forked from OSchip/llvm-project
2626 lines
111 KiB
C++
2626 lines
111 KiB
C++
//===-- lib/Evaluate/intrinsics.cpp ---------------------------------------===//
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//
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// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
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// See https://llvm.org/LICENSE.txt for license information.
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// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
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//
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//===----------------------------------------------------------------------===//
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#include "flang/Evaluate/intrinsics.h"
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#include "flang/Common/Fortran.h"
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#include "flang/Common/enum-set.h"
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#include "flang/Common/idioms.h"
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#include "flang/Evaluate/common.h"
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#include "flang/Evaluate/expression.h"
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#include "flang/Evaluate/fold.h"
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#include "flang/Evaluate/shape.h"
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#include "flang/Evaluate/tools.h"
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#include "flang/Evaluate/type.h"
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#include "flang/Semantics/scope.h"
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#include "flang/Semantics/tools.h"
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#include "llvm/Support/raw_ostream.h"
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#include <algorithm>
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#include <map>
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#include <string>
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#include <utility>
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using namespace Fortran::parser::literals;
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namespace Fortran::evaluate {
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class FoldingContext;
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// This file defines the supported intrinsic procedures and implements
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// their recognition and validation. It is largely table-driven. See
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// docs/intrinsics.md and section 16 of the Fortran 2018 standard
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// for full details on each of the intrinsics. Be advised, they have
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// complicated details, and the design of these tables has to accommodate
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// that complexity.
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// Dummy arguments to generic intrinsic procedures are each specified by
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// their keyword name (rarely used, but always defined), allowable type
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// categories, a kind pattern, a rank pattern, and information about
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// optionality and defaults. The kind and rank patterns are represented
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// here with code values that are significant to the matching/validation engine.
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// An actual argument to an intrinsic procedure may be a procedure itself
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// only if the dummy argument is Rank::reduceOperation,
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// KindCode::addressable, or the special case of NULL(MOLD=procedurePointer).
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// These are small bit-sets of type category enumerators.
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// Note that typeless (BOZ literal) values don't have a distinct type category.
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// These typeless arguments are represented in the tables as if they were
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// INTEGER with a special "typeless" kind code. Arguments of intrinsic types
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// that can also be typeless values are encoded with an "elementalOrBOZ"
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// rank pattern.
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// Assumed-type (TYPE(*)) dummy arguments can be forwarded along to some
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// intrinsic functions that accept AnyType + Rank::anyOrAssumedRank or
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// AnyType + Kind::addressable.
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using CategorySet = common::EnumSet<TypeCategory, 8>;
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static constexpr CategorySet IntType{TypeCategory::Integer};
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static constexpr CategorySet RealType{TypeCategory::Real};
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static constexpr CategorySet ComplexType{TypeCategory::Complex};
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static constexpr CategorySet CharType{TypeCategory::Character};
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static constexpr CategorySet LogicalType{TypeCategory::Logical};
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static constexpr CategorySet IntOrRealType{IntType | RealType};
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static constexpr CategorySet FloatingType{RealType | ComplexType};
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static constexpr CategorySet NumericType{IntType | RealType | ComplexType};
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static constexpr CategorySet RelatableType{IntType | RealType | CharType};
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static constexpr CategorySet DerivedType{TypeCategory::Derived};
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static constexpr CategorySet IntrinsicType{
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IntType | RealType | ComplexType | CharType | LogicalType};
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static constexpr CategorySet AnyType{IntrinsicType | DerivedType};
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ENUM_CLASS(KindCode, none, defaultIntegerKind,
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defaultRealKind, // is also the default COMPLEX kind
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doublePrecision, defaultCharKind, defaultLogicalKind,
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any, // matches any kind value; each instance is independent
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same, // match any kind, but all "same" kinds must be equal
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operand, // match any kind, with promotion (non-standard)
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typeless, // BOZ literals are INTEGER with this kind
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teamType, // TEAM_TYPE from module ISO_FORTRAN_ENV (for coarrays)
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kindArg, // this argument is KIND=
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effectiveKind, // for function results: "kindArg" value, possibly defaulted
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dimArg, // this argument is DIM=
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likeMultiply, // for DOT_PRODUCT and MATMUL
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subscript, // address-sized integer
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size, // default KIND= for SIZE(), UBOUND, &c.
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addressable, // for PRESENT(), &c.; anything (incl. procedure) but BOZ
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nullPointerType, // for ASSOCIATED(NULL())
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)
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struct TypePattern {
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CategorySet categorySet;
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KindCode kindCode{KindCode::none};
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llvm::raw_ostream &Dump(llvm::raw_ostream &) const;
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};
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// Abbreviations for argument and result patterns in the intrinsic prototypes:
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// Match specific kinds of intrinsic types
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static constexpr TypePattern DefaultInt{IntType, KindCode::defaultIntegerKind};
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static constexpr TypePattern DefaultReal{RealType, KindCode::defaultRealKind};
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static constexpr TypePattern DefaultComplex{
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ComplexType, KindCode::defaultRealKind};
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static constexpr TypePattern DefaultChar{CharType, KindCode::defaultCharKind};
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static constexpr TypePattern DefaultLogical{
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LogicalType, KindCode::defaultLogicalKind};
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static constexpr TypePattern BOZ{IntType, KindCode::typeless};
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static constexpr TypePattern TeamType{DerivedType, KindCode::teamType};
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static constexpr TypePattern DoublePrecision{
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RealType, KindCode::doublePrecision};
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static constexpr TypePattern DoublePrecisionComplex{
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ComplexType, KindCode::doublePrecision};
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static constexpr TypePattern SubscriptInt{IntType, KindCode::subscript};
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// Match any kind of some intrinsic or derived types
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static constexpr TypePattern AnyInt{IntType, KindCode::any};
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static constexpr TypePattern AnyReal{RealType, KindCode::any};
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static constexpr TypePattern AnyIntOrReal{IntOrRealType, KindCode::any};
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static constexpr TypePattern AnyComplex{ComplexType, KindCode::any};
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static constexpr TypePattern AnyFloating{FloatingType, KindCode::any};
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static constexpr TypePattern AnyNumeric{NumericType, KindCode::any};
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static constexpr TypePattern AnyChar{CharType, KindCode::any};
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static constexpr TypePattern AnyLogical{LogicalType, KindCode::any};
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static constexpr TypePattern AnyRelatable{RelatableType, KindCode::any};
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static constexpr TypePattern AnyIntrinsic{IntrinsicType, KindCode::any};
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static constexpr TypePattern ExtensibleDerived{DerivedType, KindCode::any};
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static constexpr TypePattern AnyData{AnyType, KindCode::any};
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// Type is irrelevant, but not BOZ (for PRESENT(), OPTIONAL(), &c.)
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static constexpr TypePattern Addressable{AnyType, KindCode::addressable};
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// Match some kind of some intrinsic type(s); all "Same" values must match,
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// even when not in the same category (e.g., SameComplex and SameReal).
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// Can be used to specify a result so long as at least one argument is
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// a "Same".
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static constexpr TypePattern SameInt{IntType, KindCode::same};
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static constexpr TypePattern SameReal{RealType, KindCode::same};
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static constexpr TypePattern SameIntOrReal{IntOrRealType, KindCode::same};
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static constexpr TypePattern SameComplex{ComplexType, KindCode::same};
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static constexpr TypePattern SameFloating{FloatingType, KindCode::same};
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static constexpr TypePattern SameNumeric{NumericType, KindCode::same};
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static constexpr TypePattern SameChar{CharType, KindCode::same};
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static constexpr TypePattern SameLogical{LogicalType, KindCode::same};
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static constexpr TypePattern SameRelatable{RelatableType, KindCode::same};
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static constexpr TypePattern SameIntrinsic{IntrinsicType, KindCode::same};
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static constexpr TypePattern SameDerivedType{
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CategorySet{TypeCategory::Derived}, KindCode::same};
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static constexpr TypePattern SameType{AnyType, KindCode::same};
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// Match some kind of some INTEGER or REAL type(s); when argument types
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// &/or kinds differ, their values are converted as if they were operands to
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// an intrinsic operation like addition. This is a nonstandard but nearly
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// universal extension feature.
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static constexpr TypePattern OperandReal{RealType, KindCode::operand};
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static constexpr TypePattern OperandIntOrReal{IntOrRealType, KindCode::operand};
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// For ASSOCIATED, the first argument is a typeless pointer
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static constexpr TypePattern AnyPointer{AnyType, KindCode::nullPointerType};
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// For DOT_PRODUCT and MATMUL, the result type depends on the arguments
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static constexpr TypePattern ResultLogical{LogicalType, KindCode::likeMultiply};
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static constexpr TypePattern ResultNumeric{NumericType, KindCode::likeMultiply};
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// Result types with known category and KIND=
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static constexpr TypePattern KINDInt{IntType, KindCode::effectiveKind};
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static constexpr TypePattern KINDReal{RealType, KindCode::effectiveKind};
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static constexpr TypePattern KINDComplex{ComplexType, KindCode::effectiveKind};
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static constexpr TypePattern KINDChar{CharType, KindCode::effectiveKind};
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static constexpr TypePattern KINDLogical{LogicalType, KindCode::effectiveKind};
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// The default rank pattern for dummy arguments and function results is
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// "elemental".
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ENUM_CLASS(Rank,
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elemental, // scalar, or array that conforms with other array arguments
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elementalOrBOZ, // elemental, or typeless BOZ literal scalar
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scalar, vector,
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shape, // INTEGER vector of known length and no negative element
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matrix,
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array, // not scalar, rank is known and greater than zero
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coarray, // rank is known and can be scalar; has nonzero corank
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known, // rank is known and can be scalar
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anyOrAssumedRank, // rank can be unknown; assumed-type TYPE(*) allowed
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conformable, // scalar, or array of same rank & shape as "array" argument
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reduceOperation, // a pure function with constraints for REDUCE
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dimReduced, // scalar if no DIM= argument, else rank(array)-1
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dimRemovedOrScalar, // rank(array)-1 (less DIM) or scalar
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locReduced, // vector(1:rank) if no DIM= argument, else rank(array)-1
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rankPlus1, // rank(known)+1
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shaped, // rank is length of SHAPE vector
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)
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ENUM_CLASS(Optionality, required,
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optional, // unless DIM= for SIZE(assumedSize)
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missing, // for DIM= cases like FINDLOC
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defaultsToSameKind, // for MatchingDefaultKIND
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defaultsToDefaultForResult, // for DefaultingKIND
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defaultsToSizeKind, // for SizeDefaultKIND
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repeats, // for MAX/MIN and their several variants
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)
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struct IntrinsicDummyArgument {
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const char *keyword{nullptr};
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TypePattern typePattern;
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Rank rank{Rank::elemental};
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Optionality optionality{Optionality::required};
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common::Intent intent{common::Intent::In};
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llvm::raw_ostream &Dump(llvm::raw_ostream &) const;
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};
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// constexpr abbreviations for popular arguments:
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// DefaultingKIND is a KIND= argument whose default value is the appropriate
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// KIND(0), KIND(0.0), KIND(''), &c. value for the function result.
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static constexpr IntrinsicDummyArgument DefaultingKIND{"kind",
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{IntType, KindCode::kindArg}, Rank::scalar,
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Optionality::defaultsToDefaultForResult, common::Intent::In};
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// MatchingDefaultKIND is a KIND= argument whose default value is the
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// kind of any "Same" function argument (viz., the one whose kind pattern is
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// "same").
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static constexpr IntrinsicDummyArgument MatchingDefaultKIND{"kind",
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{IntType, KindCode::kindArg}, Rank::scalar, Optionality::defaultsToSameKind,
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common::Intent::In};
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// SizeDefaultKind is a KIND= argument whose default value should be
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// the kind of INTEGER used for address calculations, and can be
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// set so with a compiler flag; but the standard mandates the
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// kind of default INTEGER.
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static constexpr IntrinsicDummyArgument SizeDefaultKIND{"kind",
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{IntType, KindCode::kindArg}, Rank::scalar, Optionality::defaultsToSizeKind,
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common::Intent::In};
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static constexpr IntrinsicDummyArgument RequiredDIM{"dim",
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{IntType, KindCode::dimArg}, Rank::scalar, Optionality::required,
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common::Intent::In};
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static constexpr IntrinsicDummyArgument OptionalDIM{"dim",
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{IntType, KindCode::dimArg}, Rank::scalar, Optionality::optional,
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common::Intent::In};
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static constexpr IntrinsicDummyArgument MissingDIM{"dim",
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{IntType, KindCode::dimArg}, Rank::scalar, Optionality::missing,
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common::Intent::In};
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static constexpr IntrinsicDummyArgument OptionalMASK{"mask", AnyLogical,
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Rank::conformable, Optionality::optional, common::Intent::In};
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static constexpr IntrinsicDummyArgument OptionalTEAM{
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"team", TeamType, Rank::scalar, Optionality::optional, common::Intent::In};
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struct IntrinsicInterface {
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static constexpr int maxArguments{7}; // if not a MAX/MIN(...)
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const char *name{nullptr};
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IntrinsicDummyArgument dummy[maxArguments];
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TypePattern result;
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Rank rank{Rank::elemental};
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IntrinsicClass intrinsicClass{IntrinsicClass::elementalFunction};
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std::optional<SpecificCall> Match(const CallCharacteristics &,
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const common::IntrinsicTypeDefaultKinds &, ActualArguments &,
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FoldingContext &context, const semantics::Scope *builtins) const;
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int CountArguments() const;
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llvm::raw_ostream &Dump(llvm::raw_ostream &) const;
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};
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int IntrinsicInterface::CountArguments() const {
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int n{0};
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while (n < maxArguments && dummy[n].keyword) {
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++n;
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}
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return n;
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}
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// GENERIC INTRINSIC FUNCTION INTERFACES
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// Each entry in this table defines a pattern. Some intrinsic
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// functions have more than one such pattern. Besides the name
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// of the intrinsic function, each pattern has specifications for
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// the dummy arguments and for the result of the function.
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// The dummy argument patterns each have a name (these are from the
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// standard, but rarely appear in actual code), a type and kind
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// pattern, allowable ranks, and optionality indicators.
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// Be advised, the default rank pattern is "elemental".
