Switching rgb_config_t to use HSV struct

master
Ryan Caltabiano 2019-05-19 23:12:29 -05:00 committed by Drashna Jaelre
parent e717dcaa09
commit cf215487ba
42 changed files with 126 additions and 118 deletions

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@ -146,7 +146,7 @@ void rgb_matrix_indicators_user(void)
break; break;
case _RGB: { case _RGB: {
HSV hsv = { rgb_matrix_config.hue, rgb_matrix_config.sat, rgb_matrix_config.val }; HSV hsv = { rgb_matrix_config.hsv.h, rgb_matrix_config.hsv.s, rgb_matrix_config.hsv.v };
HSV hui = hsv; HSV hui = hsv;
HSV hud = hsv; HSV hud = hsv;
HSV sai = hsv; HSV sai = hsv;

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@ -135,7 +135,7 @@ void rgb_matrix_indicators_user(void)
break; break;
case _FNC: { case _FNC: {
HSV hsv = { rgb_matrix_config.hue, rgb_matrix_config.sat, rgb_matrix_config.val }; HSV hsv = { rgb_matrix_config.hsv.h, rgb_matrix_config.hsv.s, rgb_matrix_config.hsv.v };
HSV hui = hsv; HSV hui = hsv;
HSV hud = hsv; HSV hud = hsv;
HSV sai = hsv; HSV sai = hsv;

