blob: 70ff228a39015a75f0020881dd8971de05c82fc4 [file] [log] [blame]
// Copyright 2013 The Flutter Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
import 'dart:async';
import 'dart:io';
import 'dart:math' as math;
import 'dart:math';
import 'package:intl/intl.dart';
import 'package:meta/meta.dart';
import 'common.dart';
import 'io.dart';
import 'terminal.dart' show OutputPreferences, Terminal, TerminalColor;
const int kDefaultStatusPadding = 59;
final NumberFormat kSecondsFormat = NumberFormat('0.0');
final NumberFormat kMillisecondsFormat = NumberFormat.decimalPattern();
/// Smallest column that will be used for text wrapping. If the requested column
/// width is smaller than this, then this is what will be used.
const int kMinColumnWidth = 10;
/// A factory for generating [Stopwatch] instances for [Status] instances.
class StopwatchFactory {
/// const constructor so that subclasses may be const.
const StopwatchFactory();
/// Create a new [Stopwatch] instance.
///
/// The optional [name] parameter is useful in tests when there are multiple
/// instances being created.
Stopwatch createStopwatch([String name = '']) => Stopwatch();
}
typedef VoidCallback = void Function();
abstract class Logger {
/// Whether or not this logger should print [printTrace] messages.
bool get isVerbose => false;
/// If true, silences the logger output.
bool quiet = false;
/// If true, this logger supports color output.
bool get supportsColor;
/// If true, this logger is connected to a terminal.
bool get hasTerminal;
/// If true, then [printError] has been called at least once for this logger
/// since the last time it was set to false.
bool hadErrorOutput = false;
/// If true, then [printWarning] has been called at least once for this logger
/// since the last time it was reset to false.
bool hadWarningOutput = false;
/// Causes [checkForFatalLogs] to call [throwToolExit] when it is called if
/// [hadWarningOutput] is true.
bool fatalWarnings = false;
/// Returns the terminal attached to this logger.
Terminal get terminal;
/// Display an error `message` to the user. Commands should use this if they
/// fail in some way. Errors are typically followed shortly by a call to
/// [throwToolExit] to terminate the run.
///
/// The `message` argument is printed to the stderr in [TerminalColor.red] by
/// default.
///
/// The `stackTrace` argument is the stack trace that will be printed if
/// supplied.
///
/// The `emphasis` argument will cause the output message be printed in bold text.
///
/// The `color` argument will print the message in the supplied color instead
/// of the default of red. Colors will not be printed if the output terminal
/// doesn't support them.
///
/// The `indent` argument specifies the number of spaces to indent the overall
/// message. If wrapping is enabled in [outputPreferences], then the wrapped
/// lines will be indented as well.
///
/// If `hangingIndent` is specified, then any wrapped lines will be indented
/// by this much more than the first line, if wrapping is enabled in
/// [outputPreferences].
///
/// If `wrap` is specified, then it overrides the
/// `outputPreferences.wrapText` setting.
void printError(
String message, {
StackTrace? stackTrace,
bool? emphasis,
TerminalColor? color,
int? indent,
int? hangingIndent,
bool? wrap,
});
/// Display a warning `message` to the user. Commands should use this if they
/// important information to convey to the user that is not fatal.
///
/// The `message` argument is printed to the stderr in [TerminalColor.cyan] by
/// default.
///
/// The `emphasis` argument will cause the output message be printed in bold text.
///
/// The `color` argument will print the message in the supplied color instead
/// of the default of cyan. Colors will not be printed if the output terminal
/// doesn't support them.
///
/// The `indent` argument specifies the number of spaces to indent the overall
/// message. If wrapping is enabled in [outputPreferences], then the wrapped
/// lines will be indented as well.
///
/// If `hangingIndent` is specified, then any wrapped lines will be indented
/// by this much more than the first line, if wrapping is enabled in
/// [outputPreferences].
///
/// If `wrap` is specified, then it overrides the
/// `outputPreferences.wrapText` setting.
void printWarning(
String message, {
bool? emphasis,
TerminalColor? color,
int? indent,
int? hangingIndent,
bool? wrap,
});
/// Display normal output of the command. This should be used for things like
/// progress messages, success messages, or just normal command output.
///
/// The `message` argument is printed to the stdout.
///
/// The `stackTrace` argument is the stack trace that will be printed if
/// supplied.
///
/// If the `emphasis` argument is true, it will cause the output message be
/// printed in bold text. Defaults to false.
///
/// The `color` argument will print the message in the supplied color instead
/// of the default of red. Colors will not be printed if the output terminal
/// doesn't support them.
///
/// If `newline` is true, then a newline will be added after printing the
/// status. Defaults to true.
///
/// The `indent` argument specifies the number of spaces to indent the overall
/// message. If wrapping is enabled in [outputPreferences], then the wrapped
/// lines will be indented as well.
///
/// If `hangingIndent` is specified, then any wrapped lines will be indented
/// by this much more than the first line, if wrapping is enabled in
/// [outputPreferences].
