forked from OSchip/llvm-project
[flang] checkpoint
Original-commit: flang-compiler/f18@7fae33797a Reviewed-on: https://github.com/flang-compiler/f18/pull/144 Tree-same-pre-rewrite: false
This commit is contained in:
parent
aa6c6f97a9
commit
0aae9893a5
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@ -381,6 +381,87 @@ std::optional<typename IntegerExpr<KIND>::Constant> IntegerExpr<KIND>::Fold(
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u_);
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}
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template<int KIND>
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std::optional<typename RealExpr<KIND>::Constant>
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RealExpr<KIND>::ConstantValue() const {
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if (auto c{std::get_if<Constant>(&u_)}) {
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return {*c};
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}
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return {};
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}
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template<int KIND> void RealExpr<KIND>::Fold(FoldingContext &context) {
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// TODO
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}
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template<int KIND>
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std::optional<typename ComplexExpr<KIND>::Constant>
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ComplexExpr<KIND>::ConstantValue() const {
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if (auto c{std::get_if<Constant>(&u_)}) {
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return {*c};
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}
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return {};
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}
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template<int KIND> void ComplexExpr<KIND>::Fold(FoldingContext &context) {
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// TODO
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}
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template<int KIND>
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std::optional<typename CharacterExpr<KIND>::Constant>
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CharacterExpr<KIND>::ConstantValue() const {
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if (auto c{std::get_if<Constant>(&u_)}) {
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return {*c};
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}
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return {};
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}
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template<int KIND> void CharacterExpr<KIND>::Fold(FoldingContext &context) {
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// TODO
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}
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std::optional<bool> LogicalExpr::ConstantValue() const {
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if (auto c{std::get_if<bool>(&u_)}) {
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return {*c};
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}
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return {};
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}
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void LogicalExpr::Fold(FoldingContext &context) {
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// TODO and comparisons too
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}
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std::optional<GenericConstant> GenericExpr::ConstantValue() const {
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return std::visit([](const auto &x) -> std::optional<GenericConstant> {
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if (auto c{x.ConstantValue()}) {
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return {GenericConstant{std::move(*c)}};
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}
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return {};
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}, u);
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}
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template<Category CAT> std::optional<CategoryConstant<CAT>> CategoryExpr<CAT>::ConstantValue() const {
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return std::visit([](const auto &x) -> std::optional<CategoryConstant<CAT>> {
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if (auto c{x.ConstantValue()}) {
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return {CategoryConstant<CAT>{std::move(*c)}};
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}
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return {};
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}, u);
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}
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template<Category CAT> void CategoryExpr<CAT>::Fold(FoldingContext &context) {
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std::visit([&](auto &x){ x.Fold(context); }, u);
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}
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void GenericExpr::Fold(FoldingContext &context) {
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std::visit([&](auto &x){ x.Fold(context); }, u);
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}
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template struct CategoryExpr<Category::Integer>;
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template struct CategoryExpr<Category::Real>;
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template struct CategoryExpr<Category::Complex>;
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template struct CategoryExpr<Category::Character>;
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template class Expr<Category::Integer, 1>;
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template class Expr<Category::Integer, 2>;
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template class Expr<Category::Integer, 4>;
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@ -236,6 +236,9 @@ public:
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Expr(std::enable_if_t<!std::is_reference_v<A>, A> &&x) : u_{std::move(x)} {}
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template<typename A> Expr(CopyableIndirection<A> &&x) : u_{std::move(x)} {}
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std::optional<Constant> ConstantValue() const;
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void Fold(FoldingContext &c);
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private:
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std::variant<Constant, CopyableIndirection<DataRef>,
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CopyableIndirection<ComplexPart>, CopyableIndirection<FunctionRef>,
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@ -285,6 +288,9 @@ public:
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Expr(std::enable_if_t<!std::is_reference_v<A>, A> &&x) : u_{std::move(x)} {}
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template<typename A> Expr(CopyableIndirection<A> &&x) : u_{std::move(x)} {}
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std::optional<Constant> ConstantValue() const;
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void Fold(FoldingContext &c);
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private:
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std::variant<Constant, CopyableIndirection<DataRef>,
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CopyableIndirection<FunctionRef>, Parentheses, Negate, Add, Subtract,
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@ -315,6 +321,8 @@ public:
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Expr(std::enable_if_t<!std::is_reference_v<A>, A> &&x) : u_{std::move(x)} {}
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template<typename A> Expr(CopyableIndirection<A> &&x) : u_{std::move(x)} {}
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std::optional<Constant> ConstantValue() const;
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void Fold(FoldingContext &c);
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SubscriptIntegerExpr LEN() const;
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private:
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@ -335,6 +343,7 @@ template<typename EXPR> struct Comparison : Binary<EXPR, EXPR, bool> {
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: Binary<EXPR, EXPR, bool>{a, b}, opr{r} {}
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Comparison(RelationalOperator r, EXPR &&a, EXPR &&b)
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: Binary<EXPR, EXPR, bool>{std::move(a), std::move(b)}, opr{r} {}
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std::optional<bool> Fold(FoldingContext &c);
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RelationalOperator opr;
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};
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@ -359,11 +368,12 @@ extern template struct Comparison<CharacterExpr<1>>;
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// of a specific category.