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@ -128,9 +128,7 @@ void eeconfig_update_rgb_matrix_default(void) {
dprintf("eeconfig_update_rgb_matrix_default\n"); dprintf("eeconfig_update_rgb_matrix_default\n");
rgb_matrix_config.enable = 1; rgb_matrix_config.enable = 1;
rgb_matrix_config.mode = RGB_MATRIX_STARTUP_MODE; rgb_matrix_config.mode = RGB_MATRIX_STARTUP_MODE;
rgb_matrix_config.hue = 0; rgb_matrix_config.hsv = (HSV){ 0, UINT8_MAX, RGB_MATRIX_MAXIMUM_BRIGHTNESS };
rgb_matrix_config.sat = UINT8_MAX;
rgb_matrix_config.val = RGB_MATRIX_MAXIMUM_BRIGHTNESS;
rgb_matrix_config.speed = UINT8_MAX / 2; rgb_matrix_config.speed = UINT8_MAX / 2;
eeconfig_update_rgb_matrix(rgb_matrix_config.raw); eeconfig_update_rgb_matrix(rgb_matrix_config.raw);
} }
@ -139,9 +137,9 @@ void eeconfig_debug_rgb_matrix(void) {
dprintf("rgb_matrix_config eprom\n"); dprintf("rgb_matrix_config eprom\n");
dprintf("rgb_matrix_config.enable = %d\n", rgb_matrix_config.enable); dprintf("rgb_matrix_config.enable = %d\n", rgb_matrix_config.enable);
dprintf("rgb_matrix_config.mode = %d\n", rgb_matrix_config.mode); dprintf("rgb_matrix_config.mode = %d\n", rgb_matrix_config.mode);
dprintf("rgb_matrix_config.hue = %d\n", rgb_matrix_config.hue); dprintf("rgb_matrix_config.hsv.h = %d\n", rgb_matrix_config.hsv.h);
dprintf("rgb_matrix_config.sat = %d\n", rgb_matrix_config.sat); dprintf("rgb_matrix_config.hsv.s = %d\n", rgb_matrix_config.hsv.s);
dprintf("rgb_matrix_config.val = %d\n", rgb_matrix_config.val); dprintf("rgb_matrix_config.hsv.v = %d\n", rgb_matrix_config.hsv.v);
dprintf("rgb_matrix_config.speed = %d\n", rgb_matrix_config.speed); dprintf("rgb_matrix_config.speed = %d\n", rgb_matrix_config.speed);
} }
@ -492,34 +490,34 @@ void rgb_matrix_step_reverse(void) {
} }
void rgb_matrix_increase_hue(void) { void rgb_matrix_increase_hue(void) {
rgb_matrix_config.hue += RGB_MATRIX_HUE_STEP; rgb_matrix_config.hsv.h += RGB_MATRIX_HUE_STEP;
eeconfig_update_rgb_matrix(rgb_matrix_config.raw); eeconfig_update_rgb_matrix(rgb_matrix_config.raw);
} }
void rgb_matrix_decrease_hue(void) { void rgb_matrix_decrease_hue(void) {
rgb_matrix_config.hue -= RGB_MATRIX_HUE_STEP; rgb_matrix_config.hsv.h -= RGB_MATRIX_HUE_STEP;
eeconfig_update_rgb_matrix(rgb_matrix_config.raw); eeconfig_update_rgb_matrix(rgb_matrix_config.raw);
} }
void rgb_matrix_increase_sat(void) { void rgb_matrix_increase_sat(void) {
rgb_matrix_config.sat = qadd8(rgb_matrix_config.sat, RGB_MATRIX_SAT_STEP); rgb_matrix_config.hsv.s = qadd8(rgb_matrix_config.hsv.s, RGB_MATRIX_SAT_STEP);
eeconfig_update_rgb_matrix(rgb_matrix_config.raw); eeconfig_update_rgb_matrix(rgb_matrix_config.raw);
} }
void rgb_matrix_decrease_sat(void) { void rgb_matrix_decrease_sat(void) {
rgb_matrix_config.sat = qsub8(rgb_matrix_config.sat, RGB_MATRIX_SAT_STEP); rgb_matrix_config.hsv.s = qsub8(rgb_matrix_config.hsv.s, RGB_MATRIX_SAT_STEP);
eeconfig_update_rgb_matrix(rgb_matrix_config.raw); eeconfig_update_rgb_matrix(rgb_matrix_config.raw);
} }
void rgb_matrix_increase_val(void) { void rgb_matrix_increase_val(void) {
rgb_matrix_config.val = qadd8(rgb_matrix_config.val, RGB_MATRIX_VAL_STEP); rgb_matrix_config.hsv.v = qadd8(rgb_matrix_config.hsv.v, RGB_MATRIX_VAL_STEP);
if (rgb_matrix_config.val > RGB_MATRIX_MAXIMUM_BRIGHTNESS) if (rgb_matrix_config.hsv.v > RGB_MATRIX_MAXIMUM_BRIGHTNESS)
rgb_matrix_config.val = RGB_MATRIX_MAXIMUM_BRIGHTNESS; rgb_matrix_config.hsv.v = RGB_MATRIX_MAXIMUM_BRIGHTNESS;
eeconfig_update_rgb_matrix(rgb_matrix_config.raw); eeconfig_update_rgb_matrix(rgb_matrix_config.raw);
} }
void rgb_matrix_decrease_val(void) { void rgb_matrix_decrease_val(void) {
rgb_matrix_config.val = qsub8(rgb_matrix_config.val, RGB_MATRIX_VAL_STEP); rgb_matrix_config.hsv.v = qsub8(rgb_matrix_config.hsv.v, RGB_MATRIX_VAL_STEP);
eeconfig_update_rgb_matrix(rgb_matrix_config.raw); eeconfig_update_rgb_matrix(rgb_matrix_config.raw);
} }
@ -561,9 +559,9 @@ void rgb_matrix_sethsv(uint16_t hue, uint8_t sat, uint8_t val) {
} }
void rgb_matrix_sethsv_noeeprom(uint16_t hue, uint8_t sat, uint8_t val) { void rgb_matrix_sethsv_noeeprom(uint16_t hue, uint8_t sat, uint8_t val) {
rgb_matrix_config.hue = hue; rgb_matrix_config.hsv.h = hue;
rgb_matrix_config.sat = sat; rgb_matrix_config.hsv.s = sat;
rgb_matrix_config.val = val; rgb_matrix_config.hsv.v = val;
if (rgb_matrix_config.val > RGB_MATRIX_MAXIMUM_BRIGHTNESS) if (rgb_matrix_config.hsv.v > RGB_MATRIX_MAXIMUM_BRIGHTNESS)
rgb_matrix_config.val = RGB_MATRIX_MAXIMUM_BRIGHTNESS; rgb_matrix_config.hsv.v = RGB_MATRIX_MAXIMUM_BRIGHTNESS;
} }

