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This tool is able to convert a quiz in *markdown* format to *Moodle's XML* format.

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markdown2moodle

This tool is able to convert a quiz in markdown format to Moodle's XML format.

It stemed from the project GitHub - brunomnsilva/markdown-to-moodle-xml that was itself a fork. This project is an evolution of that parser, using a finite state machine, and should be preferred as it is more robust, provides error checking and more complex code snippets in the quizes.

I'm currently using this script to produce Moodle quizes for computer science classes at the Polytechnic of Setúbal - Portugal.

Features and Limitations

  • Each markdown file can have any number of categories, sub-categories and questions.

  • Questions can contain text, latex math expressions (single and double dollar), code blocks, inline code and images;

  • Answers only allow text, latex expressions and inline code;

  • Code blocks can be converted into images that are embedded into the XML file. The lexer specifies the language that will be used for syntax highlighting. This happens when using the {img} option (see example.md);

  • The markdown format and parser only predict multiple choice questions at this time, although true/false questions can be easily replicated (see example.md);

  • Markdown Tables are not supported yet; Markdown tables supported through [[[ ]]] custom environment (see example.md)

  • Question and answer feedback are not supported yet. Answer feedback can be provided, using the > symbol (see example.md)

Example

A full example using all available features is avalable in example.md, which you can test yourself.

Nonetheless, a portion of it to illustrate the quiz format in markdown is presented below:

# DummyCategory/Programming/ADT

* Consider the following function:

$$fib(n)=\left\{\begin{matrix} 1 & n = 0\\  1 & n = 1\\ fib(n-1) + fib(n-2) & n > 1 \end{matrix}\right.$$

Mark the correct statements about `fib(n)`:

    - !It's a recursive function

    - It's defined for all integers

    - It has $O(n)$ time complexity

    - !It has $O(2^n)$ time complexity

* Consider the following code that uses the ADT Stack:

```cpp
PtStack s1 = stackCreate(10);
PtStack s2 = stackCreate(10);
for(int i=0; i<4; i++) {
    stackPush(s1, (i+1) );
}
int elem1, elem2;
while(!stackIsEmpty(s1)) {
    stackPop(s1, &elem1);
    if(!stackIsEmpty(s2)) {
        stackPop(s2, &elem2);
        stackPush(s2, (elem1 + elem2) );
    } else {
        stackPush(s2, elem1);
    }
}
//s1 = ? s2 = ?
```

What's the contents of the stacks `s1` e `s2` (from **bottom to top**) after the second loop?
    - !`s1 = {} e s2 = {10}`
    - `s1 = {1,2,3,4} e s2 = {4,7,9,10}`
    - `s1 = {} e s2 = {6}`
    - Other answer

* Consider the parcial specification of the ADT Complex and the following code:

```cpp{img}
#define COMPLEX_OK      0
#define COMPLEX_NULL    1

/**
 * @brief Retrieve the imaginary part of the complex number.
 *
 * @param c [in] PtComplex pointer to the number's data structure.
 * @param im [out] Address of variable to hold result
 *
 * @return COMPLEX_OK and imaginary part assigned to '*im'
 * @return COMPLEX_NULL if 'c' is NULL
 */
int complexIm (PtComplex c, double *im);

//----

PtComplex a = complexCreate(1, 8);
```

How to get the imaginary component of the complex number `a`?
    - !`double im = 0; complexIm(a, &im);`
    - `int im = complexIm(a);`
    - `double im = a->im;`
    - `double im = 0; complexIm(a, im);`

* Consider the following two approaches for implementing the **ADT Stack** using an *array list*:

![](stack_arraylist.png)

Which one would you choose for better eficiency?