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template<Category CAT> struct CategoryComparison {
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CLASS_BOILERPLATE(CategoryComparison)
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template<int KIND> using KindComparison = Comparison<Expr<CAT, KIND>>;
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template<int KIND>
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CategoryComparison(const Comparison<Expr<CAT, KIND>> &x) : u{x} {}
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CategoryComparison(const KindComparison<KIND> &x) : u{x} {}
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template<int KIND>
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CategoryComparison(Comparison<Expr<CAT, KIND>> &&x) : u{std::move(x)} {}
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template<int K> using KindComparison = Comparison<Expr<CAT, K>>;
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CategoryComparison(KindComparison<KIND> &&x) : u{std::move(x)} {}
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std::optional<bool> Fold(FoldingContext &c);
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typename KindsVariant<CAT, KindComparison>::type u;
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};
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@ -372,7 +382,7 @@ template<> class Expr<Category::Logical, 1> {
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public:
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using Constant = bool;
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struct Not : Unary<Expr, bool> {
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using Unary<Expr, Constant>::Unary;
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using Unary<Expr, bool>::Unary;
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};
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using Bin = Binary<Expr, Expr, bool>;
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struct And : public Bin {
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@ -389,7 +399,7 @@ public:
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};
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CLASS_BOILERPLATE(Expr)
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Expr(Constant x) : u_{x} {}
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Expr(bool x) : u_{x} {}
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template<Category CAT, int KIND>
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Expr(const Comparison<Expr<CAT, KIND>> &x) : u_{CategoryComparison<CAT>{x}} {}
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template<Category CAT, int KIND>
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@ -400,8 +410,11 @@ public:
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Expr(std::enable_if_t<!std::is_reference_v<A>, A> &&x) : u_{std::move(x)} {}
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template<typename A> Expr(CopyableIndirection<A> &&x) : u_{std::move(x)} {}
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std::optional<bool> ConstantValue() const;
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void Fold(FoldingContext &c);
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private:
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std::variant<Constant, CopyableIndirection<DataRef>,
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std::variant<bool, CopyableIndirection<DataRef>,
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CopyableIndirection<FunctionRef>, Not, And, Or, Eqv, Neqv,
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CategoryComparison<Category::Integer>, CategoryComparison<Category::Real>,
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CategoryComparison<Category::Complex>,
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@ -427,17 +440,43 @@ extern template class Expr<Category::Complex, 16>;
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extern template class Expr<Category::Character, 1>;
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extern template class Expr<Category::Logical, 1>;
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// Holds a constant of any kind in an intrinsic type category.
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template<Category CAT> struct CategoryConstant {
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CLASS_BOILERPLATE(CategoryConstant)
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template<int KIND> using KindConstant = typename Expr<CAT, KIND>::Constant;
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template<typename A> CategoryConstant(const A &x) : u{x} {}
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template<typename A> CategoryConstant(std::enable_if_t<!std::is_reference_v<A>, A> &&x) : u{std::move(x)} {}
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typename KindsVariant<CAT, KindConstant>::type u;
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};
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// Holds a constant of any intrinsic category and size.
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struct GenericConstant {
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CLASS_BOILERPLATE(GenericConstant)
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template<Category CAT, int KIND>
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GenericConstant(const typename Expr<CAT, KIND>::Constant &x) : u{CategoryConstant<CAT>{x}} {}
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template<Category CAT, int KIND>
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GenericConstant(typename Expr<CAT, KIND>::Constant &&x) : u{CategoryConstant<CAT>{std::move(x)}} {}
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template<typename A> GenericConstant(const A &x) : u{x} {}
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template<typename A>
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GenericConstant(std::enable_if_t<!std::is_reference_v<A>, A> &&x)
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: u{std::move(x)} {}
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std::variant<CategoryConstant<Category::Integer>, CategoryConstant<Category::Real>, CategoryConstant<Category::Complex>, CategoryConstant<Category::Character>, bool> u;
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};
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// Dynamically polymorphic expressions that can hold any supported kind
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// of a specific category.
