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ng-annotate-main.js
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ng-annotate-main.js
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// ng-annotate-main.js
// MIT licensed, see LICENSE file
// Copyright (c) 2013-2015 Olov Lassus <olov.lassus@gmail.com>
"use strict";
const fmt = require("simple-fmt");
const is = require("simple-is");
const alter = require("alter");
const traverse = require("ordered-ast-traverse");
const EOL = require("os").EOL;
const assert = require("assert");
const ngInject = require("./nginject");
const generateSourcemap = require("./generate-sourcemap");
const Lut = require("./lut");
const scopeTools = require("./scopetools");
const stringmap = require("stringmap");
const require_acorn_t0 = Date.now();
const parser = require("acorn").parse;
const require_acorn_t1 = Date.now();
const chainedRouteProvider = 1;
const chainedUrlRouterProvider = 2;
const chainedStateProvider = 3;
const chainedRegular = 4;
function match(node, ctx, matchPlugins) {
const isMethodCall = (
node.type === "CallExpression" &&
node.callee.type === "MemberExpression" &&
node.callee.computed === false
);
// matchInjectorInvoke must happen before matchRegular
// to prevent false positive ($injector.invoke() outside module)
// matchProvide must happen before matchRegular
// to prevent regular from matching it as a short-form
const matchMethodCalls = (isMethodCall &&
(matchInjectorInvoke(node) || matchProvide(node, ctx) || matchRegular(node, ctx) || matchNgRoute(node) || matchMaterialShowModalOpen(node) || matchNgUi(node) || matchHttpProvider(node)));
return matchMethodCalls ||
(matchPlugins && matchPlugins(node)) ||
matchDirectiveReturnObject(node) ||
matchProviderGet(node);
}
function matchMaterialShowModalOpen(node) {
// $mdDialog.show({.. controller: fn, resolve: {f: function($scope) {}, ..}});
// $mdToast.show({.. controller: fn, resolve: {f: function($scope) {}, ..}});
// $mdBottomSheet.show({.. controller: fn, resolve: {f: function($scope) {}, ..}});
// $modal.open({.. controller: fn, resolve: {f: function($scope) {}, ..}});
// we already know that node is a (non-computed) method call
const callee = node.callee;
const obj = callee.object; // identifier or expression
const method = callee.property; // identifier
const args = node.arguments;
if (obj.type === "Identifier" &&
((obj.name === "$modal" && method.name === "open") || (is.someof(obj.name, ["$mdDialog", "$mdToast", "$mdBottomSheet"]) && method.name === "show")) &&
args.length === 1 && args[0].type === "ObjectExpression") {
const props = args[0].properties;
const res = [matchProp("controller", props)];
res.push.apply(res, matchResolve(props));
return res.filter(Boolean);
}
return false;
}
function matchDirectiveReturnObject(node) {
// only matches inside directives
// return { .. controller: function($scope, $timeout), ...}
return limit("directive", node.type === "ReturnStatement" &&
node.argument && node.argument.type === "ObjectExpression" &&
matchProp("controller", node.argument.properties));
}
function limit(name, node) {
if (node && !node.$limitToMethodName) {
node.$limitToMethodName = name;
}
return node;
}
function matchProviderGet(node) {
// only matches inside providers
// (this|self|that).$get = function($scope, $timeout)
// { ... $get: function($scope, $timeout), ...}
let memberExpr;
let self;
return limit("provider", (node.type === "AssignmentExpression" && (memberExpr = node.left).type === "MemberExpression" &&
memberExpr.property.name === "$get" &&
((self = memberExpr.object).type === "ThisExpression" || (self.type === "Identifier" && is.someof(self.name, ["self", "that"]))) &&
node.right) ||
(node.type === "ObjectExpression" && matchProp("$get", node.properties)));
}
function matchNgRoute(node) {
// $routeProvider.when("path", {
// ...