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static const IntrinsicInterface genericIntrinsicFunction[]{
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{"abs", {{"a", SameIntOrReal}}, SameIntOrReal},
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{"abs", {{"a", SameComplex}}, SameReal},
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{"achar", {{"i", AnyInt, Rank::elementalOrBOZ}, DefaultingKIND}, KINDChar},
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{"acos", {{"x", SameFloating}}, SameFloating},
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{"acosd", {{"x", SameFloating}}, SameFloating},
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{"acosh", {{"x", SameFloating}}, SameFloating},
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{"adjustl", {{"string", SameChar}}, SameChar},
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{"adjustr", {{"string", SameChar}}, SameChar},
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{"aimag", {{"z", SameComplex}}, SameReal},
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{"aint", {{"a", SameReal}, MatchingDefaultKIND}, KINDReal},
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{"all", {{"mask", SameLogical, Rank::array}, OptionalDIM}, SameLogical,
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Rank::dimReduced, IntrinsicClass::transformationalFunction},
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{"allocated", {{"array", AnyData, Rank::array}}, DefaultLogical,
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Rank::elemental, IntrinsicClass::inquiryFunction},
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{"allocated", {{"scalar", AnyData, Rank::scalar}}, DefaultLogical,
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Rank::elemental, IntrinsicClass::inquiryFunction},
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{"anint", {{"a", SameReal}, MatchingDefaultKIND}, KINDReal},
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{"any", {{"mask", SameLogical, Rank::array}, OptionalDIM}, SameLogical,
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Rank::dimReduced, IntrinsicClass::transformationalFunction},
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{"asin", {{"x", SameFloating}}, SameFloating},
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{"asind", {{"x", SameFloating}}, SameFloating},
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{"asinh", {{"x", SameFloating}}, SameFloating},
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{"associated",
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{{"pointer", AnyPointer, Rank::known},
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{"target", Addressable, Rank::known, Optionality::optional}},
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DefaultLogical, Rank::elemental, IntrinsicClass::inquiryFunction},
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{"atan", {{"x", SameFloating}}, SameFloating},
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{"atand", {{"x", SameFloating}}, SameFloating},
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{"atan", {{"y", OperandReal}, {"x", OperandReal}}, OperandReal},
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{"atand", {{"y", OperandReal}, {"x", OperandReal}}, OperandReal},
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{"atan2", {{"y", OperandReal}, {"x", OperandReal}}, OperandReal},
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{"atan2d", {{"y", OperandReal}, {"x", OperandReal}}, OperandReal},
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{"atanh", {{"x", SameFloating}}, SameFloating},
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{"bessel_j0", {{"x", SameReal}}, SameReal},
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{"bessel_j1", {{"x", SameReal}}, SameReal},
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{"bessel_jn", {{"n", AnyInt}, {"x", SameReal}}, SameReal},
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{"bessel_jn",
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{{"n1", AnyInt, Rank::scalar}, {"n2", AnyInt, Rank::scalar},
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{"x", SameReal, Rank::scalar}},
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SameReal, Rank::vector, IntrinsicClass::transformationalFunction},
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{"bessel_y0", {{"x", SameReal}}, SameReal},
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{"bessel_y1", {{"x", SameReal}}, SameReal},
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{"bessel_yn", {{"n", AnyInt}, {"x", SameReal}}, SameReal},
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{"bessel_yn",
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{{"n1", AnyInt, Rank::scalar}, {"n2", AnyInt, Rank::scalar},
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{"x", SameReal, Rank::scalar}},
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SameReal, Rank::vector, IntrinsicClass::transformationalFunction},
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{"bge",
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{{"i", AnyInt, Rank::elementalOrBOZ},
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{"j", AnyInt, Rank::elementalOrBOZ}},
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DefaultLogical},
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{"bgt",
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{{"i", AnyInt, Rank::elementalOrBOZ},
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{"j", AnyInt, Rank::elementalOrBOZ}},
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DefaultLogical},
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{"bit_size", {{"i", SameInt, Rank::anyOrAssumedRank}}, SameInt,
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Rank::scalar, IntrinsicClass::inquiryFunction},
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{"ble",
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{{"i", AnyInt, Rank::elementalOrBOZ},
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{"j", AnyInt, Rank::elementalOrBOZ}},
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DefaultLogical},
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{"blt",
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{{"i", AnyInt, Rank::elementalOrBOZ},
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{"j", AnyInt, Rank::elementalOrBOZ}},
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DefaultLogical},
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{"btest", {{"i", AnyInt, Rank::elementalOrBOZ}, {"pos", AnyInt}},
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DefaultLogical},
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{"ceiling", {{"a", AnyReal}, DefaultingKIND}, KINDInt},
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{"char", {{"i", AnyInt, Rank::elementalOrBOZ}, DefaultingKIND}, KINDChar},
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{"cmplx", {{"x", AnyComplex}, DefaultingKIND}, KINDComplex},
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{"cmplx",
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{{"x", AnyIntOrReal, Rank::elementalOrBOZ},
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{"y", AnyIntOrReal, Rank::elementalOrBOZ, Optionality::optional},
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DefaultingKIND},
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KINDComplex},
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{"command_argument_count", {}, DefaultInt, Rank::scalar,
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IntrinsicClass::transformationalFunction},
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{"conjg", {{"z", SameComplex}}, SameComplex},
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{"cos", {{"x", SameFloating}}, SameFloating},
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{"cosd", {{"x", SameFloating}}, SameFloating},
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{"cosh", {{"x", SameFloating}}, SameFloating},
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{"count", {{"mask", AnyLogical, Rank::array}, OptionalDIM, DefaultingKIND},
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KINDInt, Rank::dimReduced, IntrinsicClass::transformationalFunction},
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{"cshift",
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{{"array", SameType, Rank::array},
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{"shift", AnyInt, Rank::dimRemovedOrScalar}, OptionalDIM},
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SameType, Rank::conformable, IntrinsicClass::transformationalFunction},
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{"dble", {{"a", AnyNumeric, Rank::elementalOrBOZ}}, DoublePrecision},
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{"digits", {{"x", AnyIntOrReal, Rank::anyOrAssumedRank}}, DefaultInt,
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Rank::scalar, IntrinsicClass::inquiryFunction},
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{"dim", {{"x", OperandIntOrReal}, {"y", OperandIntOrReal}},
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OperandIntOrReal},
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{"dot_product",
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{{"vector_a", AnyLogical, Rank::vector},
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{"vector_b", AnyLogical, Rank::vector}},
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ResultLogical, Rank::scalar, IntrinsicClass::transformationalFunction},
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{"dot_product",
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{{"vector_a", AnyComplex, Rank::vector},
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{"vector_b", AnyNumeric, Rank::vector}},
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ResultNumeric, Rank::scalar, // conjugates vector_a
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IntrinsicClass::transformationalFunction},
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{"dot_product",
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{{"vector_a", AnyIntOrReal, Rank::vector},
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{"vector_b", AnyNumeric, Rank::vector}},
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ResultNumeric, Rank::scalar, IntrinsicClass::transformationalFunction},
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{"dprod", {{"x", DefaultReal}, {"y", DefaultReal}}, DoublePrecision},
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{"dshiftl",
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{{"i", SameInt}, {"j", SameInt, Rank::elementalOrBOZ},
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{"shift", AnyInt}},
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SameInt},
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{"dshiftl", {{"i", BOZ}, {"j", SameInt}, {"shift", AnyInt}}, SameInt},
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{"dshiftr",
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{{"i", SameInt}, {"j", SameInt, Rank::elementalOrBOZ},
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{"shift", AnyInt}},
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SameInt},
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{"dshiftr", {{"i", BOZ}, {"j", SameInt}, {"shift", AnyInt}}, SameInt},
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{"eoshift",
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{{"array", SameIntrinsic, Rank::array},
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{"shift", AnyInt, Rank::dimRemovedOrScalar},
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{"boundary", SameIntrinsic, Rank::dimRemovedOrScalar,
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Optionality::optional},
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OptionalDIM},
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SameIntrinsic, Rank::conformable,
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IntrinsicClass::transformationalFunction},
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{"eoshift",
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{{"array", SameDerivedType, Rank::array},
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{"shift", AnyInt, Rank::dimRemovedOrScalar},
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// BOUNDARY= is not optional for derived types
|
|
{"boundary", SameDerivedType, Rank::dimRemovedOrScalar},
|
|
OptionalDIM},
|
|
SameDerivedType, Rank::conformable,
|
|
IntrinsicClass::transformationalFunction},
|
|
{"epsilon", {{"x", SameReal, Rank::anyOrAssumedRank}}, SameReal,
|
|
Rank::scalar, IntrinsicClass::inquiryFunction},
|
|
{"erf", {{"x", SameReal}}, SameReal},
|
|
{"erfc", {{"x", SameReal}}, SameReal},
|
|
{"erfc_scaled", {{"x", SameReal}}, SameReal},
|
|
{"exp", {{"x", SameFloating}}, SameFloating},
|
|
{"exp", {{"x", SameFloating}}, SameFloating},
|
|
{"exponent", {{"x", AnyReal}}, DefaultInt},
|
|
{"exp", {{"x", SameFloating}}, SameFloating},
|
|
{"extends_type_of",
|
|
{{"a", ExtensibleDerived, Rank::anyOrAssumedRank},
|
|
{"mold", ExtensibleDerived, Rank::anyOrAssumedRank}},
|
|
DefaultLogical, Rank::scalar, IntrinsicClass::inquiryFunction},
|
|
{"findloc",
|
|
{{"array", AnyNumeric, Rank::array},
|
|
{"value", AnyNumeric, Rank::scalar}, RequiredDIM, OptionalMASK,
|
|
SizeDefaultKIND,
|
|
{"back", AnyLogical, Rank::scalar, Optionality::optional}},
|
|
KINDInt, Rank::locReduced, IntrinsicClass::transformationalFunction},
|
|
{"findloc",
|
|
{{"array", AnyNumeric, Rank::array},
|
|
{"value", AnyNumeric, Rank::scalar}, MissingDIM, OptionalMASK,
|
|
SizeDefaultKIND,
|
|
{"back", AnyLogical, Rank::scalar, Optionality::optional}},
|
|
KINDInt, Rank::vector, IntrinsicClass::transformationalFunction},
|
|
{"findloc",
|
|
{{"array", SameChar, Rank::array}, {"value", SameChar, Rank::scalar},
|
|
RequiredDIM, OptionalMASK, SizeDefaultKIND,
|
|
{"back", AnyLogical, Rank::scalar, Optionality::optional}},
|
|
KINDInt, Rank::locReduced, IntrinsicClass::transformationalFunction},
|
|
{"findloc",
|
|
{{"array", SameChar, Rank::array}, {"value", SameChar, Rank::scalar},
|
|
MissingDIM, OptionalMASK, SizeDefaultKIND,
|
|
{"back", AnyLogical, Rank::scalar, Optionality::optional}},
|
|
KINDInt, Rank::vector, IntrinsicClass::transformationalFunction},
|
|
{"findloc",
|
|
{{"array", AnyLogical, Rank::array},
|
|
{"value", AnyLogical, Rank::scalar}, RequiredDIM, OptionalMASK,
|
|
SizeDefaultKIND,
|
|
{"back", AnyLogical, Rank::scalar, Optionality::optional}},
|
|
KINDInt, Rank::locReduced, IntrinsicClass::transformationalFunction},
|
|
{"findloc",
|
|
{{"array", AnyLogical, Rank::array},
|
|
{"value", AnyLogical, Rank::scalar}, MissingDIM, OptionalMASK,
|
|
SizeDefaultKIND,
|
|
{"back", AnyLogical, Rank::scalar, Optionality::optional}},
|
|
KINDInt, Rank::vector, IntrinsicClass::transformationalFunction},
|
|
{"floor", {{"a", AnyReal}, DefaultingKIND}, KINDInt},
|
|
{"fraction", {{"x", SameReal}}, SameReal},
|
|
{"gamma", {{"x", SameReal}}, SameReal},
|
|
{"get_team", {{"level", DefaultInt, Rank::scalar, Optionality::optional}},
|
|
TeamType, Rank::scalar, IntrinsicClass::transformationalFunction},
|
|
{"huge", {{"x", SameIntOrReal, Rank::anyOrAssumedRank}}, SameIntOrReal,
|
|
Rank::scalar, IntrinsicClass::inquiryFunction},
|
|
{"hypot", {{"x", OperandReal}, {"y", OperandReal}}, OperandReal},
|
|
{"iachar", {{"c", AnyChar}, DefaultingKIND}, KINDInt},
|
|
{"iall", {{"array", SameInt, Rank::array}, RequiredDIM, OptionalMASK},
|
|
SameInt, Rank::dimReduced, IntrinsicClass::transformationalFunction},
|
|
{"iall", {{"array", SameInt, Rank::array}, MissingDIM, OptionalMASK},
|
|
SameInt, Rank::scalar, IntrinsicClass::transformationalFunction},
|
|
{"iany", {{"array", SameInt, Rank::array}, RequiredDIM, OptionalMASK},
|
|
SameInt, Rank::dimReduced, IntrinsicClass::transformationalFunction},
|
|
{"iany", {{"array", SameInt, Rank::array}, MissingDIM, OptionalMASK},
|
|
SameInt, Rank::scalar, IntrinsicClass::transformationalFunction},
|
|
{"iparity", {{"array", SameInt, Rank::array}, RequiredDIM, OptionalMASK},
|
|
SameInt, Rank::dimReduced, IntrinsicClass::transformationalFunction},
|
|
{"iparity", {{"array", SameInt, Rank::array}, MissingDIM, OptionalMASK},
|
|
SameInt, Rank::scalar, IntrinsicClass::transformationalFunction},
|
|
{"iand", {{"i", SameInt}, {"j", SameInt, Rank::elementalOrBOZ}}, SameInt},
|
|
{"iand", {{"i", BOZ}, {"j", SameInt}}, SameInt},
|
|
{"ibclr", {{"i", SameInt}, {"pos", AnyInt}}, SameInt},
|
|
{"ibits", {{"i", SameInt}, {"pos", AnyInt}, {"len", AnyInt}}, SameInt},
|
|
{"ibset", {{"i", SameInt}, {"pos", AnyInt}}, SameInt},
|
|
{"ichar", {{"c", AnyChar}, DefaultingKIND}, KINDInt},
|
|
{"ieor", {{"i", SameInt}, {"j", SameInt, Rank::elementalOrBOZ}}, SameInt},
|
|
{"ieor", {{"i", BOZ}, {"j", SameInt}}, SameInt},
|
|
{"image_status", {{"image", SameInt}, OptionalTEAM}, DefaultInt},
|
|
{"index",
|
|
{{"string", SameChar}, {"substring", SameChar},
|
|
{"back", AnyLogical, Rank::scalar, Optionality::optional},
|
|
DefaultingKIND},
|
|
KINDInt},
|
|
{"int", {{"a", AnyNumeric, Rank::elementalOrBOZ}, DefaultingKIND}, KINDInt},
|
|
{"int_ptr_kind", {}, DefaultInt, Rank::scalar},
|
|
{"ior", {{"i", SameInt}, {"j", SameInt, Rank::elementalOrBOZ}}, SameInt},
|
|
{"ior", {{"i", BOZ}, {"j", SameInt}}, SameInt},
|
|
{"ishft", {{"i", SameInt}, {"shift", AnyInt}}, SameInt},
|
|
{"ishftc",
|
|
{{"i", SameInt}, {"shift", AnyInt},
|
|
{"size", AnyInt, Rank::elemental, Optionality::optional}},
|
|
SameInt},
|
|
{"isnan", {{"a", AnyFloating}}, DefaultLogical},
|
|
