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qmk_firmware/keyboards/thevankeyboards/minivan/keymaps/josjoha/keymap.c

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/*
* License (GPL):
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 2 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>.
* Authors: This QMK keymap file is a combination of the default
* keymap, led code original copied/edited from ../jetpacktuxedo, some
* copy/paste from QMK documentation code examples (etc).
* Remainder: © 2019, 2020, 2021 by Jos Boersema
*/
// --------------------------------------v---------------------------------------
// Configuration:
// --------------------------------------v---------------------------------------
#include "./user_config.h" // Edit this file to set user preference compile options.
// --------------------------------------^---------------------------------------
/* Configurable keymap for Minivan layouts 44, 45, 46 keys.
* May work for 12×12×12×[11-12] keys as well.
* Configuration in ./user_config.h
*/
/* Overview of the code
*
* The base layers are in separate files;
* process_record_user(), unicode macros are defined in unicode_macros.c;
* accented characters are defined in unicode_weurope.h
*
* Unicode macros facilitate recomputing for re-computing the Dvorak with changed letters
* ('descramble'), and exist because space ran out for * UP(…).
*
* The led color code might be a bit hairy, due to speed/count middle led overlapping layer color.
*
* Preprocessor indentation: # always in column one, #includes and #defines
* are most to the left unless nested, except in the user configuration
* block where room is left for a ‛//’. Logical stuff (#if etc) is
* indented from column two, and then in each nesting goes 4 more spaces
* to the right, so in between the normal code indentations. There should
* be a newline above and below logical statements. This makes preprocessor
* statements stand out, while giving more information in each statement.
* C indentation: trying to follow QMK standard.
*
*/
#include QMK_KEYBOARD_H
// Bit masks for the Base layers, to set them as Default, in order to make transparency look back to the right one.
#define _DEF_BASE_MASK 0x1 // Some functions take a bit-mask, where layer 0 (zero) is called 0x1 instead.
#define _ALT_BASE_MASK 0x2 // Some functions take a bit-mask, where layer 0 (zero) is called 0x1 instead.
// Below #defines the internal order of the layers.
// Notice this order in layer_state_set_user as well, regarding the led indicators.
enum {
_DEF_BASE, // Default BASE layer (layer at startup). Typically the letters.
# ifndef MINIFAN_SINGLE_LAYOUT
_ALT_BASE, // Alternative BASE layer.
# endif
_DEF_NSY, // numbers and symbols
# ifndef MINIFAN_SINGLE_LAYOUT
_ALT_NSY, // Alternate version of _DEF_NSY
# endif
_MOV, // movement arrows and mouse
_RAR, // keys RARely used, Unicode config, Power keys, Media keys, alternate mode switch, speed/size count, …
# ifndef REMOVE_PAD
_PAD, // Numbers pad. These are different versions of the same numbers, that is ‛1’ (_NSY) ≠ ‛1’ (_PAD).
# endif
# ifndef REMOVE_ACC // Removes this layer entirely, if set.
_ACC, // Accented letters
# endif
# ifndef REMOVE_DRA // Removes this layer entirely, if set.
_DRA, // Unusual symbols and whatever else
# endif
# ifndef REMOVE_BON // Removes this layer entirely, if set.
_BON, // Bonus layer with more Unicode symbols
# endif
_FUN, // function keys, layer switcher, given highest order precedence just in case
} ;
// The default and alternate base layers needs to have a low order
// number, so that the other layers can be accessed on top of it.
// Default Layer is set, according to active Base pair.
// What BASE layer is active.
enum {
_NORMAL_, // BASE layer is _DEF_BASE
_FULL_, // BASE layer is _ALT_BASE
# ifdef DVORAK_DESCRAMBLE // not used with other keymaps
_HALF_, // BASE layer is _ALT_BASE For DVORAK_DESCRAMBLE keymap: does *not* re-compute letters in Unicode
// This is for different Unicode encodings than “Control+U+HEX” (Linux). It will go through what is set on _RAR
# endif
};
// The mechanism is about what layer to return to, once needing to go back to the letters layer (BASE).
# ifndef STARTUP_ALTERNATE // Startup with in default BASE, normal mode.
short alternate = _NORMAL_;
# else // Startup with alternate BASE active
short alternate = _FULL_; //
# endif
//* Shift detection
bool shift_ison = 0; // keep track of the state of shift (Capslock is ignored). There may be more elegant code for this in
// QMK (a function seems to do it?), but this is simple and keeps the issue isolated to this file.
# define TRUE 1
# define FALSE 0
bool _fun_stay = FALSE; // for making _FUN layer not return to BASE after pressing an F-key
bool leds_on; // toggle leds on/off
# ifdef LEDS_OFF_BASE_DEF
bool led_middle_on = TRUE; // Set to off later, if startup setting is off.
# endif
bool isolate_trigger = FALSE; // detects if _FUN layer move was pressed, and no other key (no normal use of Shift).
bool capslock; // keeps track of capslock state
bool numlock; // keeps track of numlock state
//layer_state_t state_recall; // We are calling the function set_led_colors_ from this file as well.
// speed measuring
bool speed_measure = SPEED_INIT_VALUE; // feature activated or not on startup
uint32_t speed_counttime; // counts the time
short speed_countdown = SPEED_COUNTDOWN; // countdown to next computation/effects
int speed; // we store typing result (keys/second) to make reporting less stressful on user, as it doesn't run away after typing
// the value is recorded 10 times higher, to allow another digit of precision, needed to calculate Words-Per-Minute
long int speed_batches = 0; // This counts how many batches of SPEED_COUNTDOWN have been added to wordcount_speed_add
long int speed_add = 0; // This just adds the speed computed for every batch of SPEED_COUNTDOWN, also times 10 for precision
// character and word counting, attempting to count the final text being written
bool sizecount_measure = COUNT_INIT_VALUE; // feature activated or not on startup
long int sizecount_blanks = 0; // This counts spaces/enters as a means of counting words, with manual substraction key
long int sizecount_chars = 0; // This counts characters, substraction for delete/backspace
bool sizecount_word; // remember if the last character was whitespace, so a second does not count a word
bool sizecount_menu = FALSE; // menu mode for configuring sizecount led color & alert system for maximum size.
long int sizecount_max = 0; // the maximum system for count, alert user about relative size/limit
bool sizecount_max_type; // is size counting by word or by character
#define SIZECOUNT_WORD 0 // The type of text size counting: words
#define SIZECOUNT_CHAR 1 // " : characters
/* This file contains mostly the Unicode and special macros.
It contains the function: process_record_user(...)
It has been isolated because the source file got long.
*/
#include "./unicode_macros.c"
// Pre-existing function, run when the keyboard starts up.
void keyboard_post_init_user (void) {
# ifdef RGBLIGHT_ENABLE
// Set side leds on/off startup
# ifdef STARTUP_SIDE_LEDS_OFF
leds_on = FALSE;
# else
leds_on = TRUE;
# endif
// Set up RGB effects on _only_ the first LED
rgblight_set_effect_range (1, 1); // Takes a range: 1st arg is start, 2nd how many
rgblight_sethsv_noeeprom (HSV_WHITE); // Startup color of keyboard.
// Set LED effects to breathing mode
rgblight_mode_noeeprom (RGBLIGHT_EFFECT_BREATHING + 2);
// Init the first and last LEDs to a static color.
setrgb (0, 0, 0, (rgb_led_t *)&led[0]); // Led[0] is led 0
setrgb (0, 0, 0, (rgb_led_t *)&led[2]); // 2nd led
// The logic seems to be to establish the effect first, and then toggle it on/off.
# ifdef STARTUP_MID_LED_OFF
rgblight_disable (); //
# ifdef LEDS_OFF_BASE_DEF // This messes with led effect on/off, so we need to track the state of this setting now.
led_middle_on = FALSE;
# endif
# endif
isolate_rgblight_set ();
# endif //RGBLIGHT_ENABLE
// Set startup layer
# ifdef STARTUP_ALTERNATE
layer_move (_ALT_BASE);
# else
layer_move (_DEF_BASE);
# endif
_fun_stay = TRUE; // startup with F-keys not returning to Base after stroke (_FUN)
}
// Writes a number as if typed on keyboard. Typically to show a speed/text size measurement.
// If last argument is TRUE it prints a dot ‛.’ before the last digit
int write_number (long int input, short divide10) {
long int step10;
short digit;
short start = FALSE;
short printed = 0;
char output[2];
output[1] = '\0';
if (0 > input) { // number is negative
send_string ("-"); // minus
printed++;
input *= -1; // turn positive
}
for (step10 = 1000000000; 0 != step10; step10 /= 10) { // assuming 32 bit, ± 10⁹
digit = input / step10;
input = input % step10;
if (!start) { // remove leading zeros
if ((0 != digit) || (1 == step10)) start = TRUE; // If all zeros, always print last zero.
