playwright/utils/doclint/generateDotnetApi.js

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/**
* Copyright (c) Microsoft Corporation.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
// @ts-check
const path = require('path');
const Documentation = require('./documentation');
const XmlDoc = require('./xmlDocumentation')
const PROJECT_DIR = path.join(__dirname, '..', '..');
const fs = require('fs');
const { parseApi } = require('./api_parser');
const { Type } = require('./documentation');
const { EOL } = require('os');
const { execSync } = require('child_process');
const maxDocumentationColumnWidth = 80;
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Error.stackTraceLimit = 100;
/** @type {Map<string, Documentation.Type>} */
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const modelTypes = new Map(); // this will hold types that we discover, because of .NET specifics, like results
/** @type {Map<string, string>} */
const documentedResults = new Map(); // will hold documentation for new types
/** @type {Map<string, string[]>} */
const enumTypes = new Map();
const nullableTypes = ['int', 'bool', 'decimal', 'float'];
const customTypeNames = new Map([
['domcontentloaded', 'DOMContentLoaded'],
['networkidle', 'NetworkIdle'],
['File', 'FilePayload'],
]);
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const typesDir = process.argv[2] || path.join(__dirname, 'generate_types', 'csharp');
const modelsDir = path.join(typesDir, "models");
const enumsDir = path.join(typesDir, "enums");
for (const dir of [typesDir, modelsDir, enumsDir])
fs.mkdirSync(dir, { recursive: true });
const documentation = parseApi(path.join(PROJECT_DIR, 'docs', 'src', 'api'));
documentation.filterForLanguage('csharp');
documentation.setLinkRenderer(item => {
if (item.clazz)
return `<see cref="I${toTitleCase(item.clazz.name)}"/>`;
else if (item.member)
return `<see cref="I${toTitleCase(item.member.clazz.name)}.${toMemberName(item.member)}"/>`;
else if (item.option)
return `<paramref name="${item.option}"/>`;
else if (item.param)
return `<paramref name="${item.param}"/>`;
else
throw new Error('Unknown link format.');
});
// get the template for a class
const template = fs.readFileSync(path.join(__dirname, 'templates', 'interface.cs'), 'utf-8')
.replace('[PW_TOOL_VERSION]', `${__filename.substring(path.join(__dirname, '..', '..').length).split(path.sep).join(path.posix.sep)}`);
// we have some "predefined" types, like the mixed state enum, that we can map in advance
enumTypes.set("MixedState", ["On", "Off", "Mixed"]);
// map the name to a C# friendly one (we prepend an I to denote an interface)
const classNameMap = new Map(documentation.classesArray.map(x => [x.name, `I${toTitleCase(x.name)}`]));
// map some types that we know of
classNameMap.set('Error', 'Exception');
classNameMap.set('TimeoutError', 'TimeoutException');
classNameMap.set('EvaluationArgument', 'object');
classNameMap.set('boolean', 'bool');
classNameMap.set('Serializable', 'T');
classNameMap.set('any', 'object');
classNameMap.set('Buffer', 'byte[]');
classNameMap.set('path', 'string');
classNameMap.set('URL', 'string');
classNameMap.set('RegExp', 'Regex');
classNameMap.set('Readable', 'Stream');
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/**
*
* @param {string} kind
* @param {string} name
* @param {Documentation.MarkdownNode[]} spec
* @param {string[]} body
* @param {string} folder
* @param {string} extendsName
*/
function writeFile(kind, name, spec, body, folder, extendsName = null) {
const out = [];
console.log(`Generating ${name}`);
if (spec)
out.push(...XmlDoc.renderXmlDoc(spec, maxDocumentationColumnWidth));
else {
let ownDocumentation = documentedResults.get(name);
if (ownDocumentation) {
out.push('/// <summary>');
out.push(`/// ${ownDocumentation}`);
out.push('/// </summary>');
}
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}
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if (extendsName === 'IEventEmitter')
extendsName = null;
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out.push(`public ${kind} ${name}${extendsName ? ` : ${extendsName}` : ''}`);
out.push('{');
out.push(...body);
out.push('}');
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let content = template.replace('[CONTENT]', out.join(EOL));
