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王立帮
2024-07-19 10:16:00 +08:00
parent 4c7b571f20
commit 4a2d56dcc4
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/* eslint-disable new-cap */
import Sk from './skulpt/skulpt';
import {
Events,
Debug
} from 'mixly';
import MIXPY_TEMPLATE from '../templates/python/mixpy.py';
const externalLibs = {//外部引入的第三方库
"./numpy/__init__.js": "../common/js/skulpt_libs/numpy/__init__.js",
"./pygal/__init__.js": "../common/js/skulpt_libs/pygal/__init__.js",
// "./numpy/random/__init__.js" : 'https://cdn.jsdelivr.net/gh/ebertmi/skulpt_numpy@master/numpy/random/__init__.js',
"./matplotlib/__init__.js": '../common/js/skulpt_libs/matplotlib/__init__.js',
"./matplotlib/pyplot/__init__.js": "../common/js/skulpt_libs/pyplot/__init__.js",
'./pgzhelper/__init__.js': "../common/js/skulpt_libs/pgzhelper/pgzhelper.js",
"./sprite/__init__.js": "../common/js/skulpt_libs/sprite/basic.js"
};
var GLOBAL_VALUE;
function prettyPrintError(error) {
if (typeof error === "string") {
return error;
}
// A weird skulpt thing?
if (error.tp$str !== undefined) {
return error.tp$str().v;
}
return "" + error.name + ": " + error.message;
}
export default class PyEngine {
#events_ = new Events(['input', 'output', 'display', 'finished', 'error']);
constructor(programStatus, mixpyProject) {
this.programStatus = programStatus;
this.mixpyProject = mixpyProject;
/**
* Definable function to be run when execution has fully ended,
* whether it succeeds or fails.
*
*/
this.onExecutionEnd = null;
}
getEvents() {
return this.#events_;
}
/**
* Helper function that will attempt to call the defined onExecutionEnd,
* but will do nothing if there is no function defined.
*/
executionEnd_() {
if (this.onExecutionEnd !== null) {
this.onExecutionEnd();
}
}
/**
* Initializes the Python Execution engine and the Printer (console).
*/
loadEngine(container) {
Sk.__future__ = Sk.python3;
// No connected services
Sk.connectedServices = {};
// No time limit
//Sk.execLimit = null;
// Ensure version 3, so we get proper print handling
// Sk.python3 = true;
//输出海龟画图图片
//如果需要输出pygame_zero场景需要重新设置
Sk.TurtleGraphics = {
target: container,
width: 500,
height: 500
};
//数据分析显示图片
Sk.MatPlotLibGraphics = {
target: container,
width: 500,
height: 500
};
// TODO
//Sk.console = printer.getConfiguration();
// Definitely use a prompt
Sk.inputfunTakesPrompt = true;
// Keeps track of the tracing while the program is executing; destroyed afterwards.
this.executionBuffer = {};
Sk.domOutput = (html) => {
const dom = this.#events_.on('display', html)[0];
return dom;
};
Sk.configure({
//设置文本输出
output: (lineText) => {
this.#events_.run('output', {
content: lineText
});
},
// Function to handle loading in new files
read: this.readFile.bind(this),
inputfun: this.skInput.bind(this),
inputfunTakesPrompt: true,
execLimit: Number.POSITIVE_INFINITY,
fileread: this.fileread.bind(this),
filewrite: this.filewrite.bind(this),
__future__: Sk.python3, //python3已成默认值要使用python2需要单独设置
});
Sk.builtins.value = new Sk.builtin.func(function () {
return Sk.ffi.remapToPy(GLOBAL_VALUE === undefined ? 5 : GLOBAL_VALUE);
});
Sk.builtins.set_value = new Sk.builtin.func(function (v) {
GLOBAL_VALUE = v.v;
});
Sk.builtinFiles.files['./mixpy.py'] = MIXPY_TEMPLATE;
}
/**
* Used to access Skulpt built-ins. This is pretty generic, taken
* almost directly from the Skulpt docs.
*
* @param {String} filename - The python filename (e.g., "os" or "pprint") that will be loaded.
* @returns {String} The JavaScript source code of the file (weird, right?)
* @throws Will throw an error if the file isn't found.