///
/// If `wrap` is specified, then it overrides the
/// `outputPreferences.wrapText` setting.
void printStatus(
String message, {
bool? emphasis,
TerminalColor? color,
bool? newline,
int? indent,
int? hangingIndent,
bool? wrap,
});
/// Display the [message] inside a box.
///
/// For example, this is the generated output:
///
/// ┌─ [title] ─┐
/// │ [message] │
/// └───────────┘
///
/// If a terminal is attached, the lines in [message] are automatically wrapped based on
/// the available columns.
///
/// Use this utility only to highlight a message in the logs.
///
/// This is particularly useful when the message can be easily missed because of clutter
/// generated by other commands invoked by the tool.
///
/// One common use case is to provide actionable steps in a Flutter app when a Gradle
/// error is printed.
///
/// In the future, this output can be integrated with an IDE like VS Code to display a
/// notification, and allow the user to trigger an action. e.g. run a migration.
void printBox(
String message, {
String? title,
});
/// Use this for verbose tracing output. Users can turn this output on in order
/// to help diagnose issues with the toolchain or with their setup.
void printTrace(String message);
/// Start an indeterminate progress display.
///
/// The `message` argument is the message to display to the user.
///
/// The `progressId` argument provides an ID that can be used to identify
/// this type of progress (e.g. `hot.reload`, `hot.restart`).
///
/// The `progressIndicatorPadding` can optionally be used to specify the width
/// of the space into which the `message` is placed before the progress
/// indicator, if any. It is ignored if the message is longer.
Status startProgress(
String message, {
String? progressId,
int progressIndicatorPadding = kDefaultStatusPadding,
});
/// A [SilentStatus] or an [AnonymousSpinnerStatus] (depending on whether the
/// terminal is fancy enough), already started.
Status startSpinner({
VoidCallback? onFinish,
Duration? timeout,
SlowWarningCallback? slowWarningCallback,
});
/// Clears all output.
void clear();
/// If [fatalWarnings] is set, causes the logger to check if
/// [hadWarningOutput] is true, and then to call [throwToolExit] if so.
///
/// The [fatalWarnings] flag can be set from the command line with the
/// "--fatal-warnings" option on commands that support it.
void checkForFatalLogs() {
if (fatalWarnings && (hadWarningOutput || hadErrorOutput)) {
throwToolExit(
'Logger received ${hadErrorOutput ? 'error' : 'warning'} output '
'during the run, and "--fatal-warnings" is enabled.');
}
}
}
class StdoutLogger extends Logger {
StdoutLogger({
required this.terminal,
required Stdio stdio,
required OutputPreferences outputPreferences,
StopwatchFactory stopwatchFactory = const StopwatchFactory(),
}) : _stdio = stdio,
_outputPreferences = outputPreferences,
_stopwatchFactory = stopwatchFactory;
@override
final Terminal terminal;
final OutputPreferences _outputPreferences;
final Stdio _stdio;
final StopwatchFactory _stopwatchFactory;
Status? _status;
@override
bool get isVerbose => false;
@override
bool get supportsColor => terminal.supportsColor;
@override
bool get hasTerminal => _stdio.stdinHasTerminal;
@override
void printError(
String message, {
StackTrace? stackTrace,
bool? emphasis,
TerminalColor? color,
int? indent,
int? hangingIndent,
bool? wrap,
}) {
hadErrorOutput = true;
_status?.pause();
message = wrapText(
message,
indent: indent,
hangingIndent: hangingIndent,
shouldWrap: wrap ?? _outputPreferences.wrapText,
columnWidth: _outputPreferences.wrapColumn,
);
if (emphasis ?? false) {
message = terminal.bolden(message);
}
message = terminal.color(message, color ?? TerminalColor.red);
writeToStdErr('$message\n');
if (stackTrace != null) {
writeToStdErr('$stackTrace\n');
}
_status?.resume();
}
@override
void printWarning(
String message, {
bool? emphasis,
TerminalColor? color,
int? indent,
int? hangingIndent,
bool? wrap,
}) {
hadWarningOutput = true;
_status?.pause();
message = wrapText(
message,
indent: indent,
hangingIndent: hangingIndent,
shouldWrap: wrap ?? _outputPreferences.wrapText,
columnWidth: _outputPreferences.wrapColumn,
);
if (emphasis ?? false) {
message = terminal.bolden(message);
}
message = terminal.color(message, color ?? TerminalColor.cyan);
writeToStdErr('$message\n');
_status?.resume();
}
@override
void printStatus(
String message, {
bool? emphasis,
TerminalColor? color,
bool? newline,
int? indent,
int? hangingIndent,
bool? wrap,
}) {
_status?.pause();
message = wrapText(
message,
indent: indent,
hangingIndent: hangingIndent,
shouldWrap: wrap ?? _outputPreferences.wrapText,
columnWidth: _outputPreferences.wrapColumn,
);
if (emphasis ?? false) {
message = terminal.bolden(message);
}
if (color != null) {
message = terminal.color(message, color);
}
if (newline ?? true) {
message = '$message\n';
}
writeToStdOut(message);
_status?.resume();
}
@override
void printBox(
String message, {
String? title,
}) {
_status?.pause();
_generateBox(
title: title,
message: message,
wrapColumn: _outputPreferences.wrapColumn,
terminal: terminal,
write: writeToStdOut,
);
_status?.resume();
}
@protected
void writeToStdOut(String message) => _stdio.stdoutWrite(message);
@protected
void writeToStdErr(String message) => _stdio.stderrWrite(message);
@override
void printTrace(String message) {}
@override
Status startProgress(
String message, {
String? progressId,
int progressIndicatorPadding = kDefaultStatusPadding,
}) {
if (_status != null) {
// Ignore nested progresses; return a no-op status object.