}
if (divide10 && (1 == step10)) { // print with a dot before the last digit
send_string (".");
printed++;
}
if (start) { // print
output[0] = '0' + digit;
send_string (output);
printed++;
}
}
return printed;
}
// This function prevents the middle led from being altered by layer
// switching (showing the layer color, that is), when another
// functionality takes precedent over the middle led.
void middle_led_control (short hsv_h, short hsv_s, short hsv_v ) {
# ifdef RGBLIGHT_ENABLE
if (FALSE == speed_measure) { // only touch middle led if no speed measuring going on
if ( ! ((TRUE == sizecount_measure) && (0 != sizecount_max)) ) { // only touch middle led if no text size
// counting set to a maximum is going on.
rgblight_sethsv_noeeprom (hsv_h, hsv_s, hsv_v); // set it
}
}
# endif
}
// Set middle led color for speed system. Needed in various places.
void speed_led (int speed) {
# ifdef RGBLIGHT_ENABLE
speed /= 10; // argument is in 10 times its value
if ( ! ((TRUE == sizecount_measure) && (0 != sizecount_max)) ) { // only touch middle led if no text size
// counting set to a maximum is going on.
rgblight_sethsv_noeeprom (SPEED_HUE_STEP * speed + SPEED_HUE_START, 255, 128); // full saturation, but half lit
rgblight_set (); // only center led is altered, no need to go through isolate_rgblight_set()
}
# endif
}
// do this in one place to handle left/right leds being off here
void isolate_rgblight_set (void) {
# ifdef RGBLIGHT_ENABLE
if (!leds_on) { // left/right leds are off
// overwrite previously colors
uint8_t led0r = 0; uint8_t led0g = 0; uint8_t led0b = 0;
uint8_t led2r = 0; uint8_t led2g = 0; uint8_t led2b = 0;
led0r = 0;
led0g = 0;
led0b = 0;
led2r = 0;
led2g = 0;
led2b = 0;
setrgb(led0r, led0g, led0b, (rgb_led_t *)&led[0]); // Led 0
setrgb(led2r, led2g, led2b, (rgb_led_t *)&led[2]); // Led 2
}
rgblight_set ();
# endif
}
// _FUN layer leds.
void indicate_fun_stay (void) {
# ifdef RGBLIGHT_ENABLE
uint8_t led0r = 0; uint8_t led0g = 0; uint8_t led0b = 0;
uint8_t led2r = 0; uint8_t led2g = 0; uint8_t led2b = 0;
// See also below under _FUN layer led
if (_fun_stay == TRUE) { // normal mode, 0 (100% normal)
led0r = 255; // red
led2r = 255; // Yellow
led2g = 50;
}else{
led0r = 255; // Yellow
led0g = 50; //
led2r = 255; // red
}
setrgb(led0r, led0g, led0b, (rgb_led_t *)&led[0]); // Led 0
setrgb(led2r, led2g, led2b, (rgb_led_t *)&led[2]); // Led 2
isolate_rgblight_set ();
# endif //RGBLIGHT_ENABLE
}
// _RAR layer leds
// It is a function because this is also called when the Base layer OTHER_BASE key is pressed
void indicate_base (void) {
# ifdef RGBLIGHT_ENABLE
uint8_t led0r = 0; uint8_t led0g = 0; uint8_t led0b = 0;
uint8_t led2r = 0; uint8_t led2g = 0; uint8_t led2b = 0;
// See also below under _FUN layer led
if (_NORMAL_ == alternate) { // normal mode, 0 (100% normal)
led0r = 255; // shine white left led
led0g = 255;
led0b = 255;
rgblight_sethsv_noeeprom (HSV_PURPLE); // This overrides the speed setting.
led2r = 100; // purple
led2b = 100;
}
# ifdef DVORAK_DESCRAMBLE // not used with other keymaps
else if (_HALF_ == alternate) { // alternate mode, 1 (normal unicode)
led0r = 100; // purple
led0b = 100;
rgblight_sethsv_noeeprom (HSV_WHITE); // shine white middle led (still breathes)
led2r = 100; // purple
led2b = 100;
}
# endif
else if (_FULL_ == alternate) { // alternate mode, 1 (recomputed unicode for DVORAK_DESCRAMBLE)
led0r = 100; // purple
led0b = 100;
rgblight_sethsv_noeeprom (HSV_PURPLE);
led2r = 255;// shine white right led
led2g = 255;
led2b = 255;
}
setrgb(led0r, led0g, led0b, (rgb_led_t *)&led[0]); // Led 0
setrgb(led2r, led2g, led2b, (rgb_led_t *)&led[2]); // Led 2
isolate_rgblight_set ();
# endif //RGBLIGHT_ENABLE
}
// Sets led colors for all layers. Including Capslock/Numlock changes. See a computer side activated function for that too:
// led_update_user (…)
void set_led_colors_ (layer_state_t state) {
# ifdef RGBLIGHT_ENABLE
uint8_t led0r = 0; uint8_t led0g = 0; uint8_t led0b = 0;
uint8_t led2r = 0; uint8_t led2g = 0; uint8_t led2b = 0;
short color_ddl = 28 ;
# ifdef LEDS_OFF_BASE_DEF
// Special case of switching centre led effect on/off
if (!layer_state_cmp (state, _DEF_BASE)) { // letters
//if (rgblight_is_enabled())
if (led_middle_on) { // Follows user setting based on _RAR key.
rgblight_enable_noeeprom (); // Would be easier if middle_led_control (…) could set brightness to dark, but seems to not work.
}
}
# endif
// The order should be the reverse of the #defines of layer number of the layers on top
// because higher layer number is higher priority if activated
/* _DEF_BASE 0 _ALT_BASE 1 _DEF_NSY 2 _ALT_NSY 3 _MOV 4 _RAR 5 _PAD 6 _ACC 7 _DRA 8 _BON 9 _FUN 10 */
if (layer_state_cmp (state, _FUN)) { // F-keys, and layer toggles
middle_led_control (HSV_RED); // purple
indicate_fun_stay (); // Indicates state of _fun_stay, but only when it is being toggled.
return ; // indicate_fun_stay function already does it all.
}
# ifndef REMOVE_BON // Removes this layer entirely, if set.
else if (layer_state_cmp (state, _BON)) { // Bonus layer with encircled numbers and more symbols
// side leds dark
middle_led_control (HSV_YELLOW);
}
# endif // REMOVE_BON
# ifndef REMOVE_DRA // This cuts out the whole _DRA layer
else if (layer_state_cmp (state, _DRA)) { // Unicode drawings and unusual things
led0r = 255; // gold red
led0g = 128; //
led2r = 255; //
led2g = 128; //
middle_led_control( HSV_GOLDENROD );
}
# endif // REMOVE_DRA
# ifndef REMOVE_ACC // This cuts out the whole _ACC layer.
else if (layer_state_cmp (state, _ACC)) { // Accented letters (Unicode input layer)
led0g = 150; // With some blue, because it is also a symbol
led0b = 100;
led2g = 150;
led2b = 100;
middle_led_control (HSV_TURQUOISE); // cyan
}
# endif // REMOVE_ACC
# ifndef REMOVE_PAD
else if (layer_state_cmp (state, _PAD)) { // numbers pad layer
if (numlock) {
led0b = 255; // Blue for the numbers part
led2g = 255; // Green for the navigation part
}else{
led0g = 255; // reversed
led2b = 255; //
}
middle_led_control (60, 20, 100); // yellow (low saturation)
}
# endif // REMOVE_PAD
//---
else if (layer_state_cmp (state, _RAR)) { // layer with special keys
indicate_base (); // this function already does it all
return; //
}
//---
else if (layer_state_cmp (state, _MOV)) { // movement layer
led0g = 255;// movement is green, "go forward"
led2g = 255;
middle_led_control(HSV_GREEN);
}
//--- (pair)
else if (layer_state_cmp (state, _ALT_NSY)) { // alternate, numbers/symbols
led0b = 255; // first led follows the corresponding default layer: _DEF_NSY
led2r = color_ddl; // Same as DDL, to which it belongs.
led2g = color_ddl; //
led2b = color_ddl; //
middle_led_control (HSV_BLUE);
}
else if (layer_state_cmp (state, _DEF_NSY)) { // symbols and numbers
led0b = 255; // blue for symbols, like ink (writing)
led2b = 255;
middle_led_control (HSV_BLUE);
}
//--- (pair)
// Alternate BASE layer (alternate)
else if (layer_state_cmp (state, _ALT_BASE)) {
# ifdef LEDS_OFF_BASE_ALT // Alternative Base leds off (always)
rgblight_disable_noeeprom ();
# else // do use leds on Alternative Base layer
# if !defined(BASE_NUMPAD__ALT_BASE) // Normal led colors for ‛regular’ base layers like Dvorak, Qwerty.
if (capslock) {
led2r = 255; // Brighter version to indicate capslock
led2g = 255; //
led2b = 255; //
} else {
led2r = color_ddl; // A bit of a white not too bright color on right
led2g = color_ddl; //
led2b = color_ddl; //
}
middle_led_control (HSV_TEAL); // seems to be the same as CYAN/AZURE, conflicts with _ACC
# else // Numpad configured on Alternate Base, which should show the state of NumLock
// This is a copy of the _PAD led colors, but less bright
if (numlock) {
led0b = 80; // Blue for the numbers part
led2g = 80; // Green for the navigation part
}else{
led2b = 80; // reversed
led0g = 80; //
}
middle_led_control (60, 20, 100); // light-blue
# endif // BASE_NUMPAD__ALT_BASE
# endif // LEDS_OFF_BASE_ALT
}
// Default layer (generally), normal BASE layer
else if (layer_state_cmp (state, _DEF_BASE)) { // letters
# ifdef LEDS_OFF_BASE_DEF // Default Base leds off (always)
rgblight_disable_noeeprom ();
# else // Do use leds on Default Base
if (capslock) {
led0r = 255; // Brighter version to indicate capslock
led0g = 255; //
led0b = 255; //
} else {
led0r = 28; // A bit of a weak white color on left
led0g = 28; //
led0b = 28; //
}
middle_led_control (HSV_TEAL);
# endif // LEDS_OFF_BASE_DEF
}
//---
// pushes the configuration
setrgb (led0r, led0g, led0b, (rgb_led_t *)&led[0]); // Led 0
setrgb (led2r, led2g, led2b, (rgb_led_t *)&led[2]); // Led 2
isolate_rgblight_set (); // Activates the led color change, after on/off check.