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@ -6,7 +6,7 @@ RGB_MATRIX_EFFECT(ALPHAS_MODS)
bool ALPHAS_MODS(effect_params_t* params) { bool ALPHAS_MODS(effect_params_t* params) {
RGB_MATRIX_USE_LIMITS(led_min, led_max); RGB_MATRIX_USE_LIMITS(led_min, led_max);
HSV hsv = { rgb_matrix_config.hue, rgb_matrix_config.sat, rgb_matrix_config.val }; HSV hsv = rgb_matrix_config.hsv;
RGB rgb1 = hsv_to_rgb(hsv); RGB rgb1 = hsv_to_rgb(hsv);
hsv.h += rgb_matrix_config.speed; hsv.h += rgb_matrix_config.speed;
RGB rgb2 = hsv_to_rgb(hsv); RGB rgb2 = hsv_to_rgb(hsv);

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@ -5,9 +5,9 @@ RGB_MATRIX_EFFECT(BREATHING)
bool BREATHING(effect_params_t* params) { bool BREATHING(effect_params_t* params) {
RGB_MATRIX_USE_LIMITS(led_min, led_max); RGB_MATRIX_USE_LIMITS(led_min, led_max);
HSV hsv = rgb_matrix_config.hsv;
uint16_t time = scale16by8(g_rgb_counters.tick, rgb_matrix_config.speed / 8); uint16_t time = scale16by8(g_rgb_counters.tick, rgb_matrix_config.speed / 8);
uint8_t val = scale8(abs8(sin8(time) - 128) * 2, rgb_matrix_config.val); hsv.v = scale8(abs8(sin8(time) - 128) * 2, hsv.v);
HSV hsv = { rgb_matrix_config.hue, rgb_matrix_config.sat, val };
RGB rgb = hsv_to_rgb(hsv); RGB rgb = hsv_to_rgb(hsv);
for (uint8_t i = led_min; i < led_max; i++) { for (uint8_t i = led_min; i < led_max; i++) {
RGB_MATRIX_TEST_LED_FLAGS(); RGB_MATRIX_TEST_LED_FLAGS();

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@ -2,8 +2,9 @@
RGB_MATRIX_EFFECT(BAND_PINWHEEL_SAT) RGB_MATRIX_EFFECT(BAND_PINWHEEL_SAT)
#ifdef RGB_MATRIX_CUSTOM_EFFECT_IMPLS #ifdef RGB_MATRIX_CUSTOM_EFFECT_IMPLS
static void BAND_PINWHEEL_SAT_math(HSV* hsv, int16_t dx, int16_t dy, uint8_t time) { static HSV BAND_PINWHEEL_SAT_math(HSV hsv, int16_t dx, int16_t dy, uint8_t time) {
hsv->s = scale8(rgb_matrix_config.sat - time - atan2_8(dy, dx) * 3, rgb_matrix_config.sat); hsv.s = scale8(hsv.s - time - atan2_8(dy, dx) * 3, hsv.s);
return hsv;
} }
bool BAND_PINWHEEL_SAT(effect_params_t* params) { bool BAND_PINWHEEL_SAT(effect_params_t* params) {

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@ -2,8 +2,9 @@
RGB_MATRIX_EFFECT(BAND_PINWHEEL_VAL) RGB_MATRIX_EFFECT(BAND_PINWHEEL_VAL)
#ifdef RGB_MATRIX_CUSTOM_EFFECT_IMPLS #ifdef RGB_MATRIX_CUSTOM_EFFECT_IMPLS
static void BAND_PINWHEEL_VAL_math(HSV* hsv, int16_t dx, int16_t dy, uint8_t time) { static HSV BAND_PINWHEEL_VAL_math(HSV hsv, int16_t dx, int16_t dy, uint8_t time) {
hsv->v = scale8(rgb_matrix_config.val - time - atan2_8(dy, dx) * 3, rgb_matrix_config.val); hsv.v = scale8(hsv.v - time - atan2_8(dy, dx) * 3, hsv.v);
return hsv;
} }
bool BAND_PINWHEEL_VAL(effect_params_t* params) { bool BAND_PINWHEEL_VAL(effect_params_t* params) {