    - !Approach **A**
    - Approach **B**

# DummyCategory/Math

* Is the problem

$$
\begin{array}{ll}
\max & 8x_1 + 3 x_2\\ 
s.t. & 3 x_1 + 8 x_2 \leq 9\\
& x_1 * x_2 \leq 20\\
& x \geq 0
\end{array}
$$

a linear optimization problem ?
    - yes
    - !no

* What is the point satisfying the inequalities $3x_1 + 4x_2 \leq 8$ and $x_1 + 3x_2 \leq 4$ with equality?
    - $x = (\frac{8}{3},0)$
    - $x = (\frac{4}{3},1)$
    - !$x(\frac{8}{5}, \frac{4}{5})$
  • Categories are specified via markdown sections. Note the use of / to specify subcategories (you can further create a subcategory of a subcategory).

  • Questions start with * will include all content until the first answer;

  • Answers start with -; correct answers must have the prefix !;

  • Text allows any markdown formatting, e.g., bold and italic;

  • Images are included normally, as in any markdown file, even by an external url.

  • Code blocks are included using backticks followed by the lexer, as in any markdown file. If using {img} after the lexer, then the code will be converted to a png image with syntax highlighting; personally, I prefer this method. Otherwise, it will be exported in plain text.

All images are encoded to base64 and included in the output, so the resulting XML is self-contained and ready to import into Moodle.

Important note (1): Pay particular atention to use spaces after section, question or answers delimiters, e.g., #, * and -.

Important note (2): Regular line breaks in markdown are not converted automatically to line breaks in the output. You must place two spaces for this to happen. This is a markdown standard, e.g.,

First paragraph.(two spaces here)

Next paragraph.

How to Use

Prerequistes

This is a python script, so obviously you'll need python installed.

You'll also need the following python libraries installed:

  • markdown (mandatory)

    • $> pip install markdown --user
  • pygments (optional, only used to generate images from code blocks)

    • $> pip install pygments --user

    • which uses PIL [python imaging library] - check your package manager (e.g., in Debian its pillow package)

If other packages are required in your system, you should be able to discern which ones from the error output.

Conversion

Just run the script against your markdown file, e.g.:

$> python md2moodle.py example.md

This will produce the corresponding Moodle XML files, one per each category or subcategory specified in the markdown file.

  • If your markdown file contains any errors, the parser will stop at the first encountered error, telling you which error exists and at which line. Example:

    Error at line 21: Expecting text, codeblock or answer.

Configuration

The script includes some configurations that can be manually modified, namely:

CONFIG = {
    # Produce debugging information while parsing
    'debug' : False,
    
    # Place table borders through css style?
    'table_border' : True,

    # quiz answer numbering | allowed values: 'none', 'abc', 'ABCD' or '123'
    'answer_numbering' : 'abc', 

    # quiz shuffle answers | 1 -> true ; 0 -> false
    'shuffle_answers' : '1',

    # in single answer questions, the penalty to apply to a wrong answer in % [0,1]
    'single_answer_penalty_weight' : 0, #e.g., 0.25 = 25% 

    # pygments code snapshot generator
    'pygments.font_size' : 16,
    'pygments.line_numbers' : False,

    # pygments code snapshot | additional dump to disk of generated images
    'pygments.dump_image' : False,
    'pygments.dump_image_id' : 1, #e,g, 1.png and incremented for each image
}

Contribute

You're very welcome to contribute to this project, either via issues or pull request.

List of contributors

Technical aspects

The markdown parser is implemented using a finite state machine (FSM) implementation. This allows for a more robust parsing and error reporting.

Current states and transitions are depicted bellow; all other transitions result in error, e.g., when in parse_question the parsed line is a header.

To extend the FSM to include feedback information in questions, the following steps would be required:

  • Create the corresponding regex expression, for example, if using a markdown blockquote >;

  • Extend the Quiz class to include feedback for question and/or answers;

  • Create the state handler and add it to the FSM;

    • This handler must include all logic for state transitions.

In the future I'll be addressing this feature, but feel free to take on the challenge I've addressed this already 😄

License

The code is made available under the GNU GENERAL PUBLIC LICENSE -- see LICENCE.

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This tool is able to convert a quiz in *markdown* format to *Moodle's XML* format.

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