Allow internal I/O to support non-default kinds of CHARACTER. The I/O runtime design anticipated this standard feature, but this patch is somewhat larger than I thought it would be because many code sites had to have assumptions about units (characters vs. bytes) brought into harmony, and some encoding utilities had to be pulled out of IoStatementState and templatized into their own new header file so that they are available to formatted output code without having to "thread" an IoStatementState reference through many call chains. Differential Revision: https://reviews.llvm.org/D131107
189 lines
6.5 KiB
C++
189 lines
6.5 KiB
C++
//===-- runtime/format.h ----------------------------------------*- C++ -*-===//
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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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// FORMAT string processing
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#ifndef FORTRAN_RUNTIME_FORMAT_H_
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#define FORTRAN_RUNTIME_FORMAT_H_
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#include "environment.h"
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#include "io-error.h"
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#include "flang/Common/Fortran.h"
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#include "flang/Decimal/decimal.h"
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#include <cinttypes>
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#include <optional>
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namespace Fortran::runtime::io {
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class IoStatementState;
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enum EditingFlags {
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blankZero = 1, // BLANK=ZERO or BZ edit
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decimalComma = 2, // DECIMAL=COMMA or DC edit
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signPlus = 4, // SIGN=PLUS or SP edit
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};
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struct MutableModes {
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std::uint8_t editingFlags{0}; // BN, DP, SS
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enum decimal::FortranRounding round{
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executionEnvironment
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.defaultOutputRoundingMode}; // RP/ROUND='PROCESSOR_DEFAULT'
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bool pad{true}; // PAD= mode on READ
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char delim{'\0'}; // DELIM=
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short scale{0}; // kP
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bool inNamelist{false}; // skip ! comments
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bool nonAdvancing{false}; // ADVANCE='NO', or $ or \ in FORMAT
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};
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// A single edit descriptor extracted from a FORMAT
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struct DataEdit {
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char descriptor; // capitalized: one of A, I, B, O, Z, F, E(N/S/X), D, G
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// Special internal data edit descriptors for list-directed & NAMELIST I/O
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static constexpr char ListDirected{'g'}; // non-COMPLEX list-directed
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static constexpr char ListDirectedRealPart{'r'}; // emit "(r," or "(r;"
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static constexpr char ListDirectedImaginaryPart{'z'}; // emit "z)"
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static constexpr char ListDirectedNullValue{'n'}; // see 13.10.3.2
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constexpr bool IsListDirected() const {
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return descriptor == ListDirected || descriptor == ListDirectedRealPart ||
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descriptor == ListDirectedImaginaryPart;
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}
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constexpr bool IsNamelist() const {
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return IsListDirected() && modes.inNamelist;
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}
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static constexpr char DefinedDerivedType{'d'}; // DT user-defined derived type
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char variation{'\0'}; // N, S, or X for EN, ES, EX
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std::optional<int> width; // the 'w' field; optional for A
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std::optional<int> digits; // the 'm' or 'd' field
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std::optional<int> expoDigits; // 'Ee' field
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MutableModes modes;
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int repeat{1};
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// "iotype" &/or "v_list" values for a DT'iotype'(v_list)
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// user-defined derived type data edit descriptor
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static constexpr std::size_t maxIoTypeChars{32};
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static constexpr std::size_t maxVListEntries{4};
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std::uint8_t ioTypeChars{0};
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std::uint8_t vListEntries{0};
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char ioType[maxIoTypeChars];
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int vList[maxVListEntries];
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};
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// Generates a sequence of DataEdits from a FORMAT statement or
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// default-CHARACTER string. Driven by I/O item list processing.
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// Errors are fatal. See subclause 13.4 in Fortran 2018 for background.
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template <typename CONTEXT> class FormatControl {
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public:
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using Context = CONTEXT;
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using CharType = char; // formats are always default kind CHARACTER
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FormatControl() {}
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FormatControl(const Terminator &, const CharType *format,
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std::size_t formatLength, int maxHeight = maxMaxHeight);
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// For attempting to allocate in a user-supplied stack area
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static std::size_t GetNeededSize(int maxHeight) {
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return sizeof(FormatControl) -
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sizeof(Iteration) * (maxMaxHeight - maxHeight);
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}
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// Extracts the next data edit descriptor, handling control edit descriptors
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// along the way. If maxRepeat==0, this is a peek at the next data edit
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// descriptor.
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DataEdit GetNextDataEdit(Context &, int maxRepeat = 1);
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// Emit any remaining character literals after the last data item (on output)
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// and perform remaining record positioning actions.
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void Finish(Context &);
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private:
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static constexpr std::uint8_t maxMaxHeight{100};
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struct Iteration {
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static constexpr int unlimited{-1};
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int start{0}; // offset in format_ of '(' or a repeated edit descriptor
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int remaining{0}; // while >0, decrement and iterate
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};
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void SkipBlanks() {
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while (offset_ < formatLength_ &&
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(format_[offset_] == ' ' || format_[offset_] == '\t' ||
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format_[offset_] == '\v')) {
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++offset_;
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}
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}
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CharType PeekNext() {
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SkipBlanks();
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return offset_ < formatLength_ ? format_[offset_] : '\0';
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}
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CharType GetNextChar(IoErrorHandler &handler) {
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SkipBlanks();
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if (offset_ >= formatLength_) {
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if (formatLength_ == 0) {
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handler.SignalError(
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IostatErrorInFormat, "Empty or badly assigned FORMAT");
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} else {
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handler.SignalError(
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IostatErrorInFormat, "FORMAT missing at least one ')'");
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}
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return '\n';
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}
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return format_[offset_++];
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}
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int GetIntField(IoErrorHandler &, CharType firstCh = '\0');
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// Advances through the FORMAT until the next data edit
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// descriptor has been found; handles control edit descriptors
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// along the way. Returns the repeat count that appeared
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// before the descriptor (defaulting to 1) and leaves offset_
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// pointing to the data edit.
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int CueUpNextDataEdit(Context &, bool stop = false);
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static constexpr CharType Capitalize(CharType ch) {
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return ch >= 'a' && ch <= 'z' ? ch + 'A' - 'a' : ch;
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}
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void ReportBadFormat(Context &context, const char *msg, int offset) const {
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if constexpr (std::is_same_v<CharType, char>) {
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// Echo the bad format in the error message, but trim any leading or
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// trailing spaces.
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int firstNonBlank{0};
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while (firstNonBlank < formatLength_ && format_[firstNonBlank] == ' ') {
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++firstNonBlank;
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}
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int lastNonBlank{formatLength_ - 1};
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while (lastNonBlank > firstNonBlank && format_[lastNonBlank] == ' ') {
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--lastNonBlank;
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}
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if (firstNonBlank <= lastNonBlank) {
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context.SignalError(IostatErrorInFormat,
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"%s; at offset %d in format '%.*s'", msg, offset,
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lastNonBlank - firstNonBlank + 1, format_ + firstNonBlank);
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return;
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}
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}
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context.SignalError(IostatErrorInFormat, "%s; at offset %d", msg, offset);
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}
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// Data members are arranged and typed so as to reduce size.
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// This structure may be allocated in stack space loaned by the
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// user program for internal I/O.
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const std::uint8_t maxHeight_{maxMaxHeight};
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std::uint8_t height_{0};
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const CharType *format_{nullptr};
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int formatLength_{0};
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int offset_{0}; // next item is at format_[offset_]
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// must be last, may be incomplete
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Iteration stack_[maxMaxHeight];
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};
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} // namespace Fortran::runtime::io
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#endif // FORTRAN_RUNTIME_FORMAT_H_
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