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@ -2,9 +2,10 @@
RGB_MATRIX_EFFECT(BAND_SAT) RGB_MATRIX_EFFECT(BAND_SAT)
#ifdef RGB_MATRIX_CUSTOM_EFFECT_IMPLS #ifdef RGB_MATRIX_CUSTOM_EFFECT_IMPLS
static void BAND_SAT_math(HSV* hsv, uint8_t i, uint8_t time) { static HSV BAND_SAT_math(HSV hsv, uint8_t i, uint8_t time) {
int16_t s = rgb_matrix_config.sat - abs(scale8(g_led_config.point[i].x, 228) + 28 - time) * 8; int16_t s = hsv.s - abs(scale8(g_led_config.point[i].x, 228) + 28 - time) * 8;
hsv->s = scale8(s < 0 ? 0 : s, rgb_matrix_config.sat); hsv.s = scale8(s < 0 ? 0 : s, hsv.s);
return hsv;
} }
bool BAND_SAT(effect_params_t* params) { bool BAND_SAT(effect_params_t* params) {

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@ -2,8 +2,9 @@
RGB_MATRIX_EFFECT(BAND_SPIRAL_SAT) RGB_MATRIX_EFFECT(BAND_SPIRAL_SAT)
#ifdef RGB_MATRIX_CUSTOM_EFFECT_IMPLS #ifdef RGB_MATRIX_CUSTOM_EFFECT_IMPLS
static void BAND_SPIRAL_SAT_math(HSV* hsv, int16_t dx, int16_t dy, uint8_t dist, uint8_t time) { static HSV BAND_SPIRAL_SAT_math(HSV hsv, int16_t dx, int16_t dy, uint8_t dist, uint8_t time) {
hsv->s = scale8(rgb_matrix_config.sat + dist - time - atan2_8(dy, dx), rgb_matrix_config.sat); hsv.s = scale8(hsv.s + dist - time - atan2_8(dy, dx), hsv.s);
return hsv;
} }
bool BAND_SPIRAL_SAT(effect_params_t* params) { bool BAND_SPIRAL_SAT(effect_params_t* params) {

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@ -2,8 +2,9 @@
RGB_MATRIX_EFFECT(BAND_SPIRAL_VAL) RGB_MATRIX_EFFECT(BAND_SPIRAL_VAL)
#ifdef RGB_MATRIX_CUSTOM_EFFECT_IMPLS #ifdef RGB_MATRIX_CUSTOM_EFFECT_IMPLS
static void BAND_SPIRAL_VAL_math(HSV* hsv, int16_t dx, int16_t dy, uint8_t dist, uint8_t time) { static HSV BAND_SPIRAL_VAL_math(HSV hsv, int16_t dx, int16_t dy, uint8_t dist, uint8_t time) {
hsv->v = scale8(rgb_matrix_config.val + dist - time - atan2_8(dy, dx), rgb_matrix_config.val); hsv.v = scale8(hsv.v + dist - time - atan2_8(dy, dx), hsv.v);
return hsv;
} }
bool BAND_SPIRAL_VAL(effect_params_t* params) { bool BAND_SPIRAL_VAL(effect_params_t* params) {

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@ -2,9 +2,10 @@
RGB_MATRIX_EFFECT(BAND_VAL) RGB_MATRIX_EFFECT(BAND_VAL)
#ifdef RGB_MATRIX_CUSTOM_EFFECT_IMPLS #ifdef RGB_MATRIX_CUSTOM_EFFECT_IMPLS
static void BAND_VAL_math(HSV* hsv, uint8_t i, uint8_t time) { static HSV BAND_VAL_math(HSV hsv, uint8_t i, uint8_t time) {
int16_t v = rgb_matrix_config.val - abs(scale8(g_led_config.point[i].x, 228) + 28 - time) * 8; int16_t v = hsv.v - abs(scale8(g_led_config.point[i].x, 228) + 28 - time) * 8;
hsv->v = scale8(v < 0 ? 0 : v, rgb_matrix_config.val); hsv.v = scale8(v < 0 ? 0 : v, hsv.v);
return hsv;
} }
bool BAND_VAL(effect_params_t* params) { bool BAND_VAL(effect_params_t* params) {

