mirror of
https://gitlab.winehq.org/wine/wine-gecko.git
synced 2024-09-13 09:24:08 -07:00
283 lines
9.4 KiB
JavaScript
283 lines
9.4 KiB
JavaScript
// Condensing an inferred set of types to a JSON description document.
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// This code can be used to, after a library has been analyzed,
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// extract the types defined in that library and dump them as a JSON
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// structure (as parsed by def.js).
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// The idea being that big libraries can be analyzed once, dumped, and
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// then cheaply included in later analysis.
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(function(mod) {
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if (typeof exports == "object" && typeof module == "object") // CommonJS
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return mod(exports, require("./infer"));
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if (typeof define == "function" && define.amd) // AMD
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return define(["exports", "./infer"], mod);
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mod(self.tern || (self.tern = {}), tern); // Plain browser env
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})(function(exports, infer) {
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"use strict";
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exports.condense = function(origins, name, options) {
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if (typeof origins == "string") origins = [origins];
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var state = new State(origins, name || origins[0], options || {});
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runPass(state.passes.preCondenseReach, state);
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state.cx.topScope.path = "<top>";
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state.cx.topScope.reached("", state);
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for (var path in state.roots)
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reach(state.roots[path], null, path, state);
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for (var i = 0; i < state.patchUp.length; ++i)
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patchUpSimpleInstance(state.patchUp[i], state);
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runPass(state.passes.postCondenseReach, state);
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for (var path in state.types)
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store(createPath(path.split("."), state), state.types[path], state);
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for (var path in state.altPaths)
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storeAlt(path, state.altPaths[path], state);
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var hasDef = false;
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for (var _def in state.output["!define"]) { hasDef = true; break; }
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if (!hasDef) delete state.output["!define"];
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runPass(state.passes.postCondense, state);
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return simplify(state.output, state.options.sortOutput);
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};
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function State(origins, name, options) {
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this.origins = origins;
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this.cx = infer.cx();
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this.passes = options.passes || this.cx.parent && this.cx.parent.passes || {};
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this.maxOrigin = -Infinity;
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for (var i = 0; i < origins.length; ++i)
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this.maxOrigin = Math.max(this.maxOrigin, this.cx.origins.indexOf(origins[i]));
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this.output = {"!name": name, "!define": {}};
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this.options = options;
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this.types = Object.create(null);
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this.altPaths = Object.create(null);
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this.patchUp = [];
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this.roots = Object.create(null);
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}
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State.prototype.isTarget = function(origin) {
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return this.origins.indexOf(origin) > -1;
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};
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State.prototype.getSpan = function(node) {
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if (this.options.spans == false || !this.isTarget(node.origin)) return null;
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if (node.span) return node.span;
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var srv = this.cx.parent, file;
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if (!srv || !node.originNode || !(file = srv.findFile(node.origin))) return null;
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var start = node.originNode.start, end = node.originNode.end;
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var pStart = file.asLineChar(start), pEnd = file.asLineChar(end);
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return start + "[" + pStart.line + ":" + pStart.ch + "]-" +
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end + "[" + pEnd.line + ":" + pEnd.ch + "]";
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};
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function pathLen(path) {
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var len = 1, pos = 0, dot;
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while ((dot = path.indexOf(".", pos)) != -1) {
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pos = dot + 1;
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len += path.charAt(pos) == "!" ? 10 : 1;
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}
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return len;
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}
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function isConcrete(path) {
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return !/\!|<i>/.test(path);
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}
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function hop(obj, prop) {
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return Object.prototype.hasOwnProperty.call(obj, prop);
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}
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function isSimpleInstance(o) {
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return o.proto && !(o instanceof infer.Fn) && o.proto != infer.cx().protos.Object &&
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o.proto.hasCtor && !o.hasCtor;
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}
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function reach(type, path, id, state) {
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var actual = type.getType(false);
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if (!actual) return;
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var orig = type.origin || actual.origin, relevant = false;
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if (orig) {
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var origPos = state.cx.origins.indexOf(orig);
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// This is a path that is newer than the code we are interested in.
