert }
2795e5dd7070Spatrick
2796e5dd7070Spatrick // If there was no default argument, deduction is incomplete.
2797e5dd7070Spatrick if (DefArg.getArgument().isNull()) {
2798e5dd7070Spatrick Info.Param = makeTemplateParameter(
2799e5dd7070Spatrick const_cast<NamedDecl *>(TemplateParams->getParam(I)));
2800*12c85518Srobert Info.reset(TemplateArgumentList::CreateCopy(S.Context, SugaredBuilder),
2801*12c85518Srobert TemplateArgumentList::CreateCopy(S.Context, CanonicalBuilder));
2802e5dd7070Spatrick if (PartialOverloading) break;
2803e5dd7070Spatrick
2804e5dd7070Spatrick return HasDefaultArg ? Sema::TDK_SubstitutionFailure
2805e5dd7070Spatrick : Sema::TDK_Incomplete;
2806e5dd7070Spatrick }
2807e5dd7070Spatrick
2808e5dd7070Spatrick // Check whether we can actually use the default argument.
2809*12c85518Srobert if (S.CheckTemplateArgument(
2810*12c85518Srobert Param, DefArg, TD, TD->getLocation(), TD->getSourceRange().getEnd(),
2811*12c85518Srobert 0, SugaredBuilder, CanonicalBuilder, Sema::CTAK_Specified)) {
2812e5dd7070Spatrick Info.Param = makeTemplateParameter(
2813e5dd7070Spatrick const_cast<NamedDecl *>(TemplateParams->getParam(I)));
2814e5dd7070Spatrick // FIXME: These template arguments are temporary. Free them!
2815*12c85518Srobert Info.reset(TemplateArgumentList::CreateCopy(S.Context, SugaredBuilder),
2816*12c85518Srobert TemplateArgumentList::CreateCopy(S.Context, CanonicalBuilder));
2817e5dd7070Spatrick return Sema::TDK_SubstitutionFailure;
2818e5dd7070Spatrick }
2819e5dd7070Spatrick
2820e5dd7070Spatrick // If we get here, we successfully used the default template argument.
2821e5dd7070Spatrick }
2822e5dd7070Spatrick
2823e5dd7070Spatrick return Sema::TDK_Success;
2824e5dd7070Spatrick }
2825e5dd7070Spatrick
getAsDeclContextOrEnclosing(Decl * D)2826e5dd7070Spatrick static DeclContext *getAsDeclContextOrEnclosing(Decl *D) {
2827e5dd7070Spatrick if (auto *DC = dyn_cast<DeclContext>(D))
2828e5dd7070Spatrick return DC;
2829e5dd7070Spatrick return D->getDeclContext();
2830e5dd7070Spatrick }
2831e5dd7070Spatrick
2832e5dd7070Spatrick template<typename T> struct IsPartialSpecialization {
2833e5dd7070Spatrick static constexpr bool value = false;
2834e5dd7070Spatrick };
2835e5dd7070Spatrick template<>
2836e5dd7070Spatrick struct IsPartialSpecialization<ClassTemplatePartialSpecializationDecl> {
2837e5dd7070Spatrick static constexpr bool value = true;
2838e5dd7070Spatrick };
2839e5dd7070Spatrick template<>
2840e5dd7070Spatrick struct IsPartialSpecialization<VarTemplatePartialSpecializationDecl> {
2841e5dd7070Spatrick static constexpr bool value = true;
2842e5dd7070Spatrick };
2843*12c85518Srobert template <typename TemplateDeclT>
DeducedArgsNeedReplacement(TemplateDeclT * Template)2844*12c85518Srobert static bool DeducedArgsNeedReplacement(TemplateDeclT *Template) {
2845*12c85518Srobert return false;
2846*12c85518Srobert }
2847*12c85518Srobert template <>
DeducedArgsNeedReplacement(VarTemplatePartialSpecializationDecl * Spec)2848*12c85518Srobert bool DeducedArgsNeedReplacement<VarTemplatePartialSpecializationDecl>(
2849*12c85518Srobert VarTemplatePartialSpecializationDecl *Spec) {
2850*12c85518Srobert return !Spec->isClassScopeExplicitSpecialization();
2851*12c85518Srobert }
2852*12c85518Srobert template <>
DeducedArgsNeedReplacement(ClassTemplatePartialSpecializationDecl * Spec)2853*12c85518Srobert bool DeducedArgsNeedReplacement<ClassTemplatePartialSpecializationDecl>(
2854*12c85518Srobert ClassTemplatePartialSpecializationDecl *Spec) {
2855*12c85518Srobert return !Spec->isClassScopeExplicitSpecialization();
2856*12c85518Srobert }
2857e5dd7070Spatrick
2858e5dd7070Spatrick template <typename TemplateDeclT>
2859e5dd7070Spatrick static Sema::TemplateDeductionResult
CheckDeducedArgumentConstraints(Sema & S,TemplateDeclT * Template,ArrayRef<TemplateArgument> SugaredDeducedArgs,ArrayRef<TemplateArgument> CanonicalDeducedArgs,TemplateDeductionInfo & Info)2860e5dd7070Spatrick CheckDeducedArgumentConstraints(Sema &S, TemplateDeclT *Template,
2861*12c85518Srobert ArrayRef<TemplateArgument> SugaredDeducedArgs,
2862*12c85518Srobert ArrayRef<TemplateArgument> CanonicalDeducedArgs,
2863e5dd7070Spatrick TemplateDeductionInfo &Info) {
2864e5dd7070Spatrick llvm::SmallVector<const Expr *, 3> AssociatedConstraints;
2865e5dd7070Spatrick Template->getAssociatedConstraints(AssociatedConstraints);
2866*12c85518Srobert
2867*12c85518Srobert bool NeedsReplacement = DeducedArgsNeedReplacement(Template);
2868*12c85518Srobert TemplateArgumentList DeducedTAL{TemplateArgumentList::OnStack,
2869*12c85518Srobert CanonicalDeducedArgs};
2870*12c85518Srobert
2871*12c85518Srobert MultiLevelTemplateArgumentList MLTAL = S.getTemplateInstantiationArgs(
2872*12c85518Srobert Template, /*Final=*/false,
2873*12c85518Srobert /*InnerMost=*/NeedsReplacement ? nullptr : &DeducedTAL,
2874*12c85518Srobert /*RelativeToPrimary=*/true, /*Pattern=*/
2875*12c85518Srobert nullptr, /*ForConstraintInstantiation=*/true);
2876*12c85518Srobert
2877*12c85518Srobert // getTemplateInstantiationArgs picks up the non-deduced version of the
2878*12c85518Srobert // template args when this is a variable template partial specialization and
2879*12c85518Srobert // not class-scope explicit specialization, so replace with Deduced Args
2880*12c85518Srobert // instead of adding to inner-most.
2881*12c85518Srobert if (NeedsReplacement)
2882*12c85518Srobert MLTAL.replaceInnermostTemplateArguments(CanonicalDeducedArgs);
2883*12c85518Srobert
2884*12c85518Srobert if (S.CheckConstraintSatisfaction(Template, AssociatedConstraints, MLTAL,
2885*12c85518Srobert Info.getLocation(),
2886e5dd7070Spatrick Info.AssociatedConstraintsSatisfaction) ||
2887e5dd7070Spatrick !Info.AssociatedConstraintsSatisfaction.IsSatisfied) {
2888*12c85518Srobert Info.reset(
2889*12c85518Srobert TemplateArgumentList::CreateCopy(S.Context, SugaredDeducedArgs),
2890*12c85518Srobert TemplateArgumentList::CreateCopy(S.Context, CanonicalDeducedArgs));
2891e5dd7070Spatrick return Sema::TDK_ConstraintsNotSatisfied;
2892e5dd7070Spatrick }
2893e5dd7070Spatrick return Sema::TDK_Success;
2894e5dd7070Spatrick }
2895e5dd7070Spatrick
2896e5dd7070Spatrick /// Complete template argument deduction for a partial specialization.
2897e5dd7070Spatrick template <typename T>
2898ec727ea7Spatrick static std::enable_if_t<IsPartialSpecialization<T>::value,
2899ec727ea7Spatrick Sema::TemplateDeductionResult>
FinishTemplateArgumentDeduction(Sema & S,T * Partial,bool IsPartialOrdering,const TemplateArgumentList & TemplateArgs,SmallVectorImpl<DeducedTemplateArgument> & Deduced,TemplateDeductionInfo & Info)2900e5dd7070Spatrick FinishTemplateArgumentDeduction(
2901e5dd7070Spatrick Sema &S, T *Partial, bool IsPartialOrdering,
2902e5dd7070Spatrick const TemplateArgumentList &TemplateArgs,
2903e5dd7070Spatrick SmallVectorImpl<DeducedTemplateArgument> &Deduced,
2904e5dd7070Spatrick TemplateDeductionInfo &Info) {
2905e5dd7070Spatrick // Unevaluated SFINAE context.
2906e5dd7070Spatrick EnterExpressionEvaluationContext Unevaluated(
2907e5dd7070Spatrick S, Sema::ExpressionEvaluationContext::Unevaluated);
2908e5dd7070Spatrick Sema::SFINAETrap Trap(S);
2909e5dd7070Spatrick
2910e5dd7070Spatrick Sema::ContextRAII SavedContext(S, getAsDeclContextOrEnclosing(Partial));
2911e5dd7070Spatrick
2912e5dd7070Spatrick // C++ [temp.deduct.type]p2:
2913e5dd7070Spatrick // [...] or if any template argument remains neither deduced nor
2914e5dd7070Spatrick // explicitly specified, template argument deduction fails.
2915*12c85518Srobert SmallVector<TemplateArgument, 4> SugaredBuilder, CanonicalBuilder;
2916e5dd7070Spatrick if (auto Result = ConvertDeducedTemplateArguments(
2917*12c85518Srobert S, Partial, IsPartialOrdering, Deduced, Info, SugaredBuilder,
2918*12c85518Srobert CanonicalBuilder))
2919e5dd7070Spatrick return Result;
2920e5dd7070Spatrick
2921e5dd7070Spatrick // Form the template argument list from the deduced template arguments.
2922*12c85518Srobert TemplateArgumentList *SugaredDeducedArgumentList =
2923*12c85518Srobert TemplateArgumentList::CreateCopy(S.Context, SugaredBuilder);
2924*12c85518Srobert TemplateArgumentList *CanonicalDeducedArgumentList =
2925*12c85518Srobert TemplateArgumentList::CreateCopy(S.Context, CanonicalBuilder);
2926e5dd7070Spatrick
2927*12c85518Srobert Info.reset(SugaredDeducedArgumentList, CanonicalDeducedArgumentList);
2928e5dd7070Spatrick
2929e5dd7070Spatrick // Substitute the deduced template arguments into the template
2930e5dd7070Spatrick // arguments of the class template partial specialization, and
2931e5dd7070Spatrick // verify that the instantiated template arguments are both valid
2932e5dd7070Spatrick // and are equivalent to the template arguments originally provided
2933e5dd7070Spatrick // to the class template.
2934e5dd7070Spatrick LocalInstantiationScope InstScope(S);
2935e5dd7070Spatrick auto *Template = Partial->getSpecializedTemplate();
2936e5dd7070Spatrick const ASTTemplateArgumentListInfo *PartialTemplArgInfo =
2937e5dd7070Spatrick Partial->getTemplateArgsAsWritten();
2938e5dd7070Spatrick
2939e5dd7070Spatrick TemplateArgumentListInfo InstArgs(PartialTemplArgInfo->LAngleLoc,
2940e5dd7070Spatrick PartialTemplArgInfo->RAngleLoc);
2941e5dd7070Spatrick
2942*12c85518Srobert if (S.SubstTemplateArguments(PartialTemplArgInfo->arguments(),
2943*12c85518Srobert MultiLevelTemplateArgumentList(Partial,
2944*12c85518Srobert SugaredBuilder,
2945*12c85518Srobert /*Final=*/true),
2946*12c85518Srobert InstArgs)) {
2947e5dd7070Spatrick unsigned ArgIdx = InstArgs.size(), ParamIdx = ArgIdx;
2948e5dd7070Spatrick if (ParamIdx >= Partial->getTemplateParameters()->size())
2949e5dd7070Spatrick ParamIdx = Partial->getTemplateParameters()->size() - 1;
2950e5dd7070Spatrick
2951e5dd7070Spatrick Decl *Param = const_cast<NamedDecl *>(
2952e5dd7070Spatrick Partial->getTemplateParameters()->getParam(ParamIdx));
2953e5dd7070Spatrick Info.Param = makeTemplateParameter(Param);
2954*12c85518Srobert Info.FirstArg = (*PartialTemplArgInfo)[ArgIdx].getArgument();
2955e5dd7070Spatrick return Sema::TDK_SubstitutionFailure;
2956e5dd7070Spatrick }
2957e5dd7070Spatrick
2958e5dd7070Spatrick bool ConstraintsNotSatisfied;
2959*12c85518Srobert SmallVector<TemplateArgument, 4> SugaredConvertedInstArgs,
2960*12c85518Srobert CanonicalConvertedInstArgs;
2961*12c85518Srobert if (S.CheckTemplateArgumentList(
2962*12c85518Srobert Template, Partial->getLocation(), InstArgs, false,
2963*12c85518Srobert SugaredConvertedInstArgs, CanonicalConvertedInstArgs,
2964*12c85518Srobert /*UpdateArgsWithConversions=*/true, &ConstraintsNotSatisfied))
2965*12c85518Srobert return ConstraintsNotSatisfied ? Sema::TDK_ConstraintsNotSatisfied
2966*12c85518Srobert : Sema::TDK_SubstitutionFailure;
2967e5dd7070Spatrick
2968e5dd7070Spatrick TemplateParameterList *TemplateParams = Template->getTemplateParameters();
2969e5dd7070Spatrick for (unsigned I = 0, E = TemplateParams->size(); I != E; ++I) {
2970*12c85518Srobert TemplateArgument InstArg = SugaredConvertedInstArgs.data()[I];
2971*12c85518Srobert if (!isSameTemplateArg(S.Context, TemplateArgs[I], InstArg,
2972*12c85518Srobert IsPartialOrdering)) {
2973e5dd7070Spatrick Info.Param = makeTemplateParameter(TemplateParams->getParam(I));
2974e5dd7070Spatrick Info.FirstArg = TemplateArgs[I];
2975e5dd7070Spatrick Info.SecondArg = InstArg;
2976e5dd7070Spatrick return Sema::TDK_NonDeducedMismatch;
2977e5dd7070Spatrick }
2978e5dd7070Spatrick }
2979e5dd7070Spatrick
2980e5dd7070Spatrick if (Trap.hasErrorOccurred())
2981e5dd7070Spatrick return Sema::TDK_SubstitutionFailure;
2982e5dd7070Spatrick
2983*12c85518Srobert if (auto Result = CheckDeducedArgumentConstraints(S, Partial, SugaredBuilder,
2984*12c85518Srobert CanonicalBuilder, Info))
2985e5dd7070Spatrick return Result;
2986e5dd7070Spatrick
2987e5dd7070Spatrick return Sema::TDK_Success;
2988e5dd7070Spatrick }
2989e5dd7070Spatrick
2990e5dd7070Spatrick /// Complete template argument deduction for a class or variable template,
2991e5dd7070Spatrick /// when partial ordering against a partial specialization.
2992e5dd7070Spatrick // FIXME: Factor out duplication with partial specialization version above.
FinishTemplateArgumentDeduction(Sema & S,TemplateDecl * Template,bool PartialOrdering,const TemplateArgumentList & TemplateArgs,SmallVectorImpl<DeducedTemplateArgument> & Deduced,TemplateDeductionInfo & Info)2993e5dd7070Spatrick static Sema::TemplateDeductionResult FinishTemplateArgumentDeduction(
2994e5dd7070Spatrick Sema &S, TemplateDecl *Template, bool PartialOrdering,
2995e5dd7070Spatrick const TemplateArgumentList &TemplateArgs,
2996e5dd7070Spatrick SmallVectorImpl<DeducedTemplateArgument> &Deduced,
2997e5dd7070Spatrick TemplateDeductionInfo &Info) {
2998e5dd7070Spatrick // Unevaluated SFINAE context.
2999e5dd7070Spatrick EnterExpressionEvaluationContext Unevaluated(
3000e5dd7070Spatrick S, Sema::ExpressionEvaluationContext::Unevaluated);
3001e5dd7070Spatrick Sema::SFINAETrap Trap(S);
3002e5dd7070Spatrick
3003e5dd7070Spatrick Sema::ContextRAII SavedContext(S, getAsDeclContextOrEnclosing(Template));
3004e5dd7070Spatrick
3005e5dd7070Spatrick // C++ [temp.deduct.type]p2:
3006e5dd7070Spatrick // [...] or if any template argument remains neither deduced nor
3007e5dd7070Spatrick // explicitly specified, template argument deduction fails.
3008*12c85518Srobert SmallVector<TemplateArgument, 4> SugaredBuilder, CanonicalBuilder;
3009e5dd7070Spatrick if (auto Result = ConvertDeducedTemplateArguments(
3010*12c85518Srobert S, Template, /*IsDeduced*/ PartialOrdering, Deduced, Info,
3011*12c85518Srobert SugaredBuilder, CanonicalBuilder,
3012*12c85518Srobert /*CurrentInstantiationScope=*/nullptr,
3013*12c85518Srobert /*NumAlreadyConverted=*/0U, /*PartialOverloading=*/false))
3014e5dd7070Spatrick return Result;
3015e5dd7070Spatrick
3016e5dd7070Spatrick // Check that we produced the correct argument list.
3017e5dd7070Spatrick TemplateParameterList *TemplateParams = Template->getTemplateParameters();
3018e5dd7070Spatrick for (unsigned I = 0, E = TemplateParams->size(); I != E; ++I) {
3019*12c85518Srobert TemplateArgument InstArg = CanonicalBuilder[I];
3020*12c85518Srobert if (!isSameTemplateArg(S.Context, TemplateArgs[I], InstArg, PartialOrdering,
3021*12c85518Srobert /*PackExpansionMatchesPack=*/true)) {
3022e5dd7070Spatrick Info.Param = makeTemplateParameter(TemplateParams->getParam(I));
3023e5dd7070Spatrick Info.FirstArg = TemplateArgs[I];
3024e5dd7070Spatrick Info.SecondArg = InstArg;
3025e5dd7070Spatrick return Sema::TDK_NonDeducedMismatch;
3026e5dd7070Spatrick }
3027e5dd7070Spatrick }
3028e5dd7070Spatrick
3029e5dd7070Spatrick if (Trap.hasErrorOccurred())
3030e5dd7070Spatrick return Sema::TDK_SubstitutionFailure;
3031e5dd7070Spatrick
3032*12c85518Srobert if (auto Result = CheckDeducedArgumentConstraints(S, Template, SugaredBuilder,
3033*12c85518Srobert CanonicalBuilder, Info))
3034e5dd7070Spatrick return Result;
3035e5dd7070Spatrick
3036e5dd7070Spatrick return Sema::TDK_Success;
3037e5dd7070Spatrick }
3038e5dd7070Spatrick
3039e5dd7070Spatrick /// Perform template argument deduction to determine whether
3040e5dd7070Spatrick /// the given template arguments match the given class template
3041e5dd7070Spatrick /// partial specialization per C++ [temp.class.spec.match].
3042e5dd7070Spatrick Sema::TemplateDeductionResult
DeduceTemplateArguments(ClassTemplatePartialSpecializationDecl * Partial,const TemplateArgumentList & TemplateArgs,TemplateDeductionInfo & Info)3043e5dd7070Spatrick Sema::DeduceTemplateArguments(ClassTemplatePartialSpecializationDecl *Partial,
3044e5dd7070Spatrick const TemplateArgumentList &TemplateArgs,
3045e5dd7070Spatrick TemplateDeductionInfo &Info) {
3046e5dd7070Spatrick if (Partial->isInvalidDecl())
3047e5dd7070Spatrick return TDK_Invalid;
3048e5dd7070Spatrick
3049e5dd7070Spatrick // C++ [temp.class.spec.match]p2:
3050e5dd7070Spatrick // A partial specialization matches a given actual template
3051e5dd7070Spatrick // argument list if the template arguments of the partial
3052e5dd7070Spatrick // specialization can be deduced from the actual template argument
3053e5dd7070Spatrick // list (14.8.2).
3054e5dd7070Spatrick
3055e5dd7070Spatrick // Unevaluated SFINAE context.
3056e5dd7070Spatrick EnterExpressionEvaluationContext Unevaluated(
3057e5dd7070Spatrick *this, Sema::ExpressionEvaluationContext::Unevaluated);
3058e5dd7070Spatrick SFINAETrap Trap(*this);
3059e5dd7070Spatrick
3060a9ac8606Spatrick // This deduction has no relation to any outer instantiation we might be
3061a9ac8606Spatrick // performing.
3062a9ac8606Spatrick LocalInstantiationScope InstantiationScope(*this);
3063a9ac8606Spatrick
3064e5dd7070Spatrick SmallVector<DeducedTemplateArgument, 4> Deduced;
3065e5dd7070Spatrick Deduced.resize(Partial->getTemplateParameters()->size());
3066e5dd7070Spatrick if (TemplateDeductionResult Result
3067e5dd7070Spatrick = ::DeduceTemplateArguments(*this,
3068e5dd7070Spatrick Partial->getTemplateParameters(),
3069e5dd7070Spatrick Partial->getTemplateArgs(),
3070e5dd7070Spatrick TemplateArgs, Info, Deduced))
3071e5dd7070Spatrick return Result;
3072e5dd7070Spatrick
3073e5dd7070Spatrick SmallVector<TemplateArgument, 4> DeducedArgs(Deduced.begin(), Deduced.end());
3074e5dd7070Spatrick InstantiatingTemplate Inst(*this, Info.getLocation(), Partial, DeducedArgs,
3075e5dd7070Spatrick Info);
3076e5dd7070Spatrick if (Inst.isInvalid())
3077e5dd7070Spatrick return TDK_InstantiationDepth;
3078e5dd7070Spatrick
3079e5dd7070Spatrick if (Trap.hasErrorOccurred())
3080e5dd7070Spatrick return Sema::TDK_SubstitutionFailure;
3081e5dd7070Spatrick
3082ec727ea7Spatrick TemplateDeductionResult Result;
3083ec727ea7Spatrick runWithSufficientStackSpace(Info.getLocation(), [&] {
3084ec727ea7Spatrick Result = ::FinishTemplateArgumentDeduction(*this, Partial,
3085ec727ea7Spatrick /*IsPartialOrdering=*/false,
3086ec727ea7Spatrick TemplateArgs, Deduced, Info);
3087ec727ea7Spatrick });
3088ec727ea7Spatrick return Result;
3089e5dd7070Spatrick }
3090e5dd7070Spatrick
3091e5dd7070Spatrick /// Perform template argument deduction to determine whether
3092e5dd7070Spatrick /// the given template arguments match the given variable template
3093e5dd7070Spatrick /// partial specialization per C++ [temp.class.spec.match].
3094e5dd7070Spatrick Sema::TemplateDeductionResult
DeduceTemplateArguments(VarTemplatePartialSpecializationDecl * Partial,const TemplateArgumentList & TemplateArgs,TemplateDeductionInfo & Info)3095e5dd7070Spatrick Sema::DeduceTemplateArguments(VarTemplatePartialSpecializationDecl *Partial,
3096e5dd7070Spatrick const TemplateArgumentList &TemplateArgs,
3097e5dd7070Spatrick TemplateDeductionInfo &Info) {
3098e5dd7070Spatrick if (Partial->isInvalidDecl())
3099e5dd7070Spatrick return TDK_Invalid;
3100e5dd7070Spatrick
3101e5dd7070Spatrick // C++ [temp.class.spec.match]p2:
3102e5dd7070Spatrick // A partial specialization matches a given actual template
3103e5dd7070Spatrick // argument list if the template arguments of the partial
3104e5dd7070Spatrick // specialization can be deduced from the actual template argument
3105e5dd7070Spatrick // list (14.8.2).
3106e5dd7070Spatrick
3107e5dd7070Spatrick // Unevaluated SFINAE context.
3108e5dd7070Spatrick EnterExpressionEvaluationContext Unevaluated(
3109e5dd7070Spatrick *this, Sema::ExpressionEvaluationContext::Unevaluated);
3110e5dd7070Spatrick SFINAETrap Trap(*this);
3111e5dd7070Spatrick
3112a9ac8606Spatrick // This deduction has no relation to any outer instantiation we might be
3113a9ac8606Spatrick // performing.
3114a9ac8606Spatrick LocalInstantiationScope InstantiationScope(*this);
3115a9ac8606Spatrick
3116e5dd7070Spatrick SmallVector<DeducedTemplateArgument, 4> Deduced;
3117e5dd7070Spatrick Deduced.resize(Partial->getTemplateParameters()->size());
3118e5dd7070Spatrick if (TemplateDeductionResult Result = ::DeduceTemplateArguments(
3119e5dd7070Spatrick *this, Partial->getTemplateParameters(), Partial->getTemplateArgs(),
3120e5dd7070Spatrick TemplateArgs, Info, Deduced))
3121e5dd7070Spatrick return Result;
3122e5dd7070Spatrick
3123e5dd7070Spatrick SmallVector<TemplateArgument, 4> DeducedArgs(Deduced.begin(), Deduced.end());
3124e5dd7070Spatrick InstantiatingTemplate Inst(*this, Info.getLocation(), Partial, DeducedArgs,
3125e5dd7070Spatrick Info);
3126e5dd7070Spatrick if (Inst.isInvalid())
3127e5dd7070Spatrick return TDK_InstantiationDepth;
3128e5dd7070Spatrick
3129e5dd7070Spatrick if (Trap.hasErrorOccurred())
3130e5dd7070Spatrick return Sema::TDK_SubstitutionFailure;
3131e5dd7070Spatrick
3132ec727ea7Spatrick TemplateDeductionResult Result;
3133ec727ea7Spatrick runWithSufficientStackSpace(Info.getLocation(), [&] {
3134ec727ea7Spatrick Result = ::FinishTemplateArgumentDeduction(*this, Partial,
3135ec727ea7Spatrick /*IsPartialOrdering=*/false,
3136ec727ea7Spatrick TemplateArgs, Deduced, Info);
3137ec727ea7Spatrick });
3138ec727ea7Spatrick return Result;
3139e5dd7070Spatrick }
3140e5dd7070Spatrick
3141e5dd7070Spatrick /// Determine whether the given type T is a simple-template-id type.
isSimpleTemplateIdType(QualType T)3142e5dd7070Spatrick static bool isSimpleTemplateIdType(QualType T) {
3143e5dd7070Spatrick if (const TemplateSpecializationType *Spec
3144e5dd7070Spatrick = T->getAs<TemplateSpecializationType>())
3145e5dd7070Spatrick return Spec->getTemplateName().getAsTemplateDecl() != nullptr;
3146e5dd7070Spatrick
3147e5dd7070Spatrick // C++17 [temp.local]p2:
3148e5dd7070Spatrick // the injected-class-name [...] is equivalent to the template-name followed
3149e5dd7070Spatrick // by the template-arguments of the class template specialization or partial
3150e5dd7070Spatrick // specialization enclosed in <>
3151e5dd7070Spatrick // ... which means it's equivalent to a simple-template-id.
3152e5dd7070Spatrick //
3153e5dd7070Spatrick // This only arises during class template argument deduction for a copy
3154e5dd7070Spatrick // deduction candidate, where it permits slicing.
3155e5dd7070Spatrick if (T->getAs<InjectedClassNameType>())
3156e5dd7070Spatrick return true;
3157e5dd7070Spatrick
3158e5dd7070Spatrick return false;
3159e5dd7070Spatrick }
3160e5dd7070Spatrick
3161e5dd7070Spatrick /// Substitute the explicitly-provided template arguments into the
3162e5dd7070Spatrick /// given function template according to C++ [temp.arg.explicit].
3163e5dd7070Spatrick ///
3164e5dd7070Spatrick /// \param FunctionTemplate the function template into which the explicit
3165e5dd7070Spatrick /// template arguments will be substituted.
3166e5dd7070Spatrick ///
3167e5dd7070Spatrick /// \param ExplicitTemplateArgs the explicitly-specified template
3168e5dd7070Spatrick /// arguments.
3169e5dd7070Spatrick ///
3170e5dd7070Spatrick /// \param Deduced the deduced template arguments, which will be populated
3171e5dd7070Spatrick /// with the converted and checked explicit template arguments.
3172e5dd7070Spatrick ///
3173e5dd7070Spatrick /// \param ParamTypes will be populated with the instantiated function
3174e5dd7070Spatrick /// parameters.
3175e5dd7070Spatrick ///
3176e5dd7070Spatrick /// \param FunctionType if non-NULL, the result type of the function template
3177e5dd7070Spatrick /// will also be instantiated and the pointed-to value will be updated with
3178e5dd7070Spatrick /// the instantiated function type.
3179e5dd7070Spatrick ///
3180e5dd7070Spatrick /// \param Info if substitution fails for any reason, this object will be
3181e5dd7070Spatrick /// populated with more information about the failure.
3182e5dd7070Spatrick ///
3183e5dd7070Spatrick /// \returns TDK_Success if substitution was successful, or some failure
3184e5dd7070Spatrick /// condition.
SubstituteExplicitTemplateArguments(FunctionTemplateDecl * FunctionTemplate,TemplateArgumentListInfo & ExplicitTemplateArgs,SmallVectorImpl<DeducedTemplateArgument> & Deduced,SmallVectorImpl<QualType> & ParamTypes,QualType * FunctionType,TemplateDeductionInfo & Info)3185*12c85518Srobert Sema::TemplateDeductionResult Sema::SubstituteExplicitTemplateArguments(
3186e5dd7070Spatrick FunctionTemplateDecl *FunctionTemplate,
3187e5dd7070Spatrick TemplateArgumentListInfo &ExplicitTemplateArgs,
3188e5dd7070Spatrick SmallVectorImpl<DeducedTemplateArgument> &Deduced,
3189*12c85518Srobert SmallVectorImpl<QualType> &ParamTypes, QualType *FunctionType,
3190e5dd7070Spatrick TemplateDeductionInfo &Info) {
3191e5dd7070Spatrick FunctionDecl *Function = FunctionTemplate->getTemplatedDecl();
3192e5dd7070Spatrick TemplateParameterList *TemplateParams
3193e5dd7070Spatrick = FunctionTemplate->getTemplateParameters();
3194e5dd7070Spatrick
3195e5dd7070Spatrick if (ExplicitTemplateArgs.size() == 0) {
3196e5dd7070Spatrick // No arguments to substitute; just copy over the parameter types and
3197e5dd7070Spatrick // fill in the function type.
3198*12c85518Srobert for (auto *P : Function->parameters())
3199e5dd7070Spatrick ParamTypes.push_back(P->getType());
3200e5dd7070Spatrick
3201e5dd7070Spatrick if (FunctionType)
3202e5dd7070Spatrick *FunctionType = Function->getType();
3203e5dd7070Spatrick return TDK_Success;
3204e5dd7070Spatrick }
3205e5dd7070Spatrick
3206e5dd7070Spatrick // Unevaluated SFINAE context.
3207e5dd7070Spatrick EnterExpressionEvaluationContext Unevaluated(
3208e5dd7070Spatrick *this, Sema::ExpressionEvaluationContext::Unevaluated);
3209e5dd7070Spatrick SFINAETrap Trap(*this);
3210e5dd7070Spatrick
3211e5dd7070Spatrick // C++ [temp.arg.explicit]p3:
3212e5dd7070Spatrick // Template arguments that are present shall be specified in the
3213e5dd7070Spatrick // declaration order of their corresponding template-parameters. The
3214e5dd7070Spatrick // template argument list shall not specify more template-arguments than
3215e5dd7070Spatrick // there are corresponding template-parameters.
3216*12c85518Srobert SmallVector<TemplateArgument, 4> SugaredBuilder, CanonicalBuilder;
3217e5dd7070Spatrick
3218e5dd7070Spatrick // Enter a new template instantiation context where we check the
3219e5dd7070Spatrick // explicitly-specified template arguments against this function template,
3220e5dd7070Spatrick // and then substitute them into the function parameter types.