# endif //RGBLIGHT_ENABLE
}
// Pre-existing QMK function, called when NumLock/CapsLock key is pressed, including on another keyboard.
// This function sets two booleans that keep track of the current capslock/numlock state, for use in layer led colors.
bool led_update_user (led_t led_state) {
if (led_state.num_lock) { // This doesn't look at the keyboard leds or any other actual leds. It seems to look at whether
// or not the computer has numlock in the on/off state.
numlock = TRUE;
}else{
numlock = FALSE;
}
if (led_state.caps_lock) {
capslock = TRUE;
}else{
capslock = FALSE;
}
//layer_state_set_user
set_led_colors_ (state_recall); // Update leds
return true ;
}
// pre-existing function, called when layer changes
layer_state_t layer_state_set_user (layer_state_t state) {
set_led_colors_ (state); // Update leds
state_recall = state; // Recall this, for calling set_led_colors_(…) on Num/Capslock changes in led_update_user(…)
return state;
}
// -------------------------------- layers --------------------------------
const uint16_t PROGMEM keymaps[][MATRIX_ROWS][MATRIX_COLS] = {
/******************** What base layers to use: **************/
// * Dvorak *
# if defined(BASE_DVORAK__DEF_BASE) || defined(BASE_DVORAK__ALT_BASE)
# include "./base_dvorak.c" // Regular Dvorak.
# endif
// * Dvorak descramble *
# if defined(BASE_DVORAK_DESCRAMBLE__ALT_BASE) // only for ‛Alternate’ base
# include "./base_dvorak_descramble.c" // Dvorak for when computer is already remapping to Dvorak.
# endif
// * Qwerty *
# if defined(BASE_QWERTY__DEF_BASE) || defined(BASE_QWERTY__ALT_BASE)
# include "./base_qwerty.c" // Regular Qwerty.
# endif
// * Qwerty arrows on Base *
# if defined(BASE_QWERTY_BASEARROW__DEF_BASE) || defined(BASE_QWERTY_BASEARROW__ALT_BASE)
# include "./base_qwerty_basearrow.c" // Qwerty + arrows
# endif
// * Colemak *
# if defined(BASE_COLEMAK__DEF_BASE) || defined(BASE_COLEMAK__ALT_BASE)
# include "./base_colemak.c" // Regular Colemak.
# endif
// * Workman *
# if defined(BASE_WORKMAN__DEF_BASE) || defined(BASE_WORKMAN__ALT_BASE)
# include "./base_workman.c" // Regular Workman.
# endif
// * Numpad *
# if defined(BASE_NUMPAD__ALT_BASE)
# include "./base_numpad.c" // Numbers pad
# endif
// * Hebrew *
# if defined(BASE_HEBREW__DEF_BASE) || defined(BASE_HEBREW__ALT_BASE)
# include "./base_hebrew.c" // Hebrew
# endif
// // ⬇ insert your ./base_YOUR_KEYMAP.c #include here:
// * YOUR KEYMAP *
// # if defined(BASE_YOUR_KEYMAP__DEF_BASE) || defined(BASE_YOUR_KEYMAP__ALT_BASE)
// # include "./base_YOUR_KEYMAP.c" // Your Keymap.
// # endif
// If your keymap also has a ./base_YOUR_KEYMAP.h configuration/header file, #include it in ./user_config.h
// Look for similar inclusions of base header files, similar to the #includes here.
// You should be able to just copy what you did here, and only change “.c” into “.h”.
// // ⬆
// See the ./bases_*.c file for definition of _DEF_BASE, _DEF_NSY, _ALT_BASE, _ALT_NSY layers, selected in ./user_config.h
/* ⬆⬇ (next layer) */
# ifndef BASESFILE_LAYER_MOV // Use a definition of this layer in the ./bases_* file, where this #define can be defined.
/* Layer _MOV: Movement layer: mouse and hands on navigation
* Also delete/backspace, to navigate and delete together.
*/
[ _MOV ] = LAYOUT_redefined (
/*
Layer _MOV (MOVement, mouse movement on right hand)
triangle layout (mouse right hand):
<pinky2<pinky<ring <middl<index<indx2| indx2>index>middl>ring> pinky>pink2>
<|>-*- //(toggle) on _FUN
BASE PgDn Up PgUp Home Btn3 | xxx WhDn MsUp WhU WhLft Bksp
LCtl Left Down Right End Btn1 | Btn1 MsLft MsDn MsRht WhRht RCtl
LSht*- xxx Acc2 Acc1 Acc0 Btn2 | Btn2 Btn3 Btn4 Btn5 xxx RSht //(toggle) on BASE
----------------------------------------------------------------------------
LAlt Del Ent ___ | PgUp PgDn LGUI RAlt
-*-<|> //(hold) on BASE
<1 ± <2 <3 <4 | 4> 3> 2> ± 1>
… …
triangle layout, 'arrow' additional hardware key, with arrow cluster (difference marked _):
<pinky2<pinky<ring <middl<index<indx2| indx2>index>middl>ring> pinky>pink2>
<|>-*- //(toggle) on _FUN
BASE PgDn Up PgUp Home Btn3 | xxx WhDn MsUp WhU WhLft Bksp
LCtl Left Down Right End Btn1 | Btn1 MsLft MsDn MsRht WhRht RCtl
LSht*- xxx Acc2 Acc1 Acc0 Btn2 | Btn2 Btn3 Btn4 Btn5 _Up_ RSht //(toggle) on BASE
----------------------------------------------------------------------------
LAlt Del Ent ___ | PgUp PgDn _Left__Down__Right_
-*-<|> //(hold) on BASE
<1 ± <2 <3 <4 | 4> 3> 2> _±_ 1>
triangle layout, 'arrow' additional hardware key, with arrow cluster and navigation keys:
<pinky2<pinky<ring <middl<index<indx2| indx2>index>middl>ring> pinky>pink2>
<|>-*- //(toggle) on _FUN
BASE PgDn Up PgUp Home _Btn4_ | xxx WhDn MsUp WhU WhLft Bksp
LCtl Left Down Right End Btn1 | Btn1 MsLft MsDn MsRht WhRht RCtl
LSht*- xxx Acc2 Acc1 Acc0 _Btn5_ | Btn2 Btn3 _Home__PgUp_ _Up_ _PgDn_ //(toggle) on BASE
----------------------------------------------------------------------------
LAlt Del Ent ___ | PgUp _End_ _Left__Down__Right_
-*-<|> //(hold) on BASE
<1 ± <2 <3 <4 | 4> 3> 2> _±_ 1>
flat layout (mouse movement on left hand):
<pinky2<pinky<ring <middl<index<indx2| indx2>index>middl>ring> pinky>pink2>
<|>-*- //(toggle) on _FUN
BASE WLft WDn WUp WRht xxx | Btn3 PgUp Home End PgDn Bksp
LCtl MLft MDn MUp MRht Btn1 | Btn1 Left Up Down Right RCtl
LSht*- Btn5 Btn4 Btn3 Butn2 xxx | Btn2 Acc0 Acc1 Acc2 xxx RSht //(toggle) on BASE
----------------------------------------------------------------------------
LAlt Del Ent ___ | PgUp PgDn LGUI RAlt
-*-<|> //(hold) on BASE
<1 ± <2 <3 <4 | 4> 3> 2> ± 1>
flat layout, 'arrow' additional hardware key, with arrow cluster (difference marked _)
<pinky2<pinky<ring <middl<index<indx2| indx2>index>middl>ring> pinky>pink2>
<|>-*- //(toggle) on _FUN
BASE WLft WDn WUp WRht xxx | Btn3 PgUp Home End PgDn Bksp
LCtl MLft MDn MUp MRht Btn1 | Btn1 Left Up Down Right RCtl
LSht*- Btn5 Btn4 Btn3 Butn2 xxx | Btn2 Acc0 Acc1 Acc2 xxx RSht //(toggle) on BASE
----------------------------------------------------------------------------
LAlt Del Ent ___ | PgUp _Left_ _Up_ _Down__Right_
-*-<|> //(hold) on BASE
<1 ± <2 <3 <4 | 4> 3> 2> _±_ 1>
flat layout, 'arrow' additional hardware key, with arrow cluster and additional navigation keys:
<pinky2<pinky<ring <middl<index<indx2| indx2>index>middl>ring> pinky>pink2>
<|>-*- //(toggle) on _FUN
BASE WLft WDn WUp WRht xxx |_Acc2_ PgUp Home End PgDn Bksp
LCtl MLft MDn MUp MRht Btn1 | Btn1 Left Up Down Right RCtl
LSht*- Btn5 Btn4 Btn3 Butn2 xxx |_Acc1_ Acc0 _PgUp__Home__End_ _PgDn_ //(toggle) on BASE
----------------------------------------------------------------------------
LAlt Del Ent ___ | PgUp _Left_ _Up_ _Down__Right_
-*-<|> //(hold) on BASE
<1 ± <2 <3 <4 | 4> 3> 2> _±_ 1>
flat layout, 'arrow' additional hardware key, with arrow cluster, additional navigation keys, vi(1) layout:
<pinky2<pinky<ring <middl<index<indx2| indx2>index>middl>ring> pinky>pink2>
<|>-*- //(toggle) on _FUN
BASE WLft WDn WUp WRht xxx |_Acc2_ PgUp Home End PgDn Bksp
LCtl MLft MDn MUp MRht Btn1 | Left Down Up Right Btn1 RCtl
LSht*- Btn5 Btn4 Btn3 Butn2 xxx |_Acc1_ Acc0 _PgUp__Home__End_ _PgDn_ //(toggle) on BASE
----------------------------------------------------------------------------
LAlt Del Ent ___ | PgUp _Left_ _Down__Up_ _Right_
-*-<|> //(hold) on BASE
<1 ± <2 <3 <4 | 4> 3> 2> _±_ 1>
*/
/* Inner default navigation/mouse layout. 11 means row 1, column 1, etc.