// controller: function($scope) {},
// resolve: {f: function($scope) {}, ..}
// })
// we already know that node is a (non-computed) method call
const callee = node.callee;
const obj = callee.object; // identifier or expression
if (!(obj.$chained === chainedRouteProvider || (obj.type === "Identifier" && obj.name === "$routeProvider"))) {
return false;
}
node.$chained = chainedRouteProvider;
const method = callee.property; // identifier
if (method.name !== "when") {
return false;
}
const args = node.arguments;
if (args.length !== 2) {
return false;
}
const configArg = last(args)
if (configArg.type !== "ObjectExpression") {
return false;
}
const props = configArg.properties;
const res = [
matchProp("controller", props)
];
// {resolve: ..}
res.push.apply(res, matchResolve(props));
const filteredRes = res.filter(Boolean);
return (filteredRes.length === 0 ? false : filteredRes);
}
function matchNgUi(node) {
// $stateProvider.state("myState", {
// ...
// controller: function($scope)
// controllerProvider: function($scope)
// templateProvider: function($scope)
// onEnter: function($scope)
// onExit: function($scope)
// });
// $stateProvider.state("myState", {... resolve: {f: function($scope) {}, ..} ..})
// $stateProvider.state("myState", {... views: {... somename: {... controller: fn, controllerProvider: fn, templateProvider: fn, resolve: {f: fn}}}})
//
// stateHelperProvider.setNestedState({ sameasregularstate, children: [sameasregularstate, ..]})
// stateHelperProvider.setNestedState({ sameasregularstate, children: [sameasregularstate, ..]}, true)
//
// $urlRouterProvider.when(.., function($scope) {})
//
// $modal.open see matchMaterialShowModalOpen
// we already know that node is a (non-computed) method call
const callee = node.callee;
const obj = callee.object; // identifier or expression
const method = callee.property; // identifier
const args = node.arguments;
// shortcut for $urlRouterProvider.when(.., function($scope) {})
if (obj.$chained === chainedUrlRouterProvider || (obj.type === "Identifier" && obj.name === "$urlRouterProvider")) {
node.$chained = chainedUrlRouterProvider;
if (method.name === "when" && args.length >= 1) {
return last(args);
}
return false;
}
// everything below is for $stateProvider and stateHelperProvider alone
if (!(obj.$chained === chainedStateProvider || (obj.type === "Identifier" && is.someof(obj.name, ["$stateProvider", "stateHelperProvider"])))) {
return false;
}
node.$chained = chainedStateProvider;
if (is.noneof(method.name, ["state", "setNestedState"])) {
return false;
}
// $stateProvider.state({ ... }) and $stateProvider.state("name", { ... })
// stateHelperProvider.setNestedState({ .. }) and stateHelperProvider.setNestedState({ .. }, true)
if (!(args.length >= 1 && args.length <= 2)) {
return false;
}
const configArg = (method.name === "state" ? last(args) : args[0]);
const res = [];
recursiveMatch(configArg);
const filteredRes = res.filter(Boolean);
return (filteredRes.length === 0 ? false : filteredRes);
function recursiveMatch(objectExpressionNode) {
if (!objectExpressionNode || objectExpressionNode.type !== "ObjectExpression") {
return false;
}
const properties = objectExpressionNode.properties;
matchStateProps(properties, res);
const childrenArrayExpression = matchProp("children", properties);
const children = childrenArrayExpression && childrenArrayExpression.elements;
if (!children) {
return;
}
children.forEach(recursiveMatch);
}
function matchStateProps(props, res) {
const simple = [
matchProp("controller", props),
matchProp("controllerProvider", props),
matchProp("templateProvider", props),
matchProp("onEnter", props),
matchProp("onExit", props),
];
res.push.apply(res, simple);
// {resolve: ..}
res.push.apply(res, matchResolve(props));
// {view: ...}
const viewObject = matchProp("views", props);
if (viewObject && viewObject.type === "ObjectExpression") {
viewObject.properties.forEach(function(prop) {
if (prop.value.type === "ObjectExpression") {
res.push(matchProp("controller", prop.value.properties));
res.push(matchProp("controllerProvider", prop.value.properties));
res.push(matchProp("templateProvider", prop.value.properties));
res.push.apply(res, matchResolve(prop.value.properties));
}
});
}
}
}
function matchInjectorInvoke(node) {