{"is_contiguous", {{"array", Addressable, Rank::anyOrAssumedRank}},
|
|
DefaultLogical, Rank::elemental, IntrinsicClass::inquiryFunction},
|
|
{"is_iostat_end", {{"i", AnyInt}}, DefaultLogical},
|
|
{"is_iostat_eor", {{"i", AnyInt}}, DefaultLogical},
|
|
{"kind", {{"x", AnyIntrinsic}}, DefaultInt, Rank::elemental,
|
|
IntrinsicClass::inquiryFunction},
|
|
{"lbound",
|
|
{{"array", AnyData, Rank::anyOrAssumedRank}, RequiredDIM,
|
|
SizeDefaultKIND},
|
|
KINDInt, Rank::scalar, IntrinsicClass::inquiryFunction},
|
|
{"lbound", {{"array", AnyData, Rank::anyOrAssumedRank}, SizeDefaultKIND},
|
|
KINDInt, Rank::vector, IntrinsicClass::inquiryFunction},
|
|
{"leadz", {{"i", AnyInt}}, DefaultInt},
|
|
{"len", {{"string", AnyChar, Rank::anyOrAssumedRank}, DefaultingKIND},
|
|
KINDInt, Rank::scalar, IntrinsicClass::inquiryFunction},
|
|
{"len_trim", {{"string", AnyChar}, DefaultingKIND}, KINDInt},
|
|
{"lge", {{"string_a", SameChar}, {"string_b", SameChar}}, DefaultLogical},
|
|
{"lgt", {{"string_a", SameChar}, {"string_b", SameChar}}, DefaultLogical},
|
|
{"lle", {{"string_a", SameChar}, {"string_b", SameChar}}, DefaultLogical},
|
|
{"llt", {{"string_a", SameChar}, {"string_b", SameChar}}, DefaultLogical},
|
|
{"loc", {{"loc_argument", Addressable, Rank::anyOrAssumedRank}},
|
|
SubscriptInt, Rank::scalar},
|
|
{"log", {{"x", SameFloating}}, SameFloating},
|
|
{"log10", {{"x", SameReal}}, SameReal},
|
|
{"logical", {{"l", AnyLogical}, DefaultingKIND}, KINDLogical},
|
|
{"log_gamma", {{"x", SameReal}}, SameReal},
|
|
{"matmul",
|
|
{{"matrix_a", AnyLogical, Rank::vector},
|
|
{"matrix_b", AnyLogical, Rank::matrix}},
|
|
ResultLogical, Rank::vector, IntrinsicClass::transformationalFunction},
|
|
{"matmul",
|
|
{{"matrix_a", AnyLogical, Rank::matrix},
|
|
{"matrix_b", AnyLogical, Rank::vector}},
|
|
ResultLogical, Rank::vector, IntrinsicClass::transformationalFunction},
|
|
{"matmul",
|
|
{{"matrix_a", AnyLogical, Rank::matrix},
|
|
{"matrix_b", AnyLogical, Rank::matrix}},
|
|
ResultLogical, Rank::matrix, IntrinsicClass::transformationalFunction},
|
|
{"matmul",
|
|
{{"matrix_a", AnyNumeric, Rank::vector},
|
|
{"matrix_b", AnyNumeric, Rank::matrix}},
|
|
ResultNumeric, Rank::vector, IntrinsicClass::transformationalFunction},
|
|
{"matmul",
|
|
{{"matrix_a", AnyNumeric, Rank::matrix},
|
|
{"matrix_b", AnyNumeric, Rank::vector}},
|
|
ResultNumeric, Rank::vector, IntrinsicClass::transformationalFunction},
|
|
{"matmul",
|
|
{{"matrix_a", AnyNumeric, Rank::matrix},
|
|
{"matrix_b", AnyNumeric, Rank::matrix}},
|
|
ResultNumeric, Rank::matrix, IntrinsicClass::transformationalFunction},
|
|
{"maskl", {{"i", AnyInt}, DefaultingKIND}, KINDInt},
|
|
{"maskr", {{"i", AnyInt}, DefaultingKIND}, KINDInt},
|
|
{"max",
|
|
{{"a1", OperandIntOrReal}, {"a2", OperandIntOrReal},
|
|
{"a3", OperandIntOrReal, Rank::elemental, Optionality::repeats}},
|
|
OperandIntOrReal},
|
|
{"max",
|
|
{{"a1", SameChar}, {"a2", SameChar},
|
|
{"a3", SameChar, Rank::elemental, Optionality::repeats}},
|
|
SameChar},
|
|
{"maxexponent", {{"x", AnyReal, Rank::anyOrAssumedRank}}, DefaultInt,
|
|
Rank::scalar, IntrinsicClass::inquiryFunction},
|
|
{"maxloc",
|
|
{{"array", AnyRelatable, Rank::array}, RequiredDIM, OptionalMASK,
|
|
SizeDefaultKIND,
|
|
{"back", AnyLogical, Rank::scalar, Optionality::optional}},
|
|
KINDInt, Rank::locReduced, IntrinsicClass::transformationalFunction},
|
|
{"maxloc",
|
|
{{"array", AnyRelatable, Rank::array}, MissingDIM, OptionalMASK,
|
|
SizeDefaultKIND,
|
|
{"back", AnyLogical, Rank::scalar, Optionality::optional}},
|
|
KINDInt, Rank::locReduced, IntrinsicClass::transformationalFunction},
|
|
{"maxval",
|
|
{{"array", SameRelatable, Rank::array}, RequiredDIM, OptionalMASK},
|
|
SameRelatable, Rank::dimReduced,
|
|
IntrinsicClass::transformationalFunction},
|
|
{"maxval",
|
|
{{"array", SameRelatable, Rank::array}, MissingDIM, OptionalMASK},
|
|
SameRelatable, Rank::scalar, IntrinsicClass::transformationalFunction},
|
|
{"merge",
|
|
{{"tsource", SameType}, {"fsource", SameType}, {"mask", AnyLogical}},
|
|
SameType},
|
|
{"merge_bits",
|
|
{{"i", SameInt}, {"j", SameInt, Rank::elementalOrBOZ},
|
|
{"mask", SameInt, Rank::elementalOrBOZ}},
|
|
SameInt},
|
|
{"merge_bits",
|
|
{{"i", BOZ}, {"j", SameInt}, {"mask", SameInt, Rank::elementalOrBOZ}},
|
|
SameInt},
|
|
{"min",
|
|
{{"a1", OperandIntOrReal}, {"a2", OperandIntOrReal},
|
|
{"a3", OperandIntOrReal, Rank::elemental, Optionality::repeats}},
|
|
OperandIntOrReal},
|
|
{"min",
|
|
{{"a1", SameChar}, {"a2", SameChar},
|
|
{"a3", SameChar, Rank::elemental, Optionality::repeats}},
|
|
SameChar},
|
|
{"minexponent", {{"x", AnyReal, Rank::anyOrAssumedRank}}, DefaultInt,
|
|
Rank::scalar, IntrinsicClass::inquiryFunction},
|
|
{"minloc",
|
|
{{"array", AnyRelatable, Rank::array}, RequiredDIM, OptionalMASK,
|
|
SizeDefaultKIND,
|
|
{"back", AnyLogical, Rank::scalar, Optionality::optional}},
|
|
KINDInt, Rank::locReduced, IntrinsicClass::transformationalFunction},
|
|
{"minloc",
|
|
{{"array", AnyRelatable, Rank::array}, MissingDIM, OptionalMASK,
|
|
SizeDefaultKIND,
|
|
{"back", AnyLogical, Rank::scalar, Optionality::optional}},
|
|
KINDInt, Rank::locReduced, IntrinsicClass::transformationalFunction},
|
|
{"minval",
|
|
{{"array", SameRelatable, Rank::array}, RequiredDIM, OptionalMASK},
|
|
SameRelatable, Rank::dimReduced,
|
|
IntrinsicClass::transformationalFunction},
|
|
{"minval",
|
|
{{"array", SameRelatable, Rank::array}, MissingDIM, OptionalMASK},
|
|
SameRelatable, Rank::scalar, IntrinsicClass::transformationalFunction},
|
|
{"mod", {{"a", OperandIntOrReal}, {"p", OperandIntOrReal}},
|
|
OperandIntOrReal},
|
|
{"modulo", {{"a", OperandIntOrReal}, {"p", OperandIntOrReal}},
|
|
OperandIntOrReal},
|
|
{"nearest", {{"x", SameReal}, {"s", AnyReal}}, SameReal},
|
|
{"new_line", {{"x", SameChar, Rank::anyOrAssumedRank}}, SameChar,
|
|
Rank::scalar, IntrinsicClass::inquiryFunction},
|
|
{"nint", {{"a", AnyReal}, DefaultingKIND}, KINDInt},
|
|
{"norm2", {{"x", SameReal, Rank::array}, OptionalDIM}, SameReal,
|
|
Rank::dimReduced, IntrinsicClass::transformationalFunction},
|
|
{"not", {{"i", SameInt}}, SameInt},
|
|
// NULL() is a special case handled in Probe() below
|
|
{"num_images", {}, DefaultInt, Rank::scalar,
|
|
IntrinsicClass::transformationalFunction},
|
|
{"num_images", {{"team_number", AnyInt, Rank::scalar}}, DefaultInt,
|
|
Rank::scalar, IntrinsicClass::transformationalFunction},
|
|
{"out_of_range",
|
|
{{"x", AnyIntOrReal}, {"mold", AnyIntOrReal, Rank::scalar}},
|
|
DefaultLogical},
|
|
{"out_of_range",
|
|
{{"x", AnyReal}, {"mold", AnyInt, Rank::scalar},
|
|
{"round", AnyLogical, Rank::scalar, Optionality::optional}},
|
|
DefaultLogical},
|
|
{"out_of_range", {{"x", AnyReal}, {"mold", AnyReal}}, DefaultLogical},
|
|
{"pack",
|
|
{{"array", SameType, Rank::array},
|
|
{"mask", AnyLogical, Rank::conformable},
|
|
{"vector", SameType, Rank::vector, Optionality::optional}},
|
|
SameType, Rank::vector, IntrinsicClass::transformationalFunction},
|
|
{"parity", {{"mask", SameLogical, Rank::array}, OptionalDIM}, SameLogical,
|
|
Rank::dimReduced, IntrinsicClass::transformationalFunction},
|
|
{"popcnt", {{"i", AnyInt}}, DefaultInt},
|
|
{"poppar", {{"i", AnyInt}}, DefaultInt},
|
|
{"product",
|
|
{{"array", SameNumeric, Rank::array}, RequiredDIM, OptionalMASK},
|
|
SameNumeric, Rank::dimReduced,
|
|
IntrinsicClass::transformationalFunction},
|
|
{"product", {{"array", SameNumeric, Rank::array}, MissingDIM, OptionalMASK},
|
|
SameNumeric, Rank::scalar, IntrinsicClass::transformationalFunction},
|
|
{"precision", {{"x", AnyFloating, Rank::anyOrAssumedRank}}, DefaultInt,
|
|
Rank::scalar, IntrinsicClass::inquiryFunction},
|
|
{"present", {{"a", Addressable, Rank::anyOrAssumedRank}}, DefaultLogical,
|
|
Rank::scalar, IntrinsicClass::inquiryFunction},
|
|
{"radix", {{"x", AnyIntOrReal, Rank::anyOrAssumedRank}}, DefaultInt,
|
|
Rank::scalar, IntrinsicClass::inquiryFunction},
|
|
{"range", {{"x", AnyNumeric, Rank::anyOrAssumedRank}}, DefaultInt,
|
|
Rank::scalar, IntrinsicClass::inquiryFunction},
|
|
{"rank", {{"a", AnyData, Rank::anyOrAssumedRank}}, DefaultInt, Rank::scalar,
|
|
IntrinsicClass::inquiryFunction},
|
|
{"real", {{"a", SameComplex, Rank::elemental}},
|
|
SameReal}, // 16.9.160(4)(ii)
|
|
{"real", {{"a", AnyNumeric, Rank::elementalOrBOZ}, DefaultingKIND},
|
|
KINDReal},
|
|
{"reduce",
|
|
{{"array", SameType, Rank::array},
|
|
{"operation", SameType, Rank::reduceOperation}, RequiredDIM,
|
|
OptionalMASK, {"identity", SameType, Rank::scalar},
|
|
{"ordered", AnyLogical, Rank::scalar, Optionality::optional}},
|
|
SameType, Rank::dimReduced, IntrinsicClass::transformationalFunction},
|
|
{"reduce",
|
|
{{"array", SameType, Rank::array},
|
|
{"operation", SameType, Rank::reduceOperation}, MissingDIM,
|
|
OptionalMASK, {"identity", SameType, Rank::scalar},
|
|
{"ordered", AnyLogical, Rank::scalar, Optionality::optional}},
|
|
SameType, Rank::scalar, IntrinsicClass::transformationalFunction},
|
|
{"repeat", {{"string", SameChar, Rank::scalar}, {"ncopies", AnyInt}},
|
|
SameChar, Rank::scalar, IntrinsicClass::transformationalFunction},
|
|
{"reshape",
|
|
{{"source", SameType, Rank::array}, {"shape", AnyInt, Rank::shape},
|
|
{"pad", SameType, Rank::array, Optionality::optional},
|
|
{"order", AnyInt, Rank::vector, Optionality::optional}},
|
|
SameType, Rank::shaped, IntrinsicClass::transformationalFunction},
|
|
{"rrspacing", {{"x", SameReal}}, SameReal},
|
|
{"same_type_as",
|
|
{{"a", ExtensibleDerived, Rank::anyOrAssumedRank},
|
|
{"b", ExtensibleDerived, Rank::anyOrAssumedRank}},
|
|
DefaultLogical, Rank::scalar, IntrinsicClass::inquiryFunction},
|
|
{"scale", {{"x", SameReal}, {"i", AnyInt}}, SameReal}, // == IEEE_SCALB()
|
|
{"scan",
|
|
{{"string", SameChar}, {"set", SameChar},
|
|
{"back", AnyLogical, Rank::elemental, Optionality::optional},
|
|
DefaultingKIND},
|
|
KINDInt},
|
|
{"selected_char_kind", {{"name", DefaultChar, Rank::scalar}}, DefaultInt,
|
|
Rank::scalar, IntrinsicClass::transformationalFunction},
|
|
{"selected_int_kind", {{"r", AnyInt, Rank::scalar}}, DefaultInt,
|
|
Rank::scalar, IntrinsicClass::transformationalFunction},
|
|
{"selected_real_kind",
|
|
{{"p", AnyInt, Rank::scalar},
|
|
{"r", AnyInt, Rank::scalar, Optionality::optional},
|
|
{"radix", AnyInt, Rank::scalar, Optionality::optional}},
|
|
DefaultInt, Rank::scalar, IntrinsicClass::transformationalFunction},
|
|
{"selected_real_kind",
|
|
{{"p", AnyInt, Rank::scalar, Optionality::optional},
|
|
{"r", AnyInt, Rank::scalar},
|
|
{"radix", AnyInt, Rank::scalar, Optionality::optional}},
|
|
DefaultInt, Rank::scalar, IntrinsicClass::transformationalFunction},
|
|
{"selected_real_kind",
|
|
{{"p", AnyInt, Rank::scalar, Optionality::optional},
|
|
{"r", AnyInt, Rank::scalar, Optionality::optional},
|
|
{"radix", AnyInt, Rank::scalar}},
|
|
DefaultInt, Rank::scalar, IntrinsicClass::transformationalFunction},
|
|
{"set_exponent", {{"x", SameReal}, {"i", AnyInt}}, SameReal},
|
|
{"shape", {{"source", AnyData, Rank::anyOrAssumedRank}, SizeDefaultKIND},
|
|
KINDInt, Rank::vector, IntrinsicClass::inquiryFunction},
|
|
{"shifta", {{"i", SameInt}, {"shift", AnyInt}}, SameInt},
|
|
{"shiftl", {{"i", SameInt}, {"shift", AnyInt}}, SameInt},
|
|
{"shiftr", {{"i", SameInt}, {"shift", AnyInt}}, SameInt},
|
|
{"sign", {{"a", SameIntOrReal}, {"b", SameIntOrReal}}, SameIntOrReal},
|
|
{"sin", {{"x", SameFloating}}, SameFloating},
|
|
{"sind", {{"x", SameFloating}}, SameFloating},
|
|
{"sinh", {{"x", SameFloating}}, SameFloating},
|
|
{"size",
|
|
{{"array", AnyData, Rank::anyOrAssumedRank},
|
|
OptionalDIM, // unless array is assumed-size
|
|
SizeDefaultKIND},
|
|
KINDInt, Rank::scalar, IntrinsicClass::inquiryFunction},
|
|
{"sizeof", {{"a", AnyData, Rank::anyOrAssumedRank}}, SubscriptInt,
|
|
Rank::scalar, IntrinsicClass::inquiryFunction},
|
|
{"spacing", {{"x", SameReal}}, SameReal},
|
|
{"spread",
|
|
{{"source", SameType, Rank::known}, RequiredDIM,
|
|
{"ncopies", AnyInt, Rank::scalar}},
|
|
SameType, Rank::rankPlus1, IntrinsicClass::transformationalFunction},
|
|
{"sqrt", {{"x", SameFloating}}, SameFloating},
|
|
{"storage_size", {{"a", AnyData, Rank::anyOrAssumedRank}, SizeDefaultKIND},
|
|
KINDInt, Rank::scalar, IntrinsicClass::inquiryFunction},
|
|
{"sum", {{"array", SameNumeric, Rank::array}, RequiredDIM, OptionalMASK},
|
|
SameNumeric, Rank::dimReduced,
|
|
IntrinsicClass::transformationalFunction},
|
|
{"sum", {{"array", SameNumeric, Rank::array}, MissingDIM, OptionalMASK},
|
|
SameNumeric, Rank::scalar, IntrinsicClass::transformationalFunction},
|
|
{"tan", {{"x", SameFloating}}, SameFloating},
|
|
{"tand", {{"x", SameFloating}}, SameFloating},
|
|
{"tanh", {{"x", SameFloating}}, SameFloating},
|
|
{"team_number", {OptionalTEAM}, DefaultInt, Rank::scalar,
|
|
IntrinsicClass::transformationalFunction},
|
|
{"this_image",
|
|
{{"coarray", AnyData, Rank::coarray}, RequiredDIM, OptionalTEAM},
|
|
DefaultInt, Rank::scalar, IntrinsicClass::transformationalFunction},
|
|
{"this_image", {{"coarray", AnyData, Rank::coarray}, OptionalTEAM},
|
|
DefaultInt, Rank::scalar, IntrinsicClass::transformationalFunction},
|
|
{"this_image", {OptionalTEAM}, DefaultInt, Rank::scalar,
|
|
IntrinsicClass::transformationalFunction},
|
|
{"tiny", {{"x", SameReal, Rank::anyOrAssumedRank}}, SameReal, Rank::scalar,
|
|
IntrinsicClass::inquiryFunction},
|
|
{"trailz", {{"i", AnyInt}}, DefaultInt},
|
|
{"transfer",
|
|
{{"source", AnyData, Rank::known}, {"mold", SameType, Rank::scalar}},
|
|
SameType, Rank::scalar, IntrinsicClass::transformationalFunction},
|
|
{"transfer",
|
|
{{"source", AnyData, Rank::known}, {"mold", SameType, Rank::array}},
|
|
SameType, Rank::vector, IntrinsicClass::transformationalFunction},
|
|
{"transfer",
|
|
{{"source", AnyData, Rank::anyOrAssumedRank},
|
|
{"mold", SameType, Rank::anyOrAssumedRank},
|
|
{"size", AnyInt, Rank::scalar}},
|
|
SameType, Rank::vector, IntrinsicClass::transformationalFunction},
|
|
{"transpose", {{"matrix", SameType, Rank::matrix}}, SameType, Rank::matrix,
|
|
IntrinsicClass::transformationalFunction},
|
|
{"trim", {{"string", SameChar, Rank::scalar}}, SameChar, Rank::scalar,
|
|
IntrinsicClass::transformationalFunction},
|
|
{"ubound",
|
|
{{"array", AnyData, Rank::anyOrAssumedRank}, RequiredDIM,
|
|
SizeDefaultKIND},
|
|
KINDInt, Rank::scalar, IntrinsicClass::inquiryFunction},
|
|
{"ubound", {{"array", AnyData, Rank::anyOrAssumedRank}, SizeDefaultKIND},
|
|
KINDInt, Rank::vector, IntrinsicClass::inquiryFunction},
|
|
{"unpack",
|
|
{{"vector", SameType, Rank::vector}, {"mask", AnyLogical, Rank::array},
|
|
{"field", SameType, Rank::conformable}},
|
|
SameType, Rank::conformable, IntrinsicClass::transformationalFunction},
|
|
{"verify",
|
|
{{"string", SameChar}, {"set", SameChar},
|
|
{"back", AnyLogical, Rank::elemental, Optionality::optional},
|
|
DefaultingKIND},
|
|
KINDInt},
|
|
{"__builtin_ieee_is_nan", {{"a", AnyFloating}}, DefaultLogical},
|
|
{"__builtin_ieee_next_after", {{"x", SameReal}, {"y", AnyReal}}, SameReal},
|
|
{"__builtin_ieee_next_down", {{"x", SameReal}}, SameReal},
|
|
{"__builtin_ieee_next_up", {{"x", SameReal}}, SameReal},
|
|
{"__builtin_ieee_selected_real_kind", // alias for selected_real_kind
|
|
{{"p", AnyInt, Rank::scalar},
|
|
{"r", AnyInt, Rank::scalar, Optionality::optional},
|
|
{"radix", AnyInt, Rank::scalar, Optionality::optional}},
|
|
DefaultInt, Rank::scalar, IntrinsicClass::transformationalFunction},
|
|
{"__builtin_ieee_support_datatype",
|
|
{{"x", AnyReal, Rank::elemental, Optionality::optional}},
|
|
DefaultLogical},
|
|
{"__builtin_ieee_support_denormal",
|
|
{{"x", AnyReal, Rank::elemental, Optionality::optional}},
|
|
DefaultLogical},
|
|
{"__builtin_ieee_support_divide",
|
|
{{"x", AnyReal, Rank::elemental, Optionality::optional}},
|
|
DefaultLogical},
|
|
{"__builtin_ieee_support_inf",
|
|
{{"x", AnyReal, Rank::elemental, Optionality::optional}},
|
|
DefaultLogical},
|
|
{"__builtin_ieee_support_io",
|
|
{{"x", AnyReal, Rank::elemental, Optionality::optional}},
|
|
DefaultLogical},
|
|
{"__builtin_ieee_support_nan",
|
|
{{"x", AnyReal, Rank::elemental, Optionality::optional}},
|
|
DefaultLogical},
|
|
{"__builtin_ieee_support_sqrt",
|
|
{{"x", AnyReal, Rank::elemental, Optionality::optional}},
|
|
DefaultLogical},
|
|
{"__builtin_ieee_support_standard",
|
|
{{"x", AnyReal, Rank::elemental, Optionality::optional}},
|
|
DefaultLogical},
|
|
{"__builtin_ieee_support_subnormal",
|
|
{{"x", AnyReal, Rank::elemental, Optionality::optional}},
|
|
DefaultLogical},
|
|
{"__builtin_ieee_support_underflow_control",
|
|
{{"x", AnyReal, Rank::elemental, Optionality::optional}},
|
|
DefaultLogical},
|
|
};
|
|
|
|
// TODO: Coarray intrinsic functions
|
|
// LCOBOUND, UCOBOUND, FAILED_IMAGES, IMAGE_INDEX,
|
|
// STOPPED_IMAGES, COSHAPE
|
|
// TODO: Non-standard intrinsic functions
|
|
// AND, OR, XOR, LSHIFT, RSHIFT, SHIFT, ZEXT, IZEXT,
|
|
// COMPL, EQV, NEQV, INT8, JINT, JNINT, KNINT,
|
|
// QCMPLX, QEXT, QFLOAT, QREAL, DNUM,
|
|
// INUM, JNUM, KNUM, QNUM, RNUM, RAN, RANF, ILEN,
|
|
// MCLOCK, SECNDS, COTAN, IBCHNG, ISHA, ISHC, ISHL, IXOR
|
|
// IARG, IARGC, NARGS, NUMARG, BADDRESS, IADDR, CACHESIZE,
|
|
// EOF, FP_CLASS, INT_PTR_KIND, MALLOC
|
|
// probably more (these are PGI + Intel, possibly incomplete)
|
|
// TODO: Optionally warn on use of non-standard intrinsics:
|
|
// LOC, probably others
|
|
// TODO: Optionally warn on operand promotion extension
|
|
|
|
// The following table contains the intrinsic functions listed in
|
|
// Tables 16.2 and 16.3 in Fortran 2018. The "unrestricted" functions
|
|
// in Table 16.2 can be used as actual arguments, PROCEDURE() interfaces,
|
|
// and procedure pointer targets.