* Configured for arrows on the right, mouse on the left (BTN* on the left side, that is).
*/
# ifndef ARROWS_TRIANGLE
# define NAVI_11 KC_BTN3 // NAVI for 'navigation cluster', 11 for row 1, column 1, etc.
# define NAVI_12 KC_PGUP
# define NAVI_13 KC_HOME
# define NAVI_14 KC_END
# define NAVI_15 KC_PGDN
# define NAVI_21 KC_BTN1
# define NAVI_22 KC_LEFT
# define NAVI_23 KC_UP
# define NAVI_24 KC_DOWN
# define NAVI_25 KC_RIGHT
# define NAVI_31 KC_BTN2
# define NAVI_32 KC_ACL0
# define NAVI_33 KC_ACL1
# define NAVI_34 KC_ACL2
# define NAVI_35 XXXXXXX
//-----------------------------------------------------------------------------------
// Configured for left handed mouse, with xxx,BTN* on the right most column.
# define MOUS_11 KC_WH_L // MOUS for mouse, etc.
# define MOUS_12 KC_WH_D
# define MOUS_13 KC_WH_U
# define MOUS_14 KC_WH_R
# define MOUS_15 XXXXXXX
# define MOUS_21 KC_MS_L
# define MOUS_22 KC_MS_D
# define MOUS_23 KC_MS_U
# define MOUS_24 KC_MS_R
# define MOUS_25 KC_BTN1
# define MOUS_31 KC_BTN5
# define MOUS_32 KC_BTN4
# define MOUS_33 KC_BTN3
# define MOUS_34 KC_BTN2
# define MOUS_35 XXXXXXX
# endif
// Alternative navigation/mouse layout: arrows in triangle, and left hand on the left 'wasd' location.
// If you want these arrows on the right hand, you may want to edit this, to put right most column left, etc.
# ifdef ARROWS_TRIANGLE
# define NAVI_11 KC_PGDN
# define NAVI_12 KC_UP
# define NAVI_13 KC_PGUP
# define NAVI_14 KC_HOME
# define NAVI_15 KC_BTN3
# define NAVI_21 KC_LEFT
# define NAVI_22 KC_DOWN
# define NAVI_23 KC_RIGHT
# define NAVI_24 KC_END
# define NAVI_25 KC_BTN1
# define NAVI_31 XXXXXXX
# define NAVI_32 KC_ACL2
# define NAVI_33 KC_ACL1
# define NAVI_34 KC_ACL0
# define NAVI_35 KC_BTN2
//------------------------------------------------------------------------------------
// If switching hands to put mouse left, same as for navigation side: switch outer columns by editing here.
# define MOUS_11 XXXXXXX
# define MOUS_12 KC_WH_D
# define MOUS_13 KC_MS_U
# define MOUS_14 KC_WH_U
# define MOUS_15 KC_WH_L
# define MOUS_21 KC_BTN1
# define MOUS_22 KC_MS_L
# define MOUS_23 KC_MS_D
# define MOUS_24 KC_MS_R
# define MOUS_25 KC_WH_R
# define MOUS_31 KC_BTN2
# define MOUS_32 KC_BTN3
# define MOUS_33 KC_BTN4
# define MOUS_34 KC_BTN5
# define MOUS_35 XXXXXXX
# endif
// Default left/right layout, meaning arrows right and mouse left.
# ifndef ARROWS_LEFT
# define LEFT_AA MOUS_11
# define LEFT_AB MOUS_12
# define LEFT_AC MOUS_13
# define LEFT_AD MOUS_14
# define LEFT_AE MOUS_15
# define LEFT_BA MOUS_21
# define LEFT_BB MOUS_22
# define LEFT_BC MOUS_23
# define LEFT_BD MOUS_24
# define LEFT_BE MOUS_25
# define LEFT_CA MOUS_31
# define LEFT_CB MOUS_32
# define LEFT_CC MOUS_33
# define LEFT_CD MOUS_34
# define LEFT_CE MOUS_35
# define RGHT_AA NAVI_11
# define RGHT_AB NAVI_12
# define RGHT_AC NAVI_13
# define RGHT_AD NAVI_14
# define RGHT_AE NAVI_15
# define RGHT_BA NAVI_21
# define RGHT_BB NAVI_22
# define RGHT_BC NAVI_23
# define RGHT_BD NAVI_24
# define RGHT_BE NAVI_25
# define RGHT_CA NAVI_31
# define RGHT_CB NAVI_32
# define RGHT_CC NAVI_33
# define RGHT_CD NAVI_34
# define RGHT_CE NAVI_35
# endif
# ifdef ARROWS_LEFT
# define LEFT_AA NAVI_11
# define LEFT_AB NAVI_12
# define LEFT_AC NAVI_13
# define LEFT_AD NAVI_14
# define LEFT_AE NAVI_15
# define LEFT_BA NAVI_21
# define LEFT_BB NAVI_22
# define LEFT_BC NAVI_23
# define LEFT_BD NAVI_24
# define LEFT_BE NAVI_25
# define LEFT_CA NAVI_31
# define LEFT_CB NAVI_32
# define LEFT_CC NAVI_33
# define LEFT_CD NAVI_34
# define LEFT_CE NAVI_35
# define RGHT_AA MOUS_11
# define RGHT_AB MOUS_12
# define RGHT_AC MOUS_13
# define RGHT_AD MOUS_14
# define RGHT_AE MOUS_15
# define RGHT_BA MOUS_21
# define RGHT_BB MOUS_22
# define RGHT_BC MOUS_23
# define RGHT_BD MOUS_24
# define RGHT_BE MOUS_25
# define RGHT_CA MOUS_31
# define RGHT_CB MOUS_32
# define RGHT_CC MOUS_33
# define RGHT_CD MOUS_34
# define RGHT_CE MOUS_35
# endif
/* Definition of the additional arrow cluster with optional navigation keys, for the 'arrow' hardware layout.
*
* By default what becomes the up-arrow (row 2, 2nd key from right) is a no-action key on this layer,
* which can be displaced without worry.
* Keys that are displaced for the larger arrow cluster with navigation keys, get moved to the second definition
* of KC_BTN2 and KC_BTN3, which is on the non-mouse hand.
*
* Only the version where the triangle arrows are defined for the left hand, or the version where the flat line
* arrows are defined for the right hand, are supported.
*
* There are several configurations, worked down in order to keep this mess under control.
*
* v----------------------not-defined-------------v----------------v
* !MOREKEY2_ARROW_CLUSTER !MOREKEY2_ADD_NAVIGATION !ARROWS_TRIANGLE !ARROWS_LEFT
* defined MOREKEY2_ARROW_CLUSTER ...................... yes yes yes
* defined MOREKEY2_ADD_NAVIGATION yes ....................... yes only for flat arrows
* defined ARROWS_TRIANGLE yes yes ............... no
* defined ARROWS_LEFT yes only for triangle yes ...........
* MOREKEY2_ARROW_CLUSTER MOREKEY2_ADD_NAVIGATION ARROWS_TRIANGLE ARROWS_LEFT
* ^--------------------------defined-------------^----------------^
*
* Definition order:
* 0 no arrow cluster (and therefore no additional navigation keys either)
* 1 triangle arrows with arrow cluster
* 2 '' '' + additional navigation and repositioning displaced keys
* 3 flat arrows with arrow cluster
* 4 '' '' + additional navigation and repositioning displaced keys
*/
/* 0 (Nothing special, just the default keys)*/
// Default layout without arrow cluster. (With a little imagination you can visualize the keyboard.)
# if !defined(MOREKEY2_ARROW_CLUSTER)
// Default
# define _MOV_KEY_ROW2_KEY1 KC_RSFT
# define _MOV_KEY_ROW2_KEY2 RGHT_CE // Key counting from the right to the left.
# define _MOV_KEY_ROW2_KEY3 RGHT_CD
# define _MOV_KEY_ROW2_KEY4 RGHT_CC
// ------------------------------------------
# define _MOV_KEY_ROW1_KEY1 KC_RALT // ''
# define _MOV_KEY_ROW1_KEY2 MORE_key2 // ''
# define _MOV_KEY_ROW1_KEY3 KC__YGUI // '' (etc)
# define _MOV_KEY_ROW1_KEY4 KC_PGDN
// <|,> , , , ,
// |, 4> , 3> , 2> , ± , 1> // ± is the additional hardware key
# endif
/* 1 (triangle arrows with arrow cluster) */
// Patch in the arrows for arrow triangle layout
# if defined(MOREKEY2_ARROW_CLUSTER) && defined(ARROWS_TRIANGLE)
// Arrow cluster
# define _MOV_KEY_ROW2_KEY2 KC_UP
// ------------------------------------------
# define _MOV_KEY_ROW1_KEY1 KC_RIGHT
# define _MOV_KEY_ROW1_KEY2 KC_DOWN
# define _MOV_KEY_ROW1_KEY3 KC_LEFT
// <|,> , , , ,
// |, 4> , 3> , 2> , ± , 1>
# endif
// The default layout around the arrows
# if defined(MOREKEY2_ARROW_CLUSTER) && !defined(MOREKEY2_ADD_NAVIGATION) && defined(ARROWS_TRIANGLE)
// Default keys
# define _MOV_KEY_ROW2_KEY1 KC_RSFT
# define _MOV_KEY_ROW2_KEY3 RGHT_CD
# define _MOV_KEY_ROW2_KEY4 RGHT_CC
// ------------------------------------------
# define _MOV_KEY_ROW1_KEY4 KC_PGDN
// <|,> , , , ,
// |, 4> , 3> , 2> , ± , 1>
# endif
/* 2 ( '' '' + additional navigation and repositioning displaced keys) */
// Patch in the navigation keys for the arrow in triangle layout.