// $injector.invoke(function($compile) { ... });
// we already know that node is a (non-computed) method call
const callee = node.callee;
const obj = callee.object; // identifier or expression
const method = callee.property; // identifier
return method.name === "invoke" &&
obj.type === "Identifier" && obj.name === "$injector" &&
node.arguments.length >= 1 && node.arguments;
}
function matchHttpProvider(node) {
// $httpProvider.interceptors.push(function($scope) {});
// $httpProvider.responseInterceptors.push(function($scope) {});
// we already know that node is a (non-computed) method call
const callee = node.callee;
const obj = callee.object; // identifier or expression
const method = callee.property; // identifier
return (method.name === "push" &&
obj.type === "MemberExpression" && !obj.computed &&
obj.object.name === "$httpProvider" && is.someof(obj.property.name, ["interceptors", "responseInterceptors"]) &&
node.arguments.length >= 1 && node.arguments);
}
function matchProvide(node, ctx) {
// $provide.decorator("foo", function($scope) {});
// $provide.service("foo", function($scope) {});
// $provide.factory("foo", function($scope) {});
// $provide.provider("foo", function($scope) {});
// we already know that node is a (non-computed) method call
const callee = node.callee;
const obj = callee.object; // identifier or expression
const method = callee.property; // identifier
const args = node.arguments;
const target = obj.type === "Identifier" && obj.name === "$provide" &&
is.someof(method.name, ["decorator", "service", "factory", "provider"]) &&
args.length === 2 && args[1];
if (target) {
target.$methodName = method.name;
if (ctx.rename) {
// for eventual rename purposes
return args;
}
}
return target;
}
function matchRegular(node, ctx) {
// we already know that node is a (non-computed) method call
const callee = node.callee;
const obj = callee.object; // identifier or expression
const method = callee.property; // identifier
// short-cut implicit config special case:
// angular.module("MyMod", function(a) {})
if (obj.name === "angular" && method.name === "module") {
const args = node.arguments;
if (args.length >= 2) {
node.$chained = chainedRegular;
return last(args);
}
}
const matchAngularModule = (obj.$chained === chainedRegular || isReDef(obj, ctx) || isLongDef(obj)) &&
is.someof(method.name, ["provider", "value", "constant", "bootstrap", "config", "factory", "directive", "filter", "run", "controller", "service", "animation", "invoke"]);
if (!matchAngularModule) {
return false;
}
node.$chained = chainedRegular;
if (is.someof(method.name, ["value", "constant", "bootstrap"])) {
return false; // affects matchAngularModule because of chaining
}
const args = node.arguments;
const target = (is.someof(method.name, ["config", "run"]) ?
args.length === 1 && args[0] :
args.length === 2 && args[0].type === "Literal" && is.string(args[0].value) && args[1]);
if (target) {
target.$methodName = method.name;
}
if (ctx.rename && args.length === 2 && target) {
// for eventual rename purposes
const somethingNameLiteral = args[0];
return [somethingNameLiteral, target];
}
return target;
}
// matches with default regexp
// *.controller("MyCtrl", function($scope, $timeout) {});
// *.*.controller("MyCtrl", function($scope, $timeout) {});
// matches with --regexp "^require(.*)$"
// require("app-module").controller("MyCtrl", function($scope) {});
function isReDef(node, ctx) {
return ctx.re.test(ctx.srcForRange(node.range));
}
// Long form: angular.module(*).controller("MyCtrl", function($scope, $timeout) {});
function isLongDef(node) {
return node.callee &&
node.callee.object && node.callee.object.name === "angular" &&
node.callee.property && node.callee.property.name === "module";
}
function last(arr) {
return arr[arr.length - 1];
}
function matchProp(name, props) {
for (let i = 0; i < props.length; i++) {
const prop = props[i];
if ((prop.key.type === "Identifier" && prop.key.name === name) ||
(prop.key.type === "Literal" && prop.key.value === name)) {
return prop.value; // FunctionExpression or ArrayExpression
}
}
return null;
}
function matchResolve(props) {
const resolveObject = matchProp("resolve", props);
if (resolveObject && resolveObject.type === "ObjectExpression") {
return resolveObject.properties.map(function(prop) {