|
|
// Note that the restricted conversion functions dcmplx, dreal, float, idint,
|
|
// ifix, and sngl are extended to accept any argument kind because this is a
|
|
// common Fortran compilers behavior, and as far as we can tell, is safe and
|
|
// useful.
|
|
struct SpecificIntrinsicInterface : public IntrinsicInterface {
|
|
const char *generic{nullptr};
|
|
bool isRestrictedSpecific{false};
|
|
// Exact actual/dummy type matching is required by default for specific
|
|
// intrinsics. If useGenericAndForceResultType is set, then the probing will
|
|
// also attempt to use the related generic intrinsic and to convert the result
|
|
// to the specific intrinsic result type if needed. This also prevents
|
|
// using the generic name so that folding can insert the conversion on the
|
|
// result and not the arguments.
|
|
//
|
|
// This is not enabled on all specific intrinsics because an alternative
|
|
// is to convert the actual arguments to the required dummy types and this is
|
|
// not numerically equivalent.
|
|
// e.g. IABS(INT(i, 4)) not equiv to INT(ABS(i), 4).
|
|
// This is allowed for restricted min/max specific functions because
|
|
// the expected behavior is clear from their definitions. A warning is though
|
|
// always emitted because other compilers' behavior is not ubiquitous here and
|
|
// the results in case of conversion overflow might not be equivalent.
|
|
// e.g for MIN0: INT(MIN(2147483647_8, 2*2147483647_8), 4) = 2147483647_4
|
|
// but: MIN(INT(2147483647_8, 4), INT(2*2147483647_8, 4)) = -2_4
|
|
// xlf and ifort return the first, and pgfortran the later. f18 will return
|
|
// the first because this matches more closely the MIN0 definition in
|
|
// Fortran 2018 table 16.3 (although it is still an extension to allow
|
|
// non default integer argument in MIN0).
|
|
bool useGenericAndForceResultType{false};
|
|
};
|
|
|
|
static const SpecificIntrinsicInterface specificIntrinsicFunction[]{
|
|
{{"abs", {{"a", DefaultReal}}, DefaultReal}},
|
|
{{"acos", {{"x", DefaultReal}}, DefaultReal}},
|
|
{{"aimag", {{"z", DefaultComplex}}, DefaultReal}},
|
|
{{"aint", {{"a", DefaultReal}}, DefaultReal}},
|
|
{{"alog", {{"x", DefaultReal}}, DefaultReal}, "log"},
|
|
{{"alog10", {{"x", DefaultReal}}, DefaultReal}, "log10"},
|
|
{{"amax0",
|
|
{{"a1", DefaultInt}, {"a2", DefaultInt},
|
|
{"a3", DefaultInt, Rank::elemental, Optionality::repeats}},
|
|
DefaultReal},
|
|
"max", true, true},
|
|
{{"amax1",
|
|
{{"a1", DefaultReal}, {"a2", DefaultReal},
|
|
{"a3", DefaultReal, Rank::elemental, Optionality::repeats}},
|
|
DefaultReal},
|
|
"max", true, true},
|
|
{{"amin0",
|
|
{{"a1", DefaultInt}, {"a2", DefaultInt},
|
|
{"a3", DefaultInt, Rank::elemental, Optionality::repeats}},
|
|
DefaultReal},
|
|
"min", true, true},
|
|
{{"amin1",
|
|
{{"a1", DefaultReal}, {"a2", DefaultReal},
|
|
{"a3", DefaultReal, Rank::elemental, Optionality::repeats}},
|
|
DefaultReal},
|
|
"min", true, true},
|
|
{{"amod", {{"a", DefaultReal}, {"p", DefaultReal}}, DefaultReal}, "mod"},
|
|
{{"anint", {{"a", DefaultReal}}, DefaultReal}},
|
|
{{"asin", {{"x", DefaultReal}}, DefaultReal}},
|
|
{{"atan", {{"x", DefaultReal}}, DefaultReal}},
|
|
{{"atan2", {{"y", DefaultReal}, {"x", DefaultReal}}, DefaultReal}},
|
|
{{"cabs", {{"a", DefaultComplex}}, DefaultReal}, "abs"},
|
|
{{"ccos", {{"a", DefaultComplex}}, DefaultComplex}, "cos"},
|
|
{{"cdabs", {{"a", DoublePrecisionComplex}}, DoublePrecision}, "abs"},
|
|
{{"cdcos", {{"a", DoublePrecisionComplex}}, DoublePrecisionComplex}, "cos"},
|
|
{{"cdexp", {{"a", DoublePrecisionComplex}}, DoublePrecisionComplex}, "exp"},
|
|
{{"cdlog", {{"a", DoublePrecisionComplex}}, DoublePrecisionComplex}, "log"},
|
|
{{"cdsin", {{"a", DoublePrecisionComplex}}, DoublePrecisionComplex}, "sin"},
|
|
{{"cdsqrt", {{"a", DoublePrecisionComplex}}, DoublePrecisionComplex},
|
|
"sqrt"},
|
|
{{"cexp", {{"a", DefaultComplex}}, DefaultComplex}, "exp"},
|
|
{{"clog", {{"a", DefaultComplex}}, DefaultComplex}, "log"},
|
|
{{"conjg", {{"a", DefaultComplex}}, DefaultComplex}},
|
|
{{"cos", {{"x", DefaultReal}}, DefaultReal}},
|
|
{{"cosh", {{"x", DefaultReal}}, DefaultReal}},
|
|
{{"csin", {{"a", DefaultComplex}}, DefaultComplex}, "sin"},
|
|
{{"csqrt", {{"a", DefaultComplex}}, DefaultComplex}, "sqrt"},
|
|
{{"ctan", {{"a", DefaultComplex}}, DefaultComplex}, "tan"},
|
|
{{"dabs", {{"a", DoublePrecision}}, DoublePrecision}, "abs"},
|
|
{{"dacos", {{"x", DoublePrecision}}, DoublePrecision}, "acos"},
|
|
{{"dasin", {{"x", DoublePrecision}}, DoublePrecision}, "asin"},
|
|
{{"datan", {{"x", DoublePrecision}}, DoublePrecision}, "atan"},
|
|
{{"datan2", {{"y", DoublePrecision}, {"x", DoublePrecision}},
|
|
DoublePrecision},
|
|
"atan2"},
|
|
{{"dcmplx", {{"x", AnyComplex}}, DoublePrecisionComplex}, "cmplx", true},
|
|
{{"dcmplx",
|
|
{{"x", AnyIntOrReal, Rank::elementalOrBOZ},
|
|
{"y", AnyIntOrReal, Rank::elementalOrBOZ, Optionality::optional}},
|
|
DoublePrecisionComplex},
|
|
"cmplx", true},
|
|
{{"dconjg", {{"a", AnyComplex}}, DoublePrecisionComplex}, "conjg"},
|
|
{{"dcos", {{"x", DoublePrecision}}, DoublePrecision}, "cos"},
|
|
{{"dcosh", {{"x", DoublePrecision}}, DoublePrecision}, "cosh"},
|
|
{{"ddim", {{"x", DoublePrecision}, {"y", DoublePrecision}},
|
|
DoublePrecision},
|
|
"dim"},
|
|
{{"dexp", {{"x", DoublePrecision}}, DoublePrecision}, "exp"},
|
|
{{"dfloat", {{"i", AnyInt}}, DoublePrecision}, "real", true},
|
|
{{"dim", {{"x", DefaultReal}, {"y", DefaultReal}}, DefaultReal}},
|
|
{{"dimag", {{"a", AnyComplex}}, DoublePrecision}, "aimag"},
|
|
{{"dint", {{"a", DoublePrecision}}, DoublePrecision}, "aint"},
|
|
{{"dlog", {{"x", DoublePrecision}}, DoublePrecision}, "log"},
|
|
{{"dlog10", {{"x", DoublePrecision}}, DoublePrecision}, "log10"},
|
|
{{"dmax1",
|
|
{{"a1", DoublePrecision}, {"a2", DoublePrecision},
|
|
{"a3", DoublePrecision, Rank::elemental, Optionality::repeats}},
|
|
DoublePrecision},
|
|
"max", true, true},
|
|
{{"dmin1",
|
|
{{"a1", DoublePrecision}, {"a2", DoublePrecision},
|
|
{"a3", DoublePrecision, Rank::elemental, Optionality::repeats}},
|
|
DoublePrecision},
|
|
"min", true, true},
|
|
{{"dmod", {{"a", DoublePrecision}, {"p", DoublePrecision}},
|
|
DoublePrecision},
|
|
"mod"},
|
|
{{"dnint", {{"a", DoublePrecision}}, DoublePrecision}, "anint"},
|
|
{{"dprod", {{"x", DefaultReal}, {"y", DefaultReal}}, DoublePrecision}},
|
|
{{"dreal", {{"a", AnyComplex}}, DoublePrecision}, "real", true},
|
|
{{"dsign", {{"a", DoublePrecision}, {"b", DoublePrecision}},
|
|
DoublePrecision},
|
|
"sign"},
|
|
{{"dsin", {{"x", DoublePrecision}}, DoublePrecision}, "sin"},
|
|
{{"dsinh", {{"x", DoublePrecision}}, DoublePrecision}, "sinh"},
|
|
{{"dsqrt", {{"x", DoublePrecision}}, DoublePrecision}, "sqrt"},
|
|
{{"dtan", {{"x", DoublePrecision}}, DoublePrecision}, "tan"},
|
|
{{"dtanh", {{"x", DoublePrecision}}, DoublePrecision}, "tanh"},
|
|
{{"exp", {{"x", DefaultReal}}, DefaultReal}},
|
|
{{"float", {{"i", AnyInt}}, DefaultReal}, "real", true},
|
|
{{"iabs", {{"a", DefaultInt}}, DefaultInt}, "abs"},
|
|
{{"idim", {{"x", DefaultInt}, {"y", DefaultInt}}, DefaultInt}, "dim"},
|
|
{{"idint", {{"a", AnyReal}}, DefaultInt}, "int", true},
|
|
{{"idnint", {{"a", DoublePrecision}}, DefaultInt}, "nint"},
|
|
{{"ifix", {{"a", AnyReal}}, DefaultInt}, "int", true},
|
|
{{"index", {{"string", DefaultChar}, {"substring", DefaultChar}},
|
|
DefaultInt}},
|
|
{{"isign", {{"a", DefaultInt}, {"b", DefaultInt}}, DefaultInt}, "sign"},
|
|
{{"len", {{"string", DefaultChar, Rank::anyOrAssumedRank}}, DefaultInt,
|
|
Rank::scalar}},
|
|
{{"lge", {{"string_a", DefaultChar}, {"string_b", DefaultChar}},
|
|
DefaultLogical},
|
|
"lge", true},
|
|
{{"lgt", {{"string_a", DefaultChar}, {"string_b", DefaultChar}},
|
|
DefaultLogical},
|
|
"lgt", true},
|
|
{{"lle", {{"string_a", DefaultChar}, {"string_b", DefaultChar}},
|
|
DefaultLogical},
|
|
"lle", true},
|
|
{{"llt", {{"string_a", DefaultChar}, {"string_b", DefaultChar}},
|
|
DefaultLogical},
|
|
"llt", true},
|
|
{{"log", {{"x", DefaultReal}}, DefaultReal}},
|
|
{{"log10", {{"x", DefaultReal}}, DefaultReal}},
|
|
{{"max0",
|
|
{{"a1", DefaultInt}, {"a2", DefaultInt},
|
|
{"a3", DefaultInt, Rank::elemental, Optionality::repeats}},
|
|
DefaultInt},
|
|
"max", true, true},
|
|
{{"max1",
|
|
{{"a1", DefaultReal}, {"a2", DefaultReal},
|
|
{"a3", DefaultReal, Rank::elemental, Optionality::repeats}},
|
|
DefaultInt},
|
|
"max", true, true},
|
|
{{"min0",
|
|
{{"a1", DefaultInt}, {"a2", DefaultInt},
|
|
{"a3", DefaultInt, Rank::elemental, Optionality::repeats}},
|
|
DefaultInt},
|
|
"min", true, true},
|
|
{{"min1",
|
|
{{"a1", DefaultReal}, {"a2", DefaultReal},
|
|
{"a3", DefaultReal, Rank::elemental, Optionality::repeats}},
|
|
DefaultInt},
|
|
"min", true, true},
|
|
{{"mod", {{"a", DefaultInt}, {"p", DefaultInt}}, DefaultInt}},
|
|
{{"nint", {{"a", DefaultReal}}, DefaultInt}},
|
|
{{"sign", {{"a", DefaultReal}, {"b", DefaultReal}}, DefaultReal}},
|
|
{{"sin", {{"x", DefaultReal}}, DefaultReal}},
|
|
{{"sinh", {{"x", DefaultReal}}, DefaultReal}},
|
|
{{"sngl", {{"a", AnyReal}}, DefaultReal}, "real", true},
|
|
{{"sqrt", {{"x", DefaultReal}}, DefaultReal}},
|
|
{{"tan", {{"x", DefaultReal}}, DefaultReal}},
|
|
{{"tanh", {{"x", DefaultReal}}, DefaultReal}},
|
|
};
|
|
|
|
static const IntrinsicInterface intrinsicSubroutine[]{
|
|
{"abort", {}, {}, Rank::elemental, IntrinsicClass::impureSubroutine},
|
|
{"cpu_time",
|
|
{{"time", AnyReal, Rank::scalar, Optionality::required,
|
|
common::Intent::Out}},
|
|
{}, Rank::elemental, IntrinsicClass::impureSubroutine},
|
|
{"date_and_time",
|
|
{{"date", DefaultChar, Rank::scalar, Optionality::optional,
|
|
common::Intent::Out},
|
|
{"time", DefaultChar, Rank::scalar, Optionality::optional,
|
|
common::Intent::Out},
|
|
{"zone", DefaultChar, Rank::scalar, Optionality::optional,
|
|
common::Intent::Out},
|
|
{"values", AnyInt, Rank::vector, Optionality::optional,
|
|
common::Intent::Out}},
|
|
{}, Rank::elemental, IntrinsicClass::impureSubroutine},
|
|
{"execute_command_line",
|
|
{{"command", DefaultChar, Rank::scalar},
|
|
{"wait", AnyLogical, Rank::scalar, Optionality::optional},
|
|
{"exitstat", AnyInt, Rank::scalar, Optionality::optional,
|
|
common::Intent::InOut},
|
|
{"cmdstat", AnyInt, Rank::scalar, Optionality::optional,
|
|
common::Intent::Out},
|
|
{"cmdmsg", DefaultChar, Rank::scalar, Optionality::optional,
|
|
common::Intent::InOut}},
|
|
{}, Rank::elemental, IntrinsicClass::impureSubroutine},
|
|
{"exit", {{"status", DefaultInt, Rank::scalar, Optionality::optional}}, {},
|
|
Rank::elemental, IntrinsicClass::impureSubroutine},
|
|
{"get_command",
|
|
{{"command", DefaultChar, Rank::scalar, Optionality::optional,
|
|
common::Intent::Out},
|
|
{"length", AnyInt, Rank::scalar, Optionality::optional,
|
|
common::Intent::Out},
|
|
{"status", AnyInt, Rank::scalar, Optionality::optional,
|
|
common::Intent::Out},
|
|
{"errmsg", DefaultChar, Rank::scalar, Optionality::optional,
|
|
common::Intent::InOut}},
|
|
{}, Rank::elemental, IntrinsicClass::impureSubroutine},
|
|
{"get_command_argument",
|
|
{{"number", AnyInt, Rank::scalar},
|
|
{"value", DefaultChar, Rank::scalar, Optionality::optional,
|
|
common::Intent::Out},
|
|
{"length", AnyInt, Rank::scalar, Optionality::optional,
|
|
common::Intent::Out},
|
|
{"status", AnyInt, Rank::scalar, Optionality::optional,
|
|
common::Intent::Out},
|
|
{"errmsg", DefaultChar, Rank::scalar, Optionality::optional,
|
|
common::Intent::InOut}},
|
|
{}, Rank::elemental, IntrinsicClass::impureSubroutine},
|
|
{"get_environment_variable",
|
|
{{"name", DefaultChar, Rank::scalar},
|
|
{"value", DefaultChar, Rank::scalar, Optionality::optional,
|
|
common::Intent::Out},
|
|
{"length", AnyInt, Rank::scalar, Optionality::optional,
|
|
common::Intent::Out},
|
|
{"status", AnyInt, Rank::scalar, Optionality::optional,
|
|
common::Intent::Out},
|
|
{"trim_name", AnyLogical, Rank::scalar, Optionality::optional},
|
|
{"errmsg", DefaultChar, Rank::scalar, Optionality::optional,
|
|
common::Intent::InOut}},
|
|
{}, Rank::elemental, IntrinsicClass::impureSubroutine},
|
|
{"move_alloc",
|
|
{{"from", SameType, Rank::known, Optionality::required,
|
|
common::Intent::InOut},
|
|
{"to", SameType, Rank::known, Optionality::required,
|
|
common::Intent::Out},
|
|
{"stat", AnyInt, Rank::scalar, Optionality::optional,
|
|
common::Intent::Out},
|
|
{"errmsg", DefaultChar, Rank::scalar, Optionality::optional,
|
|
common::Intent::InOut}},
|
|
{}, Rank::elemental, IntrinsicClass::pureSubroutine},
|
|
{"mvbits",
|
|
{{"from", SameInt}, {"frompos", AnyInt}, {"len", AnyInt},
|
|
{"to", SameInt, Rank::elemental, Optionality::required,
|
|
common::Intent::Out},
|
|
{"topos", AnyInt}},
|
|
{}, Rank::elemental, IntrinsicClass::elementalSubroutine}, // elemental
|
|
{"random_init",
|
|
{{"repeatable", AnyLogical, Rank::scalar},
|
|
{"image_distinct", AnyLogical, Rank::scalar}},
|
|
{}, Rank::elemental, IntrinsicClass::impureSubroutine},
|
|
{"random_number",
|
|
{{"harvest", AnyReal, Rank::known, Optionality::required,
|
|
common::Intent::Out}},
|
|
{}, Rank::elemental, IntrinsicClass::impureSubroutine},
|
|
{"random_seed",
|
|
{{"size", DefaultInt, Rank::scalar, Optionality::optional,
|
|
common::Intent::Out},
|
|
{"put", DefaultInt, Rank::vector, Optionality::optional},
|
|
{"get", DefaultInt, Rank::vector, Optionality::optional,
|
|
common::Intent::Out}},
|
|
{}, Rank::elemental, IntrinsicClass::impureSubroutine},
|
|
{"system_clock",
|
|
{{"count", AnyInt, Rank::scalar, Optionality::optional,
|
|
common::Intent::Out},
|
|
{"count_rate", AnyIntOrReal, Rank::scalar, Optionality::optional,
|
|
common::Intent::Out},
|
|
{"count_max", AnyInt, Rank::scalar, Optionality::optional,
|
|
common::Intent::Out}},
|
|
{}, Rank::elemental, IntrinsicClass::impureSubroutine},
|
|
};
|
|
|
|
// TODO: Intrinsic subroutine EVENT_QUERY
|
|
// TODO: Atomic intrinsic subroutines: ATOMIC_ADD &al.
