Merge pull request #678 from algernon/ergodox-ez/algernon

ergodox: Update algernon's keymap to v1.6
pull/729/head
Erez Zukerman 8 years ago committed by GitHub
commit 45d68486a2

@ -1,22 +1,23 @@
BOOTMAGIC_ENABLE=no
COMMAND_ENABLE=no
SLEEP_LED_ENABLE=no
UNICODE_ENABLE=no
FORCE_NKRO ?= yes
DEBUG_ENABLE = no
CONSOLE_ENABLE = no
TAP_DANCE_ENABLE = yes
KEYLOGGER_ENABLE ?= yes
UCIS_ENABLE = yes
MOUSEKEY_ENABLE ?= yes
ADORE_AUTOLOG ?= no
AUTOLOG_ENABLE ?= no
ifeq (${FORCE_NKRO},yes)
OPT_DEFS += -DFORCE_NKRO
endif
ifeq (${ADORE_AUTOLOG},yes)
ifeq (${AUTOLOG_ENABLE},yes)
KEYLOGGER_ENABLE = yes
OPT_DEFS += -DADORE_AUTOLOG
OPT_DEFS += -DAUTOLOG_ENABLE
endif
ifeq (${KEYLOGGER_ENABLE},yes)

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@ -2,6 +2,7 @@
* algernon's ErgoDox EZ layout, please see the readme.md file!
*/
#include <stdarg.h>
#include "ergodox.h"
#include "led.h"
#include "debug.h"
@ -33,7 +34,6 @@ enum {
// Buttons that do extra stuff
A_GUI,
A_PLVR,
A_ESC,
A_MPN,
// Function / number keys
@ -47,7 +47,6 @@ enum {
KF_8,
KF_9,
KF_10,
KF_11, // =, F11
// Application select keys
APP_SLK, // Slack
@ -62,6 +61,11 @@ enum {
A_MDL,
A_MDR,
// Mouse acceleration
A_ACL0,
A_ACL1,
A_ACL2,
// Hungarian layer keys
HU_AA, // Á
HU_OO, // Ó
@ -89,7 +93,6 @@ enum {
enum {
CT_CLN = 0,
CT_MNS,
CT_TA,
CT_LBP,
CT_RBP
@ -102,7 +105,11 @@ uint16_t gui_timer = 0;
uint16_t kf_timers[12];
#if KEYLOGGER_ENABLE
# ifdef AUTOLOG_ENABLE
bool log_enable = true;
# else
bool log_enable = false;
# endif
#endif
bool time_travel = false;
@ -114,12 +121,12 @@ const uint16_t PROGMEM keymaps[][MATRIX_ROWS][MATRIX_COLS] = {
/* Keymap 0: Base Layer
*
* ,-----------------------------------------------------. ,-----------------------------------------------------.
* | Next/Prev | 1 F1 | 2 F2 | 3 F3 | 4 F4 | 5 F5 | Plvr | | Apps | 6 F6 | 7 F7 | 8 F8 | 9 F9 | 0 F10| F11 |
* | Next/Prev | 1 F1 | 2 F2 | 3 F3 | 4 F4 | 5 F5 | Plvr | | F12 | 6 F6 | 7 F7 | 8 F8 | 9 F9 | 0 F10| F11 |
* |-----------+------+------+------+------+-------------| |------+------+------+------+------+------+-----------|
* | ~ | ' | , | . | P | Y | [ | | ] | F | G | C | R | L | \ |
* |-----------+------+------+------+------+------| | | |------+------+------+------+------+-----------|
* | ~ | ' | , | . | P | Y | ( | | ) | F | G | C | R | L | \ |
* |-----------+------+------+------+------+------| [ | | ] |------+------+------+------+------+-----------|
* | Tab/ARROW | A | O | E | U | I |------| |------| D | H | T | N | S | = / Arrow |
* |-----------+------+------+------+------+------| ( | | ) |------+------+------+------+------+-----------|
* |-----------+------+------+------+------+------| : | | - |------+------+------+------+------+-----------|
* | Play/Pause| / | Q | J | K | X | | | | B | M | W | V | Z | Stop |
* `-----------+------+------+------+------+-------------' `-------------+------+------+------+------+-----------'
* | | | | | : | | - | | | | |
@ -135,21 +142,21 @@ const uint16_t PROGMEM keymaps[][MATRIX_ROWS][MATRIX_COLS] = {
[BASE] = KEYMAP(
// left hand
M(A_MPN) ,M(KF_1) ,M(KF_2) ,M(KF_3),M(KF_4),M(KF_5),M(A_PLVR)
,KC_GRV ,KC_QUOT ,KC_COMM ,KC_DOT ,KC_P ,KC_Y ,KC_LBRC
,KC_GRV ,KC_QUOT ,KC_COMM ,KC_DOT ,KC_P ,KC_Y ,TD(CT_LBP)
,TD(CT_TA) ,KC_A ,KC_O ,KC_E ,KC_U ,KC_I
,KC_MPLY ,KC_SLSH ,KC_Q ,KC_J ,KC_K ,KC_X ,KC_LPRN
,KC_MPLY ,KC_SLSH ,KC_Q ,KC_J ,KC_K ,KC_X ,TD(CT_CLN)
,KC_NO ,KC_NO ,KC_NO ,KC_NO ,TD(CT_CLN)
,F(F_ALT),F(F_GUI)
,F(F_CTRL)
,KC_BSPC,F(F_SFT),M(A_ESC)
,KC_BSPC,F(F_SFT),KC_ESC
// right hand
,KC_APP ,M(KF_6),M(KF_7) ,M(KF_8),M(KF_9) ,M(KF_10) ,KC_F11
,KC_RBRC ,KC_F ,KC_G ,KC_C ,KC_R ,KC_L ,KC_BSLS
,KC_F12 ,M(KF_6),M(KF_7) ,M(KF_8),M(KF_9) ,M(KF_10) ,KC_F11
,TD(CT_RBP),KC_F ,KC_G ,KC_C ,KC_R ,KC_L ,KC_BSLS
,KC_D ,KC_H ,KC_T ,KC_N ,KC_S ,KC_EQL
,KC_RPRN ,KC_B ,KC_M ,KC_W ,KC_V ,KC_Z ,KC_MSTP
,TD(CT_MNS),KC_NO ,KC_NO ,KC_NO ,KC_NO
,KC_MINS ,KC_B ,KC_M ,KC_W ,KC_V ,KC_Z ,KC_MSTP
,KC_MINS ,KC_NO ,KC_NO ,KC_NO ,KC_NO
,OSL(NMDIA),KC_DEL
,KC_LEAD
@ -159,13 +166,13 @@ const uint16_t PROGMEM keymaps[][MATRIX_ROWS][MATRIX_COLS] = {
/* Keymap 1: Adore layer
*
* ,-----------------------------------------------------. ,-----------------------------------------------------.
