llvm-project/flang/runtime/format-implementation.h

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//===-- runtime/format-implementation.h -------------------------*- C++ -*-===//
//
// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
//
//===----------------------------------------------------------------------===//
// Implements out-of-line member functions of template class FormatControl
#ifndef FORTRAN_RUNTIME_FORMAT_IMPLEMENTATION_H_
#define FORTRAN_RUNTIME_FORMAT_IMPLEMENTATION_H_
#include "format.h"
#include "io-stmt.h"
#include "flang/Common/format.h"
#include "flang/Decimal/decimal.h"
#include "flang/Runtime/main.h"
#include <algorithm>
#include <limits>
namespace Fortran::runtime::io {
template <typename CONTEXT>
FormatControl<CONTEXT>::FormatControl(const Terminator &terminator,
const CharType *format, std::size_t formatLength, int maxHeight)
: maxHeight_{static_cast<std::uint8_t>(maxHeight)}, format_{format},
formatLength_{static_cast<int>(formatLength)} {
RUNTIME_CHECK(terminator, maxHeight == maxHeight_);
RUNTIME_CHECK(
terminator, formatLength == static_cast<std::size_t>(formatLength_));
stack_[0].start = offset_;
stack_[0].remaining = Iteration::unlimited; // 13.4(8)
}
template <typename CONTEXT>
int FormatControl<CONTEXT>::GetMaxParenthesisNesting(
IoErrorHandler &handler, const CharType *format, std::size_t formatLength) {
int maxNesting{0};
int nesting{0};
const CharType *end{format + formatLength};
std::optional<CharType> quote;
int repeat{0};
for (const CharType *p{format}; p < end; ++p) {
if (quote) {
if (*p == *quote) {
quote.reset();
}
} else if (*p >= '0' && *p <= '9') {
repeat = 10 * repeat + *p - '0';
} else if (*p != ' ') {
switch (*p) {
case '\'':
case '"':
quote = *p;
break;
case 'h':
case 'H': // 9HHOLLERITH
p += repeat;
if (p >= end) {
handler.SignalError(IostatErrorInFormat,
"Hollerith (%dH) too long in FORMAT", repeat);
return maxNesting;
}
break;
case ' ':
break;
case '(':
++nesting;
maxNesting = std::max(nesting, maxNesting);
break;
case ')':
nesting = std::max(nesting - 1, 0);
break;
}
repeat = 0;
}
}
if (quote) {
handler.SignalError(
IostatErrorInFormat, "Unbalanced quotation marks in FORMAT string");
} else if (nesting) {
handler.SignalError(
IostatErrorInFormat, "Unbalanced parentheses in FORMAT string");
}
return maxNesting;
}
template <typename CONTEXT>
int FormatControl<CONTEXT>::GetIntField(
IoErrorHandler &handler, CharType firstCh) {
CharType ch{firstCh ? firstCh : PeekNext()};
if (ch != '-' && ch != '+' && (ch < '0' || ch > '9')) {
handler.SignalError(IostatErrorInFormat,
"Invalid FORMAT: integer expected at '%c'", static_cast<char>(ch));
return 0;
}
int result{0};
bool negate{ch == '-'};
if (negate || ch == '+') {
firstCh = '\0';
ch = PeekNext();
}
while (ch >= '0' && ch <= '9') {
if (result >
std::numeric_limits<int>::max() / 10 - (static_cast<int>(ch) - '0')) {
handler.SignalError(
IostatErrorInFormat, "FORMAT integer field out of range");
return result;
}
result = 10 * result + ch - '0';
if (firstCh) {
firstCh = '\0';
} else {
++offset_;
}
ch = PeekNext();
}
if (negate && (result *= -1) > 0) {
handler.SignalError(
IostatErrorInFormat, "FORMAT integer field out of range");
}
return result;
}
template <typename CONTEXT>
static void HandleControl(CONTEXT &context, char ch, char next, int n) {
MutableModes &modes{context.mutableModes()};
switch (ch) {
case 'B':
if (next == 'Z') {
modes.editingFlags |= blankZero;
return;
}
if (next == 'N') {
modes.editingFlags &= ~blankZero;
return;
}
break;
case 'D':
if (next == 'C') {
modes.editingFlags |= decimalComma;
return;
}
if (next == 'P') {
modes.editingFlags &= ~decimalComma;
return;
}
break;
case 'P':
if (!next) {
modes.scale = n; // kP - decimal scaling by 10**k
return;
}
break;
case 'R':
switch (next) {
case 'N':
modes.round = decimal::RoundNearest;
return;
case 'Z':
modes.round = decimal::RoundToZero;
return;
case 'U':
modes.round = decimal::RoundUp;
return;
case 'D':
modes.round = decimal::RoundDown;
return;
case 'C':
modes.round = decimal::RoundCompatible;
return;
case 'P':
modes.round = executionEnvironment.defaultOutputRoundingMode;
return;
default:
break;
}
break;
case 'X':
if (!next) {
context.HandleRelativePosition(n);
return;
}
break;
case 'S':
if (next == 'P') {
modes.editingFlags |= signPlus;
return;
}
if (!next || next == 'S') {
modes.editingFlags &= ~signPlus;
return;
}
break;
case 'T': {
if (!next) { // Tn
context.HandleAbsolutePosition(n - 1); // convert 1-based to 0-based
return;
}
if (next == 'L' || next == 'R') { // TLn & TRn
context.HandleRelativePosition(next == 'L' ? -n : n);
return;
}
} break;
default:
break;
}
if (next) {
context.SignalError(IostatErrorInFormat,
"Unknown '%c%c' edit descriptor in FORMAT", ch, next);
} else {
context.SignalError(
IostatErrorInFormat, "Unknown '%c' edit descriptor in FORMAT", ch);
}
}
// Locates the next data edit descriptor in the format.