|
|
// TODO: Collective intrinsic subroutines: CO_BROADCAST &al.
|
|
|
|
// Finds a built-in derived type and returns it as a DynamicType.
|
|
static DynamicType GetBuiltinDerivedType(
|
|
const semantics::Scope *builtinsScope, const char *which) {
|
|
if (!builtinsScope) {
|
|
common::die("INTERNAL: The __fortran_builtins module was not found, and "
|
|
"the type '%s' was required",
|
|
which);
|
|
}
|
|
auto iter{
|
|
builtinsScope->find(semantics::SourceName{which, std::strlen(which)})};
|
|
if (iter == builtinsScope->cend()) {
|
|
common::die(
|
|
"INTERNAL: The __fortran_builtins module does not define the type '%s'",
|
|
which);
|
|
}
|
|
const semantics::Symbol &symbol{*iter->second};
|
|
const semantics::Scope &scope{DEREF(symbol.scope())};
|
|
const semantics::DerivedTypeSpec &derived{DEREF(scope.derivedTypeSpec())};
|
|
return DynamicType{derived};
|
|
}
|
|
|
|
// Ensure that the keywords of arguments to MAX/MIN and their variants
|
|
// are of the form A123 with no duplicates.
|
|
static bool CheckMaxMinArgument(std::optional<parser::CharBlock> keyword,
|
|
std::set<parser::CharBlock> &set, const char *intrinsicName,
|
|
parser::ContextualMessages &messages) {
|
|
if (keyword) {
|
|
std::size_t j{1};
|
|
for (; j < keyword->size(); ++j) {
|
|
char ch{(*keyword)[j]};
|
|
if (ch < '0' || ch > '9') {
|
|
break;
|
|
}
|
|
}
|
|
if (keyword->size() < 2 || (*keyword)[0] != 'a' || j < keyword->size()) {
|
|
messages.Say(*keyword,
|
|
"Argument keyword '%s=' is not known in call to '%s'"_err_en_US,
|
|
*keyword, intrinsicName);
|
|
return false;
|
|
}
|
|
auto [_, wasInserted]{set.insert(*keyword)};
|
|
if (!wasInserted) {
|
|
messages.Say(*keyword,
|
|
"Argument keyword '%s=' was repeated in call to '%s'"_err_en_US,
|
|
*keyword, intrinsicName);
|
|
return false;
|
|
}
|
|
}
|
|
return true;
|
|
}
|
|
|
|
// Intrinsic interface matching against the arguments of a particular
|
|
// procedure reference.
|
|
std::optional<SpecificCall> IntrinsicInterface::Match(
|
|
const CallCharacteristics &call,
|
|
const common::IntrinsicTypeDefaultKinds &defaults,
|
|
ActualArguments &arguments, FoldingContext &context,
|
|
const semantics::Scope *builtinsScope) const {
|
|
auto &messages{context.messages()};
|
|
// Attempt to construct a 1-1 correspondence between the dummy arguments in
|
|
// a particular intrinsic procedure's generic interface and the actual
|
|
// arguments in a procedure reference.
|
|
std::size_t dummyArgPatterns{0};
|
|
for (; dummyArgPatterns < maxArguments && dummy[dummyArgPatterns].keyword;
|
|
++dummyArgPatterns) {
|
|
}
|
|
// MAX and MIN (and others that map to them) allow their last argument to
|
|
// be repeated indefinitely. The actualForDummy vector is sized
|
|
// and null-initialized to the non-repeated dummy argument count
|
|
// for other instrinsics.
|
|
bool isMaxMin{dummyArgPatterns > 0 &&
|
|
dummy[dummyArgPatterns - 1].optionality == Optionality::repeats};
|
|
std::vector<ActualArgument *> actualForDummy(
|
|
isMaxMin ? 0 : dummyArgPatterns, nullptr);
|
|
int missingActualArguments{0};
|
|
std::set<parser::CharBlock> maxMinKeywords;
|
|
for (std::optional<ActualArgument> &arg : arguments) {
|
|
if (!arg) {
|
|
++missingActualArguments;
|
|
} else if (arg->isAlternateReturn()) {
|
|
messages.Say(
|
|
"alternate return specifier not acceptable on call to intrinsic '%s'"_err_en_US,
|
|
name);
|
|
return std::nullopt;
|
|
} else if (isMaxMin) {
|
|
if (CheckMaxMinArgument(arg->keyword(), maxMinKeywords, name, messages)) {
|
|
actualForDummy.push_back(&*arg);
|
|
} else {
|
|
return std::nullopt;
|
|
}
|
|
} else {
|
|
bool found{false};
|
|
int slot{missingActualArguments};
|
|
for (std::size_t j{0}; j < dummyArgPatterns && !found; ++j) {
|
|
if (dummy[j].optionality == Optionality::missing) {
|
|
continue;
|
|
}
|
|
if (arg->keyword()) {
|
|
found = *arg->keyword() == dummy[j].keyword;
|
|
if (found) {
|
|
if (const auto *previous{actualForDummy[j]}) {
|
|
if (previous->keyword()) {
|
|
messages.Say(*arg->keyword(),
|
|
"repeated keyword argument to intrinsic '%s'"_err_en_US,
|
|
name);
|
|
} else {
|
|
messages.Say(*arg->keyword(),
|
|
"keyword argument to intrinsic '%s' was supplied "
|
|
"positionally by an earlier actual argument"_err_en_US,
|
|
name);
|
|
}
|
|
return std::nullopt;
|
|
}
|
|
}
|
|
} else {
|
|
found = !actualForDummy[j] && slot-- == 0;
|
|
}
|
|
if (found) {
|
|
actualForDummy[j] = &*arg;
|
|
}
|
|
}
|
|
if (!found) {
|
|
if (arg->keyword()) {
|
|
messages.Say(*arg->keyword(),
|
|
"unknown keyword argument to intrinsic '%s'"_err_en_US, name);
|
|
} else {
|
|
messages.Say(
|
|
"too many actual arguments for intrinsic '%s'"_err_en_US, name);
|
|
}
|
|
return std::nullopt;
|
|
}
|
|
}
|
|
}
|
|
|
|
std::size_t dummies{actualForDummy.size()};
|
|
|
|
// Check types and kinds of the actual arguments against the intrinsic's
|
|
// interface. Ensure that two or more arguments that have to have the same
|
|
// (or compatible) type and kind do so. Check for missing non-optional
|
|
// arguments now, too.
|
|
const ActualArgument *sameArg{nullptr};
|
|
const ActualArgument *operandArg{nullptr};
|
|
const IntrinsicDummyArgument *kindDummyArg{nullptr};
|
|
const ActualArgument *kindArg{nullptr};
|
|
bool hasDimArg{false};
|
|
for (std::size_t j{0}; j < dummies; ++j) {
|
|
const IntrinsicDummyArgument &d{dummy[std::min(j, dummyArgPatterns - 1)]};
|
|
if (d.typePattern.kindCode == KindCode::kindArg) {
|
|
CHECK(!kindDummyArg);
|
|
kindDummyArg = &d;
|
|
}
|
|
const ActualArgument *arg{actualForDummy[j]};
|
|
if (!arg) {
|
|
if (d.optionality == Optionality::required) {
|
|
messages.Say("missing mandatory '%s=' argument"_err_en_US, d.keyword);
|
|
return std::nullopt; // missing non-OPTIONAL argument
|
|
} else {
|
|
continue;
|
|
}
|
|
} else if (d.optionality == Optionality::missing) {
|
|
messages.Say("unexpected '%s=' argument"_err_en_US, d.keyword);
|
|
return std::nullopt;
|
|
}
|
|
if (arg->GetAssumedTypeDummy()) {
|
|
// TYPE(*) assumed-type dummy argument forwarded to intrinsic
|
|
if (d.typePattern.categorySet == AnyType &&
|
|
d.rank == Rank::anyOrAssumedRank &&
|
|
(d.typePattern.kindCode == KindCode::any ||
|
|
d.typePattern.kindCode == KindCode::addressable)) {
|
|
continue;
|
|
} else {
|
|
messages.Say("Assumed type TYPE(*) dummy argument not allowed "
|
|
"for '%s=' intrinsic argument"_err_en_US,
|
|
d.keyword);
|
|
return std::nullopt;
|
|
}
|
|
}
|
|
std::optional<DynamicType> type{arg->GetType()};
|
|
if (!type) {
|
|
CHECK(arg->Rank() == 0);
|
|
const Expr<SomeType> &expr{DEREF(arg->UnwrapExpr())};
|
|
if (IsBOZLiteral(expr)) {
|
|
if (d.typePattern.kindCode == KindCode::typeless ||
|
|
d.rank == Rank::elementalOrBOZ) {
|
|
continue;
|
|
} else {
|
|
const IntrinsicDummyArgument &nextParam{dummy[j + 1]};
|
|
messages.Say(
|
|
"Typeless (BOZ) not allowed for both '%s=' & '%s=' arguments"_err_en_US, // C7109
|
|
d.keyword, nextParam.keyword);
|
|
}
|
|
} else {
|
|
// NULL(), procedure, or procedure pointer
|
|
CHECK(IsProcedurePointerTarget(expr));
|
|
if (d.typePattern.kindCode == KindCode::addressable ||
|
|
d.rank == Rank::reduceOperation) {
|
|
continue;
|
|
} else if (d.typePattern.kindCode == KindCode::nullPointerType) {
|
|
continue;
|
|
} else {
|
|
messages.Say(
|
|
"Actual argument for '%s=' may not be a procedure"_err_en_US,
|
|
d.keyword);
|
|
}
|
|
}
|
|
return std::nullopt;
|
|
} else if (!d.typePattern.categorySet.test(type->category())) {
|
|
messages.Say("Actual argument for '%s=' has bad type '%s'"_err_en_US,
|
|
d.keyword, type->AsFortran());
|
|
return std::nullopt; // argument has invalid type category
|
|
}
|
|
bool argOk{false};
|
|
switch (d.typePattern.kindCode) {
|
|
case KindCode::none:
|
|
case KindCode::typeless:
|
|
argOk = false;
|
|
break;
|
|
case KindCode::teamType:
|
|
argOk = !type->IsUnlimitedPolymorphic() &&
|
|
type->category() == TypeCategory::Derived &&
|
|
semantics::IsTeamType(&type->GetDerivedTypeSpec());
|
|
break;
|
|
case KindCode::defaultIntegerKind:
|
|
argOk = type->kind() == defaults.GetDefaultKind(TypeCategory::Integer);
|
|
break;
|
|
case KindCode::defaultRealKind:
|
|
argOk = type->kind() == defaults.GetDefaultKind(TypeCategory::Real);
|
|
break;
|
|
case KindCode::doublePrecision:
|
|
argOk = type->kind() == defaults.doublePrecisionKind();
|
|
break;
|
|
case KindCode::defaultCharKind:
|
|
argOk = type->kind() == defaults.GetDefaultKind(TypeCategory::Character);
|
|
break;
|
|
case KindCode::defaultLogicalKind:
|
|
argOk = type->kind() == defaults.GetDefaultKind(TypeCategory::Logical);
|
|
break;
|
|
case KindCode::any:
|
|
argOk = true;
|
|
break;
|
|
case KindCode::kindArg:
|
|
CHECK(type->category() == TypeCategory::Integer);
|
|
CHECK(!kindArg);
|
|
kindArg = arg;
|
|
argOk = true;
|
|
break;
|
|
case KindCode::dimArg:
|
|
CHECK(type->category() == TypeCategory::Integer);
|
|
hasDimArg = true;
|
|
argOk = true;
|
|
break;
|
|
case KindCode::same:
|
|
if (!sameArg) {
|
|
sameArg = arg;
|
|
}
|
|
argOk = type->IsTkCompatibleWith(sameArg->GetType().value());
|
|
break;
|
|
case KindCode::operand:
|
|
if (!operandArg) {
|
|
operandArg = arg;
|
|
} else if (auto prev{operandArg->GetType()}) {
|
|
if (type->category() == prev->category()) {
|
|
if (type->kind() > prev->kind()) {
|
|
operandArg = arg;
|
|
}
|
|
} else if (prev->category() == TypeCategory::Integer) {
|
|
operandArg = arg;
|
|
}
|
|
}
|
|
argOk = true;
|
|
break;
|
|
case KindCode::effectiveKind:
|
|
common::die("INTERNAL: KindCode::effectiveKind appears on argument '%s' "
|
|
"for intrinsic '%s'",
|
|
d.keyword, name);
|
|
break;
|
|
case KindCode::addressable:
|
|
case KindCode::nullPointerType:
|
|
argOk = true;
|
|
break;
|
|
default:
|
|
CRASH_NO_CASE;
|
|
}
|
|
if (!argOk) {
|
|
messages.Say(
|
|
"Actual argument for '%s=' has bad type or kind '%s'"_err_en_US,
|
|
d.keyword, type->AsFortran());
|
|
return std::nullopt;
|
|
}
|
|
}
|
|
|
|
// Check the ranks of the arguments against the intrinsic's interface.