* | Play/Pause| 1 F1 | 2 F2 | 3 F3 | 4 F4 | 5 F5 | Plvr | | Apps | 6 F6 | 7 F7 | 8 F8 | 9 F9 | 0 F10| F11 |
* | Play/Pause| 1 F1 | 2 F2 | 3 F3 | 4 F4 | 5 F5 | Plvr | | F12 | 6 F6 | 7 F7 | 8 F8 | 9 F9 | 0 F10| F11 |
* |-----------+------+------+------+------+-------------| |------+------+------+------+------+------+-----------|
* | `~ | X | W | K | L | M | ( | | ) | F | H | C | P | Y | \ |
* | `~ | Y | W | G | L | M | ( | | ) | F | H | C | P | X | \ |
* |-----------+------+------+------+------+------| [ | | ] |------+------+------+------+------+-----------|
* | Tab/Arrow | A | O | E | I | U |------| |------| D | R | T | N | S | = |
* |-----------+------+------+------+------+------| | | |------+------+------+------+------+-----------|
* | | Z | Q | ' | , | . | : | | - | B | G | V | J | / | |
* | | Z | Q | ' | , | . | : | | - | B | K | V | J | / | |
* `-----------+------+------+------+------+-------------' `-------------+------+------+------+------+-----------'
* | | | | | | | | | | | |
* `-----------------------------------' `-----------------------------------'
@ -180,20 +187,20 @@ const uint16_t PROGMEM keymaps[][MATRIX_ROWS][MATRIX_COLS] = {
[ADORE] = KEYMAP(
// left hand
KC_MPLY ,M(KF_1) ,M(KF_2) ,M(KF_3),M(KF_4),M(KF_5),M(A_PLVR)
,KC_GRV ,KC_X ,KC_W ,KC_K ,KC_L ,KC_M ,TD(CT_LBP)
,KC_GRV ,KC_Y ,KC_W ,KC_G ,KC_L ,KC_M ,TD(CT_LBP)
,TD(CT_TA) ,KC_A ,KC_O ,KC_E ,KC_I ,KC_U
,KC_NO ,KC_Z ,KC_Q ,KC_QUOT,KC_COMM,KC_DOT ,TD(CT_CLN)
,KC_NO ,KC_NO ,KC_NO ,KC_NO ,KC_NO
,F(F_ALT),F(F_GUI)
,F(F_CTRL)
,KC_BSPC,F(F_SFT),M(A_ESC)
,KC_BSPC,F(F_SFT),KC_ESC
// right hand
,KC_APP ,M(KF_6),M(KF_7),M(KF_8),M(KF_9) ,M(KF_10) ,KC_F11
,TD(CT_RBP),KC_F ,KC_H ,KC_C ,KC_P ,KC_Y ,KC_BSLS
,KC_F12 ,M(KF_6),M(KF_7),M(KF_8),M(KF_9) ,M(KF_10) ,KC_F11
,TD(CT_RBP),KC_F ,KC_H ,KC_C ,KC_P ,KC_X ,KC_BSLS
,KC_D ,KC_R ,KC_T ,KC_N ,KC_S ,KC_EQL
,TD(CT_MNS),KC_B ,KC_G ,KC_V ,KC_J ,KC_SLSH ,KC_NO
,KC_MINS ,KC_B ,KC_K ,KC_V ,KC_J ,KC_SLSH ,KC_NO
,KC_NO ,KC_NO ,KC_NO ,KC_NO ,KC_NO
,OSL(NMDIA),KC_DEL
@ -363,14 +370,14 @@ const uint16_t PROGMEM keymaps[][MATRIX_ROWS][MATRIX_COLS] = {
*/
[NMDIA] = KEYMAP(
// left hand
KC_ACL0 ,KC_NO ,KC_NO ,KC_NO ,KC_NO ,KC_NO ,LGUI(KC_L)
,KC_ACL1 ,KC_NO ,KC_HOME ,KC_UP ,KC_PGUP ,KC_NO ,KC_NO
,KC_ACL2 ,KC_NO ,KC_LEFT ,KC_DOWN ,KC_RIGHT,KC_NO
M(A_ACL0) ,KC_NO ,KC_NO ,KC_NO ,KC_NO ,KC_NO ,LGUI(KC_L)
,M(A_ACL1) ,KC_NO ,KC_HOME ,KC_UP ,KC_PGUP ,KC_NO ,KC_NO
,M(A_ACL2) ,KC_NO ,KC_LEFT ,KC_DOWN ,KC_RIGHT,KC_NO
,KC_MPLY ,KC_NO ,KC_END ,KC_DOWN ,KC_PGDN ,KC_NO ,KC_NO
,KC_NO ,KC_NO ,KC_NO ,KC_NO ,KC_NO
,KC_MUTE ,KC_VOLU
,KC_VOLD
,KC_SPC,KC_ENTER,M(A_ESC)
,KC_SPC,KC_ENTER,KC_ESC
// right hand
,LGUI(KC_L),KC_NO ,KC_NO ,KC_NO ,KC_NO ,KC_NO ,KC_NO
@ -439,7 +446,7 @@ const uint16_t PROGMEM fn_actions[] = {
,[F_CTRL] = ACTION_MODS_ONESHOT (MOD_LCTL)
};
void toggle_steno(int pressed)
static void toggle_steno(int pressed)
{
uint8_t layer = biton32(layer_state);
@ -462,7 +469,7 @@ void toggle_steno(int pressed)
}
}
macro_t *ang_do_hun (keyrecord_t *record, uint16_t accent, uint16_t hun_char)
static macro_t *ang_do_hun (keyrecord_t *record, uint16_t accent, uint16_t hun_char)
{
uint8_t need_shift = 0;
uint8_t hold_shift = 0;
@ -507,46 +514,43 @@ macro_t *ang_do_hun (keyrecord_t *record, uint16_t accent, uint16_t hun_char)
return MACRO_NONE;
}
void ang_handle_kf (keyrecord_t *record, uint8_t id)
static bool from_appsel;
static void ang_handle_kf (keyrecord_t *record, uint8_t id)
{
uint8_t code = id - KF_1;
if (record->event.pressed) {
kf_timers[code] = timer_read ();
} else {
uint8_t kc;
uint8_t kc_base;
if (timer_elapsed (kf_timers[code]) > TAPPING_TERM) {
if (from_appsel) {
from_appsel = false;
return;
}
if (kf_timers[code] && timer_elapsed (kf_timers[code]) > TAPPING_TERM) {
// Long press
kc = KC_F1 + code;
kc_base = KC_F1;
} else {
if (id == KF_11)
kc = KC_EQL;
else
kc = KC_1 + code;
kc_base = KC_1;
}
kf_timers[code] = 0;
code += kc_base;
register_code (kc);
unregister_code (kc);
register_code (code);
unregister_code (code);
}
}
static struct {
uint8_t idx;
} m_accel_state;
const macro_t *action_get_macro(keyrecord_t *record, uint8_t id, uint8_t opt)
{
switch(id) {
case A_ESC:
if (record->event.pressed) {
if ((get_oneshot_mods ()) && !has_oneshot_mods_timed_out ()) {
clear_oneshot_mods ();
} else {
register_code (KC_ESC);
}
layer_off (HUN);
} else {
unregister_code (KC_ESC);
}
break;
case A_MPN:
if (record->event.pressed) {
if (keyboard_report->mods & MOD_BIT(KC_LSFT) ||
@ -588,6 +592,7 @@ const macro_t *action_get_macro(keyrecord_t *record, uint8_t id, uint8_t opt)
case HU_UEE:
return ang_do_hun (record, KC_EQL, KC_U);
#if MOUSEKEY_ENABLE
/* Mouse movement */
case A_MUL:
if (record->event.pressed) {
@ -633,6 +638,24 @@ const macro_t *action_get_macro(keyrecord_t *record, uint8_t id, uint8_t opt)
mousekey_send();
break;
case A_ACL0 ... A_ACL2:
if (record->event.pressed) {
uint8_t idx = id - A_ACL0;
if (m_accel_state.idx == id) {
mousekey_off(m_accel_state.idx - A_ACL0 + KC_ACL0);
m_accel_state.idx = 0;
} else {
if (m_accel_state.idx) {
mousekey_off(m_accel_state.idx - A_ACL0 + KC_ACL0);
m_accel_state.idx = 0;
}
mousekey_on(KC_ACL0 + idx);
m_accel_state.idx = id;
}
}
break;
#endif
/* Plover base */
case A_PLVR:
toggle_steno(record->event.pressed);
@ -663,22 +686,34 @@ const macro_t *action_get_macro(keyrecord_t *record, uint8_t id, uint8_t opt)
break;
case APP_SLK:
from_appsel = true;
return MACRODOWN(T(S), T(L), T(A), T(C), T(K), T(ENT), END);
case APP_EMCS:
from_appsel = true;
return MACRODOWN(T(G), T(N), T(U), T(SPC), T(E), T(M), T(A), T(C), T(S), T(SPC), T(2), T(4), T(ENT), END);
case APP_TERM:
return MACRODOWN(T(T), T(E), T(R), T(M), T(ENT), END);
from_appsel = true;
if (!record->event.pressed) {
register_code(KC_ESC);
unregister_code(KC_ESC);
wait_ms(TAPPING_TERM + 25);
register_code(KC_DEL);
unregister_code(KC_DEL);
}
break;
case APP_CHRM:
from_appsel = true;
return MACRODOWN(T(C), T(H), T(R), T(O), T(M), T(ENT), END);
case APP_MSIC:
from_appsel = true;
return MACRODOWN(T(R), T(H), T(Y), T(T), T(H), T(M), T(B), T(O), T(X), T(ENT), END);
/* Function keys */
case KF_1 ... KF_11:
case KF_1 ... KF_10:
ang_handle_kf (record, id);
break;
}
@ -686,12 +721,14 @@ const macro_t *action_get_macro(keyrecord_t *record, uint8_t id, uint8_t opt)
return MACRO_NONE;
};
uint8_t is_adore = 0;
static uint8_t is_adore = 0;
// Runs just one time when the keyboard initializes.