return prop.value;
});
}
return [];
};
function renamedString(ctx, originalString) {
if (ctx.rename) {
return ctx.rename.get(originalString) || originalString;
}
return originalString;
}
function stringify(ctx, arr, quot) {
return "[" + arr.map(function(arg) {
return quot + renamedString(ctx, arg.name) + quot;
}).join(", ") + "]";
}
function parseExpressionOfType(str, type) {
const node = parser(str).body[0].expression;
assert(node.type === type);
return node;
}
// stand-in for not having a jsshaper-style ref's
function replaceNodeWith(node, newNode) {
let done = false;
const parent = node.$parent;
const keys = Object.keys(parent);
keys.forEach(function(key) {
if (parent[key] === node) {
parent[key] = newNode;
done = true;
}
});
if (done) {
return;
}
// second pass, now check arrays
keys.forEach(function(key) {
if (Array.isArray(parent[key])) {
const arr = parent[key];
for (let i = 0; i < arr.length; i++) {
if (arr[i] === node) {
arr[i] = newNode;
done = true;
}
}
}
});
assert(done);
}
function insertArray(ctx, functionExpression, fragments, quot) {
const args = stringify(ctx, functionExpression.params, quot);
fragments.push({
start: functionExpression.range[0],
end: functionExpression.range[0],
str: args.slice(0, -1) + ", ",
loc: {
start: functionExpression.loc.start,
end: functionExpression.loc.start
}
});
fragments.push({
start: functionExpression.range[1],
end: functionExpression.range[1],
str: "]",
loc: {
start: functionExpression.loc.end,
end: functionExpression.loc.end
}
});
}
function replaceArray(ctx, array, fragments, quot) {
const functionExpression = last(array.elements);
if (functionExpression.params.length === 0) {
return removeArray(array, fragments);
}
const args = stringify(ctx, functionExpression.params, quot);
fragments.push({
start: array.range[0],
end: functionExpression.range[0],
str: args.slice(0, -1) + ", ",
loc: {
start: array.loc.start,
end: functionExpression.loc.start
}
});
}
function removeArray(array, fragments) {
const functionExpression = last(array.elements);
fragments.push({
start: array.range[0],
end: functionExpression.range[0],
str: "",
loc: {
start: array.loc.start,
end: functionExpression.loc.start
}
});
fragments.push({
start: functionExpression.range[1],
end: array.range[1],
str: "",
loc: {
start: functionExpression.loc.end,
end: array.loc.end
}
});
}
function renameProviderDeclarationSite(ctx, literalNode, fragments) {
fragments.push({
start: literalNode.range[0] + 1,
end: literalNode.range[1] - 1,
str: renamedString(ctx, literalNode.value),
loc: {
start: {
line: literalNode.loc.start.line,
column: literalNode.loc.start.column + 1
}, end: {
line: literalNode.loc.end.line,
column: literalNode.loc.end.column - 1
}
}
});
}
function judgeSuspects(ctx) {
const mode = ctx.mode;
const fragments = ctx.fragments;
const quot = ctx.quot;
const blocked = ctx.blocked;
const suspects = makeUnique(ctx.suspects, 1);
for (let n = 0; n < 42; n++) {
// could be while(true), above is just a safety-net
// in practice it will loop just a couple of times
propagateModuleContextAndMethodName(suspects);
if (!setChainedAndMethodNameThroughIifesAndReferences(suspects)) {
break;
}
}
// create final suspects by jumping, following, uniq'ing, blocking
const finalSuspects = makeUnique(suspects.map(function(target) {
const jumped = jumpOverIife(target);
const jumpedAndFollowed = followReference(jumped) || jumped;
if (target.$limitToMethodName && target.$limitToMethodName !== "*never*" && findOuterMethodName(target) !== target.$limitToMethodName) {
return null;
}
if (blocked.indexOf(jumpedAndFollowed) >= 0) {
return null;
}
return jumpedAndFollowed;
}).filter(Boolean), 2);
finalSuspects.forEach(function(target) {
if (target.$chained !== chainedRegular) {
return;
}
if (mode === "rebuild" && isAnnotatedArray(target)) {
replaceArray(ctx, target, fragments, quot);
} else if (mode === "remove" && isAnnotatedArray(target)) {
removeArray(target, fragments);
} else if (is.someof(mode, ["add", "rebuild"]) && isFunctionExpressionWithArgs(target)) {
insertArray(ctx, target, fragments, quot);
} else if (isGenericProviderName(target)) {
renameProviderDeclarationSite(ctx, target, fragments);
} else {
// if it's not array or function-expression, then it's a candidate for foo.$inject = [..]