return SilentStatus(
stopwatch: _stopwatchFactory.createStopwatch(),
)..start();
}
if (supportsColor) {
_status = SpinnerStatus(
message: message,
padding: progressIndicatorPadding,
onFinish: _clearStatus,
stdio: _stdio,
stopwatch: _stopwatchFactory.createStopwatch(),
terminal: terminal,
)..start();
} else {
_status = SummaryStatus(
message: message,
padding: progressIndicatorPadding,
onFinish: _clearStatus,
stdio: _stdio,
stopwatch: _stopwatchFactory.createStopwatch(),
)..start();
}
return _status!;
}
@override
Status startSpinner({
VoidCallback? onFinish,
Duration? timeout,
SlowWarningCallback? slowWarningCallback,
}) {
if (_status != null || !supportsColor) {
return SilentStatus(
onFinish: onFinish,
stopwatch: _stopwatchFactory.createStopwatch(),
)..start();
}
_status = AnonymousSpinnerStatus(
onFinish: () {
if (onFinish != null) {
onFinish();
}
_clearStatus();
},
stdio: _stdio,
stopwatch: _stopwatchFactory.createStopwatch(),
terminal: terminal,
timeout: timeout,
slowWarningCallback: slowWarningCallback,
)..start();
return _status!;
}
void _clearStatus() {
_status = null;
}
@override
void clear() {
_status?.pause();
writeToStdOut('${terminal.clearScreen()}\n');
_status?.resume();
}
}
/// A [StdoutLogger] which replaces Unicode characters that cannot be printed to
/// the Windows console with alternative symbols.
///
/// By default, Windows uses either "Consolas" or "Lucida Console" as fonts to
/// render text in the console. Both fonts only have a limited character set.
/// Unicode characters, that are not available in either of the two default
/// fonts, should be replaced by this class with printable symbols. Otherwise,
/// they will show up as the unrepresentable character symbol '�'.
class WindowsStdoutLogger extends StdoutLogger {
WindowsStdoutLogger({
required super.terminal,
required super.stdio,
required super.outputPreferences,
super.stopwatchFactory,
});
@override
void writeToStdOut(String message) {
final String windowsMessage = terminal.supportsEmoji
? message
: message
.replaceAll('🔥', '')
.replaceAll('🖼️', '')
.replaceAll('✗', 'X')
.replaceAll('✓', '√')
.replaceAll('🔨', '')
.replaceAll('💪', '')
.replaceAll('⚠️', '!')
.replaceAll('✏️', '');
_stdio.stdoutWrite(windowsMessage);
}
}
typedef _Writter = void Function(String message);
/// Wraps the message in a box, and writes the bytes by calling [write].
///
/// Example output:
///
/// ┌─ [title] ─┐
/// │ [message] │
/// └───────────┘
///
/// When [title] is provided, the box will have a title above it.
///
/// The box width never exceeds [wrapColumn].
///
/// If [wrapColumn] is not provided, the default value is 100.
void _generateBox({
required String message,
required int wrapColumn,
required _Writter write,
required Terminal terminal,
String? title,
}) {
const int kPaddingLeftRight = 1;
const int kEdges = 2;
final int maxTextWidthPerLine = wrapColumn - kEdges - kPaddingLeftRight * 2;
final List<String> lines =
wrapText(message, shouldWrap: true, columnWidth: maxTextWidthPerLine)
.split('\n');
final List<int> lineWidth =
lines.map((String line) => _getColumnSize(line)).toList();
final int maxColumnSize =
lineWidth.reduce((int currLen, int maxLen) => max(currLen, maxLen));
final int textWidth = min(maxColumnSize, maxTextWidthPerLine);
final int textWithPaddingWidth = textWidth + kPaddingLeftRight * 2;
write('\n');
// Write `┌─ [title] ─┐`.
write('┌');
write('─');
if (title == null) {
write('─' * (textWithPaddingWidth - 1));
} else {
write(' ${terminal.bolden(title)} ');
write('─' * (textWithPaddingWidth - title.length - 3));
}
write('┐');
write('\n');
// Write `│ [message] │`.
for (int lineIdx = 0; lineIdx < lines.length; lineIdx++) {
write('│');
write(' ' * kPaddingLeftRight);
write(lines[lineIdx]);
final int remainingSpacesToEnd = textWidth - lineWidth[lineIdx];
write(' ' * (remainingSpacesToEnd + kPaddingLeftRight));
write('│');
write('\n');
}
// Write `└───────────┘`.