*/
readFile(file) {
// console.log("Attempting file: " + Sk.ffi.remapToJs(file));
// 加载模块
// if (PyGameZero.matchModelName(file)) {
// return PyGameZero.load(file);
// }
if (externalLibs[file] !== undefined) {
return Sk.misceval.promiseToSuspension(fetch(externalLibs[file]).then((resp) => resp.text()));
}
if (Sk.builtinFiles === undefined || Sk.builtinFiles.files[file] === undefined) {
throw "File not found: '" + file + "'";
}
return Sk.builtinFiles.files[file];
}
fileread(filename, mode) {
if (this.mixpyProject.exist(filename)) {
return this.mixpyProject.getFileContent(filename);
}
if (mode.indexOf('w') !== -1) {
this.mixpyProject.add(filename, '', 1);
return '';
}
return null;
}
filewrite(fileItem, str) {
var filename = fileItem.name;
this.mixpyProject.modify(filename, str);
this.mixpyProject.select(filename);
}
skInput(prompt) {
return new Promise((resolve, reject) => {
this.#events_.run('input', {
content: {
prompt
},
resolve, reject
});
});
}
/**
* Resets the state of the execution engine, including reinitailizing
* the execution buffer (trace, step, etc.), reseting the printer, and
* hiding the trace button.
*
*/
reset() {
Sk.execLimit = Number.POSITIVE_INFINITY;
Sk.TurtleGraphics.reset && Sk.TurtleGraphics.reset();
}
kill() {
// 新增了sprite相关内容
// SPRITE.kill();
//点击取消按钮发送数据
Sk.execLimit = 0;
this.executionEnd_();
}
/**
* "Steps" the execution of the code, meant to be used as a callback to the Skulpt
* environment.
*
* @param {Object} variables - Hash that maps the names of variables (Strings) to their Skulpt representation.
* @param {Number} lineNumber - The corresponding line number in the source code that is being executed.
* @param {Number} columnNumber - The corresponding column number in the source code that is being executed. Think of it as the "X" position to the lineNumber's "Y" position.
* @param {String} filename - The name of the python file being executed (e.g., "__main__.py").
* @param {String} astType - Unused? TODO: What is this?
* @param {String} ast - String-encoded JSON representation of the AST node associated with this element.
*/
step(variables, lineNumber,
columnNumber, filename) {
if (filename == '<stdin>.py') {
var currentStep = this.executionBuffer.step;
var globals = this.parseGlobals(variables);
this.executionBuffer.trace.push(
{
'step': currentStep,
'filename': filename,
//'block': highlightMap[lineNumber-1],
'line': lineNumber,
'column': columnNumber,
'properties': globals.properties,
'modules': globals.modules
}
);
this.executionBuffer.step = currentStep + 1;
this.executionBuffer.last_step = currentStep + 1;
this.executionBuffer.line_number = lineNumber;
}
}
/**
* Runs the AbstractInterpreter to get some static information about the code,
* in particular the variables' types. This is needed for type checking.
*
* @returns {Object<String, AIType>} Maps variable names (as Strings) to types as constructed by the AbstractIntepreter.
*/
analyzeVariables() {
// Get the code
var code = this.main.model.programs['__main__']();
if (code.trim() == "") {
return {};
}
// var analyzer = new AbstractInterpreter(code);
// report = analyzer.report;
// return analyzer.variableTypes;
}
/**
* Runs the AbstractInterpreter to get some static information about the code,
* including potential semantic errors. It then parses that information to give
* feedback.
*
* @returns {Boolean} Whether the code was successfully analyzed.
*/
analyze() {
this.main.model.execution.status("analyzing");
// var feedback = this.main.components.feedback;
// Get the code
var code = this.main.model.programs['__main__']();
if (code.trim() == "") {
this.main.components.feedback.emptyProgram("You haven't written any code yet!");
//this.main.model.feedback.status("semantic");
return false;
}
return true;
}
/**
* Runs the given python code, resetting the console and Trace Table.