3221e5dd7070Spatrick SmallVector<TemplateArgument, 4> DeducedArgs;
3222e5dd7070Spatrick InstantiatingTemplate Inst(
3223e5dd7070Spatrick *this, Info.getLocation(), FunctionTemplate, DeducedArgs,
3224e5dd7070Spatrick CodeSynthesisContext::ExplicitTemplateArgumentSubstitution, Info);
3225e5dd7070Spatrick if (Inst.isInvalid())
3226e5dd7070Spatrick return TDK_InstantiationDepth;
3227e5dd7070Spatrick
3228e5dd7070Spatrick if (CheckTemplateArgumentList(FunctionTemplate, SourceLocation(),
3229*12c85518Srobert ExplicitTemplateArgs, true, SugaredBuilder,
3230*12c85518Srobert CanonicalBuilder,
3231*12c85518Srobert /*UpdateArgsWithConversions=*/false) ||
3232e5dd7070Spatrick Trap.hasErrorOccurred()) {
3233*12c85518Srobert unsigned Index = SugaredBuilder.size();
3234e5dd7070Spatrick if (Index >= TemplateParams->size())
3235e5dd7070Spatrick return TDK_SubstitutionFailure;
3236e5dd7070Spatrick Info.Param = makeTemplateParameter(TemplateParams->getParam(Index));
3237e5dd7070Spatrick return TDK_InvalidExplicitArguments;
3238e5dd7070Spatrick }
3239e5dd7070Spatrick
3240e5dd7070Spatrick // Form the template argument list from the explicitly-specified
3241e5dd7070Spatrick // template arguments.
3242*12c85518Srobert TemplateArgumentList *SugaredExplicitArgumentList =
3243*12c85518Srobert TemplateArgumentList::CreateCopy(Context, SugaredBuilder);
3244*12c85518Srobert TemplateArgumentList *CanonicalExplicitArgumentList =
3245*12c85518Srobert TemplateArgumentList::CreateCopy(Context, CanonicalBuilder);
3246*12c85518Srobert Info.setExplicitArgs(SugaredExplicitArgumentList,
3247*12c85518Srobert CanonicalExplicitArgumentList);
3248e5dd7070Spatrick
3249e5dd7070Spatrick // Template argument deduction and the final substitution should be
3250e5dd7070Spatrick // done in the context of the templated declaration. Explicit
3251e5dd7070Spatrick // argument substitution, on the other hand, needs to happen in the
3252e5dd7070Spatrick // calling context.
3253e5dd7070Spatrick ContextRAII SavedContext(*this, FunctionTemplate->getTemplatedDecl());
3254e5dd7070Spatrick
3255e5dd7070Spatrick // If we deduced template arguments for a template parameter pack,
3256e5dd7070Spatrick // note that the template argument pack is partially substituted and record
3257e5dd7070Spatrick // the explicit template arguments. They'll be used as part of deduction
3258e5dd7070Spatrick // for this template parameter pack.
3259e5dd7070Spatrick unsigned PartiallySubstitutedPackIndex = -1u;
3260*12c85518Srobert if (!CanonicalBuilder.empty()) {
3261*12c85518Srobert const TemplateArgument &Arg = CanonicalBuilder.back();
3262e5dd7070Spatrick if (Arg.getKind() == TemplateArgument::Pack) {
3263*12c85518Srobert auto *Param = TemplateParams->getParam(CanonicalBuilder.size() - 1);
3264e5dd7070Spatrick // If this is a fully-saturated fixed-size pack, it should be
3265e5dd7070Spatrick // fully-substituted, not partially-substituted.
3266*12c85518Srobert std::optional<unsigned> Expansions = getExpandedPackSize(Param);
3267e5dd7070Spatrick if (!Expansions || Arg.pack_size() < *Expansions) {
3268*12c85518Srobert PartiallySubstitutedPackIndex = CanonicalBuilder.size() - 1;
3269e5dd7070Spatrick CurrentInstantiationScope->SetPartiallySubstitutedPack(
3270e5dd7070Spatrick Param, Arg.pack_begin(), Arg.pack_size());
3271e5dd7070Spatrick }
3272e5dd7070Spatrick }
3273e5dd7070Spatrick }
3274e5dd7070Spatrick
3275e5dd7070Spatrick const FunctionProtoType *Proto
3276e5dd7070Spatrick = Function->getType()->getAs<FunctionProtoType>();
3277e5dd7070Spatrick assert(Proto && "Function template does not have a prototype?");
3278e5dd7070Spatrick
3279e5dd7070Spatrick // Isolate our substituted parameters from our caller.
3280e5dd7070Spatrick LocalInstantiationScope InstScope(*this, /*MergeWithOuterScope*/true);
3281e5dd7070Spatrick
3282e5dd7070Spatrick ExtParameterInfoBuilder ExtParamInfos;
3283e5dd7070Spatrick
3284*12c85518Srobert MultiLevelTemplateArgumentList MLTAL(FunctionTemplate,
3285*12c85518Srobert SugaredExplicitArgumentList->asArray(),
3286*12c85518Srobert /*Final=*/true);
3287*12c85518Srobert
3288e5dd7070Spatrick // Instantiate the types of each of the function parameters given the
3289e5dd7070Spatrick // explicitly-specified template arguments. If the function has a trailing
3290e5dd7070Spatrick // return type, substitute it after the arguments to ensure we substitute
3291e5dd7070Spatrick // in lexical order.
3292e5dd7070Spatrick if (Proto->hasTrailingReturn()) {
3293e5dd7070Spatrick if (SubstParmTypes(Function->getLocation(), Function->parameters(),
3294*12c85518Srobert Proto->getExtParameterInfosOrNull(), MLTAL, ParamTypes,
3295*12c85518Srobert /*params=*/nullptr, ExtParamInfos))
3296e5dd7070Spatrick return TDK_SubstitutionFailure;
3297e5dd7070Spatrick }
3298e5dd7070Spatrick
3299e5dd7070Spatrick // Instantiate the return type.
3300e5dd7070Spatrick QualType ResultType;
3301e5dd7070Spatrick {
3302e5dd7070Spatrick // C++11 [expr.prim.general]p3:
3303e5dd7070Spatrick // If a declaration declares a member function or member function
3304e5dd7070Spatrick // template of a class X, the expression this is a prvalue of type
3305e5dd7070Spatrick // "pointer to cv-qualifier-seq X" between the optional cv-qualifer-seq
3306e5dd7070Spatrick // and the end of the function-definition, member-declarator, or
3307e5dd7070Spatrick // declarator.
3308e5dd7070Spatrick Qualifiers ThisTypeQuals;
3309e5dd7070Spatrick CXXRecordDecl *ThisContext = nullptr;
3310e5dd7070Spatrick if (CXXMethodDecl *Method = dyn_cast<CXXMethodDecl>(Function)) {
3311e5dd7070Spatrick ThisContext = Method->getParent();
3312e5dd7070Spatrick ThisTypeQuals = Method->getMethodQualifiers();
3313e5dd7070Spatrick }
3314e5dd7070Spatrick
3315e5dd7070Spatrick CXXThisScopeRAII ThisScope(*this, ThisContext, ThisTypeQuals,
3316e5dd7070Spatrick getLangOpts().CPlusPlus11);
3317e5dd7070Spatrick
3318e5dd7070Spatrick ResultType =
3319*12c85518Srobert SubstType(Proto->getReturnType(), MLTAL,
3320e5dd7070Spatrick Function->getTypeSpecStartLoc(), Function->getDeclName());
3321e5dd7070Spatrick if (ResultType.isNull() || Trap.hasErrorOccurred())
3322e5dd7070Spatrick return TDK_SubstitutionFailure;
3323e5dd7070Spatrick // CUDA: Kernel function must have 'void' return type.
3324e5dd7070Spatrick if (getLangOpts().CUDA)
3325e5dd7070Spatrick if (Function->hasAttr<CUDAGlobalAttr>() && !ResultType->isVoidType()) {
3326e5dd7070Spatrick Diag(Function->getLocation(), diag::err_kern_type_not_void_return)
3327e5dd7070Spatrick << Function->getType() << Function->getSourceRange();
3328e5dd7070Spatrick return TDK_SubstitutionFailure;
3329e5dd7070Spatrick }
3330e5dd7070Spatrick }
3331e5dd7070Spatrick
3332e5dd7070Spatrick // Instantiate the types of each of the function parameters given the
3333e5dd7070Spatrick // explicitly-specified template arguments if we didn't do so earlier.
3334e5dd7070Spatrick if (!Proto->hasTrailingReturn() &&
3335e5dd7070Spatrick SubstParmTypes(Function->getLocation(), Function->parameters(),
3336*12c85518Srobert Proto->getExtParameterInfosOrNull(), MLTAL, ParamTypes,
3337*12c85518Srobert /*params*/ nullptr, ExtParamInfos))
3338e5dd7070Spatrick return TDK_SubstitutionFailure;
3339e5dd7070Spatrick
3340e5dd7070Spatrick if (FunctionType) {
3341e5dd7070Spatrick auto EPI = Proto->getExtProtoInfo();
3342e5dd7070Spatrick EPI.ExtParameterInfos = ExtParamInfos.getPointerOrNull(ParamTypes.size());
3343e5dd7070Spatrick
3344e5dd7070Spatrick // In C++1z onwards, exception specifications are part of the function type,
3345e5dd7070Spatrick // so substitution into the type must also substitute into the exception
3346e5dd7070Spatrick // specification.
3347e5dd7070Spatrick SmallVector<QualType, 4> ExceptionStorage;
3348e5dd7070Spatrick if (getLangOpts().CPlusPlus17 &&
3349*12c85518Srobert SubstExceptionSpec(Function->getLocation(), EPI.ExceptionSpec,
3350*12c85518Srobert ExceptionStorage, MLTAL))
3351e5dd7070Spatrick return TDK_SubstitutionFailure;
3352e5dd7070Spatrick
3353e5dd7070Spatrick *FunctionType = BuildFunctionType(ResultType, ParamTypes,
3354e5dd7070Spatrick Function->getLocation(),
3355e5dd7070Spatrick Function->getDeclName(),
3356e5dd7070Spatrick EPI);
3357e5dd7070Spatrick if (FunctionType->isNull() || Trap.hasErrorOccurred())
3358e5dd7070Spatrick return TDK_SubstitutionFailure;
3359e5dd7070Spatrick }
3360e5dd7070Spatrick
3361e5dd7070Spatrick // C++ [temp.arg.explicit]p2:
3362e5dd7070Spatrick // Trailing template arguments that can be deduced (14.8.2) may be
3363e5dd7070Spatrick // omitted from the list of explicit template-arguments. If all of the
3364e5dd7070Spatrick // template arguments can be deduced, they may all be omitted; in this
3365e5dd7070Spatrick // case, the empty template argument list <> itself may also be omitted.
3366e5dd7070Spatrick //
3367e5dd7070Spatrick // Take all of the explicitly-specified arguments and put them into
3368e5dd7070Spatrick // the set of deduced template arguments. The partially-substituted
3369e5dd7070Spatrick // parameter pack, however, will be set to NULL since the deduction
3370e5dd7070Spatrick // mechanism handles the partially-substituted argument pack directly.
3371e5dd7070Spatrick Deduced.reserve(TemplateParams->size());
3372*12c85518Srobert for (unsigned I = 0, N = SugaredExplicitArgumentList->size(); I != N; ++I) {
3373*12c85518Srobert const TemplateArgument &Arg = SugaredExplicitArgumentList->get(I);
3374e5dd7070Spatrick if (I == PartiallySubstitutedPackIndex)
3375e5dd7070Spatrick Deduced.push_back(DeducedTemplateArgument());
3376e5dd7070Spatrick else
3377e5dd7070Spatrick Deduced.push_back(Arg);
3378e5dd7070Spatrick }
3379e5dd7070Spatrick
3380e5dd7070Spatrick return TDK_Success;
3381e5dd7070Spatrick }
3382e5dd7070Spatrick
3383e5dd7070Spatrick /// Check whether the deduced argument type for a call to a function
3384e5dd7070Spatrick /// template matches the actual argument type per C++ [temp.deduct.call]p4.
3385e5dd7070Spatrick static Sema::TemplateDeductionResult
CheckOriginalCallArgDeduction(Sema & S,TemplateDeductionInfo & Info,Sema::OriginalCallArg OriginalArg,QualType DeducedA)3386e5dd7070Spatrick CheckOriginalCallArgDeduction(Sema &S, TemplateDeductionInfo &Info,
3387e5dd7070Spatrick Sema::OriginalCallArg OriginalArg,
3388e5dd7070Spatrick QualType DeducedA) {
3389e5dd7070Spatrick ASTContext &Context = S.Context;
3390e5dd7070Spatrick
3391e5dd7070Spatrick auto Failed = [&]() -> Sema::TemplateDeductionResult {
3392e5dd7070Spatrick Info.FirstArg = TemplateArgument(DeducedA);
3393e5dd7070Spatrick Info.SecondArg = TemplateArgument(OriginalArg.OriginalArgType);
3394e5dd7070Spatrick Info.CallArgIndex = OriginalArg.ArgIdx;
3395e5dd7070Spatrick return OriginalArg.DecomposedParam ? Sema::TDK_DeducedMismatchNested
3396e5dd7070Spatrick : Sema::TDK_DeducedMismatch;
3397e5dd7070Spatrick };
3398e5dd7070Spatrick
3399e5dd7070Spatrick QualType A = OriginalArg.OriginalArgType;
3400e5dd7070Spatrick QualType OriginalParamType = OriginalArg.OriginalParamType;
3401e5dd7070Spatrick
3402e5dd7070Spatrick // Check for type equality (top-level cv-qualifiers are ignored).
3403e5dd7070Spatrick if (Context.hasSameUnqualifiedType(A, DeducedA))
3404e5dd7070Spatrick return Sema::TDK_Success;
3405e5dd7070Spatrick
3406e5dd7070Spatrick // Strip off references on the argument types; they aren't needed for
3407e5dd7070Spatrick // the following checks.
3408e5dd7070Spatrick if (const ReferenceType *DeducedARef = DeducedA->getAs<ReferenceType>())
3409e5dd7070Spatrick DeducedA = DeducedARef->getPointeeType();
3410e5dd7070Spatrick if (const ReferenceType *ARef = A->getAs<ReferenceType>())
3411e5dd7070Spatrick A = ARef->getPointeeType();
3412e5dd7070Spatrick
3413e5dd7070Spatrick // C++ [temp.deduct.call]p4:
3414e5dd7070Spatrick // [...] However, there are three cases that allow a difference:
3415e5dd7070Spatrick // - If the original P is a reference type, the deduced A (i.e., the
3416e5dd7070Spatrick // type referred to by the reference) can be more cv-qualified than
3417e5dd7070Spatrick // the transformed A.
3418e5dd7070Spatrick if (const ReferenceType *OriginalParamRef
3419e5dd7070Spatrick = OriginalParamType->getAs<ReferenceType>()) {
3420e5dd7070Spatrick // We don't want to keep the reference around any more.
3421e5dd7070Spatrick OriginalParamType = OriginalParamRef->getPointeeType();
3422e5dd7070Spatrick
3423e5dd7070Spatrick // FIXME: Resolve core issue (no number yet): if the original P is a
3424e5dd7070Spatrick // reference type and the transformed A is function type "noexcept F",
3425e5dd7070Spatrick // the deduced A can be F.
3426e5dd7070Spatrick QualType Tmp;
3427e5dd7070Spatrick if (A->isFunctionType() && S.IsFunctionConversion(A, DeducedA, Tmp))
3428e5dd7070Spatrick return Sema::TDK_Success;
3429e5dd7070Spatrick
3430e5dd7070Spatrick Qualifiers AQuals = A.getQualifiers();
3431e5dd7070Spatrick Qualifiers DeducedAQuals = DeducedA.getQualifiers();
3432e5dd7070Spatrick
3433e5dd7070Spatrick // Under Objective-C++ ARC, the deduced type may have implicitly
3434e5dd7070Spatrick // been given strong or (when dealing with a const reference)
3435e5dd7070Spatrick // unsafe_unretained lifetime. If so, update the original
3436e5dd7070Spatrick // qualifiers to include this lifetime.
3437e5dd7070Spatrick if (S.getLangOpts().ObjCAutoRefCount &&
3438e5dd7070Spatrick ((DeducedAQuals.getObjCLifetime() == Qualifiers::OCL_Strong &&
3439e5dd7070Spatrick AQuals.getObjCLifetime() == Qualifiers::OCL_None) ||
3440e5dd7070Spatrick (DeducedAQuals.hasConst() &&
3441e5dd7070Spatrick DeducedAQuals.getObjCLifetime() == Qualifiers::OCL_ExplicitNone))) {
3442e5dd7070Spatrick AQuals.setObjCLifetime(DeducedAQuals.getObjCLifetime());
3443e5dd7070Spatrick }
3444e5dd7070Spatrick
3445e5dd7070Spatrick if (AQuals == DeducedAQuals) {
3446e5dd7070Spatrick // Qualifiers match; there's nothing to do.
3447e5dd7070Spatrick } else if (!DeducedAQuals.compatiblyIncludes(AQuals)) {
3448e5dd7070Spatrick return Failed();
3449e5dd7070Spatrick } else {
3450e5dd7070Spatrick // Qualifiers are compatible, so have the argument type adopt the
3451e5dd7070Spatrick // deduced argument type's qualifiers as if we had performed the
3452e5dd7070Spatrick // qualification conversion.
3453e5dd7070Spatrick A = Context.getQualifiedType(A.getUnqualifiedType(), DeducedAQuals);
3454e5dd7070Spatrick }
3455e5dd7070Spatrick }
3456e5dd7070Spatrick
3457e5dd7070Spatrick // - The transformed A can be another pointer or pointer to member
3458e5dd7070Spatrick // type that can be converted to the deduced A via a function pointer
3459e5dd7070Spatrick // conversion and/or a qualification conversion.
3460e5dd7070Spatrick //
3461e5dd7070Spatrick // Also allow conversions which merely strip __attribute__((noreturn)) from
3462e5dd7070Spatrick // function types (recursively).
3463e5dd7070Spatrick bool ObjCLifetimeConversion = false;
3464e5dd7070Spatrick QualType ResultTy;
3465e5dd7070Spatrick if ((A->isAnyPointerType() || A->isMemberPointerType()) &&
3466e5dd7070Spatrick (S.IsQualificationConversion(A, DeducedA, false,
3467e5dd7070Spatrick ObjCLifetimeConversion) ||
3468e5dd7070Spatrick S.IsFunctionConversion(A, DeducedA, ResultTy)))
3469e5dd7070Spatrick return Sema::TDK_Success;
3470e5dd7070Spatrick
3471e5dd7070Spatrick // - If P is a class and P has the form simple-template-id, then the
3472e5dd7070Spatrick // transformed A can be a derived class of the deduced A. [...]
3473e5dd7070Spatrick // [...] Likewise, if P is a pointer to a class of the form
3474e5dd7070Spatrick // simple-template-id, the transformed A can be a pointer to a
3475e5dd7070Spatrick // derived class pointed to by the deduced A.
3476e5dd7070Spatrick if (const PointerType *OriginalParamPtr
3477e5dd7070Spatrick = OriginalParamType->getAs<PointerType>()) {
3478e5dd7070Spatrick if (const PointerType *DeducedAPtr = DeducedA->getAs<PointerType>()) {
3479e5dd7070Spatrick if (const PointerType *APtr = A->getAs<PointerType>()) {
3480e5dd7070Spatrick if (A->getPointeeType()->isRecordType()) {
3481e5dd7070Spatrick OriginalParamType = OriginalParamPtr->getPointeeType();
3482e5dd7070Spatrick DeducedA = DeducedAPtr->getPointeeType();
3483e5dd7070Spatrick A = APtr->getPointeeType();
3484e5dd7070Spatrick }
3485e5dd7070Spatrick }
3486e5dd7070Spatrick }
3487e5dd7070Spatrick }
3488e5dd7070Spatrick
3489e5dd7070Spatrick if (Context.hasSameUnqualifiedType(A, DeducedA))
3490e5dd7070Spatrick return Sema::TDK_Success;
3491e5dd7070Spatrick
3492e5dd7070Spatrick if (A->isRecordType() && isSimpleTemplateIdType(OriginalParamType) &&
3493e5dd7070Spatrick S.IsDerivedFrom(Info.getLocation(), A, DeducedA))
3494e5dd7070Spatrick return Sema::TDK_Success;
3495e5dd7070Spatrick
3496e5dd7070Spatrick return Failed();
3497e5dd7070Spatrick }
3498e5dd7070Spatrick
3499e5dd7070Spatrick /// Find the pack index for a particular parameter index in an instantiation of
3500e5dd7070Spatrick /// a function template with specific arguments.
3501e5dd7070Spatrick ///
3502e5dd7070Spatrick /// \return The pack index for whichever pack produced this parameter, or -1
3503e5dd7070Spatrick /// if this was not produced by a parameter. Intended to be used as the
3504e5dd7070Spatrick /// ArgumentPackSubstitutionIndex for further substitutions.
3505e5dd7070Spatrick // FIXME: We should track this in OriginalCallArgs so we don't need to
3506e5dd7070Spatrick // reconstruct it here.
getPackIndexForParam(Sema & S,FunctionTemplateDecl * FunctionTemplate,const MultiLevelTemplateArgumentList & Args,unsigned ParamIdx)3507e5dd7070Spatrick static unsigned getPackIndexForParam(Sema &S,
3508e5dd7070Spatrick FunctionTemplateDecl *FunctionTemplate,
3509e5dd7070Spatrick const MultiLevelTemplateArgumentList &Args,
3510e5dd7070Spatrick unsigned ParamIdx) {
3511e5dd7070Spatrick unsigned Idx = 0;
3512e5dd7070Spatrick for (auto *PD : FunctionTemplate->getTemplatedDecl()->parameters()) {
3513e5dd7070Spatrick if (PD->isParameterPack()) {
3514e5dd7070Spatrick unsigned NumExpansions =
3515*12c85518Srobert S.getNumArgumentsInExpansion(PD->getType(), Args).value_or(1);
3516e5dd7070Spatrick if (Idx + NumExpansions > ParamIdx)
3517e5dd7070Spatrick return ParamIdx - Idx;
3518e5dd7070Spatrick Idx += NumExpansions;
3519e5dd7070Spatrick } else {
3520e5dd7070Spatrick if (Idx == ParamIdx)
3521e5dd7070Spatrick return -1; // Not a pack expansion
3522e5dd7070Spatrick ++Idx;
3523e5dd7070Spatrick }
3524e5dd7070Spatrick }
3525e5dd7070Spatrick
3526e5dd7070Spatrick llvm_unreachable("parameter index would not be produced from template");
3527e5dd7070Spatrick }
3528e5dd7070Spatrick
3529e5dd7070Spatrick /// Finish template argument deduction for a function template,
3530e5dd7070Spatrick /// checking the deduced template arguments for completeness and forming
3531e5dd7070Spatrick /// the function template specialization.
3532e5dd7070Spatrick ///
3533e5dd7070Spatrick /// \param OriginalCallArgs If non-NULL, the original call arguments against
3534e5dd7070Spatrick /// which the deduced argument types should be compared.
FinishTemplateArgumentDeduction(FunctionTemplateDecl * FunctionTemplate,SmallVectorImpl<DeducedTemplateArgument> & Deduced,unsigned NumExplicitlySpecified,FunctionDecl * & Specialization,TemplateDeductionInfo & Info,SmallVectorImpl<OriginalCallArg> const * OriginalCallArgs,bool PartialOverloading,llvm::function_ref<bool ()> CheckNonDependent)3535e5dd7070Spatrick Sema::TemplateDeductionResult Sema::FinishTemplateArgumentDeduction(
3536e5dd7070Spatrick FunctionTemplateDecl *FunctionTemplate,
3537e5dd7070Spatrick SmallVectorImpl<DeducedTemplateArgument> &Deduced,
3538e5dd7070Spatrick unsigned NumExplicitlySpecified, FunctionDecl *&Specialization,
3539e5dd7070Spatrick TemplateDeductionInfo &Info,
3540e5dd7070Spatrick SmallVectorImpl<OriginalCallArg> const *OriginalCallArgs,
3541e5dd7070Spatrick bool PartialOverloading, llvm::function_ref<bool()> CheckNonDependent) {
3542e5dd7070Spatrick // Unevaluated SFINAE context.
3543e5dd7070Spatrick EnterExpressionEvaluationContext Unevaluated(
3544e5dd7070Spatrick *this, Sema::ExpressionEvaluationContext::Unevaluated);
3545e5dd7070Spatrick SFINAETrap Trap(*this);
3546e5dd7070Spatrick
3547e5dd7070Spatrick // Enter a new template instantiation context while we instantiate the
3548e5dd7070Spatrick // actual function declaration.
3549e5dd7070Spatrick SmallVector<TemplateArgument, 4> DeducedArgs(Deduced.begin(), Deduced.end());
3550e5dd7070Spatrick InstantiatingTemplate Inst(
3551e5dd7070Spatrick *this, Info.getLocation(), FunctionTemplate, DeducedArgs,
3552e5dd7070Spatrick CodeSynthesisContext::DeducedTemplateArgumentSubstitution, Info);
3553e5dd7070Spatrick if (Inst.isInvalid())
3554e5dd7070Spatrick return TDK_InstantiationDepth;
3555e5dd7070Spatrick
3556e5dd7070Spatrick ContextRAII SavedContext(*this, FunctionTemplate->getTemplatedDecl());
3557e5dd7070Spatrick
3558e5dd7070Spatrick // C++ [temp.deduct.type]p2:
3559e5dd7070Spatrick // [...] or if any template argument remains neither deduced nor
3560e5dd7070Spatrick // explicitly specified, template argument deduction fails.
3561*12c85518Srobert SmallVector<TemplateArgument, 4> SugaredBuilder, CanonicalBuilder;
3562e5dd7070Spatrick if (auto Result = ConvertDeducedTemplateArguments(
3563*12c85518Srobert *this, FunctionTemplate, /*IsDeduced*/ true, Deduced, Info,
3564*12c85518Srobert SugaredBuilder, CanonicalBuilder, CurrentInstantiationScope,
3565*12c85518Srobert NumExplicitlySpecified, PartialOverloading))
3566e5dd7070Spatrick return Result;
3567e5dd7070Spatrick
3568e5dd7070Spatrick // C++ [temp.deduct.call]p10: [DR1391]
3569e5dd7070Spatrick // If deduction succeeds for all parameters that contain
3570e5dd7070Spatrick // template-parameters that participate in template argument deduction,
3571e5dd7070Spatrick // and all template arguments are explicitly specified, deduced, or
3572e5dd7070Spatrick // obtained from default template arguments, remaining parameters are then
3573e5dd7070Spatrick // compared with the corresponding arguments. For each remaining parameter
3574e5dd7070Spatrick // P with a type that was non-dependent before substitution of any
3575e5dd7070Spatrick // explicitly-specified template arguments, if the corresponding argument
3576e5dd7070Spatrick // A cannot be implicitly converted to P, deduction fails.
3577e5dd7070Spatrick if (CheckNonDependent())
3578e5dd7070Spatrick return TDK_NonDependentConversionFailure;
3579e5dd7070Spatrick
3580e5dd7070Spatrick // Form the template argument list from the deduced template arguments.
3581*12c85518Srobert TemplateArgumentList *SugaredDeducedArgumentList =
3582*12c85518Srobert TemplateArgumentList::CreateCopy(Context, SugaredBuilder);
3583*12c85518Srobert TemplateArgumentList *CanonicalDeducedArgumentList =
3584*12c85518Srobert TemplateArgumentList::CreateCopy(Context, CanonicalBuilder);
3585*12c85518Srobert Info.reset(SugaredDeducedArgumentList, CanonicalDeducedArgumentList);
3586e5dd7070Spatrick
3587e5dd7070Spatrick // Substitute the deduced template arguments into the function template
3588e5dd7070Spatrick // declaration to produce the function template specialization.
3589e5dd7070Spatrick DeclContext *Owner = FunctionTemplate->getDeclContext();
3590e5dd7070Spatrick if (FunctionTemplate->getFriendObjectKind())
3591e5dd7070Spatrick Owner = FunctionTemplate->getLexicalDeclContext();
3592*12c85518Srobert MultiLevelTemplateArgumentList SubstArgs(
3593*12c85518Srobert FunctionTemplate, CanonicalDeducedArgumentList->asArray(),
3594*12c85518Srobert /*Final=*/false);
3595e5dd7070Spatrick Specialization = cast_or_null<FunctionDecl>(
3596e5dd7070Spatrick SubstDecl(FunctionTemplate->getTemplatedDecl(), Owner, SubstArgs));
3597e5dd7070Spatrick if (!Specialization || Specialization->isInvalidDecl())
3598e5dd7070Spatrick return TDK_SubstitutionFailure;
3599e5dd7070Spatrick
3600e5dd7070Spatrick assert(Specialization->getPrimaryTemplate()->getCanonicalDecl() ==
3601e5dd7070Spatrick FunctionTemplate->getCanonicalDecl());
3602e5dd7070Spatrick
3603e5dd7070Spatrick // If the template argument list is owned by the function template
3604e5dd7070Spatrick // specialization, release it.
3605*12c85518Srobert if (Specialization->getTemplateSpecializationArgs() ==
3606*12c85518Srobert CanonicalDeducedArgumentList &&
3607e5dd7070Spatrick !Trap.hasErrorOccurred())
3608*12c85518Srobert Info.takeCanonical();
3609e5dd7070Spatrick
3610e5dd7070Spatrick // There may have been an error that did not prevent us from constructing a
3611e5dd7070Spatrick // declaration. Mark the declaration invalid and return with a substitution
3612e5dd7070Spatrick // failure.
3613e5dd7070Spatrick if (Trap.hasErrorOccurred()) {
3614e5dd7070Spatrick Specialization->setInvalidDecl(true);
3615e5dd7070Spatrick return TDK_SubstitutionFailure;
3616e5dd7070Spatrick }
3617e5dd7070Spatrick
3618e5dd7070Spatrick // C++2a [temp.deduct]p5
3619e5dd7070Spatrick // [...] When all template arguments have been deduced [...] all uses of
3620e5dd7070Spatrick // template parameters [...] are replaced with the corresponding deduced
3621e5dd7070Spatrick // or default argument values.
3622e5dd7070Spatrick // [...] If the function template has associated constraints
3623e5dd7070Spatrick // ([temp.constr.decl]), those constraints are checked for satisfaction
3624e5dd7070Spatrick // ([temp.constr.constr]). If the constraints are not satisfied, type
3625e5dd7070Spatrick // deduction fails.
3626e5dd7070Spatrick if (!PartialOverloading ||
3627*12c85518Srobert (CanonicalBuilder.size() ==
3628*12c85518Srobert FunctionTemplate->getTemplateParameters()->size())) {
3629*12c85518Srobert if (CheckInstantiatedFunctionTemplateConstraints(
3630*12c85518Srobert Info.getLocation(), Specialization, CanonicalBuilder,
3631*12c85518Srobert Info.AssociatedConstraintsSatisfaction))
3632e5dd7070Spatrick return TDK_MiscellaneousDeductionFailure;
3633e5dd7070Spatrick
3634e5dd7070Spatrick if (!Info.AssociatedConstraintsSatisfaction.IsSatisfied) {
3635*12c85518Srobert Info.reset(Info.takeSugared(),
3636*12c85518Srobert TemplateArgumentList::CreateCopy(Context, CanonicalBuilder));
3637e5dd7070Spatrick return TDK_ConstraintsNotSatisfied;
3638e5dd7070Spatrick }
3639e5dd7070Spatrick }
3640e5dd7070Spatrick
3641e5dd7070Spatrick if (OriginalCallArgs) {
3642e5dd7070Spatrick // C++ [temp.deduct.call]p4:
3643e5dd7070Spatrick // In general, the deduction process attempts to find template argument
3644e5dd7070Spatrick // values that will make the deduced A identical to A (after the type A
3645e5dd7070Spatrick // is transformed as described above). [...]
3646e5dd7070Spatrick llvm::SmallDenseMap<std::pair<unsigned, QualType>, QualType> DeducedATypes;
3647e5dd7070Spatrick for (unsigned I = 0, N = OriginalCallArgs->size(); I != N; ++I) {
3648e5dd7070Spatrick OriginalCallArg OriginalArg = (*OriginalCallArgs)[I];
3649e5dd7070Spatrick
3650e5dd7070Spatrick auto ParamIdx = OriginalArg.ArgIdx;
3651e5dd7070Spatrick if (ParamIdx >= Specialization->getNumParams())
3652e5dd7070Spatrick // FIXME: This presumably means a pack ended up smaller than we
3653e5dd7070Spatrick // expected while deducing. Should this not result in deduction
3654e5dd7070Spatrick // failure? Can it even happen?