# if defined(MOREKEY2_ADD_NAVIGATION) && defined(ARROWS_TRIANGLE) // Navigation additional keys (arrows implied).
# define _MOV_KEY_ROW2_KEY1 KC_PGDN
# define _MOV_KEY_ROW2_KEY3 KC_PGUP
# define _MOV_KEY_ROW2_KEY4 KC_HOME
// ------------------------------------------
# define _MOV_KEY_ROW1_KEY4 KC_END
// <|,> , , , ,
// |, 4> , 3> , 2> , ± , 1>
# endif
// We have now overwritten the positions of RGHT_CC and RGHT_CD, which could be useful keys.
// You don't want to mess with BTN1 on the other hand, because it needs to select together with mouse moving in many applications.
# if defined(MOREKEY2_ADD_NAVIGATION) && defined(ARROWS_TRIANGLE) && defined(ARROWS_LEFT) // ARROWS_LEFT because the wider map is edited
//
// ... spelling this out to keep brain for exploding:
// Overwritten (copied from above):
// #define RGHT_CC MOUS_33
// #define MOUS_33 KC_BTN4
// #define RGHT_CD MOUS_34
// #define MOUS_34 KC_BTN5
// 'BTN4' and 'BTN5' are overwritten.
// Where are KC_BTN2 and KC_BTN3 on the non-mouse hand:
// #define NAVI_15 KC_BTN3
// #define LEFT_AE NAVI_15
// #define NAVI_35 KC_BTN2
// #define LEFT_CE NAVI_35
// 'LEFT_AE' and 'LEFT_CE' provide room.
//
# undef LEFT_AE
# define LEFT_AE KC_BTN4
# undef LEFT_CE
# define LEFT_CE KC_BTN5
# endif
/* 3 (flat arrows with arrow cluster) */
# if defined(MOREKEY2_ARROW_CLUSTER) && !defined(ARROWS_TRIANGLE)
// arrow cluster
# define _MOV_KEY_ROW1_KEY1 KC_RIGHT
# define _MOV_KEY_ROW1_KEY2 KC_DOWN
# define _MOV_KEY_ROW1_KEY3 KC_UP
# define _MOV_KEY_ROW1_KEY4 KC_LEFT
// <|,> , , , ,
// |, 4> , 3> , 2> , ± , 1>
# endif
// The default layout around the arrows
# if defined(MOREKEY2_ARROW_CLUSTER) && !defined(MOREKEY2_ADD_NAVIGATION) && !defined(ARROWS_TRIANGLE)
// Default
# define _MOV_KEY_ROW2_KEY1 KC_RSFT
# define _MOV_KEY_ROW2_KEY2 RGHT_CE // Key counting from the right to the left.
# define _MOV_KEY_ROW2_KEY3 RGHT_CD
# define _MOV_KEY_ROW2_KEY4 RGHT_CC
// <|,> , , , ,
// |, 4> , 3> , 2> , ± , 1>
# endif
/* 4 ( '' '' + additional navigation and repositioning displaced keys) */
// The definitions for the additional navigation keys (HOME, etc)
# if defined(MOREKEY2_ADD_NAVIGATION) && !defined(ARROWS_TRIANGLE)
// Additional navigation keys: flat
# define _MOV_KEY_ROW2_KEY1 KC_PGDN
# define _MOV_KEY_ROW2_KEY2 KC_END
# define _MOV_KEY_ROW2_KEY3 KC_HOME
# define _MOV_KEY_ROW2_KEY4 KC_PGUP
// <|,> , , , ,
// |, 4> , 3> , 2> , ± , 1>
# endif
// Replace the overwritten key positions:
# if defined(MOREKEY2_ADD_NAVIGATION) && !defined(ARROWS_TRIANGLE) && !defined(ARROWS_LEFT) // !ARROWS_LEFT because the wider map is edited
//
// Overwritten (copied from above):
// #define RGHT_CC NAVI_33
// #define NAVI_33 KC_ACL1
// #define RGHT_CD NAVI_34
// #define NAVI_34 KC_ACL2
// 'KC_ACL1' and 'KC_ACL2' are overwritten.
// Where are BTN2 and BTN3 on the non-mouse hand:
// #define NAVI_11 KC_BTN3
// #define RGHT_AA NAVI_11
// #define NAVI_31 KC_BTN2
// #define RGHT_CA NAVI_31
// 'RGHT_AA' and 'RGHT_CA' provide room.
// It seems best to count the acceleration keys from right to left/up on the keyboard.
//
# undef RGHT_AA
# define RGHT_AA KC_ACL2
# undef RGHT_CA
# define RGHT_CA KC_ACL1
# endif
// Changes the home row on the right hand to become HJKL (as in Qwerty) vi(1) arrow keys,
// and causes the arrow block to move one key to the left. The key lost on the left is
// put back on the other end (pinky).
// Row 3
# if defined(VI_SWITCHERYDOO) && !defined(ARROWS_TRIANGLE) // For all hardware variants
// |, indx2> , index> , middl> , ring> , pinky> , pink2> ,
// <|,> , , , , , ,
# undef RGHT_BA
# define RGHT_BA KC_LEFT
# undef RGHT_BB
# define RGHT_BB KC_DOWN
# undef RGHT_BC
# define RGHT_BC KC_UP
# undef RGHT_BD
# define RGHT_BD KC_RIGHT
# undef RGHT_BE
# define RGHT_BE KC_BTN1
# endif
// Row 1
# if defined(VI_SWITCHERYDOO) && !defined(ARROWS_TRIANGLE) && defined(MOREKEY2_ARROW_CLUSTER) // Only for 'arrow' hardware
// arrow cluster
# undef _MOV_KEY_ROW1_KEY1
# define _MOV_KEY_ROW1_KEY1 KC_RIGHT
# undef _MOV_KEY_ROW1_KEY2
# define _MOV_KEY_ROW1_KEY2 KC_UP
# undef _MOV_KEY_ROW1_KEY3
# define _MOV_KEY_ROW1_KEY3 KC_DOWN
# undef _MOV_KEY_ROW1_KEY4
# define _MOV_KEY_ROW1_KEY4 KC_LEFT
// <|,> , , , ,
// |, 4> , 3> , 2> , ± , 1>
# endif
// (If you want to alter something in detail just for your keyboard, it is probably smart to just write in the keycodes (like KC_PGUP) in the final definitions here below.)
//
// <pink2 , <pinky , <ring , <middl , <index , <indx2 |, indx2> , index> , middl> , ring> , pinky> , pink2> ,
// , , , -*- , , <|,> , , , , , ,
CTO_BASE , LEFT_AA , LEFT_AB , LEFT_AC , LEFT_AD , LEFT_AE , RGHT_AA , RGHT_AB , RGHT_AC , RGHT_AD , RGHT_AE , KC_BSPC ,
KC_LCTL , LEFT_BA , LEFT_BB , LEFT_BC , LEFT_BD , LEFT_BE , RGHT_BA , RGHT_BB , RGHT_BC , RGHT_BD , RGHT_BE , KC_RCTL ,
KC_LSFT , LEFT_CA , LEFT_CB , LEFT_CC , LEFT_CD , LEFT_CE , RGHT_CA , RGHT_CB , _MOV_KEY_ROW2_KEY4 , _MOV_KEY_ROW2_KEY3 , _MOV_KEY_ROW2_KEY2 , _MOV_KEY_ROW2_KEY1 ,
// --------------------------------------------------------------------------------------------------------------------------------------------------------------------
KC_LALT
# ifdef TRANSMINIVAN_LEFTSIDE
, TRANS_LEFT
# endif
# ifdef MORE_KEY__COMMAND
, MORE_key1
# endif
, KC_DEL , KC_ENT
# ifndef SPACE_LEFT__ENTER_RIGHT // standard, layer switch on Base
, _______
# else // reversed
, KC_PGUP
# endif
# ifdef TRANSMINIVAN_MIDLEFT
, TRANS_MIDLEFT
# endif
# ifndef SPACE_LEFT__ENTER_RIGHT // standard
, KC_PGUP
# else // reversed, layer switch on Base
, _______
# endif
# ifdef TRANSMINIVAN_RIGHTSIDE
, TRANS_RIGHT
# endif
, _MOV_KEY_ROW1_KEY4 , _MOV_KEY_ROW1_KEY3
# ifdef MORE_KEY__ARROW
, _MOV_KEY_ROW1_KEY2
# endif
, _MOV_KEY_ROW1_KEY1
// , , , -*- <|,> , , ,
// <1 ±± , <2 , <3 , <4 |, 4> , 3> , 2> , ± ± 1>
),
# endif // BASESFILE_LAYER_MOV
/* ⬆⬇ */
# ifndef BASESFILE_LAYER_RAR // Use a definition of this layer in the ./bases_* file, where this #define can be defined.
/* Layer _RAR: Various special keys.
* - The key which switches between Default and Alternate base layer.
* - Power keys
* The power keys have to be pressed with Shift, as a safety guard.
* Without shift they write their name, as if someone typed it.
* - Media keys
* - Brightness for screen keys (depends on computer system if it works)
* - Leds of keyboard on/off
* - Unicode input mode
* ☑ precedes the Unicode input modes, as memory aid and tester
* Note that ☑ has no letters in its Unicode, but press with Shift for 🗹
* which does. This matters when testing ‛descramble’ Dvorak mode.