write('└');
write('─' * textWithPaddingWidth);
write('┘');
write('\n');
}
final RegExp _ansiEscapePattern =
RegExp('\x1B\\[[\x30-\x3F]*[\x20-\x2F]*[\x40-\x7E]');
int _getColumnSize(String line) {
// Remove ANSI escape characters from the string.
return line.replaceAll(_ansiEscapePattern, '').length;
}
class BufferLogger extends Logger {
BufferLogger({
required this.terminal,
required OutputPreferences outputPreferences,
StopwatchFactory stopwatchFactory = const StopwatchFactory(),
bool verbose = false,
}) : _outputPreferences = outputPreferences,
_stopwatchFactory = stopwatchFactory,
_verbose = verbose;
/// Create a [BufferLogger] with test preferences.
BufferLogger.test({
Terminal? terminal,
OutputPreferences? outputPreferences,
bool verbose = false,
}) : terminal = terminal ?? Terminal.test(),
_outputPreferences = outputPreferences ?? OutputPreferences.test(),
_stopwatchFactory = const StopwatchFactory(),
_verbose = verbose;
final OutputPreferences _outputPreferences;
@override
final Terminal terminal;
final StopwatchFactory _stopwatchFactory;
final bool _verbose;
@override
bool get isVerbose => _verbose;
@override
bool get supportsColor => terminal.supportsColor;
final StringBuffer _error = StringBuffer();
final StringBuffer _warning = StringBuffer();
final StringBuffer _status = StringBuffer();
final StringBuffer _trace = StringBuffer();
final StringBuffer _events = StringBuffer();
String get errorText => _error.toString();
String get warningText => _warning.toString();
String get statusText => _status.toString();
String get traceText => _trace.toString();
String get eventText => _events.toString();
@override
bool get hasTerminal => false;
@override
void printError(
String message, {
StackTrace? stackTrace,
bool? emphasis,
TerminalColor? color,
int? indent,
int? hangingIndent,
bool? wrap,
}) {
hadErrorOutput = true;
_error.writeln(terminal.color(
wrapText(
message,
indent: indent,
hangingIndent: hangingIndent,
shouldWrap: wrap ?? _outputPreferences.wrapText,
columnWidth: _outputPreferences.wrapColumn,
),
color ?? TerminalColor.red,
));
}
@override
void printWarning(
String message, {
bool? emphasis,
TerminalColor? color,
int? indent,
int? hangingIndent,
bool? wrap,
}) {
hadWarningOutput = true;
_warning.writeln(terminal.color(
wrapText(
message,
indent: indent,
hangingIndent: hangingIndent,
shouldWrap: wrap ?? _outputPreferences.wrapText,
columnWidth: _outputPreferences.wrapColumn,
),
color ?? TerminalColor.cyan,
));
}
@override
void printStatus(
String message, {
bool? emphasis,
TerminalColor? color,
bool? newline,
int? indent,
int? hangingIndent,
bool? wrap,
}) {
if (newline ?? true) {
_status.writeln(wrapText(
message,
indent: indent,
hangingIndent: hangingIndent,
shouldWrap: wrap ?? _outputPreferences.wrapText,
columnWidth: _outputPreferences.wrapColumn,
));
} else {
_status.write(wrapText(
message,
indent: indent,
hangingIndent: hangingIndent,
shouldWrap: wrap ?? _outputPreferences.wrapText,
columnWidth: _outputPreferences.wrapColumn,
));
}
}
@override
void printBox(
String message, {
String? title,
}) {
_generateBox(
title: title,
message: message,
wrapColumn: _outputPreferences.wrapColumn,
terminal: terminal,
write: _status.write,
);
}
@override
void printTrace(String message) => _trace.writeln(message);
@override
Status startProgress(
String message, {
String? progressId,
int progressIndicatorPadding = kDefaultStatusPadding,
}) {
printStatus(message);
return SilentStatus(
stopwatch: _stopwatchFactory.createStopwatch(),
)..start();
}
@override
Status startSpinner({
VoidCallback? onFinish,
Duration? timeout,
SlowWarningCallback? slowWarningCallback,
}) {
return SilentStatus(
stopwatch: _stopwatchFactory.createStopwatch(),
onFinish: onFinish,
)..start();
}
@override
void clear() {
_error.clear();
_status.clear();
_trace.clear();
_events.clear();
}
}
typedef SlowWarningCallback = String Function();
/// A [Status] class begins when start is called, and may produce progress
/// information asynchronously.
///
/// The [SilentStatus] class never has any output.
///
/// The [SpinnerStatus] subclass shows a message with a spinner, and replaces it
/// with timing information when stopped. When canceled, the information isn't
/// shown. In either case, a newline is printed.
///
/// The [AnonymousSpinnerStatus] subclass just shows a spinner.
///
/// The [SummaryStatus] subclass shows only a static message (without an
/// indicator), then updates it when the operation ends.
