C++11 half of r147023: In C++11, additionally eagerly instantiate:
- constexpr function template instantiations - variables of reference type - constexpr variables llvm-svn: 147031
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Richard Smith
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b9ccd553fc
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242ad89a15
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@ -1025,6 +1025,12 @@ public:
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/// \endcode
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bool extendsLifetimeOfTemporary() const;
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/// \brief Determine whether this variable's value can be used in a
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/// constant expression, according to the relevant language standard.
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/// This only checks properties of the declaration, and does not check
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/// whether the initializer is in fact a constant expression.
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bool isUsableInConstantExpressions() const;
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EvaluatedStmt *ensureEvaluatedStmt() const;
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/// \brief Attempt to evaluate the value of the initializer attached to this
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@ -1339,6 +1339,26 @@ void VarDecl::setInit(Expr *I) {
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Init = I;
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}
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bool VarDecl::isUsableInConstantExpressions() const {
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const LangOptions &Lang = getASTContext().getLangOptions();
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// Only const variables can be used in constant expressions in C++. C++98 does
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// not require the variable to be non-volatile, but we consider this to be a
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// defect.
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if (!Lang.CPlusPlus ||
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!getType().isConstQualified() || getType().isVolatileQualified())
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return false;
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// In C++, const, non-volatile variables of integral or enumeration types
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// can be used in constant expressions.
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if (getType()->isIntegralOrEnumerationType())
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return true;
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// Additionally, in C++11, non-volatile constexpr variables and references can
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// be used in constant expressions.
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return Lang.CPlusPlus0x && (isConstexpr() || getType()->isReferenceType());
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}
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/// Convert the initializer for this declaration to the elaborated EvaluatedStmt
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/// form, which contains extra information on the evaluated value of the
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/// initializer.
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@ -6544,8 +6544,7 @@ void Sema::CheckCompleteVariableDeclaration(VarDecl *var) {
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for (unsigned I = 0, N = Notes.size(); I != N; ++I)
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Diag(Notes[I].first, Notes[I].second);
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}
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} else if (getLangOptions().CPlusPlus && !Type.isVolatileQualified() &&
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Type.isConstQualified() && Type->isIntegralOrEnumerationType()) {
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} else if (var->isUsableInConstantExpressions()) {
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// Check whether the initializer of a const variable of integral or
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// enumeration type is an ICE now, since we can't tell whether it was
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// initialized by a constant expression if we check later.
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@ -9491,6 +9491,11 @@ void Sema::MarkDeclarationReferenced(SourceLocation Loc, Decl *D) {
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cast<CXXRecordDecl>(Function->getDeclContext())->isLocalClass())
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PendingLocalImplicitInstantiations.push_back(std::make_pair(Function,
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Loc));
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else if (Function->getTemplateInstantiationPattern()->isConstexpr())
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// Do not defer instantiations of constexpr functions, to avoid the
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// expression evaluator needing to call back into Sema if it sees a
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// call to such a function.
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InstantiateFunctionDefinition(Loc, Function);
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else
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PendingInstantiations.push_back(std::make_pair(Function, Loc));
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}
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@ -9526,9 +9531,9 @@ void Sema::MarkDeclarationReferenced(SourceLocation Loc, Decl *D) {
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// This is a modification of an existing AST node. Notify listeners.
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if (ASTMutationListener *L = getASTMutationListener())
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L->StaticDataMemberInstantiated(Var);
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QualType T = Var->getType();
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if (T.isConstQualified() && !T.isVolatileQualified() &&
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T->isIntegralOrEnumerationType())
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if (Var->isUsableInConstantExpressions())
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// Do not defer instantiations of variables which could be used in a
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// constant expression.
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InstantiateStaticDataMemberDefinition(Loc, Var);
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else
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PendingInstantiations.push_back(std::make_pair(Var, Loc));
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@ -68,7 +68,7 @@ struct ConstexprDtor {
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};
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// template stuff
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template <typename T> constexpr T ft(T t) { return t; } // unexpected-note {{here}}
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template <typename T> constexpr T ft(T t) { return t; }
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template <typename T> T gt(T t) { return t; }
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struct S {
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template<typename T> constexpr T f();
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@ -89,8 +89,7 @@ template <> int S::g() const; // desired-error {{non-constexpr declaration of 'g
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template <> char S::g() { return 0; } // expected-error {{no function template matches}}
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template <> double S::g() const { return 0; } // ok
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// FIXME: The initializer is a constant expression.
