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153 lines
6.4 KiB
Markdown
153 lines
6.4 KiB
Markdown
<!--===- docs/Character.md
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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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# Implementation of `CHARACTER` types in f18
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```eval_rst
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.. contents::
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:local:
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```
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## Kinds and Character Sets
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The f18 compiler and runtime support three kinds of the intrinsic
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`CHARACTER` type of Fortran 2018.
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The default (`CHARACTER(KIND=1)`) holds 8-bit character codes;
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`CHARACTER(KIND=2)` holds 16-bit character codes;
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and `CHARACTER(KIND=4)` holds 32-bit character codes.
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We assume that code values 0 through 127 correspond to
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the 7-bit ASCII character set (ISO-646) in every kind of `CHARACTER`.
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This is a valid assumption for Unicode (UCS == ISO/IEC-10646),
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ISO-8859, and many legacy character sets and interchange formats.
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`CHARACTER` data in memory and unformatted files are not in an
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interchange representation (like UTF-8, Shift-JIS, EUC-JP, or a JIS X).
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Each character's code in memory occupies a 1-, 2-, or 4- byte
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word and substrings can be indexed with simple arithmetic.
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In formatted I/O, however, `CHARACTER` data may be assumed to use
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the UTF-8 variable-length encoding when it is selected with
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`OPEN(ENCODING='UTF-8')`.
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`CHARACTER(KIND=1)` literal constants in Fortran source files,
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Hollerith constants, and formatted I/O with `ENCODING='DEFAULT'`
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are not translated.
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For the purposes of non-default-kind `CHARACTER` constants in Fortran
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source files, formatted I/O with `ENCODING='UTF-8'` or non-default-kind
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`CHARACTER` value, and conversions between kinds of `CHARACTER`,
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by default:
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* `CHARACTER(KIND=1)` is assumed to be ISO-8859-1 (Latin-1),
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* `CHARACTER(KIND=2)` is assumed to be UCS-2 (16-bit Unicode), and
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* `CHARACTER(KIND=4)` is assumed to be UCS-4 (full Unicode in a 32-bit word).
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In particular, conversions between kinds are assumed to be
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simple zero-extensions or truncation, not table look-ups.
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We might want to support one or more environment variables to change these
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assumptions, especially for `KIND=1` users of ISO-8859 character sets
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besides Latin-1.
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## Lengths
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Allocatable `CHARACTER` objects in Fortran may defer the specification
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of their lengths until the time of their allocation or whole (non-substring)
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assignment.
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Non-allocatable objects (and non-deferred-length allocatables) have
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lengths that are fixed or assumed from an actual argument, or,
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in the case of assumed-length `CHARACTER` functions, their local
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declaration in the calling scope.
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The elements of `CHARACTER` arrays have the same length.
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Assignments to targets that are not deferred-length allocatables will
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truncate or pad the assigned value to the length of the left-hand side
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of the assignment.
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Lengths and offsets that are used by or exposed to Fortran programs via
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declarations, substring bounds, and the `LEN()` intrinsic function are always
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represented in units of characters, not bytes.
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In generated code, assumed-length arguments, the runtime support library,
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and in the `elem_len` field of the interoperable descriptor `cdesc_t`,
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lengths are always in units of bytes.
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The distinction matters only for kinds other than the default.
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Fortran substrings are rather like subscript triplets into a hidden
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"zero" dimension of a scalar `CHARACTER` value, but they cannot have
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strides.
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## Concatenation
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Fortran has one `CHARACTER`-valued intrinsic operator, `//`, which
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concatenates its operands (10.1.5.3).
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The operands must have the same kind type parameter.
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One or both of the operands may be arrays; if both are arrays, their
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shapes must be identical.
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The effective length of the result is the sum of the lengths of the
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operands.
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Parentheses may be ignored, so any `CHARACTER`-valued expression
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may be "flattened" into a single sequence of concatenations.
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The result of `//` may be used
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* as an operand to another concatenation,
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* as an operand of a `CHARACTER` relation,
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* as an actual argument,
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* as the right-hand side of an assignment,
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* as the `SOURCE=` or `MOLD=` of an `ALLOCATE` statemnt,
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* as the selector or case-expr of an `ASSOCIATE` or `SELECT` construct,
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* as a component of a structure or array constructor,
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* as the value of a named constant or initializer,
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* as the `NAME=` of a `BIND(C)` attribute,
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* as the stop-code of a `STOP` statement,
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* as the value of a specifier of an I/O statement,
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* or as the value of a statement function.
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The f18 compiler has a general (but slow) means of implementing concatenation
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and a specialized (fast) option to optimize the most common case.
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### General concatenation
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In the most general case, the f18 compiler's generated code and
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runtime support library represent the result as a deferred-length allocatable
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`CHARACTER` temporary scalar or array variable that is initialized
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as a zero-length array by `AllocatableInitCharacter()`
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and then progressively augmented in place by the values of each of the
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operands of the concatenation sequence in turn with calls to
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`CharacterConcatenate()`.
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Conformability errors are fatal -- Fortran has no means by which a program
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may recover from them.
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The result is then used as any other deferred-length allocatable
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array or scalar would be, and finally deallocated like any other
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allocatable.
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The runtime routine `CharacterAssign()` takes care of
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truncating, padding, or replicating the value(s) assigned to the left-hand
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side, as well as reallocating an nonconforming or deferred-length allocatable
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left-hand side. It takes the descriptors of the left- and right-hand sides of
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a `CHARACTER` assignemnt as its arguments.
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When the left-hand side of a `CHARACTER` assignment is a deferred-length
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allocatable and the right-hand side is a temporary, use of the runtime's
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`MoveAlloc()` subroutine instead can save an allocation and a copy.
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### Optimized concatenation
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Scalar `CHARACTER(KIND=1)` expressions evaluated as the right-hand sides of
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assignments to independent substrings or whole variables that are not
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deferred-length allocatables can be optimized into a sequence of
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calls to the runtime support library that do not allocate temporary
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memory.
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The routine `CharacterAppend()` copies data from the right-hand side value
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to the remaining space, if any, in the left-hand side object, and returns
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the new offset of the reduced remaining space.
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It is essentially `memcpy(lhs + offset, rhs, min(lhsLength - offset, rhsLength))`.
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It does nothing when `offset > lhsLength`.
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`void CharacterPad()`adds any necessary trailing blank characters.
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