///
/// Generally, consider `logger.startProgress` instead of directly creating
/// a [Status] or one of its subclasses.
abstract class Status {
Status({
this.onFinish,
required Stopwatch stopwatch,
this.timeout,
}) : _stopwatch = stopwatch;
final VoidCallback? onFinish;
final Duration? timeout;
@protected
final Stopwatch _stopwatch;
@protected
String get elapsedTime {
if (_stopwatch.elapsed.inSeconds > 2) {
return _getElapsedAsSeconds(_stopwatch.elapsed);
}
return _getElapsedAsMilliseconds(_stopwatch.elapsed);
}
String _getElapsedAsSeconds(Duration duration) {
final double seconds =
duration.inMilliseconds / Duration.millisecondsPerSecond;
return '${kSecondsFormat.format(seconds)}s';
}
String _getElapsedAsMilliseconds(Duration duration) {
return '${kMillisecondsFormat.format(duration.inMilliseconds)}ms';
}
@visibleForTesting
bool get seemsSlow => timeout != null && _stopwatch.elapsed > timeout!;
/// Call to start spinning.
void start() {
assert(!_stopwatch.isRunning);
_stopwatch.start();
}
/// Call to stop spinning after success.
void stop() {
finish();
}
/// Call to cancel the spinner after failure or cancellation.
void cancel() {
finish();
}
/// Call to clear the current line but not end the progress.
void pause() {}
/// Call to resume after a pause.
void resume() {}
@protected
void finish() {
assert(_stopwatch.isRunning);
_stopwatch.stop();
onFinish?.call();
}
}
/// A [Status] that shows nothing.
class SilentStatus extends Status {
SilentStatus({
required super.stopwatch,
super.onFinish,
});
@override
void finish() {
onFinish?.call();
}
}
/// Constructor writes [message] to [stdout]. On [cancel] or [stop], will call
/// [onFinish]. On [stop], will additionally print out summary information.
class SummaryStatus extends Status {
SummaryStatus({
this.message = '',
required super.stopwatch,
this.padding = kDefaultStatusPadding,
super.onFinish,
required Stdio stdio,
}) : _stdio = stdio;
final String message;
final int padding;
final Stdio _stdio;
bool _messageShowingOnCurrentLine = false;
@override
void start() {
_printMessage();
super.start();
}
void _writeToStdOut(String message) => _stdio.stdoutWrite(message);
void _printMessage() {
assert(!_messageShowingOnCurrentLine);
_writeToStdOut('${message.padRight(padding)} ');
_messageShowingOnCurrentLine = true;
}
@override
void stop() {
if (!_messageShowingOnCurrentLine) {
_printMessage();
}
super.stop();
assert(_messageShowingOnCurrentLine);
_writeToStdOut(elapsedTime.padLeft(_kTimePadding));
_writeToStdOut('\n');
}
@override
void cancel() {
super.cancel();
if (_messageShowingOnCurrentLine) {
_writeToStdOut('\n');
}
}
@override
void pause() {
super.pause();
if (_messageShowingOnCurrentLine) {
_writeToStdOut('\n');
_messageShowingOnCurrentLine = false;
}
}
}
const int _kTimePadding = 8; // should fit "99,999ms"
/// A kind of animated [Status] that has no message.
///
/// Call [pause] before outputting any text while this is running.
class AnonymousSpinnerStatus extends Status {
AnonymousSpinnerStatus({
super.onFinish,
required super.stopwatch,
required Stdio stdio,
required Terminal terminal,
this.slowWarningCallback,
super.timeout,
}) : _stdio = stdio,
_terminal = terminal,
_animation = _selectAnimation(terminal);
final Stdio _stdio;
final Terminal _terminal;
String _slowWarning = '';