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@ -2,9 +2,9 @@
RGB_MATRIX_EFFECT(CYCLE_ALL) RGB_MATRIX_EFFECT(CYCLE_ALL)
#ifdef RGB_MATRIX_CUSTOM_EFFECT_IMPLS #ifdef RGB_MATRIX_CUSTOM_EFFECT_IMPLS
static void CYCLE_ALL_math(HSV* hsv, uint8_t i, uint8_t time) static HSV CYCLE_ALL_math(HSV hsv, uint8_t i, uint8_t time){
{ hsv.h = time;
hsv->h = time; return hsv;
} }
bool CYCLE_ALL(effect_params_t* params) { bool CYCLE_ALL(effect_params_t* params) {

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@ -2,8 +2,9 @@
RGB_MATRIX_EFFECT(CYCLE_LEFT_RIGHT) RGB_MATRIX_EFFECT(CYCLE_LEFT_RIGHT)
#ifdef RGB_MATRIX_CUSTOM_EFFECT_IMPLS #ifdef RGB_MATRIX_CUSTOM_EFFECT_IMPLS
static void CYCLE_LEFT_RIGHT_math(HSV* hsv, uint8_t i, uint8_t time) { static HSV CYCLE_LEFT_RIGHT_math(HSV hsv, uint8_t i, uint8_t time) {
hsv->h = g_led_config.point[i].x - time; hsv.h = g_led_config.point[i].x - time;
return hsv;
} }
bool CYCLE_LEFT_RIGHT(effect_params_t* params) { bool CYCLE_LEFT_RIGHT(effect_params_t* params) {

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@ -2,8 +2,9 @@
RGB_MATRIX_EFFECT(CYCLE_OUT_IN) RGB_MATRIX_EFFECT(CYCLE_OUT_IN)
#ifdef RGB_MATRIX_CUSTOM_EFFECT_IMPLS #ifdef RGB_MATRIX_CUSTOM_EFFECT_IMPLS
static void CYCLE_OUT_IN_math(HSV* hsv, int16_t dx, int16_t dy, uint8_t dist, uint8_t time) { static HSV CYCLE_OUT_IN_math(HSV hsv, int16_t dx, int16_t dy, uint8_t dist, uint8_t time) {
hsv->h = 3 * dist / 2 + time; hsv.h = 3 * dist / 2 + time;
return hsv;
} }
bool CYCLE_OUT_IN(effect_params_t* params) { bool CYCLE_OUT_IN(effect_params_t* params) {

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@ -2,10 +2,11 @@
RGB_MATRIX_EFFECT(CYCLE_OUT_IN_DUAL) RGB_MATRIX_EFFECT(CYCLE_OUT_IN_DUAL)
#ifdef RGB_MATRIX_CUSTOM_EFFECT_IMPLS #ifdef RGB_MATRIX_CUSTOM_EFFECT_IMPLS
static void CYCLE_OUT_IN_DUAL_math(HSV* hsv, int16_t dx, int16_t dy, uint8_t time) { static HSV CYCLE_OUT_IN_DUAL_math(HSV hsv, int16_t dx, int16_t dy, uint8_t time) {
dx = (k_rgb_matrix_center.x / 2) - abs8(dx); dx = (k_rgb_matrix_center.x / 2) - abs8(dx);
uint8_t dist = sqrt16(dx * dx + dy * dy); uint8_t dist = sqrt16(dx * dx + dy * dy);
hsv->h = 3 * dist + time; hsv.h = 3 * dist + time;
return hsv;
} }
bool CYCLE_OUT_IN_DUAL(effect_params_t* params) { bool CYCLE_OUT_IN_DUAL(effect_params_t* params) {