3655e5dd7070Spatrick continue;
3656e5dd7070Spatrick
3657e5dd7070Spatrick QualType DeducedA;
3658e5dd7070Spatrick if (!OriginalArg.DecomposedParam) {
3659e5dd7070Spatrick // P is one of the function parameters, just look up its substituted
3660e5dd7070Spatrick // type.
3661e5dd7070Spatrick DeducedA = Specialization->getParamDecl(ParamIdx)->getType();
3662e5dd7070Spatrick } else {
3663e5dd7070Spatrick // P is a decomposed element of a parameter corresponding to a
3664e5dd7070Spatrick // braced-init-list argument. Substitute back into P to find the
3665e5dd7070Spatrick // deduced A.
3666e5dd7070Spatrick QualType &CacheEntry =
3667e5dd7070Spatrick DeducedATypes[{ParamIdx, OriginalArg.OriginalParamType}];
3668e5dd7070Spatrick if (CacheEntry.isNull()) {
3669e5dd7070Spatrick ArgumentPackSubstitutionIndexRAII PackIndex(
3670e5dd7070Spatrick *this, getPackIndexForParam(*this, FunctionTemplate, SubstArgs,
3671e5dd7070Spatrick ParamIdx));
3672e5dd7070Spatrick CacheEntry =
3673e5dd7070Spatrick SubstType(OriginalArg.OriginalParamType, SubstArgs,
3674e5dd7070Spatrick Specialization->getTypeSpecStartLoc(),
3675e5dd7070Spatrick Specialization->getDeclName());
3676e5dd7070Spatrick }
3677e5dd7070Spatrick DeducedA = CacheEntry;
3678e5dd7070Spatrick }
3679e5dd7070Spatrick
3680e5dd7070Spatrick if (auto TDK =
3681e5dd7070Spatrick CheckOriginalCallArgDeduction(*this, Info, OriginalArg, DeducedA))
3682e5dd7070Spatrick return TDK;
3683e5dd7070Spatrick }
3684e5dd7070Spatrick }
3685e5dd7070Spatrick
3686e5dd7070Spatrick // If we suppressed any diagnostics while performing template argument
3687e5dd7070Spatrick // deduction, and if we haven't already instantiated this declaration,
3688e5dd7070Spatrick // keep track of these diagnostics. They'll be emitted if this specialization
3689e5dd7070Spatrick // is actually used.
3690e5dd7070Spatrick if (Info.diag_begin() != Info.diag_end()) {
3691e5dd7070Spatrick SuppressedDiagnosticsMap::iterator
3692e5dd7070Spatrick Pos = SuppressedDiagnostics.find(Specialization->getCanonicalDecl());
3693e5dd7070Spatrick if (Pos == SuppressedDiagnostics.end())
3694e5dd7070Spatrick SuppressedDiagnostics[Specialization->getCanonicalDecl()]
3695e5dd7070Spatrick .append(Info.diag_begin(), Info.diag_end());
3696e5dd7070Spatrick }
3697e5dd7070Spatrick
3698e5dd7070Spatrick return TDK_Success;
3699e5dd7070Spatrick }
3700e5dd7070Spatrick
3701e5dd7070Spatrick /// Gets the type of a function for template-argument-deducton
3702e5dd7070Spatrick /// purposes when it's considered as part of an overload set.
GetTypeOfFunction(Sema & S,const OverloadExpr::FindResult & R,FunctionDecl * Fn)3703e5dd7070Spatrick static QualType GetTypeOfFunction(Sema &S, const OverloadExpr::FindResult &R,
3704e5dd7070Spatrick FunctionDecl *Fn) {
3705e5dd7070Spatrick // We may need to deduce the return type of the function now.
3706e5dd7070Spatrick if (S.getLangOpts().CPlusPlus14 && Fn->getReturnType()->isUndeducedType() &&
3707e5dd7070Spatrick S.DeduceReturnType(Fn, R.Expression->getExprLoc(), /*Diagnose*/ false))
3708e5dd7070Spatrick return {};
3709e5dd7070Spatrick
3710e5dd7070Spatrick if (CXXMethodDecl *Method = dyn_cast<CXXMethodDecl>(Fn))
3711e5dd7070Spatrick if (Method->isInstance()) {
3712e5dd7070Spatrick // An instance method that's referenced in a form that doesn't
3713e5dd7070Spatrick // look like a member pointer is just invalid.
3714e5dd7070Spatrick if (!R.HasFormOfMemberPointer)
3715e5dd7070Spatrick return {};
3716e5dd7070Spatrick
3717e5dd7070Spatrick return S.Context.getMemberPointerType(Fn->getType(),
3718e5dd7070Spatrick S.Context.getTypeDeclType(Method->getParent()).getTypePtr());
3719e5dd7070Spatrick }
3720e5dd7070Spatrick
3721e5dd7070Spatrick if (!R.IsAddressOfOperand) return Fn->getType();
3722e5dd7070Spatrick return S.Context.getPointerType(Fn->getType());
3723e5dd7070Spatrick }
3724e5dd7070Spatrick
3725e5dd7070Spatrick /// Apply the deduction rules for overload sets.
3726e5dd7070Spatrick ///
3727e5dd7070Spatrick /// \return the null type if this argument should be treated as an
3728e5dd7070Spatrick /// undeduced context
3729e5dd7070Spatrick static QualType
ResolveOverloadForDeduction(Sema & S,TemplateParameterList * TemplateParams,Expr * Arg,QualType ParamType,bool ParamWasReference)3730e5dd7070Spatrick ResolveOverloadForDeduction(Sema &S, TemplateParameterList *TemplateParams,
3731e5dd7070Spatrick Expr *Arg, QualType ParamType,
3732e5dd7070Spatrick bool ParamWasReference) {
3733e5dd7070Spatrick
3734e5dd7070Spatrick OverloadExpr::FindResult R = OverloadExpr::find(Arg);
3735e5dd7070Spatrick
3736e5dd7070Spatrick OverloadExpr *Ovl = R.Expression;
3737e5dd7070Spatrick
3738e5dd7070Spatrick // C++0x [temp.deduct.call]p4
3739e5dd7070Spatrick unsigned TDF = 0;
3740e5dd7070Spatrick if (ParamWasReference)
3741e5dd7070Spatrick TDF |= TDF_ParamWithReferenceType;
3742e5dd7070Spatrick if (R.IsAddressOfOperand)
3743e5dd7070Spatrick TDF |= TDF_IgnoreQualifiers;
3744e5dd7070Spatrick
3745e5dd7070Spatrick // C++0x [temp.deduct.call]p6:
3746e5dd7070Spatrick // When P is a function type, pointer to function type, or pointer
3747e5dd7070Spatrick // to member function type:
3748e5dd7070Spatrick
3749e5dd7070Spatrick if (!ParamType->isFunctionType() &&
3750e5dd7070Spatrick !ParamType->isFunctionPointerType() &&
3751e5dd7070Spatrick !ParamType->isMemberFunctionPointerType()) {
3752e5dd7070Spatrick if (Ovl->hasExplicitTemplateArgs()) {
3753e5dd7070Spatrick // But we can still look for an explicit specialization.
3754e5dd7070Spatrick if (FunctionDecl *ExplicitSpec
3755e5dd7070Spatrick = S.ResolveSingleFunctionTemplateSpecialization(Ovl))
3756e5dd7070Spatrick return GetTypeOfFunction(S, R, ExplicitSpec);
3757e5dd7070Spatrick }
3758e5dd7070Spatrick
3759e5dd7070Spatrick DeclAccessPair DAP;
3760e5dd7070Spatrick if (FunctionDecl *Viable =
3761e5dd7070Spatrick S.resolveAddressOfSingleOverloadCandidate(Arg, DAP))
3762e5dd7070Spatrick return GetTypeOfFunction(S, R, Viable);
3763e5dd7070Spatrick
3764e5dd7070Spatrick return {};
3765e5dd7070Spatrick }
3766e5dd7070Spatrick
3767e5dd7070Spatrick // Gather the explicit template arguments, if any.
3768e5dd7070Spatrick TemplateArgumentListInfo ExplicitTemplateArgs;
3769e5dd7070Spatrick if (Ovl->hasExplicitTemplateArgs())
3770e5dd7070Spatrick Ovl->copyTemplateArgumentsInto(ExplicitTemplateArgs);
3771e5dd7070Spatrick QualType Match;
3772e5dd7070Spatrick for (UnresolvedSetIterator I = Ovl->decls_begin(),
3773e5dd7070Spatrick E = Ovl->decls_end(); I != E; ++I) {
3774e5dd7070Spatrick NamedDecl *D = (*I)->getUnderlyingDecl();
3775e5dd7070Spatrick
3776e5dd7070Spatrick if (FunctionTemplateDecl *FunTmpl = dyn_cast<FunctionTemplateDecl>(D)) {
3777e5dd7070Spatrick // - If the argument is an overload set containing one or more
3778e5dd7070Spatrick // function templates, the parameter is treated as a
3779e5dd7070Spatrick // non-deduced context.
3780e5dd7070Spatrick if (!Ovl->hasExplicitTemplateArgs())
3781e5dd7070Spatrick return {};
3782e5dd7070Spatrick
3783e5dd7070Spatrick // Otherwise, see if we can resolve a function type
3784e5dd7070Spatrick FunctionDecl *Specialization = nullptr;
3785e5dd7070Spatrick TemplateDeductionInfo Info(Ovl->getNameLoc());
3786e5dd7070Spatrick if (S.DeduceTemplateArguments(FunTmpl, &ExplicitTemplateArgs,
3787e5dd7070Spatrick Specialization, Info))
3788e5dd7070Spatrick continue;
3789e5dd7070Spatrick
3790e5dd7070Spatrick D = Specialization;
3791e5dd7070Spatrick }
3792e5dd7070Spatrick
3793e5dd7070Spatrick FunctionDecl *Fn = cast<FunctionDecl>(D);
3794e5dd7070Spatrick QualType ArgType = GetTypeOfFunction(S, R, Fn);
3795e5dd7070Spatrick if (ArgType.isNull()) continue;
3796e5dd7070Spatrick
3797e5dd7070Spatrick // Function-to-pointer conversion.
3798e5dd7070Spatrick if (!ParamWasReference && ParamType->isPointerType() &&
3799e5dd7070Spatrick ArgType->isFunctionType())
3800e5dd7070Spatrick ArgType = S.Context.getPointerType(ArgType);
3801e5dd7070Spatrick
3802e5dd7070Spatrick // - If the argument is an overload set (not containing function
3803e5dd7070Spatrick // templates), trial argument deduction is attempted using each
3804e5dd7070Spatrick // of the members of the set. If deduction succeeds for only one
3805e5dd7070Spatrick // of the overload set members, that member is used as the
3806e5dd7070Spatrick // argument value for the deduction. If deduction succeeds for
3807e5dd7070Spatrick // more than one member of the overload set the parameter is
3808e5dd7070Spatrick // treated as a non-deduced context.
3809e5dd7070Spatrick
3810e5dd7070Spatrick // We do all of this in a fresh context per C++0x [temp.deduct.type]p2:
3811e5dd7070Spatrick // Type deduction is done independently for each P/A pair, and
3812e5dd7070Spatrick // the deduced template argument values are then combined.
3813e5dd7070Spatrick // So we do not reject deductions which were made elsewhere.
3814e5dd7070Spatrick SmallVector<DeducedTemplateArgument, 8>
3815e5dd7070Spatrick Deduced(TemplateParams->size());
3816e5dd7070Spatrick TemplateDeductionInfo Info(Ovl->getNameLoc());
3817e5dd7070Spatrick Sema::TemplateDeductionResult Result
3818e5dd7070Spatrick = DeduceTemplateArgumentsByTypeMatch(S, TemplateParams, ParamType,
3819e5dd7070Spatrick ArgType, Info, Deduced, TDF);
3820e5dd7070Spatrick if (Result) continue;
3821e5dd7070Spatrick if (!Match.isNull())
3822e5dd7070Spatrick return {};
3823e5dd7070Spatrick Match = ArgType;
3824e5dd7070Spatrick }
3825e5dd7070Spatrick
3826e5dd7070Spatrick return Match;
3827e5dd7070Spatrick }
3828e5dd7070Spatrick
3829e5dd7070Spatrick /// Perform the adjustments to the parameter and argument types
3830e5dd7070Spatrick /// described in C++ [temp.deduct.call].
3831e5dd7070Spatrick ///
3832e5dd7070Spatrick /// \returns true if the caller should not attempt to perform any template
3833e5dd7070Spatrick /// argument deduction based on this P/A pair because the argument is an
3834e5dd7070Spatrick /// overloaded function set that could not be resolved.
AdjustFunctionParmAndArgTypesForDeduction(Sema & S,TemplateParameterList * TemplateParams,unsigned FirstInnerIndex,QualType & ParamType,QualType & ArgType,Expr * Arg,unsigned & TDF)3835e5dd7070Spatrick static bool AdjustFunctionParmAndArgTypesForDeduction(
3836e5dd7070Spatrick Sema &S, TemplateParameterList *TemplateParams, unsigned FirstInnerIndex,
3837e5dd7070Spatrick QualType &ParamType, QualType &ArgType, Expr *Arg, unsigned &TDF) {
3838e5dd7070Spatrick // C++0x [temp.deduct.call]p3:
3839e5dd7070Spatrick // If P is a cv-qualified type, the top level cv-qualifiers of P's type
3840e5dd7070Spatrick // are ignored for type deduction.
3841e5dd7070Spatrick if (ParamType.hasQualifiers())
3842e5dd7070Spatrick ParamType = ParamType.getUnqualifiedType();
3843e5dd7070Spatrick
3844e5dd7070Spatrick // [...] If P is a reference type, the type referred to by P is
3845e5dd7070Spatrick // used for type deduction.
3846e5dd7070Spatrick const ReferenceType *ParamRefType = ParamType->getAs<ReferenceType>();
3847e5dd7070Spatrick if (ParamRefType)
3848e5dd7070Spatrick ParamType = ParamRefType->getPointeeType();
3849e5dd7070Spatrick
3850e5dd7070Spatrick // Overload sets usually make this parameter an undeduced context,
3851e5dd7070Spatrick // but there are sometimes special circumstances. Typically
3852e5dd7070Spatrick // involving a template-id-expr.
3853e5dd7070Spatrick if (ArgType == S.Context.OverloadTy) {
3854e5dd7070Spatrick ArgType = ResolveOverloadForDeduction(S, TemplateParams,
3855e5dd7070Spatrick Arg, ParamType,
3856e5dd7070Spatrick ParamRefType != nullptr);
3857e5dd7070Spatrick if (ArgType.isNull())
3858e5dd7070Spatrick return true;
3859e5dd7070Spatrick }
3860e5dd7070Spatrick
3861e5dd7070Spatrick if (ParamRefType) {
3862e5dd7070Spatrick // If the argument has incomplete array type, try to complete its type.
3863a9ac8606Spatrick if (ArgType->isIncompleteArrayType())
3864a9ac8606Spatrick ArgType = S.getCompletedType(Arg);
3865e5dd7070Spatrick
3866e5dd7070Spatrick // C++1z [temp.deduct.call]p3:
3867e5dd7070Spatrick // If P is a forwarding reference and the argument is an lvalue, the type
3868e5dd7070Spatrick // "lvalue reference to A" is used in place of A for type deduction.
3869e5dd7070Spatrick if (isForwardingReference(QualType(ParamRefType, 0), FirstInnerIndex) &&
3870a9ac8606Spatrick Arg->isLValue()) {
3871a9ac8606Spatrick if (S.getLangOpts().OpenCL && !ArgType.hasAddressSpace())
3872*12c85518Srobert ArgType = S.Context.getAddrSpaceQualType(
3873*12c85518Srobert ArgType, S.Context.getDefaultOpenCLPointeeAddrSpace());
3874e5dd7070Spatrick ArgType = S.Context.getLValueReferenceType(ArgType);
3875a9ac8606Spatrick }
3876e5dd7070Spatrick } else {
3877e5dd7070Spatrick // C++ [temp.deduct.call]p2:
3878e5dd7070Spatrick // If P is not a reference type:
3879e5dd7070Spatrick // - If A is an array type, the pointer type produced by the
3880e5dd7070Spatrick // array-to-pointer standard conversion (4.2) is used in place of
3881e5dd7070Spatrick // A for type deduction; otherwise,
3882e5dd7070Spatrick // - If A is a function type, the pointer type produced by the
3883e5dd7070Spatrick // function-to-pointer standard conversion (4.3) is used in place
3884e5dd7070Spatrick // of A for type deduction; otherwise,
3885*12c85518Srobert if (ArgType->canDecayToPointerType())
3886*12c85518Srobert ArgType = S.Context.getDecayedType(ArgType);
3887e5dd7070Spatrick else {
3888e5dd7070Spatrick // - If A is a cv-qualified type, the top level cv-qualifiers of A's
3889e5dd7070Spatrick // type are ignored for type deduction.
3890e5dd7070Spatrick ArgType = ArgType.getUnqualifiedType();
3891e5dd7070Spatrick }
3892e5dd7070Spatrick }
3893e5dd7070Spatrick
3894e5dd7070Spatrick // C++0x [temp.deduct.call]p4:
3895e5dd7070Spatrick // In general, the deduction process attempts to find template argument
3896e5dd7070Spatrick // values that will make the deduced A identical to A (after the type A
3897e5dd7070Spatrick // is transformed as described above). [...]
3898e5dd7070Spatrick TDF = TDF_SkipNonDependent;
3899e5dd7070Spatrick
3900e5dd7070Spatrick // - If the original P is a reference type, the deduced A (i.e., the
3901e5dd7070Spatrick // type referred to by the reference) can be more cv-qualified than
3902e5dd7070Spatrick // the transformed A.
3903e5dd7070Spatrick if (ParamRefType)
3904e5dd7070Spatrick TDF |= TDF_ParamWithReferenceType;
3905e5dd7070Spatrick // - The transformed A can be another pointer or pointer to member
3906e5dd7070Spatrick // type that can be converted to the deduced A via a qualification
3907e5dd7070Spatrick // conversion (4.4).
3908e5dd7070Spatrick if (ArgType->isPointerType() || ArgType->isMemberPointerType() ||
3909e5dd7070Spatrick ArgType->isObjCObjectPointerType())
3910e5dd7070Spatrick TDF |= TDF_IgnoreQualifiers;
3911e5dd7070Spatrick // - If P is a class and P has the form simple-template-id, then the
3912e5dd7070Spatrick // transformed A can be a derived class of the deduced A. Likewise,
3913e5dd7070Spatrick // if P is a pointer to a class of the form simple-template-id, the
3914e5dd7070Spatrick // transformed A can be a pointer to a derived class pointed to by
3915e5dd7070Spatrick // the deduced A.
3916e5dd7070Spatrick if (isSimpleTemplateIdType(ParamType) ||
3917e5dd7070Spatrick (isa<PointerType>(ParamType) &&
3918e5dd7070Spatrick isSimpleTemplateIdType(
3919a9ac8606Spatrick ParamType->castAs<PointerType>()->getPointeeType())))
3920e5dd7070Spatrick TDF |= TDF_DerivedClass;
3921e5dd7070Spatrick
3922e5dd7070Spatrick return false;
3923e5dd7070Spatrick }
3924e5dd7070Spatrick
3925e5dd7070Spatrick static bool
3926e5dd7070Spatrick hasDeducibleTemplateParameters(Sema &S, FunctionTemplateDecl *FunctionTemplate,
3927e5dd7070Spatrick QualType T);
3928e5dd7070Spatrick
3929e5dd7070Spatrick static Sema::TemplateDeductionResult DeduceTemplateArgumentsFromCallArgument(
3930e5dd7070Spatrick Sema &S, TemplateParameterList *TemplateParams, unsigned FirstInnerIndex,
3931e5dd7070Spatrick QualType ParamType, Expr *Arg, TemplateDeductionInfo &Info,
3932e5dd7070Spatrick SmallVectorImpl<DeducedTemplateArgument> &Deduced,
3933e5dd7070Spatrick SmallVectorImpl<Sema::OriginalCallArg> &OriginalCallArgs,
3934e5dd7070Spatrick bool DecomposedParam, unsigned ArgIdx, unsigned TDF);
3935e5dd7070Spatrick
3936e5dd7070Spatrick /// Attempt template argument deduction from an initializer list
3937e5dd7070Spatrick /// deemed to be an argument in a function call.
DeduceFromInitializerList(Sema & S,TemplateParameterList * TemplateParams,QualType AdjustedParamType,InitListExpr * ILE,TemplateDeductionInfo & Info,SmallVectorImpl<DeducedTemplateArgument> & Deduced,SmallVectorImpl<Sema::OriginalCallArg> & OriginalCallArgs,unsigned ArgIdx,unsigned TDF)3938e5dd7070Spatrick static Sema::TemplateDeductionResult DeduceFromInitializerList(
3939e5dd7070Spatrick Sema &S, TemplateParameterList *TemplateParams, QualType AdjustedParamType,
3940e5dd7070Spatrick InitListExpr *ILE, TemplateDeductionInfo &Info,
3941e5dd7070Spatrick SmallVectorImpl<DeducedTemplateArgument> &Deduced,
3942e5dd7070Spatrick SmallVectorImpl<Sema::OriginalCallArg> &OriginalCallArgs, unsigned ArgIdx,
3943e5dd7070Spatrick unsigned TDF) {
3944e5dd7070Spatrick // C++ [temp.deduct.call]p1: (CWG 1591)
3945e5dd7070Spatrick // If removing references and cv-qualifiers from P gives
3946e5dd7070Spatrick // std::initializer_list<P0> or P0[N] for some P0 and N and the argument is
3947e5dd7070Spatrick // a non-empty initializer list, then deduction is performed instead for
3948e5dd7070Spatrick // each element of the initializer list, taking P0 as a function template
3949e5dd7070Spatrick // parameter type and the initializer element as its argument
3950e5dd7070Spatrick //
3951e5dd7070Spatrick // We've already removed references and cv-qualifiers here.
3952e5dd7070Spatrick if (!ILE->getNumInits())
3953e5dd7070Spatrick return Sema::TDK_Success;
3954e5dd7070Spatrick
3955e5dd7070Spatrick QualType ElTy;
3956e5dd7070Spatrick auto *ArrTy = S.Context.getAsArrayType(AdjustedParamType);
3957e5dd7070Spatrick if (ArrTy)
3958e5dd7070Spatrick ElTy = ArrTy->getElementType();
3959e5dd7070Spatrick else if (!S.isStdInitializerList(AdjustedParamType, &ElTy)) {
3960e5dd7070Spatrick // Otherwise, an initializer list argument causes the parameter to be
3961e5dd7070Spatrick // considered a non-deduced context
3962e5dd7070Spatrick return Sema::TDK_Success;
3963e5dd7070Spatrick }
3964e5dd7070Spatrick
3965e5dd7070Spatrick // Resolving a core issue: a braced-init-list containing any designators is
3966e5dd7070Spatrick // a non-deduced context.
3967e5dd7070Spatrick for (Expr *E : ILE->inits())
3968e5dd7070Spatrick if (isa<DesignatedInitExpr>(E))
3969e5dd7070Spatrick return Sema::TDK_Success;
3970e5dd7070Spatrick
3971e5dd7070Spatrick // Deduction only needs to be done for dependent types.
3972e5dd7070Spatrick if (ElTy->isDependentType()) {
3973e5dd7070Spatrick for (Expr *E : ILE->inits()) {
3974e5dd7070Spatrick if (auto Result = DeduceTemplateArgumentsFromCallArgument(
3975e5dd7070Spatrick S, TemplateParams, 0, ElTy, E, Info, Deduced, OriginalCallArgs, true,
3976e5dd7070Spatrick ArgIdx, TDF))
3977e5dd7070Spatrick return Result;
3978e5dd7070Spatrick }
3979e5dd7070Spatrick }
3980e5dd7070Spatrick
3981e5dd7070Spatrick // in the P0[N] case, if N is a non-type template parameter, N is deduced
3982e5dd7070Spatrick // from the length of the initializer list.
3983e5dd7070Spatrick if (auto *DependentArrTy = dyn_cast_or_null<DependentSizedArrayType>(ArrTy)) {
3984e5dd7070Spatrick // Determine the array bound is something we can deduce.
3985a9ac8606Spatrick if (const NonTypeTemplateParmDecl *NTTP =
3986e5dd7070Spatrick getDeducedParameterFromExpr(Info, DependentArrTy->getSizeExpr())) {
3987e5dd7070Spatrick // We can perform template argument deduction for the given non-type
3988e5dd7070Spatrick // template parameter.
3989e5dd7070Spatrick // C++ [temp.deduct.type]p13:
3990e5dd7070Spatrick // The type of N in the type T[N] is std::size_t.
3991e5dd7070Spatrick QualType T = S.Context.getSizeType();
3992e5dd7070Spatrick llvm::APInt Size(S.Context.getIntWidth(T), ILE->getNumInits());
3993e5dd7070Spatrick if (auto Result = DeduceNonTypeTemplateArgument(
3994e5dd7070Spatrick S, TemplateParams, NTTP, llvm::APSInt(Size), T,
3995e5dd7070Spatrick /*ArrayBound=*/true, Info, Deduced))
3996e5dd7070Spatrick return Result;
3997e5dd7070Spatrick }
3998e5dd7070Spatrick }
3999e5dd7070Spatrick
4000e5dd7070Spatrick return Sema::TDK_Success;
4001e5dd7070Spatrick }
4002e5dd7070Spatrick
4003e5dd7070Spatrick /// Perform template argument deduction per [temp.deduct.call] for a
4004e5dd7070Spatrick /// single parameter / argument pair.
DeduceTemplateArgumentsFromCallArgument(Sema & S,TemplateParameterList * TemplateParams,unsigned FirstInnerIndex,QualType ParamType,Expr * Arg,TemplateDeductionInfo & Info,SmallVectorImpl<DeducedTemplateArgument> & Deduced,SmallVectorImpl<Sema::OriginalCallArg> & OriginalCallArgs,bool DecomposedParam,unsigned ArgIdx,unsigned TDF)4005e5dd7070Spatrick static Sema::TemplateDeductionResult DeduceTemplateArgumentsFromCallArgument(
4006e5dd7070Spatrick Sema &S, TemplateParameterList *TemplateParams, unsigned FirstInnerIndex,
4007e5dd7070Spatrick QualType ParamType, Expr *Arg, TemplateDeductionInfo &Info,
4008e5dd7070Spatrick SmallVectorImpl<DeducedTemplateArgument> &Deduced,
4009e5dd7070Spatrick SmallVectorImpl<Sema::OriginalCallArg> &OriginalCallArgs,
4010e5dd7070Spatrick bool DecomposedParam, unsigned ArgIdx, unsigned TDF) {
4011e5dd7070Spatrick QualType ArgType = Arg->getType();
4012e5dd7070Spatrick QualType OrigParamType = ParamType;
4013e5dd7070Spatrick
4014e5dd7070Spatrick // If P is a reference type [...]
4015e5dd7070Spatrick // If P is a cv-qualified type [...]
4016e5dd7070Spatrick if (AdjustFunctionParmAndArgTypesForDeduction(
4017e5dd7070Spatrick S, TemplateParams, FirstInnerIndex, ParamType, ArgType, Arg, TDF))
4018e5dd7070Spatrick return Sema::TDK_Success;
4019e5dd7070Spatrick
4020e5dd7070Spatrick // If [...] the argument is a non-empty initializer list [...]
4021e5dd7070Spatrick if (InitListExpr *ILE = dyn_cast<InitListExpr>(Arg))
4022e5dd7070Spatrick return DeduceFromInitializerList(S, TemplateParams, ParamType, ILE, Info,
4023e5dd7070Spatrick Deduced, OriginalCallArgs, ArgIdx, TDF);
4024e5dd7070Spatrick
4025e5dd7070Spatrick // [...] the deduction process attempts to find template argument values
4026e5dd7070Spatrick // that will make the deduced A identical to A
4027e5dd7070Spatrick //
4028e5dd7070Spatrick // Keep track of the argument type and corresponding parameter index,
4029e5dd7070Spatrick // so we can check for compatibility between the deduced A and A.
4030e5dd7070Spatrick OriginalCallArgs.push_back(
4031e5dd7070Spatrick Sema::OriginalCallArg(OrigParamType, DecomposedParam, ArgIdx, ArgType));
4032e5dd7070Spatrick return DeduceTemplateArgumentsByTypeMatch(S, TemplateParams, ParamType,
4033e5dd7070Spatrick ArgType, Info, Deduced, TDF);
4034e5dd7070Spatrick }
4035e5dd7070Spatrick
4036e5dd7070Spatrick /// Perform template argument deduction from a function call
4037e5dd7070Spatrick /// (C++ [temp.deduct.call]).
4038e5dd7070Spatrick ///
4039e5dd7070Spatrick /// \param FunctionTemplate the function template for which we are performing
4040e5dd7070Spatrick /// template argument deduction.
4041e5dd7070Spatrick ///
4042e5dd7070Spatrick /// \param ExplicitTemplateArgs the explicit template arguments provided
4043e5dd7070Spatrick /// for this call.
4044e5dd7070Spatrick ///
4045e5dd7070Spatrick /// \param Args the function call arguments
4046e5dd7070Spatrick ///
4047e5dd7070Spatrick /// \param Specialization if template argument deduction was successful,
4048e5dd7070Spatrick /// this will be set to the function template specialization produced by
4049e5dd7070Spatrick /// template argument deduction.
4050e5dd7070Spatrick ///
4051e5dd7070Spatrick /// \param Info the argument will be updated to provide additional information
4052e5dd7070Spatrick /// about template argument deduction.
4053e5dd7070Spatrick ///
4054e5dd7070Spatrick /// \param CheckNonDependent A callback to invoke to check conversions for
4055e5dd7070Spatrick /// non-dependent parameters, between deduction and substitution, per DR1391.
4056e5dd7070Spatrick /// If this returns true, substitution will be skipped and we return
4057e5dd7070Spatrick /// TDK_NonDependentConversionFailure. The callback is passed the parameter
4058e5dd7070Spatrick /// types (after substituting explicit template arguments).
4059e5dd7070Spatrick ///
4060e5dd7070Spatrick /// \returns the result of template argument deduction.
DeduceTemplateArguments(FunctionTemplateDecl * FunctionTemplate,TemplateArgumentListInfo * ExplicitTemplateArgs,ArrayRef<Expr * > Args,FunctionDecl * & Specialization,TemplateDeductionInfo & Info,bool PartialOverloading,llvm::function_ref<bool (ArrayRef<QualType>)> CheckNonDependent)4061e5dd7070Spatrick Sema::TemplateDeductionResult Sema::DeduceTemplateArguments(
4062e5dd7070Spatrick FunctionTemplateDecl *FunctionTemplate,
4063e5dd7070Spatrick TemplateArgumentListInfo *ExplicitTemplateArgs, ArrayRef<Expr *> Args,
4064e5dd7070Spatrick FunctionDecl *&Specialization, TemplateDeductionInfo &Info,
4065e5dd7070Spatrick bool PartialOverloading,
4066e5dd7070Spatrick llvm::function_ref<bool(ArrayRef<QualType>)> CheckNonDependent) {
4067e5dd7070Spatrick if (FunctionTemplate->isInvalidDecl())
4068e5dd7070Spatrick return TDK_Invalid;
4069e5dd7070Spatrick
4070e5dd7070Spatrick FunctionDecl *Function = FunctionTemplate->getTemplatedDecl();
4071e5dd7070Spatrick unsigned NumParams = Function->getNumParams();
4072e5dd7070Spatrick
4073e5dd7070Spatrick unsigned FirstInnerIndex = getFirstInnerIndex(FunctionTemplate);
4074e5dd7070Spatrick
4075e5dd7070Spatrick // C++ [temp.deduct.call]p1:
4076e5dd7070Spatrick // Template argument deduction is done by comparing each function template
4077e5dd7070Spatrick // parameter type (call it P) with the type of the corresponding argument
4078e5dd7070Spatrick // of the call (call it A) as described below.