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if (origPos > state.maxOrigin) return;
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relevant = state.isTarget(orig);
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}
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var newPath = path ? path + "." + id : id, oldPath = actual.path;
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var shorter = !oldPath || pathLen(oldPath) > pathLen(newPath);
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if (shorter) {
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if (!(actual instanceof infer.Prim)) actual.path = newPath;
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if (actual.reached(newPath, state, !relevant) && relevant) {
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var data = state.types[oldPath];
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if (data) {
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delete state.types[oldPath];
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state.altPaths[oldPath] = actual;
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} else data = {type: actual};
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data.span = state.getSpan(type) || (actual != type && state.isTarget(actual.origin) && state.getSpan(actual)) || data.span;
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data.doc = type.doc || (actual != type && state.isTarget(actual.origin) && type.doc) || data.doc;
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data.data = actual.metaData;
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state.types[newPath] = data;
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}
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} else {
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if (relevant) state.altPaths[newPath] = actual;
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}
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}
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function reachTypeOnly(aval, path, id, state) {
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var type = aval.getType();
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if (type) reach(type, path, id, state);
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}
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infer.Prim.prototype.reached = function() {return true;};
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infer.Arr.prototype.reached = function(path, state, concrete) {
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if (!concrete) reachTypeOnly(this.getProp("<i>"), path, "<i>", state);
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return true;
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};
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infer.Fn.prototype.reached = function(path, state, concrete) {
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infer.Obj.prototype.reached.call(this, path, state, concrete);
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if (!concrete) {
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for (var i = 0; i < this.args.length; ++i)
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reachTypeOnly(this.args[i], path, "!" + i, state);
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reachTypeOnly(this.retval, path, "!ret", state);
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}
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return true;
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};
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infer.Obj.prototype.reached = function(path, state, concrete) {
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if (isSimpleInstance(this) && !this.condenseForceInclude) {
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if (state.patchUp.indexOf(this) == -1) state.patchUp.push(this);
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return true;
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} else if (this.proto && !concrete) {
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reach(this.proto, path, "!proto", state);
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}
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var hasProps = false;
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for (var prop in this.props) {
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reach(this.props[prop], path, prop, state);
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hasProps = true;
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}
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if (!hasProps && !this.condenseForceInclude && !(this instanceof infer.Fn)) {
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this.nameOverride = "?";
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return false;
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}
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return true;
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};
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function patchUpSimpleInstance(obj, state) {
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var path = obj.proto.hasCtor.path;
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if (path) {
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obj.nameOverride = "+" + path;
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} else {
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path = obj.path;
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}
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for (var prop in obj.props)
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reach(obj.props[prop], path, prop, state);
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}
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function createPath(parts, state) {
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var base = state.output;
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for (var i = parts.length - 1; i >= 0; --i) if (!isConcrete(parts[i])) {
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var def = parts.slice(0, i + 1).join(".");
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var defs = state.output["!define"];
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if (hop(defs, def)) base = defs[def];
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else defs[def] = base = {};
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parts = parts.slice(i + 1);
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}
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for (var i = 0; i < parts.length; ++i) {
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if (hop(base, parts[i])) base = base[parts[i]];
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else base = base[parts[i]] = {};
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}
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return base;
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}
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function store(out, info, state) {
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var name = typeName(info.type);
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if (name != info.type.path && name != "?") {
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out["!type"] = name;
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} else if (info.type.proto && info.type.proto != state.cx.protos.Object) {
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var protoName = typeName(info.type.proto);
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if (protoName != "?") out["!proto"] = protoName;
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}
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if (info.span) out["!span"] = info.span;
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if (info.doc) out["!doc"] = info.doc;
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if (info.data) out["!data"] = info.data;
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}
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function storeAlt(path, type, state) {
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var parts = path.split("."), last = parts.pop();
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var base = createPath(parts, state);
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if (!hop(base, last)) base[last] = type.nameOverride || type.path;
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}
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var typeNameStack = [];
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function typeName(type) {
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var actual = type.getType(false);
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if (!actual || typeNameStack.indexOf(actual) > -1)
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return actual && actual.path || "?";
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typeNameStack.push(actual);
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var name = actual.typeName();
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typeNameStack.pop();
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return name;
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}
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infer.Prim.prototype.typeName = function() { return this.name; };
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infer.Arr.prototype.typeName = function() {
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return "[" + typeName(this.getProp("<i>")) + "]";
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};
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infer.Fn.prototype.typeName = function() {
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var out = "fn(";
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for (var i = 0; i < this.args.length; ++i) {
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if (i) out += ", ";
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var name = this.argNames[i];
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if (name && name != "?") out += name + ": ";
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out += typeName(this.args[i]);
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}
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out += ")";
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if (this.computeRetSource) {
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out += " -> " + this.computeRetSource;
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} else if (!this.retval.isEmpty()) {
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var rettype = this.retval.getType(false);
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if (rettype) out += " -> " + typeName(rettype);
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}
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return out;
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};
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infer.Obj.prototype.typeName = function() {
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if (this.nameOverride) return this.nameOverride;
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if (!this.path) return "?";
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return this.path;
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};
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function simplify(data, sort) {
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if (typeof data != "object") return data;
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var sawType = false, sawOther = false;
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for (var prop in data) {
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if (prop == "!type") sawType = true;
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else sawOther = true;
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if (prop != "!data")
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data[prop] = simplify(data[prop], sort);
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}
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if (sawType && !sawOther) return data["!type"];
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return sort ? sortObject(data) : data;
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}
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function sortObject(obj) {
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var props = [], out = {};
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for (var prop in obj) props.push({name: prop, val: obj[prop]});
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props.sort(function(a, b) { return a.name < b.name ? -1 : 1; });
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for (var i = 0; i < props.length; ++i)
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out[props[i].name] = props[i].val;
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return out;
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}
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function runPass(functions) {
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if (functions) for (var i = 0; i < functions.length; ++i)
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functions[i].apply(null, Array.prototype.slice.call(arguments, 1));
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}
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});
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