judgeInjectArraySuspect(target, ctx);
}
});
function propagateModuleContextAndMethodName(suspects) {
suspects.forEach(function(target) {
if (target.$chained !== chainedRegular && isInsideModuleContext(target)) {
target.$chained = chainedRegular;
}
if (!target.$methodName) {
const methodName = findOuterMethodName(target);
if (methodName) {
target.$methodName = methodName;
}
}
});
}
function findOuterMethodName(node) {
for (; node && !node.$methodName; node = node.$parent) {
}
return node ? node.$methodName : null;
}
function setChainedAndMethodNameThroughIifesAndReferences(suspects) {
let modified = false;
suspects.forEach(function(target) {
const jumped = jumpOverIife(target);
if (jumped !== target) { // we did skip an IIFE
if (target.$chained === chainedRegular && jumped.$chained !== chainedRegular) {
modified = true;
jumped.$chained = chainedRegular;
}
if (target.$methodName && !jumped.$methodName) {
modified = true;
jumped.$methodName = target.$methodName;
}
}
const jumpedAndFollowed = followReference(jumped) || jumped;
if (jumpedAndFollowed !== jumped) { // we did follow a reference
if (jumped.$chained === chainedRegular && jumpedAndFollowed.$chained !== chainedRegular) {
modified = true;
jumpedAndFollowed.$chained = chainedRegular;
}
if (jumped.$methodName && !jumpedAndFollowed.$methodName) {
modified = true;
jumpedAndFollowed.$methodName = jumped.$methodName;
}
}
});
return modified;
}
function isInsideModuleContext(node) {
let $parent = node.$parent;
for (; $parent && $parent.$chained !== chainedRegular; $parent = $parent.$parent) {
}
return Boolean($parent);
}
function makeUnique(suspects, val) {
return suspects.filter(function(target) {
if (target.$seen === val) {
return false;
}
target.$seen = val;
return true;
});
}
}
function followReference(node) {
if (!scopeTools.isReference(node)) {
return null;
}
const scope = node.$scope.lookup(node.name);
if (!scope) {
return null;
}
const parent = scope.getNode(node.name).$parent;
const kind = scope.getKind(node.name);
const ptype = parent.type;
if (is.someof(kind, ["const", "let", "var"])) {
assert(ptype === "VariableDeclarator");
// {type: "VariableDeclarator", id: {type: "Identifier", name: "foo"}, init: ..}
return parent;
} else if (kind === "fun") {
assert(ptype === "FunctionDeclaration" || ptype === "FunctionExpression")
// FunctionDeclaration is the common case, i.e.
// function foo(a, b) {}
// FunctionExpression is only applicable for cases similar to
// var f = function asdf(a,b) { mymod.controller("asdf", asdf) };
return parent;
}
// other kinds should not be handled ("param", "caught")
return null;
}
// O(srclength) so should only be used for debugging purposes, else replace with lut
function posToLine(pos, src) {
if (pos >= src.length) {
pos = src.length - 1;
}
if (pos <= -1) {
return -1;
}
let line = 1;
for (let i = 0; i < pos; i++) {
if (src[i] === "\n") {
++line;
}
}
return line;
}
function judgeInjectArraySuspect(node, ctx) {
if (node.type === "VariableDeclaration") {
// suspect can only be a VariableDeclaration (statement) in case of
// explicitly marked via ngInject, not via references because
// references follow to VariableDeclarator (child)
// /*@ngInject*/ var foo = function($scope) {} and
if (node.declarations.length !== 1) {
// more than one declarator => exit
return;
}
// one declarator => jump over declaration into declarator
// rest of code will treat it as any (referenced) declarator
node = node.declarations[0];
}
// onode is a top-level node (inside function block), later verified
// node is inner match, descent in multiple steps
let onode = null;
let declaratorName = null;
if (node.type === "VariableDeclarator") {
onode = node.$parent;
declaratorName = node.id.name;