// Handles all repetition counts and control edit descriptors.
// Generally assumes that the format string has survived the common
// format validator gauntlet.
template <typename CONTEXT>
int FormatControl<CONTEXT>::CueUpNextDataEdit(Context &context, bool stop) {
int unlimitedLoopCheck{-1};
while (true) {
std::optional<int> repeat;
bool unlimited{false};
auto maybeReversionPoint{offset_};
CharType ch{GetNextChar(context)};
while (ch == ',' || ch == ':') {
// Skip commas, and don't complain if they're missing; the format
// validator does that.
if (stop && ch == ':') {
return 0;
}
ch = GetNextChar(context);
}
if (ch == '-' || ch == '+' || (ch >= '0' && ch <= '9')) {
repeat = GetIntField(context, ch);
ch = GetNextChar(context);
} else if (ch == '*') {
unlimited = true;
ch = GetNextChar(context);
if (ch != '(') {
context.SignalError(IostatErrorInFormat,
"Invalid FORMAT: '*' may appear only before '('");
return 0;
}
}
ch = Capitalize(ch);
if (ch == '(') {
if (height_ >= maxHeight_) {
context.SignalError(IostatErrorInFormat,
"FORMAT stack overflow: too many nested parentheses");
return 0;
}
stack_[height_].start = offset_ - 1; // the '('
RUNTIME_CHECK(context, format_[stack_[height_].start] == '(');
if (unlimited || height_ == 0) {
stack_[height_].remaining = Iteration::unlimited;
unlimitedLoopCheck = offset_ - 1;
} else if (repeat) {
if (*repeat <= 0) {
*repeat = 1; // error recovery
}
stack_[height_].remaining = *repeat - 1;
} else {
stack_[height_].remaining = 0;
}
if (height_ == 1) {
// Subtle point (F'2018 13.4 para 9): tha last parenthesized group
// at height 1 becomes the restart point after control reaches the
// end of the format, including its repeat count.
stack_[0].start = maybeReversionPoint - 1;
}
++height_;
} else if (height_ == 0) {
context.SignalError(IostatErrorInFormat, "FORMAT lacks initial '('");
return 0;
} else if (ch == ')') {
if (height_ == 1) {
if (stop) {
return 0; // end of FORMAT and no data items remain
}
context.AdvanceRecord(); // implied / before rightmost )
}
auto restart{stack_[height_ - 1].start + 1};
if (stack_[height_ - 1].remaining == Iteration::unlimited) {
offset_ = restart;
if (offset_ == unlimitedLoopCheck) {
context.SignalError(IostatErrorInFormat,
"Unlimited repetition in FORMAT lacks data edit descriptors");
}
} else if (stack_[height_ - 1].remaining-- > 0) {
offset_ = restart;
} else {
--height_;
}
} else if (ch == '\'' || ch == '"') {
// Quoted 'character literal'
CharType quote{ch};
auto start{offset_};
while (offset_ < formatLength_ && format_[offset_] != quote) {
++offset_;
}
if (offset_ >= formatLength_) {
context.SignalError(IostatErrorInFormat,
"FORMAT missing closing quote on character literal");
return 0;
}
++offset_;
std::size_t chars{
static_cast<std::size_t>(&format_[offset_] - &format_[start])};
if (PeekNext() == quote) {
// subtle: handle doubled quote character in a literal by including
// the first in the output, then treating the second as the start
// of another character literal.