|
|
const ActualArgument *arrayArg{nullptr};
|
|
const char *arrayArgName{nullptr};
|
|
const ActualArgument *knownArg{nullptr};
|
|
std::optional<int> shapeArgSize;
|
|
int elementalRank{0};
|
|
for (std::size_t j{0}; j < dummies; ++j) {
|
|
const IntrinsicDummyArgument &d{dummy[std::min(j, dummyArgPatterns - 1)]};
|
|
if (const ActualArgument * arg{actualForDummy[j]}) {
|
|
bool isAssumedRank{IsAssumedRank(*arg)};
|
|
if (isAssumedRank && d.rank != Rank::anyOrAssumedRank) {
|
|
messages.Say("Assumed-rank array cannot be forwarded to "
|
|
"'%s=' argument"_err_en_US,
|
|
d.keyword);
|
|
return std::nullopt;
|
|
}
|
|
int rank{arg->Rank()};
|
|
bool argOk{false};
|
|
switch (d.rank) {
|
|
case Rank::elemental:
|
|
case Rank::elementalOrBOZ:
|
|
if (elementalRank == 0) {
|
|
elementalRank = rank;
|
|
}
|
|
argOk = rank == 0 || rank == elementalRank;
|
|
break;
|
|
case Rank::scalar:
|
|
argOk = rank == 0;
|
|
break;
|
|
case Rank::vector:
|
|
argOk = rank == 1;
|
|
break;
|
|
case Rank::shape:
|
|
CHECK(!shapeArgSize);
|
|
if (rank != 1) {
|
|
messages.Say(
|
|
"'shape=' argument must be an array of rank 1"_err_en_US);
|
|
return std::nullopt;
|
|
} else {
|
|
if (auto shape{GetShape(context, *arg)}) {
|
|
if (auto constShape{AsConstantShape(context, *shape)}) {
|
|
shapeArgSize = constShape->At(ConstantSubscripts{1}).ToInt64();
|
|
CHECK(shapeArgSize >= 0);
|
|
argOk = true;
|
|
}
|
|
}
|
|
}
|
|
if (!argOk) {
|
|
messages.Say(
|
|
"'shape=' argument must be a vector of known size"_err_en_US);
|
|
return std::nullopt;
|
|
}
|
|
break;
|
|
case Rank::matrix:
|
|
argOk = rank == 2;
|
|
break;
|
|
case Rank::array:
|
|
argOk = rank > 0;
|
|
if (!arrayArg) {
|
|
arrayArg = arg;
|
|
arrayArgName = d.keyword;
|
|
} else {
|
|
argOk &= rank == arrayArg->Rank();
|
|
}
|
|
break;
|
|
case Rank::coarray:
|
|
argOk = IsCoarray(*arg);
|
|
if (!argOk) {
|
|
messages.Say(
|
|
"'coarray=' argument must have corank > 0 for intrinsic '%s'"_err_en_US,
|
|
name);
|
|
return std::nullopt;
|
|
}
|
|
break;
|
|
case Rank::known:
|
|
if (!knownArg) {
|
|
knownArg = arg;
|
|
}
|
|
argOk = rank == knownArg->Rank();
|
|
break;
|
|
case Rank::anyOrAssumedRank:
|
|
if (!hasDimArg && rank > 0 && !isAssumedRank &&
|
|
(std::strcmp(name, "shape") == 0 ||
|
|
std::strcmp(name, "size") == 0 ||
|
|
std::strcmp(name, "ubound") == 0)) {
|
|
// Check for an assumed-size array argument.
|
|
// These are disallowed for SHAPE, and require DIM= for
|
|
// SIZE and UBOUND.
|
|
// (A previous error message for UBOUND will take precedence
|
|
// over this one, as this error is caught by the second entry
|
|
// for UBOUND.)
|
|
if (std::optional<Shape> shape{GetShape(context, *arg)}) {
|
|
if (!shape->empty() && !shape->back().has_value()) {
|
|
if (strcmp(name, "shape") == 0) {
|
|
messages.Say(
|
|
"The '%s=' argument to the intrinsic function '%s' may not be assumed-size"_err_en_US,
|
|
d.keyword, name);
|
|
} else {
|
|
messages.Say(
|
|
"A dim= argument is required for '%s' when the array is assumed-size"_err_en_US,
|
|
name);
|
|
}
|
|
return std::nullopt;
|
|
}
|
|
}
|
|
}
|
|
argOk = true;
|
|
break;
|
|
case Rank::conformable: // arg must be conformable with previous arrayArg
|
|
CHECK(arrayArg);
|
|
CHECK(arrayArgName);
|
|
if (const std::optional<Shape> &arrayArgShape{
|
|
GetShape(context, *arrayArg)}) {
|
|
if (std::optional<Shape> argShape{GetShape(context, *arg)}) {
|
|
std::string arrayArgMsg{"'"};
|
|
arrayArgMsg = arrayArgMsg + arrayArgName + "='" + " argument";
|
|
std::string argMsg{"'"};
|
|
argMsg = argMsg + d.keyword + "='" + " argument";
|
|
CheckConformance(context.messages(), *arrayArgShape, *argShape,
|
|
CheckConformanceFlags::RightScalarExpandable,
|
|
arrayArgMsg.c_str(), argMsg.c_str());
|
|
}
|
|
}
|
|
argOk = true; // Avoid an additional error message
|
|
break;
|
|
case Rank::dimReduced:
|
|
case Rank::dimRemovedOrScalar:
|
|
CHECK(arrayArg);
|
|
argOk = rank == 0 || rank + 1 == arrayArg->Rank();
|
|
break;
|
|
case Rank::reduceOperation:
|
|
// TODO: validate the reduction operation -- it must be a pure
|
|
// function of two arguments with special constraints.
|
|
CHECK(arrayArg);
|
|
argOk = rank == 0;
|
|
break;
|
|
case Rank::locReduced:
|
|
case Rank::rankPlus1:
|
|
case Rank::shaped:
|
|
common::die("INTERNAL: result-only rank code appears on argument '%s' "
|
|
"for intrinsic '%s'",
|
|
d.keyword, name);
|
|
}
|
|
if (!argOk) {
|
|
messages.Say("'%s=' argument has unacceptable rank %d"_err_en_US,
|
|
d.keyword, rank);
|
|
return std::nullopt;
|
|
}
|
|
}
|
|
}
|
|
|
|
// Calculate the characteristics of the function result, if any
|
|
std::optional<DynamicType> resultType;
|
|
if (auto category{result.categorySet.LeastElement()}) {
|
|
// The intrinsic is not a subroutine.
|
|
if (call.isSubroutineCall) {
|
|
return std::nullopt;
|
|
}
|
|
switch (result.kindCode) {
|
|
case KindCode::defaultIntegerKind:
|
|
CHECK(result.categorySet == IntType);
|
|
CHECK(*category == TypeCategory::Integer);
|
|
resultType = DynamicType{TypeCategory::Integer,
|
|
defaults.GetDefaultKind(TypeCategory::Integer)};
|
|
break;
|
|
case KindCode::defaultRealKind:
|
|
CHECK(result.categorySet == CategorySet{*category});
|
|
CHECK(FloatingType.test(*category));
|
|
resultType =
|
|
DynamicType{*category, defaults.GetDefaultKind(TypeCategory::Real)};
|
|
break;
|
|
case KindCode::doublePrecision:
|
|
CHECK(result.categorySet == CategorySet{*category});
|
|
CHECK(FloatingType.test(*category));
|
|
resultType = DynamicType{*category, defaults.doublePrecisionKind()};
|
|
break;
|
|
case KindCode::defaultLogicalKind:
|
|
CHECK(result.categorySet == LogicalType);
|
|
CHECK(*category == TypeCategory::Logical);
|
|
resultType = DynamicType{TypeCategory::Logical,
|
|
defaults.GetDefaultKind(TypeCategory::Logical)};
|
|
break;
|
|
case KindCode::same:
|
|
CHECK(sameArg);
|
|
if (std::optional<DynamicType> aType{sameArg->GetType()}) {
|
|
if (result.categorySet.test(aType->category())) {
|
|
resultType = *aType;
|
|
} else {
|
|
resultType = DynamicType{*category, aType->kind()};
|
|
}
|
|
}
|
|
break;
|
|
case KindCode::operand:
|
|
CHECK(operandArg);
|
|
resultType = operandArg->GetType();
|
|
CHECK(!resultType || result.categorySet.test(resultType->category()));
|
|
break;
|
|
case KindCode::effectiveKind:
|
|
CHECK(kindDummyArg);
|
|
CHECK(result.categorySet == CategorySet{*category});
|
|
if (kindArg) {
|
|
if (auto *expr{kindArg->UnwrapExpr()}) {
|
|
CHECK(expr->Rank() == 0);
|
|
if (auto code{ToInt64(*expr)}) {
|
|
if (IsValidKindOfIntrinsicType(*category, *code)) {
|
|
if (*category == TypeCategory::Character) { // ACHAR & CHAR
|
|
resultType = DynamicType{static_cast<int>(*code), 1};
|
|
} else {
|
|
resultType = DynamicType{*category, static_cast<int>(*code)};
|
|
}
|
|
break;
|
|
}
|
|
}
|
|
}
|
|
messages.Say("'kind=' argument must be a constant scalar integer "
|
|
"whose value is a supported kind for the "
|
|
"intrinsic result type"_err_en_US);
|
|
return std::nullopt;
|
|
} else if (kindDummyArg->optionality == Optionality::defaultsToSameKind) {
|
|
CHECK(sameArg);
|
|
resultType = *sameArg->GetType();
|
|
} else if (kindDummyArg->optionality == Optionality::defaultsToSizeKind) {
|
|
CHECK(*category == TypeCategory::Integer);
|
|
resultType =
|
|
DynamicType{TypeCategory::Integer, defaults.sizeIntegerKind()};
|
|
} else {
|
|
CHECK(kindDummyArg->optionality ==
|
|
Optionality::defaultsToDefaultForResult);
|
|
int kind{defaults.GetDefaultKind(*category)};
|
|
if (*category == TypeCategory::Character) { // ACHAR & CHAR
|
|
resultType = DynamicType{kind, 1};
|
|
} else {
|
|
resultType = DynamicType{*category, kind};
|
|
}
|
|
}
|
|
break;
|
|
case KindCode::likeMultiply:
|
|
CHECK(dummies >= 2);
|
|
CHECK(actualForDummy[0]);
|
|
CHECK(actualForDummy[1]);
|
|
resultType = actualForDummy[0]->GetType()->ResultTypeForMultiply(
|
|
*actualForDummy[1]->GetType());
|
|
break;
|
|
case KindCode::subscript:
|
|
CHECK(result.categorySet == IntType);
|
|
CHECK(*category == TypeCategory::Integer);
|
|
resultType =
|
|
DynamicType{TypeCategory::Integer, defaults.subscriptIntegerKind()};
|
|
break;
|
|
case KindCode::size:
|
|
CHECK(result.categorySet == IntType);
|
|
CHECK(*category == TypeCategory::Integer);
|
|
resultType =
|
|
DynamicType{TypeCategory::Integer, defaults.sizeIntegerKind()};
|
|
break;
|
|
case KindCode::teamType:
|
|
CHECK(result.categorySet == DerivedType);
|
|
CHECK(*category == TypeCategory::Derived);
|
|
resultType = DynamicType{
|
|
GetBuiltinDerivedType(builtinsScope, "__builtin_team_type")};
|
|
break;
|
|
case KindCode::defaultCharKind:
|
|
case KindCode::typeless:
|
|
case KindCode::any:
|
|
case KindCode::kindArg:
|
|
case KindCode::dimArg:
|
|
common::die(
|
|
"INTERNAL: bad KindCode appears on intrinsic '%s' result", name);
|
|
break;
|
|
default:
|
|
CRASH_NO_CASE;
|
|
}
|
|
} else {
|
|
if (!call.isSubroutineCall) {
|
|
return std::nullopt;
|
|
}
|
|
CHECK(result.kindCode == KindCode::none);
|
|
}
|
|
|
|
// At this point, the call is acceptable.
|
|
// Determine the rank of the function result.
|
|
int resultRank{0};
|
|
switch (rank) {
|
|
case Rank::elemental:
|
|
resultRank = elementalRank;
|
|
break;
|
|
case Rank::scalar:
|
|
resultRank = 0;
|
|
break;
|
|
case Rank::vector:
|
|
resultRank = 1;
|
|
break;
|
|
case Rank::matrix:
|
|
resultRank = 2;
|
|
break;
|
|
case Rank::conformable:
|
|
CHECK(arrayArg);
|
|
resultRank = arrayArg->Rank();
|
|
break;
|
|
case Rank::dimReduced:
|
|
CHECK(arrayArg);
|
|
resultRank = hasDimArg ? arrayArg->Rank() - 1 : 0;
|
|
break;
|
|
case Rank::locReduced:
|
|
CHECK(arrayArg);
|
|
resultRank = hasDimArg ? arrayArg->Rank() - 1 : 1;
|
|
break;
|
|
case Rank::rankPlus1:
|
|
CHECK(knownArg);
|
|
resultRank = knownArg->Rank() + 1;
|
|
break;
|
|
case Rank::shaped:
|
|
CHECK(shapeArgSize);
|
|
resultRank = *shapeArgSize;
|
|
break;
|
|
case Rank::elementalOrBOZ:
|
|
case Rank::shape:
|
|
case Rank::array:
|
|
case Rank::coarray:
|
|
case Rank::known:
|
|
case Rank::anyOrAssumedRank:
|
|
case Rank::reduceOperation:
|
|
case Rank::dimRemovedOrScalar:
|
|
common::die("INTERNAL: bad Rank code on intrinsic '%s' result", name);
|
|
break;
|
|
}
|
|
CHECK(resultRank >= 0);
|
|
|
|
// Rearrange the actual arguments into dummy argument order.
|
|
ActualArguments rearranged(dummies);
|
|
for (std::size_t j{0}; j < dummies; ++j) {
|
|
if (ActualArgument * arg{actualForDummy[j]}) {
|
|
rearranged[j] = std::move(*arg);
|
|
}
|
|
}
|
|
|
|
// Characterize the specific intrinsic procedure.
|
|
characteristics::DummyArguments dummyArgs;
|
|
std::optional<int> sameDummyArg;
|
|
|
|
for (std::size_t j{0}; j < dummies; ++j) {
|
|
const IntrinsicDummyArgument &d{dummy[std::min(j, dummyArgPatterns - 1)]};
|
|
if (const auto &arg{rearranged[j]}) {
|
|
if (const Expr<SomeType> *expr{arg->UnwrapExpr()}) {
|
|
std::string kw{d.keyword};
|
|
if (isMaxMin) {
|
|
kw = "a"s + std::to_string(j + 1);
|
|
}
|
|
auto dc{characteristics::DummyArgument::FromActual(
|
|
std::move(kw), *expr, context)};
|
|
if (!dc) {
|
|
common::die("INTERNAL: could not characterize intrinsic function "
|
|
"actual argument '%s'",
|
|
expr->AsFortran().c_str());
|
|
return std::nullopt;
|
|
}
|
|
dummyArgs.emplace_back(std::move(*dc));
|
|
if (d.typePattern.kindCode == KindCode::same && !sameDummyArg) {
|
|
sameDummyArg = j;
|
|
}
|
|
} else {
|
|
CHECK(arg->GetAssumedTypeDummy());
|
|
dummyArgs.emplace_back(std::string{d.keyword},
|
|
characteristics::DummyDataObject{DynamicType::AssumedType()});
|
|
}
|
|
} else {
|
|
// optional argument is absent
|
|
CHECK(d.optionality != Optionality::required);
|
|
if (d.typePattern.kindCode == KindCode::same) {
|
|
dummyArgs.emplace_back(dummyArgs[sameDummyArg.value()]);
|
|
} else {
|
|
auto category{d.typePattern.categorySet.LeastElement().value()};
|
|
if (category == TypeCategory::Derived) {
|
|
// TODO: any other built-in derived types used as optional intrinsic
|
|
// dummies?
