File: /var/www/vhost/disk-apps/pwa.sports-crowd.com/node_modules/@ionic/angular-toolkit/util/ast-util.js
"use strict";
Object.defineProperty(exports, "__esModule", { value: true });
exports.addRouteDeclarationToModule = exports.getRouterModuleDeclaration = exports.getEnvironmentExportName = exports.isImported = exports.addEntryComponentToModule = exports.addBootstrapToModule = exports.addExportToModule = exports.addProviderToModule = exports.addImportToModule = exports.addDeclarationToModule = exports.addSymbolToNgModuleMetadata = exports.getMetadataField = exports.getFirstNgModuleName = exports.getDecoratorMetadata = exports.getContentOfKeyLiteral = exports.insertAfterLastOccurrence = exports.findNode = exports.getSourceNodes = exports.findNodes = exports.insertImport = void 0;
const ts = require("typescript");
const change_1 = require("./change");
/* tslint:disable */
function insertImport(source, fileToEdit, symbolName, fileName, isDefault = false) {
const rootNode = source;
const allImports = findNodes(rootNode, ts.SyntaxKind.ImportDeclaration);
// get nodes that map to import statements from the file fileName
const relevantImports = allImports.filter((node) => {
// StringLiteral of the ImportDeclaration is the import file (fileName in this case).
const importFiles = node
.getChildren()
.filter((child) => child.kind === ts.SyntaxKind.StringLiteral)
.map((n) => n.text);
return importFiles.filter((file) => file === fileName).length === 1;
});
if (relevantImports.length > 0) {
let importsAsterisk = false;
// imports from import file
const imports = [];
relevantImports.forEach((n) => {
Array.prototype.push.apply(imports, findNodes(n, ts.SyntaxKind.Identifier));
if (findNodes(n, ts.SyntaxKind.AsteriskToken).length > 0) {
importsAsterisk = true;
}
});
// if imports * from fileName, don't add symbolName
if (importsAsterisk) {
return new change_1.NoopChange();
}
const importTextNodes = imports.filter((n) => n.text === symbolName);
// insert import if it's not there
if (importTextNodes.length === 0) {
const fallbackPos = findNodes(relevantImports[0], ts.SyntaxKind.CloseBraceToken)[0].getStart() ||
findNodes(relevantImports[0], ts.SyntaxKind.FromKeyword)[0].getStart();
return insertAfterLastOccurrence(imports, `, ${symbolName}`, fileToEdit, fallbackPos);
}
return new change_1.NoopChange();
}
// no such import declaration exists
const useStrict = findNodes(rootNode, ts.SyntaxKind.StringLiteral).filter((n) => n.getText() === 'use strict');
let fallbackPos = 0;
if (useStrict.length > 0) {
fallbackPos = useStrict[0].end;
}
const open = isDefault ? '' : '{ ';
const close = isDefault ? '' : ' }';
// if there are no imports or 'use strict' statement, insert import at beginning of file
const insertAtBeginning = allImports.length === 0 && useStrict.length === 0;
const separator = insertAtBeginning ? '' : ';\n';
const toInsert = `${separator}import ${open}${symbolName}${close}` + ` from '${fileName}'${insertAtBeginning ? ';\n' : ''}`;
return insertAfterLastOccurrence(allImports, toInsert, fileToEdit, fallbackPos, ts.SyntaxKind.StringLiteral);
}
exports.insertImport = insertImport;
//Safe
function findNodes(node, kind, max = Infinity, recursive = false) {
if (!node || max == 0) {
return [];
}
const arr = [];
if (node.kind === kind) {
arr.push(node);
max--;
}
if (max > 0 && (recursive || node.kind !== kind)) {
for (const child of node.getChildren()) {
findNodes(child, kind, max).forEach((node) => {
if (max > 0) {
arr.push(node);
}
max--;
});
if (max <= 0) {
break;
}
}
}
return arr;
}