node = node.init; // var foo = ___;
} else {
onode = node;
}
// suspect must be inside of a block or at the top-level (i.e. inside of node.$parent.body[])
if (!node || !onode.$parent || is.noneof(onode.$parent.type, ["Program", "BlockStatement"])) {
return;
}
const insertPos = {
pos: onode.range[1],
loc: onode.loc.end
};
const isSemicolonTerminated = (ctx.src[insertPos.pos - 1] === ";");
node = jumpOverIife(node);
if (ctx.isFunctionExpressionWithArgs(node)) {
// var x = 1, y = function(a,b) {}, z;
assert(declaratorName);
addRemoveInjectArray(
node.params,
isSemicolonTerminated ? insertPos : {
pos: node.range[1],
loc: node.loc.end
},
declaratorName);
} else if (ctx.isFunctionDeclarationWithArgs(node)) {
// /*@ngInject*/ function foo($scope) {}
addRemoveInjectArray(
node.params,
insertPos,
node.id.name);
} else if (node.type === "ExpressionStatement" && node.expression.type === "AssignmentExpression" &&
ctx.isFunctionExpressionWithArgs(node.expression.right)) {
// /*@ngInject*/ foo.bar[0] = function($scope) {}
const name = ctx.srcForRange(node.expression.left.range);
addRemoveInjectArray(
node.expression.right.params,
isSemicolonTerminated ? insertPos : {
pos: node.expression.right.range[1],
loc: node.expression.right.loc.end
},
name);
} else if (node = followReference(node)) {
// node was a reference and followed node now is either a
// FunctionDeclaration or a VariableDeclarator
// => recurse
judgeInjectArraySuspect(node, ctx);
}
function getIndent(pos) {
const src = ctx.src;
const lineStart = src.lastIndexOf("\n", pos - 1) + 1;
let i = lineStart;
for (; src[i] === " " || src[i] === "\t"; i++) {
}
return src.slice(lineStart, i);
}
function addRemoveInjectArray(params, posAfterFunctionDeclaration, name) {
// if an existing something.$inject = [..] exists then is will always be recycled when rebuilding
const indent = getIndent(posAfterFunctionDeclaration.pos);
let foundSuspectInBody = false;
let existingExpressionStatementWithArray = null;
let troublesomeReturn = false;
onode.$parent.body.forEach(function(bnode) {
if (bnode === onode) {
foundSuspectInBody = true;
}
if (hasInjectArray(bnode)) {
if (existingExpressionStatementWithArray) {
throw fmt("conflicting inject arrays at line {0} and {1}",
posToLine(existingExpressionStatementWithArray.range[0], ctx.src),
posToLine(bnode.range[0], ctx.src));
}
existingExpressionStatementWithArray = bnode;
}
// there's a return statement before our function
if (!foundSuspectInBody && bnode.type === "ReturnStatement") {
troublesomeReturn = bnode;
}
});
assert(foundSuspectInBody);
if (troublesomeReturn && !existingExpressionStatementWithArray) {
posAfterFunctionDeclaration = skipPrevNewline(troublesomeReturn.range[0], troublesomeReturn.loc.start);
}
function hasInjectArray(node) {
let lvalue;
let assignment;
return (node && node.type === "ExpressionStatement" && (assignment = node.expression).type === "AssignmentExpression" &&
assignment.operator === "=" &&
(lvalue = assignment.left).type === "MemberExpression" &&
((lvalue.computed === false && ctx.srcForRange(lvalue.object.range) === name && lvalue.property.name === "$inject") ||
(lvalue.computed === true && ctx.srcForRange(lvalue.object.range) === name && lvalue.property.type === "Literal" && lvalue.property.value === "$inject")));
}
function skipPrevNewline(pos, loc) {
let prevLF = ctx.src.lastIndexOf("\n", pos);
if (prevLF === -1) {
return { pos: pos, loc: loc };
}
if (prevLF >= 1 && ctx.src[prevLF] === "\r") {
--prevLF;
}
if (/\S/g.test(ctx.src.slice(prevLF, pos - 1))) {
return { pos: pos, loc: loc };
}
return {
pos: prevLF,
loc: {
line: loc.line - 1,
column: prevLF - ctx.src.lastIndexOf("\n", prevLF)
}
};
}
