| Current File : //home/tradevaly/www/node_modules/dfa/compile.js |
'use strict';
Object.defineProperty(exports, '__esModule', { value: true });
/**
* Returns a new set representing the union of a and b.
*/
function union(a, b) {
var s = new Set(a);
addAll(s, b);
return s;
}
/**
* Adds all items from the set b to a.
*/
function addAll(a, b) {
for (var x of b) {
a.add(x);
}
}
/**
* Returns whether two sets are equal
*/
function equal(a, b) {
if (a === b) return true;
if (a.size !== b.size) return false;
for (var x of a) {
if (!b.has(x)) {
return false;
}
}
return true;
}
/**
* Base AST node
*/
class Node {
constructor() {
Object.defineProperty(this, 'followpos', {
value: new Set()
});
}
calcFollowpos() {
for (var key in this) {
if (this[key] instanceof Node) {
this[key].calcFollowpos();
}
}
}
}
/**
* Represents a variable reference
*/
class Variable extends Node {
constructor(name) {
super();
this.name = name;
}
copy() {
return new Variable(this.name);
}
}
/**
* Represents a comment
*/
class Comment extends Node {
constructor(value) {
super();
this.value = value;
}
}
/**
* Represents an assignment statement.
* e.g. `variable = expression;`
*/
class Assignment extends Node {
constructor(variable, expression) {
super();
this.variable = variable;
this.expression = expression;
}
}
/**
* Represents an alternation.
* e.g. `a | b`
*/
class Alternation extends Node {
constructor(a, b) {
super();
this.a = a;
this.b = b;
}
get nullable() {
return this.a.nullable || this.b.nullable;
}
get firstpos() {
return union(this.a.firstpos, this.b.firstpos);
}
get lastpos() {
return union(this.a.lastpos, this.b.lastpos);
}
copy() {
return new Alternation(this.a.copy(), this.b.copy());
}
}
/**
* Represents a concatenation, or chain.
* e.g. `a b c`
*/
class Concatenation extends Node {
constructor(a, b) {
super();
this.a = a;
this.b = b;
}
get nullable() {
return this.a.nullable && this.b.nullable;
}
get firstpos() {
var s = this.a.firstpos;
if (this.a.nullable) {
s = union(s, this.b.firstpos);
}
return s;
}
get lastpos() {
var s = this.b.lastpos;
if (this.b.nullable) {
s = union(s, this.a.lastpos);
}
return s;
}
calcFollowpos() {
super.calcFollowpos();
for (var n of this.a.lastpos) {
addAll(n.followpos, this.b.firstpos);
}
}
copy() {
return new Concatenation(this.a.copy(), this.b.copy());
}
}
/**
* Represents a repetition.
* e.g. `a+`, `b*`, or `c?`
*/
class Repeat extends Node {
constructor(expression, op) {
super();
this.expression = expression;
this.op = op;
}
get nullable() {
return this.op === '*' || this.op === '?';
}
get firstpos() {
return this.expression.firstpos;
}
get lastpos() {
return this.expression.lastpos;
}
calcFollowpos() {
super.calcFollowpos();
if (this.op === '*' || this.op === '+') {
for (var n of this.lastpos) {
addAll(n.followpos, this.firstpos);
}
}
}
copy() {
return new Repeat(this.expression.copy(), this.op);
}
}
function buildRepetition(expression, min = 0, max = Infinity) {
if (min < 0 || min > max) {
throw new Error("Invalid repetition range: ".concat(min, " ").concat(max));
}
var res = null;
for (var i = 0; i < min; i++) {
res = concat(res, expression.copy());
}
if (max === Infinity) {
res = concat(res, new Repeat(expression.copy(), '*'));
} else {
for (var _i = min; _i < max; _i++) {
res = concat(res, new Repeat(expression.copy(), '?'));
}
}
return res;
}
function concat(a, b) {
if (!a) {
return b;
}
return new Concatenation(a, b);
}
/**
* Base class for leaf nodes
*/
class Leaf extends Node {
get nullable() {
return false;
}
get firstpos() {
return new Set([this]);
}
get lastpos() {
return new Set([this]);
}
}
/**
* Represents a literal value, e.g. a number
*/
class Literal extends Leaf {