exports.findNodes = findNodes;
function getSourceNodes(sourceFile) {
const nodes = [sourceFile];
const result = [];
while (nodes.length > 0) {
const node = nodes.shift();
if (node) {
result.push(node);
if (node.getChildCount(sourceFile) >= 0) {
nodes.unshift(...node.getChildren());
}
}
}
return result;
}
exports.getSourceNodes = getSourceNodes;
function findNode(node, kind, text) {
if (node.kind === kind && node.getText() === text) {
// throw new Error(node.getText());
return node;
}
let foundNode = null;
ts.forEachChild(node, (childNode) => {
foundNode = foundNode || findNode(childNode, kind, text);
});
return foundNode;
}
exports.findNode = findNode;
function nodesByPosition(first, second) {
return first.getStart() - second.getStart();
}
function insertAfterLastOccurrence(nodes, toInsert, file, fallbackPos, syntaxKind) {
let lastItem;
for (const node of nodes) {
if (!lastItem || lastItem.getStart() < node.getStart()) {
lastItem = node;
}
}
if (syntaxKind && lastItem) {
lastItem = findNodes(lastItem, syntaxKind).sort(nodesByPosition).pop();
}
if (!lastItem && fallbackPos == undefined) {
throw new Error(`tried to insert ${toInsert} as first occurence with no fallback position`);
}
const lastItemPosition = lastItem ? lastItem.getEnd() : fallbackPos;
return new change_1.InsertChange(file, lastItemPosition, toInsert);
}
exports.insertAfterLastOccurrence = insertAfterLastOccurrence;
function getContentOfKeyLiteral(_source, node) {
if (node.kind == ts.SyntaxKind.Identifier) {
return node.text;
}
else if (node.kind == ts.SyntaxKind.StringLiteral) {
return node.text;
}
else {
return null;
}
}
exports.getContentOfKeyLiteral = getContentOfKeyLiteral;
function _angularImportsFromNode(node) {
const ms = node.moduleSpecifier;
let modulePath;
switch (ms.kind) {
case ts.SyntaxKind.StringLiteral:
modulePath = ms.text;
break;
default:
return {};
}
if (!modulePath.startsWith('@angular/')) {
return {};
}
if (node.importClause) {
if (node.importClause.name) {
// This is of the form `import Name from 'path'`. Ignore.
return {};
}
else if (node.importClause.namedBindings) {
const nb = node.importClause.namedBindings;
if (nb.kind == ts.SyntaxKind.NamespaceImport) {
// This is of the form `import * as name from 'path'`. Return `name.`.
return {
[nb.name.text + '.']: modulePath,
};
}
else {
// This is of the form `import {a,b,c} from 'path'`
const namedImports = nb;
return namedImports.elements
.map((is) => (is.propertyName ? is.propertyName.text : is.name.text))
.reduce((acc, curr) => {
acc[curr] = modulePath;
return acc;
}, {});
}
}
return {};
}
else {
// This is of the form `import 'path';`. Nothing to do.
return {};
}
}
function getDecoratorMetadata(source, identifier, module) {
const angularImports = findNodes(source, ts.SyntaxKind.ImportDeclaration)
.map((node) => _angularImportsFromNode(node))
.reduce((acc, current) => {
for (const key of Object.keys(current)) {
acc[key] = current[key];
}
return acc;
}, {});
return getSourceNodes(source)
.filter((node) => {
return (node.kind == ts.SyntaxKind.Decorator && node.expression.kind == ts.SyntaxKind.CallExpression);
})
.map((node) => node.expression)
.filter((expr) => {
if (expr.expression.kind == ts.SyntaxKind.Identifier) {
const id = expr.expression;
return id.text == identifier && angularImports[id.text] === module;
}
else if (expr.expression.kind == ts.SyntaxKind.PropertyAccessExpression) {
// This covers foo.NgModule when importing * as foo.
const paExpr = expr.expression;
// If the left expression is not an identifier, just give up at that point.