|
|
CHECK(d.typePattern.kindCode == KindCode::teamType);
|
|
characteristics::TypeAndShape typeAndShape{
|
|
GetBuiltinDerivedType(builtinsScope, "__builtin_team_type")};
|
|
dummyArgs.emplace_back(std::string{d.keyword},
|
|
characteristics::DummyDataObject{std::move(typeAndShape)});
|
|
} else {
|
|
characteristics::TypeAndShape typeAndShape{
|
|
DynamicType{category, defaults.GetDefaultKind(category)}};
|
|
dummyArgs.emplace_back(std::string{d.keyword},
|
|
characteristics::DummyDataObject{std::move(typeAndShape)});
|
|
}
|
|
}
|
|
dummyArgs.back().SetOptional();
|
|
}
|
|
dummyArgs.back().SetIntent(d.intent);
|
|
}
|
|
characteristics::Procedure::Attrs attrs;
|
|
if (elementalRank > 0) {
|
|
attrs.set(characteristics::Procedure::Attr::Elemental);
|
|
}
|
|
if (call.isSubroutineCall) {
|
|
return SpecificCall{
|
|
SpecificIntrinsic{
|
|
name, characteristics::Procedure{std::move(dummyArgs), attrs}},
|
|
std::move(rearranged)};
|
|
} else {
|
|
attrs.set(characteristics::Procedure::Attr::Pure);
|
|
characteristics::TypeAndShape typeAndShape{resultType.value(), resultRank};
|
|
characteristics::FunctionResult funcResult{std::move(typeAndShape)};
|
|
characteristics::Procedure chars{
|
|
std::move(funcResult), std::move(dummyArgs), attrs};
|
|
return SpecificCall{
|
|
SpecificIntrinsic{name, std::move(chars)}, std::move(rearranged)};
|
|
}
|
|
}
|
|
|
|
class IntrinsicProcTable::Implementation {
|
|
public:
|
|
explicit Implementation(const common::IntrinsicTypeDefaultKinds &dfts)
|
|
: defaults_{dfts} {
|
|
for (const IntrinsicInterface &f : genericIntrinsicFunction) {
|
|
genericFuncs_.insert(std::make_pair(std::string{f.name}, &f));
|
|
}
|
|
for (const SpecificIntrinsicInterface &f : specificIntrinsicFunction) {
|
|
specificFuncs_.insert(std::make_pair(std::string{f.name}, &f));
|
|
}
|
|
for (const IntrinsicInterface &f : intrinsicSubroutine) {
|
|
subroutines_.insert(std::make_pair(std::string{f.name}, &f));
|
|
}
|
|
}
|
|
|
|
void SupplyBuiltins(const semantics::Scope &builtins) {
|
|
builtinsScope_ = &builtins;
|
|
}
|
|
|
|
bool IsIntrinsic(const std::string &) const;
|
|
bool IsIntrinsicFunction(const std::string &) const;
|
|
bool IsIntrinsicSubroutine(const std::string &) const;
|
|
|
|
IntrinsicClass GetIntrinsicClass(const std::string &) const;
|
|
std::string GetGenericIntrinsicName(const std::string &) const;
|
|
|
|
std::optional<SpecificCall> Probe(
|
|
const CallCharacteristics &, ActualArguments &, FoldingContext &) const;
|
|
|
|
std::optional<SpecificIntrinsicFunctionInterface> IsSpecificIntrinsicFunction(
|
|
const std::string &) const;
|
|
|
|
llvm::raw_ostream &Dump(llvm::raw_ostream &) const;
|
|
|
|
private:
|
|
DynamicType GetSpecificType(const TypePattern &) const;
|
|
SpecificCall HandleNull(ActualArguments &, FoldingContext &) const;
|
|
std::optional<SpecificCall> HandleC_F_Pointer(
|
|
ActualArguments &, FoldingContext &) const;
|
|
|
|
common::IntrinsicTypeDefaultKinds defaults_;
|
|
std::multimap<std::string, const IntrinsicInterface *> genericFuncs_;
|
|
std::multimap<std::string, const SpecificIntrinsicInterface *> specificFuncs_;
|
|
std::multimap<std::string, const IntrinsicInterface *> subroutines_;
|
|
const semantics::Scope *builtinsScope_{nullptr};
|
|
};
|
|
|
|
bool IntrinsicProcTable::Implementation::IsIntrinsicFunction(
|
|
const std::string &name) const {
|
|
auto specificRange{specificFuncs_.equal_range(name)};
|
|
if (specificRange.first != specificRange.second) {
|
|
return true;
|
|
}
|
|
auto genericRange{genericFuncs_.equal_range(name)};
|
|
if (genericRange.first != genericRange.second) {
|
|
return true;
|
|
}
|
|
// special cases
|
|
return name == "null";
|
|
}
|
|
bool IntrinsicProcTable::Implementation::IsIntrinsicSubroutine(
|
|
const std::string &name) const {
|
|
auto subrRange{subroutines_.equal_range(name)};
|
|
if (subrRange.first != subrRange.second) {
|
|
return true;
|
|
}
|
|
// special cases
|
|
return name == "__builtin_c_f_pointer";
|
|
}
|
|
bool IntrinsicProcTable::Implementation::IsIntrinsic(
|
|
const std::string &name) const {
|
|
return IsIntrinsicFunction(name) || IsIntrinsicSubroutine(name);
|
|
}
|
|
|
|
IntrinsicClass IntrinsicProcTable::Implementation::GetIntrinsicClass(
|
|
const std::string &name) const {
|
|
auto specificIntrinsic{specificFuncs_.find(name)};
|
|
if (specificIntrinsic != specificFuncs_.end()) {
|
|
return specificIntrinsic->second->intrinsicClass;
|
|
}
|
|
auto genericIntrinsic{genericFuncs_.find(name)};
|
|
if (genericIntrinsic != genericFuncs_.end()) {
|
|
return genericIntrinsic->second->intrinsicClass;
|
|
}
|
|
auto subrIntrinsic{subroutines_.find(name)};
|
|
if (subrIntrinsic != subroutines_.end()) {
|
|
return subrIntrinsic->second->intrinsicClass;
|
|
}
|
|
return IntrinsicClass::noClass;
|
|
}
|
|
|
|
std::string IntrinsicProcTable::Implementation::GetGenericIntrinsicName(
|
|
const std::string &name) const {
|
|
auto specificIntrinsic{specificFuncs_.find(name)};
|
|
if (specificIntrinsic != specificFuncs_.end()) {
|
|
if (const char *genericName{specificIntrinsic->second->generic}) {
|
|
return {genericName};
|
|
}
|
|
}
|
|
return name;
|
|
}
|
|
|
|
bool CheckAndRearrangeArguments(ActualArguments &arguments,
|
|
parser::ContextualMessages &messages, const char *const dummyKeywords[],
|
|
std::size_t trailingOptionals) {
|
|
std::size_t numDummies{0};
|
|
while (dummyKeywords[numDummies]) {
|
|
++numDummies;
|
|
}
|
|
CHECK(trailingOptionals <= numDummies);
|
|
if (arguments.size() > numDummies) {
|
|
messages.Say("Too many actual arguments (%zd > %zd)"_err_en_US,
|
|
arguments.size(), numDummies);
|
|
return false;
|
|
}
|
|
ActualArguments rearranged(numDummies);
|
|
bool anyKeywords{false};
|
|
std::size_t position{0};
|
|
for (std::optional<ActualArgument> &arg : arguments) {
|
|
std::size_t dummyIndex{0};
|
|
if (arg && arg->keyword()) {
|
|
anyKeywords = true;
|
|
for (; dummyIndex < numDummies; ++dummyIndex) {
|
|
if (*arg->keyword() == dummyKeywords[dummyIndex]) {
|
|
break;
|
|
}
|
|
}
|
|
if (dummyIndex >= numDummies) {
|
|
messages.Say(*arg->keyword(),
|
|
"Unknown argument keyword '%s='"_err_en_US, *arg->keyword());
|
|
return false;
|
|
}
|
|
} else if (anyKeywords) {
|
|
messages.Say(
|
|
"A positional actual argument may not appear after any keyword arguments"_err_en_US);
|
|
return false;
|
|
} else {
|
|
dummyIndex = position++;
|
|
}
|
|
if (rearranged[dummyIndex]) {
|
|
messages.Say("Dummy argument '%s=' appears more than once"_err_en_US,
|
|
dummyKeywords[dummyIndex]);
|
|
return false;
|
|
}
|
|
rearranged[dummyIndex] = std::move(arg);
|
|
arg.reset();
|
|
}
|
|
bool anyMissing{false};
|
|
for (std::size_t j{0}; j < numDummies - trailingOptionals; ++j) {
|
|
if (!rearranged[j]) {
|
|
messages.Say("Dummy argument '%s=' is absent and not OPTIONAL"_err_en_US,
|
|
dummyKeywords[j]);
|
|
anyMissing = true;
|
|
}
|
|
}
|
|
arguments = std::move(rearranged);
|
|
return !anyMissing;
|
|
}
|
|
|
|
// The NULL() intrinsic is a special case.
|
|
SpecificCall IntrinsicProcTable::Implementation::HandleNull(
|
|
ActualArguments &arguments, FoldingContext &context) const {
|
|
static const char *const keywords[]{"mold", nullptr};
|
|
if (CheckAndRearrangeArguments(arguments, context.messages(), keywords, 1) &&
|
|
arguments[0]) {
|
|
if (Expr<SomeType> * mold{arguments[0]->UnwrapExpr()}) {
|
|
bool goodProcPointer{true};
|
|
if (IsAllocatableOrPointer(*mold)) {
|
|
characteristics::DummyArguments args;
|
|
std::optional<characteristics::FunctionResult> fResult;
|
|
if (IsProcedurePointerTarget(*mold)) {
|
|
// MOLD= procedure pointer
|
|
const Symbol *last{GetLastSymbol(*mold)};
|
|
CHECK(last);
|
|
auto procPointer{IsProcedure(*last)
|
|
? characteristics::Procedure::Characterize(*last, context)
|
|
: std::nullopt};
|
|
// procPointer is null if there was an error with the analysis
|
|
// associated with the procedure pointer
|
|
if (procPointer) {
|
|
args.emplace_back("mold"s,
|
|
characteristics::DummyProcedure{common::Clone(*procPointer)});
|
|
fResult.emplace(std::move(*procPointer));
|
|
} else {
|
|
goodProcPointer = false;
|
|
}
|
|
} else if (auto type{mold->GetType()}) {
|
|
// MOLD= object pointer
|
|
characteristics::TypeAndShape typeAndShape{
|
|
*type, GetShape(context, *mold)};
|
|
args.emplace_back(
|
|
"mold"s, characteristics::DummyDataObject{typeAndShape});
|
|
fResult.emplace(std::move(typeAndShape));
|
|
} else {
|
|
context.messages().Say(
|
|
"MOLD= argument to NULL() lacks type"_err_en_US);
|
|
}
|
|
if (goodProcPointer) {
|
|
fResult->attrs.set(characteristics::FunctionResult::Attr::Pointer);
|
|
characteristics::Procedure::Attrs attrs;
|
|
attrs.set(characteristics::Procedure::Attr::NullPointer);
|
|
characteristics::Procedure chars{
|
|
std::move(*fResult), std::move(args), attrs};
|
|
return SpecificCall{SpecificIntrinsic{"null"s, std::move(chars)},
|
|
std::move(arguments)};
|
|
}
|
|
}
|
|
}
|
|
context.messages().Say(
|
|
"MOLD= argument to NULL() must be a pointer or allocatable"_err_en_US);
|
|
}
|
|
characteristics::Procedure::Attrs attrs;
|
|
attrs.set(characteristics::Procedure::Attr::NullPointer);
|
|
attrs.set(characteristics::Procedure::Attr::Pure);
|
|
arguments.clear();
|
|
return SpecificCall{
|
|
SpecificIntrinsic{"null"s,
|
|
characteristics::Procedure{characteristics::DummyArguments{}, attrs}},
|
|
std::move(arguments)};
|
|
}
|
|
|
|
// Subroutine C_F_POINTER(CPTR=,FPTR=[,SHAPE=]) from
|
|
// intrinsic module ISO_C_BINDING (18.2.3.3)
|
|
std::optional<SpecificCall>
|
|
IntrinsicProcTable::Implementation::HandleC_F_Pointer(
|
|
ActualArguments &arguments, FoldingContext &context) const {
|
|
characteristics::Procedure::Attrs attrs;
|
|
attrs.set(characteristics::Procedure::Attr::Subroutine);
|
|
static const char *const keywords[]{"cptr", "fptr", "shape", nullptr};
|
|
characteristics::DummyArguments dummies;
|
|
if (CheckAndRearrangeArguments(arguments, context.messages(), keywords, 1)) {
|
|
CHECK(arguments.size() == 3);
|
|
if (const auto *expr{arguments[0].value().UnwrapExpr()}) {
|
|
if (expr->Rank() > 0) {
|
|
context.messages().Say(
|
|
"CPTR= argument to C_F_POINTER() must be scalar"_err_en_US);
|
|
}
|
|
if (auto type{expr->GetType()}) {
|
|
if (type->category() != TypeCategory::Derived ||
|
|
type->IsPolymorphic() ||
|
|
type->GetDerivedTypeSpec().typeSymbol().name() !=
|
|
"__builtin_c_ptr") {
|
|
context.messages().Say(
|
|
"CPTR= argument to C_F_POINTER() must be a C_PTR"_err_en_US);
|
|
}
|
|
characteristics::DummyDataObject cptr{
|
|
characteristics::TypeAndShape{*type}};
|
|
cptr.intent = common::Intent::In;
|
|
dummies.emplace_back("cptr"s, std::move(cptr));
|
|
}
|
|
}
|
|
if (const auto *expr{arguments[1].value().UnwrapExpr()}) {
|
|
int fptrRank{expr->Rank()};
|
|
if (auto type{expr->GetType()}) {
|
|
if (type->HasDeferredTypeParameter()) {
|
|
context.messages().Say(
|
|
"FPTR= argument to C_F_POINTER() may not have a deferred type parameter"_err_en_US);
|
|
}
|
|
if (ExtractCoarrayRef(*expr)) {
|
|
context.messages().Say(
|
|
"FPTR= argument to C_F_POINTER() may not be a coindexed object"_err_en_US);
|
|
}
|
|
characteristics::DummyDataObject fptr{
|
|
characteristics::TypeAndShape{*type, fptrRank}};
|
|
fptr.intent = common::Intent::Out;
|
|
fptr.attrs.set(characteristics::DummyDataObject::Attr::Pointer);
|
|
dummies.emplace_back("fptr"s, std::move(fptr));
|
|
}
|
|
if (arguments[2] && fptrRank == 0) {
|
|
context.messages().Say(
|
|
"SHAPE= argument to C_F_POINTER() may not appear when FPTR= is scalar"_err_en_US);
|
|
} else if (!arguments[2] && fptrRank > 0) {
|
|
context.messages().Say(
|
|
"SHAPE= argument to C_F_POINTER() must appear when FPTR= is an array"_err_en_US);
|
|
}
|
|
if (arguments[2]) {
|
|
DynamicType shapeType{
|
|
TypeCategory::Integer, defaults_.sizeIntegerKind()};
|
|
if (auto type{arguments[2]->GetType()}) {
|
|
if (type->category() == TypeCategory::Integer) {
|
|
shapeType = *type;
|
|
}
|
|
}
|
|
characteristics::DummyDataObject shape{
|
|
characteristics::TypeAndShape{shapeType, 1}};
|
|
shape.intent = common::Intent::In;
|
|
shape.attrs.set(characteristics::DummyDataObject::Attr::Optional);
|
|
dummies.emplace_back("shape"s, std::move(shape));
|
|
}
|
|
}
|
|
}
|
|
if (dummies.size() == 3) {
|
|
return SpecificCall{
|
|
SpecificIntrinsic{"__builtin_c_f_pointer"s,
|
|
characteristics::Procedure{std::move(dummies), attrs}},
|
|
std::move(arguments)};
|
|
} else {
|
|
return std::nullopt;
|
|
}
|
|
}
|
|
|
|
static bool CheckAssociated(SpecificCall &call, FoldingContext &context) {
|
|
bool ok{true};
|
|
if (const auto &pointerArg{call.arguments[0]}) {
|
|
if (const auto *pointerExpr{pointerArg->UnwrapExpr()}) {
|
|
if (const Symbol * pointerSymbol{GetLastSymbol(*pointerExpr)}) {
|
|
if (!pointerSymbol->attrs().test(semantics::Attr::POINTER)) {
|
|
AttachDeclaration(context.messages().Say(
|
|
"POINTER= argument of ASSOCIATED() must be a "
|
|
"POINTER"_err_en_US),
|
|
*pointerSymbol);
|
|
} else {
|
|
if (const auto &targetArg{call.arguments[1]}) {
|
|
if (const auto *targetExpr{targetArg->UnwrapExpr()}) {
|
|
std::optional<characteristics::Procedure> pointerProc, targetProc;
|
|
const Symbol *targetSymbol{GetLastSymbol(*targetExpr)};
|
|
bool isCall{false};
|
|
std::string targetName;
|
|
if (const auto *targetProcRef{// target is a function call
|
|
std::get_if<ProcedureRef>(&targetExpr->u)}) {
|
|
if (auto targetRefedChars{
|
|
characteristics::Procedure::Characterize(
|
|
*targetProcRef, context)}) {
|
|
targetProc = *targetRefedChars;
|
|
targetName = targetProcRef->proc().GetName() + "()";
|
|
isCall = true;
|
|
}
|
|
} else if (targetSymbol) {
|
|
// proc that's not a call
|
|
if (IsProcedure(*targetSymbol)) {
|
|
targetProc = characteristics::Procedure::Characterize(
|
|
*targetSymbol, context);
|
|
}
|
|
targetName = targetSymbol->name().ToString();
|
|
}
|
|
if (IsProcedure(*pointerSymbol)) {
|
|
pointerProc = characteristics::Procedure::Characterize(
|
|
*pointerSymbol, context);
|
|
}
|
|
if (pointerProc) {
|
|
if (targetProc) {
|
|
// procedure pointer and procedure target
|
|
if (std::optional<parser::MessageFixedText> msg{
|
|
CheckProcCompatibility(
|
|
isCall, pointerProc, &*targetProc)}) {
|
|
AttachDeclaration(
|
|
context.messages().Say(std::move(*msg),
|
|
"pointer '" + pointerSymbol->name().ToString() +
|
|
"'",
|
|
targetName),
|
|
*pointerSymbol);
|
|
}
|
|
} else {
|
|
// procedure pointer and object target
|
|
if (!IsNullPointer(*targetExpr)) {
|
|
AttachDeclaration(
|
|
context.messages().Say(
|
|
"POINTER= argument '%s' is a procedure "
|
|
"pointer but the TARGET= argument '%s' is not a "
|
|
"procedure or procedure pointer"_err_en_US,
|
|
pointerSymbol->name(), targetName),
|
|
*pointerSymbol);
|
|
}
|
|
}
|
|
} else if (targetProc) {
|
|
// object pointer and procedure target
|
|
AttachDeclaration(
|
|
context.messages().Say(
|
|
"POINTER= argument '%s' is an object pointer "
|
|
"but the TARGET= argument '%s' is a "
|
|
"procedure designator"_err_en_US,
|
|
pointerSymbol->name(), targetName),
|
|
*pointerSymbol);
|
|
} else {
|
|
// object pointer and target
|
|
if (const Symbol * targetSymbol{GetLastSymbol(*targetExpr)}) {
|
|
if (!(targetSymbol->attrs().test(semantics::Attr::POINTER) ||
|
|
targetSymbol->attrs().test(
|
|
semantics::Attr::TARGET))) {
|
|
AttachDeclaration(
|
|
context.messages().Say(
|
|
"TARGET= argument '%s' must have either "
|
|
"the POINTER or the TARGET "
|
|
"attribute"_err_en_US,
|
|
targetName),
|
|
*targetSymbol);
|
|
}
|
|
}
|
|
|
|
if (const auto pointerType{pointerArg->GetType()}) {
|
|
if (const auto targetType{targetArg->GetType()}) {
|
|
ok = pointerType->IsTkCompatibleWith(*targetType);
|
|
}
|
|
}
|
|
}
|
|
}
|
|
}
|
|
}
|
|
}
|
|
}
|
|
} else {
|
|
// No arguments to ASSOCIATED()
|
|
ok = false;
|
|
}
|
|
if (!ok) {
|
|
context.messages().Say(
|
|
"Arguments of ASSOCIATED() must be a POINTER and an optional valid target"_err_en_US);
|
|
}
|
|
return ok;
|
|
}
|
|
|
|
// Applies any semantic checks peculiar to an intrinsic.
