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jashkenas--coffeescript/lib/coffeescript/optparse.js
Geoffrey Booth 926cb8463c
2.1.0 (#4823)
* Changelog for 2.1.0; remove text from objects section that is no longer valid for CS2/ES2015.

* Update packages

* 2.1.0 build

* Update output

* Correct reference to `//` division, per https://github.com/coffeescript6/discuss/issues/39#issuecomment-347144647
2017-12-10 23:12:33 -08:00

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// Generated by CoffeeScript 2.1.0
(function() {
var LONG_FLAG, MULTI_FLAG, OPTIONAL, OptionParser, SHORT_FLAG, buildRule, buildRules, normalizeArguments, repeat,
slice = [].slice;
({repeat} = require('./helpers'));
// A simple **OptionParser** class to parse option flags from the command-line.
// Use it like so:
// parser = new OptionParser switches, helpBanner
// options = parser.parse process.argv
// The first non-option is considered to be the start of the file (and file
// option) list, and all subsequent arguments are left unparsed.
// The `coffee` command uses an instance of **OptionParser** to parse its
// command-line arguments in `src/command.coffee`.
exports.OptionParser = OptionParser = class OptionParser {
// Initialize with a list of valid options, in the form:
// [short-flag, long-flag, description]
// Along with an optional banner for the usage help.
constructor(ruleDeclarations, banner) {
this.banner = banner;
this.rules = buildRules(ruleDeclarations);
}
// Parse the list of arguments, populating an `options` object with all of the
// specified options, and return it. Options after the first non-option
// argument are treated as arguments. `options.arguments` will be an array
// containing the remaining arguments. This is a simpler API than many option
// parsers that allow you to attach callback actions for every flag. Instead,
// you're responsible for interpreting the options object.
parse(args) {
var argument, hasArgument, i, isList, len, name, options, positional, rules;
// The CoffeeScript option parser is a little odd; options after the first
// non-option argument are treated as non-option arguments themselves.
// Optional arguments are normalized by expanding merged flags into multiple
// flags. This allows you to have `-wl` be the same as `--watch --lint`.
// Note that executable scripts with a shebang (`#!`) line should use the
// line `#!/usr/bin/env coffee`, or `#!/absolute/path/to/coffee`, without a
// `--` argument after, because that will fail on Linux (see #3946).
({rules, positional} = normalizeArguments(args, this.rules.flagDict));
options = {};
// The `argument` field is added to the rule instance non-destructively by
// `normalizeArguments`.
for (i = 0, len = rules.length; i < len; i++) {
({hasArgument, argument, isList, name} = rules[i]);
if (hasArgument) {
if (isList) {
if (options[name] == null) {
options[name] = [];
}
options[name].push(argument);
} else {
options[name] = argument;
}
} else {
options[name] = true;
}
}
if (positional[0] === '--') {
options.doubleDashed = true;
positional = positional.slice(1);
}
options.arguments = positional;
return options;
}
// Return the help text for this **OptionParser**, listing and describing all
// of the valid options, for `--help` and such.
help() {
var i, len, letPart, lines, ref, rule, spaces;
lines = [];
if (this.banner) {
lines.unshift(`${this.banner}\n`);
}
ref = this.rules.ruleList;
for (i = 0, len = ref.length; i < len; i++) {
rule = ref[i];
spaces = 15 - rule.longFlag.length;
spaces = spaces > 0 ? repeat(' ', spaces) : '';
letPart = rule.shortFlag ? rule.shortFlag + ', ' : ' ';
lines.push(' ' + letPart + rule.longFlag + spaces + rule.description);
}
return `\n${lines.join('\n')}\n`;
}
};
// Helpers
// -------
// Regex matchers for option flags on the command line and their rules.