4079e5dd7070Spatrick if (Args.size() < Function->getMinRequiredArguments() && !PartialOverloading)
4080e5dd7070Spatrick return TDK_TooFewArguments;
4081e5dd7070Spatrick else if (TooManyArguments(NumParams, Args.size(), PartialOverloading)) {
4082e5dd7070Spatrick const auto *Proto = Function->getType()->castAs<FunctionProtoType>();
4083e5dd7070Spatrick if (Proto->isTemplateVariadic())
4084e5dd7070Spatrick /* Do nothing */;
4085e5dd7070Spatrick else if (!Proto->isVariadic())
4086e5dd7070Spatrick return TDK_TooManyArguments;
4087e5dd7070Spatrick }
4088e5dd7070Spatrick
4089e5dd7070Spatrick // The types of the parameters from which we will perform template argument
4090e5dd7070Spatrick // deduction.
4091e5dd7070Spatrick LocalInstantiationScope InstScope(*this);
4092e5dd7070Spatrick TemplateParameterList *TemplateParams
4093e5dd7070Spatrick = FunctionTemplate->getTemplateParameters();
4094e5dd7070Spatrick SmallVector<DeducedTemplateArgument, 4> Deduced;
4095e5dd7070Spatrick SmallVector<QualType, 8> ParamTypes;
4096e5dd7070Spatrick unsigned NumExplicitlySpecified = 0;
4097e5dd7070Spatrick if (ExplicitTemplateArgs) {
4098ec727ea7Spatrick TemplateDeductionResult Result;
4099ec727ea7Spatrick runWithSufficientStackSpace(Info.getLocation(), [&] {
4100ec727ea7Spatrick Result = SubstituteExplicitTemplateArguments(
4101ec727ea7Spatrick FunctionTemplate, *ExplicitTemplateArgs, Deduced, ParamTypes, nullptr,
4102e5dd7070Spatrick Info);
4103ec727ea7Spatrick });
4104e5dd7070Spatrick if (Result)
4105e5dd7070Spatrick return Result;
4106e5dd7070Spatrick
4107e5dd7070Spatrick NumExplicitlySpecified = Deduced.size();
4108e5dd7070Spatrick } else {
4109e5dd7070Spatrick // Just fill in the parameter types from the function declaration.
4110e5dd7070Spatrick for (unsigned I = 0; I != NumParams; ++I)
4111e5dd7070Spatrick ParamTypes.push_back(Function->getParamDecl(I)->getType());
4112e5dd7070Spatrick }
4113e5dd7070Spatrick
4114e5dd7070Spatrick SmallVector<OriginalCallArg, 8> OriginalCallArgs;
4115e5dd7070Spatrick
4116e5dd7070Spatrick // Deduce an argument of type ParamType from an expression with index ArgIdx.
4117e5dd7070Spatrick auto DeduceCallArgument = [&](QualType ParamType, unsigned ArgIdx) {
4118e5dd7070Spatrick // C++ [demp.deduct.call]p1: (DR1391)
4119e5dd7070Spatrick // Template argument deduction is done by comparing each function template
4120e5dd7070Spatrick // parameter that contains template-parameters that participate in
4121e5dd7070Spatrick // template argument deduction ...
4122e5dd7070Spatrick if (!hasDeducibleTemplateParameters(*this, FunctionTemplate, ParamType))
4123e5dd7070Spatrick return Sema::TDK_Success;
4124e5dd7070Spatrick
4125e5dd7070Spatrick // ... with the type of the corresponding argument
4126e5dd7070Spatrick return DeduceTemplateArgumentsFromCallArgument(
4127e5dd7070Spatrick *this, TemplateParams, FirstInnerIndex, ParamType, Args[ArgIdx], Info, Deduced,
4128e5dd7070Spatrick OriginalCallArgs, /*Decomposed*/false, ArgIdx, /*TDF*/ 0);
4129e5dd7070Spatrick };
4130e5dd7070Spatrick
4131e5dd7070Spatrick // Deduce template arguments from the function parameters.
4132e5dd7070Spatrick Deduced.resize(TemplateParams->size());
4133e5dd7070Spatrick SmallVector<QualType, 8> ParamTypesForArgChecking;
4134e5dd7070Spatrick for (unsigned ParamIdx = 0, NumParamTypes = ParamTypes.size(), ArgIdx = 0;
4135e5dd7070Spatrick ParamIdx != NumParamTypes; ++ParamIdx) {
4136e5dd7070Spatrick QualType ParamType = ParamTypes[ParamIdx];
4137e5dd7070Spatrick
4138e5dd7070Spatrick const PackExpansionType *ParamExpansion =
4139e5dd7070Spatrick dyn_cast<PackExpansionType>(ParamType);
4140e5dd7070Spatrick if (!ParamExpansion) {
4141e5dd7070Spatrick // Simple case: matching a function parameter to a function argument.
4142e5dd7070Spatrick if (ArgIdx >= Args.size())
4143e5dd7070Spatrick break;
4144e5dd7070Spatrick
4145e5dd7070Spatrick ParamTypesForArgChecking.push_back(ParamType);
4146e5dd7070Spatrick if (auto Result = DeduceCallArgument(ParamType, ArgIdx++))
4147e5dd7070Spatrick return Result;
4148e5dd7070Spatrick
4149e5dd7070Spatrick continue;
4150e5dd7070Spatrick }
4151e5dd7070Spatrick
4152e5dd7070Spatrick QualType ParamPattern = ParamExpansion->getPattern();
4153e5dd7070Spatrick PackDeductionScope PackScope(*this, TemplateParams, Deduced, Info,
4154e5dd7070Spatrick ParamPattern);
4155e5dd7070Spatrick
4156e5dd7070Spatrick // C++0x [temp.deduct.call]p1:
4157e5dd7070Spatrick // For a function parameter pack that occurs at the end of the
4158e5dd7070Spatrick // parameter-declaration-list, the type A of each remaining argument of
4159e5dd7070Spatrick // the call is compared with the type P of the declarator-id of the
4160e5dd7070Spatrick // function parameter pack. Each comparison deduces template arguments
4161e5dd7070Spatrick // for subsequent positions in the template parameter packs expanded by
4162e5dd7070Spatrick // the function parameter pack. When a function parameter pack appears
4163e5dd7070Spatrick // in a non-deduced context [not at the end of the list], the type of
4164e5dd7070Spatrick // that parameter pack is never deduced.
4165e5dd7070Spatrick //
4166e5dd7070Spatrick // FIXME: The above rule allows the size of the parameter pack to change
4167e5dd7070Spatrick // after we skip it (in the non-deduced case). That makes no sense, so
4168e5dd7070Spatrick // we instead notionally deduce the pack against N arguments, where N is
4169e5dd7070Spatrick // the length of the explicitly-specified pack if it's expanded by the
4170e5dd7070Spatrick // parameter pack and 0 otherwise, and we treat each deduction as a
4171e5dd7070Spatrick // non-deduced context.
4172e5dd7070Spatrick if (ParamIdx + 1 == NumParamTypes || PackScope.hasFixedArity()) {
4173e5dd7070Spatrick for (; ArgIdx < Args.size() && PackScope.hasNextElement();
4174e5dd7070Spatrick PackScope.nextPackElement(), ++ArgIdx) {
4175e5dd7070Spatrick ParamTypesForArgChecking.push_back(ParamPattern);
4176e5dd7070Spatrick if (auto Result = DeduceCallArgument(ParamPattern, ArgIdx))
4177e5dd7070Spatrick return Result;
4178e5dd7070Spatrick }
4179e5dd7070Spatrick } else {
4180e5dd7070Spatrick // If the parameter type contains an explicitly-specified pack that we
4181e5dd7070Spatrick // could not expand, skip the number of parameters notionally created
4182e5dd7070Spatrick // by the expansion.
4183*12c85518Srobert std::optional<unsigned> NumExpansions =
4184*12c85518Srobert ParamExpansion->getNumExpansions();
4185e5dd7070Spatrick if (NumExpansions && !PackScope.isPartiallyExpanded()) {
4186e5dd7070Spatrick for (unsigned I = 0; I != *NumExpansions && ArgIdx < Args.size();
4187e5dd7070Spatrick ++I, ++ArgIdx) {
4188e5dd7070Spatrick ParamTypesForArgChecking.push_back(ParamPattern);
4189e5dd7070Spatrick // FIXME: Should we add OriginalCallArgs for these? What if the
4190e5dd7070Spatrick // corresponding argument is a list?
4191e5dd7070Spatrick PackScope.nextPackElement();
4192e5dd7070Spatrick }
4193e5dd7070Spatrick }
4194e5dd7070Spatrick }
4195e5dd7070Spatrick
4196e5dd7070Spatrick // Build argument packs for each of the parameter packs expanded by this
4197e5dd7070Spatrick // pack expansion.
4198e5dd7070Spatrick if (auto Result = PackScope.finish())
4199e5dd7070Spatrick return Result;
4200e5dd7070Spatrick }
4201e5dd7070Spatrick
4202e5dd7070Spatrick // Capture the context in which the function call is made. This is the context
4203e5dd7070Spatrick // that is needed when the accessibility of template arguments is checked.
4204e5dd7070Spatrick DeclContext *CallingCtx = CurContext;
4205e5dd7070Spatrick
4206ec727ea7Spatrick TemplateDeductionResult Result;
4207ec727ea7Spatrick runWithSufficientStackSpace(Info.getLocation(), [&] {
4208ec727ea7Spatrick Result = FinishTemplateArgumentDeduction(
4209e5dd7070Spatrick FunctionTemplate, Deduced, NumExplicitlySpecified, Specialization, Info,
4210e5dd7070Spatrick &OriginalCallArgs, PartialOverloading, [&, CallingCtx]() {
4211e5dd7070Spatrick ContextRAII SavedContext(*this, CallingCtx);
4212e5dd7070Spatrick return CheckNonDependent(ParamTypesForArgChecking);
4213e5dd7070Spatrick });
4214ec727ea7Spatrick });
4215ec727ea7Spatrick return Result;
4216e5dd7070Spatrick }
4217e5dd7070Spatrick
adjustCCAndNoReturn(QualType ArgFunctionType,QualType FunctionType,bool AdjustExceptionSpec)4218e5dd7070Spatrick QualType Sema::adjustCCAndNoReturn(QualType ArgFunctionType,
4219e5dd7070Spatrick QualType FunctionType,
4220e5dd7070Spatrick bool AdjustExceptionSpec) {
4221e5dd7070Spatrick if (ArgFunctionType.isNull())
4222e5dd7070Spatrick return ArgFunctionType;
4223e5dd7070Spatrick
4224e5dd7070Spatrick const auto *FunctionTypeP = FunctionType->castAs<FunctionProtoType>();
4225e5dd7070Spatrick const auto *ArgFunctionTypeP = ArgFunctionType->castAs<FunctionProtoType>();
4226e5dd7070Spatrick FunctionProtoType::ExtProtoInfo EPI = ArgFunctionTypeP->getExtProtoInfo();
4227e5dd7070Spatrick bool Rebuild = false;
4228e5dd7070Spatrick
4229e5dd7070Spatrick CallingConv CC = FunctionTypeP->getCallConv();
4230e5dd7070Spatrick if (EPI.ExtInfo.getCC() != CC) {
4231e5dd7070Spatrick EPI.ExtInfo = EPI.ExtInfo.withCallingConv(CC);
4232e5dd7070Spatrick Rebuild = true;
4233e5dd7070Spatrick }
4234e5dd7070Spatrick
4235e5dd7070Spatrick bool NoReturn = FunctionTypeP->getNoReturnAttr();
4236e5dd7070Spatrick if (EPI.ExtInfo.getNoReturn() != NoReturn) {
4237e5dd7070Spatrick EPI.ExtInfo = EPI.ExtInfo.withNoReturn(NoReturn);
4238e5dd7070Spatrick Rebuild = true;
4239e5dd7070Spatrick }
4240e5dd7070Spatrick
4241e5dd7070Spatrick if (AdjustExceptionSpec && (FunctionTypeP->hasExceptionSpec() ||
4242e5dd7070Spatrick ArgFunctionTypeP->hasExceptionSpec())) {
4243e5dd7070Spatrick EPI.ExceptionSpec = FunctionTypeP->getExtProtoInfo().ExceptionSpec;
4244e5dd7070Spatrick Rebuild = true;
4245e5dd7070Spatrick }
4246e5dd7070Spatrick
4247e5dd7070Spatrick if (!Rebuild)
4248e5dd7070Spatrick return ArgFunctionType;
4249e5dd7070Spatrick
4250e5dd7070Spatrick return Context.getFunctionType(ArgFunctionTypeP->getReturnType(),
4251e5dd7070Spatrick ArgFunctionTypeP->getParamTypes(), EPI);
4252e5dd7070Spatrick }
4253e5dd7070Spatrick
4254e5dd7070Spatrick /// Deduce template arguments when taking the address of a function
4255e5dd7070Spatrick /// template (C++ [temp.deduct.funcaddr]) or matching a specialization to
4256e5dd7070Spatrick /// a template.
4257e5dd7070Spatrick ///
4258e5dd7070Spatrick /// \param FunctionTemplate the function template for which we are performing
4259e5dd7070Spatrick /// template argument deduction.
4260e5dd7070Spatrick ///
4261e5dd7070Spatrick /// \param ExplicitTemplateArgs the explicitly-specified template
4262e5dd7070Spatrick /// arguments.
4263e5dd7070Spatrick ///
4264e5dd7070Spatrick /// \param ArgFunctionType the function type that will be used as the
4265e5dd7070Spatrick /// "argument" type (A) when performing template argument deduction from the
4266e5dd7070Spatrick /// function template's function type. This type may be NULL, if there is no
4267e5dd7070Spatrick /// argument type to compare against, in C++0x [temp.arg.explicit]p3.
4268e5dd7070Spatrick ///
4269e5dd7070Spatrick /// \param Specialization if template argument deduction was successful,
4270e5dd7070Spatrick /// this will be set to the function template specialization produced by
4271e5dd7070Spatrick /// template argument deduction.
4272e5dd7070Spatrick ///
4273e5dd7070Spatrick /// \param Info the argument will be updated to provide additional information
4274e5dd7070Spatrick /// about template argument deduction.
4275e5dd7070Spatrick ///
4276e5dd7070Spatrick /// \param IsAddressOfFunction If \c true, we are deducing as part of taking
4277e5dd7070Spatrick /// the address of a function template per [temp.deduct.funcaddr] and
4278e5dd7070Spatrick /// [over.over]. If \c false, we are looking up a function template
4279e5dd7070Spatrick /// specialization based on its signature, per [temp.deduct.decl].
4280e5dd7070Spatrick ///
4281e5dd7070Spatrick /// \returns the result of template argument deduction.
DeduceTemplateArguments(FunctionTemplateDecl * FunctionTemplate,TemplateArgumentListInfo * ExplicitTemplateArgs,QualType ArgFunctionType,FunctionDecl * & Specialization,TemplateDeductionInfo & Info,bool IsAddressOfFunction)4282e5dd7070Spatrick Sema::TemplateDeductionResult Sema::DeduceTemplateArguments(
4283e5dd7070Spatrick FunctionTemplateDecl *FunctionTemplate,
4284e5dd7070Spatrick TemplateArgumentListInfo *ExplicitTemplateArgs, QualType ArgFunctionType,
4285e5dd7070Spatrick FunctionDecl *&Specialization, TemplateDeductionInfo &Info,
4286e5dd7070Spatrick bool IsAddressOfFunction) {
4287e5dd7070Spatrick if (FunctionTemplate->isInvalidDecl())
4288e5dd7070Spatrick return TDK_Invalid;
4289e5dd7070Spatrick
4290e5dd7070Spatrick FunctionDecl *Function = FunctionTemplate->getTemplatedDecl();
4291e5dd7070Spatrick TemplateParameterList *TemplateParams
4292e5dd7070Spatrick = FunctionTemplate->getTemplateParameters();
4293e5dd7070Spatrick QualType FunctionType = Function->getType();
4294e5dd7070Spatrick
4295e5dd7070Spatrick // Substitute any explicit template arguments.
4296e5dd7070Spatrick LocalInstantiationScope InstScope(*this);
4297e5dd7070Spatrick SmallVector<DeducedTemplateArgument, 4> Deduced;
4298e5dd7070Spatrick unsigned NumExplicitlySpecified = 0;
4299e5dd7070Spatrick SmallVector<QualType, 4> ParamTypes;
4300e5dd7070Spatrick if (ExplicitTemplateArgs) {
4301ec727ea7Spatrick TemplateDeductionResult Result;
4302ec727ea7Spatrick runWithSufficientStackSpace(Info.getLocation(), [&] {
4303ec727ea7Spatrick Result = SubstituteExplicitTemplateArguments(
4304ec727ea7Spatrick FunctionTemplate, *ExplicitTemplateArgs, Deduced, ParamTypes,
4305ec727ea7Spatrick &FunctionType, Info);
4306ec727ea7Spatrick });
4307ec727ea7Spatrick if (Result)
4308e5dd7070Spatrick return Result;
4309e5dd7070Spatrick
4310e5dd7070Spatrick NumExplicitlySpecified = Deduced.size();
4311e5dd7070Spatrick }
4312e5dd7070Spatrick
4313e5dd7070Spatrick // When taking the address of a function, we require convertibility of
4314e5dd7070Spatrick // the resulting function type. Otherwise, we allow arbitrary mismatches
4315e5dd7070Spatrick // of calling convention and noreturn.
4316e5dd7070Spatrick if (!IsAddressOfFunction)
4317e5dd7070Spatrick ArgFunctionType = adjustCCAndNoReturn(ArgFunctionType, FunctionType,
4318e5dd7070Spatrick /*AdjustExceptionSpec*/false);
4319e5dd7070Spatrick
4320e5dd7070Spatrick // Unevaluated SFINAE context.
4321e5dd7070Spatrick EnterExpressionEvaluationContext Unevaluated(
4322e5dd7070Spatrick *this, Sema::ExpressionEvaluationContext::Unevaluated);
4323e5dd7070Spatrick SFINAETrap Trap(*this);
4324e5dd7070Spatrick
4325e5dd7070Spatrick Deduced.resize(TemplateParams->size());
4326e5dd7070Spatrick
4327e5dd7070Spatrick // If the function has a deduced return type, substitute it for a dependent
4328e5dd7070Spatrick // type so that we treat it as a non-deduced context in what follows. If we
4329e5dd7070Spatrick // are looking up by signature, the signature type should also have a deduced
4330e5dd7070Spatrick // return type, which we instead expect to exactly match.
4331e5dd7070Spatrick bool HasDeducedReturnType = false;
4332e5dd7070Spatrick if (getLangOpts().CPlusPlus14 && IsAddressOfFunction &&
4333e5dd7070Spatrick Function->getReturnType()->getContainedAutoType()) {
4334*12c85518Srobert FunctionType = SubstAutoTypeDependent(FunctionType);
4335e5dd7070Spatrick HasDeducedReturnType = true;
4336e5dd7070Spatrick }
4337e5dd7070Spatrick
4338*12c85518Srobert if (!ArgFunctionType.isNull() && !FunctionType.isNull()) {
4339e5dd7070Spatrick unsigned TDF =
4340e5dd7070Spatrick TDF_TopLevelParameterTypeList | TDF_AllowCompatibleFunctionType;
4341e5dd7070Spatrick // Deduce template arguments from the function type.
4342e5dd7070Spatrick if (TemplateDeductionResult Result
4343e5dd7070Spatrick = DeduceTemplateArgumentsByTypeMatch(*this, TemplateParams,
4344e5dd7070Spatrick FunctionType, ArgFunctionType,
4345e5dd7070Spatrick Info, Deduced, TDF))
4346e5dd7070Spatrick return Result;
4347e5dd7070Spatrick }
4348e5dd7070Spatrick
4349ec727ea7Spatrick TemplateDeductionResult Result;
4350ec727ea7Spatrick runWithSufficientStackSpace(Info.getLocation(), [&] {
4351ec727ea7Spatrick Result = FinishTemplateArgumentDeduction(FunctionTemplate, Deduced,
4352e5dd7070Spatrick NumExplicitlySpecified,
4353ec727ea7Spatrick Specialization, Info);
4354ec727ea7Spatrick });
4355ec727ea7Spatrick if (Result)
4356e5dd7070Spatrick return Result;
4357e5dd7070Spatrick
4358e5dd7070Spatrick // If the function has a deduced return type, deduce it now, so we can check
4359e5dd7070Spatrick // that the deduced function type matches the requested type.
4360e5dd7070Spatrick if (HasDeducedReturnType &&
4361e5dd7070Spatrick Specialization->getReturnType()->isUndeducedType() &&
4362e5dd7070Spatrick DeduceReturnType(Specialization, Info.getLocation(), false))
4363e5dd7070Spatrick return TDK_MiscellaneousDeductionFailure;
4364e5dd7070Spatrick
4365e5dd7070Spatrick // If the function has a dependent exception specification, resolve it now,
4366e5dd7070Spatrick // so we can check that the exception specification matches.
4367e5dd7070Spatrick auto *SpecializationFPT =
4368e5dd7070Spatrick Specialization->getType()->castAs<FunctionProtoType>();
4369e5dd7070Spatrick if (getLangOpts().CPlusPlus17 &&
4370e5dd7070Spatrick isUnresolvedExceptionSpec(SpecializationFPT->getExceptionSpecType()) &&
4371e5dd7070Spatrick !ResolveExceptionSpec(Info.getLocation(), SpecializationFPT))
4372e5dd7070Spatrick return TDK_MiscellaneousDeductionFailure;
4373e5dd7070Spatrick
4374e5dd7070Spatrick // Adjust the exception specification of the argument to match the
4375e5dd7070Spatrick // substituted and resolved type we just formed. (Calling convention and
4376e5dd7070Spatrick // noreturn can't be dependent, so we don't actually need this for them
4377e5dd7070Spatrick // right now.)
4378e5dd7070Spatrick QualType SpecializationType = Specialization->getType();
4379e5dd7070Spatrick if (!IsAddressOfFunction)
4380e5dd7070Spatrick ArgFunctionType = adjustCCAndNoReturn(ArgFunctionType, SpecializationType,
4381e5dd7070Spatrick /*AdjustExceptionSpec*/true);
4382e5dd7070Spatrick
4383e5dd7070Spatrick // If the requested function type does not match the actual type of the
4384e5dd7070Spatrick // specialization with respect to arguments of compatible pointer to function
4385e5dd7070Spatrick // types, template argument deduction fails.
4386e5dd7070Spatrick if (!ArgFunctionType.isNull()) {
4387e5dd7070Spatrick if (IsAddressOfFunction &&
4388e5dd7070Spatrick !isSameOrCompatibleFunctionType(
4389e5dd7070Spatrick Context.getCanonicalType(SpecializationType),
4390e5dd7070Spatrick Context.getCanonicalType(ArgFunctionType)))
4391e5dd7070Spatrick return TDK_MiscellaneousDeductionFailure;
4392e5dd7070Spatrick
4393e5dd7070Spatrick if (!IsAddressOfFunction &&
4394e5dd7070Spatrick !Context.hasSameType(SpecializationType, ArgFunctionType))
4395e5dd7070Spatrick return TDK_MiscellaneousDeductionFailure;
4396e5dd7070Spatrick }
4397e5dd7070Spatrick
4398e5dd7070Spatrick return TDK_Success;
4399e5dd7070Spatrick }
4400e5dd7070Spatrick
4401e5dd7070Spatrick /// Deduce template arguments for a templated conversion
4402e5dd7070Spatrick /// function (C++ [temp.deduct.conv]) and, if successful, produce a
4403e5dd7070Spatrick /// conversion function template specialization.
4404e5dd7070Spatrick Sema::TemplateDeductionResult
DeduceTemplateArguments(FunctionTemplateDecl * ConversionTemplate,QualType ToType,CXXConversionDecl * & Specialization,TemplateDeductionInfo & Info)4405e5dd7070Spatrick Sema::DeduceTemplateArguments(FunctionTemplateDecl *ConversionTemplate,
4406e5dd7070Spatrick QualType ToType,
4407e5dd7070Spatrick CXXConversionDecl *&Specialization,
4408e5dd7070Spatrick TemplateDeductionInfo &Info) {
4409e5dd7070Spatrick if (ConversionTemplate->isInvalidDecl())
4410e5dd7070Spatrick return TDK_Invalid;
4411e5dd7070Spatrick
4412e5dd7070Spatrick CXXConversionDecl *ConversionGeneric
4413e5dd7070Spatrick = cast<CXXConversionDecl>(ConversionTemplate->getTemplatedDecl());
4414e5dd7070Spatrick
4415e5dd7070Spatrick QualType FromType = ConversionGeneric->getConversionType();
4416e5dd7070Spatrick
4417e5dd7070Spatrick // Canonicalize the types for deduction.
4418e5dd7070Spatrick QualType P = Context.getCanonicalType(FromType);
4419e5dd7070Spatrick QualType A = Context.getCanonicalType(ToType);
4420e5dd7070Spatrick
4421e5dd7070Spatrick // C++0x [temp.deduct.conv]p2:
4422e5dd7070Spatrick // If P is a reference type, the type referred to by P is used for
4423e5dd7070Spatrick // type deduction.
4424e5dd7070Spatrick if (const ReferenceType *PRef = P->getAs<ReferenceType>())
4425e5dd7070Spatrick P = PRef->getPointeeType();
4426e5dd7070Spatrick
4427e5dd7070Spatrick // C++0x [temp.deduct.conv]p4:
4428e5dd7070Spatrick // [...] If A is a reference type, the type referred to by A is used
4429e5dd7070Spatrick // for type deduction.
4430e5dd7070Spatrick if (const ReferenceType *ARef = A->getAs<ReferenceType>()) {
4431e5dd7070Spatrick A = ARef->getPointeeType();
4432e5dd7070Spatrick // We work around a defect in the standard here: cv-qualifiers are also
4433e5dd7070Spatrick // removed from P and A in this case, unless P was a reference type. This
4434e5dd7070Spatrick // seems to mostly match what other compilers are doing.
4435e5dd7070Spatrick if (!FromType->getAs<ReferenceType>()) {
4436e5dd7070Spatrick A = A.getUnqualifiedType();
4437e5dd7070Spatrick P = P.getUnqualifiedType();
4438e5dd7070Spatrick }
4439e5dd7070Spatrick
4440e5dd7070Spatrick // C++ [temp.deduct.conv]p3:
4441e5dd7070Spatrick //
4442e5dd7070Spatrick // If A is not a reference type:
4443e5dd7070Spatrick } else {
4444e5dd7070Spatrick assert(!A->isReferenceType() && "Reference types were handled above");
4445e5dd7070Spatrick
4446e5dd7070Spatrick // - If P is an array type, the pointer type produced by the
4447e5dd7070Spatrick // array-to-pointer standard conversion (4.2) is used in place
4448e5dd7070Spatrick // of P for type deduction; otherwise,
4449e5dd7070Spatrick if (P->isArrayType())
4450e5dd7070Spatrick P = Context.getArrayDecayedType(P);
4451e5dd7070Spatrick // - If P is a function type, the pointer type produced by the
4452e5dd7070Spatrick // function-to-pointer standard conversion (4.3) is used in
4453e5dd7070Spatrick // place of P for type deduction; otherwise,
4454e5dd7070Spatrick else if (P->isFunctionType())
4455e5dd7070Spatrick P = Context.getPointerType(P);
4456e5dd7070Spatrick // - If P is a cv-qualified type, the top level cv-qualifiers of
4457e5dd7070Spatrick // P's type are ignored for type deduction.
4458e5dd7070Spatrick else
4459e5dd7070Spatrick P = P.getUnqualifiedType();
4460e5dd7070Spatrick
4461e5dd7070Spatrick // C++0x [temp.deduct.conv]p4:
4462e5dd7070Spatrick // If A is a cv-qualified type, the top level cv-qualifiers of A's
4463e5dd7070Spatrick // type are ignored for type deduction. If A is a reference type, the type
4464e5dd7070Spatrick // referred to by A is used for type deduction.
4465e5dd7070Spatrick A = A.getUnqualifiedType();
4466e5dd7070Spatrick }
4467e5dd7070Spatrick
4468e5dd7070Spatrick // Unevaluated SFINAE context.
4469e5dd7070Spatrick EnterExpressionEvaluationContext Unevaluated(
4470e5dd7070Spatrick *this, Sema::ExpressionEvaluationContext::Unevaluated);
4471e5dd7070Spatrick SFINAETrap Trap(*this);
4472e5dd7070Spatrick
4473e5dd7070Spatrick // C++ [temp.deduct.conv]p1:
4474e5dd7070Spatrick // Template argument deduction is done by comparing the return
4475e5dd7070Spatrick // type of the template conversion function (call it P) with the
4476e5dd7070Spatrick // type that is required as the result of the conversion (call it
4477e5dd7070Spatrick // A) as described in 14.8.2.4.
4478e5dd7070Spatrick TemplateParameterList *TemplateParams
4479e5dd7070Spatrick = ConversionTemplate->getTemplateParameters();
4480e5dd7070Spatrick SmallVector<DeducedTemplateArgument, 4> Deduced;
4481e5dd7070Spatrick Deduced.resize(TemplateParams->size());
4482e5dd7070Spatrick
4483e5dd7070Spatrick // C++0x [temp.deduct.conv]p4:
4484e5dd7070Spatrick // In general, the deduction process attempts to find template
4485e5dd7070Spatrick // argument values that will make the deduced A identical to
4486e5dd7070Spatrick // A. However, there are two cases that allow a difference:
4487e5dd7070Spatrick unsigned TDF = 0;
4488e5dd7070Spatrick // - If the original A is a reference type, A can be more
4489e5dd7070Spatrick // cv-qualified than the deduced A (i.e., the type referred to
4490e5dd7070Spatrick // by the reference)
4491e5dd7070Spatrick if (ToType->isReferenceType())
4492e5dd7070Spatrick TDF |= TDF_ArgWithReferenceType;
4493e5dd7070Spatrick // - The deduced A can be another pointer or pointer to member
4494e5dd7070Spatrick // type that can be converted to A via a qualification
4495e5dd7070Spatrick // conversion.
4496e5dd7070Spatrick //
4497e5dd7070Spatrick // (C++0x [temp.deduct.conv]p6 clarifies that this only happens when
4498e5dd7070Spatrick // both P and A are pointers or member pointers. In this case, we
4499e5dd7070Spatrick // just ignore cv-qualifiers completely).
4500e5dd7070Spatrick if ((P->isPointerType() && A->isPointerType()) ||
4501e5dd7070Spatrick (P->isMemberPointerType() && A->isMemberPointerType()))
4502e5dd7070Spatrick TDF |= TDF_IgnoreQualifiers;
4503e5dd7070Spatrick if (TemplateDeductionResult Result
4504e5dd7070Spatrick = DeduceTemplateArgumentsByTypeMatch(*this, TemplateParams,
4505e5dd7070Spatrick P, A, Info, Deduced, TDF))
4506e5dd7070Spatrick return Result;
4507e5dd7070Spatrick
4508e5dd7070Spatrick // Create an Instantiation Scope for finalizing the operator.
4509e5dd7070Spatrick LocalInstantiationScope InstScope(*this);
4510e5dd7070Spatrick // Finish template argument deduction.
4511e5dd7070Spatrick FunctionDecl *ConversionSpecialized = nullptr;
4512ec727ea7Spatrick TemplateDeductionResult Result;
4513ec727ea7Spatrick runWithSufficientStackSpace(Info.getLocation(), [&] {
4514ec727ea7Spatrick Result = FinishTemplateArgumentDeduction(ConversionTemplate, Deduced, 0,
4515e5dd7070Spatrick ConversionSpecialized, Info);
4516ec727ea7Spatrick });
4517e5dd7070Spatrick Specialization = cast_or_null<CXXConversionDecl>(ConversionSpecialized);
4518e5dd7070Spatrick return Result;
4519e5dd7070Spatrick }
4520e5dd7070Spatrick
4521e5dd7070Spatrick /// Deduce template arguments for a function template when there is
4522e5dd7070Spatrick /// nothing to deduce against (C++0x [temp.arg.explicit]p3).
4523e5dd7070Spatrick ///
4524e5dd7070Spatrick /// \param FunctionTemplate the function template for which we are performing
4525e5dd7070Spatrick /// template argument deduction.
4526e5dd7070Spatrick ///
4527e5dd7070Spatrick /// \param ExplicitTemplateArgs the explicitly-specified template
4528e5dd7070Spatrick /// arguments.
4529e5dd7070Spatrick ///
4530e5dd7070Spatrick /// \param Specialization if template argument deduction was successful,
4531e5dd7070Spatrick /// this will be set to the function template specialization produced by
4532e5dd7070Spatrick /// template argument deduction.