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// of a specific intrinsic type category.
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template<Category CAT> struct CategoryExpr {
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CLASS_BOILERPLATE(CategoryExpr)
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template<int KIND> CategoryExpr(const Expr<CAT, KIND> &x) : u{x} {}
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template<int KIND> CategoryExpr(Expr<CAT, KIND> &&x) : u{std::move(x)} {}
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template<int K> using KindExpr = Expr<CAT, K>;
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template<int KIND> using KindExpr = Expr<CAT, KIND>;
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template<int KIND> CategoryExpr(const KindExpr<KIND> &x) : u{x} {}
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template<int KIND> CategoryExpr(KindExpr<KIND> &&x) : u{std::move(x)} {}
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std::optional<CategoryConstant<CAT>> ConstantValue() const;
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void Fold(FoldingContext &);
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typename KindsVariant<CAT, KindExpr>::type u;
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};
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// A completely generic expression, polymorphic across the type categories.
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// A completely generic expression, polymorphic across the intrinsic type
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// categories and each of their kinds.
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struct GenericExpr {
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CLASS_BOILERPLATE(GenericExpr)
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template<Category CAT, int KIND>
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template<typename A>
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GenericExpr(std::enable_if_t<!std::is_reference_v<A>, A> &&x)
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: u{std::move(x)} {}
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std::optional<GenericConstant> ConstantValue() const;
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void Fold(FoldingContext &);
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int Rank() const { return 1; } // TODO
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std::variant<GenericIntegerExpr, GenericRealExpr, GenericComplexExpr,
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GenericCharacterExpr, LogicalExpr>
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u;
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@ -117,13 +117,24 @@ using DefaultCharacter = Type<Category::Character, 1>;
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using SubscriptInteger = Type<Category::Integer, 8>;
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// These macros invoke other macros on each of the supported kinds of
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// a given category.
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#define COMMA ,
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#define FOR_EACH_INTEGER_KIND(M,SEP) M(1) SEP M(2) SEP M(4) SEP M(8) SEP M(16)
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#define FOR_EACH_REAL_KIND(M,SEP) M(2) SEP M(4) SEP M(8) SEP M(10) SEP M(16)
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#define FOR_EACH_COMPLEX_KIND(M,SEP) FOR_EACH_REAL_KIND(M,SEP)
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#define FOR_EACH_CHARACTER_KIND(M,SEP) M(1)
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#define FOR_EACH_LOGICAL_KIND(M,SEP) M(1) SEP M(2) SEP M(4) SEP M(8)
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// These templates create instances of std::variant<> that can contain
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// applications of some class template to all of the supported kinds of
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// a category of intrinsic type.
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#define TKIND(K) T<K>
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template<Category CAT, template<int> class T> struct KindsVariant;
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template<template<int> class T> struct KindsVariant<Category::Integer, T> {
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using type = std::variant<T<1>, T<2>, T<4>, T<8>, T<16>>;
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using type = std::variant<FOR_EACH_INTEGER_KIND(TKIND,COMMA)>;
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};
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// TODO use FOR_EACH...