|
|
static bool ApplySpecificChecks(SpecificCall &call, FoldingContext &context) {
|
|
bool ok{true};
|
|
const std::string &name{call.specificIntrinsic.name};
|
|
if (name == "allocated") {
|
|
if (const auto &arg{call.arguments[0]}) {
|
|
if (const auto *expr{arg->UnwrapExpr()}) {
|
|
if (const Symbol * symbol{GetLastSymbol(*expr)}) {
|
|
ok = symbol->attrs().test(semantics::Attr::ALLOCATABLE);
|
|
}
|
|
}
|
|
}
|
|
if (!ok) {
|
|
context.messages().Say(
|
|
"Argument of ALLOCATED() must be an ALLOCATABLE object or component"_err_en_US);
|
|
}
|
|
} else if (name == "associated") {
|
|
return CheckAssociated(call, context);
|
|
} else if (name == "loc") {
|
|
if (const auto &arg{call.arguments[0]}) {
|
|
ok = arg->GetAssumedTypeDummy() || GetLastSymbol(arg->UnwrapExpr());
|
|
}
|
|
if (!ok) {
|
|
context.messages().Say(
|
|
"Argument of LOC() must be an object or procedure"_err_en_US);
|
|
}
|
|
} else if (name == "present") {
|
|
if (const auto &arg{call.arguments[0]}) {
|
|
if (const auto *expr{arg->UnwrapExpr()}) {
|
|
if (const Symbol * symbol{UnwrapWholeSymbolDataRef(*expr)}) {
|
|
ok = symbol->attrs().test(semantics::Attr::OPTIONAL);
|
|
}
|
|
}
|
|
}
|
|
if (!ok) {
|
|
context.messages().Say(
|
|
"Argument of PRESENT() must be the name of an OPTIONAL dummy argument"_err_en_US);
|
|
}
|
|
}
|
|
return ok;
|
|
}
|
|
|
|
static DynamicType GetReturnType(const SpecificIntrinsicInterface &interface,
|
|
const common::IntrinsicTypeDefaultKinds &defaults) {
|
|
TypeCategory category{TypeCategory::Integer};
|
|
switch (interface.result.kindCode) {
|
|
case KindCode::defaultIntegerKind:
|
|
break;
|
|
case KindCode::doublePrecision:
|
|
case KindCode::defaultRealKind:
|
|
category = TypeCategory::Real;
|
|
break;
|
|
default:
|
|
CRASH_NO_CASE;
|
|
}
|
|
int kind{interface.result.kindCode == KindCode::doublePrecision
|
|
? defaults.doublePrecisionKind()
|
|
: defaults.GetDefaultKind(category)};
|
|
return DynamicType{category, kind};
|
|
}
|
|
|
|
// Probe the configured intrinsic procedure pattern tables in search of a
|
|
// match for a given procedure reference.
|
|
std::optional<SpecificCall> IntrinsicProcTable::Implementation::Probe(
|
|
const CallCharacteristics &call, ActualArguments &arguments,
|
|
FoldingContext &context) const {
|
|
|
|
// All special cases handled here before the table probes below must
|
|
// also be recognized as special names in IsIntrinsicSubroutine().
|
|
if (call.isSubroutineCall) {
|
|
if (call.name == "__builtin_c_f_pointer") {
|
|
return HandleC_F_Pointer(arguments, context);
|
|
} else if (call.name == "random_seed") {
|
|
if (arguments.size() != 0 && arguments.size() != 1) {
|
|
context.messages().Say(
|
|
"RANDOM_SEED must have either 1 or no arguments"_err_en_US);
|
|
}
|
|
}
|
|
} else if (call.name == "null") {
|
|
return HandleNull(arguments, context);
|
|
}
|
|
|
|
if (call.isSubroutineCall) {
|
|
auto subrRange{subroutines_.equal_range(call.name)};
|
|
for (auto iter{subrRange.first}; iter != subrRange.second; ++iter) {
|
|
if (auto specificCall{iter->second->Match(
|
|
call, defaults_, arguments, context, builtinsScope_)}) {
|
|
return specificCall;
|
|
}
|
|
}
|
|
if (IsIntrinsicFunction(call.name)) {
|
|
context.messages().Say(
|
|
"Cannot use intrinsic function '%s' as a subroutine"_err_en_US,
|
|
call.name);
|
|
}
|
|
return std::nullopt; // TODO
|
|
}
|
|
|
|
// Helper to avoid emitting errors before it is sure there is no match
|
|
parser::Messages localBuffer;
|
|
parser::Messages *finalBuffer{context.messages().messages()};
|
|
parser::ContextualMessages localMessages{
|
|
context.messages().at(), finalBuffer ? &localBuffer : nullptr};
|
|
FoldingContext localContext{context, localMessages};
|
|
auto matchOrBufferMessages{
|
|
[&](const IntrinsicInterface &intrinsic,
|
|
parser::Messages &buffer) -> std::optional<SpecificCall> {
|
|
if (auto specificCall{intrinsic.Match(
|
|
call, defaults_, arguments, localContext, builtinsScope_)}) {
|
|
if (finalBuffer) {
|
|
finalBuffer->Annex(std::move(localBuffer));
|
|
}
|
|
return specificCall;
|
|
} else if (buffer.empty()) {
|
|
buffer.Annex(std::move(localBuffer));
|
|
} else {
|
|
localBuffer.clear();
|
|
}
|
|
return std::nullopt;
|
|
}};
|
|
|
|
// Probe the generic intrinsic function table first.
|
|
parser::Messages genericBuffer;
|
|
auto genericRange{genericFuncs_.equal_range(call.name)};
|
|
for (auto iter{genericRange.first}; iter != genericRange.second; ++iter) {
|
|
if (auto specificCall{
|
|
matchOrBufferMessages(*iter->second, genericBuffer)}) {
|
|
ApplySpecificChecks(*specificCall, context);
|
|
return specificCall;
|
|
}
|
|
}
|
|
|
|
// Probe the specific intrinsic function table next.
|
|
parser::Messages specificBuffer;
|
|
auto specificRange{specificFuncs_.equal_range(call.name)};
|
|
for (auto specIter{specificRange.first}; specIter != specificRange.second;
|
|
++specIter) {
|
|
// We only need to check the cases with distinct generic names.
|
|
if (const char *genericName{specIter->second->generic}) {
|
|
if (auto specificCall{
|
|
matchOrBufferMessages(*specIter->second, specificBuffer)}) {
|
|
if (!specIter->second->useGenericAndForceResultType) {
|
|
specificCall->specificIntrinsic.name = genericName;
|
|
}
|
|
specificCall->specificIntrinsic.isRestrictedSpecific =
|
|
specIter->second->isRestrictedSpecific;
|
|
// TODO test feature AdditionalIntrinsics, warn on nonstandard
|
|
// specifics with DoublePrecisionComplex arguments.
|
|
return specificCall;
|
|
}
|
|
}
|
|
}
|
|
|
|
// If there was no exact match with a specific, try to match the related
|
|
// generic and convert the result to the specific required type.
|
|
for (auto specIter{specificRange.first}; specIter != specificRange.second;
|
|
++specIter) {
|
|
// We only need to check the cases with distinct generic names.
|
|
if (const char *genericName{specIter->second->generic}) {
|
|
if (specIter->second->useGenericAndForceResultType) {
|
|
auto genericRange{genericFuncs_.equal_range(genericName)};
|
|
for (auto genIter{genericRange.first}; genIter != genericRange.second;
|
|
++genIter) {
|
|
if (auto specificCall{
|
|
matchOrBufferMessages(*genIter->second, specificBuffer)}) {
|
|
// Force the call result type to the specific intrinsic result type
|
|
DynamicType newType{GetReturnType(*specIter->second, defaults_)};
|
|
context.messages().Say(
|
|
"argument types do not match specific intrinsic '%s' "
|
|
"requirements; using '%s' generic instead and converting the "
|
|
"result to %s if needed"_en_US,
|
|
call.name, genericName, newType.AsFortran());
|
|
specificCall->specificIntrinsic.name = call.name;
|
|
specificCall->specificIntrinsic.characteristics.value()
|
|
.functionResult.value()
|
|
.SetType(newType);
|
|
return specificCall;
|
|
}
|
|
}
|
|
}
|
|
}
|
|
}
|
|
|
|
if (specificBuffer.empty() && genericBuffer.empty() &&
|
|
IsIntrinsicSubroutine(call.name)) {
|
|
context.messages().Say(
|
|
"Cannot use intrinsic subroutine '%s' as a function"_err_en_US,
|
|
call.name);
|
|
}
|
|
|
|
// No match; report the right errors, if any
|
|
if (finalBuffer) {
|
|
if (specificBuffer.empty()) {
|
|
finalBuffer->Annex(std::move(genericBuffer));
|
|
} else {
|
|
finalBuffer->Annex(std::move(specificBuffer));
|
|
}
|
|
}
|
|
return std::nullopt;
|
|
}
|
|
|
|
std::optional<SpecificIntrinsicFunctionInterface>
|
|
IntrinsicProcTable::Implementation::IsSpecificIntrinsicFunction(
|
|
const std::string &name) const {
|
|
auto specificRange{specificFuncs_.equal_range(name)};
|
|
for (auto iter{specificRange.first}; iter != specificRange.second; ++iter) {
|
|
const SpecificIntrinsicInterface &specific{*iter->second};
|
|
std::string genericName{name};
|
|
if (specific.generic) {
|
|
genericName = std::string(specific.generic);
|
|
}
|
|
characteristics::FunctionResult fResult{GetSpecificType(specific.result)};
|
|
characteristics::DummyArguments args;
|
|
int dummies{specific.CountArguments()};
|
|
for (int j{0}; j < dummies; ++j) {
|
|
characteristics::DummyDataObject dummy{
|
|
GetSpecificType(specific.dummy[j].typePattern)};
|
|
dummy.intent = specific.dummy[j].intent;
|
|
args.emplace_back(
|
|
std::string{specific.dummy[j].keyword}, std::move(dummy));
|
|
}
|
|
characteristics::Procedure::Attrs attrs;
|
|
attrs.set(characteristics::Procedure::Attr::Pure)
|
|
.set(characteristics::Procedure::Attr::Elemental);
|
|
characteristics::Procedure chars{
|
|
std::move(fResult), std::move(args), attrs};
|
|
return SpecificIntrinsicFunctionInterface{
|
|
std::move(chars), genericName, specific.isRestrictedSpecific};
|
|
}
|
|
return std::nullopt;
|
|
}
|
|
|
|
DynamicType IntrinsicProcTable::Implementation::GetSpecificType(
|
|
const TypePattern &pattern) const {
|
|
const CategorySet &set{pattern.categorySet};
|
|
CHECK(set.count() == 1);
|
|
TypeCategory category{set.LeastElement().value()};
|
|
if (pattern.kindCode == KindCode::doublePrecision) {
|
|
return DynamicType{category, defaults_.doublePrecisionKind()};
|
|
} else {
|
|
return DynamicType{category, defaults_.GetDefaultKind(category)};
|
|
}
|
|
}
|
|
|
|
IntrinsicProcTable::~IntrinsicProcTable() = default;
|
|
|
|
IntrinsicProcTable IntrinsicProcTable::Configure(
|
|
const common::IntrinsicTypeDefaultKinds &defaults) {
|
|
IntrinsicProcTable result;
|
|
result.impl_ = std::make_unique<IntrinsicProcTable::Implementation>(defaults);
|
|
return result;
|
|
}
|
|
|
|
void IntrinsicProcTable::SupplyBuiltins(
|
|
const semantics::Scope &builtins) const {
|
|
DEREF(impl_.get()).SupplyBuiltins(builtins);
|
|
}
|
|
|
|
bool IntrinsicProcTable::IsIntrinsic(const std::string &name) const {
|
|
return DEREF(impl_.get()).IsIntrinsic(name);
|
|
}
|
|
bool IntrinsicProcTable::IsIntrinsicFunction(const std::string &name) const {
|
|
return DEREF(impl_.get()).IsIntrinsicFunction(name);
|
|
}
|
|
bool IntrinsicProcTable::IsIntrinsicSubroutine(const std::string &name) const {
|
|
return DEREF(impl_.get()).IsIntrinsicSubroutine(name);
|
|
}
|
|
|
|
IntrinsicClass IntrinsicProcTable::GetIntrinsicClass(
|
|
const std::string &name) const {
|
|
return DEREF(impl_.get()).GetIntrinsicClass(name);
|
|
}
|
|
|
|
std::string IntrinsicProcTable::GetGenericIntrinsicName(
|
|
const std::string &name) const {
|
|
return DEREF(impl_.get()).GetGenericIntrinsicName(name);
|
|
}
|
|
|
|
std::optional<SpecificCall> IntrinsicProcTable::Probe(
|
|
const CallCharacteristics &call, ActualArguments &arguments,
|
|
FoldingContext &context) const {
|
|
return DEREF(impl_.get()).Probe(call, arguments, context);
|
|
}
|
|
|
|
std::optional<SpecificIntrinsicFunctionInterface>
|
|
IntrinsicProcTable::IsSpecificIntrinsicFunction(const std::string &name) const {
|
|
return DEREF(impl_.get()).IsSpecificIntrinsicFunction(name);
|
|
}
|
|
|
|
llvm::raw_ostream &TypePattern::Dump(llvm::raw_ostream &o) const {
|
|
if (categorySet == AnyType) {
|
|
o << "any type";
|
|
} else {
|
|
const char *sep = "";
|
|
auto set{categorySet};
|
|
while (auto least{set.LeastElement()}) {
|
|
o << sep << EnumToString(*least);
|
|
sep = " or ";
|
|
set.reset(*least);
|
|
}
|
|
}
|
|
o << '(' << EnumToString(kindCode) << ')';
|
|
return o;
|
|
}
|
|
|
|
llvm::raw_ostream &IntrinsicDummyArgument::Dump(llvm::raw_ostream &o) const {
|
|
if (keyword) {
|
|
o << keyword << '=';
|
|
}
|
|
return typePattern.Dump(o)
|
|
<< ' ' << EnumToString(rank) << ' ' << EnumToString(optionality)
|
|
<< EnumToString(intent);
|
|
}
|
|
|
|
llvm::raw_ostream &IntrinsicInterface::Dump(llvm::raw_ostream &o) const {
|
|
o << name;
|
|
char sep{'('};
|
|
for (const auto &d : dummy) {
|
|
if (d.typePattern.kindCode == KindCode::none) {
|
|
break;
|
|
}
|
|
d.Dump(o << sep);
|
|
sep = ',';
|
|
}
|
|
if (sep == '(') {
|
|
o << "()";
|
|
}
|
|
return result.Dump(o << " -> ") << ' ' << EnumToString(rank);
|
|
}
|
|
|
|
llvm::raw_ostream &IntrinsicProcTable::Implementation::Dump(
|
|
llvm::raw_ostream &o) const {
|
|
o << "generic intrinsic functions:\n";
|
|
for (const auto &iter : genericFuncs_) {
|
|
iter.second->Dump(o << iter.first << ": ") << '\n';
|
|
}
|
|
o << "specific intrinsic functions:\n";
|
|
for (const auto &iter : specificFuncs_) {
|
|
iter.second->Dump(o << iter.first << ": ");
|
|
if (const char *g{iter.second->generic}) {
|
|
o << " -> " << g;
|
|
}
|
|
o << '\n';
|
|
}
|
|
o << "subroutines:\n";
|
|
for (const auto &iter : subroutines_) {
|
|
iter.second->Dump(o << iter.first << ": ") << '\n';
|
|
}
|
|
return o;
|
|
}
|
|
|
|
llvm::raw_ostream &IntrinsicProcTable::Dump(llvm::raw_ostream &o) const {
|
|
return DEREF(impl_.get()).Dump(o);
|
|
}
|
|
|
|
// In general C846 prohibits allocatable coarrays to be passed to INTENT(OUT)
|
|
// dummy arguments. This rule does not apply to intrinsics in general.
|
|
// Some intrinsic explicitly allow coarray allocatable in their description.
|
|
// It is assumed that unless explicitly allowed for an intrinsic,
|
|
// this is forbidden.
|
|
// Since there are very few intrinsic identified that allow this, they are
|
|
// listed here instead of adding a field in the table.
|
|
bool AcceptsIntentOutAllocatableCoarray(const std::string &intrinsic) {
|
|
return intrinsic == "move_alloc";
|
|
}
|
|
} // namespace Fortran::evaluate
|