constructor(value) {
super();
this.value = value;
}
copy() {
return new Literal(this.value);
}
}
/**
* Marks the end of an expression
*/
class EndMarker extends Leaf {}
/**
* Represents a tag
* e.g. `a:(a b)`
*/
class Tag extends Leaf {
constructor(name) {
super();
this.name = name;
}
get nullable() {
return true;
}
copy() {
return new Tag(this.name);
}
}
var nodes = /*#__PURE__*/Object.freeze({
Node: Node,
Variable: Variable,
Comment: Comment,
Assignment: Assignment,
Alternation: Alternation,
Concatenation: Concatenation,
Repeat: Repeat,
buildRepetition: buildRepetition,
Literal: Literal,
EndMarker: EndMarker,
Tag: Tag
});
function peg$subclass(child, parent) {
function ctor() {
this.constructor = child;
}
ctor.prototype = parent.prototype;
child.prototype = new ctor();
}
function peg$SyntaxError(message, expected, found, location) {
this.message = message;
this.expected = expected;
this.found = found;
this.location = location;
this.name = "SyntaxError";
if (typeof Error.captureStackTrace === "function") {
Error.captureStackTrace(this, peg$SyntaxError);
}
}
peg$subclass(peg$SyntaxError, Error);
peg$SyntaxError.buildMessage = function (expected, found) {
var DESCRIBE_EXPECTATION_FNS = {
literal: function (expectation) {
return "\"" + literalEscape(expectation.text) + "\"";
},
"class": function (expectation) {
var escapedParts = "",
i;
for (i = 0; i < expectation.parts.length; i++) {
escapedParts += expectation.parts[i] instanceof Array ? classEscape(expectation.parts[i][0]) + "-" + classEscape(expectation.parts[i][1]) : classEscape(expectation.parts[i]);
}
return "[" + (expectation.inverted ? "^" : "") + escapedParts + "]";
},
any: function (expectation) {
return "any character";
},
end: function (expectation) {
return "end of input";
},
other: function (expectation) {
return expectation.description;
}
};
function hex(ch) {
return ch.charCodeAt(0).toString(16).toUpperCase();
}
function literalEscape(s) {
return s.replace(/\\/g, '\\\\').replace(/"/g, '\\"').replace(/\0/g, '\\0').replace(/\t/g, '\\t').replace(/\n/g, '\\n').replace(/\r/g, '\\r').replace(/[\x00-\x0F]/g, function (ch) {
return '\\x0' + hex(ch);
}).replace(/[\x10-\x1F\x7F-\x9F]/g, function (ch) {
return '\\x' + hex(ch);
});
}
function classEscape(s) {
return s.replace(/\\/g, '\\\\').replace(/\]/g, '\\]').replace(/\^/g, '\\^').replace(/-/g, '\\-').replace(/\0/g, '\\0').replace(/\t/g, '\\t').replace(/\n/g, '\\n').replace(/\r/g, '\\r').replace(/[\x00-\x0F]/g, function (ch) {
return '\\x0' + hex(ch);
}).replace(/[\x10-\x1F\x7F-\x9F]/g, function (ch) {
return '\\x' + hex(ch);
});
}
function describeExpectation(expectation) {
return DESCRIBE_EXPECTATION_FNS[expectation.type](expectation);
}
function describeExpected(expected) {
var descriptions = new Array(expected.length),
i,
j;
for (i = 0; i < expected.length; i++) {
descriptions[i] = describeExpectation(expected[i]);
}
descriptions.sort();
if (descriptions.length > 0) {
for (i = 1, j = 1; i < descriptions.length; i++) {
if (descriptions[i - 1] !== descriptions[i]) {
descriptions[j] = descriptions[i];
j++;
}
}
descriptions.length = j;
}
switch (descriptions.length) {
case 1:
return descriptions[0];
case 2:
return descriptions[0] + " or " + descriptions[1];
default:
return descriptions.slice(0, -1).join(", ") + ", or " + descriptions[descriptions.length - 1];
}
}
function describeFound(found) {
return found ? "\"" + literalEscape(found) + "\"" : "end of input";
}
return "Expected " + describeExpected(expected) + " but " + describeFound(found) + " found.";
};
function peg$parse(input, options) {
options = options !== void 0 ? options : {};
var peg$FAILED = {},
peg$startRuleFunctions = {