4533e5dd7070Spatrick ///
4534e5dd7070Spatrick /// \param Info the argument will be updated to provide additional information
4535e5dd7070Spatrick /// about template argument deduction.
4536e5dd7070Spatrick ///
4537e5dd7070Spatrick /// \param IsAddressOfFunction If \c true, we are deducing as part of taking
4538e5dd7070Spatrick /// the address of a function template in a context where we do not have a
4539e5dd7070Spatrick /// target type, per [over.over]. If \c false, we are looking up a function
4540e5dd7070Spatrick /// template specialization based on its signature, which only happens when
4541e5dd7070Spatrick /// deducing a function parameter type from an argument that is a template-id
4542e5dd7070Spatrick /// naming a function template specialization.
4543e5dd7070Spatrick ///
4544e5dd7070Spatrick /// \returns the result of template argument deduction.
DeduceTemplateArguments(FunctionTemplateDecl * FunctionTemplate,TemplateArgumentListInfo * ExplicitTemplateArgs,FunctionDecl * & Specialization,TemplateDeductionInfo & Info,bool IsAddressOfFunction)4545e5dd7070Spatrick Sema::TemplateDeductionResult Sema::DeduceTemplateArguments(
4546e5dd7070Spatrick FunctionTemplateDecl *FunctionTemplate,
4547e5dd7070Spatrick TemplateArgumentListInfo *ExplicitTemplateArgs,
4548e5dd7070Spatrick FunctionDecl *&Specialization, TemplateDeductionInfo &Info,
4549e5dd7070Spatrick bool IsAddressOfFunction) {
4550e5dd7070Spatrick return DeduceTemplateArguments(FunctionTemplate, ExplicitTemplateArgs,
4551e5dd7070Spatrick QualType(), Specialization, Info,
4552e5dd7070Spatrick IsAddressOfFunction);
4553e5dd7070Spatrick }
4554e5dd7070Spatrick
4555e5dd7070Spatrick namespace {
4556e5dd7070Spatrick struct DependentAuto { bool IsPack; };
4557e5dd7070Spatrick
4558e5dd7070Spatrick /// Substitute the 'auto' specifier or deduced template specialization type
4559e5dd7070Spatrick /// specifier within a type for a given replacement type.
4560e5dd7070Spatrick class SubstituteDeducedTypeTransform :
4561e5dd7070Spatrick public TreeTransform<SubstituteDeducedTypeTransform> {
4562e5dd7070Spatrick QualType Replacement;
4563e5dd7070Spatrick bool ReplacementIsPack;
4564e5dd7070Spatrick bool UseTypeSugar;
4565e5dd7070Spatrick
4566e5dd7070Spatrick public:
SubstituteDeducedTypeTransform(Sema & SemaRef,DependentAuto DA)4567e5dd7070Spatrick SubstituteDeducedTypeTransform(Sema &SemaRef, DependentAuto DA)
4568*12c85518Srobert : TreeTransform<SubstituteDeducedTypeTransform>(SemaRef),
4569e5dd7070Spatrick ReplacementIsPack(DA.IsPack), UseTypeSugar(true) {}
4570e5dd7070Spatrick
SubstituteDeducedTypeTransform(Sema & SemaRef,QualType Replacement,bool UseTypeSugar=true)4571e5dd7070Spatrick SubstituteDeducedTypeTransform(Sema &SemaRef, QualType Replacement,
4572e5dd7070Spatrick bool UseTypeSugar = true)
4573e5dd7070Spatrick : TreeTransform<SubstituteDeducedTypeTransform>(SemaRef),
4574e5dd7070Spatrick Replacement(Replacement), ReplacementIsPack(false),
4575e5dd7070Spatrick UseTypeSugar(UseTypeSugar) {}
4576e5dd7070Spatrick
TransformDesugared(TypeLocBuilder & TLB,DeducedTypeLoc TL)4577e5dd7070Spatrick QualType TransformDesugared(TypeLocBuilder &TLB, DeducedTypeLoc TL) {
4578e5dd7070Spatrick assert(isa<TemplateTypeParmType>(Replacement) &&
4579e5dd7070Spatrick "unexpected unsugared replacement kind");
4580e5dd7070Spatrick QualType Result = Replacement;
4581e5dd7070Spatrick TemplateTypeParmTypeLoc NewTL = TLB.push<TemplateTypeParmTypeLoc>(Result);
4582e5dd7070Spatrick NewTL.setNameLoc(TL.getNameLoc());
4583e5dd7070Spatrick return Result;
4584e5dd7070Spatrick }
4585e5dd7070Spatrick
TransformAutoType(TypeLocBuilder & TLB,AutoTypeLoc TL)4586e5dd7070Spatrick QualType TransformAutoType(TypeLocBuilder &TLB, AutoTypeLoc TL) {
4587e5dd7070Spatrick // If we're building the type pattern to deduce against, don't wrap the
4588e5dd7070Spatrick // substituted type in an AutoType. Certain template deduction rules
4589e5dd7070Spatrick // apply only when a template type parameter appears directly (and not if
4590e5dd7070Spatrick // the parameter is found through desugaring). For instance:
4591e5dd7070Spatrick // auto &&lref = lvalue;
4592e5dd7070Spatrick // must transform into "rvalue reference to T" not "rvalue reference to
4593e5dd7070Spatrick // auto type deduced as T" in order for [temp.deduct.call]p3 to apply.
4594e5dd7070Spatrick //
4595e5dd7070Spatrick // FIXME: Is this still necessary?
4596e5dd7070Spatrick if (!UseTypeSugar)
4597e5dd7070Spatrick return TransformDesugared(TLB, TL);
4598e5dd7070Spatrick
4599e5dd7070Spatrick QualType Result = SemaRef.Context.getAutoType(
4600e5dd7070Spatrick Replacement, TL.getTypePtr()->getKeyword(), Replacement.isNull(),
4601e5dd7070Spatrick ReplacementIsPack, TL.getTypePtr()->getTypeConstraintConcept(),
4602e5dd7070Spatrick TL.getTypePtr()->getTypeConstraintArguments());
4603e5dd7070Spatrick auto NewTL = TLB.push<AutoTypeLoc>(Result);
4604e5dd7070Spatrick NewTL.copy(TL);
4605e5dd7070Spatrick return Result;
4606e5dd7070Spatrick }
4607e5dd7070Spatrick
TransformDeducedTemplateSpecializationType(TypeLocBuilder & TLB,DeducedTemplateSpecializationTypeLoc TL)4608e5dd7070Spatrick QualType TransformDeducedTemplateSpecializationType(
4609e5dd7070Spatrick TypeLocBuilder &TLB, DeducedTemplateSpecializationTypeLoc TL) {
4610e5dd7070Spatrick if (!UseTypeSugar)
4611e5dd7070Spatrick return TransformDesugared(TLB, TL);
4612e5dd7070Spatrick
4613e5dd7070Spatrick QualType Result = SemaRef.Context.getDeducedTemplateSpecializationType(
4614e5dd7070Spatrick TL.getTypePtr()->getTemplateName(),
4615e5dd7070Spatrick Replacement, Replacement.isNull());
4616e5dd7070Spatrick auto NewTL = TLB.push<DeducedTemplateSpecializationTypeLoc>(Result);
4617e5dd7070Spatrick NewTL.setNameLoc(TL.getNameLoc());
4618e5dd7070Spatrick return Result;
4619e5dd7070Spatrick }
4620e5dd7070Spatrick
TransformLambdaExpr(LambdaExpr * E)4621e5dd7070Spatrick ExprResult TransformLambdaExpr(LambdaExpr *E) {
4622e5dd7070Spatrick // Lambdas never need to be transformed.
4623e5dd7070Spatrick return E;
4624e5dd7070Spatrick }
4625e5dd7070Spatrick
Apply(TypeLoc TL)4626e5dd7070Spatrick QualType Apply(TypeLoc TL) {
4627e5dd7070Spatrick // Create some scratch storage for the transformed type locations.
4628e5dd7070Spatrick // FIXME: We're just going to throw this information away. Don't build it.
4629e5dd7070Spatrick TypeLocBuilder TLB;
4630e5dd7070Spatrick TLB.reserve(TL.getFullDataSize());
4631e5dd7070Spatrick return TransformType(TLB, TL);
4632e5dd7070Spatrick }
4633e5dd7070Spatrick };
4634e5dd7070Spatrick
4635e5dd7070Spatrick } // namespace
4636e5dd7070Spatrick
CheckDeducedPlaceholderConstraints(Sema & S,const AutoType & Type,AutoTypeLoc TypeLoc,QualType Deduced)4637*12c85518Srobert static bool CheckDeducedPlaceholderConstraints(Sema &S, const AutoType &Type,
4638*12c85518Srobert AutoTypeLoc TypeLoc,
4639*12c85518Srobert QualType Deduced) {
4640e5dd7070Spatrick ConstraintSatisfaction Satisfaction;
4641e5dd7070Spatrick ConceptDecl *Concept = Type.getTypeConstraintConcept();
4642e5dd7070Spatrick TemplateArgumentListInfo TemplateArgs(TypeLoc.getLAngleLoc(),
4643e5dd7070Spatrick TypeLoc.getRAngleLoc());
4644e5dd7070Spatrick TemplateArgs.addArgument(
4645e5dd7070Spatrick TemplateArgumentLoc(TemplateArgument(Deduced),
4646e5dd7070Spatrick S.Context.getTrivialTypeSourceInfo(
4647e5dd7070Spatrick Deduced, TypeLoc.getNameLoc())));
4648e5dd7070Spatrick for (unsigned I = 0, C = TypeLoc.getNumArgs(); I != C; ++I)
4649e5dd7070Spatrick TemplateArgs.addArgument(TypeLoc.getArgLoc(I));
4650e5dd7070Spatrick
4651*12c85518Srobert llvm::SmallVector<TemplateArgument, 4> SugaredConverted, CanonicalConverted;
4652e5dd7070Spatrick if (S.CheckTemplateArgumentList(Concept, SourceLocation(), TemplateArgs,
4653*12c85518Srobert /*PartialTemplateArgs=*/false,
4654*12c85518Srobert SugaredConverted, CanonicalConverted))
4655*12c85518Srobert return true;
4656*12c85518Srobert MultiLevelTemplateArgumentList MLTAL(Concept, CanonicalConverted,
4657*12c85518Srobert /*Final=*/false);
4658e5dd7070Spatrick if (S.CheckConstraintSatisfaction(Concept, {Concept->getConstraintExpr()},
4659*12c85518Srobert MLTAL, TypeLoc.getLocalSourceRange(),
4660e5dd7070Spatrick Satisfaction))
4661*12c85518Srobert return true;
4662e5dd7070Spatrick if (!Satisfaction.IsSatisfied) {
4663e5dd7070Spatrick std::string Buf;
4664e5dd7070Spatrick llvm::raw_string_ostream OS(Buf);
4665e5dd7070Spatrick OS << "'" << Concept->getName();
4666e5dd7070Spatrick if (TypeLoc.hasExplicitTemplateArgs()) {
4667a9ac8606Spatrick printTemplateArgumentList(
4668a9ac8606Spatrick OS, Type.getTypeConstraintArguments(), S.getPrintingPolicy(),
4669a9ac8606Spatrick Type.getTypeConstraintConcept()->getTemplateParameters());
4670e5dd7070Spatrick }
4671e5dd7070Spatrick OS << "'";
4672e5dd7070Spatrick OS.flush();
4673e5dd7070Spatrick S.Diag(TypeLoc.getConceptNameLoc(),
4674e5dd7070Spatrick diag::err_placeholder_constraints_not_satisfied)
4675e5dd7070Spatrick << Deduced << Buf << TypeLoc.getLocalSourceRange();
4676e5dd7070Spatrick S.DiagnoseUnsatisfiedConstraint(Satisfaction);
4677*12c85518Srobert return true;
4678e5dd7070Spatrick }
4679*12c85518Srobert return false;
4680e5dd7070Spatrick }
4681e5dd7070Spatrick
4682e5dd7070Spatrick /// Deduce the type for an auto type-specifier (C++11 [dcl.spec.auto]p6)
4683e5dd7070Spatrick ///
4684e5dd7070Spatrick /// Note that this is done even if the initializer is dependent. (This is
4685e5dd7070Spatrick /// necessary to support partial ordering of templates using 'auto'.)
4686e5dd7070Spatrick /// A dependent type will be produced when deducing from a dependent type.
4687e5dd7070Spatrick ///
4688e5dd7070Spatrick /// \param Type the type pattern using the auto type-specifier.
4689e5dd7070Spatrick /// \param Init the initializer for the variable whose type is to be deduced.
4690e5dd7070Spatrick /// \param Result if type deduction was successful, this will be set to the
4691e5dd7070Spatrick /// deduced type.
4692*12c85518Srobert /// \param Info the argument will be updated to provide additional information
4693*12c85518Srobert /// about template argument deduction.
4694*12c85518Srobert /// \param DependentDeduction Set if we should permit deduction in
4695e5dd7070Spatrick /// dependent cases. This is necessary for template partial ordering with
4696*12c85518Srobert /// 'auto' template parameters. The template parameter depth to be used
4697*12c85518Srobert /// should be specified in the 'Info' parameter.
4698e5dd7070Spatrick /// \param IgnoreConstraints Set if we should not fail if the deduced type does
4699e5dd7070Spatrick /// not satisfy the type-constraint in the auto type.
DeduceAutoType(TypeLoc Type,Expr * Init,QualType & Result,TemplateDeductionInfo & Info,bool DependentDeduction,bool IgnoreConstraints)4700*12c85518Srobert Sema::TemplateDeductionResult Sema::DeduceAutoType(TypeLoc Type, Expr *Init,
4701*12c85518Srobert QualType &Result,
4702*12c85518Srobert TemplateDeductionInfo &Info,
4703*12c85518Srobert bool DependentDeduction,
4704e5dd7070Spatrick bool IgnoreConstraints) {
4705*12c85518Srobert assert(DependentDeduction || Info.getDeducedDepth() == 0);
4706ec727ea7Spatrick if (Init->containsErrors())
4707*12c85518Srobert return TDK_AlreadyDiagnosed;
4708*12c85518Srobert
4709*12c85518Srobert const AutoType *AT = Type.getType()->getContainedAutoType();
4710*12c85518Srobert assert(AT);
4711*12c85518Srobert
4712*12c85518Srobert if (Init->getType()->isNonOverloadPlaceholderType() || AT->isDecltypeAuto()) {
4713e5dd7070Spatrick ExprResult NonPlaceholder = CheckPlaceholderExpr(Init);
4714e5dd7070Spatrick if (NonPlaceholder.isInvalid())
4715*12c85518Srobert return TDK_AlreadyDiagnosed;
4716e5dd7070Spatrick Init = NonPlaceholder.get();
4717e5dd7070Spatrick }
4718e5dd7070Spatrick
4719e5dd7070Spatrick DependentAuto DependentResult = {
4720e5dd7070Spatrick /*.IsPack = */ (bool)Type.getAs<PackExpansionTypeLoc>()};
4721e5dd7070Spatrick
4722*12c85518Srobert if (!DependentDeduction &&
4723e5dd7070Spatrick (Type.getType()->isDependentType() || Init->isTypeDependent() ||
4724e5dd7070Spatrick Init->containsUnexpandedParameterPack())) {
4725e5dd7070Spatrick Result = SubstituteDeducedTypeTransform(*this, DependentResult).Apply(Type);
4726e5dd7070Spatrick assert(!Result.isNull() && "substituting DependentTy can't fail");
4727*12c85518Srobert return TDK_Success;
4728e5dd7070Spatrick }
4729e5dd7070Spatrick
4730*12c85518Srobert auto *InitList = dyn_cast<InitListExpr>(Init);
4731*12c85518Srobert if (!getLangOpts().CPlusPlus && InitList) {
4732e5dd7070Spatrick Diag(Init->getBeginLoc(), diag::err_auto_init_list_from_c);
4733*12c85518Srobert return TDK_AlreadyDiagnosed;
4734e5dd7070Spatrick }
4735e5dd7070Spatrick
4736e5dd7070Spatrick // Deduce type of TemplParam in Func(Init)
4737e5dd7070Spatrick SmallVector<DeducedTemplateArgument, 1> Deduced;
4738e5dd7070Spatrick Deduced.resize(1);
4739e5dd7070Spatrick
4740e5dd7070Spatrick // If deduction failed, don't diagnose if the initializer is dependent; it
4741e5dd7070Spatrick // might acquire a matching type in the instantiation.
4742*12c85518Srobert auto DeductionFailed = [&](TemplateDeductionResult TDK) {
4743e5dd7070Spatrick if (Init->isTypeDependent()) {
4744e5dd7070Spatrick Result =
4745e5dd7070Spatrick SubstituteDeducedTypeTransform(*this, DependentResult).Apply(Type);
4746e5dd7070Spatrick assert(!Result.isNull() && "substituting DependentTy can't fail");
4747*12c85518Srobert return TDK_Success;
4748e5dd7070Spatrick }
4749*12c85518Srobert return TDK;
4750e5dd7070Spatrick };
4751e5dd7070Spatrick
4752e5dd7070Spatrick SmallVector<OriginalCallArg, 4> OriginalCallArgs;
4753e5dd7070Spatrick
4754*12c85518Srobert QualType DeducedType;
4755*12c85518Srobert // If this is a 'decltype(auto)' specifier, do the decltype dance.
4756*12c85518Srobert if (AT->isDecltypeAuto()) {
4757e5dd7070Spatrick if (InitList) {
4758*12c85518Srobert Diag(Init->getBeginLoc(), diag::err_decltype_auto_initializer_list);
4759*12c85518Srobert return TDK_AlreadyDiagnosed;
4760*12c85518Srobert }
4761e5dd7070Spatrick
4762*12c85518Srobert DeducedType = getDecltypeForExpr(Init);
4763*12c85518Srobert assert(!DeducedType.isNull());
4764*12c85518Srobert } else {
4765*12c85518Srobert LocalInstantiationScope InstScope(*this);
4766*12c85518Srobert
4767*12c85518Srobert // Build template<class TemplParam> void Func(FuncParam);
4768*12c85518Srobert SourceLocation Loc = Init->getExprLoc();
4769*12c85518Srobert TemplateTypeParmDecl *TemplParam = TemplateTypeParmDecl::Create(
4770*12c85518Srobert Context, nullptr, SourceLocation(), Loc, Info.getDeducedDepth(), 0,
4771*12c85518Srobert nullptr, false, false, false);
4772*12c85518Srobert QualType TemplArg = QualType(TemplParam->getTypeForDecl(), 0);
4773*12c85518Srobert NamedDecl *TemplParamPtr = TemplParam;
4774*12c85518Srobert FixedSizeTemplateParameterListStorage<1, false> TemplateParamsSt(
4775*12c85518Srobert Context, Loc, Loc, TemplParamPtr, Loc, nullptr);
4776*12c85518Srobert
4777*12c85518Srobert if (InitList) {
4778*12c85518Srobert // Notionally, we substitute std::initializer_list<T> for 'auto' and
4779*12c85518Srobert // deduce against that. Such deduction only succeeds if removing
4780*12c85518Srobert // cv-qualifiers and references results in std::initializer_list<T>.
4781*12c85518Srobert if (!Type.getType().getNonReferenceType()->getAs<AutoType>())
4782*12c85518Srobert return TDK_Invalid;
4783e5dd7070Spatrick
4784e5dd7070Spatrick SourceRange DeducedFromInitRange;
4785*12c85518Srobert for (Expr *Init : InitList->inits()) {
4786*12c85518Srobert // Resolving a core issue: a braced-init-list containing any designators
4787*12c85518Srobert // is a non-deduced context.
4788*12c85518Srobert if (isa<DesignatedInitExpr>(Init))
4789*12c85518Srobert return TDK_Invalid;
4790e5dd7070Spatrick if (auto TDK = DeduceTemplateArgumentsFromCallArgument(
4791*12c85518Srobert *this, TemplateParamsSt.get(), 0, TemplArg, Init, Info, Deduced,
4792*12c85518Srobert OriginalCallArgs, /*Decomposed=*/true,
4793*12c85518Srobert /*ArgIdx=*/0, /*TDF=*/0)) {
4794*12c85518Srobert if (TDK == TDK_Inconsistent) {
4795*12c85518Srobert Diag(Info.getLocation(), diag::err_auto_inconsistent_deduction)
4796*12c85518Srobert << Info.FirstArg << Info.SecondArg << DeducedFromInitRange
4797*12c85518Srobert << Init->getSourceRange();
4798*12c85518Srobert return DeductionFailed(TDK_AlreadyDiagnosed);
4799*12c85518Srobert }
4800*12c85518Srobert return DeductionFailed(TDK);
4801*12c85518Srobert }
4802e5dd7070Spatrick
4803e5dd7070Spatrick if (DeducedFromInitRange.isInvalid() &&
4804e5dd7070Spatrick Deduced[0].getKind() != TemplateArgument::Null)
4805e5dd7070Spatrick DeducedFromInitRange = Init->getSourceRange();
4806e5dd7070Spatrick }
4807e5dd7070Spatrick } else {
4808e5dd7070Spatrick if (!getLangOpts().CPlusPlus && Init->refersToBitField()) {
4809e5dd7070Spatrick Diag(Loc, diag::err_auto_bitfield);
4810*12c85518Srobert return TDK_AlreadyDiagnosed;
4811e5dd7070Spatrick }
4812*12c85518Srobert QualType FuncParam =
4813*12c85518Srobert SubstituteDeducedTypeTransform(*this, TemplArg).Apply(Type);
4814*12c85518Srobert assert(!FuncParam.isNull() &&
4815*12c85518Srobert "substituting template parameter for 'auto' failed");
4816e5dd7070Spatrick if (auto TDK = DeduceTemplateArgumentsFromCallArgument(
4817e5dd7070Spatrick *this, TemplateParamsSt.get(), 0, FuncParam, Init, Info, Deduced,
4818*12c85518Srobert OriginalCallArgs, /*Decomposed=*/false, /*ArgIdx=*/0, /*TDF=*/0))
4819*12c85518Srobert return DeductionFailed(TDK);
4820e5dd7070Spatrick }
4821e5dd7070Spatrick
4822e5dd7070Spatrick // Could be null if somehow 'auto' appears in a non-deduced context.
4823e5dd7070Spatrick if (Deduced[0].getKind() != TemplateArgument::Type)
4824*12c85518Srobert return DeductionFailed(TDK_Incomplete);
4825*12c85518Srobert DeducedType = Deduced[0].getAsType();
4826e5dd7070Spatrick
4827e5dd7070Spatrick if (InitList) {
4828e5dd7070Spatrick DeducedType = BuildStdInitializerList(DeducedType, Loc);
4829e5dd7070Spatrick if (DeducedType.isNull())
4830*12c85518Srobert return TDK_AlreadyDiagnosed;
4831*12c85518Srobert }
4832e5dd7070Spatrick }
4833e5dd7070Spatrick
4834*12c85518Srobert if (!Result.isNull()) {
4835*12c85518Srobert if (!Context.hasSameType(DeducedType, Result)) {
4836*12c85518Srobert Info.FirstArg = Result;
4837*12c85518Srobert Info.SecondArg = DeducedType;
4838*12c85518Srobert return DeductionFailed(TDK_Inconsistent);
4839e5dd7070Spatrick }
4840*12c85518Srobert DeducedType = Context.getCommonSugaredType(Result, DeducedType);
4841e5dd7070Spatrick }
4842e5dd7070Spatrick
4843*12c85518Srobert if (AT->isConstrained() && !IgnoreConstraints &&
4844*12c85518Srobert CheckDeducedPlaceholderConstraints(
4845*12c85518Srobert *this, *AT, Type.getContainedAutoTypeLoc(), DeducedType))
4846*12c85518Srobert return TDK_AlreadyDiagnosed;
4847*12c85518Srobert
4848e5dd7070Spatrick Result = SubstituteDeducedTypeTransform(*this, DeducedType).Apply(Type);
4849e5dd7070Spatrick if (Result.isNull())
4850*12c85518Srobert return TDK_AlreadyDiagnosed;
4851e5dd7070Spatrick
4852e5dd7070Spatrick // Check that the deduced argument type is compatible with the original
4853e5dd7070Spatrick // argument type per C++ [temp.deduct.call]p4.
4854e5dd7070Spatrick QualType DeducedA = InitList ? Deduced[0].getAsType() : Result;
4855e5dd7070Spatrick for (const OriginalCallArg &OriginalArg : OriginalCallArgs) {
4856e5dd7070Spatrick assert((bool)InitList == OriginalArg.DecomposedParam &&
4857e5dd7070Spatrick "decomposed non-init-list in auto deduction?");
4858e5dd7070Spatrick if (auto TDK =
4859e5dd7070Spatrick CheckOriginalCallArgDeduction(*this, Info, OriginalArg, DeducedA)) {
4860e5dd7070Spatrick Result = QualType();
4861*12c85518Srobert return DeductionFailed(TDK);
4862e5dd7070Spatrick }
4863e5dd7070Spatrick }
4864e5dd7070Spatrick
4865*12c85518Srobert return TDK_Success;
4866e5dd7070Spatrick }
4867e5dd7070Spatrick
SubstAutoType(QualType TypeWithAuto,QualType TypeToReplaceAuto)4868e5dd7070Spatrick QualType Sema::SubstAutoType(QualType TypeWithAuto,
4869e5dd7070Spatrick QualType TypeToReplaceAuto) {
4870*12c85518Srobert assert(TypeToReplaceAuto != Context.DependentTy);
4871e5dd7070Spatrick return SubstituteDeducedTypeTransform(*this, TypeToReplaceAuto)
4872e5dd7070Spatrick .TransformType(TypeWithAuto);
4873e5dd7070Spatrick }
4874e5dd7070Spatrick
SubstAutoTypeSourceInfo(TypeSourceInfo * TypeWithAuto,QualType TypeToReplaceAuto)4875e5dd7070Spatrick TypeSourceInfo *Sema::SubstAutoTypeSourceInfo(TypeSourceInfo *TypeWithAuto,
4876e5dd7070Spatrick QualType TypeToReplaceAuto) {
4877*12c85518Srobert assert(TypeToReplaceAuto != Context.DependentTy);
4878e5dd7070Spatrick return SubstituteDeducedTypeTransform(*this, TypeToReplaceAuto)
4879e5dd7070Spatrick .TransformType(TypeWithAuto);
4880e5dd7070Spatrick }
4881e5dd7070Spatrick
SubstAutoTypeDependent(QualType TypeWithAuto)4882*12c85518Srobert QualType Sema::SubstAutoTypeDependent(QualType TypeWithAuto) {
4883*12c85518Srobert return SubstituteDeducedTypeTransform(*this, DependentAuto{false})
4884*12c85518Srobert .TransformType(TypeWithAuto);
4885*12c85518Srobert }
4886*12c85518Srobert
4887*12c85518Srobert TypeSourceInfo *
SubstAutoTypeSourceInfoDependent(TypeSourceInfo * TypeWithAuto)4888*12c85518Srobert Sema::SubstAutoTypeSourceInfoDependent(TypeSourceInfo *TypeWithAuto) {
4889*12c85518Srobert return SubstituteDeducedTypeTransform(*this, DependentAuto{false})
4890*12c85518Srobert .TransformType(TypeWithAuto);
4891*12c85518Srobert }
4892*12c85518Srobert
ReplaceAutoType(QualType TypeWithAuto,QualType TypeToReplaceAuto)4893e5dd7070Spatrick QualType Sema::ReplaceAutoType(QualType TypeWithAuto,
4894e5dd7070Spatrick QualType TypeToReplaceAuto) {
4895e5dd7070Spatrick return SubstituteDeducedTypeTransform(*this, TypeToReplaceAuto,
4896e5dd7070Spatrick /*UseTypeSugar*/ false)
4897e5dd7070Spatrick .TransformType(TypeWithAuto);
4898e5dd7070Spatrick }
4899e5dd7070Spatrick
ReplaceAutoTypeSourceInfo(TypeSourceInfo * TypeWithAuto,QualType TypeToReplaceAuto)4900a9ac8606Spatrick TypeSourceInfo *Sema::ReplaceAutoTypeSourceInfo(TypeSourceInfo *TypeWithAuto,
4901a9ac8606Spatrick QualType TypeToReplaceAuto) {
4902a9ac8606Spatrick return SubstituteDeducedTypeTransform(*this, TypeToReplaceAuto,
4903a9ac8606Spatrick /*UseTypeSugar*/ false)
4904a9ac8606Spatrick .TransformType(TypeWithAuto);
4905a9ac8606Spatrick }
4906a9ac8606Spatrick
DiagnoseAutoDeductionFailure(VarDecl * VDecl,Expr * Init)4907e5dd7070Spatrick void Sema::DiagnoseAutoDeductionFailure(VarDecl *VDecl, Expr *Init) {
4908e5dd7070Spatrick if (isa<InitListExpr>(Init))
4909e5dd7070Spatrick Diag(VDecl->getLocation(),
4910e5dd7070Spatrick VDecl->isInitCapture()
4911e5dd7070Spatrick ? diag::err_init_capture_deduction_failure_from_init_list
4912e5dd7070Spatrick : diag::err_auto_var_deduction_failure_from_init_list)
4913e5dd7070Spatrick << VDecl->getDeclName() << VDecl->getType() << Init->getSourceRange();
4914e5dd7070Spatrick else
4915e5dd7070Spatrick Diag(VDecl->getLocation(),
4916e5dd7070Spatrick VDecl->isInitCapture() ? diag::err_init_capture_deduction_failure
4917e5dd7070Spatrick : diag::err_auto_var_deduction_failure)
4918e5dd7070Spatrick << VDecl->getDeclName() << VDecl->getType() << Init->getType()
4919e5dd7070Spatrick << Init->getSourceRange();
4920e5dd7070Spatrick }
4921e5dd7070Spatrick
DeduceReturnType(FunctionDecl * FD,SourceLocation Loc,bool Diagnose)4922e5dd7070Spatrick bool Sema::DeduceReturnType(FunctionDecl *FD, SourceLocation Loc,
4923e5dd7070Spatrick bool Diagnose) {
4924e5dd7070Spatrick assert(FD->getReturnType()->isUndeducedType());
4925e5dd7070Spatrick
4926e5dd7070Spatrick // For a lambda's conversion operator, deduce any 'auto' or 'decltype(auto)'
4927e5dd7070Spatrick // within the return type from the call operator's type.
4928e5dd7070Spatrick if (isLambdaConversionOperator(FD)) {
4929e5dd7070Spatrick CXXRecordDecl *Lambda = cast<CXXMethodDecl>(FD)->getParent();
4930e5dd7070Spatrick FunctionDecl *CallOp = Lambda->getLambdaCallOperator();
4931e5dd7070Spatrick
4932e5dd7070Spatrick // For a generic lambda, instantiate the call operator if needed.
4933e5dd7070Spatrick if (auto *Args = FD->getTemplateSpecializationArgs()) {
4934e5dd7070Spatrick CallOp = InstantiateFunctionDeclaration(
4935e5dd7070Spatrick CallOp->getDescribedFunctionTemplate(), Args, Loc);
4936e5dd7070Spatrick if (!CallOp || CallOp->isInvalidDecl())
4937e5dd7070Spatrick return true;
4938e5dd7070Spatrick
4939e5dd7070Spatrick // We might need to deduce the return type by instantiating the definition
4940e5dd7070Spatrick // of the operator() function.
4941e5dd7070Spatrick if (CallOp->getReturnType()->isUndeducedType()) {
4942e5dd7070Spatrick runWithSufficientStackSpace(Loc, [&] {
4943e5dd7070Spatrick InstantiateFunctionDefinition(Loc, CallOp);
4944e5dd7070Spatrick });
4945e5dd7070Spatrick }
4946e5dd7070Spatrick }
4947e5dd7070Spatrick
4948e5dd7070Spatrick if (CallOp->isInvalidDecl())
4949e5dd7070Spatrick return true;
4950e5dd7070Spatrick assert(!CallOp->getReturnType()->isUndeducedType() &&
4951e5dd7070Spatrick "failed to deduce lambda return type");
4952e5dd7070Spatrick
4953e5dd7070Spatrick // Build the new return type from scratch.