LONG_FLAG = /^(--\w[\w\-]*)/;
SHORT_FLAG = /^(-\w)$/;
MULTI_FLAG = /^-(\w{2,})/;
// Matches the long flag part of a rule for an option with an argument. Not
// applied to anything in process.argv.
OPTIONAL = /\[(\w+(\*?))\]/;
// Build and return the list of option rules. If the optional *short-flag* is
// unspecified, leave it out by padding with `null`.
buildRules = function(ruleDeclarations) {
var flag, flagDict, i, j, len, len1, ref, rule, ruleList, tuple;
ruleList = (function() {
var i, len, results;
results = [];
for (i = 0, len = ruleDeclarations.length; i < len; i++) {
tuple = ruleDeclarations[i];
if (tuple.length < 3) {
tuple.unshift(null);
}
results.push(buildRule(...tuple));
}
return results;
})();
flagDict = {};
for (i = 0, len = ruleList.length; i < len; i++) {
rule = ruleList[i];
ref = [rule.shortFlag, rule.longFlag];
// `shortFlag` is null if not provided in the rule.
for (j = 0, len1 = ref.length; j < len1; j++) {
flag = ref[j];
if (!(flag != null)) {
continue;
}
if (flagDict[flag] != null) {
throw new Error(`flag ${flag} for switch ${rule.name} was already declared for switch ${flagDict[flag].name}`);
}
flagDict[flag] = rule;
}
}
return {ruleList, flagDict};
};
// Build a rule from a `-o` short flag, a `--output [DIR]` long flag, and the
// description of what the option does.
buildRule = function(shortFlag, longFlag, description) {
var match;
match = longFlag.match(OPTIONAL);
shortFlag = shortFlag != null ? shortFlag.match(SHORT_FLAG)[1] : void 0;
longFlag = longFlag.match(LONG_FLAG)[1];
return {
name: longFlag.replace(/^--/, ''),
shortFlag: shortFlag,
longFlag: longFlag,
description: description,
hasArgument: !!(match && match[1]),
isList: !!(match && match[2])
};
};
normalizeArguments = function(args, flagDict) {
var arg, argIndex, flag, i, innerOpts, j, k, lastOpt, len, len1, multiFlags, multiOpts, needsArgOpt, positional, ref, rule, rules, singleRule, withArg;
rules = [];
positional = [];
needsArgOpt = null;
for (argIndex = i = 0, len = args.length; i < len; argIndex = ++i) {
arg = args[argIndex];
// If the previous argument given to the script was an option that uses the
// next command-line argument as its argument, create copy of the options
// rule with an `argument` field.
if (needsArgOpt != null) {
withArg = Object.assign({}, needsArgOpt.rule, {
argument: arg
});
rules.push(withArg);
needsArgOpt = null;
continue;
}
multiFlags = (ref = arg.match(MULTI_FLAG)) != null ? ref[1].split('').map(function(flagName) {
return `-${flagName}`;
}) : void 0;
if (multiFlags != null) {
multiOpts = multiFlags.map(function(flag) {
var rule;
rule = flagDict[flag];
if (rule == null) {
throw new Error(`unrecognized option ${flag} in multi-flag ${arg}`);
}
return {rule, flag};
});
// Only the last flag in a multi-flag may have an argument.
innerOpts = 2 <= multiOpts.length ? slice.call(multiOpts, 0, j = multiOpts.length - 1) : (j = 0, []), lastOpt = multiOpts[j++];
for (k = 0, len1 = innerOpts.length; k < len1; k++) {
({rule, flag} = innerOpts[k]);
if (rule.hasArgument) {
throw new Error(`cannot use option ${flag} in multi-flag ${arg} except as the last option, because it needs an argument`);
}
rules.push(rule);
}
if (lastOpt.rule.hasArgument) {
needsArgOpt = lastOpt;
} else {
rules.push(lastOpt.rule);
}
} else if ([LONG_FLAG, SHORT_FLAG].some(function(pat) {
return arg.match(pat) != null;
})) {
singleRule = flagDict[arg];
if (singleRule == null) {
throw new Error(`unrecognized option ${arg}`);
}
if (singleRule.hasArgument) {
needsArgOpt = {
rule: singleRule,
flag: arg
};
} else {
rules.push(singleRule);
}
} else {
// This is a positional argument.
positional = args.slice(argIndex);
break;
}
}
if (needsArgOpt != null) {
throw new Error(`value required for ${needsArgOpt.flag}, but it was the last argument provided`);
}
return {rules, positional};
};
}).call(this);