* - Capslock is on its normal position
* - Insert
* - APP (whatever it is) fakes being next to right GUI (though other layer).
* - The traditional obsolete button like ScrLk/PrtSc are also included, in
* case some program needs them.
* - Speed measuring
* - Text size measuring
* - Some unused spots remaining.
*/
[ _RAR ] = LAYOUT_redefined (
/*
_RAR (RARe keys. Power keys, Unicode mode, Alternate BASE, Media, Brightness, Speed, leds, …)
<pink2<pinky <ring <middl <indexx<indx2| indx2>index>middl>ring> pinky> pink2>
<|> -*- //(toggle) on _FUN
BASE Cnt/Mx Cnull CWmin CRprt Speed | SRprt Play Next Prev Stop RSht(•)
CapsL Power• Wake• Sleep• Pause• ScrLk | PrtSc xxx Vol+ Vol- Mute Insert // • requires Shift
☑ uLNX uBSD uOSX uWIN uWNC | xxx xxx Bri+ Bri- xxx APP // Ü(nicode) tester
----------------------------------------------------------------------------
SLed MLeds RGUI xxx | !Alter xxx LGUI ___ // Middle-led, Side-leds, ! 'alternate'
<|> -*- // (Hold) on BASE
<1 ± <2 ± <3 <4 | 4> 3> 2> ± 1>
… …
*/
//
// <pink2 , <pinky , <ring , <middl , <index , <indx2 |, indx2> , index> , middl> , ring> , pinky> , pink2> ,
// , , , , -*- , <|,> , , , , , ,
CTO_BASE , COUNT_TOG , COUNT_NULL , COUNT_WORDMIN , COUNT_REPORT , SPEED_TOG , SPEED_REPORT , KC_MPLY , KC_MNXT , KC_MPRV , KC_MSTP , KC_RSFT ,
KC_CAPS , C_KC_PWR , C_KC_WAKE , C_KC_SLEP , C_KC_PAUS , KC_SCRL , KC_PSCR , XXXXXXX , KC_VOLU , KC_VOLD , KC_MUTE , KC_INS ,
XP_DRA_CG , UC_LINX , UC_BSD , UC_MAC , UC_WIN , UC_WINC , XXXXXXX , XXXXXXX , KC_BRIGHTNESS_UP , KC_BRIGHTNESS_DOWN , XXXXXXX , KC_APP ,
// -------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------------
LEDS_ON
# ifdef TRANSMINIVAN_LEFTSIDE
, TRANS_LEFT
# endif
# ifdef MORE_KEY__COMMAND
, MORE_key1
# endif
# ifdef LEDS_OFF_BASE_DEF // This messes with led effect on/off, so we need to track the state of this setting now.
, RGBTOG_
# else // Here we don't mess with led effect on/off, so we can use QMK key blindly.
, RGB_TOG
# endif
, KC__XGUI , XXXXXXX
# ifdef TRANSMINIVAN_MIDLEFT
, TRANS_MIDLEFT
# endif
, OTHER_BASE , XXXXXXX
# ifdef TRANSMINIVAN_RIGHTSIDE
, TRANS_RIGHT
# endif
, KC__YGUI
# ifdef MORE_KEY__ARROW
, MORE_key2
# endif
, _______
// , , , <|,> , , ,
// <1 ± ± , <2 , <3 , <4 |, 4> , 3> , 2> , ± ± 1>
),
# endif // BASESFILE_LAYER_RAR
/* ⬆⬇ */
# ifndef REMOVE_PAD // This removes all references to _PAD in the code, therefore is not functionally the same as BASESFILE_LAYER_PAD
# ifndef BASESFILE_LAYER_PAD // Use a definition of this layer in the ./bases_* file, where this #define can be defined.
# ifndef NUMPAD_COMMON_SQUARE // Use default _PAD layer, where numbers are aligned as they are on _NSY.
// Conversely, if this is defined, this layer will resembel a numeric keypad.
// See also base_numpad.c
/* Layer _PAD: Numbers pad, for numbers pad version of numbers (computer programs can see the difference).
* Number pad navigation will be more or less useless, but there is a repetition of the Numpad
* keys 4,2,8,6 row 4 for arrows, and 3,1,7,9 row 2 for navigation, to make it a little easier to find.
*/
[ _PAD ] = LAYOUT_redefined (
/*
Layer _PAD Numbers Pad (special symbol versions; regular '1' is not the same as this numpad '1', etc)
<pink2 <pinky<ring <middl<index<indx2| indx2>index>middl>ring> pinky>pink2>
-*- <|> //(toggle) on _FUN
BASE xxx xxx .DEL 4LEFT 2DOWN | 8UP 6RGHT * xxx xxx Bksp
LCtl 1END 2DOWN 3PGDN 4LEFT 5 | 6RGHT 7HOME 8UP 9PGUP 0INS -
LSht xxx xxx / xxx = | + 3PGDN 1END 7HOME 9PGUP RSht
-*---------------------------------------------------------------------------- //-*- toggle on BASE
LAlt Del Tab ENT | NUML xxx LGUI RAlt
<|>
<1 ± <2 <3 <4 | 4> 3> 2> ± 1>
… …
*/
//
// <pink2 , <pinky , <ring , <middl , <index , <indx2 |, indx2> , index> , middl> , ring> , pinky> , pink2> ,
// , , , , , -*- <|,> , , , , , ,
CTO_BASE , XXXXXXX , XXXXXXX , KC_KP_DOT , KC_KP_4 , KC_KP_2 , KC_KP_8 , KC_KP_6 , KC_KP_ASTERISK , XXXXXXX , XXXXXXX , KC_BSPC ,
KC_LCTL , KC_KP_1 , KC_KP_2 , KC_KP_3 , KC_KP_4 , KC_KP_5 , KC_KP_6 , KC_KP_7 , KC_KP_8 , KC_KP_9 , KC_KP_0 , KC_KP_MINUS ,
KC_LSFT , XXXXXXX , XXXXXXX , KC_KP_SLASH , XXXXXXX , KC_KP_EQUAL , KC_KP_PLUS , KC_KP_3 , KC_KP_1 , KC_KP_7 , KC_KP_9 , KC_RSFT ,
// ----------------------------------------------------------------------------------------------------------------------------------------------
KC_LALT
# ifdef TRANSMINIVAN_LEFTSIDE
, _______ // On Base layers this key typically defaults to MO ( _PAD )
# endif
# ifdef MORE_KEY__COMMAND
, MORE_key1
# endif
, KC_DEL , KC_TAB , KC_KP_ENTER
# ifdef TRANSMINIVAN_MIDLEFT
, TRANS_MIDLEFT
# endif
, KC_NUM , XXXXXXX , KC__YGUI
# ifdef TRANSMINIVAN_RIGHTSIDE
, TRANS_RIGHT
# endif
# ifdef MORE_KEY__ARROW
, MORE_key2
# endif
, KC_RALT
// , , , <|,> , , ,
// <1 ± ± , <2 , <3 , <4 |, 4> , 3> , 2> , ± ± 1>
),
# else // NUMPAD_COMMON_SQUARE
[ _PAD ] = LAYOUT_redefined (
/*
* Layer _PAD: Option for a different _PAD layer in the common layers system.
* This variety resembles the square layout of a numerical keyboard.
* It is different from one of the Numpad Base layer compile options, in that
* it only has a number pad for the right hand. It is also different in featuring
* modifiers, and the overall layout is sligthly different (Enter, = symbol).
*
* ‛Tab’ on key 3 left hand is the same as the other _PAD layer option (with the
* numbers in a line, equal to the _NSY layer), to retain the same ability to
* type Control-Tab. It seems better to have RAlt in its usual place, Enter in
* its usual place, than to strictly follow a standard numeric keyboard layout
* (which puts Enter somewhere on the right, row 1). It seems easy enough to
* type Enter on this key as well, even with the right hand. Numlock is also
* in its usual place. Note that ‛Del’ on the left, row 1, is not a numbers pad
* Delete/Dot key, but standard Delete, also in the usual place.
*
* This is probably the better one of the square layout numpads, unless you have a use
* for the two hands version. This is also available on ‛Base’ Numpad.
*
Layer _PAD (Number pad, with NumLock on)
<pink2 <pinky<ring <middl<index<indx2| indx2>index>middl>ring>pin>pink2>
<|>
BASE xxx xxx xxx xxx xxx | = 7 8 9 - Bspc
LCtl xxx xxx xxx xxx xxx | * 4 5 6 + RCtl
LSht xxx xxx xxx xxx xxx | / 1 2 3 , RSht
------------------------------------------------------------------------
LAlt Del Tab Ent | NumL 0 . RAlt
<|>
<1 ± <2 <3 <4 | 4> 3> 2> ± 1>
… | …
Layer _PAD (Number pad, with NumLock off)
<pink2 <pinky<ring <middl<index<indx2| indx2>index>middl>ring >pin>pink2>
<|>
BASE xxx xxx xxx xxx xxx | = Home Up PgUp - Bspc
LCtl xxx xxx xxx xxx xxx | * Left 5 Right + RCtl
LSht xxx xxx xxx xxx xxx | / End Down PgDn , RSht
-------------------------------------------------------------------------
LAlt Del Tab Ent | NumL Ins Del RAlt
<|>
<1 ± <2 <3 <4 | 4> 3> 2> ± 1>
… | …
*/
//
// <pink2 , <pinky , <ring , <middl , <index , <indx2 |, indx2> , index> , middl> , ring> , pinky> , pink2> ,
// , , , , , -*- <|,> , , , , , ,
CTO_BASE , XXXXXXX , XXXXXXX , XXXXXXX , XXXXXXX , XXXXXXX , KC_KP_EQUAL , KC_KP_7 , KC_KP_8 , KC_KP_9 , KC_KP_MINUS , KC_BSPC ,
KC_LCTL , XXXXXXX , XXXXXXX , XXXXXXX , XXXXXXX , XXXXXXX , KC_KP_ASTERISK , KC_KP_4 , KC_KP_5 , KC_KP_6 , KC_KP_PLUS , KC_RCTL ,
KC_LSFT , XXXXXXX , XXXXXXX , XXXXXXX , XXXXXXX , XXXXXXX , KC_KP_SLASH , KC_KP_1 , KC_KP_2 , KC_KP_3 , KC_KP_COMMA , KC_RSFT ,
// -----------------------------------------------------------------------------------------------------------------------------------
KC_LALT
# ifdef TRANSMINIVAN_LEFTSIDE
, TRANS_LEFT
# endif
# ifdef MORE_KEY__COMMAND
, MORE_key1
# endif
, KC_DEL , KC_TAB , KC_KP_ENTER
# ifdef TRANSMINIVAN_MIDLEFT
, TRANS_MIDLEFT
# endif
, KC_NUM , KC_KP_0
// See comment in ./base_numpad.c on the first layout (double handed Base layer), about the next few keys:
// This layer follows that layout Base Numpad.