*/
run(code) {
// Reset everything
this.reset();
this.programStatus['running'] = true;
Sk.misceval.asyncToPromise(() => Sk.importMainWithBody("<stdin>", false, code, true))
.then(() => {
this.programStatus['running'] = false;
this.#events_.run('finished');
})
.catch((error) => {
Debug.error(error);
this.programStatus['running'] = false;
this.#events_.run('error', error);
var original = prettyPrintError(error);
this.#events_.run('finished');
//hack for kill program with time limiterror
if (original.indexOf("TimeLimitError") !== -1) {
return;
}
this.executionEnd_();
});
}
setupEnvironment(student_code, traceTable, output, ast, final_values) {
var model = this.main.model;
this._backup_execution = Sk.afterSingleExecution;
Sk.afterSingleExecution = undefined;
Sk.builtins.get_output = new Sk.builtin.func(function () {
Sk.builtin.pyCheckArgs("get_output", arguments, 0, 0);
return Sk.ffi.remapToPy(model.execution.output());
});
Sk.builtins.reset_output = new Sk.builtin.func(function () {
Sk.builtin.pyCheckArgs("reset_output", arguments, 0, 0);
model.execution.output.removeAll();
});
Sk.builtins.log = new Sk.builtin.func(function (data) {
Sk.builtin.pyCheckArgs("log", arguments, 1, 1);
console.log(data);
});
//Sk.builtins.trace = Sk.ffi.remapToPy(traceTable);
Sk.builtins._trace = traceTable;
Sk.builtins._final_values = final_values;
Sk.builtins.code = Sk.ffi.remapToPy(student_code);
Sk.builtins.set_success = this.instructor_module.set_success;
Sk.builtins.set_feedback = this.instructor_module.set_feedback;
Sk.builtins.set_finished = this.instructor_module.set_finished;
Sk.builtins.count_components = this.instructor_module.count_components;
Sk.builtins.no_nonlist_nums = this.instructor_module.no_nonlist_nums;
Sk.builtins.only_printing_properties = this.instructor_module.only_printing_properties;
Sk.builtins.calls_function = this.instructor_module.calls_function;
Sk.builtins.get_property = this.instructor_module.get_property;
Sk.builtins.get_value_by_name = this.instructor_module.get_value_by_name;
Sk.builtins.get_value_by_type = this.instructor_module.get_value_by_type;
Sk.builtins.parse_json = this.instructor_module.parse_json;
Sk.skip_drawing = true;
model.settings.mute_printer(true);
}
disposeEnvironment() {
Sk.afterSingleExecution = this._backup_execution;
Sk.builtins.get_output = undefined;
Sk.builtins.reset_output = undefined;
Sk.builtins.log = undefined;
Sk.builtins._trace = undefined;
Sk.builtins.trace = undefined;
Sk.builtins.code = undefined;
Sk.builtins.set_success = undefined;
Sk.builtins.set_feedback = undefined;
Sk.builtins.set_finished = undefined;
Sk.builtins.count_components = undefined;
Sk.builtins.calls_function = undefined;
Sk.builtins.get_property = undefined;
Sk.builtins.get_value_by_name = undefined;
Sk.builtins.get_value_by_type = undefined;
Sk.builtins.no_nonlist_nums = undefined;
Sk.builtins.only_printing_properties = undefined;
Sk.builtins.parse_json = undefined;
Sk.skip_drawing = false;
GLOBAL_VALUE = undefined;
this.main.model.settings.mute_printer(false);
}
parseGlobals(variables) {
var result = Array();
var modules = Array();
for (var property in variables) {
var value = variables[property];
if (property !== "__name__" && property !== "__doc__") {
property = property.replace('_$rw$', '')
.replace('_$rn$', '');
var parsed = this.parseValue(property, value);
if (parsed !== null) {
result.push(parsed);
} else if (value.constructor == Sk.builtin.module) {
modules.push(value.$d.__name__.v);
}
}
}
return { "properties": result, "modules": modules };
}
parseValue(property, value) {
if (value == undefined) {
return {
'name': property,
'type': 'Unknown',
"value": 'Undefined'
};
}
switch (value.constructor) {
case Sk.builtin.func:
return {
'name': property,
'type': "Function",
"value": (value.func_code.co_varnames !== undefined ?