4954a9ac8606Spatrick CallingConv RetTyCC = FD->getReturnType()
4955a9ac8606Spatrick ->getPointeeType()
4956a9ac8606Spatrick ->castAs<FunctionType>()
4957a9ac8606Spatrick ->getCallConv();
4958e5dd7070Spatrick QualType RetType = getLambdaConversionFunctionResultType(
4959a9ac8606Spatrick CallOp->getType()->castAs<FunctionProtoType>(), RetTyCC);
4960e5dd7070Spatrick if (FD->getReturnType()->getAs<PointerType>())
4961e5dd7070Spatrick RetType = Context.getPointerType(RetType);
4962e5dd7070Spatrick else {
4963e5dd7070Spatrick assert(FD->getReturnType()->getAs<BlockPointerType>());
4964e5dd7070Spatrick RetType = Context.getBlockPointerType(RetType);
4965e5dd7070Spatrick }
4966e5dd7070Spatrick Context.adjustDeducedFunctionResultType(FD, RetType);
4967e5dd7070Spatrick return false;
4968e5dd7070Spatrick }
4969e5dd7070Spatrick
4970e5dd7070Spatrick if (FD->getTemplateInstantiationPattern()) {
4971e5dd7070Spatrick runWithSufficientStackSpace(Loc, [&] {
4972e5dd7070Spatrick InstantiateFunctionDefinition(Loc, FD);
4973e5dd7070Spatrick });
4974e5dd7070Spatrick }
4975e5dd7070Spatrick
4976e5dd7070Spatrick bool StillUndeduced = FD->getReturnType()->isUndeducedType();
4977e5dd7070Spatrick if (StillUndeduced && Diagnose && !FD->isInvalidDecl()) {
4978e5dd7070Spatrick Diag(Loc, diag::err_auto_fn_used_before_defined) << FD;
4979e5dd7070Spatrick Diag(FD->getLocation(), diag::note_callee_decl) << FD;
4980e5dd7070Spatrick }
4981e5dd7070Spatrick
4982e5dd7070Spatrick return StillUndeduced;
4983e5dd7070Spatrick }
4984e5dd7070Spatrick
4985e5dd7070Spatrick /// If this is a non-static member function,
4986e5dd7070Spatrick static void
AddImplicitObjectParameterType(ASTContext & Context,CXXMethodDecl * Method,SmallVectorImpl<QualType> & ArgTypes)4987e5dd7070Spatrick AddImplicitObjectParameterType(ASTContext &Context,
4988e5dd7070Spatrick CXXMethodDecl *Method,
4989e5dd7070Spatrick SmallVectorImpl<QualType> &ArgTypes) {
4990e5dd7070Spatrick // C++11 [temp.func.order]p3:
4991e5dd7070Spatrick // [...] The new parameter is of type "reference to cv A," where cv are
4992e5dd7070Spatrick // the cv-qualifiers of the function template (if any) and A is
4993e5dd7070Spatrick // the class of which the function template is a member.
4994e5dd7070Spatrick //
4995e5dd7070Spatrick // The standard doesn't say explicitly, but we pick the appropriate kind of
4996e5dd7070Spatrick // reference type based on [over.match.funcs]p4.
4997e5dd7070Spatrick QualType ArgTy = Context.getTypeDeclType(Method->getParent());
4998e5dd7070Spatrick ArgTy = Context.getQualifiedType(ArgTy, Method->getMethodQualifiers());
4999e5dd7070Spatrick if (Method->getRefQualifier() == RQ_RValue)
5000e5dd7070Spatrick ArgTy = Context.getRValueReferenceType(ArgTy);
5001e5dd7070Spatrick else
5002e5dd7070Spatrick ArgTy = Context.getLValueReferenceType(ArgTy);
5003e5dd7070Spatrick ArgTypes.push_back(ArgTy);
5004e5dd7070Spatrick }
5005e5dd7070Spatrick
5006e5dd7070Spatrick /// Determine whether the function template \p FT1 is at least as
5007e5dd7070Spatrick /// specialized as \p FT2.
isAtLeastAsSpecializedAs(Sema & S,SourceLocation Loc,FunctionTemplateDecl * FT1,FunctionTemplateDecl * FT2,TemplatePartialOrderingContext TPOC,unsigned NumCallArguments1,bool Reversed)5008e5dd7070Spatrick static bool isAtLeastAsSpecializedAs(Sema &S,
5009e5dd7070Spatrick SourceLocation Loc,
5010e5dd7070Spatrick FunctionTemplateDecl *FT1,
5011e5dd7070Spatrick FunctionTemplateDecl *FT2,
5012e5dd7070Spatrick TemplatePartialOrderingContext TPOC,
5013ec727ea7Spatrick unsigned NumCallArguments1,
5014ec727ea7Spatrick bool Reversed) {
5015ec727ea7Spatrick assert(!Reversed || TPOC == TPOC_Call);
5016ec727ea7Spatrick
5017e5dd7070Spatrick FunctionDecl *FD1 = FT1->getTemplatedDecl();
5018e5dd7070Spatrick FunctionDecl *FD2 = FT2->getTemplatedDecl();
5019e5dd7070Spatrick const FunctionProtoType *Proto1 = FD1->getType()->getAs<FunctionProtoType>();
5020e5dd7070Spatrick const FunctionProtoType *Proto2 = FD2->getType()->getAs<FunctionProtoType>();
5021e5dd7070Spatrick
5022e5dd7070Spatrick assert(Proto1 && Proto2 && "Function templates must have prototypes");
5023e5dd7070Spatrick TemplateParameterList *TemplateParams = FT2->getTemplateParameters();
5024e5dd7070Spatrick SmallVector<DeducedTemplateArgument, 4> Deduced;
5025e5dd7070Spatrick Deduced.resize(TemplateParams->size());
5026e5dd7070Spatrick
5027e5dd7070Spatrick // C++0x [temp.deduct.partial]p3:
5028e5dd7070Spatrick // The types used to determine the ordering depend on the context in which
5029e5dd7070Spatrick // the partial ordering is done:
5030e5dd7070Spatrick TemplateDeductionInfo Info(Loc);
5031e5dd7070Spatrick SmallVector<QualType, 4> Args2;
5032e5dd7070Spatrick switch (TPOC) {
5033e5dd7070Spatrick case TPOC_Call: {
5034e5dd7070Spatrick // - In the context of a function call, the function parameter types are
5035e5dd7070Spatrick // used.
5036e5dd7070Spatrick CXXMethodDecl *Method1 = dyn_cast<CXXMethodDecl>(FD1);
5037e5dd7070Spatrick CXXMethodDecl *Method2 = dyn_cast<CXXMethodDecl>(FD2);
5038e5dd7070Spatrick
5039e5dd7070Spatrick // C++11 [temp.func.order]p3:
5040e5dd7070Spatrick // [...] If only one of the function templates is a non-static
5041e5dd7070Spatrick // member, that function template is considered to have a new
5042e5dd7070Spatrick // first parameter inserted in its function parameter list. The
5043e5dd7070Spatrick // new parameter is of type "reference to cv A," where cv are
5044e5dd7070Spatrick // the cv-qualifiers of the function template (if any) and A is
5045e5dd7070Spatrick // the class of which the function template is a member.
5046e5dd7070Spatrick //
5047e5dd7070Spatrick // Note that we interpret this to mean "if one of the function
5048e5dd7070Spatrick // templates is a non-static member and the other is a non-member";
5049e5dd7070Spatrick // otherwise, the ordering rules for static functions against non-static
5050e5dd7070Spatrick // functions don't make any sense.
5051e5dd7070Spatrick //
5052e5dd7070Spatrick // C++98/03 doesn't have this provision but we've extended DR532 to cover
5053e5dd7070Spatrick // it as wording was broken prior to it.
5054e5dd7070Spatrick SmallVector<QualType, 4> Args1;
5055e5dd7070Spatrick
5056e5dd7070Spatrick unsigned NumComparedArguments = NumCallArguments1;
5057e5dd7070Spatrick
5058e5dd7070Spatrick if (!Method2 && Method1 && !Method1->isStatic()) {
5059e5dd7070Spatrick // Compare 'this' from Method1 against first parameter from Method2.
5060e5dd7070Spatrick AddImplicitObjectParameterType(S.Context, Method1, Args1);
5061e5dd7070Spatrick ++NumComparedArguments;
5062e5dd7070Spatrick } else if (!Method1 && Method2 && !Method2->isStatic()) {
5063e5dd7070Spatrick // Compare 'this' from Method2 against first parameter from Method1.
5064e5dd7070Spatrick AddImplicitObjectParameterType(S.Context, Method2, Args2);
5065ec727ea7Spatrick } else if (Method1 && Method2 && Reversed) {
5066ec727ea7Spatrick // Compare 'this' from Method1 against second parameter from Method2
5067ec727ea7Spatrick // and 'this' from Method2 against second parameter from Method1.
5068ec727ea7Spatrick AddImplicitObjectParameterType(S.Context, Method1, Args1);
5069ec727ea7Spatrick AddImplicitObjectParameterType(S.Context, Method2, Args2);
5070ec727ea7Spatrick ++NumComparedArguments;
5071e5dd7070Spatrick }
5072e5dd7070Spatrick
5073e5dd7070Spatrick Args1.insert(Args1.end(), Proto1->param_type_begin(),
5074e5dd7070Spatrick Proto1->param_type_end());
5075e5dd7070Spatrick Args2.insert(Args2.end(), Proto2->param_type_begin(),
5076e5dd7070Spatrick Proto2->param_type_end());
5077e5dd7070Spatrick
5078e5dd7070Spatrick // C++ [temp.func.order]p5:
5079e5dd7070Spatrick // The presence of unused ellipsis and default arguments has no effect on
5080e5dd7070Spatrick // the partial ordering of function templates.
5081e5dd7070Spatrick if (Args1.size() > NumComparedArguments)
5082e5dd7070Spatrick Args1.resize(NumComparedArguments);
5083e5dd7070Spatrick if (Args2.size() > NumComparedArguments)
5084e5dd7070Spatrick Args2.resize(NumComparedArguments);
5085ec727ea7Spatrick if (Reversed)
5086ec727ea7Spatrick std::reverse(Args2.begin(), Args2.end());
5087*12c85518Srobert
5088e5dd7070Spatrick if (DeduceTemplateArguments(S, TemplateParams, Args2.data(), Args2.size(),
5089e5dd7070Spatrick Args1.data(), Args1.size(), Info, Deduced,
5090e5dd7070Spatrick TDF_None, /*PartialOrdering=*/true))
5091e5dd7070Spatrick return false;
5092e5dd7070Spatrick
5093e5dd7070Spatrick break;
5094e5dd7070Spatrick }
5095e5dd7070Spatrick
5096e5dd7070Spatrick case TPOC_Conversion:
5097e5dd7070Spatrick // - In the context of a call to a conversion operator, the return types
5098e5dd7070Spatrick // of the conversion function templates are used.
5099e5dd7070Spatrick if (DeduceTemplateArgumentsByTypeMatch(
5100e5dd7070Spatrick S, TemplateParams, Proto2->getReturnType(), Proto1->getReturnType(),
5101e5dd7070Spatrick Info, Deduced, TDF_None,
5102e5dd7070Spatrick /*PartialOrdering=*/true))
5103e5dd7070Spatrick return false;
5104e5dd7070Spatrick break;
5105e5dd7070Spatrick
5106e5dd7070Spatrick case TPOC_Other:
5107e5dd7070Spatrick // - In other contexts (14.6.6.2) the function template's function type
5108e5dd7070Spatrick // is used.
5109e5dd7070Spatrick if (DeduceTemplateArgumentsByTypeMatch(S, TemplateParams,
5110e5dd7070Spatrick FD2->getType(), FD1->getType(),
5111e5dd7070Spatrick Info, Deduced, TDF_None,
5112e5dd7070Spatrick /*PartialOrdering=*/true))
5113e5dd7070Spatrick return false;
5114e5dd7070Spatrick break;
5115e5dd7070Spatrick }
5116e5dd7070Spatrick
5117e5dd7070Spatrick // C++0x [temp.deduct.partial]p11:
5118e5dd7070Spatrick // In most cases, all template parameters must have values in order for
5119e5dd7070Spatrick // deduction to succeed, but for partial ordering purposes a template
5120e5dd7070Spatrick // parameter may remain without a value provided it is not used in the
5121e5dd7070Spatrick // types being used for partial ordering. [ Note: a template parameter used
5122e5dd7070Spatrick // in a non-deduced context is considered used. -end note]
5123e5dd7070Spatrick unsigned ArgIdx = 0, NumArgs = Deduced.size();
5124e5dd7070Spatrick for (; ArgIdx != NumArgs; ++ArgIdx)
5125e5dd7070Spatrick if (Deduced[ArgIdx].isNull())
5126e5dd7070Spatrick break;
5127e5dd7070Spatrick
5128e5dd7070Spatrick // FIXME: We fail to implement [temp.deduct.type]p1 along this path. We need
5129e5dd7070Spatrick // to substitute the deduced arguments back into the template and check that
5130e5dd7070Spatrick // we get the right type.
5131e5dd7070Spatrick
5132e5dd7070Spatrick if (ArgIdx == NumArgs) {
5133e5dd7070Spatrick // All template arguments were deduced. FT1 is at least as specialized
5134e5dd7070Spatrick // as FT2.
5135e5dd7070Spatrick return true;
5136e5dd7070Spatrick }
5137e5dd7070Spatrick
5138e5dd7070Spatrick // Figure out which template parameters were used.
5139e5dd7070Spatrick llvm::SmallBitVector UsedParameters(TemplateParams->size());
5140e5dd7070Spatrick switch (TPOC) {
5141e5dd7070Spatrick case TPOC_Call:
5142e5dd7070Spatrick for (unsigned I = 0, N = Args2.size(); I != N; ++I)
5143e5dd7070Spatrick ::MarkUsedTemplateParameters(S.Context, Args2[I], false,
5144e5dd7070Spatrick TemplateParams->getDepth(),
5145e5dd7070Spatrick UsedParameters);
5146e5dd7070Spatrick break;
5147e5dd7070Spatrick
5148e5dd7070Spatrick case TPOC_Conversion:
5149e5dd7070Spatrick ::MarkUsedTemplateParameters(S.Context, Proto2->getReturnType(), false,
5150e5dd7070Spatrick TemplateParams->getDepth(), UsedParameters);
5151e5dd7070Spatrick break;
5152e5dd7070Spatrick
5153e5dd7070Spatrick case TPOC_Other:
5154e5dd7070Spatrick ::MarkUsedTemplateParameters(S.Context, FD2->getType(), false,
5155e5dd7070Spatrick TemplateParams->getDepth(),
5156e5dd7070Spatrick UsedParameters);
5157e5dd7070Spatrick break;
5158e5dd7070Spatrick }
5159e5dd7070Spatrick
5160e5dd7070Spatrick for (; ArgIdx != NumArgs; ++ArgIdx)
5161e5dd7070Spatrick // If this argument had no value deduced but was used in one of the types
5162e5dd7070Spatrick // used for partial ordering, then deduction fails.
5163e5dd7070Spatrick if (Deduced[ArgIdx].isNull() && UsedParameters[ArgIdx])
5164e5dd7070Spatrick return false;
5165e5dd7070Spatrick
5166e5dd7070Spatrick return true;
5167e5dd7070Spatrick }
5168e5dd7070Spatrick
5169e5dd7070Spatrick /// Returns the more specialized function template according
5170e5dd7070Spatrick /// to the rules of function template partial ordering (C++ [temp.func.order]).
5171e5dd7070Spatrick ///
5172e5dd7070Spatrick /// \param FT1 the first function template
5173e5dd7070Spatrick ///
5174e5dd7070Spatrick /// \param FT2 the second function template
5175e5dd7070Spatrick ///
5176e5dd7070Spatrick /// \param TPOC the context in which we are performing partial ordering of
5177e5dd7070Spatrick /// function templates.
5178e5dd7070Spatrick ///
5179e5dd7070Spatrick /// \param NumCallArguments1 The number of arguments in the call to FT1, used
5180e5dd7070Spatrick /// only when \c TPOC is \c TPOC_Call.
5181e5dd7070Spatrick ///
5182e5dd7070Spatrick /// \param NumCallArguments2 The number of arguments in the call to FT2, used
5183e5dd7070Spatrick /// only when \c TPOC is \c TPOC_Call.
5184e5dd7070Spatrick ///
5185ec727ea7Spatrick /// \param Reversed If \c true, exactly one of FT1 and FT2 is an overload
5186ec727ea7Spatrick /// candidate with a reversed parameter order. In this case, the corresponding
5187ec727ea7Spatrick /// P/A pairs between FT1 and FT2 are reversed.
5188ec727ea7Spatrick ///
5189e5dd7070Spatrick /// \returns the more specialized function template. If neither
5190e5dd7070Spatrick /// template is more specialized, returns NULL.
getMoreSpecializedTemplate(FunctionTemplateDecl * FT1,FunctionTemplateDecl * FT2,SourceLocation Loc,TemplatePartialOrderingContext TPOC,unsigned NumCallArguments1,unsigned NumCallArguments2,bool Reversed)5191*12c85518Srobert FunctionTemplateDecl *Sema::getMoreSpecializedTemplate(
5192*12c85518Srobert FunctionTemplateDecl *FT1, FunctionTemplateDecl *FT2, SourceLocation Loc,
5193*12c85518Srobert TemplatePartialOrderingContext TPOC, unsigned NumCallArguments1,
5194*12c85518Srobert unsigned NumCallArguments2, bool Reversed) {
5195e5dd7070Spatrick
5196*12c85518Srobert bool Better1 = isAtLeastAsSpecializedAs(*this, Loc, FT1, FT2, TPOC,
5197*12c85518Srobert NumCallArguments1, Reversed);
5198*12c85518Srobert bool Better2 = isAtLeastAsSpecializedAs(*this, Loc, FT2, FT1, TPOC,
5199*12c85518Srobert NumCallArguments2, Reversed);
5200*12c85518Srobert
5201*12c85518Srobert // C++ [temp.deduct.partial]p10:
5202*12c85518Srobert // F is more specialized than G if F is at least as specialized as G and G
5203*12c85518Srobert // is not at least as specialized as F.
5204*12c85518Srobert if (Better1 != Better2) // We have a clear winner
5205*12c85518Srobert return Better1 ? FT1 : FT2;
5206*12c85518Srobert
5207*12c85518Srobert if (!Better1 && !Better2) // Neither is better than the other
5208*12c85518Srobert return nullptr;
5209*12c85518Srobert
5210*12c85518Srobert // C++ [temp.deduct.partial]p11:
5211*12c85518Srobert // ... and if G has a trailing function parameter pack for which F does not
5212*12c85518Srobert // have a corresponding parameter, and if F does not have a trailing
5213*12c85518Srobert // function parameter pack, then F is more specialized than G.
5214*12c85518Srobert FunctionDecl *FD1 = FT1->getTemplatedDecl();
5215*12c85518Srobert FunctionDecl *FD2 = FT2->getTemplatedDecl();
5216*12c85518Srobert unsigned NumParams1 = FD1->getNumParams();
5217*12c85518Srobert unsigned NumParams2 = FD2->getNumParams();
5218*12c85518Srobert bool Variadic1 = NumParams1 && FD1->parameters().back()->isParameterPack();
5219*12c85518Srobert bool Variadic2 = NumParams2 && FD2->parameters().back()->isParameterPack();
5220*12c85518Srobert if (Variadic1 != Variadic2) {
5221*12c85518Srobert if (Variadic1 && NumParams1 > NumParams2)
5222*12c85518Srobert return FT2;
5223*12c85518Srobert if (Variadic2 && NumParams2 > NumParams1)
5224*12c85518Srobert return FT1;
5225*12c85518Srobert }
5226*12c85518Srobert
5227*12c85518Srobert // This a speculative fix for CWG1432 (Similar to the fix for CWG1395) that
5228*12c85518Srobert // there is no wording or even resolution for this issue.
5229*12c85518Srobert for (int i = 0, e = std::min(NumParams1, NumParams2); i < e; ++i) {
5230*12c85518Srobert QualType T1 = FD1->getParamDecl(i)->getType().getCanonicalType();
5231*12c85518Srobert QualType T2 = FD2->getParamDecl(i)->getType().getCanonicalType();
5232*12c85518Srobert auto *TST1 = dyn_cast<TemplateSpecializationType>(T1);
5233*12c85518Srobert auto *TST2 = dyn_cast<TemplateSpecializationType>(T2);
5234*12c85518Srobert if (!TST1 || !TST2)
5235*12c85518Srobert continue;
5236*12c85518Srobert const TemplateArgument &TA1 = TST1->template_arguments().back();
5237*12c85518Srobert if (TA1.getKind() == TemplateArgument::Pack) {
5238*12c85518Srobert assert(TST1->template_arguments().size() ==
5239*12c85518Srobert TST2->template_arguments().size());
5240*12c85518Srobert const TemplateArgument &TA2 = TST2->template_arguments().back();
5241*12c85518Srobert assert(TA2.getKind() == TemplateArgument::Pack);
5242*12c85518Srobert unsigned PackSize1 = TA1.pack_size();
5243*12c85518Srobert unsigned PackSize2 = TA2.pack_size();
5244*12c85518Srobert bool IsPackExpansion1 =
5245*12c85518Srobert PackSize1 && TA1.pack_elements().back().isPackExpansion();
5246*12c85518Srobert bool IsPackExpansion2 =
5247*12c85518Srobert PackSize2 && TA2.pack_elements().back().isPackExpansion();
5248*12c85518Srobert if (PackSize1 != PackSize2 && IsPackExpansion1 != IsPackExpansion2) {
5249*12c85518Srobert if (PackSize1 > PackSize2 && IsPackExpansion1)
5250*12c85518Srobert return FT2;
5251*12c85518Srobert if (PackSize1 < PackSize2 && IsPackExpansion2)
5252*12c85518Srobert return FT1;
5253*12c85518Srobert }
5254*12c85518Srobert }
5255*12c85518Srobert }
5256*12c85518Srobert
5257*12c85518Srobert if (!Context.getLangOpts().CPlusPlus20)
5258*12c85518Srobert return nullptr;
5259*12c85518Srobert
5260*12c85518Srobert // Match GCC on not implementing [temp.func.order]p6.2.1.
5261*12c85518Srobert
5262*12c85518Srobert // C++20 [temp.func.order]p6:
5263*12c85518Srobert // If deduction against the other template succeeds for both transformed
5264*12c85518Srobert // templates, constraints can be considered as follows:
5265*12c85518Srobert
5266*12c85518Srobert // C++20 [temp.func.order]p6.1:
5267*12c85518Srobert // If their template-parameter-lists (possibly including template-parameters
5268*12c85518Srobert // invented for an abbreviated function template ([dcl.fct])) or function
5269*12c85518Srobert // parameter lists differ in length, neither template is more specialized
5270*12c85518Srobert // than the other.
5271*12c85518Srobert TemplateParameterList *TPL1 = FT1->getTemplateParameters();
5272*12c85518Srobert TemplateParameterList *TPL2 = FT2->getTemplateParameters();
5273*12c85518Srobert if (TPL1->size() != TPL2->size() || NumParams1 != NumParams2)
5274*12c85518Srobert return nullptr;
5275*12c85518Srobert
5276*12c85518Srobert // C++20 [temp.func.order]p6.2.2:
5277*12c85518Srobert // Otherwise, if the corresponding template-parameters of the
5278*12c85518Srobert // template-parameter-lists are not equivalent ([temp.over.link]) or if the
5279*12c85518Srobert // function parameters that positionally correspond between the two
5280*12c85518Srobert // templates are not of the same type, neither template is more specialized
5281*12c85518Srobert // than the other.
5282*12c85518Srobert if (!TemplateParameterListsAreEqual(
5283*12c85518Srobert TPL1, TPL2, false, Sema::TPL_TemplateMatch, SourceLocation(), true))
5284*12c85518Srobert return nullptr;
5285*12c85518Srobert
5286*12c85518Srobert for (unsigned i = 0; i < NumParams1; ++i)
5287*12c85518Srobert if (!Context.hasSameType(FD1->getParamDecl(i)->getType(),
5288*12c85518Srobert FD2->getParamDecl(i)->getType()))
5289*12c85518Srobert return nullptr;
5290*12c85518Srobert
5291*12c85518Srobert // C++20 [temp.func.order]p6.3:
5292*12c85518Srobert // Otherwise, if the context in which the partial ordering is done is
5293*12c85518Srobert // that of a call to a conversion function and the return types of the
5294*12c85518Srobert // templates are not the same, then neither template is more specialized
5295*12c85518Srobert // than the other.
5296*12c85518Srobert if (TPOC == TPOC_Conversion &&
5297*12c85518Srobert !Context.hasSameType(FD1->getReturnType(), FD2->getReturnType()))
5298*12c85518Srobert return nullptr;
5299*12c85518Srobert
5300e5dd7070Spatrick llvm::SmallVector<const Expr *, 3> AC1, AC2;
5301e5dd7070Spatrick FT1->getAssociatedConstraints(AC1);
5302e5dd7070Spatrick FT2->getAssociatedConstraints(AC2);
5303e5dd7070Spatrick bool AtLeastAsConstrained1, AtLeastAsConstrained2;
5304e5dd7070Spatrick if (IsAtLeastAsConstrained(FT1, AC1, FT2, AC2, AtLeastAsConstrained1))
5305e5dd7070Spatrick return nullptr;
5306e5dd7070Spatrick if (IsAtLeastAsConstrained(FT2, AC2, FT1, AC1, AtLeastAsConstrained2))
5307e5dd7070Spatrick return nullptr;
5308e5dd7070Spatrick if (AtLeastAsConstrained1 == AtLeastAsConstrained2)
5309e5dd7070Spatrick return nullptr;
5310e5dd7070Spatrick return AtLeastAsConstrained1 ? FT1 : FT2;
5311e5dd7070Spatrick }
5312e5dd7070Spatrick
5313e5dd7070Spatrick /// Determine if the two templates are equivalent.
isSameTemplate(TemplateDecl * T1,TemplateDecl * T2)5314e5dd7070Spatrick static bool isSameTemplate(TemplateDecl *T1, TemplateDecl *T2) {
5315e5dd7070Spatrick if (T1 == T2)
5316e5dd7070Spatrick return true;
5317e5dd7070Spatrick
5318e5dd7070Spatrick if (!T1 || !T2)
5319e5dd7070Spatrick return false;
5320e5dd7070Spatrick
5321e5dd7070Spatrick return T1->getCanonicalDecl() == T2->getCanonicalDecl();
5322e5dd7070Spatrick }
5323e5dd7070Spatrick
5324e5dd7070Spatrick /// Retrieve the most specialized of the given function template
5325e5dd7070Spatrick /// specializations.
5326e5dd7070Spatrick ///
5327e5dd7070Spatrick /// \param SpecBegin the start iterator of the function template
5328e5dd7070Spatrick /// specializations that we will be comparing.
5329e5dd7070Spatrick ///
5330e5dd7070Spatrick /// \param SpecEnd the end iterator of the function template
5331e5dd7070Spatrick /// specializations, paired with \p SpecBegin.
5332e5dd7070Spatrick ///
5333e5dd7070Spatrick /// \param Loc the location where the ambiguity or no-specializations
5334e5dd7070Spatrick /// diagnostic should occur.
5335e5dd7070Spatrick ///
5336e5dd7070Spatrick /// \param NoneDiag partial diagnostic used to diagnose cases where there are
5337e5dd7070Spatrick /// no matching candidates.
5338e5dd7070Spatrick ///
5339e5dd7070Spatrick /// \param AmbigDiag partial diagnostic used to diagnose an ambiguity, if one
5340e5dd7070Spatrick /// occurs.
5341e5dd7070Spatrick ///
5342e5dd7070Spatrick /// \param CandidateDiag partial diagnostic used for each function template
5343e5dd7070Spatrick /// specialization that is a candidate in the ambiguous ordering. One parameter
5344e5dd7070Spatrick /// in this diagnostic should be unbound, which will correspond to the string
5345e5dd7070Spatrick /// describing the template arguments for the function template specialization.
5346e5dd7070Spatrick ///
5347e5dd7070Spatrick /// \returns the most specialized function template specialization, if
5348e5dd7070Spatrick /// found. Otherwise, returns SpecEnd.
getMostSpecialized(UnresolvedSetIterator SpecBegin,UnresolvedSetIterator SpecEnd,TemplateSpecCandidateSet & FailedCandidates,SourceLocation Loc,const PartialDiagnostic & NoneDiag,const PartialDiagnostic & AmbigDiag,const PartialDiagnostic & CandidateDiag,bool Complain,QualType TargetType)5349e5dd7070Spatrick UnresolvedSetIterator Sema::getMostSpecialized(
5350e5dd7070Spatrick UnresolvedSetIterator SpecBegin, UnresolvedSetIterator SpecEnd,
5351e5dd7070Spatrick TemplateSpecCandidateSet &FailedCandidates,
5352e5dd7070Spatrick SourceLocation Loc, const PartialDiagnostic &NoneDiag,
5353e5dd7070Spatrick const PartialDiagnostic &AmbigDiag, const PartialDiagnostic &CandidateDiag,
5354e5dd7070Spatrick bool Complain, QualType TargetType) {
5355e5dd7070Spatrick if (SpecBegin == SpecEnd) {
5356e5dd7070Spatrick if (Complain) {
5357e5dd7070Spatrick Diag(Loc, NoneDiag);
5358e5dd7070Spatrick FailedCandidates.NoteCandidates(*this, Loc);
5359e5dd7070Spatrick }
5360e5dd7070Spatrick return SpecEnd;
5361e5dd7070Spatrick }
5362e5dd7070Spatrick
5363e5dd7070Spatrick if (SpecBegin + 1 == SpecEnd)
5364e5dd7070Spatrick return SpecBegin;
5365e5dd7070Spatrick
5366e5dd7070Spatrick // Find the function template that is better than all of the templates it
5367e5dd7070Spatrick // has been compared to.
5368e5dd7070Spatrick UnresolvedSetIterator Best = SpecBegin;
5369e5dd7070Spatrick FunctionTemplateDecl *BestTemplate
5370e5dd7070Spatrick = cast<FunctionDecl>(*Best)->getPrimaryTemplate();
5371e5dd7070Spatrick assert(BestTemplate && "Not a function template specialization?");
5372e5dd7070Spatrick for (UnresolvedSetIterator I = SpecBegin + 1; I != SpecEnd; ++I) {
5373e5dd7070Spatrick FunctionTemplateDecl *Challenger
5374e5dd7070Spatrick = cast<FunctionDecl>(*I)->getPrimaryTemplate();
5375e5dd7070Spatrick assert(Challenger && "Not a function template specialization?");
5376e5dd7070Spatrick if (isSameTemplate(getMoreSpecializedTemplate(BestTemplate, Challenger,
5377e5dd7070Spatrick Loc, TPOC_Other, 0, 0),
5378e5dd7070Spatrick Challenger)) {
5379e5dd7070Spatrick Best = I;
5380e5dd7070Spatrick BestTemplate = Challenger;
5381e5dd7070Spatrick }
5382e5dd7070Spatrick }
5383e5dd7070Spatrick
5384e5dd7070Spatrick // Make sure that the "best" function template is more specialized than all
5385e5dd7070Spatrick // of the others.
5386e5dd7070Spatrick bool Ambiguous = false;
5387e5dd7070Spatrick for (UnresolvedSetIterator I = SpecBegin; I != SpecEnd; ++I) {
5388e5dd7070Spatrick FunctionTemplateDecl *Challenger
5389e5dd7070Spatrick = cast<FunctionDecl>(*I)->getPrimaryTemplate();
5390e5dd7070Spatrick if (I != Best &&
5391e5dd7070Spatrick !isSameTemplate(getMoreSpecializedTemplate(BestTemplate, Challenger,
5392e5dd7070Spatrick Loc, TPOC_Other, 0, 0),
5393e5dd7070Spatrick BestTemplate)) {
5394e5dd7070Spatrick Ambiguous = true;
5395e5dd7070Spatrick break;
5396e5dd7070Spatrick }
5397e5dd7070Spatrick }
5398e5dd7070Spatrick
5399e5dd7070Spatrick if (!Ambiguous) {
5400e5dd7070Spatrick // We found an answer. Return it.
5401e5dd7070Spatrick return Best;
5402e5dd7070Spatrick }
5403e5dd7070Spatrick
5404e5dd7070Spatrick // Diagnose the ambiguity.
5405e5dd7070Spatrick if (Complain) {
5406e5dd7070Spatrick Diag(Loc, AmbigDiag);
5407e5dd7070Spatrick
5408e5dd7070Spatrick // FIXME: Can we order the candidates in some sane way?