fs.writeFileSync(path.join(folder, name + '.generated.cs'), content);
}
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function renderClass(clazz) {
const name = classNameMap.get(clazz.name);
if (name === 'TimeoutException')
return;
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const body = [];
for (const member of clazz.membersArray)
renderMember(member, clazz, body);
writeFile(
'partial interface',
name,
clazz.spec,
body,
typesDir,
clazz.extends ? `I${toTitleCase(clazz.extends)}` : null);
}
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/**
* @param {string} name
* @param {Documentation.Type} type
*/
function renderModelType(name, type) {
const body = [];
// TODO: consider how this could be merged with the `translateType` check
if (type.union
&& type.union[0].name === 'null'
&& type.union.length == 2) {
type = type.union[1];
}
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if (type.name === 'Array') {
throw new Error('Array at this stage is unexpected.');
} else if (type.properties) {
for (const member of type.properties) {
let fakeType = new Type(name, null);
renderMember(member, fakeType, body);
}
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} else {
console.log(type);
throw new Error(`Not sure what to do in this case.`);
}
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writeFile('partial class', name, null, body, modelsDir);
}
/**
* @param {string} name
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* @param {string[]} literals
*/
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function renderEnum(name, literals) {
const body = [];
body.push('Undefined = 0,');
for (let literal of literals) {
// strip out the quotes
literal = literal.replace(/[\"]/g, ``)
let escapedName = literal.replace(/[-]/g, ' ')
.split(' ')
.map(word => customTypeNames.get(word) || word[0].toUpperCase() + word.substring(1)).join('');
body.push(`[EnumMember(Value = "${literal}")]`);
body.push(`${escapedName},`);
}
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writeFile('enum', name, null, body, enumsDir);
}
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for (const element of documentation.classesArray)
renderClass(element);
for (let [name, type] of modelTypes)
renderModelType(name, type);
for (let [name, literals] of enumTypes)
renderEnum(name, literals);
if (process.argv[3] !== "--skip-format") {
// run the formatting tool for .net, to ensure the files are prepped
execSync(`dotnet format -f "${typesDir}" --include-generated --fix-whitespace`);
if (process.platform !== 'win32') {
for (const folder of [typesDir, path.join(typesDir, 'Models'), path.join(typesDir, 'Enums'), path.join(typesDir, 'Extensions'), path.join(typesDir, 'Constants')])
for (const name of fs.readdirSync(folder)) {
if (!name.includes('\.cs'))
continue;
const content = fs.readFileSync(path.join(folder, name), 'utf-8');
fs.writeFileSync(path.join(folder, name), content.split('\r\n').join('\n'));
}
}
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}
/**
* @param {string} name
*/
function toArgumentName(name) {
return name === 'event' ? `@${name}` : name;
}
/**
* @param {Documentation.Member} member
* @param {{ omitAsync?: boolean; }=} options
*/
function toMemberName(member, options) {
const assumedName = toTitleCase(member.alias || member.name);
if (member.kind === 'interface')
return `I${assumedName}`;
const omitAsync = options && options.omitAsync;
if (!omitAsync && member.kind === 'method' && member.async && !assumedName.endsWith('Async'))
return `${assumedName}Async`;
return assumedName;
}
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/**
* @param {string} name
* @returns {string}
*/
function toTitleCase(name) {
if (name === 'dblclick')
return 'DblClick';
name = name.replace(/(HTTP[S]?)/g, (m, g) => {
return g[0].toUpperCase() + g.substring(1).toLowerCase();
});
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return name.charAt(0).toUpperCase() + name.substring(1);
}
/**
*
* @param {Documentation.Member} member
* @param {Documentation.Class|Documentation.Type} parent
* @param {string[]} out
*/
function renderMember(member, parent, out) {
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let name = toMemberName(member);