rules: peg$parserules
},
peg$startRuleFunction = peg$parserules,
peg$c0 = function (s) {
return s;
},
peg$c1 = "#",
peg$c2 = peg$literalExpectation("#", false),
peg$c3 = /^[^\r\n]/,
peg$c4 = peg$classExpectation(["\r", "\n"], true, false),
peg$c5 = /^[\r\n]/,
peg$c6 = peg$classExpectation(["\r", "\n"], false, false),
peg$c7 = function (v) {
return new n.Comment(v.join(''));
},
peg$c8 = "=",
peg$c9 = peg$literalExpectation("=", false),
peg$c10 = ";",
peg$c11 = peg$literalExpectation(";", false),
peg$c12 = function (v, e) {
return new n.Assignment(v, e);
},
peg$c13 = function (v) {
return new n.Variable(v);
},
peg$c14 = "|",
peg$c15 = peg$literalExpectation("|", false),
peg$c16 = function (a, b) {
return new n.Alternation(a, b);
},
peg$c17 = function (a, b) {
return new n.Concatenation(a, b);
},
peg$c18 = ":",
peg$c19 = peg$literalExpectation(":", false),
peg$c20 = function (t, e) {
return new n.Concatenation(e, new n.Tag(t));
},
peg$c21 = "*",
peg$c22 = peg$literalExpectation("*", false),
peg$c23 = function (t) {
return new n.Repeat(t, '*');
},
peg$c24 = "?",
peg$c25 = peg$literalExpectation("?", false),
peg$c26 = function (t) {
return new n.Repeat(t, '?');
},
peg$c27 = "+",
peg$c28 = peg$literalExpectation("+", false),
peg$c29 = function (t) {
return new n.Repeat(t, '+');
},
peg$c30 = "{",
peg$c31 = peg$literalExpectation("{", false),
peg$c32 = "}",
peg$c33 = peg$literalExpectation("}", false),
peg$c34 = function (t, m) {
return n.buildRepetition(t, m, m);
},
peg$c35 = ",",
peg$c36 = peg$literalExpectation(",", false),
peg$c37 = function (t, min) {
return n.buildRepetition(t, min, Infinity);
},
peg$c38 = function (t, max) {
return n.buildRepetition(t, 0, max);
},
peg$c39 = function (t, min, max) {
return n.buildRepetition(t, min, max);
},
peg$c40 = function (x) {
return new n.Literal(x);
},
peg$c41 = "(",
peg$c42 = peg$literalExpectation("(", false),
peg$c43 = ")",
peg$c44 = peg$literalExpectation(")", false),
peg$c45 = function (e) {
return e;
},
peg$c47 = function (a, b) {
return a + b.join('');
},
peg$c48 = "_",
peg$c49 = peg$literalExpectation("_", false),
peg$c50 = /^[a-zA-Z]/,
peg$c51 = peg$classExpectation([["a", "z"], ["A", "Z"]], false, false),
peg$c52 = /^[0-9]/,
peg$c53 = peg$classExpectation([["0", "9"]], false, false),
peg$c54 = function (num) {
return parseInt(num.join(''));
},
peg$c55 = /^[ \t\r\n]/,
peg$c56 = peg$classExpectation([" ", "\t", "\r", "\n"], false, false),
peg$currPos = 0,
peg$posDetailsCache = [{
line: 1,
column: 1
}],
peg$maxFailPos = 0,
peg$maxFailExpected = [],
peg$result;
if ("startRule" in options) {
if (!(options.startRule in peg$startRuleFunctions)) {
throw new Error("Can't start parsing from rule \"" + options.startRule + "\".");
}
peg$startRuleFunction = peg$startRuleFunctions[options.startRule];
}
function peg$literalExpectation(text, ignoreCase) {
return {
type: "literal",
text: text,
ignoreCase: ignoreCase
};
}
function peg$classExpectation(parts, inverted, ignoreCase) {
return {
type: "class",
parts: parts,
inverted: inverted,
ignoreCase: ignoreCase
};
}
function peg$endExpectation() {
return {
type: "end"
};
}
function peg$computePosDetails(pos) {
var details = peg$posDetailsCache[pos],
p;
if (details) {
return details;
} else {
p = pos - 1;
while (!peg$posDetailsCache[p]) {
p--;
}
details = peg$posDetailsCache[p];
details = {
line: details.line,
column: details.column
};
while (p < pos) {
if (input.charCodeAt(p) === 10) {
details.line++;
details.column = 1;
} else {
details.column++;
}
p++;
}
peg$posDetailsCache[pos] = details;
return details;
}
}
function peg$computeLocation(startPos, endPos) {
var startPosDetails = peg$computePosDetails(startPos),