5409e5dd7070Spatrick for (UnresolvedSetIterator I = SpecBegin; I != SpecEnd; ++I) {
5410e5dd7070Spatrick PartialDiagnostic PD = CandidateDiag;
5411e5dd7070Spatrick const auto *FD = cast<FunctionDecl>(*I);
5412e5dd7070Spatrick PD << FD << getTemplateArgumentBindingsText(
5413e5dd7070Spatrick FD->getPrimaryTemplate()->getTemplateParameters(),
5414e5dd7070Spatrick *FD->getTemplateSpecializationArgs());
5415e5dd7070Spatrick if (!TargetType.isNull())
5416e5dd7070Spatrick HandleFunctionTypeMismatch(PD, FD->getType(), TargetType);
5417e5dd7070Spatrick Diag((*I)->getLocation(), PD);
5418e5dd7070Spatrick }
5419e5dd7070Spatrick }
5420e5dd7070Spatrick
5421e5dd7070Spatrick return SpecEnd;
5422e5dd7070Spatrick }
5423e5dd7070Spatrick
5424e5dd7070Spatrick /// Determine whether one partial specialization, P1, is at least as
5425e5dd7070Spatrick /// specialized than another, P2.
5426e5dd7070Spatrick ///
5427e5dd7070Spatrick /// \tparam TemplateLikeDecl The kind of P2, which must be a
5428e5dd7070Spatrick /// TemplateDecl or {Class,Var}TemplatePartialSpecializationDecl.
5429e5dd7070Spatrick /// \param T1 The injected-class-name of P1 (faked for a variable template).
5430e5dd7070Spatrick /// \param T2 The injected-class-name of P2 (faked for a variable template).
5431e5dd7070Spatrick template<typename TemplateLikeDecl>
isAtLeastAsSpecializedAs(Sema & S,QualType T1,QualType T2,TemplateLikeDecl * P2,TemplateDeductionInfo & Info)5432e5dd7070Spatrick static bool isAtLeastAsSpecializedAs(Sema &S, QualType T1, QualType T2,
5433e5dd7070Spatrick TemplateLikeDecl *P2,
5434e5dd7070Spatrick TemplateDeductionInfo &Info) {
5435e5dd7070Spatrick // C++ [temp.class.order]p1:
5436e5dd7070Spatrick // For two class template partial specializations, the first is at least as
5437e5dd7070Spatrick // specialized as the second if, given the following rewrite to two
5438e5dd7070Spatrick // function templates, the first function template is at least as
5439e5dd7070Spatrick // specialized as the second according to the ordering rules for function
5440e5dd7070Spatrick // templates (14.6.6.2):
5441e5dd7070Spatrick // - the first function template has the same template parameters as the
5442e5dd7070Spatrick // first partial specialization and has a single function parameter
5443e5dd7070Spatrick // whose type is a class template specialization with the template
5444e5dd7070Spatrick // arguments of the first partial specialization, and
5445e5dd7070Spatrick // - the second function template has the same template parameters as the
5446e5dd7070Spatrick // second partial specialization and has a single function parameter
5447e5dd7070Spatrick // whose type is a class template specialization with the template
5448e5dd7070Spatrick // arguments of the second partial specialization.
5449e5dd7070Spatrick //
5450e5dd7070Spatrick // Rather than synthesize function templates, we merely perform the
5451e5dd7070Spatrick // equivalent partial ordering by performing deduction directly on
5452e5dd7070Spatrick // the template arguments of the class template partial
5453e5dd7070Spatrick // specializations. This computation is slightly simpler than the
5454e5dd7070Spatrick // general problem of function template partial ordering, because
5455e5dd7070Spatrick // class template partial specializations are more constrained. We
5456e5dd7070Spatrick // know that every template parameter is deducible from the class
5457e5dd7070Spatrick // template partial specialization's template arguments, for
5458e5dd7070Spatrick // example.
5459e5dd7070Spatrick SmallVector<DeducedTemplateArgument, 4> Deduced;
5460e5dd7070Spatrick
5461e5dd7070Spatrick // Determine whether P1 is at least as specialized as P2.
5462e5dd7070Spatrick Deduced.resize(P2->getTemplateParameters()->size());
5463e5dd7070Spatrick if (DeduceTemplateArgumentsByTypeMatch(S, P2->getTemplateParameters(),
5464e5dd7070Spatrick T2, T1, Info, Deduced, TDF_None,
5465e5dd7070Spatrick /*PartialOrdering=*/true))
5466e5dd7070Spatrick return false;
5467e5dd7070Spatrick
5468e5dd7070Spatrick SmallVector<TemplateArgument, 4> DeducedArgs(Deduced.begin(),
5469e5dd7070Spatrick Deduced.end());
5470e5dd7070Spatrick Sema::InstantiatingTemplate Inst(S, Info.getLocation(), P2, DeducedArgs,
5471e5dd7070Spatrick Info);
5472a9ac8606Spatrick if (Inst.isInvalid())
5473a9ac8606Spatrick return false;
5474a9ac8606Spatrick
5475*12c85518Srobert const auto *TST1 = cast<TemplateSpecializationType>(T1);
5476ec727ea7Spatrick bool AtLeastAsSpecialized;
5477ec727ea7Spatrick S.runWithSufficientStackSpace(Info.getLocation(), [&] {
5478ec727ea7Spatrick AtLeastAsSpecialized = !FinishTemplateArgumentDeduction(
5479e5dd7070Spatrick S, P2, /*IsPartialOrdering=*/true,
5480e5dd7070Spatrick TemplateArgumentList(TemplateArgumentList::OnStack,
5481e5dd7070Spatrick TST1->template_arguments()),
5482ec727ea7Spatrick Deduced, Info);
5483ec727ea7Spatrick });
5484ec727ea7Spatrick return AtLeastAsSpecialized;
5485e5dd7070Spatrick }
5486e5dd7070Spatrick
5487*12c85518Srobert namespace {
5488*12c85518Srobert // A dummy class to return nullptr instead of P2 when performing "more
5489*12c85518Srobert // specialized than primary" check.
5490*12c85518Srobert struct GetP2 {
5491*12c85518Srobert template <typename T1, typename T2,
5492*12c85518Srobert std::enable_if_t<std::is_same_v<T1, T2>, bool> = true>
operator ()__anon584b56871611::GetP25493*12c85518Srobert T2 *operator()(T1 *, T2 *P2) {
5494*12c85518Srobert return P2;
5495*12c85518Srobert }
5496*12c85518Srobert template <typename T1, typename T2,
5497*12c85518Srobert std::enable_if_t<!std::is_same_v<T1, T2>, bool> = true>
operator ()__anon584b56871611::GetP25498*12c85518Srobert T1 *operator()(T1 *, T2 *) {
5499*12c85518Srobert return nullptr;
5500*12c85518Srobert }
5501*12c85518Srobert };
5502*12c85518Srobert
5503*12c85518Srobert // The assumption is that two template argument lists have the same size.
5504*12c85518Srobert struct TemplateArgumentListAreEqual {
5505*12c85518Srobert ASTContext &Ctx;
TemplateArgumentListAreEqual__anon584b56871611::TemplateArgumentListAreEqual5506*12c85518Srobert TemplateArgumentListAreEqual(ASTContext &Ctx) : Ctx(Ctx) {}
5507*12c85518Srobert
5508*12c85518Srobert template <typename T1, typename T2,
5509*12c85518Srobert std::enable_if_t<std::is_same_v<T1, T2>, bool> = true>
operator ()__anon584b56871611::TemplateArgumentListAreEqual5510*12c85518Srobert bool operator()(T1 *PS1, T2 *PS2) {
5511*12c85518Srobert ArrayRef<TemplateArgument> Args1 = PS1->getTemplateArgs().asArray(),
5512*12c85518Srobert Args2 = PS2->getTemplateArgs().asArray();
5513*12c85518Srobert
5514*12c85518Srobert for (unsigned I = 0, E = Args1.size(); I < E; ++I) {
5515*12c85518Srobert // We use profile, instead of structural comparison of the arguments,
5516*12c85518Srobert // because canonicalization can't do the right thing for dependent
5517*12c85518Srobert // expressions.
5518*12c85518Srobert llvm::FoldingSetNodeID IDA, IDB;
5519*12c85518Srobert Args1[I].Profile(IDA, Ctx);
5520*12c85518Srobert Args2[I].Profile(IDB, Ctx);
5521*12c85518Srobert if (IDA != IDB)
5522*12c85518Srobert return false;
5523*12c85518Srobert }
5524*12c85518Srobert return true;
5525*12c85518Srobert }
5526*12c85518Srobert
5527*12c85518Srobert template <typename T1, typename T2,
5528*12c85518Srobert std::enable_if_t<!std::is_same_v<T1, T2>, bool> = true>
operator ()__anon584b56871611::TemplateArgumentListAreEqual5529*12c85518Srobert bool operator()(T1 *Spec, T2 *Primary) {
5530*12c85518Srobert ArrayRef<TemplateArgument> Args1 = Spec->getTemplateArgs().asArray(),
5531*12c85518Srobert Args2 = Primary->getInjectedTemplateArgs();
5532*12c85518Srobert
5533*12c85518Srobert for (unsigned I = 0, E = Args1.size(); I < E; ++I) {
5534*12c85518Srobert // We use profile, instead of structural comparison of the arguments,
5535*12c85518Srobert // because canonicalization can't do the right thing for dependent
5536*12c85518Srobert // expressions.
5537*12c85518Srobert llvm::FoldingSetNodeID IDA, IDB;
5538*12c85518Srobert Args1[I].Profile(IDA, Ctx);
5539*12c85518Srobert // Unlike the specialization arguments, the injected arguments are not
5540*12c85518Srobert // always canonical.
5541*12c85518Srobert Ctx.getCanonicalTemplateArgument(Args2[I]).Profile(IDB, Ctx);
5542*12c85518Srobert if (IDA != IDB)
5543*12c85518Srobert return false;
5544*12c85518Srobert }
5545*12c85518Srobert return true;
5546*12c85518Srobert }
5547*12c85518Srobert };
5548*12c85518Srobert } // namespace
5549*12c85518Srobert
5550*12c85518Srobert /// Returns the more specialized template specialization between T1/P1 and
5551*12c85518Srobert /// T2/P2.
5552*12c85518Srobert /// - If IsMoreSpecialThanPrimaryCheck is true, T1/P1 is the partial
5553*12c85518Srobert /// specialization and T2/P2 is the primary template.
5554*12c85518Srobert /// - otherwise, both T1/P1 and T2/P2 are the partial specialization.
5555*12c85518Srobert ///
5556*12c85518Srobert /// \param T1 the type of the first template partial specialization
5557*12c85518Srobert ///
5558*12c85518Srobert /// \param T2 if IsMoreSpecialThanPrimaryCheck is true, the type of the second
5559*12c85518Srobert /// template partial specialization; otherwise, the type of the
5560*12c85518Srobert /// primary template.
5561*12c85518Srobert ///
5562*12c85518Srobert /// \param P1 the first template partial specialization
5563*12c85518Srobert ///
5564*12c85518Srobert /// \param P2 if IsMoreSpecialThanPrimaryCheck is true, the second template
5565*12c85518Srobert /// partial specialization; otherwise, the primary template.
5566*12c85518Srobert ///
5567*12c85518Srobert /// \returns - If IsMoreSpecialThanPrimaryCheck is true, returns P1 if P1 is
5568*12c85518Srobert /// more specialized, returns nullptr if P1 is not more specialized.
5569*12c85518Srobert /// - otherwise, returns the more specialized template partial
5570*12c85518Srobert /// specialization. If neither partial specialization is more
5571*12c85518Srobert /// specialized, returns NULL.
5572*12c85518Srobert template <typename TemplateLikeDecl, typename PrimaryDel>
5573*12c85518Srobert static TemplateLikeDecl *
getMoreSpecialized(Sema & S,QualType T1,QualType T2,TemplateLikeDecl * P1,PrimaryDel * P2,TemplateDeductionInfo & Info)5574*12c85518Srobert getMoreSpecialized(Sema &S, QualType T1, QualType T2, TemplateLikeDecl *P1,
5575*12c85518Srobert PrimaryDel *P2, TemplateDeductionInfo &Info) {
5576*12c85518Srobert constexpr bool IsMoreSpecialThanPrimaryCheck =
5577*12c85518Srobert !std::is_same_v<TemplateLikeDecl, PrimaryDel>;
5578*12c85518Srobert
5579*12c85518Srobert bool Better1 = isAtLeastAsSpecializedAs(S, T1, T2, P2, Info);
5580*12c85518Srobert if (IsMoreSpecialThanPrimaryCheck && !Better1)
5581*12c85518Srobert return nullptr;
5582*12c85518Srobert
5583*12c85518Srobert bool Better2 = isAtLeastAsSpecializedAs(S, T2, T1, P1, Info);
5584*12c85518Srobert if (IsMoreSpecialThanPrimaryCheck && !Better2)
5585*12c85518Srobert return P1;
5586*12c85518Srobert
5587*12c85518Srobert // C++ [temp.deduct.partial]p10:
5588*12c85518Srobert // F is more specialized than G if F is at least as specialized as G and G
5589*12c85518Srobert // is not at least as specialized as F.
5590*12c85518Srobert if (Better1 != Better2) // We have a clear winner
5591*12c85518Srobert return Better1 ? P1 : GetP2()(P1, P2);
5592*12c85518Srobert
5593*12c85518Srobert if (!Better1 && !Better2)
5594*12c85518Srobert return nullptr;
5595*12c85518Srobert
5596*12c85518Srobert // This a speculative fix for CWG1432 (Similar to the fix for CWG1395) that
5597*12c85518Srobert // there is no wording or even resolution for this issue.
5598*12c85518Srobert auto *TST1 = cast<TemplateSpecializationType>(T1);
5599*12c85518Srobert auto *TST2 = cast<TemplateSpecializationType>(T2);
5600*12c85518Srobert const TemplateArgument &TA1 = TST1->template_arguments().back();
5601*12c85518Srobert if (TA1.getKind() == TemplateArgument::Pack) {
5602*12c85518Srobert assert(TST1->template_arguments().size() ==
5603*12c85518Srobert TST2->template_arguments().size());
5604*12c85518Srobert const TemplateArgument &TA2 = TST2->template_arguments().back();
5605*12c85518Srobert assert(TA2.getKind() == TemplateArgument::Pack);
5606*12c85518Srobert unsigned PackSize1 = TA1.pack_size();
5607*12c85518Srobert unsigned PackSize2 = TA2.pack_size();
5608*12c85518Srobert bool IsPackExpansion1 =
5609*12c85518Srobert PackSize1 && TA1.pack_elements().back().isPackExpansion();
5610*12c85518Srobert bool IsPackExpansion2 =
5611*12c85518Srobert PackSize2 && TA2.pack_elements().back().isPackExpansion();
5612*12c85518Srobert if (PackSize1 != PackSize2 && IsPackExpansion1 != IsPackExpansion2) {
5613*12c85518Srobert if (PackSize1 > PackSize2 && IsPackExpansion1)
5614*12c85518Srobert return GetP2()(P1, P2);
5615*12c85518Srobert if (PackSize1 < PackSize2 && IsPackExpansion2)
5616*12c85518Srobert return P1;
5617*12c85518Srobert }
5618*12c85518Srobert }
5619*12c85518Srobert
5620*12c85518Srobert if (!S.Context.getLangOpts().CPlusPlus20)
5621*12c85518Srobert return nullptr;
5622*12c85518Srobert
5623*12c85518Srobert // Match GCC on not implementing [temp.func.order]p6.2.1.
5624*12c85518Srobert
5625*12c85518Srobert // C++20 [temp.func.order]p6:
5626*12c85518Srobert // If deduction against the other template succeeds for both transformed
5627*12c85518Srobert // templates, constraints can be considered as follows:
5628*12c85518Srobert
5629*12c85518Srobert TemplateParameterList *TPL1 = P1->getTemplateParameters();
5630*12c85518Srobert TemplateParameterList *TPL2 = P2->getTemplateParameters();
5631*12c85518Srobert if (TPL1->size() != TPL2->size())
5632*12c85518Srobert return nullptr;
5633*12c85518Srobert
5634*12c85518Srobert // C++20 [temp.func.order]p6.2.2:
5635*12c85518Srobert // Otherwise, if the corresponding template-parameters of the
5636*12c85518Srobert // template-parameter-lists are not equivalent ([temp.over.link]) or if the
5637*12c85518Srobert // function parameters that positionally correspond between the two
5638*12c85518Srobert // templates are not of the same type, neither template is more specialized
5639*12c85518Srobert // than the other.
5640*12c85518Srobert if (!S.TemplateParameterListsAreEqual(
5641*12c85518Srobert TPL1, TPL2, false, Sema::TPL_TemplateMatch, SourceLocation(), true))
5642*12c85518Srobert return nullptr;
5643*12c85518Srobert
5644*12c85518Srobert if (!TemplateArgumentListAreEqual(S.getASTContext())(P1, P2))
5645*12c85518Srobert return nullptr;
5646*12c85518Srobert
5647*12c85518Srobert llvm::SmallVector<const Expr *, 3> AC1, AC2;
5648*12c85518Srobert P1->getAssociatedConstraints(AC1);
5649*12c85518Srobert P2->getAssociatedConstraints(AC2);
5650*12c85518Srobert bool AtLeastAsConstrained1, AtLeastAsConstrained2;
5651*12c85518Srobert if (S.IsAtLeastAsConstrained(P1, AC1, P2, AC2, AtLeastAsConstrained1) ||
5652*12c85518Srobert (IsMoreSpecialThanPrimaryCheck && !AtLeastAsConstrained1))
5653*12c85518Srobert return nullptr;
5654*12c85518Srobert if (S.IsAtLeastAsConstrained(P2, AC2, P1, AC1, AtLeastAsConstrained2))
5655*12c85518Srobert return nullptr;
5656*12c85518Srobert if (AtLeastAsConstrained1 == AtLeastAsConstrained2)
5657*12c85518Srobert return nullptr;
5658*12c85518Srobert return AtLeastAsConstrained1 ? P1 : GetP2()(P1, P2);
5659*12c85518Srobert }
5660*12c85518Srobert
5661e5dd7070Spatrick /// Returns the more specialized class template partial specialization
5662e5dd7070Spatrick /// according to the rules of partial ordering of class template partial
5663e5dd7070Spatrick /// specializations (C++ [temp.class.order]).
5664e5dd7070Spatrick ///
5665e5dd7070Spatrick /// \param PS1 the first class template partial specialization
5666e5dd7070Spatrick ///
5667e5dd7070Spatrick /// \param PS2 the second class template partial specialization
5668e5dd7070Spatrick ///
5669e5dd7070Spatrick /// \returns the more specialized class template partial specialization. If
5670e5dd7070Spatrick /// neither partial specialization is more specialized, returns NULL.
5671e5dd7070Spatrick ClassTemplatePartialSpecializationDecl *
getMoreSpecializedPartialSpecialization(ClassTemplatePartialSpecializationDecl * PS1,ClassTemplatePartialSpecializationDecl * PS2,SourceLocation Loc)5672e5dd7070Spatrick Sema::getMoreSpecializedPartialSpecialization(
5673e5dd7070Spatrick ClassTemplatePartialSpecializationDecl *PS1,
5674e5dd7070Spatrick ClassTemplatePartialSpecializationDecl *PS2,
5675e5dd7070Spatrick SourceLocation Loc) {
5676e5dd7070Spatrick QualType PT1 = PS1->getInjectedSpecializationType();
5677e5dd7070Spatrick QualType PT2 = PS2->getInjectedSpecializationType();
5678e5dd7070Spatrick
5679e5dd7070Spatrick TemplateDeductionInfo Info(Loc);
5680*12c85518Srobert return getMoreSpecialized(*this, PT1, PT2, PS1, PS2, Info);
5681e5dd7070Spatrick }
5682e5dd7070Spatrick
isMoreSpecializedThanPrimary(ClassTemplatePartialSpecializationDecl * Spec,TemplateDeductionInfo & Info)5683e5dd7070Spatrick bool Sema::isMoreSpecializedThanPrimary(
5684e5dd7070Spatrick ClassTemplatePartialSpecializationDecl *Spec, TemplateDeductionInfo &Info) {
5685e5dd7070Spatrick ClassTemplateDecl *Primary = Spec->getSpecializedTemplate();
5686e5dd7070Spatrick QualType PrimaryT = Primary->getInjectedClassNameSpecialization();
5687e5dd7070Spatrick QualType PartialT = Spec->getInjectedSpecializationType();
5688*12c85518Srobert
5689*12c85518Srobert ClassTemplatePartialSpecializationDecl *MaybeSpec =
5690*12c85518Srobert getMoreSpecialized(*this, PartialT, PrimaryT, Spec, Primary, Info);
5691*12c85518Srobert if (MaybeSpec)
5692e5dd7070Spatrick Info.clearSFINAEDiagnostic();
5693*12c85518Srobert return MaybeSpec;
5694e5dd7070Spatrick }
5695e5dd7070Spatrick
5696e5dd7070Spatrick VarTemplatePartialSpecializationDecl *
getMoreSpecializedPartialSpecialization(VarTemplatePartialSpecializationDecl * PS1,VarTemplatePartialSpecializationDecl * PS2,SourceLocation Loc)5697e5dd7070Spatrick Sema::getMoreSpecializedPartialSpecialization(
5698e5dd7070Spatrick VarTemplatePartialSpecializationDecl *PS1,
5699e5dd7070Spatrick VarTemplatePartialSpecializationDecl *PS2, SourceLocation Loc) {
5700e5dd7070Spatrick // Pretend the variable template specializations are class template
5701e5dd7070Spatrick // specializations and form a fake injected class name type for comparison.
5702e5dd7070Spatrick assert(PS1->getSpecializedTemplate() == PS2->getSpecializedTemplate() &&
5703e5dd7070Spatrick "the partial specializations being compared should specialize"
5704e5dd7070Spatrick " the same template.");
5705e5dd7070Spatrick TemplateName Name(PS1->getSpecializedTemplate());
5706e5dd7070Spatrick TemplateName CanonTemplate = Context.getCanonicalTemplateName(Name);
5707e5dd7070Spatrick QualType PT1 = Context.getTemplateSpecializationType(
5708e5dd7070Spatrick CanonTemplate, PS1->getTemplateArgs().asArray());
5709e5dd7070Spatrick QualType PT2 = Context.getTemplateSpecializationType(
5710e5dd7070Spatrick CanonTemplate, PS2->getTemplateArgs().asArray());
5711e5dd7070Spatrick
5712e5dd7070Spatrick TemplateDeductionInfo Info(Loc);
5713*12c85518Srobert return getMoreSpecialized(*this, PT1, PT2, PS1, PS2, Info);
5714e5dd7070Spatrick }
5715e5dd7070Spatrick
isMoreSpecializedThanPrimary(VarTemplatePartialSpecializationDecl * Spec,TemplateDeductionInfo & Info)5716e5dd7070Spatrick bool Sema::isMoreSpecializedThanPrimary(
5717e5dd7070Spatrick VarTemplatePartialSpecializationDecl *Spec, TemplateDeductionInfo &Info) {
5718*12c85518Srobert VarTemplateDecl *Primary = Spec->getSpecializedTemplate();
5719e5dd7070Spatrick TemplateName CanonTemplate =
5720e5dd7070Spatrick Context.getCanonicalTemplateName(TemplateName(Primary));
5721e5dd7070Spatrick QualType PrimaryT = Context.getTemplateSpecializationType(
5722*12c85518Srobert CanonTemplate, Primary->getInjectedTemplateArgs());
5723e5dd7070Spatrick QualType PartialT = Context.getTemplateSpecializationType(
5724e5dd7070Spatrick CanonTemplate, Spec->getTemplateArgs().asArray());
5725e5dd7070Spatrick
5726*12c85518Srobert VarTemplatePartialSpecializationDecl *MaybeSpec =
5727*12c85518Srobert getMoreSpecialized(*this, PartialT, PrimaryT, Spec, Primary, Info);
5728*12c85518Srobert if (MaybeSpec)
5729e5dd7070Spatrick Info.clearSFINAEDiagnostic();
5730*12c85518Srobert return MaybeSpec;
5731e5dd7070Spatrick }
5732e5dd7070Spatrick
isTemplateTemplateParameterAtLeastAsSpecializedAs(TemplateParameterList * P,TemplateDecl * AArg,SourceLocation Loc)5733e5dd7070Spatrick bool Sema::isTemplateTemplateParameterAtLeastAsSpecializedAs(
5734e5dd7070Spatrick TemplateParameterList *P, TemplateDecl *AArg, SourceLocation Loc) {
5735e5dd7070Spatrick // C++1z [temp.arg.template]p4: (DR 150)
5736e5dd7070Spatrick // A template template-parameter P is at least as specialized as a
5737e5dd7070Spatrick // template template-argument A if, given the following rewrite to two
5738e5dd7070Spatrick // function templates...
5739e5dd7070Spatrick
5740e5dd7070Spatrick // Rather than synthesize function templates, we merely perform the
5741e5dd7070Spatrick // equivalent partial ordering by performing deduction directly on
5742e5dd7070Spatrick // the template parameter lists of the template template parameters.
5743e5dd7070Spatrick //
5744e5dd7070Spatrick // Given an invented class template X with the template parameter list of
5745e5dd7070Spatrick // A (including default arguments):
5746e5dd7070Spatrick TemplateName X = Context.getCanonicalTemplateName(TemplateName(AArg));
5747e5dd7070Spatrick TemplateParameterList *A = AArg->getTemplateParameters();
5748e5dd7070Spatrick
5749e5dd7070Spatrick // - Each function template has a single function parameter whose type is
5750e5dd7070Spatrick // a specialization of X with template arguments corresponding to the
5751e5dd7070Spatrick // template parameters from the respective function template
5752e5dd7070Spatrick SmallVector<TemplateArgument, 8> AArgs;
5753e5dd7070Spatrick Context.getInjectedTemplateArgs(A, AArgs);
5754e5dd7070Spatrick
5755e5dd7070Spatrick // Check P's arguments against A's parameter list. This will fill in default
5756e5dd7070Spatrick // template arguments as needed. AArgs are already correct by construction.
5757e5dd7070Spatrick // We can't just use CheckTemplateIdType because that will expand alias
5758e5dd7070Spatrick // templates.
5759e5dd7070Spatrick SmallVector<TemplateArgument, 4> PArgs;
5760e5dd7070Spatrick {
5761e5dd7070Spatrick SFINAETrap Trap(*this);
5762e5dd7070Spatrick
5763e5dd7070Spatrick Context.getInjectedTemplateArgs(P, PArgs);
5764e5dd7070Spatrick TemplateArgumentListInfo PArgList(P->getLAngleLoc(),
5765e5dd7070Spatrick P->getRAngleLoc());
5766e5dd7070Spatrick for (unsigned I = 0, N = P->size(); I != N; ++I) {
5767e5dd7070Spatrick // Unwrap packs that getInjectedTemplateArgs wrapped around pack
5768e5dd7070Spatrick // expansions, to form an "as written" argument list.
5769e5dd7070Spatrick TemplateArgument Arg = PArgs[I];
5770e5dd7070Spatrick if (Arg.getKind() == TemplateArgument::Pack) {
5771e5dd7070Spatrick assert(Arg.pack_size() == 1 && Arg.pack_begin()->isPackExpansion());
5772e5dd7070Spatrick Arg = *Arg.pack_begin();
5773e5dd7070Spatrick }
5774e5dd7070Spatrick PArgList.addArgument(getTrivialTemplateArgumentLoc(
5775e5dd7070Spatrick Arg, QualType(), P->getParam(I)->getLocation()));
5776e5dd7070Spatrick }
5777e5dd7070Spatrick PArgs.clear();
5778e5dd7070Spatrick
5779e5dd7070Spatrick // C++1z [temp.arg.template]p3:
5780e5dd7070Spatrick // If the rewrite produces an invalid type, then P is not at least as
5781e5dd7070Spatrick // specialized as A.
5782*12c85518Srobert SmallVector<TemplateArgument, 4> SugaredPArgs;
5783*12c85518Srobert if (CheckTemplateArgumentList(AArg, Loc, PArgList, false, SugaredPArgs,
5784*12c85518Srobert PArgs) ||
5785e5dd7070Spatrick Trap.hasErrorOccurred())
5786e5dd7070Spatrick return false;
5787e5dd7070Spatrick }
5788e5dd7070Spatrick
5789*12c85518Srobert QualType AType = Context.getCanonicalTemplateSpecializationType(X, AArgs);
5790*12c85518Srobert QualType PType = Context.getCanonicalTemplateSpecializationType(X, PArgs);
5791e5dd7070Spatrick
5792e5dd7070Spatrick // ... the function template corresponding to P is at least as specialized
5793e5dd7070Spatrick // as the function template corresponding to A according to the partial
5794e5dd7070Spatrick // ordering rules for function templates.
5795e5dd7070Spatrick TemplateDeductionInfo Info(Loc, A->getDepth());
5796e5dd7070Spatrick return isAtLeastAsSpecializedAs(*this, PType, AType, AArg, Info);
5797e5dd7070Spatrick }
5798e5dd7070Spatrick
5799e5dd7070Spatrick namespace {
5800e5dd7070Spatrick struct MarkUsedTemplateParameterVisitor :
5801e5dd7070Spatrick RecursiveASTVisitor<MarkUsedTemplateParameterVisitor> {
5802e5dd7070Spatrick llvm::SmallBitVector &Used;
5803e5dd7070Spatrick unsigned Depth;
5804e5dd7070Spatrick
MarkUsedTemplateParameterVisitor__anon584b56871711::MarkUsedTemplateParameterVisitor5805e5dd7070Spatrick MarkUsedTemplateParameterVisitor(llvm::SmallBitVector &Used,
5806e5dd7070Spatrick unsigned Depth)
5807e5dd7070Spatrick : Used(Used), Depth(Depth) { }
5808e5dd7070Spatrick
VisitTemplateTypeParmType__anon584b56871711::MarkUsedTemplateParameterVisitor5809e5dd7070Spatrick bool VisitTemplateTypeParmType(TemplateTypeParmType *T) {
5810e5dd7070Spatrick if (T->getDepth() == Depth)
5811e5dd7070Spatrick Used[T->getIndex()] = true;
5812e5dd7070Spatrick return true;
5813e5dd7070Spatrick }
5814e5dd7070Spatrick
TraverseTemplateName__anon584b56871711::MarkUsedTemplateParameterVisitor5815e5dd7070Spatrick bool TraverseTemplateName(TemplateName Template) {
5816*12c85518Srobert if (auto *TTP = llvm::dyn_cast_or_null<TemplateTemplateParmDecl>(
5817*12c85518Srobert Template.getAsTemplateDecl()))
5818e5dd7070Spatrick if (TTP->getDepth() == Depth)
5819e5dd7070Spatrick Used[TTP->getIndex()] = true;
5820e5dd7070Spatrick RecursiveASTVisitor<MarkUsedTemplateParameterVisitor>::
5821e5dd7070Spatrick TraverseTemplateName(Template);
5822e5dd7070Spatrick return true;
5823e5dd7070Spatrick }
5824e5dd7070Spatrick
VisitDeclRefExpr__anon584b56871711::MarkUsedTemplateParameterVisitor5825e5dd7070Spatrick bool VisitDeclRefExpr(DeclRefExpr *E) {
5826e5dd7070Spatrick if (auto *NTTP = dyn_cast<NonTypeTemplateParmDecl>(E->getDecl()))
5827e5dd7070Spatrick if (NTTP->getDepth() == Depth)
5828e5dd7070Spatrick Used[NTTP->getIndex()] = true;
5829e5dd7070Spatrick return true;
5830e5dd7070Spatrick }
5831e5dd7070Spatrick };
5832e5dd7070Spatrick }
5833e5dd7070Spatrick
5834e5dd7070Spatrick /// Mark the template parameters that are used by the given
5835e5dd7070Spatrick /// expression.
5836e5dd7070Spatrick static void
MarkUsedTemplateParameters(ASTContext & Ctx,const Expr * E,bool OnlyDeduced,unsigned Depth,llvm::SmallBitVector & Used)5837e5dd7070Spatrick MarkUsedTemplateParameters(ASTContext &Ctx,
5838e5dd7070Spatrick const Expr *E,
5839e5dd7070Spatrick bool OnlyDeduced,
5840e5dd7070Spatrick unsigned Depth,
5841e5dd7070Spatrick llvm::SmallBitVector &Used) {
5842e5dd7070Spatrick if (!OnlyDeduced) {
5843e5dd7070Spatrick MarkUsedTemplateParameterVisitor(Used, Depth)
5844e5dd7070Spatrick .TraverseStmt(const_cast<Expr *>(E));
5845e5dd7070Spatrick return;
5846e5dd7070Spatrick }
5847e5dd7070Spatrick
5848e5dd7070Spatrick // We can deduce from a pack expansion.