if (member.kind === 'method') {
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renderMethod(member, parent, name, out);
} else {
/** @type string */
let type = translateType(member.type, parent, t => generateNameDefault(member, name, t, parent));
if (member.kind === 'event') {
if (!member.type)
throw new Error(`No Event Type for ${name} in ${parent.name}`);
if (member.spec)
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out.push(...XmlDoc.renderXmlDoc(member.spec, maxDocumentationColumnWidth));
out.push(`event EventHandler<${type}> ${name};`);
} else if (member.kind === 'property') {
if (member.spec)
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out.push(...XmlDoc.renderXmlDoc(member.spec, maxDocumentationColumnWidth));
let propertyOrigin = member.name;
if (member.type.expression === '[string]|[float]')
propertyOrigin = `${member.name}String`;
if (!member.clazz)
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out.push(`[JsonPropertyName("${propertyOrigin}")]`)
if (parent && member && member.name === 'children') { // this is a special hack for Accessibility
console.warn(`children property found in ${parent.name}, assuming array.`);
type = `IEnumerable<${parent.name}>`;
}
if (!type.endsWith('?') && !member.required && nullableTypes.includes(type))
type = `${type}?`;
if (member.clazz)
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out.push(`public ${type} ${name} { get; }`);
else
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out.push(`public ${type} ${name} { get; set; }`);
} else {
throw new Error(`Problem rendering a member: ${type} - ${name} (${member.kind})`);
}
}
out.push('');
}
/**
*
* @param {Documentation.Member} member
* @param {string} name
* @param {Documentation.Type} t
* @param {*} parent
*/
function generateNameDefault(member, name, t, parent) {
if (!t.properties
&& !t.templates
&& !t.union
&& t.expression === '[Object]')
return 'object';
// we'd get this call for enums, primarily
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let enumName = generateEnumNameIfApplicable(t);
if (!enumName && member) {
if (member.kind === 'method' || member.kind === 'property') {
let names = [
parent.alias || parent.name,
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toTitleCase(member.alias || member.name),
toTitleCase(name),
];
if (names[2] === names[1])
names.pop(); // get rid of duplicates, cheaply
let attemptedName = names.pop();
let typesDiffer = function (left, right) {
if (left.expression && right.expression)
return left.expression !== right.expression;
return JSON.stringify(right.properties) !== JSON.stringify(left.properties);
}
while (true) {
// crude attempt at removing plurality
if (attemptedName.endsWith('s')
&& !["properties", "httpcredentials"].includes(attemptedName.toLowerCase()))
attemptedName = attemptedName.substring(0, attemptedName.length - 1);
if (customTypeNames.get(attemptedName))
attemptedName = customTypeNames.get(attemptedName);
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let probableType = modelTypes.get(attemptedName);
if ((probableType && typesDiffer(t, probableType))
|| (["Value"].includes(attemptedName))) {
if (!names.length)
throw new Error(`Ran out of possible names: ${attemptedName}`);
attemptedName = `${names.pop()}${attemptedName}`;
continue;
} else {
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modelTypes.set(attemptedName, t);
}
break;
}
return attemptedName;
}
if (member.kind === 'event') {
return `${name}Payload`;
}
}
return enumName || t.name;
}
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/**
*
* @param {Documentation.Type} type
* @returns
*/
function generateEnumNameIfApplicable(type) {
if (!type.union)
return null;
const potentialValues = type.union.filter(u => u.name.startsWith('"'));
if ((potentialValues.length !== type.union.length)
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&& !(type.union[0].name === 'null' && potentialValues.length === type.union.length - 1)) {
return null; // this isn't an enum, so we don't care, we let the caller generate the name
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}
return type.name;
}
/**
* Rendering a method is so _special_, with so many weird edge cases, that it
* makes sense to put it separate from the other logic.
