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archieml.js
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archieml.js
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// Structure inspired by John Resig's HTML parser
// http://ejohn.org/blog/pure-javascript-html-parser/
(function() {
'use strict';
// The load function takes a string of text as its only argument.
// It then proceeds to match the text to one of several regular expressions
// which match patterns for different types of commands in AML.
function load(input, options) {
var whitespacePattern = '\\u0000\\u0009\\u000A\\u000B\\u000C\\u000D\\u0020\\u00A0\\u2000\\u2001\\u2002\\u2003\\u2004\\u2005\\u2006\\u2007\\u2008\\u2009\\u200A\\u200B\\u2028\\u2029\\u202F\\u205F\\u3000\\uFEFF';
var slugBlacklist = whitespacePattern + '\\u005B\\u005C\\u005D\\u007B\\u007D\\u003A';
var nextLine = new RegExp('.*((\r|\n)+)');
var startKey = new RegExp('^\\s*([^' + slugBlacklist + ']+)[ \t\r]*:[ \t\r]*(.*(?:\n|\r|$))');
var commandKey = new RegExp('^\\s*:[ \t\r]*(endskip|ignore|skip|end).*?(\n|\r|$)', 'i');
var arrayElement = new RegExp('^\\s*\\*[ \t\r]*(.*(?:\n|\r|$))');
var scopePattern = new RegExp('^\\s*(\\[|\\{)[ \t\r]*([\+\.]*)[ \t\r]*([^' + slugBlacklist + ']*)[ \t\r]*(?:\\]|\\}).*?(\n|\r|$)');
var data = {},
scope = data,
stack = [],
stackScope = undefined,
bufferScope = null,
bufferKey = null,
bufferString = '',
isSkipping = false;
var options = options || {};
if (options.comments !== true) options.comments = false;
while (input) {
// Inside the input stream loop, the `input` string is trimmed down as matches
// are found, and fires a call to the matching parse*() function.
var match;
if (commandKey.exec(input)) {
match = commandKey.exec(input);
parseCommandKey(match[1].toLowerCase());
} else if (!isSkipping && startKey.exec(input) &&
(!stackScope || stackScope.arrayType !== 'simple')) {
match = startKey.exec(input);
parseStartKey(match[1], match[2] || '');
} else if (!isSkipping && arrayElement.exec(input) && stackScope && stackScope.array &&
(stackScope.arrayType !== 'complex' && stackScope.arrayType !== 'freeform') &&
stackScope.flags.indexOf('+') < 0) {
match = arrayElement.exec(input);
parseArrayElement(match[1]);
} else if (!isSkipping && scopePattern.exec(input)) {
match = scopePattern.exec(input);
parseScope(match[1], match[2], match[3]);
} else if (nextLine.exec(input)) {
match = nextLine.exec(input);
parseText(match[0]);
} else {
// End of document reached
parseText(input);
input = '';
}
if (match) input = input.substring(match[0].length);
}
// The following parse functions add to the global `data` object and update
// scoping variables to keep track of what we're parsing.
function parseStartKey(key, restOfLine) {
// When a new key is encountered, the rest of the line is immediately added as
// its value, by calling `flushBuffer`.
flushBuffer();
incrementArrayElement(key);
if (stackScope && stackScope.flags.indexOf('+') > -1) key = 'value';
bufferKey = key;
bufferString = restOfLine;
flushBufferInto(key, {replace: true});
}
function parseArrayElement(value) {
flushBuffer();
stackScope.arrayType = stackScope.arrayType || 'simple';
stackScope.array.push('');
bufferKey = stackScope.array;
bufferString = value;
flushBufferInto(stackScope.array, {replace: true});
}
function parseCommandKey(command) {
// if isSkipping, don't parse any command unless :endskip
if (isSkipping && !(command === "endskip" || command === "ignore")) return flushBuffer();
switch (command) {
case "end":
// When we get to an end key, save whatever was in the buffer to the last
// active key.
if (bufferKey) flushBufferInto(bufferKey, {replace: false});
return;
case "ignore":
// When ":ignore" is reached, stop parsing immediately
input = '';
break;
case "skip":
isSkipping = true;
break;
case "endskip":
isSkipping = false;
break;
}
flushBuffer();
}
function parseScope(scopeType, flags, scopeKey) {
// Throughout the parsing, `scope` refers to one of the following:
// * `data`
// * an object - one level within `data` - when we're within a {scope} block
// * an object at the end of an array - which is one level within `data` -
// when we're within an [array] block.
//
// `scope` changes whenever a scope key is encountered. It also changes
// within parseStartKey when we start a new object within an array.
flushBuffer();
if (scopeKey == '') {
// Move up a level
var lastStackItem = stack.pop();
scope = (lastStackItem ? lastStackItem.scope : data) || data
stackScope = stack[stack.length - 1];
} else if (scopeType === '[' || scopeType === '{') {
var nesting = false;
var keyScope = data;
// If the flags include ".", drill down into the appropriate scope.
if (flags.indexOf('.') > -1) {
incrementArrayElement(scopeKey, flags);
nesting = true;
if (stackScope) keyScope = scope;
// Otherwise, make sure we reset to the global scope
} else {
scope = data;
stack = [];
}
// Within freeforms, the `type` of nested objects and arrays is taken
// verbatim from the `keyScope`.
if (stackScope && stackScope.flags.indexOf('+') > -1) {
var parsedScopeKey = scopeKey;
// Outside of freeforms, dot-notation interpreted as nested data.