final SlowWarningCallback? slowWarningCallback;
static const String _backspaceChar = '\b';
static const String _clearChar = ' ';
static const List<String> _emojiAnimations = <String>[
'⣾⣽⣻⢿⡿⣟⣯⣷', // counter-clockwise
'⣾⣷⣯⣟⡿⢿⣻⣽', // clockwise
'⣾⣷⣯⣟⡿⢿⣻⣽⣷⣾⣽⣻⢿⡿⣟⣯⣷', // bouncing clockwise and counter-clockwise
'⣾⣷⣯⣽⣻⣟⡿⢿⣻⣟⣯⣽', // snaking
'⣾⣽⣻⢿⣿⣷⣯⣟⡿⣿', // alternating rain
'⣀⣠⣤⣦⣶⣾⣿⡿⠿⠻⠛⠋⠉⠙⠛⠟⠿⢿⣿⣷⣶⣴⣤⣄', // crawl up and down, large
'⠙⠚⠖⠦⢤⣠⣄⡤⠴⠲⠓⠋', // crawl up and down, small
'⣀⡠⠤⠔⠒⠊⠉⠑⠒⠢⠤⢄', // crawl up and down, tiny
'⡀⣄⣦⢷⠻⠙⠈⠀⠁⠋⠟⡾⣴⣠⢀⠀', // slide up and down
'⠙⠸⢰⣠⣄⡆⠇⠋', // clockwise line
'⠁⠈⠐⠠⢀⡀⠄⠂', // clockwise dot
'⢇⢣⢱⡸⡜⡎', // vertical wobble up
'⡇⡎⡜⡸⢸⢱⢣⢇', // vertical wobble down
'⡀⣀⣐⣒⣖⣶⣾⣿⢿⠿⠯⠭⠩⠉⠁⠀', // swirl
'⠁⠐⠄⢀⢈⢂⢠⣀⣁⣐⣄⣌⣆⣤⣥⣴⣼⣶⣷⣿⣾⣶⣦⣤⣠⣀⡀⠀⠀', // snowing and melting
'⠁⠋⠞⡴⣠⢀⠀⠈⠙⠻⢷⣦⣄⡀⠀⠉⠛⠲⢤⢀⠀', // falling water
'⠄⡢⢑⠈⠀⢀⣠⣤⡶⠞⠋⠁⠀⠈⠙⠳⣆⡀⠀⠆⡷⣹⢈⠀⠐⠪⢅⡀⠀', // fireworks
'⠐⢐⢒⣒⣲⣶⣷⣿⡿⡷⡧⠧⠇⠃⠁⠀⡀⡠⡡⡱⣱⣳⣷⣿⢿⢯⢧⠧⠣⠃⠂⠀⠈⠨⠸⠺⡺⡾⡿⣿⡿⡷⡗⡇⡅⡄⠄⠀⡀⡐⣐⣒⣓⣳⣻⣿⣾⣼⡼⡸⡘⡈⠈⠀', // fade
'⢸⡯⠭⠅⢸⣇⣀⡀⢸⣇⣸⡇⠈⢹⡏⠁⠈⢹⡏⠁⢸⣯⣭⡅⢸⡯⢕⡂⠀⠀', // text crawl
];
static const List<String> _asciiAnimations = <String>[
r'-\|/',
];
static List<String> _selectAnimation(Terminal terminal) {
final List<String> animations =
terminal.supportsEmoji ? _emojiAnimations : _asciiAnimations;
return animations[terminal.preferredStyle % animations.length]
.runes
.map<String>((int scalar) => String.fromCharCode(scalar))
.toList();
}
final List<String> _animation;
Timer? timer;
int ticks = 0;
int _lastAnimationFrameLength = 0;
bool timedOut = false;
String get _currentAnimationFrame => _animation[ticks % _animation.length];
int get _currentLineLength => _lastAnimationFrameLength + _slowWarning.length;
void _writeToStdOut(String message) => _stdio.stdoutWrite(message);
void _clear(int length) {
_writeToStdOut('${_backspaceChar * length}'
'${_clearChar * length}'
'${_backspaceChar * length}');
}
@override
void start() {
super.start();
assert(timer == null);
_startSpinner();
}
void _startSpinner() {
timer = Timer.periodic(const Duration(milliseconds: 100), _callback);
_callback(timer!);
}
void _callback(Timer timer) {
assert(this.timer == timer);
assert(timer.isActive);
_writeToStdOut(_backspaceChar * _lastAnimationFrameLength);
ticks += 1;
if (seemsSlow) {
if (!timedOut) {
timedOut = true;
_clear(_currentLineLength);
}
if (_slowWarning == '' && slowWarningCallback != null) {
_slowWarning = slowWarningCallback!();
_writeToStdOut(_slowWarning);
}
}
final String newFrame = _currentAnimationFrame;
_lastAnimationFrameLength = newFrame.runes.length;
_writeToStdOut(newFrame);
}
@override
void pause() {
assert(timer != null);
assert(timer!.isActive);
if (_terminal.supportsColor) {
_writeToStdOut('\r\x1B[K'); // go to start of line and clear line
} else {
_clear(_currentLineLength);
}
_lastAnimationFrameLength = 0;
timer?.cancel();
}
@override
void resume() {
assert(timer != null);
assert(!timer!.isActive);
_startSpinner();
}
@override
void finish() {
assert(timer != null);
assert(timer!.isActive);
timer?.cancel();
timer = null;
_clear(_lastAnimationFrameLength);
_lastAnimationFrameLength = 0;
super.finish();
}
}
/// An animated version of [Status].
///
/// The constructor writes [message] to [stdout] with padding, then starts an
/// indeterminate progress indicator animation.
///
/// On [cancel] or [stop], will call [onFinish]. On [stop], will
/// additionally print out summary information.