endPosDetails = peg$computePosDetails(endPos);
return {
start: {
offset: startPos,
line: startPosDetails.line,
column: startPosDetails.column
},
end: {
offset: endPos,
line: endPosDetails.line,
column: endPosDetails.column
}
};
}
function peg$fail(expected) {
if (peg$currPos < peg$maxFailPos) {
return;
}
if (peg$currPos > peg$maxFailPos) {
peg$maxFailPos = peg$currPos;
peg$maxFailExpected = [];
}
peg$maxFailExpected.push(expected);
}
function peg$buildStructuredError(expected, found, location) {
return new peg$SyntaxError(peg$SyntaxError.buildMessage(expected, found), expected, found, location);
}
function peg$parserules() {
var s0, s1;
s0 = [];
s1 = peg$parsestatement();
if (s1 !== peg$FAILED) {
while (s1 !== peg$FAILED) {
s0.push(s1);
s1 = peg$parsestatement();
}
} else {
s0 = peg$FAILED;
}
return s0;
}
function peg$parsestatement() {
var s0, s1, s2;
s0 = peg$currPos;
s1 = peg$parsestatement_type();
if (s1 !== peg$FAILED) {
s2 = peg$parse_();
if (s2 !== peg$FAILED) {
s1 = peg$c0(s1);
s0 = s1;
} else {
peg$currPos = s0;
s0 = peg$FAILED;
}
} else {
peg$currPos = s0;
s0 = peg$FAILED;
}
return s0;
}
function peg$parsestatement_type() {
var s0;
s0 = peg$parseassignment();
if (s0 === peg$FAILED) {
s0 = peg$parsecomment();
}
return s0;
}
function peg$parsecomment() {
var s0, s1, s2, s3;
s0 = peg$currPos;
if (input.charCodeAt(peg$currPos) === 35) {
s1 = peg$c1;
peg$currPos++;
} else {
s1 = peg$FAILED;
{
peg$fail(peg$c2);
}
}
if (s1 !== peg$FAILED) {
s2 = [];
if (peg$c3.test(input.charAt(peg$currPos))) {
s3 = input.charAt(peg$currPos);
peg$currPos++;
} else {
s3 = peg$FAILED;
{
peg$fail(peg$c4);
}
}
while (s3 !== peg$FAILED) {
s2.push(s3);
if (peg$c3.test(input.charAt(peg$currPos))) {
s3 = input.charAt(peg$currPos);
peg$currPos++;
} else {
s3 = peg$FAILED;
{
peg$fail(peg$c4);
}
}
}
if (s2 !== peg$FAILED) {
if (peg$c5.test(input.charAt(peg$currPos))) {
s3 = input.charAt(peg$currPos);
peg$currPos++;
} else {
s3 = peg$FAILED;
{
peg$fail(peg$c6);
}
}
if (s3 !== peg$FAILED) {
s1 = peg$c7(s2);
s0 = s1;
} else {
peg$currPos = s0;
s0 = peg$FAILED;
}
} else {
peg$currPos = s0;
s0 = peg$FAILED;
}
} else {
peg$currPos = s0;
s0 = peg$FAILED;
}
return s0;
}
function peg$parseassignment() {
var s0, s1, s2, s3, s4, s5, s6, s7;
s0 = peg$currPos;
s1 = peg$parsevariable();
if (s1 !== peg$FAILED) {
s2 = peg$parse_();
if (s2 !== peg$FAILED) {
if (input.charCodeAt(peg$currPos) === 61) {
s3 = peg$c8;
peg$currPos++;
} else {
s3 = peg$FAILED;
{
peg$fail(peg$c9);
}
}
if (s3 !== peg$FAILED) {
s4 = peg$parse_();
if (s4 !== peg$FAILED) {
s5 = peg$parsealternation();
if (s5 !== peg$FAILED) {
s6 = peg$parse_();
if (s6 !== peg$FAILED) {
if (input.charCodeAt(peg$currPos) === 59) {
s7 = peg$c10;
peg$currPos++;
} else {
s7 = peg$FAILED;
{
peg$fail(peg$c11);
}
}
if (s7 !== peg$FAILED) {
s1 = peg$c12(s1, s5);
s0 = s1;
} else {
peg$currPos = s0;
s0 = peg$FAILED;
}
} else {
peg$currPos = s0;
s0 = peg$FAILED;
}
} else {
peg$currPos = s0;
s0 = peg$FAILED;
}
} else {
peg$currPos = s0;
s0 = peg$FAILED;
}
} else {
peg$currPos = s0;
s0 = peg$FAILED;
}
} else {
peg$currPos = s0;
s0 = peg$FAILED;
}
} else {
peg$currPos = s0;
s0 = peg$FAILED;
}
return s0;
}
function peg$parsevariable() {
var s0, s1;
s0 = peg$currPos;
s1 = peg$parsename();
if (s1 !== peg$FAILED) {
s1 = peg$c13(s1);
}
s0 = s1;
return s0;
}
function peg$parsealternation() {
var s0, s1, s2, s3, s4, s5;
s0 = peg$currPos;
s1 = peg$parseconcatenation();
if (s1 !== peg$FAILED) {
s2 = peg$parse_();
if (s2 !== peg$FAILED) {
if (input.charCodeAt(peg$currPos) === 124) {
s3 = peg$c14;
peg$currPos++;
} else {
s3 = peg$FAILED;
{
peg$fail(peg$c15);
}
}
if (s3 !== peg$FAILED) {
s4 = peg$parse_();