* @param {Documentation.Member} member
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* @param {Documentation.Class | Documentation.Type} parent
* @param {string} name
* @param {string[]} out
*/
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function renderMethod(member, parent, name, out) {
/**
* @param {Documentation.Type} type
* @returns
*/
function resolveType(type) {
return translateType(type, parent, (t) => {
let newName = `${parent.name}${toMemberName(member, { omitAsync: true })}Result`;
documentedResults.set(newName, `Result of calling <see cref="I${toTitleCase(parent.name)}.${toMemberName(member)}"/>.`);
return newName;
});
}
/** @type {Map<string, string[]>} */
const paramDocs = new Map();
const addParamsDoc = (paramName, docs) => {
if (paramName.startsWith('@'))
paramName = paramName.substring(1);
if (paramDocs.get(paramName))
throw new Error(`Parameter ${paramName} already exists in the docs.`);
paramDocs.set(paramName, docs);
};
/** @type {string} */
let type = null;
// need to check the original one
if (member.type.name === 'Object' || member.type.name === 'Array') {
let innerType = member.type;
let isArray = false;
if (innerType.name === 'Array') {
// we want to influence the name, but also change the object type
innerType = member.type.templates[0];
isArray = true;
}
if (innerType.expression === '[Object]<[string], [string]>') {
// do nothing, because this is handled down the road
} else if (!isArray && !innerType.properties) {
type = `dynamic`;
} else {
type = classNameMap.get(innerType.name);
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if (!type)
type = resolveType(innerType);
if (isArray)
type = `IReadOnlyCollection<${type}>`;
}
}
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type = type || resolveType(member.type);
// TODO: this is something that will probably go into the docs
// translate simple getters into read-only properties, and simple
// set-only methods to settable properties
if (member.args.size == 0
&& type !== 'void'
&& !name.startsWith('Get')
&& !name.startsWith('As')) {
if (!member.async) {
if (member.spec)
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out.push(...XmlDoc.renderXmlDoc(member.spec, maxDocumentationColumnWidth));
out.push(`${type} ${name} { get; }`);
return;
}
}
// HACK: special case for generics handling!
if (type === 'T') {
name = `${name}<T>`;
}
// adjust the return type for async methods
if (member.async) {
if (type === 'void')
type = `Task`;
else
type = `Task<${type}>`;
}
// render args
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/** @type {string[]} */
let args = [];
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/** @type {string[]} */
let explodedArgs = [];
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/** @type {Map<string, string>} */
let argTypeMap = new Map([]);
/**
*
* @param {string} innerArgType
* @param {string} innerArgName
* @param {Documentation.Member} argument
* @param {boolean} isExploded
*/
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function pushArg(innerArgType, innerArgName, argument, isExploded = false) {
const isNullable = nullableTypes.includes(innerArgType);
const requiredPrefix = (argument.required || isExploded) ? "" : isNullable ? "?" : "";
const requiredSuffix = (argument.required || isExploded) ? "" : " = default";
var push = `${innerArgType}${requiredPrefix} ${innerArgName}${requiredSuffix}`;
if (isExploded)
explodedArgs.push(push)
else
args.push(push);
argTypeMap.set(push, innerArgName);
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}
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/**
* @param {Documentation.Member} arg
*/
function processArg(arg) {
if (arg.name === "options") {
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arg.type.properties.forEach(processArg);
return;
}
if (arg.type.expression === '[string]|[path]') {
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let argName = toArgumentName(arg.name);
pushArg("string", `${argName} = null`, arg);
pushArg("string", `${argName}Path = null`, arg);
if (arg.spec) {
addParamsDoc(argName, XmlDoc.renderTextOnly(arg.spec, maxDocumentationColumnWidth));
addParamsDoc(`${argName}Path`, [`Instead of specifying <paramref name="${argName}"/>, gives the file name to load from.`]);
}
return;
} else if (arg.type.expression === '[boolean]|[Array]<[string]>') {
// HACK: this hurts my brain too
// we split this into two args, one boolean, with the logical name
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let argName = toArgumentName(arg.name);
let leftArgType = translateType(arg.type.union[0], parent, (t) => { throw new Error('Not supported'); });
let rightArgType = translateType(arg.type.union[1], parent, (t) => { throw new Error('Not supported'); });
pushArg(leftArgType, argName, arg);
pushArg(rightArgType, `${argName}Values`, arg);
addParamsDoc(argName, XmlDoc.renderTextOnly(arg.spec, maxDocumentationColumnWidth));
addParamsDoc(`${argName}Values`, [`The values to take into account when <paramref name="${argName}"/> is <code>true</code>.`]);
return;
}
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const argName = toArgumentName(arg.alias || arg.name);
