Memorex is a space repetition system written in Elixir and implemented as a Phoenix LiveView application. You can read its documentation here. Memorex utilizes Anki's spaced repetition algorithm, which is itself based on the SuperMemo SM-2 algorithm. Unlike Anki, Memorex stores the flashcard content (i.e., notes) in Markdown files on your local filesystem (or as image files, each with an associated text file which contains the description of the image file). The database is only used to store information related to drilling/reviewing the flashcards, such as the due date for a card, its time interval, the number of repetitions, etc.
To use Memorex, first get it running on your local system. First, you'll need to set an environment variable MEMOREX_NOTE_DIRS
which points to one or more directories on your filesystem which contain Markdown files and/or directories with your flashcard content. If you're using direnv
, then see .envrc.sample for an example .envrc
file (note that only MEMOREX_NOTE_DIRS
is required).
mix deps.get
mix deps.compile
mix ecto.setup
Then create one or more Markdown files with notes (or image files with similarly named text file which contains the "answer"); see test/fixtures/contains_multiple_decks
for some examples (using test data), or vim-flashcards for a real-life deck example. Then read in the notes and start up the Phoenix app via the following:
mix memorex.read_notes
iex -S mix phx.server
Navigate in your browser to http://localhost:4000
. All of the newly read notes start out as :new
cards. Convert a bunch of :new
cards to :learn
cards by hitting the button "Add New Learn Cards", and then review some cards by hitting the "Review/Drill" button!
A Memorex.Domain.Deck
consists either of a Markdown file (in which case the deck name is the name of the markdown file [minus the .md
extension]), or a directory which contains multiple markdown files and/or image & text files (in which case the deck name is the name of the directory). There are two types of notes in Memorex
; "text notes" and "image notes". A text note consists of a line of text in a Markdown file which contains either the unidirectional or bidirectional note delimitter. For example, for the vim
deck with a bidirectional delimitter "⮂", a note might consist of the following:
How do you navigate to the end of a file? ⮂ G
or for a unidirectional delimitter "→" in a deck country-capitals.md
, a note may be:
What is the capital of France? → Paris
You can specify both the bidirectional and unidirectional delimitters in environment variables if you wish to override Memorex's default values. The key idea is to have them be characters (or sequences of characters) which are relatively unique and would not otherwise show up in your note content. You can intermix unidirectional and bidirectional delimitters within a single deck.
You can also put non-flashcard content in your deck Markdown files which will not be converted into flashcards; if a line doesn't have one of the delimitters, then it will simply be skipped over by the Memorex.Parser
. This way you can take notes, and create flashcards only for certain pieces of content within that note file that you wish you drill on later.
Image notes consist of a image files placed within a deck directory; each image file has a text file adjacent to it which contains the "answer" to the image. For example, if the image file is "sequoia.jpg" then the sibling text file "sequoia.txt" might contain "Sequoia Sempervirens - Coastal Redwood". Image notes can have the extensions ".jpg", ".jpeg", ".png", ".webp", ".svg", or ".gif".
Memorex.Domain.Card
s are what are actually drilled; forward and reverse cards are created from a note if the bidirectional delimitter is present, and a single forward card is created from a note if the unidirectional delimitter is present (i.e., a note has one or two associated cards). That is, a deck contains many notes, and each note has one (or two) cards. When you answer a card, a Memorex.Domain.CardLog
entry is created.
If you update the content of the Markdown files which comprise your decks, the notes & cards will be updated the next time you run the mix task mix memorex.read_notes
. Any existing card whose parent note has been edited will be reset to start out as a :new
card again (i.e., the drilling information associated with that card will be lost), although the note content will be updated within Memorex. This is because Memorex creates a linkage from the note in the Markdown (for text notes) file to the note in its database via a UUID based on a hash of the note content (together with the filename if the Markdown file is within a directory). Similary for image notes, the notes & cards will be updated if either the image file content is changed, the content of its sibling text file is changed, or if the image & text file are moved to a different location (for example, moving the image file/text file pair to a different deck directory).
Notes can contain mathematical formulas (powered by KaTeX). Simply insert formulas into your notes between matching pairs of single or double dollar signs; for example, $ \sum_{i=1}^\infty\frac{1}{n^2} =\frac{\pi^2}{6} $ or $$ S(x) = \frac{1}{1 + e^{-x}} = \frac{e^{x}}{e^{x} + 1} $$.