" Arguments: " + value.func_code.co_varnames.join(", ") :
' No arguments')
};
case Sk.builtin.module: return null;
case Sk.builtin.str:
return {
'name': property,
'type': "String",
"value": value.$r().v
};
case Sk.builtin.none:
return {
'name': property,
'type': "None",
"value": "None"
};
case Sk.builtin.bool:
return {
'name': property,
'type': "Boolean",
"value": value.$r().v
};
case Sk.builtin.nmber:
return {
'name': property,
'type': "int" == value.skType ? "Integer" : "Float",
"value": value.$r().v
};
case Sk.builtin.int_:
return {
'name': property,
'type': "Integer",
"value": value.$r().v
};
case Sk.builtin.float_:
return {
'name': property,
'type': "Float",
"value": value.$r().v
};
case Sk.builtin.tuple:
return {
'name': property,
'type': "Tuple",
"value": value.$r().v
};
case Sk.builtin.list:
if (value.v.length <= 20) {
return {
'name': property,
'type': "List",
"value": value.$r().v,
'exact_value': value
};
}
return {
'name': property,
'type': "List",
"value": "[... " + value.v.length + " elements ...]",
"exact_value": value
};
case Sk.builtin.dict:
return {
'name': property,
'type': "Dictionary",
"value": value.$r().v
};
case Number:
return {
'name': property,
'type': value % 1 === 0 ? "Integer" : "Float",
"value": value
};
case String:
return {
'name': property,
'type': "String",
"value": value
};
case Boolean:
return {
'name': property,
'type': "Boolean",
"value": (value ? "True" : "False")
};
default:
return {
'name': property,
'type': value.tp$name == undefined ? value : value.tp$name,
"value": value.$r == undefined ? value : value.$r().v
};
}
}
}
/**
* Skulpt Module for holding the Instructor API.
*
* This module is a little hackish. We need to sit down and reevaluate the best way to
* organize it and whether this particular structure is ideal. I suspect it should be
* it's own proper JS file.
*
* @param {String} name - The name of the module (should always be 'instructor')
*
*/
// var instructor_module = function (name) {
// // Main module object that gets returned at the end.
// var mod = {};
// /**
// * Skulpt Exception that represents a Feedback object, to be rendered to the user
// * when the feedback system finds a problem.
// *
// * @param {Array} args - A list of optional arguments to pass to the Exception.
// * Usually this will include a message for the user.
// */
// Sk.builtin.Feedback = function (args) {
// var o;
// if (!(this instanceof Sk.builtin.Feedback)) {
// o = Object.create(Sk.builtin.Feedback.prototype);
// o.constructor.apply(o, arguments);
// return o;
// }
// Sk.builtin.Exception.apply(this, arguments);
// };
// Sk.abstr.setUpInheritance("Feedback", Sk.builtin.Feedback, Sk.builtin.Exception);
// /**
// * Skulpt Exception that represents a Success object, to be thrown when the user
// * completes their program successfully.
// *
// ** @param {Array} args - A list of optional arguments to pass to the Exception.
// * Usually this will be empty.
// */
// Sk.builtin.Success = function (args) {
// var o;
// if (!(this instanceof Sk.builtin.Success)) {
// o = Object.create(Sk.builtin.Success.prototype);
// o.constructor.apply(o, arguments);
// return o;
// }
// Sk.builtin.Exception.apply(this, arguments);
// };
// Sk.abstr.setUpInheritance("Success", Sk.builtin.Success, Sk.builtin.Exception);
// /**
// * Skulpt Exception that represents a Finished object, to be thrown when the user
// * completes their program successfully, but isn't in a problem with a "solution".
// * This is useful for open-ended canvases where we still want to capture the students'
// * code in Canvas.
// *
// ** @param {Array} args - A list of optional arguments to pass to the Exception.
// * Usually this will be empty.
// */
// Sk.builtin.Finished = function (args) {
// var o;
// if (!(this instanceof Sk.builtin.Finished)) {
// o = Object.create(Sk.builtin.Finished.prototype);
// o.constructor.apply(o, arguments);
// return o;
// }
// Sk.builtin.Exception.apply(this, arguments);
// };
// Sk.abstr.setUpInheritance("Finished", Sk.builtin.Finished, Sk.builtin.Exception);
// /**
// * A Skulpt function that throws a Feedback exception, allowing us to give feedback
// * to the user through the Feedback panel. This function call is done for aesthetic
// * reasons, so that we are calling a function instead of raising an error. Still,
// * exceptions allow us to break out of the control flow immediately, like a
// * return, so they are a good mechanism to use under the hood.
// *
// * @param {String} message - The message to display to the user.