// ---⬇
# ifdef TRANSMINIVAN_RIGHTSIDE
, TRANS_RIGHT
# endif
# ifdef MORE_KEY__ARROW
//, MORE_key2
, KC__YGUI
# endif
// ---⬆
, KC_KP_DOT
, KC_RALT
// , , , <|,> , , ,
// <1 ± ± , <2 , <3 , <4 |, 4> , 3> ± ± , 2> , 1>
),
# endif // NUMPAD_COMMON_SQUARE
# endif // BASESFILE_LAYER_PAD
# endif // REMOVE_PAD
/* ⬆⬇ */
# ifndef REMOVE_ACC // This cuts out the whole _ACC layer.
# ifndef BASESFILE_LAYER_ACC // Use a definition of this layer in the ./bases_* file, where this #define can be defined.
/* Layer _ACC: Accented and other unusual characters. It seems this would
* cover Dutch, German, French, Scandinavia, Italy and Spain.
* It should helps with remembering what keys are where, if one
* knows the logic behind it (however flawed it might be).
* This layer has the uncluttered Tab key (whoohoo!).
*
* The logic is ... Versions of the vowels with accents are
* widened vertically on the board, from their
* normal position.
* Grave is a line going up, thus on upper row. é
* Acute is a line going down, thus on lower row. è
* Diaereses is dots going horizontal, thus middle. ë
* Diareses is umlaut which is most frequent if
* including German, thus home row. ë
* There is no room for Caret on the left, thus it is
* on the right, following same-finger logic (O
* is ring finger, etc).
* Caret is on the lower row to make room for versions
* of 'n' and 'c' near their normal position.
* There is no room for ÿŸ on the normal y, because
* íÍ is on it, which is more important, and to
* keep the logic of that block, therefore it is
* as close to it as can be.
* øØ and åÅ follow the same-finger logic (a is left
* hand pinky, etc), and are on remaining spots.
* œŒ and æÆ are also no remaining spots, both close
* to êÊ for the e in there, the œŒ being further
* to the left to follow the same finger logic on
* that right hand side: a on the right, o on the left.
* ¡ and ¿ had no more room on this layer, therefore,
* and because they are unusual, they are on the
* _DRA(wings) layer. They are located under the keys
* that also have ! and ?, respectively.
*
*/
[ _ACC ] = LAYOUT_redefined (
/*
Layer _ACC (ACCented characters, see _RAR layer for input modes)
<pink2 <pinky<ring <middl<index<indx2| indx2>index>middl>ring> pinky>pink2>
-*- <|> //(toggle) on _FUN
BASE áÁ óÓ éÉ úÚ íÍ | ýÝ ijIJ çÇ øØ åÅ Bksp
RCTL(Tab) äÄ öÖ ëË üÜ ïÏ | ÿŸ œŒ æÆ ñÑ ß μ
LSht àÀ òÒ èÈ ùÙ ìÌ | îÎ ûÛ êÊ ôÔ â RSht
----------------------------------------------------------------------------
LAlt ___ ___ Ent | Spc ___ ___ RAlt
-*- <|> //(hold) on BASE
<1 ± <2 <3 <4 | 4> 3> 2> ± 1>
… …
*/
//
// <pink2 , <pinky , <ring , <middl , <index , <indx2 |, indx2> , index> , middl> , ring> , pinky> , pink2> ,
// , , , , , <|,>-*- , , , , , ,
CTO_BASE , XP_ACC_AA , XP_ACC_AB , XP_ACC_AC , XP_ACC_AD , XP_ACC_AE , XP_ACC_AF , XP_ACC_AG , XP_ACC_AH , XP_ACC_AI , XP_ACC_AJ , KC_BSPC ,
LCTL ( KC_TAB ) , XP_ACC_BA , XP_ACC_BB , XP_ACC_BC , XP_ACC_BD , XP_ACC_BE , XP_ACC_BF , XP_ACC_BG , XP_ACC_BH , XP_ACC_BI , XP_ACC_BJ , XP_ACC_BK ,
KC_LSFT , XP_ACC_CA , XP_ACC_CB , XP_ACC_CC , XP_ACC_CD , XP_ACC_CE , XP_ACC_CF , XP_ACC_CG , XP_ACC_CH , XP_ACC_CI , XP_ACC_CJ , KC_RSFT ,
// ----------------------------------------------------------------------------------------------------------------------------------------------
KC_LALT
# ifdef TRANSMINIVAN_LEFTSIDE
, TRANS_LEFT
# endif
# ifdef MORE_KEY__COMMAND
, MORE_key1
# endif
, _______ , _______ , KC_ENT
# ifdef TRANSMINIVAN_MIDLEFT
, TRANS_MIDLEFT
# endif
, KC_SPC , _______ , _______
# ifdef TRANSMINIVAN_RIGHTSIDE
, TRANS_RIGHT
# endif
# ifdef MORE_KEY__ARROW
, MORE_key2
# endif
, KC_RALT
// , -*- , , <|,> , , ,
// <1 ± ± , <2 , <3 , <4 |, 4> , 3> , 2> , ± ± 1>
),
# endif // BASESFILE_LAYER_ACC
# endif // REMOVE_ACC
/* ⬆⬇ */
# ifndef REMOVE_DRA // This cuts out the whole _DRA layer
# ifndef BASESFILE_LAYER_DRA // Use a definition of this layer in the ./bases_* file, where this #define can be defined.
/* Layer _DRA: Drawings, like various Unicode symbols.
*
*/
[ _DRA ] = LAYOUT_redefined (
/*
Layer _DRA (DRAwings, whatever else (rendering width varies in different applications))
<pink2<pinky<ring <middl<index<indx2| indx2>index>middl>ring> pinky>pink2>
-*- <|> //(toggle) on _FUN
BASE “„ ”≤ £≥ ∅ ¢ ±ƒ | ❦♥ 🙂🙁 👍👎 ⁽₍ ⁾₎ Bksp
Tab ¹₁ ²₂ ³₃ ⁴₄ ⁵₅ | ⁶₆ ⁷₇ ⁸₈ ⁹₉ ⁰₀ RCTL
LSht 「━ 」─ °〇 •§ …· | ⮘⮙ ⮚⮛ ¿¡ 《┄ 》┅ RSht
-------------------------------------------------------------------------
LAlt ___ ___ Ent | Spc ___ ___ RAlt
-*- <|> -*- //(hold) on BASE
<1 ± <2 <3 <4 | 4> 3> 2> ± 1>
… …
*/
//
// <pink2 , <pinky , <ring , <middl , <index , <indx2 |, indx2> , index> , middl> , ring> , pinky> , pink2> ,
// , , , , , <|,> , -*- , , , , ,
CTO_BASE , XP_DRA_AA , XP_DRA_AB , XP_DRA_AC , XP_DRA_AD , XP_DRA_AE , XP_DRA_AF , XP_DRA_AG , XP_DRA_AH , XP_DRA_AI , XP_DRA_AJ , KC_BSPC ,
KC_TAB , XP_DRA_BA , XP_DRA_BB , XP_DRA_BC , XP_DRA_BD , XP_DRA_BE , XP_DRA_BF , XP_DRA_BG , XP_DRA_BH , XP_DRA_BI , XP_DRA_BJ , KC_RCTL ,
KC_LSFT , XP_DRA_CA , XP_DRA_CB , XP_DRA_CC , XP_DRA_CD , XP_DRA_CE , XP_DRA_CF , XP_DRA_CG , XP_DRA_CH , XP_DRA_CI , XP_DRA_CJ , KC_RSFT ,
// --------------------------------------------------------------------------------------------------------------------------------------------
KC_LALT
# ifdef TRANSMINIVAN_LEFTSIDE
, TRANS_LEFT
# endif
# ifdef MORE_KEY__COMMAND
, MORE_key1
# endif
, _______ , _______ , KC_ENT
# ifdef TRANSMINIVAN_MIDLEFT
, TRANS_MIDLEFT
# endif
, KC_SPC , _______ , _______
# ifdef TRANSMINIVAN_RIGHTSIDE
, TRANS_RIGHT
# endif
# ifdef MORE_KEY__ARROW
, MORE_key2
# endif
, KC_RALT
// , , , <|,> , , ,
// <1 ± ± , <2 , <3 , <4 |, 4> , 3> , 2> , ± ± 1>
),
# endif // BASESFILE_LAYER_RAR
# endif // REMOVE_DRA
/* ⬆⬇ */
# ifndef REMOVE_BON // Removes this layer entirely, if set.
# ifndef BASESFILE_LAYER_BON // Use a definition of this layer in the ./bases_* file, where this #define can be defined.
/*
* Bonus layer: Enumeration numbers, some general purpose / mathematical symbols
* ⁻ is an exponential minus sign (the center-dot · can be used in exponents too)
* × is multiplication
* ‰ is promille, ‱ is pro-tenthousandth
*
*/
[ _BON ] = LAYOUT_redefined (
/*
Layer _BON (Bonus layer, a variety of more stuffs.)