const argType = translateType(arg.type, parent, (t) => generateNameDefault(member, argName, t, parent));
if (argType === null && arg.type.union) {
// we might have to split this into multiple arguments
let translatedArguments = arg.type.union.map(t => translateType(t, parent, (x) => generateNameDefault(member, argName, x, parent)));
if (translatedArguments.includes(null))
throw new Error('Unexpected null in translated argument types. Aborting.');
let argDocumentation = XmlDoc.renderTextOnly(arg.spec, maxDocumentationColumnWidth);
for (const newArg of translatedArguments) {
let nonGenericType = newArg.replace(/\IEnumerable<(.*)\>/g, (m, v) => 'Enumerable' + v[0].toUpperCase() + v.substring(1))
const sanitizedArgName = nonGenericType.match(/(?<=^[\s"']*)(\w+)/g, '')[0] || nonGenericType;
const newArgName = `${argName}${sanitizedArgName[0].toUpperCase() + sanitizedArgName.substring(1)}`;
pushArg(newArg, newArgName, arg, true); // push the exploded arg
addParamsDoc(newArgName, argDocumentation);
}
args.push(arg.required ? 'EXPLODED_ARG' : 'OPTIONAL_EXPLODED_ARG');
return;
}
addParamsDoc(argName, XmlDoc.renderTextOnly(arg.spec, maxDocumentationColumnWidth));
if (argName === 'timeout' && argType === 'decimal') {
args.push(`int timeout = 0`); // a special argument, we ignore our convention
return;
}
pushArg(argType, argName, arg);
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}
member.argsArray
.sort((a, b) => b.alias === 'options' ? -1 : 0) //move options to the back to the arguments list
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.forEach(processArg);
if (name.includes('WaitFor') && !['WaitForTimeoutAsync', 'WaitForFunctionAsync', 'WaitForLoadStateAsync', 'WaitForURLAsync', 'WaitForSelectorAsync', 'WaitForElementStateAsync'].includes(name)) {
const firstOptional = args.find(a => a.includes('='));
args.splice(args.indexOf(firstOptional), 0, 'Func<Task> action = default');
argTypeMap.set('Func<Task> action = default', 'action');
addParamsDoc('action', ['Action to perform while waiting']);
}
if (!explodedArgs.length) {
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out.push(...XmlDoc.renderXmlDoc(member.spec, maxDocumentationColumnWidth));
paramDocs.forEach((value, i) => printArgDoc(i, value, out));
out.push(`${type} ${name}(${args.join(', ')});`);
} else {
let containsOptionalExplodedArgs = false;
explodedArgs.forEach((explodedArg, argIndex) => {
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out.push(...XmlDoc.renderXmlDoc(member.spec, maxDocumentationColumnWidth));
let overloadedArgs = [];
for (var i = 0; i < args.length; i++) {
let arg = args[i];
if (arg === 'EXPLODED_ARG' || arg === 'OPTIONAL_EXPLODED_ARG') {
containsOptionalExplodedArgs = arg === 'OPTIONAL_EXPLODED_ARG';
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let argType = argTypeMap.get(explodedArg);
printArgDoc(argType, paramDocs.get(argType), out);
overloadedArgs.push(explodedArg);
} else {
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let argType = argTypeMap.get(arg);
printArgDoc(argType, paramDocs.get(argType), out);
overloadedArgs.push(arg);
}
}
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out.push(`${type} ${name}(${overloadedArgs.join(', ')});`);
if (argIndex < explodedArgs.length - 1)
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out.push(''); // output a special blank line
});
// If the exploded union arguments are optional, we also output a special
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// signature, to help prevent compilation errors with ambiguous overloads.
// That particular overload only contains the required arguments, or rather
// contains all the arguments *except* the exploded ones.
if (containsOptionalExplodedArgs) {
var filteredArgs = args.filter(x => x !== 'OPTIONAL_EXPLODED_ARG');
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out.push(...XmlDoc.renderXmlDoc(member.spec, maxDocumentationColumnWidth));
filteredArgs.forEach((arg) => {
if (arg === 'EXPLODED_ARG')
throw new Error(`Unsupported required union arg combined an optional union inside ${member.name}`);
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let argType = argTypeMap.get(arg);
printArgDoc(argType, paramDocs.get(argType), out);
});
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out.push(`${type} ${name}(${filteredArgs.join(', ')});`);
}
}
}
/**
*
* @param {Documentation.Type} type
* @param {Documentation.Class|Documentation.Type} parent
* @param {function(Documentation.Type): string} generateNameCallback
* @param {boolean=} optional
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* @returns {string}
*/
function translateType(type, parent, generateNameCallback = t => t.name, optional = false) {
// a few special cases we can fix automatically
if (type.expression === '[null]|[Error]')
return 'void';
else if (type.expression === '[boolean]|"mixed"')
return 'MixedState';
if (type.union) {
if (type.union[0].name === 'null' && type.union.length === 2)
return translateType(type.union[1], parent, generateNameCallback, true);
if (type.expression === '[string]|[Buffer]')
return `byte[]`; // TODO: make sure we implement extension methods for this!