} else {
--chars;
}
context.Emit(format_ + start, chars);
} else if (ch == 'H') {
// 9HHOLLERITH
if (!repeat || *repeat < 1 || offset_ + *repeat > formatLength_) {
context.SignalError(
IostatErrorInFormat, "Invalid width on Hollerith in FORMAT");
return 0;
}
context.Emit(format_ + offset_, static_cast<std::size_t>(*repeat));
offset_ += *repeat;
} else if (ch >= 'A' && ch <= 'Z') {
int start{offset_ - 1};
CharType next{'\0'};
if (ch != 'P') { // 1PE5.2 - comma not required (C1302)
CharType peek{Capitalize(PeekNext())};
if (peek >= 'A' && peek <= 'Z') {
next = peek;
++offset_;
}
}
if ((!next &&
(ch == 'A' || ch == 'I' || ch == 'B' || ch == 'E' || ch == 'D' ||
ch == 'O' || ch == 'Z' || ch == 'F' || ch == 'G' ||
ch == 'L')) ||
(ch == 'E' && (next == 'N' || next == 'S' || next == 'X')) ||
(ch == 'D' && next == 'T')) {
// Data edit descriptor found
offset_ = start;
return repeat && *repeat > 0 ? *repeat : 1;
} else {
// Control edit descriptor
if (ch == 'T') { // Tn, TLn, TRn
repeat = GetIntField(context);
}
HandleControl(context, static_cast<char>(ch), static_cast<char>(next),
repeat ? *repeat : 1);
}
} else if (ch == '/') {
context.AdvanceRecord(repeat && *repeat > 0 ? *repeat : 1);
} else if (ch == '$' || ch == '\\') {
context.mutableModes().nonAdvancing = true;
} else {
context.SignalError(IostatErrorInFormat,
"Invalid character '%c' in FORMAT", static_cast<char>(ch));
return 0;
}
}
}
// Returns the next data edit descriptor
template <typename CONTEXT>
DataEdit FormatControl<CONTEXT>::GetNextDataEdit(
Context &context, int maxRepeat) {
int repeat{CueUpNextDataEdit(context)};
auto start{offset_};
DataEdit edit;
edit.descriptor = static_cast<char>(Capitalize(GetNextChar(context)));
if (edit.descriptor == 'E') {
if (auto next{static_cast<char>(Capitalize(PeekNext()))};
next == 'N' || next == 'S' || next == 'X') {
edit.variation = next;
++offset_;
}
} else if (edit.descriptor == 'D' && Capitalize(PeekNext()) == 'T') {
// DT'iotype'(v_list) user-defined derived type I/O
edit.descriptor = DataEdit::DefinedDerivedType;
++offset_;
if (auto quote{static_cast<char>(PeekNext())};
quote == '\'' || quote == '"') {
// Capture the quoted 'iotype'
bool ok{false}, tooLong{false};
for (++offset_; offset_ < formatLength_;) {
auto ch{static_cast<char>(format_[offset_++])};
if (ch == quote &&
(offset_ == formatLength_ ||
static_cast<char>(format_[offset_]) != quote)) {
ok = true;
break; // that was terminating quote
} else if (edit.ioTypeChars >= edit.maxIoTypeChars) {
tooLong = true;
} else {
edit.ioType[edit.ioTypeChars++] = ch;
if (ch == quote) {
++offset_;
}
}
}
if (!ok) {
context.SignalError(
IostatErrorInFormat, "Unclosed DT'iotype' in FORMAT");
} else if (tooLong) {
context.SignalError(
IostatErrorInFormat, "Excessive DT'iotype' in FORMAT");
}
}
if (PeekNext() == '(') {
// Capture the v_list arguments
bool ok{false}, tooLong{false};
for (++offset_; offset_ < formatLength_;) {
int n{GetIntField(context)};
if (edit.vListEntries >= edit.maxVListEntries) {
tooLong = true;
} else {
edit.vList[edit.vListEntries++] = n;
}
auto ch{static_cast<char>(GetNextChar(context))};
if (ch != ',') {
ok = ch == ')';
break;
}
}
if (!ok) {
context.SignalError(
IostatErrorInFormat, "Unclosed DT(v_list) in FORMAT");
} else if (tooLong) {
context.SignalError(
IostatErrorInFormat, "Excessive DT(v_list) in FORMAT");
}
}
}
if (edit.descriptor == 'A') { // width is optional for A[w]
auto ch{PeekNext()};
if (ch >= '0' && ch <= '9') {
edit.width = GetIntField(context);
}
} else if (edit.descriptor != DataEdit::DefinedDerivedType) {
edit.width = GetIntField(context);
}
if (edit.descriptor != DataEdit::DefinedDerivedType && PeekNext() == '.') {
++offset_;
edit.digits = GetIntField(context);
CharType ch{PeekNext()};
if (ch == 'e' || ch == 'E' || ch == 'd' || ch == 'D') {
++offset_;
edit.expoDigits = GetIntField(context);
}
}
edit.modes = context.mutableModes();
// Handle repeated nonparenthesized edit descriptors
if (repeat > maxRepeat) {
stack_[height_].start = start; // after repeat count
stack_[height_].remaining = repeat; // full count
++height_;
}
edit.repeat = std::min(1, maxRepeat); // 0 if maxRepeat==0
if (height_ > 1) { // Subtle: stack_[0].start doesn't necessarily point to '('
int start{stack_[height_ - 1].start};
if (format_[start] != '(') {
if (stack_[height_ - 1].remaining > maxRepeat) {
edit.repeat = maxRepeat;
stack_[height_ - 1].remaining -= maxRepeat;
offset_ = start; // repeat same edit descriptor next time
} else {
edit.repeat = stack_[height_ - 1].remaining;
--height_;
}
}
}
return edit;
}
template <typename CONTEXT>
void FormatControl<CONTEXT>::Finish(Context &context) {
CueUpNextDataEdit(context, true /* stop at colon or end of FORMAT */);
}
} // namespace Fortran::runtime::io
#endif // FORTRAN_RUNTIME_FORMAT_IMPLEMENTATION_H_