void matrix_init_user(void) {
uint8_t dl;
set_unicode_input_mode(UC_LNX);
ergodox_led_all_on();
for (int i = LED_BRIGHTNESS_HI; i > LED_BRIGHTNESS_LO; i--) {
ergodox_led_all_set (i);
@ -709,120 +746,38 @@ void matrix_init_user(void) {
dl = eeconfig_read_default_layer ();
if (dl == (1UL << ADORE)) {
is_adore = 1;
#if ADORE_AUTOLOG
log_enable = true;
#endif
}
};
LEADER_EXTERNS();
void ang_do_unicode (void) {
register_code (KC_RCTL);
register_code (KC_RSFT);
register_code (KC_U);
unregister_code (KC_U);
unregister_code (KC_RSFT);
unregister_code (KC_RCTL);
wait_ms (100);
}
static void ang_tap (uint8_t code, ...) {
uint8_t kc = code;
va_list ap;
void ang_tap (uint16_t codes[]) {
for (int i = 0; codes[i] != 0; i++) {
register_code (codes[i]);
unregister_code (codes[i]);
wait_ms (50);
}
va_start(ap, code);
do {
register_code(kc);
unregister_code(kc);
wait_ms(50);
kc = va_arg(ap, int);
} while (kc != 0);
va_end(ap);
}
#define TAP_ONCE(code) \
register_code (code); \
unregister_code (code)
void ang_tap_dance_bp_finished (qk_tap_dance_state_t *state, void *user_data) {
bool left, parens;
if (state->count > 2) {
state->count = 0;
return;
}
if (state->keycode == TD(CT_LBP))
left = true;
else
left = false;
if (state->count == 1)
parens = false;
else
parens = true;
if (parens) {
register_code (KC_RSFT);
if (left) {
TAP_ONCE(KC_9);
} else {
TAP_ONCE(KC_0);
}
unregister_code (KC_RSFT);
} else {
if (left) {
TAP_ONCE (KC_LBRC);
} else {
TAP_ONCE (KC_RBRC);
}
}
}
void ang_tap_dance_cln_finished (qk_tap_dance_state_t *state, void *user_data) {
if (state->count == 1) {
register_code (KC_RSFT);
register_code (KC_SCLN);
} else if (state->count == 2) {
register_code (KC_SCLN);
}
}
void ang_tap_dance_cln_reset (qk_tap_dance_state_t *state, void *user_data) {
if (state->count == 1) {
unregister_code (KC_SCLN);
unregister_code (KC_RSFT);
} else if (state->count == 2) {
unregister_code (KC_SCLN);
}
}
void ang_tap_dance_mns_finished (qk_tap_dance_state_t *state, void *user_data) {
if (state->count == 1) {
register_code (KC_MINS);
} else if (state->count == 2) {
register_code (KC_RSFT);
register_code (KC_MINS);
}
}
void ang_tap_dance_mns_reset (qk_tap_dance_state_t *state, void *user_data) {
if (state->count == 1) {
unregister_code (KC_MINS);
} else if (state->count == 2) {
unregister_code (KC_RSFT);
unregister_code (KC_MINS);
}
}
typedef struct {
bool layer_toggle;
bool sticky;
bool finished_once;
} td_ta_state_t;
void ang_tap_dance_ta_finished (qk_tap_dance_state_t *state, void *user_data) {
static void ang_tap_dance_ta_finished (qk_tap_dance_state_t *state, void *user_data) {
td_ta_state_t *td_ta = (td_ta_state_t *) user_data;
if (td_ta->finished_once) {
return;
}
if (td_ta->sticky) {
td_ta->sticky = false;
td_ta->layer_toggle = false;
@ -830,7 +785,6 @@ void ang_tap_dance_ta_finished (qk_tap_dance_state_t *state, void *user_data) {
return;
}
td_ta->finished_once = true;
if (state->count == 1 && !state->pressed) {
register_code (KC_TAB);
td_ta->sticky = false;
@ -842,35 +796,29 @@ void ang_tap_dance_ta_finished (qk_tap_dance_state_t *state, void *user_data) {
}
}
void ang_tap_dance_ta_reset (qk_tap_dance_state_t *state, void *user_data) {
static void ang_tap_dance_ta_reset (qk_tap_dance_state_t *state, void *user_data) {
td_ta_state_t *td_ta = (td_ta_state_t *) user_data;
if (!td_ta->layer_toggle)
unregister_code (KC_TAB);
if (!td_ta->sticky)
layer_off (ARRW);
td_ta->finished_once = false;
}
qk_tap_dance_action_t tap_dance_actions[] = {
[CT_CLN] = ACTION_TAP_DANCE_FN_ADVANCED (NULL, ang_tap_dance_cln_finished, ang_tap_dance_cln_reset)
,[CT_MNS] = ACTION_TAP_DANCE_FN_ADVANCED (NULL, ang_tap_dance_mns_finished, ang_tap_dance_mns_reset)
[CT_CLN] = ACTION_TAP_DANCE_DOUBLE (KC_COLN, KC_SCLN)
,[CT_TA] = {
.fn = { NULL, ang_tap_dance_ta_finished, ang_tap_dance_ta_reset },
.user_data = (void *)&((td_ta_state_t) { false, false, false })
.user_data = (void *)&((td_ta_state_t) { false, false })
}
,[CT_LBP] = ACTION_TAP_DANCE_FN (ang_tap_dance_bp_finished)
,[CT_RBP] = ACTION_TAP_DANCE_FN (ang_tap_dance_bp_finished)
,[CT_LBP] = ACTION_TAP_DANCE_DOUBLE (KC_LBRC, KC_LPRN)
,[CT_RBP] = ACTION_TAP_DANCE_DOUBLE (KC_RBRC, KC_RPRN)
};
static uint16_t uni[32];
static uint8_t unicnt;
static bool unimagic = false;
// Runs constantly in the background, in a loop.