if (type.expression === '[string]|[float]' || type.expression === '[string]|[float]|[boolean]') {
console.warn(`${type.name} should be a 'string', but was a ${type.expression}`);
return `string`;
}
if (type.union.length == 2 && type.union[1].name === 'Array' && type.union[1].templates[0].name === type.union[0].name)
return `IEnumerable<${type.union[0].name}>`; // an example of this is [string]|[Array]<[string]>
if (type.expression === '[float]|"raf"')
return `Polling`; // hardcoded because there's no other way to denote this
// Regular primitive enums are named in the markdown.
if (type.name) {
enumTypes.set(type.name, type.union.map(t => t.name));
return optional ? type.name + '?' : type.name;
}
return null;
}
if (type.name === 'Array') {
if (type.templates.length != 1)
throw new Error(`Array (${type.name} from ${parent.name}) has more than 1 dimension. Panic.`);
let innerType = translateType(type.templates[0], parent, generateNameCallback);
return `IEnumerable<${innerType}>`;
}
if (type.name === 'Object') {
// take care of some common cases
// TODO: this can be genericized
if (type.templates && type.templates.length == 2) {
// get the inner types of both templates, and if they're strings, it's a keyvaluepair string, string,
let keyType = translateType(type.templates[0], parent, generateNameCallback);
let valueType = translateType(type.templates[1], parent, generateNameCallback);
return `IEnumerable<KeyValuePair<${keyType}, ${valueType}>>`;
}
if ((type.name === 'Object')
&& !type.properties
&& !type.union) {
return 'object';
}
// this is an additional type that we need to generate
let objectName = generateNameCallback(type);
if (objectName === 'Object') {
throw new Error('Object unexpected');
} else if (type.name === 'Object') {
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registerModelType(objectName, type);
}
return objectName;
}
if (type.name === 'Map') {
if (type.templates && type.templates.length == 2) {
// we map to a dictionary
let keyType = translateType(type.templates[0], parent, generateNameCallback);
let valueType = translateType(type.templates[1], parent, generateNameCallback);
return `Dictionary<${keyType}, ${valueType}>`;
} else {
throw 'Map has invalid number of templates.';
}
}
if (type.name === 'function') {
if (type.expression === '[function]' || !type.args)
return 'Action'; // super simple mapping
let argsList = '';
if (type.args) {
let translatedCallbackArguments = type.args.map(t => translateType(t, parent, generateNameCallback));
if (translatedCallbackArguments.includes(null))
throw new Error('There was an argument we could not parse. Aborting.');
argsList = translatedCallbackArguments.join(', ');
}
if (!type.returnType) {
// this is an Action
return `Action<${argsList}>`;
} else {
let returnType = translateType(type.returnType, parent, generateNameCallback);
if (returnType == null)
throw new Error('Unexpected null as return type.');
return `Func<${argsList}, ${returnType}>`;
}
}
if (type.templates) {
// this should mean we have a generic type and we can translate that
/** @type {string[]} */
var types = type.templates.map(template => translateType(template, parent));
return `${type.name}<${types.join(', ')}>`
}
// there's a chance this is a name we've already seen before, so check
// this is also where we map known types, like boolean -> bool, etc.
let name = classNameMap.get(type.name) || type.name;
return `${name}`;
}
/**
* @param {string} typeName
* @param {Documentation.Type} type
*/
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function registerModelType(typeName, type) {
if (['object', 'string', 'int'].includes(typeName))
return;
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let potentialType = modelTypes.get(typeName);
if (potentialType) {
console.log(`Type ${typeName} already exists, so skipping...`);
return;
}
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modelTypes.set(typeName, type);
}
/**
* @param {string} name
* @param {string[]} value
* @param {string[]} out
*/
function printArgDoc(name, value, out) {
if (value.length === 1) {
out.push(`/// <param name="${name}">${value}</param>`);
} else {
out.push(`/// <param name="${name}">`);
out.push(...value.map(l => `/// ${l}`));
out.push(`/// </param>`);
}
}