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template<template<int> class T> struct KindsVariant<Category::Real, T> {
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using type = std::variant<T<2>, T<4>, T<8>, T<10>, T<16>>;
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};
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@ -136,5 +147,6 @@ template<template<int> class T> struct KindsVariant<Category::Character, T> {
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template<template<int> class T> struct KindsVariant<Category::Logical, T> {
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using type = std::variant<T<1>, T<2>, T<4>, T<8>>;
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};
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#undef TKIND
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} // namespace Fortran::evaluate
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#endif // FORTRAN_EVALUATE_TYPE_H_
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@ -113,6 +113,8 @@ public:
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Message(ProvenanceRange pr, const MessageFixedText &t)
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: location_{pr}, text_{t} {}
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Message(ProvenanceRange pr, const MessageFormattedText &s)
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: location_{pr}, text_{std::move(s)} {}
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Message(ProvenanceRange pr, MessageFormattedText &&s)
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: location_{pr}, text_{std::move(s)} {}
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Message(ProvenanceRange pr, const MessageExpectedText &t)
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@ -120,6 +122,8 @@ public:
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Message(CharBlock csr, const MessageFixedText &t)
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: location_{csr}, text_{t} {}
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Message(CharBlock csr, const MessageFormattedText &s)
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: location_{csr}, text_{std::move(s)} {}
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Message(CharBlock csr, MessageFormattedText &&s)
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: location_{csr}, text_{std::move(s)} {}
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Message(CharBlock csr, const MessageExpectedText &t)
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@ -62,7 +62,7 @@ class Symbol;
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} // namespace Fortran::semantics
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namespace Fortran::evaluate {
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class GenericExpr;
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struct GenericExpr;
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} // namespace Fortran::evaluate
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// Most non-template classes in this file use these default definitions
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@ -19,45 +19,112 @@ using namespace Fortran::parser::literals;
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namespace Fortran::semantics {
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std::optional<evaluate::GenericExpr> ExpressionAnalyzer::Analyze(
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const parser::Expr &x) {
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return std::visit(
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common::visitors{
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[&](const parser::LiteralConstant &c) { return Analyze(c); },
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[&](const auto &) { return std::optional<evaluate::GenericExpr>{}; }},
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x.u);
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template<typename A>
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std::optional<evaluate::GenericExpr> AnalyzeHelper(ExpressionAnalyzer &ea, const A &tree) {
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return ea.Analyze(tree);
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}
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std::optional<evaluate::GenericExpr> ExpressionAnalyzer::Analyze(
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const parser::IntLiteralConstant &x) {
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std::uint64_t kind = defaultIntegerKind_;
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const auto &kindParam{std::get<std::optional<parser::KindParam>>(x.t)};
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if (kindParam.has_value()) {
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std::visit(common::visitors{[&](std::uint64_t k) { kind = k; },
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[&](const auto &) {
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messages_.Say(at_, "unimp kind param"_err_en_US);
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}},
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kindParam->u);
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template<typename A>
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std::optional<evaluate::GenericExpr> AnalyzeHelper(ExpressionAnalyzer &ea,
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const parser::Scalar<A> &tree) {
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std::optional<evaluate::GenericExpr> result{AnalyzeHelper(ea, tree.thing)};
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if (result.has_value()) {
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if (result->Rank() > 1) {
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ea.Say("must be scalar"_err_en_US);
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return {};
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}
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}
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return result;
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}
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template<typename A>
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std::optional<evaluate::GenericExpr> AnalyzeHelper(ExpressionAnalyzer &ea,
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const parser::Constant<A> &tree) {
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std::optional<evaluate::GenericExpr> result{AnalyzeHelper(ea, tree.thing)};
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if (result.has_value()) {
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result->Fold(ea.context());
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if (!result->ConstantValue().has_value()) {
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ea.Say("must be constant"_err_en_US);
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return {};
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}
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}
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return result;
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}
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template<typename A>
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std::optional<evaluate::GenericExpr> AnalyzeHelper(ExpressionAnalyzer &ea,
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const parser::Integer<A> &tree) {
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std::optional<evaluate::GenericExpr> result{AnalyzeHelper(ea, tree.thing)};
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if (result.has_value() && !std::holds_alternative<evaluate::GenericIntegerExpr>(result->u)) {
