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diff --git a/users/muppetjones/readme/etchamouse.md b/users/muppetjones/readme/etchamouse.md new file mode 100644 index 0000000000..efcf718b22 --- /dev/null +++ b/users/muppetjones/readme/etchamouse.md @@ -0,0 +1,69 @@ +# Etch-a-Mouse + +Encoder-based mouse movement with acceleration! + +## Usage + +- Add the following to your rules.mk + + ``` + ENCODER_ENABLE = yes + POINTING_DEVICE_ENABLE = yes + ``` + +- Add the following block to your keymap.c + + ``` + #ifdef ENCODER_ENABLE + void encoder_update_user(uint8_t index, bool clockwise) { + # ifdef POINTING_DEVICE_ENABLE + encoder_update_mouse(index, clockwise); + # endif + return; + #endif + ``` + +> NOTE: I use the mousekey keycodes to add button one and two into my keymap. + +## How It Works + +> This implementation uses the pointing device library, but it reuses several +> of the same parameters from the mouse key acceleration. + +> The PD library is very light weight, but it does not animate cursor movement. +> tl;dr: The mouse movement will not be smooth! + +The acceleration has four parts: + +``` +initial speed + (delta * time * count) +``` + +1. **Initial Speed**. Uses the `MOUSEKEY_INITIAL_SPEED` parameter. +2. **Delta**. Uses the `MOUSEKEY_MOVE_DELTA` parameter. +3. **Time**. The faster you turn, the faster you move. + + Subtract the time elapsed since the last actuation from a tapping term, + defined by `TAPPING_TERM_MOUSE_ENCODER`†, with a minimum value of 1. + +4. **Count**. The more you turn, the faster you move. + + Count of the total number of actuations. This value will decay over time. + +† _I probably could and will eventually use `TAPPING_TERM`, but I did not want +to mess up my tap mods while experimenting with acceleration._ + +## Diagonal Movement + +Counting the number of actuations for a given axis allows us to persist movement +along a given axis to give us some diagonal movement when moving both axes, +which also helps with the acceleration a bit and makes the movement less blocky. + +## Time-based Decay (a.k.a., Deceleration) + +Originally, the actuation count zeroed out once the tapping term elapsed, but +this made the movement very choppy. Instead, the count will degrade on every +refresh after the tapping term has been exceeded; unfortunately, a refresh only +occurs on an actuation on either axis, so once the time elapsed exceeds the +persistence term, the count is cleared, which also removes any movement in that +axis. |