if (s4 !== peg$FAILED) {
s5 = peg$parsealternation();
if (s5 !== peg$FAILED) {
s1 = peg$c16(s1, s5);
s0 = s1;
} else {
peg$currPos = s0;
s0 = peg$FAILED;
}
} else {
peg$currPos = s0;
s0 = peg$FAILED;
}
} else {
peg$currPos = s0;
s0 = peg$FAILED;
}
} else {
peg$currPos = s0;
s0 = peg$FAILED;
}
} else {
peg$currPos = s0;
s0 = peg$FAILED;
}
if (s0 === peg$FAILED) {
s0 = peg$parseconcatenation();
}
return s0;
}
function peg$parseconcatenation() {
var s0, s1, s2, s3;
s0 = peg$currPos;
s1 = peg$parserepeat();
if (s1 !== peg$FAILED) {
s2 = peg$parse_();
if (s2 !== peg$FAILED) {
s3 = peg$parseconcatenation();
if (s3 !== peg$FAILED) {
s1 = peg$c17(s1, s3);
s0 = s1;
} else {
peg$currPos = s0;
s0 = peg$FAILED;
}
} else {
peg$currPos = s0;
s0 = peg$FAILED;
}
} else {
peg$currPos = s0;
s0 = peg$FAILED;
}
if (s0 === peg$FAILED) {
s0 = peg$parserepeat();
}
return s0;
}
function peg$parserepeat() {
var s0, s1, s2, s3, s4, s5, s6;
s0 = peg$currPos;
s1 = peg$parsename();
if (s1 !== peg$FAILED) {
if (input.charCodeAt(peg$currPos) === 58) {
s2 = peg$c18;
peg$currPos++;
} else {
s2 = peg$FAILED;
{
peg$fail(peg$c19);
}
}
if (s2 !== peg$FAILED) {
s3 = peg$parserepeat();
if (s3 !== peg$FAILED) {
s1 = peg$c20(s1, s3);
s0 = s1;
} else {
peg$currPos = s0;
s0 = peg$FAILED;
}
} else {
peg$currPos = s0;
s0 = peg$FAILED;
}
} else {
peg$currPos = s0;
s0 = peg$FAILED;
}
if (s0 === peg$FAILED) {
s0 = peg$currPos;
s1 = peg$parseterm();
if (s1 !== peg$FAILED) {
if (input.charCodeAt(peg$currPos) === 42) {
s2 = peg$c21;
peg$currPos++;
} else {
s2 = peg$FAILED;
{
peg$fail(peg$c22);
}
}
if (s2 !== peg$FAILED) {
s1 = peg$c23(s1);
s0 = s1;
} else {
peg$currPos = s0;
s0 = peg$FAILED;
}
} else {
peg$currPos = s0;
s0 = peg$FAILED;
}
if (s0 === peg$FAILED) {
s0 = peg$currPos;
s1 = peg$parseterm();
if (s1 !== peg$FAILED) {
if (input.charCodeAt(peg$currPos) === 63) {
s2 = peg$c24;
peg$currPos++;
} else {
s2 = peg$FAILED;
{
peg$fail(peg$c25);
}
}
if (s2 !== peg$FAILED) {
s1 = peg$c26(s1);
s0 = s1;
} else {
peg$currPos = s0;
s0 = peg$FAILED;
}
} else {
peg$currPos = s0;
s0 = peg$FAILED;
}
if (s0 === peg$FAILED) {
s0 = peg$currPos;
s1 = peg$parseterm();
if (s1 !== peg$FAILED) {
if (input.charCodeAt(peg$currPos) === 43) {
s2 = peg$c27;
peg$currPos++;
} else {
s2 = peg$FAILED;
{
peg$fail(peg$c28);
}
}
if (s2 !== peg$FAILED) {
s1 = peg$c29(s1);
s0 = s1;
} else {
peg$currPos = s0;
s0 = peg$FAILED;
}
} else {
peg$currPos = s0;
s0 = peg$FAILED;
}
if (s0 === peg$FAILED) {
s0 = peg$currPos;
s1 = peg$parseterm();
if (s1 !== peg$FAILED) {
if (input.charCodeAt(peg$currPos) === 123) {
s2 = peg$c30;
peg$currPos++;
} else {
s2 = peg$FAILED;
{
peg$fail(peg$c31);
}
}
if (s2 !== peg$FAILED) {
s3 = peg$parsenumber();
if (s3 !== peg$FAILED) {
if (input.charCodeAt(peg$currPos) === 125) {
s4 = peg$c32;
peg$currPos++;
} else {
s4 = peg$FAILED;
{
peg$fail(peg$c33);
}
}
if (s4 !== peg$FAILED) {
s1 = peg$c34(s1, s3);
s0 = s1;
} else {
peg$currPos = s0;
s0 = peg$FAILED;
}
} else {
peg$currPos = s0;
s0 = peg$FAILED;
}
} else {
peg$currPos = s0;
s0 = peg$FAILED;
}
} else {
peg$currPos = s0;
s0 = peg$FAILED;
}
if (s0 === peg$FAILED) {
s0 = peg$currPos;
s1 = peg$parseterm();
if (s1 !== peg$FAILED) {
if (input.charCodeAt(peg$currPos) === 123) {
s2 = peg$c30;
peg$currPos++;
} else {
s2 = peg$FAILED;
{
peg$fail(peg$c31);
}
}
if (s2 !== peg$FAILED) {
s3 = peg$parsenumber();
if (s3 !== peg$FAILED) {
if (input.charCodeAt(peg$currPos) === 44) {
s4 = peg$c35;
peg$currPos++;
} else {
s4 = peg$FAILED;
{
peg$fail(peg$c36);
}
}
if (s4 !== peg$FAILED) {
if (input.charCodeAt(peg$currPos) === 125) {
s5 = peg$c32;
peg$currPos++;
} else {
s5 = peg$FAILED;
{
peg$fail(peg$c33);
}
}
if (s5 !== peg$FAILED) {