// */
// mod.set_feedback = new Sk.builtin.func(function (message) {
// Sk.builtin.pyCheckArgs("set_feedback", arguments, 1, 1);
// Sk.builtin.pyCheckType("message", "string", Sk.builtin.checkString(message));
// throw new Sk.builtin.Feedback(message.v);
// });
// /**
// * A Skulpt function that throws a Success exception. This will terminate the
// * feedback analysis, but reports that the students' code was successful.
// * This function call is done for aesthetic reasons, so that we are calling a
// * function instead of raising an error. Still, exceptions allow us to break
// * out of the control flow immediately, like a return would, so they are a
// * good mechanism to use under the hood.
// */
// mod.set_success = new Sk.builtin.func(function () {
// Sk.builtin.pyCheckArgs("set_success", arguments, 0, 0);
// throw new Sk.builtin.Success();
// });
// /**
// * A Skulpt function that throws a Finished exception. This will terminate the
// * feedback analysis, but reports that the students' code was successful.
// * This function call is done for aesthetic reasons, so that we are calling a
// * function instead of raising an error. Still, exceptions allow us to break
// * out of the control flow immediately, like a return would, so they are a
// * good mechanism to use under the hood.
// */
// mod.set_finished = new Sk.builtin.func(function () {
// Sk.builtin.pyCheckArgs("set_finished", arguments, 0, 0);
// throw new Sk.builtin.Finished();
// });
// // Memoization of previous parses - some mild redundancy to save time
// // TODO: There's no evidence this is good, and could be a memory hog on big
// // programs. Someone should investigate this. The assumption is that multiple
// // helper functions might be using parses. But shouldn't we trim old parses?
// // Perhaps a timed cache would work better.
// var parses = {};
// /**
// * Given source code as a string, return a flat list of all of the AST elements
// * in the parsed source code.
// *
// * TODO: There's redundancy here, since the source code was previously parsed
// * to run the file and to execute it. We should probably be able to do this just
// * once and shave off time.
// *
// * @param {String} source - Python source code.
// * @returns {Array.<Object>}
// */
// function getParseList(source) {
// if (!(source in parses)) {
// var parse = Sk.parse("__main__", source);
// parses[source] = Sk.astFromParse(parse.cst, "__main__", parse.flags);
// }
// var ast = parses[source];
// return (new NodeVisitor()).recursive_walk(ast);
// }
// /**
// * Given source code as a string, return a list of all of the AST elements
// * that are Num (aka numeric literals) but that are not inside List elements.
// *
// * @param {String} source - Python source code.
// * @returns {Array.number} The list of JavaScript numeric literals that were found.
// */
// function getNonListNums(source) {
// if (!(source in parses)) {
// var parse = Sk.parse("__main__", source);
// parses[source] = Sk.astFromParse(parse.cst, "__main__", parse.flags);
// }
// var ast = parses[source];
// var visitor = new NodeVisitor();
// var insideList = false;
// var nums = [];
// visitor.visit_List = function (node) {
// insideList = true;
// this.generic_visit(node);
// insideList = false;
// }
// visitor.visit_Num = function (node) {
// if (!insideList) {
// nums.push(node.n);
// }
// this.generic_visit(node);
// }
// visitor.visit(ast);
// return nums;
// }
// /**
// * Given source code as a string, return a list of all of the AST elements
// * that are being printed (using the print function) but are not variables.
// *
// * @param {String} source - Python source code.
// * @returns {Array.<Object>} The list of AST elements that were found.
// */
// function getPrintedNonProperties(source) {
// if (!(source in parses)) {
// var parse = Sk.parse("__main__", source);
// parses[source] = Sk.astFromParse(parse.cst, "__main__", parse.flags);
// }
// var ast = parses[source];
// var visitor = new NodeVisitor();
// var nonVariables = [];
// visitor.visit_Call = function (node) {
// var func = node.func;
// var args = node.args;
// if (func._astname == 'Name' && func.id.v == 'print') {
// for (var i = 0; i < args.length; i += 1) {
// if (args[i]._astname != "Name") {
// nonVariables.push(args[i]);
// }
// }
// }
// this.generic_visit(node);
// }
// visitor.visit(ast);
// return nonVariables;
// }
// /**
// * Skulpt function to iterate through the final state of
// * all the variables in the program, and check to see if they have
// * a given value.