///
/// Call [pause] before outputting any text while this is running.
class SpinnerStatus extends AnonymousSpinnerStatus {
SpinnerStatus({
required this.message,
this.padding = kDefaultStatusPadding,
super.onFinish,
required super.stopwatch,
required super.stdio,
required super.terminal,
});
final String message;
final int padding;
static final String _margin =
AnonymousSpinnerStatus._clearChar * (5 + _kTimePadding - 1);
int _totalMessageLength = 0;
@override
int get _currentLineLength => _totalMessageLength + super._currentLineLength;
@override
void start() {
_printStatus();
super.start();
}
void _printStatus() {
final String line = '${message.padRight(padding)}$_margin';
_totalMessageLength = line.length;
_writeToStdOut(line);
}
@override
void pause() {
super.pause();
_totalMessageLength = 0;
}
@override
void resume() {
_printStatus();
super.resume();
}
@override
void stop() {
super.stop(); // calls finish, which clears the spinner
assert(_totalMessageLength > _kTimePadding);
_writeToStdOut(AnonymousSpinnerStatus._backspaceChar * (_kTimePadding - 1));
_writeToStdOut(elapsedTime.padLeft(_kTimePadding));
_writeToStdOut('\n');
}
@override
void cancel() {
super.cancel(); // calls finish, which clears the spinner
assert(_totalMessageLength > 0);
_writeToStdOut('\n');
}
}
/// Wraps a block of text into lines no longer than [columnWidth].
///
/// Tries to split at whitespace, but if that's not good enough to keep it under
/// the limit, then it splits in the middle of a word. If [columnWidth] (minus
/// any indent) is smaller than [kMinColumnWidth], the text is wrapped at that
/// [kMinColumnWidth] instead.
///
/// Preserves indentation (leading whitespace) for each line (delimited by '\n')
/// in the input, and will indent wrapped lines that same amount, adding
/// [indent] spaces in addition to any existing indent.
///
/// If [hangingIndent] is supplied, then that many additional spaces will be
/// added to each line, except for the first line. The [hangingIndent] is added
/// to the specified [indent], if any. This is useful for wrapping
/// text with a heading prefix (e.g. "Usage: "):
///
/// ```dart
/// String prefix = "Usage: ";
/// print(prefix + wrapText(invocation, indent: 2, hangingIndent: prefix.length, columnWidth: 40));
/// ```
///
/// yields:
/// ```
/// Usage: app main_command <subcommand>
/// [arguments]
/// ```
///
/// If [outputPreferences.wrapText] is false, then the text will be returned
/// unchanged. If [shouldWrap] is specified, then it overrides the
/// [outputPreferences.wrapText] setting.
///
/// If the amount of indentation (from the text, [indent], and [hangingIndent])
/// is such that less than [kMinColumnWidth] characters can fit in the
/// [columnWidth], then the indent is truncated to allow the text to fit.
String wrapText(
String text, {
required int columnWidth,
required bool shouldWrap,
int? hangingIndent,
int? indent,
}) {
assert(columnWidth >= 0);
if (text.isEmpty) {
return '';
}
indent ??= 0;
hangingIndent ??= 0;
final List<String> splitText = text.split('\n');
final List<String> result = <String>[];
for (final String line in splitText) {
String trimmedText = line.trimLeft();
final String leadingWhitespace =
line.substring(0, line.length - trimmedText.length);
List<String> notIndented;
if (hangingIndent != 0) {
// When we have a hanging indent, we want to wrap the first line at one
// width, and the rest at another (offset by hangingIndent), so we wrap
// them twice and recombine.
final List<String> firstLineWrap = _wrapTextAsLines(
trimmedText,
columnWidth: columnWidth - leadingWhitespace.length - indent,
shouldWrap: shouldWrap,
);
notIndented = <String>[firstLineWrap.removeAt(0)];
trimmedText = trimmedText.substring(notIndented[0].length).trimLeft();
if (trimmedText.isNotEmpty) {
notIndented.addAll(_wrapTextAsLines(
trimmedText,
columnWidth:
columnWidth - leadingWhitespace.length - indent - hangingIndent,
shouldWrap: shouldWrap,
));
}
} else {
notIndented = _wrapTextAsLines(
trimmedText,
columnWidth: columnWidth - leadingWhitespace.length - indent,
shouldWrap: shouldWrap,
);
}
String? hangingIndentString;
final String indentString = ' ' * indent;
result.addAll(notIndented.map<String>(
(String line) {
// Don't return any lines with just whitespace on them.
if (line.isEmpty) {
return '';
}
String truncatedIndent =
'$indentString${hangingIndentString ?? ''}$leadingWhitespace';
if (truncatedIndent.length > columnWidth - kMinColumnWidth) {
truncatedIndent = truncatedIndent.substring(
0, math.max(columnWidth - kMinColumnWidth, 0));
}
final String result = '$truncatedIndent$line';
hangingIndentString ??= ' ' * hangingIndent!;
return result;
},
));
}
return result.join('\n');
}
/// Wraps a block of text into lines no longer than [columnWidth], starting at the
/// [start] column, and returning the result as a list of strings.
///
/// Tries to split at whitespace, but if that's not good enough to keep it
/// under the limit, then splits in the middle of a word. Preserves embedded
/// newlines, but not indentation (it trims whitespace from each line).
///
/// If [columnWidth] is not specified, then the column width will be the width of the
/// terminal window by default. If the stdout is not a terminal window, then the
/// default will be [outputPreferences.wrapColumn].
///
/// The [columnWidth] is clamped to [kMinColumnWidth] at minimum (so passing negative
/// widths is fine, for instance).