s1 = peg$c37(s1, s3);
s0 = s1;
} else {
peg$currPos = s0;
s0 = peg$FAILED;
}
} else {
peg$currPos = s0;
s0 = peg$FAILED;
}
} else {
peg$currPos = s0;
s0 = peg$FAILED;
}
} else {
peg$currPos = s0;
s0 = peg$FAILED;
}
} else {
peg$currPos = s0;
s0 = peg$FAILED;
}
if (s0 === peg$FAILED) {
s0 = peg$currPos;
s1 = peg$parseterm();
if (s1 !== peg$FAILED) {
if (input.charCodeAt(peg$currPos) === 123) {
s2 = peg$c30;
peg$currPos++;
} else {
s2 = peg$FAILED;
{
peg$fail(peg$c31);
}
}
if (s2 !== peg$FAILED) {
if (input.charCodeAt(peg$currPos) === 44) {
s3 = peg$c35;
peg$currPos++;
} else {
s3 = peg$FAILED;
{
peg$fail(peg$c36);
}
}
if (s3 !== peg$FAILED) {
s4 = peg$parsenumber();
if (s4 !== peg$FAILED) {
if (input.charCodeAt(peg$currPos) === 125) {
s5 = peg$c32;
peg$currPos++;
} else {
s5 = peg$FAILED;
{
peg$fail(peg$c33);
}
}
if (s5 !== peg$FAILED) {
s1 = peg$c38(s1, s4);
s0 = s1;
} else {
peg$currPos = s0;
s0 = peg$FAILED;
}
} else {
peg$currPos = s0;
s0 = peg$FAILED;
}
} else {
peg$currPos = s0;
s0 = peg$FAILED;
}
} else {
peg$currPos = s0;
s0 = peg$FAILED;
}
} else {
peg$currPos = s0;
s0 = peg$FAILED;
}
if (s0 === peg$FAILED) {
s0 = peg$currPos;
s1 = peg$parseterm();
if (s1 !== peg$FAILED) {
if (input.charCodeAt(peg$currPos) === 123) {
s2 = peg$c30;
peg$currPos++;
} else {
s2 = peg$FAILED;
{
peg$fail(peg$c31);
}
}
if (s2 !== peg$FAILED) {
s3 = peg$parsenumber();
if (s3 !== peg$FAILED) {
if (input.charCodeAt(peg$currPos) === 44) {
s4 = peg$c35;
peg$currPos++;
} else {
s4 = peg$FAILED;
{
peg$fail(peg$c36);
}
}
if (s4 !== peg$FAILED) {
s5 = peg$parsenumber();
if (s5 !== peg$FAILED) {
if (input.charCodeAt(peg$currPos) === 125) {
s6 = peg$c32;
peg$currPos++;
} else {
s6 = peg$FAILED;
{
peg$fail(peg$c33);
}
}
if (s6 !== peg$FAILED) {
s1 = peg$c39(s1, s3, s5);
s0 = s1;
} else {
peg$currPos = s0;
s0 = peg$FAILED;
}
} else {
peg$currPos = s0;
s0 = peg$FAILED;
}
} else {
peg$currPos = s0;
s0 = peg$FAILED;
}
} else {
peg$currPos = s0;
s0 = peg$FAILED;
}
} else {
peg$currPos = s0;
s0 = peg$FAILED;
}
} else {
peg$currPos = s0;
s0 = peg$FAILED;
}
if (s0 === peg$FAILED) {
s0 = peg$parseterm();
}
}
}
}
}
}
}
}
return s0;
}
function peg$parseterm() {
var s0, s1, s2, s3;
s0 = peg$parsevariable();
if (s0 === peg$FAILED) {
s0 = peg$currPos;
s1 = peg$parsenumber();
if (s1 !== peg$FAILED) {
s1 = peg$c40(s1);
}
s0 = s1;
if (s0 === peg$FAILED) {
s0 = peg$currPos;
if (input.charCodeAt(peg$currPos) === 40) {
s1 = peg$c41;
peg$currPos++;
} else {
s1 = peg$FAILED;
{
peg$fail(peg$c42);
}
}
if (s1 !== peg$FAILED) {
s2 = peg$parsealternation();
if (s2 !== peg$FAILED) {
if (input.charCodeAt(peg$currPos) === 41) {
s3 = peg$c43;
peg$currPos++;
} else {
s3 = peg$FAILED;
{
peg$fail(peg$c44);
}
}
if (s3 !== peg$FAILED) {
s1 = peg$c45(s2);
s0 = s1;
} else {
peg$currPos = s0;
s0 = peg$FAILED;
}
} else {
peg$currPos = s0;
s0 = peg$FAILED;
}
} else {
peg$currPos = s0;
s0 = peg$FAILED;
}
}
}
return s0;
}
function peg$parsename() {
var s0, s1, s2, s3;
s0 = peg$currPos;
s1 = peg$parsename_start_char();
if (s1 !== peg$FAILED) {
s2 = [];
s3 = peg$parsename_char();
while (s3 !== peg$FAILED) {
s2.push(s3);
s3 = peg$parsename_char();
}
if (s2 !== peg$FAILED) {
s1 = peg$c47(s1, s2);
s0 = s1;
} else {
peg$currPos = s0;
s0 = peg$FAILED;
}
} else {
peg$currPos = s0;
s0 = peg$FAILED;
}
return s0;
}
function peg$parsename_start_char() {
var s0;
if (input.charCodeAt(peg$currPos) === 95) {
s0 = peg$c48;
peg$currPos++;
} else {
s0 = peg$FAILED;
{
peg$fail(peg$c49);
}
}
if (s0 === peg$FAILED) {
if (peg$c50.test(input.charAt(peg$currPos))) {
s0 = input.charAt(peg$currPos);
peg$currPos++;
} else {
s0 = peg$FAILED;
{
peg$fail(peg$c51);
}
}
}
return s0;
}