void matrix_scan_user(void) {
uint8_t layer = biton32(layer_state);
bool is_arrow = false;
if (gui_timer && timer_elapsed (gui_timer) > TAPPING_TERM)
unregister_code (KC_LGUI);
@ -893,13 +841,19 @@ void matrix_scan_user(void) {
ergodox_right_led_2_set (LED_BRIGHTNESS_HI);
}
if (layer_state & (1UL << ARRW)) {
ergodox_right_led_1_on ();
ergodox_right_led_3_on ();
is_arrow = true;
}
if (keyboard_report->mods & MOD_BIT(KC_LSFT) ||
((get_oneshot_mods() & MOD_BIT(KC_LSFT)) && !has_oneshot_mods_timed_out())) {
ergodox_right_led_1_set (LED_BRIGHTNESS_HI);
ergodox_right_led_1_on ();
} else {
ergodox_right_led_1_set (LED_BRIGHTNESS_LO);
if (layer != NMDIA && layer != PLVR && layer != ADORE)
if (layer != NMDIA && layer != PLVR && layer != ADORE && !is_arrow)
ergodox_right_led_1_off ();
}
@ -919,7 +873,7 @@ void matrix_scan_user(void) {
ergodox_right_led_3_on ();
} else {
ergodox_right_led_3_set (LED_BRIGHTNESS_LO);
if (layer != HUN && layer != PLVR && layer != ADORE)
if (layer != HUN && layer != PLVR && layer != ADORE && !is_arrow)
ergodox_right_led_3_off ();
}
@ -936,20 +890,17 @@ void matrix_scan_user(void) {
}
#endif
SEQ_ONE_KEY (KC_Q) {
register_code16 (LCTL(KC_1));
unregister_code16 (LCTL(KC_1));
}
SEQ_ONE_KEY (KC_T) {
time_travel = !time_travel;
}
SEQ_ONE_KEY (KC_U) {
ang_do_unicode ();
}
SEQ_TWO_KEYS (KC_LEAD, KC_U) {
unicnt = 0;
unimagic = true;
register_code(KC_RSFT);
TAP_ONCE(KC_U);
unregister_code(KC_RSFT);
qk_ucis_start();
}
SEQ_ONE_KEY (KC_V) {
@ -958,25 +909,23 @@ void matrix_scan_user(void) {
SEQ_ONE_KEY (KC_L) {
/* λ */
ang_do_unicode ();
uint16_t codes[] = {KC_0, KC_3, KC_B, KC_B, KC_ENT, 0};
ang_tap (codes);
unicode_input_start();
register_hex(0x03bb);
unicode_input_finish();
}
SEQ_ONE_KEY (KC_Y) {
uint16_t codes[] = {KC_BSLS, KC_O, KC_SLSH, 0};
ang_tap (codes);
ang_tap (KC_BSLS, KC_O, KC_SLSH, 0);
}
SEQ_ONE_KEY (KC_S) {
ang_do_unicode (); TAP_ONCE (KC_A); TAP_ONCE (KC_F); TAP_ONCE (KC_SPC);
unicode_input_start(); register_hex(0xaf); unicode_input_finish();
TAP_ONCE (KC_BSLS);
register_code (KC_RSFT); TAP_ONCE (KC_MINS); TAP_ONCE (KC_9); unregister_code (KC_RSFT);
ang_do_unicode (); TAP_ONCE (KC_3); TAP_ONCE (KC_0); TAP_ONCE (KC_C); TAP_ONCE (KC_4); TAP_ONCE (KC_SPC);
unicode_input_start (); register_hex(0x30c4); unicode_input_finish();
register_code (KC_RSFT); TAP_ONCE (KC_0); TAP_ONCE (KC_MINS); unregister_code (KC_RSFT);
TAP_ONCE (KC_SLSH);
ang_do_unicode (); TAP_ONCE (KC_A); TAP_ONCE (KC_F); TAP_ONCE (KC_SPC);
unicode_input_start (); register_hex(0xaf); unicode_input_finish();
}
SEQ_TWO_KEYS (KC_W, KC_M) {
@ -987,8 +936,7 @@ void matrix_scan_user(void) {
wait_ms (1000);
uint16_t codes[] = {KC_M, KC_A, KC_X, KC_MINS, KC_F, KC_O, KC_C, KC_U, KC_S, KC_E, KC_D, KC_ENT, 0};
ang_tap (codes);
ang_tap (KC_M, KC_A, KC_X, KC_MINS, KC_F, KC_O, KC_C, KC_U, KC_S, KC_E, KC_D, KC_ENT, 0);
register_code (KC_LGUI);
register_code (KC_UP);
unregister_code (KC_UP);
@ -1013,13 +961,7 @@ void matrix_scan_user(void) {
ergodox_right_led_2_off ();
wait_ms (100);
ergodox_right_led_1_off ();
#if ADORE_AUTOLOG
log_enable = true;
#endif
} else {
#if ADORE_AUTOLOG
log_enable = false;
#endif
is_adore = 0;
default_layer_and (0);
default_layer_or (1UL << BASE);
@ -1043,140 +985,38 @@ void matrix_scan_user(void) {
static uint16_t last4[4];
bool is_uni_seq(char *seq) {
uint8_t i;
for (i = 0; seq[i]; i++) {
uint16_t code;
if (('1' <= seq[i]) && (seq[i] <= '9'))
code = seq[i] - '1' + KC_1;
else if (seq[i] == '0')
code = KC_0;
else
code = seq[i] - 'a' + KC_A;
if (i > unicnt)
return false;
if (uni[i] != code)
return false;
}
if (uni[i] == KC_ENT || uni[i] == KC_SPC)
return true;
return false;
}
uint16_t hex_to_keycode(uint8_t hex)
{
if (hex == 0x0) {
return KC_0;
} else if (hex < 0xA) {
return KC_1 + (hex - 0x1);
} else {
return KC_A + (hex - 0xA);
}
}
void register_hex(uint16_t hex) {
bool leading_zeros = true;
for(int i = 3; i >= 0; i--) {
uint8_t digit = ((hex >> (i*4)) & 0xF);
if (digit != 0)
leading_zeros = false;
else if (leading_zeros)
continue;
register_code(hex_to_keycode(digit));
unregister_code(hex_to_keycode(digit));
wait_ms(10);
}
}
typedef struct {
char *symbol;
uint16_t codes[4];
} qk_ucis_symbol_t;
static qk_ucis_symbol_t ucis_symbol_table[] = {
{"poop", {0x1, 0xf4a9, 0}},
{"rofl", {0x1, 0xf923, 0}},
{"kiss", {0x1, 0xf619, 0}},
{"snowman", {0x2603, 0}},
{NULL, {}}
};
bool process_record_ucis (uint16_t keycode, keyrecord_t *record) {
uint8_t i;
if (!unimagic)
return true;
if (!record->event.pressed)
return true;
uni[unicnt] = keycode;
unicnt++;
if (keycode == KC_BSPC) {
if (unicnt >= 2) {
unicnt-= 2;
return true;
} else {
unicnt--;
return false;
}
}
if (keycode == KC_ENT || keycode == KC_SPC) {
bool symbol_found = false;
for (i = unicnt; i > 0; i--) {
register_code (KC_BSPC);
unregister_code (KC_BSPC);
wait_ms(10);
}
ang_do_unicode();
wait_ms(10);
for (i = 0; ucis_symbol_table[i].symbol; i++) {
if (is_uni_seq (ucis_symbol_table[i].symbol)) {
symbol_found = true;
for (uint8_t j = 0; ucis_symbol_table[i].codes[j]; j++) {
register_hex(ucis_symbol_table[i].codes[j]);
}
break;
}
}
if (!symbol_found) {
for (i = 0; i < unicnt - 1; i++) {
uint8_t code;
if (uni[i] > KF_1)
code = uni[i] - KF_1 + KC_1;
else
code = uni[i];
TAP_ONCE(code);
wait_ms (10);
}
}
unimagic = false;
return true;
}
return true;
}
const qk_ucis_symbol_t ucis_symbol_table[] = UCIS_TABLE
(
UCIS_SYM("poop", 0x1f4a9),
UCIS_SYM("rofl", 0x1f923),
UCIS_SYM("kiss", 0x1f619),
UCIS_SYM("snowman", 0x2603),
UCIS_SYM("coffee", 0x2615),
UCIS_SYM("heart", 0x2764),
UCIS_SYM("bolt", 0x26a1)
);
bool process_record_user (uint16_t keycode, keyrecord_t *record) {
#if KEYLOGGER_ENABLE
if (log_enable) {
xprintf ("KL: col=%d, row=%d\n", record->event.key.col,
record->event.key.row);
xprintf ("KL: col=%02d, row=%02d, pressed=%d, layer=%s\n", record->event.key.col,
record->event.key.row, record->event.pressed, (is_adore) ? "ADORE" : "Dvorak");
}
#endif
if (!process_record_ucis (keycode, record))
return false;
if (keycode == KC_ESC && record->event.pressed) {
bool queue = true;
if ((get_oneshot_mods ()) && !has_oneshot_mods_timed_out ()) {
clear_oneshot_mods ();
queue = false;
}
if (layer_state & (1UL<<HUN)) {
layer_off (HUN);
queue = false;
}
return queue;
}
if (time_travel && !record->event.pressed) {
uint8_t p;
@ -1188,15 +1028,13 @@ bool process_record_user (uint16_t keycode, keyrecord_t *record) {