5849e5dd7070Spatrick if (const PackExpansionExpr *Expansion = dyn_cast<PackExpansionExpr>(E))
5850e5dd7070Spatrick E = Expansion->getPattern();
5851e5dd7070Spatrick
5852a9ac8606Spatrick const NonTypeTemplateParmDecl *NTTP = getDeducedParameterFromExpr(E, Depth);
5853e5dd7070Spatrick if (!NTTP)
5854e5dd7070Spatrick return;
5855e5dd7070Spatrick
5856e5dd7070Spatrick if (NTTP->getDepth() == Depth)
5857e5dd7070Spatrick Used[NTTP->getIndex()] = true;
5858e5dd7070Spatrick
5859e5dd7070Spatrick // In C++17 mode, additional arguments may be deduced from the type of a
5860e5dd7070Spatrick // non-type argument.
5861e5dd7070Spatrick if (Ctx.getLangOpts().CPlusPlus17)
5862e5dd7070Spatrick MarkUsedTemplateParameters(Ctx, NTTP->getType(), OnlyDeduced, Depth, Used);
5863e5dd7070Spatrick }
5864e5dd7070Spatrick
5865e5dd7070Spatrick /// Mark the template parameters that are used by the given
5866e5dd7070Spatrick /// nested name specifier.
5867e5dd7070Spatrick static void
MarkUsedTemplateParameters(ASTContext & Ctx,NestedNameSpecifier * NNS,bool OnlyDeduced,unsigned Depth,llvm::SmallBitVector & Used)5868e5dd7070Spatrick MarkUsedTemplateParameters(ASTContext &Ctx,
5869e5dd7070Spatrick NestedNameSpecifier *NNS,
5870e5dd7070Spatrick bool OnlyDeduced,
5871e5dd7070Spatrick unsigned Depth,
5872e5dd7070Spatrick llvm::SmallBitVector &Used) {
5873e5dd7070Spatrick if (!NNS)
5874e5dd7070Spatrick return;
5875e5dd7070Spatrick
5876e5dd7070Spatrick MarkUsedTemplateParameters(Ctx, NNS->getPrefix(), OnlyDeduced, Depth,
5877e5dd7070Spatrick Used);
5878e5dd7070Spatrick MarkUsedTemplateParameters(Ctx, QualType(NNS->getAsType(), 0),
5879e5dd7070Spatrick OnlyDeduced, Depth, Used);
5880e5dd7070Spatrick }
5881e5dd7070Spatrick
5882e5dd7070Spatrick /// Mark the template parameters that are used by the given
5883e5dd7070Spatrick /// template name.
5884e5dd7070Spatrick static void
MarkUsedTemplateParameters(ASTContext & Ctx,TemplateName Name,bool OnlyDeduced,unsigned Depth,llvm::SmallBitVector & Used)5885e5dd7070Spatrick MarkUsedTemplateParameters(ASTContext &Ctx,
5886e5dd7070Spatrick TemplateName Name,
5887e5dd7070Spatrick bool OnlyDeduced,
5888e5dd7070Spatrick unsigned Depth,
5889e5dd7070Spatrick llvm::SmallBitVector &Used) {
5890e5dd7070Spatrick if (TemplateDecl *Template = Name.getAsTemplateDecl()) {
5891e5dd7070Spatrick if (TemplateTemplateParmDecl *TTP
5892e5dd7070Spatrick = dyn_cast<TemplateTemplateParmDecl>(Template)) {
5893e5dd7070Spatrick if (TTP->getDepth() == Depth)
5894e5dd7070Spatrick Used[TTP->getIndex()] = true;
5895e5dd7070Spatrick }
5896e5dd7070Spatrick return;
5897e5dd7070Spatrick }
5898e5dd7070Spatrick
5899e5dd7070Spatrick if (QualifiedTemplateName *QTN = Name.getAsQualifiedTemplateName())
5900e5dd7070Spatrick MarkUsedTemplateParameters(Ctx, QTN->getQualifier(), OnlyDeduced,
5901e5dd7070Spatrick Depth, Used);
5902e5dd7070Spatrick if (DependentTemplateName *DTN = Name.getAsDependentTemplateName())
5903e5dd7070Spatrick MarkUsedTemplateParameters(Ctx, DTN->getQualifier(), OnlyDeduced,
5904e5dd7070Spatrick Depth, Used);
5905e5dd7070Spatrick }
5906e5dd7070Spatrick
5907e5dd7070Spatrick /// Mark the template parameters that are used by the given
5908e5dd7070Spatrick /// type.
5909e5dd7070Spatrick static void
MarkUsedTemplateParameters(ASTContext & Ctx,QualType T,bool OnlyDeduced,unsigned Depth,llvm::SmallBitVector & Used)5910e5dd7070Spatrick MarkUsedTemplateParameters(ASTContext &Ctx, QualType T,
5911e5dd7070Spatrick bool OnlyDeduced,
5912e5dd7070Spatrick unsigned Depth,
5913e5dd7070Spatrick llvm::SmallBitVector &Used) {
5914e5dd7070Spatrick if (T.isNull())
5915e5dd7070Spatrick return;
5916e5dd7070Spatrick
5917e5dd7070Spatrick // Non-dependent types have nothing deducible
5918e5dd7070Spatrick if (!T->isDependentType())
5919e5dd7070Spatrick return;
5920e5dd7070Spatrick
5921e5dd7070Spatrick T = Ctx.getCanonicalType(T);
5922e5dd7070Spatrick switch (T->getTypeClass()) {
5923e5dd7070Spatrick case Type::Pointer:
5924e5dd7070Spatrick MarkUsedTemplateParameters(Ctx,
5925e5dd7070Spatrick cast<PointerType>(T)->getPointeeType(),
5926e5dd7070Spatrick OnlyDeduced,
5927e5dd7070Spatrick Depth,
5928e5dd7070Spatrick Used);
5929e5dd7070Spatrick break;
5930e5dd7070Spatrick
5931e5dd7070Spatrick case Type::BlockPointer:
5932e5dd7070Spatrick MarkUsedTemplateParameters(Ctx,
5933e5dd7070Spatrick cast<BlockPointerType>(T)->getPointeeType(),
5934e5dd7070Spatrick OnlyDeduced,
5935e5dd7070Spatrick Depth,
5936e5dd7070Spatrick Used);
5937e5dd7070Spatrick break;
5938e5dd7070Spatrick
5939e5dd7070Spatrick case Type::LValueReference:
5940e5dd7070Spatrick case Type::RValueReference:
5941e5dd7070Spatrick MarkUsedTemplateParameters(Ctx,
5942e5dd7070Spatrick cast<ReferenceType>(T)->getPointeeType(),
5943e5dd7070Spatrick OnlyDeduced,
5944e5dd7070Spatrick Depth,
5945e5dd7070Spatrick Used);
5946e5dd7070Spatrick break;
5947e5dd7070Spatrick
5948e5dd7070Spatrick case Type::MemberPointer: {
5949e5dd7070Spatrick const MemberPointerType *MemPtr = cast<MemberPointerType>(T.getTypePtr());
5950e5dd7070Spatrick MarkUsedTemplateParameters(Ctx, MemPtr->getPointeeType(), OnlyDeduced,
5951e5dd7070Spatrick Depth, Used);
5952e5dd7070Spatrick MarkUsedTemplateParameters(Ctx, QualType(MemPtr->getClass(), 0),
5953e5dd7070Spatrick OnlyDeduced, Depth, Used);
5954e5dd7070Spatrick break;
5955e5dd7070Spatrick }
5956e5dd7070Spatrick
5957e5dd7070Spatrick case Type::DependentSizedArray:
5958e5dd7070Spatrick MarkUsedTemplateParameters(Ctx,
5959e5dd7070Spatrick cast<DependentSizedArrayType>(T)->getSizeExpr(),
5960e5dd7070Spatrick OnlyDeduced, Depth, Used);
5961e5dd7070Spatrick // Fall through to check the element type
5962*12c85518Srobert [[fallthrough]];
5963e5dd7070Spatrick
5964e5dd7070Spatrick case Type::ConstantArray:
5965e5dd7070Spatrick case Type::IncompleteArray:
5966e5dd7070Spatrick MarkUsedTemplateParameters(Ctx,
5967e5dd7070Spatrick cast<ArrayType>(T)->getElementType(),
5968e5dd7070Spatrick OnlyDeduced, Depth, Used);
5969e5dd7070Spatrick break;
5970e5dd7070Spatrick
5971e5dd7070Spatrick case Type::Vector:
5972e5dd7070Spatrick case Type::ExtVector:
5973e5dd7070Spatrick MarkUsedTemplateParameters(Ctx,
5974e5dd7070Spatrick cast<VectorType>(T)->getElementType(),
5975e5dd7070Spatrick OnlyDeduced, Depth, Used);
5976e5dd7070Spatrick break;
5977e5dd7070Spatrick
5978e5dd7070Spatrick case Type::DependentVector: {
5979e5dd7070Spatrick const auto *VecType = cast<DependentVectorType>(T);
5980e5dd7070Spatrick MarkUsedTemplateParameters(Ctx, VecType->getElementType(), OnlyDeduced,
5981e5dd7070Spatrick Depth, Used);
5982e5dd7070Spatrick MarkUsedTemplateParameters(Ctx, VecType->getSizeExpr(), OnlyDeduced, Depth,
5983e5dd7070Spatrick Used);
5984e5dd7070Spatrick break;
5985e5dd7070Spatrick }
5986e5dd7070Spatrick case Type::DependentSizedExtVector: {
5987e5dd7070Spatrick const DependentSizedExtVectorType *VecType
5988e5dd7070Spatrick = cast<DependentSizedExtVectorType>(T);
5989e5dd7070Spatrick MarkUsedTemplateParameters(Ctx, VecType->getElementType(), OnlyDeduced,
5990e5dd7070Spatrick Depth, Used);
5991e5dd7070Spatrick MarkUsedTemplateParameters(Ctx, VecType->getSizeExpr(), OnlyDeduced,
5992e5dd7070Spatrick Depth, Used);
5993e5dd7070Spatrick break;
5994e5dd7070Spatrick }
5995e5dd7070Spatrick
5996e5dd7070Spatrick case Type::DependentAddressSpace: {
5997e5dd7070Spatrick const DependentAddressSpaceType *DependentASType =
5998e5dd7070Spatrick cast<DependentAddressSpaceType>(T);
5999e5dd7070Spatrick MarkUsedTemplateParameters(Ctx, DependentASType->getPointeeType(),
6000e5dd7070Spatrick OnlyDeduced, Depth, Used);
6001e5dd7070Spatrick MarkUsedTemplateParameters(Ctx,
6002e5dd7070Spatrick DependentASType->getAddrSpaceExpr(),
6003e5dd7070Spatrick OnlyDeduced, Depth, Used);
6004e5dd7070Spatrick break;
6005e5dd7070Spatrick }
6006e5dd7070Spatrick
6007ec727ea7Spatrick case Type::ConstantMatrix: {
6008ec727ea7Spatrick const ConstantMatrixType *MatType = cast<ConstantMatrixType>(T);
6009ec727ea7Spatrick MarkUsedTemplateParameters(Ctx, MatType->getElementType(), OnlyDeduced,
6010ec727ea7Spatrick Depth, Used);
6011ec727ea7Spatrick break;
6012ec727ea7Spatrick }
6013ec727ea7Spatrick
6014ec727ea7Spatrick case Type::DependentSizedMatrix: {
6015ec727ea7Spatrick const DependentSizedMatrixType *MatType = cast<DependentSizedMatrixType>(T);
6016ec727ea7Spatrick MarkUsedTemplateParameters(Ctx, MatType->getElementType(), OnlyDeduced,
6017ec727ea7Spatrick Depth, Used);
6018ec727ea7Spatrick MarkUsedTemplateParameters(Ctx, MatType->getRowExpr(), OnlyDeduced, Depth,
6019ec727ea7Spatrick Used);
6020ec727ea7Spatrick MarkUsedTemplateParameters(Ctx, MatType->getColumnExpr(), OnlyDeduced,
6021ec727ea7Spatrick Depth, Used);
6022ec727ea7Spatrick break;
6023ec727ea7Spatrick }
6024ec727ea7Spatrick
6025e5dd7070Spatrick case Type::FunctionProto: {
6026e5dd7070Spatrick const FunctionProtoType *Proto = cast<FunctionProtoType>(T);
6027e5dd7070Spatrick MarkUsedTemplateParameters(Ctx, Proto->getReturnType(), OnlyDeduced, Depth,
6028e5dd7070Spatrick Used);
6029e5dd7070Spatrick for (unsigned I = 0, N = Proto->getNumParams(); I != N; ++I) {
6030e5dd7070Spatrick // C++17 [temp.deduct.type]p5:
6031e5dd7070Spatrick // The non-deduced contexts are: [...]
6032e5dd7070Spatrick // -- A function parameter pack that does not occur at the end of the
6033e5dd7070Spatrick // parameter-declaration-list.
6034e5dd7070Spatrick if (!OnlyDeduced || I + 1 == N ||
6035e5dd7070Spatrick !Proto->getParamType(I)->getAs<PackExpansionType>()) {
6036e5dd7070Spatrick MarkUsedTemplateParameters(Ctx, Proto->getParamType(I), OnlyDeduced,
6037e5dd7070Spatrick Depth, Used);
6038e5dd7070Spatrick } else {
6039e5dd7070Spatrick // FIXME: C++17 [temp.deduct.call]p1:
6040e5dd7070Spatrick // When a function parameter pack appears in a non-deduced context,
6041e5dd7070Spatrick // the type of that pack is never deduced.
6042e5dd7070Spatrick //
6043e5dd7070Spatrick // We should also track a set of "never deduced" parameters, and
6044e5dd7070Spatrick // subtract that from the list of deduced parameters after marking.
6045e5dd7070Spatrick }
6046e5dd7070Spatrick }
6047e5dd7070Spatrick if (auto *E = Proto->getNoexceptExpr())
6048e5dd7070Spatrick MarkUsedTemplateParameters(Ctx, E, OnlyDeduced, Depth, Used);
6049e5dd7070Spatrick break;
6050e5dd7070Spatrick }
6051e5dd7070Spatrick
6052e5dd7070Spatrick case Type::TemplateTypeParm: {
6053e5dd7070Spatrick const TemplateTypeParmType *TTP = cast<TemplateTypeParmType>(T);
6054e5dd7070Spatrick if (TTP->getDepth() == Depth)
6055e5dd7070Spatrick Used[TTP->getIndex()] = true;
6056e5dd7070Spatrick break;
6057e5dd7070Spatrick }
6058e5dd7070Spatrick
6059e5dd7070Spatrick case Type::SubstTemplateTypeParmPack: {
6060e5dd7070Spatrick const SubstTemplateTypeParmPackType *Subst
6061e5dd7070Spatrick = cast<SubstTemplateTypeParmPackType>(T);
6062*12c85518Srobert if (Subst->getReplacedParameter()->getDepth() == Depth)
6063*12c85518Srobert Used[Subst->getIndex()] = true;
6064e5dd7070Spatrick MarkUsedTemplateParameters(Ctx, Subst->getArgumentPack(),
6065e5dd7070Spatrick OnlyDeduced, Depth, Used);
6066e5dd7070Spatrick break;
6067e5dd7070Spatrick }
6068e5dd7070Spatrick
6069e5dd7070Spatrick case Type::InjectedClassName:
6070e5dd7070Spatrick T = cast<InjectedClassNameType>(T)->getInjectedSpecializationType();
6071*12c85518Srobert [[fallthrough]];
6072e5dd7070Spatrick
6073e5dd7070Spatrick case Type::TemplateSpecialization: {
6074e5dd7070Spatrick const TemplateSpecializationType *Spec
6075e5dd7070Spatrick = cast<TemplateSpecializationType>(T);
6076e5dd7070Spatrick MarkUsedTemplateParameters(Ctx, Spec->getTemplateName(), OnlyDeduced,
6077e5dd7070Spatrick Depth, Used);
6078e5dd7070Spatrick
6079e5dd7070Spatrick // C++0x [temp.deduct.type]p9:
6080e5dd7070Spatrick // If the template argument list of P contains a pack expansion that is
6081e5dd7070Spatrick // not the last template argument, the entire template argument list is a
6082e5dd7070Spatrick // non-deduced context.
6083e5dd7070Spatrick if (OnlyDeduced &&
6084e5dd7070Spatrick hasPackExpansionBeforeEnd(Spec->template_arguments()))
6085e5dd7070Spatrick break;
6086e5dd7070Spatrick
6087*12c85518Srobert for (const auto &Arg : Spec->template_arguments())
6088*12c85518Srobert MarkUsedTemplateParameters(Ctx, Arg, OnlyDeduced, Depth, Used);
6089e5dd7070Spatrick break;
6090e5dd7070Spatrick }
6091e5dd7070Spatrick
6092e5dd7070Spatrick case Type::Complex:
6093e5dd7070Spatrick if (!OnlyDeduced)
6094e5dd7070Spatrick MarkUsedTemplateParameters(Ctx,
6095e5dd7070Spatrick cast<ComplexType>(T)->getElementType(),
6096e5dd7070Spatrick OnlyDeduced, Depth, Used);
6097e5dd7070Spatrick break;
6098e5dd7070Spatrick
6099e5dd7070Spatrick case Type::Atomic:
6100e5dd7070Spatrick if (!OnlyDeduced)
6101e5dd7070Spatrick MarkUsedTemplateParameters(Ctx,
6102e5dd7070Spatrick cast<AtomicType>(T)->getValueType(),
6103e5dd7070Spatrick OnlyDeduced, Depth, Used);
6104e5dd7070Spatrick break;
6105e5dd7070Spatrick
6106e5dd7070Spatrick case Type::DependentName:
6107e5dd7070Spatrick if (!OnlyDeduced)
6108e5dd7070Spatrick MarkUsedTemplateParameters(Ctx,
6109e5dd7070Spatrick cast<DependentNameType>(T)->getQualifier(),
6110e5dd7070Spatrick OnlyDeduced, Depth, Used);
6111e5dd7070Spatrick break;
6112e5dd7070Spatrick
6113e5dd7070Spatrick case Type::DependentTemplateSpecialization: {
6114e5dd7070Spatrick // C++14 [temp.deduct.type]p5:
6115e5dd7070Spatrick // The non-deduced contexts are:
6116e5dd7070Spatrick // -- The nested-name-specifier of a type that was specified using a
6117e5dd7070Spatrick // qualified-id
6118e5dd7070Spatrick //
6119e5dd7070Spatrick // C++14 [temp.deduct.type]p6:
6120e5dd7070Spatrick // When a type name is specified in a way that includes a non-deduced
6121e5dd7070Spatrick // context, all of the types that comprise that type name are also
6122e5dd7070Spatrick // non-deduced.
6123e5dd7070Spatrick if (OnlyDeduced)
6124e5dd7070Spatrick break;
6125e5dd7070Spatrick
6126e5dd7070Spatrick const DependentTemplateSpecializationType *Spec
6127e5dd7070Spatrick = cast<DependentTemplateSpecializationType>(T);
6128e5dd7070Spatrick
6129e5dd7070Spatrick MarkUsedTemplateParameters(Ctx, Spec->getQualifier(),
6130e5dd7070Spatrick OnlyDeduced, Depth, Used);
6131e5dd7070Spatrick
6132*12c85518Srobert for (const auto &Arg : Spec->template_arguments())
6133*12c85518Srobert MarkUsedTemplateParameters(Ctx, Arg, OnlyDeduced, Depth, Used);
6134e5dd7070Spatrick break;
6135e5dd7070Spatrick }
6136e5dd7070Spatrick
6137e5dd7070Spatrick case Type::TypeOf:
6138e5dd7070Spatrick if (!OnlyDeduced)
6139*12c85518Srobert MarkUsedTemplateParameters(Ctx, cast<TypeOfType>(T)->getUnmodifiedType(),
6140e5dd7070Spatrick OnlyDeduced, Depth, Used);
6141e5dd7070Spatrick break;
6142e5dd7070Spatrick
6143e5dd7070Spatrick case Type::TypeOfExpr:
6144e5dd7070Spatrick if (!OnlyDeduced)
6145e5dd7070Spatrick MarkUsedTemplateParameters(Ctx,
6146e5dd7070Spatrick cast<TypeOfExprType>(T)->getUnderlyingExpr(),
6147e5dd7070Spatrick OnlyDeduced, Depth, Used);
6148e5dd7070Spatrick break;
6149e5dd7070Spatrick
6150e5dd7070Spatrick case Type::Decltype:
6151e5dd7070Spatrick if (!OnlyDeduced)
6152e5dd7070Spatrick MarkUsedTemplateParameters(Ctx,
6153e5dd7070Spatrick cast<DecltypeType>(T)->getUnderlyingExpr(),
6154e5dd7070Spatrick OnlyDeduced, Depth, Used);
6155e5dd7070Spatrick break;
6156e5dd7070Spatrick
6157e5dd7070Spatrick case Type::UnaryTransform:
6158e5dd7070Spatrick if (!OnlyDeduced)
6159e5dd7070Spatrick MarkUsedTemplateParameters(Ctx,
6160e5dd7070Spatrick cast<UnaryTransformType>(T)->getUnderlyingType(),
6161e5dd7070Spatrick OnlyDeduced, Depth, Used);
6162e5dd7070Spatrick break;
6163e5dd7070Spatrick
6164e5dd7070Spatrick case Type::PackExpansion:
6165e5dd7070Spatrick MarkUsedTemplateParameters(Ctx,
6166e5dd7070Spatrick cast<PackExpansionType>(T)->getPattern(),
6167e5dd7070Spatrick OnlyDeduced, Depth, Used);
6168e5dd7070Spatrick break;
6169e5dd7070Spatrick
6170e5dd7070Spatrick case Type::Auto:
6171e5dd7070Spatrick case Type::DeducedTemplateSpecialization:
6172e5dd7070Spatrick MarkUsedTemplateParameters(Ctx,
6173e5dd7070Spatrick cast<DeducedType>(T)->getDeducedType(),
6174e5dd7070Spatrick OnlyDeduced, Depth, Used);
6175e5dd7070Spatrick break;
6176*12c85518Srobert case Type::DependentBitInt:
6177ec727ea7Spatrick MarkUsedTemplateParameters(Ctx,
6178*12c85518Srobert cast<DependentBitIntType>(T)->getNumBitsExpr(),
6179ec727ea7Spatrick OnlyDeduced, Depth, Used);
6180ec727ea7Spatrick break;
6181e5dd7070Spatrick
6182e5dd7070Spatrick // None of these types have any template parameters in them.
6183e5dd7070Spatrick case Type::Builtin:
6184e5dd7070Spatrick case Type::VariableArray:
6185e5dd7070Spatrick case Type::FunctionNoProto:
6186e5dd7070Spatrick case Type::Record:
6187e5dd7070Spatrick case Type::Enum:
6188e5dd7070Spatrick case Type::ObjCInterface:
6189e5dd7070Spatrick case Type::ObjCObject:
6190e5dd7070Spatrick case Type::ObjCObjectPointer:
6191e5dd7070Spatrick case Type::UnresolvedUsing:
6192e5dd7070Spatrick case Type::Pipe:
6193*12c85518Srobert case Type::BitInt:
6194e5dd7070Spatrick #define TYPE(Class, Base)
6195e5dd7070Spatrick #define ABSTRACT_TYPE(Class, Base)
6196e5dd7070Spatrick #define DEPENDENT_TYPE(Class, Base)
6197e5dd7070Spatrick #define NON_CANONICAL_TYPE(Class, Base) case Type::Class:
6198e5dd7070Spatrick #include "clang/AST/TypeNodes.inc"
6199e5dd7070Spatrick break;
6200e5dd7070Spatrick }
6201e5dd7070Spatrick }
6202e5dd7070Spatrick
6203e5dd7070Spatrick /// Mark the template parameters that are used by this
6204e5dd7070Spatrick /// template argument.
6205e5dd7070Spatrick static void
MarkUsedTemplateParameters(ASTContext & Ctx,const TemplateArgument & TemplateArg,bool OnlyDeduced,unsigned Depth,llvm::SmallBitVector & Used)6206e5dd7070Spatrick MarkUsedTemplateParameters(ASTContext &Ctx,
6207e5dd7070Spatrick const TemplateArgument &TemplateArg,
6208e5dd7070Spatrick bool OnlyDeduced,
6209e5dd7070Spatrick unsigned Depth,
6210e5dd7070Spatrick llvm::SmallBitVector &Used) {
6211e5dd7070Spatrick switch (TemplateArg.getKind()) {
6212e5dd7070Spatrick case TemplateArgument::Null:
6213e5dd7070Spatrick case TemplateArgument::Integral:
6214e5dd7070Spatrick case TemplateArgument::Declaration:
6215e5dd7070Spatrick break;
6216e5dd7070Spatrick
6217e5dd7070Spatrick case TemplateArgument::NullPtr:
6218e5dd7070Spatrick MarkUsedTemplateParameters(Ctx, TemplateArg.getNullPtrType(), OnlyDeduced,
6219e5dd7070Spatrick Depth, Used);
6220e5dd7070Spatrick break;
6221e5dd7070Spatrick
6222e5dd7070Spatrick case TemplateArgument::Type:
6223e5dd7070Spatrick MarkUsedTemplateParameters(Ctx, TemplateArg.getAsType(), OnlyDeduced,
6224e5dd7070Spatrick Depth, Used);
6225e5dd7070Spatrick break;
6226e5dd7070Spatrick
6227e5dd7070Spatrick case TemplateArgument::Template:
6228e5dd7070Spatrick case TemplateArgument::TemplateExpansion:
6229e5dd7070Spatrick MarkUsedTemplateParameters(Ctx,
6230e5dd7070Spatrick TemplateArg.getAsTemplateOrTemplatePattern(),
6231e5dd7070Spatrick OnlyDeduced, Depth, Used);
6232e5dd7070Spatrick break;
6233e5dd7070Spatrick
6234e5dd7070Spatrick case TemplateArgument::Expression:
6235e5dd7070Spatrick MarkUsedTemplateParameters(Ctx, TemplateArg.getAsExpr(), OnlyDeduced,
6236e5dd7070Spatrick Depth, Used);
6237e5dd7070Spatrick break;
6238e5dd7070Spatrick
6239e5dd7070Spatrick case TemplateArgument::Pack:
6240e5dd7070Spatrick for (const auto &P : TemplateArg.pack_elements())
6241e5dd7070Spatrick MarkUsedTemplateParameters(Ctx, P, OnlyDeduced, Depth, Used);
6242e5dd7070Spatrick break;
6243e5dd7070Spatrick }
6244e5dd7070Spatrick }
6245e5dd7070Spatrick
6246e5dd7070Spatrick /// Mark which template parameters are used in a given expression.
6247e5dd7070Spatrick ///
6248e5dd7070Spatrick /// \param E the expression from which template parameters will be deduced.
6249e5dd7070Spatrick ///
6250e5dd7070Spatrick /// \param Used a bit vector whose elements will be set to \c true
6251e5dd7070Spatrick /// to indicate when the corresponding template parameter will be
6252e5dd7070Spatrick /// deduced.
6253e5dd7070Spatrick void
MarkUsedTemplateParameters(const Expr * E,bool OnlyDeduced,unsigned Depth,llvm::SmallBitVector & Used)6254e5dd7070Spatrick Sema::MarkUsedTemplateParameters(const Expr *E, bool OnlyDeduced,
6255e5dd7070Spatrick unsigned Depth,
6256e5dd7070Spatrick llvm::SmallBitVector &Used) {
6257e5dd7070Spatrick ::MarkUsedTemplateParameters(Context, E, OnlyDeduced, Depth, Used);
6258e5dd7070Spatrick }
6259e5dd7070Spatrick
6260e5dd7070Spatrick /// Mark which template parameters can be deduced from a given
6261e5dd7070Spatrick /// template argument list.
6262e5dd7070Spatrick ///
6263e5dd7070Spatrick /// \param TemplateArgs the template argument list from which template
6264e5dd7070Spatrick /// parameters will be deduced.
6265e5dd7070Spatrick ///
6266e5dd7070Spatrick /// \param Used a bit vector whose elements will be set to \c true
6267e5dd7070Spatrick /// to indicate when the corresponding template parameter will be
6268e5dd7070Spatrick /// deduced.
6269e5dd7070Spatrick void
MarkUsedTemplateParameters(const TemplateArgumentList & TemplateArgs,bool OnlyDeduced,unsigned Depth,llvm::SmallBitVector & Used)6270e5dd7070Spatrick Sema::MarkUsedTemplateParameters(const TemplateArgumentList &TemplateArgs,
6271e5dd7070Spatrick bool OnlyDeduced, unsigned Depth,
6272e5dd7070Spatrick llvm::SmallBitVector &Used) {
6273e5dd7070Spatrick // C++0x [temp.deduct.type]p9:
6274e5dd7070Spatrick // If the template argument list of P contains a pack expansion that is not
6275e5dd7070Spatrick // the last template argument, the entire template argument list is a
6276e5dd7070Spatrick // non-deduced context.
6277e5dd7070Spatrick if (OnlyDeduced &&
6278e5dd7070Spatrick hasPackExpansionBeforeEnd(TemplateArgs.asArray()))
6279e5dd7070Spatrick return;
6280e5dd7070Spatrick
6281e5dd7070Spatrick for (unsigned I = 0, N = TemplateArgs.size(); I != N; ++I)
6282e5dd7070Spatrick ::MarkUsedTemplateParameters(Context, TemplateArgs[I], OnlyDeduced,
6283e5dd7070Spatrick Depth, Used);
6284e5dd7070Spatrick }
6285e5dd7070Spatrick
6286e5dd7070Spatrick /// Marks all of the template parameters that will be deduced by a
6287e5dd7070Spatrick /// call to the given function template.
MarkDeducedTemplateParameters(ASTContext & Ctx,const FunctionTemplateDecl * FunctionTemplate,llvm::SmallBitVector & Deduced)6288e5dd7070Spatrick void Sema::MarkDeducedTemplateParameters(
6289e5dd7070Spatrick ASTContext &Ctx, const FunctionTemplateDecl *FunctionTemplate,
6290e5dd7070Spatrick llvm::SmallBitVector &Deduced) {
6291e5dd7070Spatrick TemplateParameterList *TemplateParams
6292e5dd7070Spatrick = FunctionTemplate->getTemplateParameters();
6293e5dd7070Spatrick Deduced.clear();
6294e5dd7070Spatrick Deduced.resize(TemplateParams->size());
6295e5dd7070Spatrick
6296e5dd7070Spatrick FunctionDecl *Function = FunctionTemplate->getTemplatedDecl();
6297e5dd7070Spatrick for (unsigned I = 0, N = Function->getNumParams(); I != N; ++I)
6298e5dd7070Spatrick ::MarkUsedTemplateParameters(Ctx, Function->getParamDecl(I)->getType(),
6299e5dd7070Spatrick true, TemplateParams->getDepth(), Deduced);
6300e5dd7070Spatrick }
6301e5dd7070Spatrick
hasDeducibleTemplateParameters(Sema & S,FunctionTemplateDecl * FunctionTemplate,QualType T)6302e5dd7070Spatrick bool hasDeducibleTemplateParameters(Sema &S,
6303e5dd7070Spatrick FunctionTemplateDecl *FunctionTemplate,
6304e5dd7070Spatrick QualType T) {
6305e5dd7070Spatrick if (!T->isDependentType())
6306e5dd7070Spatrick return false;
6307e5dd7070Spatrick
6308e5dd7070Spatrick TemplateParameterList *TemplateParams
6309e5dd7070Spatrick = FunctionTemplate->getTemplateParameters();
6310e5dd7070Spatrick llvm::SmallBitVector Deduced(TemplateParams->size());
6311e5dd7070Spatrick ::MarkUsedTemplateParameters(S.Context, T, true, TemplateParams->getDepth(),
6312e5dd7070Spatrick Deduced);
6313e5dd7070Spatrick
6314e5dd7070Spatrick return Deduced.any();
6315e5dd7070Spatrick }
6316