# Sequences Sequences are used for sending multiple keystrokes in a single action, and can be used for things like unicode characters (even emojis! ๐Ÿ‡จ๐Ÿ‡ฆ), lorei epsum generators, triggering side effects (think lighting, speakers, microcontroller-optimized cryptocurrency miners, whatever). If you are still unsure of what this is, most other vendors call these "Macros", but can do much more if you wish. ## Sending strings The most basic sequence is `send_string`. It can be used to send any standard English alphabet character, and an assortment of other "standard" keyboard keys (return, space, exclamation points, etc.) ```python from kmk.handlers.sequences import send_string WOW = send_string("Wow, KMK is awesome!") keyboard.keymap = [...WOW,...] ``` ## Unicode Before trying to send Unicode sequences, make sure you set your `UnicodeMode`. You can set an initial value in your keymap by setting `keyboard.unicode_mode`. Keys are provided to change this mode at runtime - for example, `KC.UC_MODE_LINUX`. ### Unicode Modes: On Linux, Unicode uses `Ctrl-Shift-U`, which is supported by `ibus` and GTK+3. `ibus` users will need to add `IBUS_ENABLE_CTRL_SHIFT_U=1` to their environment (`~/profile`, `~/.bashrc`, `~/.zshrc`, or through your desktop environment's configurator). On Windows, [WinCompose](https://github.com/samhocevar/wincompose) is required. - Linux : `UnicodeMode.LINUX` or `UnicodeMode.IBUS` - Mac: `UnicodeMode.MACOS` or `UnicodeMode.OSX` or `UnicodeMode.RALT` - Windows: `UnicodeMode.WINC` ### Unicode Examples To send a simple unicode symbol ```python from kmk.handlers.sequences import unicode_string_sequence FLIP = unicode_string_sequence('(ใƒŽเฒ ็—Šเฒ )ใƒŽๅฝกโ”ปโ”โ”ป') keyboard.keymap = [...FLIP,...] ``` If you'd rather keep a lookup table of your sequences (perhaps to bind emojis to keys), that's supported too, through an obnoxiously long-winded method: ```python from kmk.handlers.sequences import compile_unicode_string_sequences as cuss emoticons = cuss({ 'BEER': r'๐Ÿบ', 'HAND_WAVE': r'๐Ÿ‘‹', }) keymap = [...emoticons.BEER, emoticons.HAND_WAVE...] ``` > The observant will notice dot-notation is supported here despite feeding in a > dictionary - the return of `compile_unicode_string_sequences` is a > `kmk.types.AttrDict`, which you can think of as a read-only view over a > dictionary adding attribute-based (dot-notation) access. Finally, if you need to send arbitrary unicode codepoints in raw form, that's supported too, through `unicode_codepoint_sequence`. ```python from kmk.handlers.sequences import unicode_codepoint_sequence TABLE_FLIP = unicode_codepoint_sequence([ "28", "30ce", "ca0", "75ca","ca0", "29", "30ce", "5f61", "253b", "2501", "253b", ]) keyboard.keymap = [...TABLE_FLIP,...] ```