last4[3] = keycode;
if (last4[0] == KC_D && last4[1] == KC_A && last4[2] == KC_T && last4[3] == KC_E) {
uint16_t codes[] = {KC_E, KC_SPC, KC_MINS, KC_D, KC_SPC, KC_QUOT, 0};
ang_tap (codes);
ang_tap (KC_E, KC_SPC, KC_MINS, KC_D, KC_SPC, KC_QUOT, 0);
register_code (KC_RSFT);
register_code (KC_EQL);
unregister_code (KC_EQL);
unregister_code (KC_RSFT);
uint16_t codes2[] = {KC_4, KC_SPC, KC_D, KC_A, KC_Y, KC_S, KC_QUOT, 0};
ang_tap (codes2);
ang_tap (KC_4, KC_SPC, KC_D, KC_A, KC_Y, KC_S, KC_QUOT, 0);
return false;
}
@ -1204,3 +1042,17 @@ bool process_record_user (uint16_t keycode, keyrecord_t *record) {
return true;
}
void qk_ucis_symbol_fallback (void) {
for (uint8_t i = 0; i < qk_ucis_state.count - 1; i++) {
uint8_t code;
if (qk_ucis_state.codes[i] > KF_1)
code = qk_ucis_state.codes[i] - KF_1 + KC_1;
else
code = qk_ucis_state.codes[i];
register_code(code);
unregister_code(code);
wait_ms (10);
}
}

@ -3,11 +3,15 @@
algernon's layout
=======================
This is an unconventional layout for the ErgoDox EZ. For more details about the history of the layout, see my [blog posts about my ErgoDox journey][blog-ergodox].
This is an unconventional layout for the [ErgoDox EZ][ez]. For more details about the history of the layout, see my [blog posts about my ErgoDox journey][blog-ergodox].
[ez]: https://ergodox-ez.com/
[blog-ergodox]: https://asylum.madhouse-project.org/blog/tags/ergodox/
Some of the things in the layout only work when one uses Spacemacs and GNOME under Linux. Your mileage may vary.
Some of the things in the layout only work when one uses [Spacemacs][spacemacs] and [GNOME][gnome] under Linux. Your mileage may vary.
[spacemacs]: http://spacemacs.org/
[gnome]: https://www.gnome.org/
## Table of Contents
@ -40,10 +44,10 @@ At its core, this is a Dvorak layout, with some minor changes. The more interest
* The `GUI` key is special, because when I double-tap it, it sends `GUI + w`, which pops up an application selector. It also switches to a one-shot layer, where the number row on the left half turns into app selector macros, for the most common things I usually want to switch to. Otherwise it behaves as on a normal layout.
* The `ESC` key also doubles as a one-shot cancel key: if tapped while any of the one-shot modifiers are in-flight (as in, single-tapped, and not expired yet), it cancels all one-shot modifiers. It also cancels the **Hun** layer, if active. Otherwise it sends the usual keycode.
* The **Media** and **Hun** layer keys are one-shot, the **STENO** key is a toggle.
* When holding any of the **Arrow** layer keys, the arrow layer activates while the layer key is held. Tapping the key produces the normal key.
* When holding the `Tab`/**Arrow** key, the arrow layer activates while the key is held. Tapping the key produces the normal, `Tab` key. Double-tapping it toggles the **Arrow** layer on until a third tap.
* Tapping the `:` key once yields `:`, tapping it twice yields `;`.
* Tapping the `[{(`/`)}]` keys once yields `[` (or `{` when shifted), tapping them twice yields `(`.
* The **Lead** key allows me to type in a sequence of keys, and trigger some actions:
- `LEAD u` enters unicode input mode, by sending the GTK+ key sequence that does this.
- `LEAD l` uses the unicode input method to enter a `λ`.
- `LEAD s` does a lot of magic to type in a shruggie: `¯\_(ツ)_/¯`
- `LEAD y` types `\o/`.
@ -52,7 +56,7 @@ At its core, this is a Dvorak layout, with some minor changes. The more interest
- `LEAD v` prints the firmware version, the keyboard and the keymap.
- `LEAD d` toggles logging keypress positions to the HID console.
- `LEAD t` toggles time travel. Figuring out the current `date` is left as an exercise to the reader.
- `LEAD LEAD u` enters the [Unicode symbol input][#unicode-symbol-input] mode.
- `LEAD u` enters the [Unicode symbol input](#unicode-symbol-input) mode.
## ADORE layer
@ -91,6 +95,7 @@ For the layers, the following rules apply:
* When the [ADORE layer](#adore-layer) is toggled on, LEDs will light up from left to right in a sequence, then turn off. When the layer is toggled off, the LEDs light up and turn off in the other direction. No LEDs are on while the layer is active.
* When the [Hungarian layer](#hungarian-layer) is active, the *green* and *blue* LEDs are on.
* When the [Navigation and media layer](#navigation-and-media-layer) is active, the *red* and *green* ones are on.
* When the **ARROW** layer is active, the *red* and *blue* ones are on.
* For the [Steno layer](#steno-layer), all LEDs will be turned on.
Unless noted otherwise, the layers use a dim light for the LEDs, while modifiers use a stronger one, and modifiers override any layer preferences. For example, when on the one-handed layer, with the left side active (*red* light blinking), if `Shift` is on, the *red* light will be constantly on.
@ -116,7 +121,7 @@ This is an experimental feature, and may or may not work reliably.
When the keypress logging functionality is enabled (by `LEAD d`), the keyboard will output a line every time a key is pressed, containing the position of the key in the matrix. This allows one to collect this information, and build analytics over it, such as a heat map, including dead keys too.
Included with the firmware is a small tool that can parse these logs, and create a heatmap that one can import into [KLE][kle]. To use it, simply point `tools/log-to-heatmap.py` to a base layout file (one is included in the `tools/` directory), and the key position log. The latter one can create by running `hid-listen`, and redirecting its output to a file.
Included with the firmware is a small tool that can parse these logs, and create a heatmap that one can import into [KLE][kle]. To use it, either pipe the output of `hid_listen` into it, or pipe it an already saved log, and it will save the results into files in an output directory (given on the command-line). See the output of `tools/log-to-heatmap.py --help` for more information.
[kle]: http://www.keyboard-layout-editor.com/
@ -151,7 +156,35 @@ The keymap default to forcing NKRO, which seems to upset Windows, and except the
# Changelog
## v1.5 - 2016-08-12
## v1.6
*2016-08-24*
### Base layer changes
* The parentheses & bracket keys have been merged: tapping them results in `[` or `{` (if it was shifted), double tapping leads to `(`.