function peg$parsename_char() {
var s0;
s0 = peg$parsename_start_char();
if (s0 === peg$FAILED) {
if (peg$c52.test(input.charAt(peg$currPos))) {
s0 = input.charAt(peg$currPos);
peg$currPos++;
} else {
s0 = peg$FAILED;
{
peg$fail(peg$c53);
}
}
}
return s0;
}
function peg$parsenumber() {
var s0, s1, s2;
s0 = peg$currPos;
s1 = [];
if (peg$c52.test(input.charAt(peg$currPos))) {
s2 = input.charAt(peg$currPos);
peg$currPos++;
} else {
s2 = peg$FAILED;
{
peg$fail(peg$c53);
}
}
if (s2 !== peg$FAILED) {
while (s2 !== peg$FAILED) {
s1.push(s2);
if (peg$c52.test(input.charAt(peg$currPos))) {
s2 = input.charAt(peg$currPos);
peg$currPos++;
} else {
s2 = peg$FAILED;
{
peg$fail(peg$c53);
}
}
}
} else {
s1 = peg$FAILED;
}
if (s1 !== peg$FAILED) {
s1 = peg$c54(s1);
}
s0 = s1;
return s0;
}
function peg$parse_() {
var s0, s1;
s0 = [];
if (peg$c55.test(input.charAt(peg$currPos))) {
s1 = input.charAt(peg$currPos);
peg$currPos++;
} else {
s1 = peg$FAILED;
{
peg$fail(peg$c56);
}
}
while (s1 !== peg$FAILED) {
s0.push(s1);
if (peg$c55.test(input.charAt(peg$currPos))) {
s1 = input.charAt(peg$currPos);
peg$currPos++;
} else {
s1 = peg$FAILED;
{
peg$fail(peg$c56);
}
}
}
return s0;
}
var n = nodes;
peg$result = peg$startRuleFunction();
if (peg$result !== peg$FAILED && peg$currPos === input.length) {
return peg$result;
} else {
if (peg$result !== peg$FAILED && peg$currPos < input.length) {
peg$fail(peg$endExpectation());
}
throw peg$buildStructuredError(peg$maxFailExpected, peg$maxFailPos < input.length ? input.charAt(peg$maxFailPos) : null, peg$maxFailPos < input.length ? peg$computeLocation(peg$maxFailPos, peg$maxFailPos + 1) : peg$computeLocation(peg$maxFailPos, peg$maxFailPos));
}
}
var grammar = {
SyntaxError: peg$SyntaxError,
parse: peg$parse
};
/**
* Processes a list of statements into a symbol table
*/
class SymbolTable {
constructor(statements, externalSymbols = {}) {
this.variables = {};
this.symbols = {};
this.main = null;
this.size = 0;
this.addExternalSymbols(externalSymbols);
this.process(statements);
}
addExternalSymbols(externalSymbols) {
for (var key in externalSymbols) {
this.variables[key] = new Literal(externalSymbols[key]);
this.symbols[key] = externalSymbols[key];
this.size++;
}
}
process(statements) {
for (var statement of statements) {
if (statement instanceof Assignment) {
this.variables[statement.variable.name] = this.processExpression(statement.expression);
if (statement.expression instanceof Literal) {
this.symbols[statement.variable.name] = statement.expression.value;
this.size++;
}
}
}
this.main = this.variables.main;
if (!this.main) {
throw new Error('No main variable declaration found');
}
}
processExpression(expr) {
// Process children
for (var key in expr) {
if (expr[key] instanceof Node) {
expr[key] = this.processExpression(expr[key]);
}
} // Replace variable references with their values
if (expr instanceof Variable) {
var value = this.variables[expr.name];
if (value == null) throw new Error("Undeclared indentifier ".concat(expr.name));
expr = this.processExpression(value.copy());
}
return expr;
}
}
var END_MARKER = new EndMarker();
/**
* This is an implementation of the direct regular expression to DFA algorithm described
* in section 3.9.5 of "Compilers: Principles, Techniques, and Tools" by Aho,
* Lam, Sethi, and Ullman. http://dragonbook.stanford.edu
* There is a PDF of the book here:
* http://www.informatik.uni-bremen.de/agbkb/lehre/ccfl/Material/ALSUdragonbook.pdf
*/
function buildDFA(root, numSymbols) {
root = new Concatenation(root, END_MARKER);
root.calcFollowpos();
var failState = new State(new Set(), numSymbols);
var initialState = new State(root.firstpos, numSymbols);