} else {
var keyBits = scopeKey.split('.');
for (var i=0; i<keyBits.length - 1; i++) {
keyScope = keyScope[keyBits[i]] = keyScope[keyBits[i]] || {};
}
var parsedScopeKey = keyBits[keyBits.length - 1];
}
var stackScopeItem = {
array: null,
arrayType: null,
arrayFirstKey: null,
flags: flags,
scope: scope
};
// Content of nested scopes within a freeform should be stored under "value."
var isNestedFreeform = stackScope && stackScope.flags.indexOf('+') > -1 && flags.indexOf('.') > -1;
if (scopeType == '[') {
if (isNestedFreeform) parsedScopeKey = 'value'
stackScopeItem.array = keyScope[parsedScopeKey] = [];
if (flags.indexOf('+') > -1) stackScopeItem.arrayType = 'freeform';
if (nesting) {
stack.push(stackScopeItem);
} else {
stack = [stackScopeItem];
}
stackScope = stack[stack.length - 1];
} else if (scopeType == '{') {
if (nesting) {
if (isNestedFreeform) scope = scope.value = {};
else scope = keyScope[parsedScopeKey] = keyScope = {};
stack.push(stackScopeItem);
} else {
scope = keyScope[parsedScopeKey] = (typeof keyScope[parsedScopeKey] === 'object') ? keyScope[parsedScopeKey] : {};
stack = [stackScopeItem];
}
stackScope = stack[stack.length - 1];
}
}
}
function parseText(text) {
if (stackScope && stackScope.flags.indexOf('+') > -1 && text.match(/[^\n\r\s]/)) {
stackScope.array.push({"type": "text", "value": text.replace(/(^\s*)|(\s*$)/g, '')});
} else {
bufferString += input.substring(0, text.length);
}
}
function incrementArrayElement(key) {
// Special handling for arrays. If this is the start of the array, remember
// which key was encountered first. If this is a duplicate encounter of
// that key, start a new object.
if (stackScope && stackScope.array) {
// If we're within a simple array, ignore
stackScope.arrayType = stackScope.arrayType || 'complex';
if (stackScope.arrayType === 'simple') return;
// arrayFirstKey may be either another key, or null
if (stackScope.arrayFirstKey === null || stackScope.arrayFirstKey === key) stackScope.array.push(scope = {});
if (stackScope.flags.indexOf('+') > -1) {
scope.type = key
} else {
stackScope.arrayFirstKey = stackScope.arrayFirstKey || key;
}
}
}
function formatValue(value, type) {
if (options.comments) {
value = value.replace(/(?:^\\)?\[[^\[\]\n\r]*\](?!\])/mg, ""); // remove comments
value = value.replace(/\[\[([^\[\]\n\r]*)\]\]/g, "[$1]"); // [[]] => []
}
if (type == 'append') {
// If we're appending to a multi-line string, escape special punctuation
// by using a backslash at the beginning of any line.
// Note we do not do this processing for the first line of any value.
value = value.replace(new RegExp('^(\\s*)\\\\', 'gm'), "$1");
}
return value;
}
function flushBuffer() {
var result = bufferString + '';
bufferString = '';
bufferKey = null;
return result;
}
function flushBufferInto(key, options) {
options = options || {};
var existingBufferKey = bufferKey;
var value = flushBuffer();
if (options.replace) {
value = formatValue(value, 'replace').replace(new RegExp('^\\s*'), '');
bufferString = (new RegExp('\\s*$')).exec(value)[0];
bufferKey = existingBufferKey
} else {
value = formatValue(value, 'append');
}
if (typeof key === 'object') {
// key is an array
if (options.replace) key[key.length - 1] = '';
key[key.length - 1] += value.replace(new RegExp('\\s*$'), '');
} else {
var keyBits = key.split('.');
bufferScope = scope;
for (var i=0; i<keyBits.length - 1; i++) {
if (typeof bufferScope[keyBits[i]] === 'string') bufferScope[keyBits[i]] = {};
bufferScope = bufferScope[keyBits[i]] = bufferScope[keyBits[i]] || {};
}
if (options.replace) bufferScope[keyBits[keyBits.length - 1]] = '';
bufferScope[keyBits[keyBits.length - 1]] += value.replace(new RegExp('\\s*$'), '');
}
}
flushBuffer();
return data;
}
var root = this;
var archieml = {load: load};
if (typeof exports !== 'undefined') {
if (typeof module !== 'undefined' && module.exports) {
exports = module.exports = archieml;
}
exports.archieml = archieml;
} else {
this.archieml = archieml;
}
if (typeof define === 'function' && define.amd) {
define('archieml', [], function() {
return archieml;
});
}
}.call(this))