* The `:;` and `-_` keys are now available on the base layer, on their [ADORE](#adore-layer) location, too, just below `[{(`/`]})`.
* The `Apps` key has been replaced by `F12`.
* The `-`/`_` is no longer a tap-dance key.
### ADORE layer changes
* Adjustments were made to the [ADORE](#adore-layer) layer, to separate some inconvenient combinations.
### Miscellaneous changes
* `LEAD u` now starts the symbolic unicode input system, instead of the OS-one.
* The mouse acceleration keys on the [Navigation and Media](#navigation-and-media-layer) layer have been turned into toggles: tap them once to turn them on, until tapped again. Tapping an accelerator button will turn all the others off.
* When the **ARROW** layer is on, the *red* and *blue* LEDs light up now.
### Heatmap
* The built-in keylogger has been greatly enhanced, it now outputs the pressed state, and the layer (Dvorak or ADORE). As such, the `ADORE_AUTOLOG` option has been removed, instead there is `AUTOLOG_ENABLE` now, which when enabled, makes the keylogger start when the keyboard boots. It defaults to off.
* The heatmap generator received a lot of updates.
## v1.5
*2016-08-12*
* The **1HAND** layer has been removed.
* A `Delete` key is now available on the right thumb cluster.
@ -161,7 +194,9 @@ The keymap default to forcing NKRO, which seems to upset Windows, and except the
* On the **ARROW** layer, `Backspace` has been replaced by `Enter`.
* There is some experimental support for entering Unicode symbols.
## v1.4 - 2016-07-29
## v1.4
*2016-07-29*
* When toggling the key logging on or off, the LEDs will do a little dance.
* The keylogger is now optional, but enabled by default. Use `KEYLOGGER_ENABLE=no` on the `make` command line to disable it.
@ -169,14 +204,18 @@ The keymap default to forcing NKRO, which seems to upset Windows, and except the
* The `-`/`_` key was turned into a tap-dance key too.
* There is now a way to travel time with the keyboard, toggle the feature on by hitting `LEAD t`.
## v1.3 - 2016-07-06
## v1.3
*2016-07-06*
* Added support for logging keys, by pressing `LEAD d`. Also included is a tool to generate a [heatmap](#heatmap) out of the logs.
* The arrow and navigation keys were rearranged again, and now require an additional key being held to activate. See the [base layer](#base-layer) for an image that shows where arrows are.
* The **experimental** layer has been redone, and is now called [ADORE](#adore-layer), and as such, can be enabled by `LEAD a` now.
* Switching between Dvorak and ADORE is now persisted into EEPROM, and survives a reboot.
## v1.2 - 2016-06-22
## v1.2
*2016-06-22*
* The forced NKRO mode can be easily toggled off at compile-time, to make the firmware compatible with [certain operating systems](#using-on-windows).
* The `:;` key has changed behaviour: to access the `;` symbol, the key needs to be double-tapped, instead of shifted.
@ -187,7 +226,9 @@ The keymap default to forcing NKRO, which seems to upset Windows, and except the
* On the **experimental** layer, the `L` and `Q`, and the `K` and `G` keys were swapped.
* The [Steno](#steno-layer) layer gained a few more `#` and `*` keys, to make it easier on my fingers.
## v1.1 - 2016-06-14
## v1.1
*2016-06-14*
* The keyboard starts in NKRO mode, bootmagic and other things are disabled.
* A [Steno](#steno-layer) layer was added, to be used with Plover.
@ -201,7 +242,9 @@ The keymap default to forcing NKRO, which seems to upset Windows, and except the
- `:` now inputs `;` when shifted.
* `ESC` cancels the [Hungarian](#hungarian-layer) layer too, not just modifiers.
## v1.0 - 2016-05-26
## v1.0
*2016-05-26*
Initial version.

@ -75,9 +75,9 @@
"STENO",
{
"x": 4.5,
"f": 6
"f": 3
},
"<i class='mss mss-Unicode-Option-3'></i>",
"F12",
{
"c": "#7adabd",
"a": 4,
@ -94,12 +94,20 @@
{
"y": -0.875,
"c": "#ffb2d2",
"f": 3,
"f": 9,
"a": 6,
"w": 1.5
},
"\n\n~\n`",
"\n\n<i class='kb kb-Multimedia-Play-Pause'></i>",
{
"t": "#0d0d0b"
"t": "#0d0d0b",
"f": 3,
"a": 4,
"fa": [
0,
0,
2
]
},
"!\n1\nF1",
{
@ -120,7 +128,7 @@
"t": "#000000",
"a": 6
},
"L",
"G",
{
"x": 10.5
},
@ -132,16 +140,16 @@
"x": 2.5,
"c": "#bfbad1",
"t": "#0d0d0b",
"a": 4
"a": 6
},
">\n.",
"W",
{
"x": 1,
"c": "#7adabd",
"t": "#000000",
"a": 6
},
"W",
"L",
{
"x": 8.5
},
@ -164,14 +172,15 @@
{
"c": "#93c9b7",
"a": 4,
"fa": [0, 0, 0],
"h": 1.5
},
"{\n[",
"{\n(\n[",
{
"x": 4.5,
"h": 1.5
},
"}\n]",
"}\n)\n]",
{
"c": "#7adabd",
"a": 6
@ -183,21 +192,22 @@
"y": -0.875,
"c": "#ffb07b",
"t": "#0d0d0b",
"f": 6,
"f": 3,
"a": 4,
"w": 1.5
},
"<i class='fa fa-fast-backward'></i>\n\n<i class='fa fa-fast-forward'></i>",
"\n\n~\n`",
{
"c": "#ffb2d2",
"a": 4,
"a": 6,
"f": 3
},
"<\n,",
"Y",
{
"x": 14.5,
"a": 6
},
"Y",
"X",
{
"a": 4,
"w": 1.5
@ -300,15 +310,14 @@
"x": 6.5,
"c": "#93c9b7",
"t": "#000000",
"a": 7,
"h": 1.5
},
"(",
";\n:",
{
"x": 4.5,
"h": 1.5
},
")"
"_\n-"
],
[
{
@ -320,7 +329,9 @@
},
"\"\n'",
{
"x": 10.5
"x": 10.5,
"a": 6,
"f": 3
},
"V"
],
@ -329,19 +340,22 @@
"y": -0.875,
"x": 2.5,
"c": "#bfbad1",
"t": "#0d0d0b"
"t": "#0d0d0b",
"a": 6
},
"Z",
"Q",
{
"x": 1,
"c": "#7adabd",
"t": "#000000"
"t": "#000000",
"a": 4
},
"K",
"<\n,",
{
"x": 8.5
"x": 8.5,
"a": 6
},
"G",
"K",
{
"x": 1,
"c": "#bfbad1",
@ -354,11 +368,13 @@
"y": -0.875,
"x": 5.5,
"c": "#7adabd",
"t": "#000000"
"t": "#000000",
"a": 4
},
"X",
">\n.",
{
"x": 6.5
"x": 6.5,
"a": 6
},
"B"
],
@ -367,28 +383,32 @@
"y": -0.875,
"c": "#ffb07b",
"f": 9,
"w": 1.5
"w": 1.5,
"g": true
},