// */
// mod.get_value_by_name = new Sk.builtin.func(function (name) {
// Sk.builtin.pyCheckArgs("get_value_by_name", arguments, 1, 1);
// Sk.builtin.pyCheckType("name", "string", Sk.builtin.checkString(name));
// name = name.v;
// var final_values = Sk.builtins._final_values;
// if (name in final_values) {
// return final_values[name];
// }
// return Sk.builtin.none.none$;
// });
// mod.get_value_by_type = new Sk.builtin.func(function (type) {
// Sk.builtin.pyCheckArgs("get_value_by_type", arguments, 1, 1);
// var final_values = Sk.builtins._final_values;
// var result = [];
// for (var property in final_values) {
// if (final_values[property].tp$name == type.tp$name) {
// result.push(final_values[property]);
// }
// }
// return Sk.builtin.list(result);
// });
// mod.parse_json = new Sk.builtin.func(function (blob) {
// Sk.builtin.pyCheckArgs("parse_json", arguments, 1, 1);
// Sk.builtin.pyCheckType("blob", "string", Sk.builtin.checkString(blob));
// blob = blob.v;
// return Sk.ffi.remapToPy(JSON.parse(blob));
// });
// mod.get_property = new Sk.builtin.func(function (name) {
// Sk.builtin.pyCheckArgs("get_property", arguments, 1, 1);
// Sk.builtin.pyCheckType("name", "string", Sk.builtin.checkString(name));
// name = name.v;
// var trace = Sk.builtins._trace;
// if (trace.length <= 0) {
// return Sk.builtin.none.none$;
// }
// var properties = trace[trace.length - 1]["properties"];
// for (var i = 0, len = properties.length; i < len; i += 1) {
// if (properties[i]['name'] == name) {
// return Sk.ffi.remapToPy(properties[i])
// }
// }
// return Sk.builtin.none.none$;
// });
// mod.calls_function = new Sk.builtin.func(function (source, name) {
// Sk.builtin.pyCheckArgs("calls_function", arguments, 2, 2);
// Sk.builtin.pyCheckType("source", "string", Sk.builtin.checkString(source));
// Sk.builtin.pyCheckType("name", "string", Sk.builtin.checkString(name));
// source = source.v;
// name = name.v;
// var ast_list = getParseList(source);
// var count = 0;
// for (var i = 0, len = ast_list.length; i < len; i = i + 1) {
// if (ast_list[i]._astname == 'Call') {
// if (ast_list[i].func._astname == 'Attribute') {
// count += Sk.ffi.remapToJs(ast_list[i].func.attr) == name | 0;
// } else if (ast_list[i].func._astname == 'Name') {
// count += Sk.ffi.remapToJs(ast_list[i].func.id) == name | 0;
// }
// }
// }
// return Sk.ffi.remapToPy(count > 0);
// });
// mod.count_components = new Sk.builtin.func(function (source, component) {
// Sk.builtin.pyCheckArgs("count_components", arguments, 2, 2);
// Sk.builtin.pyCheckType("source", "string", Sk.builtin.checkString(source));
// Sk.builtin.pyCheckType("component", "string", Sk.builtin.checkString(component));
// source = source.v;
// component = component.v;
// var ast_list = getParseList(source);
// var count = 0;
// for (var i = 0, len = ast_list.length; i < len; i = i + 1) {
// if (ast_list[i]._astname == component) {
// count = count + 1;
// }
// }
// return Sk.ffi.remapToPy(count);
// });
// mod.no_nonlist_nums = new Sk.builtin.func(function (source) {
// Sk.builtin.pyCheckArgs("no_nonlist_nums", arguments, 1, 1);
// Sk.builtin.pyCheckType("source", "string", Sk.builtin.checkString(source));
// source = source.v;
// var num_list = getNonListNums(source);
// var count = 0;
// for (var i = 0, len = num_list.length; i < len; i = i + 1) {
// if (num_list[i].v != 0 && num_list[i].v != 1) {
// return Sk.ffi.remapToPy(true);
// }
// }
// return Sk.ffi.remapToPy(false);
// });
// mod.only_printing_properties = new Sk.builtin.func(function (source) {
// Sk.builtin.pyCheckArgs("only_printing_properties", arguments, 1, 1);
// Sk.builtin.pyCheckType("source", "string", Sk.builtin.checkString(source));
// source = source.v;
// var non_var_list = getPrintedNonProperties(source);
// return Sk.ffi.remapToPy(non_var_list.length == 0);
// });
// return mod;
// }