///
/// If [outputPreferences.wrapText] is false, then the text will be returned
/// simply split at the newlines, but not wrapped. If [shouldWrap] is specified,
/// then it overrides the [outputPreferences.wrapText] setting.
List<String> _wrapTextAsLines(
String text, {
int start = 0,
required int columnWidth,
required bool shouldWrap,
}) {
if (text.isEmpty) {
return <String>[''];
}
assert(start >= 0);
// Splits a string so that the resulting list has the same number of elements
// as there are visible characters in the string, but elements may include one
// or more adjacent ANSI sequences. Joining the list elements again will
// reconstitute the original string. This is useful for manipulating "visible"
// characters in the presence of ANSI control codes.
List<_AnsiRun> splitWithCodes(String input) {
final RegExp characterOrCode =
RegExp('(\u001b\\[[0-9;]*m|.)', multiLine: true);
List<_AnsiRun> result = <_AnsiRun>[];
final StringBuffer current = StringBuffer();
for (final Match match in characterOrCode.allMatches(input)) {
current.write(match[0]);
if (match[0]!.length < 4) {
// This is a regular character, write it out.
result.add(_AnsiRun(current.toString(), match[0]!));
current.clear();
}
}
// If there's something accumulated, then it must be an ANSI sequence, so
// add it to the end of the last entry so that we don't lose it.
if (current.isNotEmpty) {
if (result.isNotEmpty) {
result.last.original += current.toString();
} else {
// If there is nothing in the string besides control codes, then just
// return them as the only entry.
result = <_AnsiRun>[_AnsiRun(current.toString(), '')];
}
}
return result;
}
String joinRun(List<_AnsiRun> list, int start, [int? end]) {
return list
.sublist(start, end)
.map<String>((_AnsiRun run) => run.original)
.join()
.trim();
}
final List<String> result = <String>[];
final int effectiveLength = math.max(columnWidth - start, kMinColumnWidth);
for (final String line in text.split('\n')) {
// If the line is short enough, even with ANSI codes, then we can just add
// add it and move on.
if (line.length <= effectiveLength || !shouldWrap) {
result.add(line);
continue;
}
final List<_AnsiRun> splitLine = splitWithCodes(line);
if (splitLine.length <= effectiveLength) {
result.add(line);
continue;
}
int currentLineStart = 0;
int? lastWhitespace;
// Find the start of the current line.
for (int index = 0; index < splitLine.length; ++index) {
if (splitLine[index].character.isNotEmpty &&
_isWhitespace(splitLine[index])) {
lastWhitespace = index;
}
if (index - currentLineStart >= effectiveLength) {
// Back up to the last whitespace, unless there wasn't any, in which
// case we just split where we are.
if (lastWhitespace != null) {
index = lastWhitespace;
}
result.add(joinRun(splitLine, currentLineStart, index));
// Skip any intervening whitespace.
while (index < splitLine.length && _isWhitespace(splitLine[index])) {
index++;
}
currentLineStart = index;
lastWhitespace = null;
}
}
result.add(joinRun(splitLine, currentLineStart));
}
return result;
}
// Used to represent a run of ANSI control sequences next to a visible
// character.
class _AnsiRun {
_AnsiRun(this.original, this.character);
String original;
String character;
}
/// Returns true if the code unit at [index] in [text] is a whitespace
/// character.
///
/// Based on: https://en.wikipedia.org/wiki/Whitespace_character#Unicode
bool _isWhitespace(_AnsiRun run) {
final int rune = run.character.isNotEmpty ? run.character.codeUnitAt(0) : 0x0;
return rune >= 0x0009 && rune <= 0x000D ||
rune == 0x0020 ||
rune == 0x0085 ||
rune == 0x1680 ||
rune == 0x180E ||
rune >= 0x2000 && rune <= 0x200A ||
rune == 0x2028 ||
rune == 0x2029 ||
rune == 0x202F ||
rune == 0x205F ||
rune == 0x3000 ||
rune == 0xFEFF;
}
/// An abstraction for instantiation of the correct logger type.
///
/// Our logger class hierarchy and runtime requirements are overly complicated.
class LoggerFactory {
LoggerFactory({
required Terminal terminal,
required Stdio stdio,
required OutputPreferences outputPreferences,
StopwatchFactory stopwatchFactory = const StopwatchFactory(),
}) : _terminal = terminal,
_stdio = stdio,
_stopwatchFactory = stopwatchFactory,
_outputPreferences = outputPreferences;
final Terminal _terminal;
final Stdio _stdio;
final StopwatchFactory _stopwatchFactory;
final OutputPreferences _outputPreferences;
/// Create the appropriate logger for the current platform and configuration.
Logger createLogger({
required bool windows,
}) {
Logger logger;
if (windows) {
logger = WindowsStdoutLogger(
terminal: _terminal,
stdio: _stdio,
outputPreferences: _outputPreferences,
stopwatchFactory: _stopwatchFactory,
);
} else {
logger = StdoutLogger(
terminal: _terminal,
stdio: _stdio,
outputPreferences: _outputPreferences,
stopwatchFactory: _stopwatchFactory);
}
return logger;
}
}