<pink2<pinky<ring <middl<index<indx2| indx2>index>middl>ring> pinky>pink2>
-*- <|>
BASE ‛ 🛠 ’ ⬆ ¤ 🄯 ∑ © ‰ ‱ | ★ ٭ 😊 ⍨ × ⃰ √ ⁻ ⁺ Bksp
`~ ① ⬅ ② ⬇ ③ ➡ ④ ┏ ⑤ ┓ | ⑥ ┃ ⑦ ┇ ⑧ ╋ ⑨ ⓪ ∞ — ≈ // — is a dash (larger), not hyphen
LSht ‹ › ÷ ☞ ┗ ≠ ┛ | ✗ ┣ ✓ ┫ ⚠ « » RSht
-------------------------------------------------------------------------
Left ___ ___ Ent | Spc ___ ___ Right
-*- -*- <|> -*- // Activation on BASE
<1 ± <2 <3 <4 | 4> 3> 2> ± 1>
… …
*/
//
// <pink2 , <pinky , <ring , <middl , <index , <indx2 |, indx2> , index> , middl> , ring> , pinky> , pink2> ,
// , , , , , <|,> , , , , , ,
CTO_BASE , XP_BON_AA , XP_BON_AB , XP_BON_AC , XP_BON_AD , XP_BON_AE , XP_BON_AF , XP_BON_AG , XP_BON_AH , XP_BON_AI , XP_BON_AJ , KC_BSPC ,
KC_GRV , XP_BON_BA , XP_BON_BB , XP_BON_BC , XP_BON_BD , XP_BON_BE , XP_BON_BF , XP_BON_BG , XP_BON_BH , XP_BON_BI , XP_BON_BJ , XP_BON_BK ,
KC_LSFT , XP_BON_CA , XP_BON_CB , XP_BON_CC , XP_BON_CD , XP_BON_CE , XP_BON_CF , XP_BON_CG , XP_BON_CH , XP_BON_CI , XP_BON_CJ , KC_RSFT ,
// -------------------------------------------------------------------------------------------------------------------------------------------------
KC_LEFT
# ifdef TRANSMINIVAN_LEFTSIDE
, TRANS_LEFT
# endif
# ifdef MORE_KEY__COMMAND
, MORE_key1
# endif
, _______ , _______ , KC_ENT
# ifdef TRANSMINIVAN_MIDLEFT
, TRANS_MIDLEFT
# endif
, KC_SPC , _______ , _______
# ifdef TRANSMINIVAN_RIGHTSIDE
, TRANS_RIGHT
# endif
# ifdef MORE_KEY__ARROW
, MORE_key2
# endif
, KC_RIGHT
// , , , <|,> , , ,
// <1 ± ± , <2 , <3 , <4 |, 4> , 3> , 2> , ± ± 1>
),
# endif // BASESFILE_LAYER_BON
# endif // REMOVE_BON
/* ⬆⬇ */
# ifndef BASESFILE_LAYER_FUN // Use a definition of this layer in the ./bases_* file, where this #define can be defined.
/* Layer _FUN: Function keys until F20. Some combo modifiers control/alt/shift
* Toward any layer by toggle. Layer can be set to return to BASE after one F-key press (FUN<, row 1)
*/
[ _FUN ] = LAYOUT_redefined (
/*
Layer _FUN (F-keys, Layer access, Set BASE key direction)
<pink2<pinky<ring <middl<index<indx2| indx2>index>middl>ring> pinky>pink2>
toggl toggl set toggl toggl toggl | toggl toggl // Type of layer switch
<|>
BASE: NUMS: _PAD _ACC _DRA _BON | _MOV _RAR xxx xxx xxx Bksp //':' are dynamic ...
LCtl F1 F2 F3 F4 F5 | F6 F7 F8 F9 F10 RCtl
LSht F11 F12 F13 F14 F15 | F16 F17 F18 F19 F20 RSht
----------------------------------------------------------------------*-- //-*- toggle on BASE
LAlt LCtl& LCtl& LSht& | FUN< +LCtl&LSht LGUI RAlt //... < toggle 'stay'
LSht LAlt LAlt | &LAlt
+xxx +xxx +xxx | +xxx
<|>
<1 ± <2 <3 <4 | 4> 3> 2> ± 1>
… …
*/
//
// <pink2 , <pinky , <ring , <middl , <index , <indx2 |, indx2> , index> , middl> , ring> , pinky> , pink2> ,
// , , -*- , , , <|,> , , , , , ,
CTO_BASE , CTO_NUMS , TO ( _PAD ) , CTO_ACCE , CTO_DRAW , TO ( _BON ), TO ( _MOV ) , TO ( _RAR ) , XXXXXXX , XXXXXXX , XXXXXXX , KC_BSPC ,
KC_LCTL , KC_F1 , KC_F2 , KC_F3 , KC_F4 , KC_F5 , KC_F6 , KC_F7 , KC_F8 , KC_F9 , KC_F10 , KC_RCTL ,
KC_LSFT , KC_F11 , KC_F12 , KC_F13 , KC_F14 , KC_F15 , KC_F16 , KC_F17 , KC_F18 , KC_F19 , KC_F20 , KC_RSFT ,
// ------------------------------------------------------------------------------------------------------------------------------------------
KC_LALT
# ifdef TRANSMINIVAN_LEFTSIDE
, TRANS_LEFT
# endif
# ifdef MORE_KEY__COMMAND
, MORE_key1
# endif
, MT ( MOD_LCTL | MOD_LSFT, XXXXXXX ) , MT ( MOD_LCTL | MOD_LALT , XXXXXXX ) , MT ( MOD_LSFT | MOD_LALT , XXXXXXX )
# ifdef TRANSMINIVAN_MIDLEFT
, TRANS_MIDLEFT
# endif
, _FUN_STAY , MT ( MOD_LCTL | MOD_LSFT | MOD_LALT , XXXXXXX ) , KC__YGUI
# ifdef TRANSMINIVAN_RIGHTSIDE
, _______ // On Base layers this key typically defaults to MO ( _FUN )
# endif
# ifdef MORE_KEY__ARROW
, MORE_key2
# endif
, KC_RALT
// , , , <|,> , , ,
// <1 ± ± , <2 , <3 , <4 |, 4> , 3> , 2> , ± ± 1>
),
# endif // BASESFILE_LAYER_FUN
/* ⬆ */
/*
* New layer template. Includes left/right movement arrows, deletion, modifiers.
* If you want a new layer, in the logic of this layout you would add a toggle on the
* _FUN layer top row on the first free key to it, and optionally alter the hold
* layer switch keys on the base layers. (Check if a new layer will fit on the chip.)
*
[ _??? ] = LAYOUT_redefined (
// <pink2<pinky<ring <middl<index<indx2| indx2>index>middl>ring> pinky>pink2>
// <|>
// BASE xxx xxx xxx xxx xxx | xxx xxx xxx xxx xxx Bksp
// LCtl xxx xxx xxx xxx xxx | xxx xxx xxx xxx xxx RCtl
// LSht xxx xxx xxx xxx xxx | xxx xxx xxx xxx xxx RSht
// -------------------------------------------------------------------------
// LAlt+Left Del ___ Ent | Spc ___ ___ RAlt+Right
// <|>
// <1 ± <2 <3 <4 | 4> 3> 2> ± 1>
// … …
//
//
// <pink2 , <pinky , <ring , <middl , <index , <indx2 |, indx2> , index> , middl> , ring> , pinky> , pink2> ,
// , , , , , <|,> , , , , , ,
CTO_BASE , XXXXXXX , XXXXXXX , XXXXXXX , XXXXXXX , XXXXXXX , XXXXXXX , XXXXXXX , XXXXXXX , XXXXXXX , XXXXXXX , KC_BSPC ,
KC_LCTL , XXXXXXX , XXXXXXX , XXXXXXX , XXXXXXX , XXXXXXX , XXXXXXX , XXXXXXX , XXXXXXX , XXXXXXX , XXXXXXX , KC_RCTL ,
KC_LSFT , XXXXXXX , XXXXXXX , XXXXXXX , XXXXXXX , XXXXXXX , XXXXXXX , XXXXXXX , XXXXXXX , XXXXXXX , XXXXXXX , KC_RSFT ,
// ------------------------------------------------------------------------------------------------------------------------
LALT_T ( KC_LEFT )
# ifdef TRANSMINIVAN_LEFTSIDE
, TRANS_LEFT
# endif
# ifdef MORE_KEY__COMMAND
, MORE_key1
# endif
, KC_DEL , XXXXXXX , KC_ENT
# ifdef TRANSMINIVAN_MIDLEFT
, TRANS_MIDLEFT
# endif
, KC_SPC , XXXXXXX , XXXXXXX
# ifdef TRANSMINIVAN_RIGHTSIDE
, TRANS_RIGHT
# endif
# ifdef MORE_KEY__ARROW
, MORE_key2
# endif
, RALT_T ( KC_RIGHT )
// , , , <|,> , , ,
// <1 ± ± , <2 , <3 , <4 |, 4> , 3> , 2> , ± ± 1>
),
*/
};