if (paExpr.expression.kind !== ts.SyntaxKind.Identifier) {
return false;
}
const id = paExpr.name.text;
const moduleId = paExpr.expression.text;
return id === identifier && angularImports[moduleId + '.'] === module;
}
return false;
})
.filter((expr) => expr.arguments[0] && expr.arguments[0].kind == ts.SyntaxKind.ObjectLiteralExpression)
.map((expr) => expr.arguments[0]);
}
exports.getDecoratorMetadata = getDecoratorMetadata;
function findClassDeclarationParent(node) {
if (ts.isClassDeclaration(node)) {
return node;
}
return node.parent && findClassDeclarationParent(node.parent);
}
function getFirstNgModuleName(source) {
// First, find the @NgModule decorators.
const ngModulesMetadata = getDecoratorMetadata(source, 'NgModule', '@angular/core');
if (ngModulesMetadata.length === 0) {
return undefined;
}
// Then walk parent pointers up the AST, looking for the ClassDeclaration parent of the NgModule
// metadata.
const moduleClass = findClassDeclarationParent(ngModulesMetadata[0]);
if (!moduleClass || !moduleClass.name) {
return undefined;
}
// Get the class name of the module ClassDeclaration.
return moduleClass.name.text;
}
exports.getFirstNgModuleName = getFirstNgModuleName;
function getMetadataField(node, metadataField) {
return (node.properties
.filter((prop) => ts.isPropertyAssignment(prop))
// Filter out every fields that's not "metadataField". Also handles string literals
// (but not expressions).
.filter(({ name }) => {
return ((ts.isIdentifier(name) || ts.isStringLiteral(name)) && (name === null || name === void 0 ? void 0 : name.getText()) === metadataField);
}));
}
exports.getMetadataField = getMetadataField;
function addSymbolToNgModuleMetadata(source, ngModulePath, metadataField, symbolName, importPath = null) {
const nodes = getDecoratorMetadata(source, 'NgModule', '@angular/core');
let node = nodes[0]; // tslint:disable-line:no-any
// Find the decorator declaration.
if (!node) {
return [];
}
// Get all the children property assignment of object literals.
const matchingProperties = getMetadataField(node, metadataField);
// Get the last node of the array literal.
if (!matchingProperties) {
return [];
}
if (matchingProperties.length == 0) {
// We haven't found the field in the metadata declaration. Insert a new field.
const expr = node;
let position;
let toInsert;
if (expr.properties.length == 0) {
position = expr.getEnd() - 1;
toInsert = ` ${metadataField}: [${symbolName}]\n`;
}
else {
node = expr.properties[expr.properties.length - 1];
position = node.getEnd();
// Get the indentation of the last element, if any.
const text = node.getFullText(source);
const matches = text.match(/^\r?\n\s*/);
if (matches && matches.length > 0) {
toInsert = `,${matches[0]}${metadataField}: [${symbolName}]`;
}
else {
toInsert = `, ${metadataField}: [${symbolName}]`;
}
}
if (importPath !== null) {
return [
new change_1.InsertChange(ngModulePath, position, toInsert),
insertImport(source, ngModulePath, symbolName.replace(/\..*$/, ''), importPath),
];
}
else {
return [new change_1.InsertChange(ngModulePath, position, toInsert)];
}
}
const assignment = matchingProperties[0];
// If it's not an array, nothing we can do really.
if (assignment.initializer.kind !== ts.SyntaxKind.ArrayLiteralExpression) {
return [];
}
const arrLiteral = assignment.initializer;
if (arrLiteral.elements.length == 0) {
// Forward the property.
node = arrLiteral;
}
else {
node = arrLiteral.elements;
}
if (!node) {
// tslint:disable-next-line: no-console
console.error('No app module found. Please add your new class to your component.');
return [];
}
if (Array.isArray(node)) {
const nodeArray = node;
const symbolsArray = nodeArray.map((node) => node.getText());
if (symbolsArray.includes(symbolName)) {
return [];
}
node = node[node.length - 1];
}
let toInsert;
let position = node.getEnd();
if (node.kind == ts.SyntaxKind.ObjectLiteralExpression) {
// We haven't found the field in the metadata declaration. Insert a new
// field.