"\n\n<i class='kb kb-Multimedia-Play-Pause'></i>",
"",
{
"c": "#ffb2d2",
"t": "#0d0d0b",
"a": 4,
"f": 3
"a": 6,
"f": 3,
"g": false
},
"?\n/",
"Z",
{
"x": 14.5,
"a": 6
"a": 4
},
"Q",
"?\n/",
{
"c": "#ffb07b",
"t": "#000000",
"f": 9,
"w": 1.5
"g": true,
"w": 1.5,
"a": 4
},
"<i class='kb kb-Multimedia-Stop'></i>"
""
],
[
{
@ -414,14 +434,14 @@
{
"x": 1,
"c": "#d4872a",
"g": false,
"g": true,
"a": 5
},
";\n:",
"",
{
"x": 8.5
},
"_\n-",
"",
{
"x": 1,
"c": "#d9dae0",
@ -503,13 +523,13 @@
},
"MEDIA",
{},
"1HAND"
"DEL"
],
[
{
"x": -3
},
"LEAD",
"HUN",
{
"c": "#d4872a",
"f": 9,
@ -528,6 +548,6 @@
"c": "#f9cd31",
"f": 2
},
"HUN"
"LEAD"
]
]

@ -75,9 +75,9 @@
"STENO",
{
"x": 4.5,
"f": 6
"f": 3
},
"<i class='mss mss-Unicode-Option-3'></i>",
"F12",
{
"c": "#7adabd",
"a": 4,
@ -94,12 +94,21 @@
{
"y": -0.875,
"c": "#ffb2d2",
"f": 3,
"f": 6,
"a": 6,
"w": 1.5
},
"\n\n~\n`",
"<i class='fa fa-fast-backward'></i>\n\n<i class='fa fa-fast-forward'></i>",
{
"t": "#0d0d0b"
"f": 3,
"t": "#0d0d0b",
"a": 4,
"fa": [
0,
0,
2
]
},
"!\n1\nF1",
{
@ -167,12 +176,12 @@
"a": 4,
"h": 1.5
},
"{\n[",
"{\n(\n[",
{
"x": 4.5,
"h": 1.5
},
"}\n]",
"}\n)\n]",
{
"c": "#7adabd",
"a": 6
@ -184,10 +193,10 @@
"y": -0.875,
"c": "#ffb07b",
"t": "#0d0d0b",
"f": 6,
"f": 3,
"w": 1.5
},
"<i class='fa fa-fast-backward'></i>\n\n<i class='fa fa-fast-forward'></i>",
"\n\n~\n`",
{
"c": "#ffb2d2",
"a": 4,
@ -503,7 +512,7 @@
},
"MEDIA",
{},
"1HAND"
"DEL"
],
[
{

@ -3,143 +3,247 @@ import json
import os
import sys
import re
import argparse
from math import floor
from os.path import dirname
class Heatmap(object):
coords = [
[
# Row 0
[ 4, 0], [ 4, 2], [ 2, 0], [ 1, 0], [ 2, 2], [ 3, 0], [ 3, 2],
[ 3, 4], [ 3, 6], [ 2, 4], [ 1, 2], [ 2, 6], [ 4, 4], [ 4, 6],
],
[
# Row 1
[ 8, 0], [ 8, 2], [ 6, 0], [ 5, 0], [ 6, 2], [ 7, 0], [ 7, 2],
[ 7, 4], [ 7, 6], [ 6, 4], [ 5, 2], [ 6, 6], [ 8, 4], [ 8, 6],
],
[
# Row 2
[12, 0], [12, 2], [10, 0], [ 9, 0], [10, 2], [11, 0], [ ],
[ ], [11, 2], [10, 4], [ 9, 2], [10, 6], [12, 4], [12, 6],
],
[
# Row 3
[17, 0], [17, 2], [15, 0], [14, 0], [15, 2], [16, 0], [13, 0],
[13, 2], [16, 2], [15, 4], [14, 2], [15, 6], [17, 4], [17, 6],
],
[
# Row 4
[20, 0], [20, 2], [19, 0], [18, 0], [19, 2], [], [], [], [],
[19, 4], [18, 2], [19, 6], [20, 4], [20, 6],
],
[
# Row 5
[ ], [23, 0], [22, 2], [22, 0], [22, 4], [21, 0], [21, 2],
[24, 0], [24, 2], [25, 0], [25, 4], [25, 2], [26, 0], [ ],
],
]
def set_attr_at(self, block, n, attr, fn, val):
blk = self.heatmap[block][n]
if attr in blk:
blk[attr] = fn(blk[attr], val)
else:
blk[attr] = fn(None, val)
def coord(self, col, row):
return self.coords[row][col]
@staticmethod
def set_attr(orig, new):
return new
def set_bg(self, (block, n), color):
self.set_attr_at(block, n, "c", self.set_attr, color)
#self.set_attr_at(block, n, "g", self.set_attr, False)
def set_tap_info(self, (block, n), count, cap):
def _set_tap_info(o, _count, _cap):
ns = 4 - o.count ("\n")
return o + "\n" * ns + "%.02f%%" % (float(_count) / float(_cap) * 100)
if not cap:
cap = 1
self.heatmap[block][n + 1] = _set_tap_info (self.heatmap[block][n + 1], count, cap)
@staticmethod
def heatmap_color (v):
colors = [ [0.3, 0.3, 1], [0.3, 1, 0.3], [1, 1, 0.3], [1, 0.3, 0.3]]
fb = 0
if v <= 0:
idx1, idx2 = 0, 0
elif v >= 1:
idx1, idx2 = len(colors) - 1, len(colors) - 1
else:
val = v * (len(colors) - 1)
idx1 = int(floor(val))
idx2 = idx1 + 1
fb = val - float(idx1)
r = (colors[idx2][0] - colors[idx1][0]) * fb + colors[idx1][0]
g = (colors[idx2][1] - colors[idx1][1]) * fb + colors[idx1][1]
b = (colors[idx2][2] - colors[idx1][2]) * fb + colors[idx1][2]
r, g, b = [x * 255 for x in r, g, b]
return "#%02x%02x%02x" % (r, g, b)
def __init__(self, layout):
self.log = {}
self.total = 0
self.max_cnt = 0
self.layout = layout
def update_log(self, (c, r)):
if not (c, r) in self.log:
self.log[(c, r)] = 0
self.log[(c, r)] = self.log[(c, r)] + 1
self.total = self.total + 1
if self.max_cnt < self.log[(c, r)]:
self.max_cnt = self.log[(c, r)]
def get_heatmap(self):
with open("%s/heatmap-layout.%s.json" % (dirname(sys.argv[0]), self.layout), "r") as f:
self.heatmap = json.load (f)
## Reset colors
for row in self.coords:
for coord in row:
if coord != []:
self.set_bg (coord, "#d9dae0")
for (c, r) in self.log:
coords = self.coord(c, r)
b, n = coords
cap = self.max_cnt
if cap == 0:
cap = 1
v = float(self.log[(c, r)]) / cap
self.set_bg (coords, self.heatmap_color (v))
self.set_tap_info (coords, self.log[(c, r)], self.total)
return self.heatmap
def get_stats(self):
usage = [
# left hand
[0, 0, 0, 0, 0],
# right hand
[0, 0, 0, 0, 0]
]
finger_map = [0, 0, 1, 2, 3, 4, 4]
for (c, r) in self.log:
if r == 5: # thumb cluster
if c <= 6: # left side
usage[0][4] = usage[0][4] + self.log[(c, r)]
else:
usage[1][4] = usage[1][4] + self.log[(c, r)]
else:
fc = c
hand = 0
if fc >= 7:
fc = fc - 7
hand = 1
fm = finger_map[fc]
usage[hand][fm] = usage[hand][fm] + self.log[(c, r)]
hand_usage = [0, 0]
for f in usage[0]:
hand_usage[0] = hand_usage[0] + f
for f in usage[1]:
hand_usage[1] = hand_usage[1] + f
total = self.total
if total == 0:
total = 1
stats = {
"hands": {
"left": {
"usage": float(hand_usage[0]) / total * 100,
"fingers": {
"0 - pinky": 0,
"1 - ring": 0,
"2 - middle": 0,
"3 - index": 0,
"4 - thumb": 0,
}
},
"right": {
"usage": float(hand_usage[1]) / total * 100,
"fingers": {
"0 - thumb": 0,
"1 - index": 0,
"2 - middle": 0,
"3 - ring": 0,
"4 - pinky": 0,
}
},
}
}
hmap = ['left', 'right']
fmap = ['0 - pinky', '1 - ring', '2 - middle', '3 - index', '4 - thumb',