const str = fmt("{0}{1}{2}.$inject = {3};", EOL, indent, name, ctx.stringify(ctx, params, ctx.quot));
if (ctx.mode === "rebuild" && existingExpressionStatementWithArray) {
ctx.fragments.push({
start: existingExpressionStatementWithArray.range[0],
end: existingExpressionStatementWithArray.range[1],
str: str,
loc: {
start: existingExpressionStatementWithArray.loc.start,
end: existingExpressionStatementWithArray.loc.end
}
});
} else if (ctx.mode === "remove" && existingExpressionStatementWithArray) {
const start = skipPrevNewline(existingExpressionStatementWithArray.range[0], existingExpressionStatementWithArray.loc.start);
ctx.fragments.push({
start: start.pos,
end: existingExpressionStatementWithArray.range[1],
str: "",
loc: {
start: start.loc,
end: existingExpressionStatementWithArray.loc.end
}
});
} else if (is.someof(ctx.mode, ["add", "rebuild"]) && !existingExpressionStatementWithArray) {
ctx.fragments.push({
start: posAfterFunctionDeclaration.pos,
end: posAfterFunctionDeclaration.pos,
str: str,
loc: {
start: posAfterFunctionDeclaration.loc,
end: posAfterFunctionDeclaration.loc
}
});
}
}
}
function jumpOverIife(node) {
let outerfn;
if (!(node.type === "CallExpression" && (outerfn = node.callee).type === "FunctionExpression")) {
return node;
}
const outerbody = outerfn.body.body;
for (let i = 0; i < outerbody.length; i++) {
const statement = outerbody[i];
if (statement.type === "ReturnStatement") {
return statement.argument;
}
}
return node;
}
function addModuleContextDependentSuspect(target, ctx) {
ctx.suspects.push(target);
}
function addModuleContextIndependentSuspect(target, ctx) {
target.$chained = chainedRegular;
ctx.suspects.push(target);
}
function isAnnotatedArray(node) {
if (node.type !== "ArrayExpression") {
return false;
}
const elements = node.elements;
// last should be a function expression
if (elements.length === 0 || last(elements).type !== "FunctionExpression") {
return false;
}
// all but last should be string literals
for (let i = 0; i < elements.length - 1; i++) {
const n = elements[i];
if (n.type !== "Literal" || !is.string(n.value)) {
return false;
}
}
return true;
}
function isFunctionExpressionWithArgs(node) {
return node.type === "FunctionExpression" && node.params.length >= 1;
}
function isFunctionDeclarationWithArgs(node) {
return node.type === "FunctionDeclaration" && node.params.length >= 1;
}
function isGenericProviderName(node) {
return node.type === "Literal" && is.string(node.value);
}
module.exports = function ngAnnotate(src, options) {
const mode = (options.add && options.remove ? "rebuild" :
options.remove ? "remove" :
options.add ? "add" : null);
if (!mode) {
return {src: src};
}
const quot = options.single_quotes ? "'" : '"';
const re = (options.regexp ? new RegExp(options.regexp) : /^[a-zA-Z0-9_\$\.\s]+$/);
const rename = new stringmap();
if (options.rename) {
options.rename.forEach(function(value) {
rename.set(value.from, value.to);
});
}
let ast;
const stats = {};
// [{type: "Block"|"Line", value: str, range: [from,to]}, ..]
let comments = [];
try {
stats.parser_require_t0 = require_acorn_t0;
stats.parser_require_t1 = require_acorn_t1;
stats.parser_parse_t0 = Date.now();
// acorn
ast = parser(src, {
ecmaVersion: 6,
locations: true,
ranges: true,
onComment: comments,
});
stats.parser_parse_t1 = Date.now();
} catch(e) {
return {
errors: ["error: couldn't process source due to parse error", e.message],
};
}
// append a dummy-node to ast so that lut.findNodeFromPos(lastPos) returns something
ast.body.push({
type: "DebuggerStatement",
range: [ast.range[1], ast.range[1]],
loc: {
start: ast.loc.end,
end: ast.loc.end
}
});
// all source modifications are built up as operations in the
// fragments array, later sent to alter in one shot
const fragments = [];