const expr = node;
if (expr.properties.length == 0) {
position = expr.getEnd() - 1;
toInsert = ` ${symbolName}\n`;
}
else {
// Get the indentation of the last element, if any.
const text = node.getFullText(source);
if (text.match(/^\r?\r?\n/)) {
toInsert = `,${text.match(/^\r?\n\s*/)[0]}${symbolName}`;
}
else {
toInsert = `, ${symbolName}`;
}
}
}
else if (node.kind == ts.SyntaxKind.ArrayLiteralExpression) {
// We found the field but it's empty. Insert it just before the `]`.
position--;
toInsert = `${symbolName}`;
}
else {
// Get the indentation of the last element, if any.
const text = node.getFullText(source);
if (text.match(/^\r?\n/)) {
toInsert = `,${text.match(/^\r?\n(\r?)\s*/)[0]}${symbolName}`;
}
else {
toInsert = `, ${symbolName}`;
}
}
if (importPath !== null) {
return [
new change_1.InsertChange(ngModulePath, position, toInsert),
insertImport(source, ngModulePath, symbolName.replace(/\..*$/, ''), importPath),
];
}
return [new change_1.InsertChange(ngModulePath, position, toInsert)];
}
exports.addSymbolToNgModuleMetadata = addSymbolToNgModuleMetadata;
function addDeclarationToModule(source, modulePath, classifiedName, importPath) {
return addSymbolToNgModuleMetadata(source, modulePath, 'declarations', classifiedName, importPath);
}
exports.addDeclarationToModule = addDeclarationToModule;
function addImportToModule(source, modulePath, classifiedName, importPath) {
return addSymbolToNgModuleMetadata(source, modulePath, 'imports', classifiedName, importPath);
}
exports.addImportToModule = addImportToModule;
function addProviderToModule(source, modulePath, classifiedName, importPath) {
return addSymbolToNgModuleMetadata(source, modulePath, 'providers', classifiedName, importPath);
}
exports.addProviderToModule = addProviderToModule;
function addExportToModule(source, modulePath, classifiedName, importPath) {
return addSymbolToNgModuleMetadata(source, modulePath, 'exports', classifiedName, importPath);
}
exports.addExportToModule = addExportToModule;
function addBootstrapToModule(source, modulePath, classifiedName, importPath) {
return addSymbolToNgModuleMetadata(source, modulePath, 'bootstrap', classifiedName, importPath);
}
exports.addBootstrapToModule = addBootstrapToModule;
function addEntryComponentToModule(source, modulePath, classifiedName, importPath) {
return addSymbolToNgModuleMetadata(source, modulePath, 'entryComponents', classifiedName, importPath);
}
exports.addEntryComponentToModule = addEntryComponentToModule;
function isImported(source, classifiedName, importPath) {
const allNodes = getSourceNodes(source);
const matchingNodes = allNodes
.filter((node) => node.kind === ts.SyntaxKind.ImportDeclaration)
.filter((imp) => imp.moduleSpecifier.kind === ts.SyntaxKind.StringLiteral)
.filter((imp) => {
return imp.moduleSpecifier.text === importPath;
})
.filter((imp) => {
if (!imp.importClause) {
return false;
}
const nodes = findNodes(imp.importClause, ts.SyntaxKind.ImportSpecifier).filter((n) => n.getText() === classifiedName);
return nodes.length > 0;
});
return matchingNodes.length > 0;
}
exports.isImported = isImported;
function getEnvironmentExportName(source) {
// Initial value is `null` as we don't know yet if the user
// has imported `environment` into the root module or not.
let environmentExportName = null;
const allNodes = getSourceNodes(source);
allNodes
.filter((node) => node.kind === ts.SyntaxKind.ImportDeclaration)
.filter((declaration) => declaration.moduleSpecifier.kind === ts.SyntaxKind.StringLiteral &&
declaration.importClause !== undefined)
.map((declaration) =>
// If `importClause` property is defined then the first
// child will be `NamedImports` object (or `namedBindings`).
declaration.importClause.getChildAt(0))
// Find those `NamedImports` object that contains `environment` keyword
// in its text. E.g. `{ environment as env }`.