Multiple Markdown files within a deck directory will result in the notes for that deck each having a "category" which is the name of the Markdown file. If Markdown note files (or image files with their corresponding text files) are in subdirectories within a deck directory, then the notes will have categories which are the names of the subdirectories (plus the name of the Markdown file if these are text notes). For example, for a deck directory named "Spanish Vocabulary", a Markdown file within that directory called Spanish Vocabulary/Nouns/Household.md
which contains the note line lavavajillas ⮂ dishwasher
will result in a bidirectional note which has the category Nouns => Household
. Similarly for image notes, if there is a image file/text file pair coast-live-oak.jpg
and coast-live-oak.txt
within a subdirectory inside of deck directory named California Native Plants
, such as California Native Plants/Trees/Coastal/coast-live-oak.jpg
and California Native Plants/Trees/Coastal/coast-live-oak.txt
, then the resulting note will have the category Trees => Coastal
.
Similar to Anki, there are four answers for a flashcard: :again
(which means you failed to answer the card), :hard
, :good
, and :easy
. When you start to drill for the day, you'll need to convert a batch of :new
cards to :learn
cards on the deck listing page. A Memorex.Domain.Card
starts out as a :new
card; it is converted to a :learn
card (by hitting the button on the MemorexWeb.DecksLive
page) so that it can be drilled/reviewed. After progressing through the learning steps, the card becomes a :review
card. If a :review
card is failed (i.e., you answer it as :again
then it is said to have lapsed, and becomes a :relearn
card. It then must progress through the :relearn
steps in order to become a :review
card again. After :leech_threshold
lapses in Mememorex.Scheduler.Config
(by default, 8 lapses) then card switches from being :active
to :suspended
. All of this mirrors the Anki algorithm.
There is no notion of a "user" within Memorex nor shared decks; you share flashcard decks with other people by simply sharing the git repo which contains the flashcards.
Memorex's settings mimic closely the settings from Anki; see a detailed list of the Anki settings in this Anki forum. The Anki manual also contains a lot of information. You can override settings for all decks via environment variables; look in this file or in this file to see a list of available environment variables.
You can also override settings on a per-deck basis. If your deck is a single markdown file (e.g., my-deck.md
) then you can override settings for this deck by placing a config file named my-deck.deck_config.toml
adjacent to the deck file in your directory structure. If the deck is a directory, then just place a file named deck_config.toml
within the directory. See this example deck settings config file to see the format of the settings and what is available. Note that if a value isn't specified, then the setting will default to either the environment variable's value (if one has been specified for this setting) or to Memorex's default value, so you only need to specify deck settings in the toml files for values that you wish to override. The current Memorex defaults are all equal to the Anki defaults, and Anki recommends that you use the default values for a few weeks and become comfortable with them before changing/customizing them.
Duration fields (such as max_review_interval
, min_review_interval
, etc.) in Memorex.Scheduler.Config
are specified using ISO-8601 format in environment variables and config files. For example, "P1M10D" means "1 month, 10 days", and "P3DT4H30M" means "3 days, 4 hours, & 30 minutes".
Memorex's domain code (e.g., in lib/memorex
) was created using a strict test-driven development (TDD) approach, and as such has an extremely high level of test coverage (close to 100%, in fact). The Anki algorithm was painstakingly researched and unwound, and test cases were created for every scenario (in fact, in the process of developing Memorex I found some existing documentation was incorrect by examining and running the tests in the Anki source code). The code for Memorex was also written with testability in mind; for example, Timex.now()
is passed into most functions (rather than being called from within functions) so that time is deterministic for testing purposes, and the actual Anki logic is performed in a single module, CardStateMachine, which consists of pure functions and does not interact with the database nor external time. Some functions in various modules are made public that would normally be private functions just so that they can be properly tested (for example, Memorex.Parser
has only one externally used function read_note_dirs/1
, but a lot of the other functions in there are public so they can be tested). By contrast, the LiveView code was only lightly tested, though (as time permits, I would like to backfill LiveView tests for these LiveViews, though!)
Livebook integration is a possibility (if I can figure out what that looks like!)