var dstates = [failState, initialState]; // while there is an unmarked state S in dstates
while (1) {
var s = null;
for (var j = 1; j < dstates.length; j++) {
if (!dstates[j].marked) {
s = dstates[j];
break;
}
}
if (s == null) {
break;
} // mark S
s.marked = true; // for each input symbol a
for (var a = 0; a < numSymbols; a++) {
// let U be the union of followpos(p) for all
// p in S that correspond to a
var u = new Set();
for (var p of s.positions) {
if (p instanceof Literal && p.value === a) {
addAll(u, p.followpos);
}
}
if (u.size === 0) {
continue;
} // if U is not in dstates
var ux = -1;
for (var i = 0; i < dstates.length; i++) {
if (equal(u, dstates[i].positions)) {
ux = i;
break;
}
}
if (ux === -1) {
// Add U as an unmarked state to dstates
dstates.push(new State(u, numSymbols));
ux = dstates.length - 1;
}
s.transitions[a] = ux;
}
}
return dstates;
}
class State {
constructor(positions, len) {
this.positions = positions;
this.transitions = new Uint16Array(len);
this.accepting = positions.has(END_MARKER);
this.marked = false;
this.tags = new Set();
for (var pos of positions) {
if (pos instanceof Tag) {
this.tags.add(pos.name);
}
}
}
}
var INITIAL_STATE = 1;
var FAIL_STATE = 0;
/**
* A StateMachine represents a deterministic finite automaton.
* It can perform matches over a sequence of values, similar to a regular expression.
*/
class StateMachine {
constructor(dfa) {
this.stateTable = dfa.stateTable;
this.accepting = dfa.accepting;
this.tags = dfa.tags;
}
/**
* Returns an iterable object that yields pattern matches over the input sequence.
* Matches are of the form [startIndex, endIndex, tags].
*/
match(str) {
var self = this;
return {
*[Symbol.iterator]() {
var state = INITIAL_STATE;
var startRun = null;
var lastAccepting = null;
var lastState = null;
for (var p = 0; p < str.length; p++) {
var c = str[p];
lastState = state;
state = self.stateTable[state][c];
if (state === FAIL_STATE) {
// yield the last match if any
if (startRun != null && lastAccepting != null && lastAccepting >= startRun) {
yield [startRun, lastAccepting, self.tags[lastState]];
} // reset the state as if we started over from the initial state
state = self.stateTable[INITIAL_STATE][c];
startRun = null;
} // start a run if not in the failure state
if (state !== FAIL_STATE && startRun == null) {
startRun = p;
} // if accepting, mark the potential match end
if (self.accepting[state]) {
lastAccepting = p;
} // reset the state to the initial state if we get into the failure state
if (state === FAIL_STATE) {
state = INITIAL_STATE;
}
} // yield the last match if any
if (startRun != null && lastAccepting != null && lastAccepting >= startRun) {
yield [startRun, lastAccepting, self.tags[state]];
}
}
};
}
/**
* For each match over the input sequence, action functions matching
* the tag definitions in the input pattern are called with the startIndex,
* endIndex, and sub-match sequence.
*/
apply(str, actions) {
for (var [start, end, tags] of this.match(str)) {
for (var tag of tags) {
if (typeof actions[tag] === 'function') {
actions[tag](start, end, str.slice(start, end + 1));
}
}
}
}
}
function parse(string, externalSymbols) {
var ast = grammar.parse(string);
return new SymbolTable(ast, externalSymbols);
}
function build(symbolTable) {
var states = buildDFA(symbolTable.main, symbolTable.size);
return new StateMachine({
stateTable: states.map(s => Array.from(s.transitions)),
accepting: states.map(s => s.accepting),
tags: states.map(s => Array.from(s.tags))
});
}
function compile(string, externalSymbols) {
return build(parse(string, externalSymbols));
}
exports.build = build;
exports.default = compile;
exports.parse = parse;
//# sourceMappingURL=compile.js.map