.filter((namedImports) => namedImports.getText().includes('environment'))
.forEach((namedImports) => {
for (const specifier of namedImports.elements) {
// `propertyName` is defined if the specifier
// has an aliased import.
const name = specifier.propertyName || specifier.name;
// Find specifier that contains `environment` keyword in its text.
// Whether it's `environment` or `environment as env`.
if (name.text.includes('environment')) {
environmentExportName = specifier.name.text;
}
}
});
return environmentExportName;
}
exports.getEnvironmentExportName = getEnvironmentExportName;
function getRouterModuleDeclaration(source) {
const result = getDecoratorMetadata(source, 'NgModule', '@angular/core');
const node = result[0];
const matchingProperties = getMetadataField(node, 'imports');
if (!matchingProperties) {
return;
}
const assignment = matchingProperties[0];
if (assignment.initializer.kind !== ts.SyntaxKind.ArrayLiteralExpression) {
return;
}
const arrLiteral = assignment.initializer;
return arrLiteral.elements
.filter((el) => el.kind === ts.SyntaxKind.CallExpression)
.find((el) => el.getText().startsWith('RouterModule'));
}
exports.getRouterModuleDeclaration = getRouterModuleDeclaration;
function addRouteDeclarationToModule(source, fileToAdd, routeLiteral) {
const routerModuleExpr = getRouterModuleDeclaration(source);
if (!routerModuleExpr) {
throw new Error(`Couldn't find a route declaration in ${fileToAdd}.`);
}
const scopeConfigMethodArgs = routerModuleExpr.arguments;
if (!scopeConfigMethodArgs.length) {
const { line } = source.getLineAndCharacterOfPosition(routerModuleExpr.getStart());
throw new Error(`The router module method doesn't have arguments ` + `at line ${line} in ${fileToAdd}`);
}
let routesArr;
const routesArg = scopeConfigMethodArgs[0];
// Check if the route declarations array is
// an inlined argument of RouterModule or a standalone variable
if (ts.isArrayLiteralExpression(routesArg)) {
routesArr = routesArg;
}
else {
const routesVarName = routesArg.getText();
let routesVar;
if (routesArg.kind === ts.SyntaxKind.Identifier) {
routesVar = source.statements
.filter((s) => s.kind === ts.SyntaxKind.VariableStatement)
.find((v) => {
return v.declarationList.declarations[0].name.getText() === routesVarName;
});
}
if (!routesVar) {
const { line } = source.getLineAndCharacterOfPosition(routesArg.getStart());
throw new Error(`No route declaration array was found that corresponds ` + `to router module at line ${line} in ${fileToAdd}`);
}
routesArr = findNodes(routesVar, ts.SyntaxKind.ArrayLiteralExpression, 1)[0];
}
const occurrencesCount = routesArr.elements.length;
const text = routesArr.getFullText(source);
let route = routeLiteral;
let insertPos = routesArr.elements.pos;
if (occurrencesCount > 0) {
const lastRouteLiteral = [...routesArr.elements].pop();
const lastRouteIsWildcard = ts.isObjectLiteralExpression(lastRouteLiteral) &&
lastRouteLiteral.properties.some((n) => ts.isPropertyAssignment(n) &&
ts.isIdentifier(n.name) &&
n.name.text === 'path' &&
ts.isStringLiteral(n.initializer) &&
n.initializer.text === '**');
const indentation = text.match(/\r?\n(\r?)\s*/) || [];
const routeText = `${indentation[0] || ' '}${routeLiteral}`;
// Add the new route before the wildcard route
// otherwise we'll always redirect to the wildcard route
if (lastRouteIsWildcard) {
insertPos = lastRouteLiteral.pos;
route = `${routeText},`;
}
else {
insertPos = lastRouteLiteral.end;
route = `,${routeText}`;
}
}
return new change_1.InsertChange(fileToAdd, insertPos, route);
}
exports.addRouteDeclarationToModule = addRouteDeclarationToModule;