'0 - thumb', '1 - index', '2 - middle', '3 - ring', '4 - pinky']
for hand_idx in range(len(usage)):
hand = usage[hand_idx]
for finger_idx in range(len(hand)):
stats['hands'][hmap[hand_idx]]['fingers'][fmap[finger_idx + hand_idx * 5]] = float(hand[finger_idx]) / total * 100
return stats
def dump_all(out_dir, heatmaps):
for layer in heatmaps.keys():
if len(heatmaps[layer].log) == 0:
continue
cr_coord_map = [
[
# Row 0
[ 4, 0], [ 4, 2], [ 2, 0], [ 1, 0], [ 2, 2], [ 3, 0], [ 3, 2],
[ 3, 4], [ 3, 6], [ 2, 4], [ 1, 2], [ 2, 6], [ 4, 4], [ 4, 6],
],
[
# Row 1
[ 8, 0], [ 8, 2], [ 6, 0], [ 5, 0], [ 6, 2], [ 7, 0], [ 7, 2],
[ 7, 4], [ 7, 6], [ 6, 4], [ 5, 2], [ 6, 6], [ 8, 4], [ 8, 6],
],
[
# Row 2
[12, 0], [12, 2], [10, 0], [ 9, 0], [10, 2], [11, 0], [ ],
[ ], [11, 2], [10, 4], [ 9, 2], [10, 6], [12, 4], [12, 6],
],
[
# Row 3
[17, 0], [17, 2], [15, 0], [14, 0], [15, 2], [16, 0], [13, 0],
[13, 2], [16, 2], [15, 4], [14, 2], [15, 6], [17, 4], [17, 6],
],
[
# Row 4
[20, 0], [20, 2], [19, 0], [18, 0], [19, 2], [], [], [], [],
[19, 4], [18, 2], [19, 6], [20, 4], [20, 6],
],
[
# Row 5
[ ], [23, 0], [22, 2], [22, 0], [22, 4], [21, 0], [21, 2],
[24, 0], [24, 2], [25, 0], [25, 4], [25, 2], [26, 0], [ ],
],
]
def set_attr_at(j, b, n, attr, fn, val):
blk = j[b][n]
if attr in blk:
blk[attr] = fn(blk[attr], val)
else:
blk[attr] = fn(None, val)
def coord(col, row):
return cr_coord_map[row][col]
def set_attr(orig, new):
return new
def set_bg(j, (b, n), color):
set_attr_at(j, b, n, "c", set_attr, color)
#set_attr_at(j, b, n, "g", set_attr, False)
def _set_tap_info(o, count, cap):
ns = 4 - o.count ("\n")
return o + "\n" * ns + "%.02f%%" % (float(count) / float(cap) * 100)
def set_tap_info(j, (b, n), count, cap):
j[b][n + 1] = _set_tap_info (j[b][n + 1], count, cap)
def heatmap_color (v):
colors = [ [0.3, 0.3, 1], [0.3, 1, 0.3], [1, 1, 0.3], [1, 0.3, 0.3]]
fb = 0
if v <= 0:
idx1, idx2 = 0, 0
elif v >= 1:
idx1, idx2 = len(colors) - 1, len(colors) - 1
else:
val = v * (len(colors) - 1)
idx1 = int(floor(val))
idx2 = idx1 + 1
fb = val - float(idx1)
r = (colors[idx2][0] - colors[idx1][0]) * fb + colors[idx1][0]
g = (colors[idx2][1] - colors[idx1][1]) * fb + colors[idx1][1]
b = (colors[idx2][2] - colors[idx1][2]) * fb + colors[idx1][2]
r, g, b = [x * 255 for x in r, g, b]
return "#%02x%02x%02x" % (r, g, b)
# Load the keylog
def load_keylog(fname, restrict_row):
keylog = {}
total = 0
with open(fname, "r") as f:
lines = f.readlines()
for line in lines:
m = re.search ('KL: col=(\d+), row=(\d+)', line)
with open ("%s/%s.json" % (out_dir, layer), "w") as f:
json.dump(heatmaps[layer].get_heatmap(), f)
print >>sys.stderr, "%s stats:" % (layer)
json.dump (heatmaps[layer].get_stats(), sys.stderr,
indent = 4, sort_keys = True)
print >>sys.stderr, ""
print >>sys.stderr, ""
def main(opts):
heatmaps = {"Dvorak": Heatmap("Dvorak"),
"ADORE": Heatmap("ADORE")
}
cnt = 0
restrict_row = opts.restrict_row
out_dir = opts.outdir
while True:
line = sys.stdin.readline()
if not line:
break
m = re.search ('KL: col=(\d+), row=(\d+), pressed=(\d+), layer=(.*)', line)
if not m:
continue
(c, r) = (int(m.group (2)), int(m.group (1)))
if restrict_row != None and r != int(restrict_row):
cnt = cnt + 1
(c, r, l) = (int(m.group (2)), int(m.group (1)), m.group (4))
if restrict_row != -1 and r != restrict_row:
continue
if c in opts.ignore_columns:
continue
if (c, r) in keylog:
keylog[(c, r)] = keylog[(c, r)] + 1
else:
keylog[(c, r)] = 1
total = total + 1
return total / 2, keylog
def l_flat(s):
f = s.split("\n")
return ", ".join (f)
def main(base_fn, log_fn, restrict_row = None):
with open(base_fn, "r") as f:
layout = json.load (f)
## Reset colors
for row in cr_coord_map:
for col in row:
if col != []:
set_bg (layout, col, "#d9dae0")
#set_attr_at (layout, col[0], col[1], "g", set_attr, True)
total, log = load_keylog (log_fn, restrict_row)
max_cnt = 0
for (c, r) in log:
max_cnt = max(max_cnt, log[(c, r)])
# Create the heatmap
for (c, r) in log:
coords = coord(c, r)
b, n = coords
cap = max_cnt
v = float(log[(c, r)]) / cap
print >> sys.stderr, "%s => %d/%d => %f = %s" % (l_flat(layout[b][n+1]), log[(c,r)], cap, v, heatmap_color(v))
set_bg (layout, coord(c, r), heatmap_color (v))
set_tap_info (layout, coord (c, r), log[(c, r)], total)
print json.dumps(layout)
if __name__ == "__main__":
if len(sys.argv) < 3:
print """Log to Heatmap -- creates a heatmap out of keyboard logs
heatmaps[l].update_log ((c, r))
if opts.dump_interval != -1 and cnt >= opts.dump_interval:
cnt = 0
dump_all(out_dir, heatmaps)
Usage: log-to-heatmap.py base-layout.json logfile [row] >layout.json"""
sys.exit (1)
main(*sys.argv[1:])
dump_all (out_dir, heatmaps)
if __name__ == "__main__":
parser = argparse.ArgumentParser (description = "keylog to heatmap processor")
parser.add_argument ('outdir', action = 'store',
help = 'Output directory')
parser.add_argument ('--row', dest = 'restrict_row', action = 'store', type = int,
default = -1, help = 'Restrict processing to this row only')
parser.add_argument ('--dump-interval', dest = 'dump_interval', action = 'store', type = int,
default = 100, help = 'Dump stats and heatmap at every Nth event, -1 for dumping at EOF only')
parser.add_argument ('--ignore-column', dest = 'ignore_columns', action = 'append', type = int,
default = [], help = 'Ignore the specified columns')
args = parser.parse_args()
main(args)

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