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ea.Say("must be integer"_err_en_US);
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return {};
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}
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return result;
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}
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template<> std::optional<evaluate::GenericExpr> AnalyzeHelper(ExpressionAnalyzer &ea,
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const parser::Name &n) {
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// TODO
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return {};
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}
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ExpressionAnalyzer::KindParam
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ExpressionAnalyzer::Analyze(const std::optional<parser::KindParam> &kindParam,
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KindParam defaultKind, KindParam kanjiKind) {
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if (!kindParam.has_value()) {
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return defaultKind;
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}
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return std::visit(common::visitors{[](std::uint64_t k) { return static_cast<KindParam>(k); },
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[&](const parser::Scalar<parser::Integer<parser::Constant<parser::Name>>> &n) {
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if (std::optional<evaluate::GenericExpr> oge{AnalyzeHelper(*this, n)}) {
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if (std::optional<evaluate::GenericConstant> ogc{oge->ConstantValue()}) {
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// TODO pmk more here next
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}
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}
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return defaultKind;
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},
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[&](parser::KindParam::Kanji) {
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if (kanjiKind >= 0) {
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return kanjiKind;
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}
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Say("Kanji not allowed here"_err_en_US);
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return defaultKind; }}, kindParam->u);
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}
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template<> std::optional<evaluate::GenericExpr> AnalyzeHelper(ExpressionAnalyzer &ea,
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const parser::IntLiteralConstant &x) {
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auto kind{ea.Analyze(std::get<std::optional<parser::KindParam>>(x.t),
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ea.defaultIntegerKind())};
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std::uint64_t value{std::get<std::uint64_t>(x.t)};
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switch (kind) {
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case 4:
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return {evaluate::GenericExpr{
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evaluate::GenericIntegerExpr{evaluate::IntegerExpr<4>{value}}}};
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#define CASE(k) case k: return {evaluate::GenericExpr{evaluate::GenericIntegerExpr{evaluate::IntegerExpr<k>{value}}}};
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FOR_EACH_INTEGER_KIND(CASE,)
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#undef CASE
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default:
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messages_.Say(at_,
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parser::MessageFormattedText{
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ea.Say(parser::MessageFormattedText{
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"unimplemented INTEGER kind (%ju)"_err_en_US,
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static_cast<std::uintmax_t>(kind)});
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return {};
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}
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}
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std::optional<evaluate::GenericExpr> ExpressionAnalyzer::Analyze(
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template<> std::optional<evaluate::GenericExpr> AnalyzeHelper(ExpressionAnalyzer &ea,
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const parser::LiteralConstant &x) {
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return std::visit(
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common::visitors{
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[&](const parser::IntLiteralConstant &c) { return Analyze(c); },
|
||||
[&](const parser::IntLiteralConstant &c) { return AnalyzeHelper(ea, c); },
|
||||
// TODO next [&](const parser::RealLiteralConstant &c) { return AnalyzeHelper(ea, c); },
|
||||
// TODO: remaining cases
|
||||
[&](const auto &) { return std::optional<evaluate::GenericExpr>{}; }},
|
||||
x.u);
|
||||
}
|
||||
|
||||
std::optional<evaluate::GenericExpr> ExpressionAnalyzer::Analyze(
|
||||
const parser::Expr &x) {
|
||||
return std::visit(
|
||||
common::visitors{
|
||||
[&](const parser::LiteralConstant &c) { return AnalyzeHelper(*this, c); },
|
||||
// TODO: remaining cases
|
||||
[&](const auto &) { return std::optional<evaluate::GenericExpr>{}; }},
|
||||
x.u);
|
||||
}
|
||||
|
|
|
@ -25,17 +25,28 @@ namespace Fortran::semantics {
|
|||
|
||||
class ExpressionAnalyzer {
|
||||
public:
|
||||
ExpressionAnalyzer(parser::Messages &m, std::uint64_t dIK)
|
||||
: messages_{m}, defaultIntegerKind_{dIK} {}
|
||||
using KindParam = std::int64_t;
|
||||
ExpressionAnalyzer(evaluate::FoldingContext &c, KindParam dIK)
|
||||
: context_{c}, defaultIntegerKind_{dIK} {}
|
||||
|
||||
evaluate::FoldingContext &context() { return context_; }
|
||||
KindParam defaultIntegerKind() const { return defaultIntegerKind_; }
|
||||
|
||||
template<typename M>
|
||||
void Say(const M &msg) {
|
||||
if (context_.messages != nullptr) {
|
||||
context_.messages->Say(context_.at, msg);
|
||||
}
|
||||
}
|
||||
|
||||
// Performs semantic checking on an expression. If successful,
|
||||
// returns its typed expression representation.
|
||||
std::optional<evaluate::GenericExpr> Analyze(const parser::Expr &);
|
||||
std::optional<evaluate::GenericExpr> Analyze(
|
||||
const parser::IntLiteralConstant &);
|
||||
std::optional<evaluate::GenericExpr> Analyze(const parser::LiteralConstant &);
|
||||
KindParam Analyze(const std::optional<parser::KindParam> &, KindParam defaultKind, KindParam kanjiKind = -1 /* not allowed here */);
|
||||
|
||||
private:
|
||||
parser::Messages &messages_;
|
||||
const parser::CharBlock at_;
|
||||
std::uint64_t defaultIntegerKind_{4};
|
||||
evaluate::FoldingContext context_;
|
||||
KindParam defaultIntegerKind_{4};
|
||||
};
|
||||
} // namespace Fortran::semantics
|
||||
#endif // FORTRAN_SEMANTICS_EXPRESSION_H_
|
||||
|
|
|
@ -42,7 +42,7 @@ leaves are concrete types:
|
|||
DerivedTypeSpec
|
||||
|
||||
TypeSpec classes are immutable. For intrinsic types (except character) there
|
||||
are a limited number of instances -- one for each kind.
|
||||
is a limited number of instances -- one for each kind.
|
||||
|
||||
A DerivedTypeSpec is based on a DerivedTypeDef (from a derived type statement)
|
||||
with kind and len parameter values provided.
|
||||
|
|
Loading…
Reference in New Issue