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constexpr int i3 = ft(1); // unexpected-error {{must be initialized by a constant expression}} unexpected-note {{undefined function 'ft<int>'}}
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constexpr int i3 = ft(1);
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void test() {
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// ignore constexpr when instantiating with non-literal
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@ -8,16 +8,17 @@ static_assert(false, "test"); // expected-error {{test}}
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}
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template<typename T> constexpr T id(const T &t) { return t; } // expected-note {{here}}
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// FIXME: support templates here.
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//template<typename T> constexpr T min(const T &a, const T &b) {
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// return a < b ? a : b;
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//}
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//template<typename T> constexpr T max(const T &a, const T &b) {
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// return a < b ? b : a;
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//}
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constexpr int min(const int &a, const int &b) { return a < b ? a : b; }
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constexpr int max(const int &a, const int &b) { return a < b ? b : a; }
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typedef decltype(sizeof(char)) size_t;
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template<typename T> constexpr T id(const T &t) { return t; }
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template<typename T> constexpr T min(const T &a, const T &b) {
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return a < b ? a : b;
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}
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template<typename T> constexpr T max(const T &a, const T &b) {
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return a < b ? b : a;
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}
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template<typename T, size_t N> constexpr T *begin(T (&xs)[N]) { return xs; }
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template<typename T, size_t N> constexpr T *end(T (&xs)[N]) { return xs + N; }
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struct MemberZero {
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constexpr int zero() { return 0; }
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@ -84,8 +85,7 @@ namespace TemplateArgumentConversion {
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template<int n> struct IntParam {};
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using IntParam0 = IntParam<0>;
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// FIXME: This should be accepted once we implement the new ICE rules.
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using IntParam0 = IntParam<id(0)>; // expected-error {{not an integral constant expression}}
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using IntParam0 = IntParam<id(0)>;
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using IntParam0 = IntParam<MemberZero().zero>; // expected-error {{did you mean to call it with no arguments?}} expected-error {{not an integral constant expression}}
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}
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@ -94,8 +94,7 @@ namespace CaseStatements {
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switch (n) {
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// FIXME: Produce the 'add ()' fixit for this.
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case MemberZero().zero: // desired-error {{did you mean to call it with no arguments?}} expected-error {{not an integer constant expression}} expected-note {{non-literal type '<bound member function type>'}}
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// FIXME: This should be accepted once we implement the new ICE rules.
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case id(1): // expected-error {{not an integer constant expression}} expected-note {{undefined function}}
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case id(1):
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return;
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}
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}
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@ -352,14 +351,8 @@ constexpr int strcmp_ce(const char *p, const char *q) {
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namespace StringLiteral {
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// FIXME: Refactor this once we support constexpr templates.
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constexpr int MangleChars(const char *p) {
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return *p + 3 * (*p ? MangleChars(p+1) : 0);
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}
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constexpr int MangleChars(const char16_t *p) {
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return *p + 3 * (*p ? MangleChars(p+1) : 0);
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}
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constexpr int MangleChars(const char32_t *p) {
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template<typename Char>
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constexpr int MangleChars(const Char *p) {
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return *p + 3 * (*p ? MangleChars(p+1) : 0);
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}
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@ -383,9 +376,6 @@ constexpr const char *max_element(const char *a, const char *b) {
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return (a+1 >= b) ? a : max_iter(a, max_element(a+1, b));
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}
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constexpr const char *begin(const char (&arr)[45]) { return arr; }
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constexpr const char *end(const char (&arr)[45]) { return arr + 45; }
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constexpr char str[] = "the quick brown fox jumped over the lazy dog";
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constexpr const char *max = max_element(begin(str), end(str));
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static_assert(*max == 'z', "");
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@ -400,12 +390,10 @@ static_assert(strcmp_ce("", " ") < 0, "");
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namespace Array {
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// FIXME: Use templates for these once we support constexpr templates.
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constexpr int Sum(const int *begin, const int *end) {
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template<typename Iter>
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constexpr auto Sum(Iter begin, Iter end) -> decltype(+*begin) {
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return begin == end ? 0 : *begin + Sum(begin+1, end);
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}
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constexpr const int *begin(const int (&xs)[5]) { return xs; }
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constexpr const int *end(const int (&xs)[5]) { return xs + 5; }
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constexpr int xs[] = { 1, 2, 3, 4, 5 };
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constexpr int ys[] = { 5, 4, 3, 2, 1 };
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