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@ -2,8 +2,9 @@
RGB_MATRIX_EFFECT(CYCLE_PINWHEEL) RGB_MATRIX_EFFECT(CYCLE_PINWHEEL)
#ifdef RGB_MATRIX_CUSTOM_EFFECT_IMPLS #ifdef RGB_MATRIX_CUSTOM_EFFECT_IMPLS
static void CYCLE_PINWHEEL_math(HSV* hsv, int16_t dx, int16_t dy, uint8_t time) { static HSV CYCLE_PINWHEEL_math(HSV hsv, int16_t dx, int16_t dy, uint8_t time) {
hsv->h = atan2_8(dy, dx) + time; hsv.h = atan2_8(dy, dx) + time;
return hsv;
} }
bool CYCLE_PINWHEEL(effect_params_t* params) { bool CYCLE_PINWHEEL(effect_params_t* params) {

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@ -2,8 +2,9 @@
RGB_MATRIX_EFFECT(CYCLE_SPIRAL) RGB_MATRIX_EFFECT(CYCLE_SPIRAL)
#ifdef RGB_MATRIX_CUSTOM_EFFECT_IMPLS #ifdef RGB_MATRIX_CUSTOM_EFFECT_IMPLS
static void CYCLE_SPIRAL_math(HSV* hsv, int16_t dx, int16_t dy, uint8_t dist, uint8_t time) { static HSV CYCLE_SPIRAL_math(HSV hsv, int16_t dx, int16_t dy, uint8_t dist, uint8_t time) {
hsv->h = dist - time - atan2_8(dy, dx); hsv.h = dist - time - atan2_8(dy, dx);
return hsv;
} }
bool CYCLE_SPIRAL(effect_params_t* params) { bool CYCLE_SPIRAL(effect_params_t* params) {

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@ -2,8 +2,9 @@
RGB_MATRIX_EFFECT(CYCLE_UP_DOWN) RGB_MATRIX_EFFECT(CYCLE_UP_DOWN)
#ifdef RGB_MATRIX_CUSTOM_EFFECT_IMPLS #ifdef RGB_MATRIX_CUSTOM_EFFECT_IMPLS
static void CYCLE_UP_DOWN_math(HSV* hsv, uint8_t i, uint8_t time) { static HSV CYCLE_UP_DOWN_math(HSV hsv, uint8_t i, uint8_t time) {
hsv->h = g_led_config.point[i].y - time; hsv.h = g_led_config.point[i].y - time;
return hsv;
} }
bool CYCLE_UP_DOWN(effect_params_t* params) { bool CYCLE_UP_DOWN(effect_params_t* params) {

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@ -2,8 +2,9 @@
RGB_MATRIX_EFFECT(DUAL_BEACON) RGB_MATRIX_EFFECT(DUAL_BEACON)
#ifdef RGB_MATRIX_CUSTOM_EFFECT_IMPLS #ifdef RGB_MATRIX_CUSTOM_EFFECT_IMPLS
static void DUAL_BEACON_math(HSV* hsv, int8_t sin, int8_t cos, uint8_t i, uint8_t time) { static HSV DUAL_BEACON_math(HSV hsv, int8_t sin, int8_t cos, uint8_t i, uint8_t time) {
hsv->h = ((g_led_config.point[i].y - k_rgb_matrix_center.y) * cos + (g_led_config.point[i].x - k_rgb_matrix_center.x) * sin) / 128 + rgb_matrix_config.hue; hsv.h += ((g_led_config.point[i].y - k_rgb_matrix_center.y) * cos + (g_led_config.point[i].x - k_rgb_matrix_center.x) * sin) / 128;
return hsv;
} }
bool DUAL_BEACON(effect_params_t* params) { bool DUAL_BEACON(effect_params_t* params) {

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@ -5,13 +5,13 @@ RGB_MATRIX_EFFECT(GRADIENT_UP_DOWN)
bool GRADIENT_UP_DOWN(effect_params_t* params) { bool GRADIENT_UP_DOWN(effect_params_t* params) {
RGB_MATRIX_USE_LIMITS(led_min, led_max); RGB_MATRIX_USE_LIMITS(led_min, led_max);
HSV hsv = { 0, rgb_matrix_config.sat, rgb_matrix_config.val }; HSV hsv = rgb_matrix_config.hsv;
uint8_t scale = scale8(64, rgb_matrix_config.speed); uint8_t scale = scale8(64, rgb_matrix_config.speed);
for (uint8_t i = led_min; i < led_max; i++) { for (uint8_t i = led_min; i < led_max; i++) {
RGB_MATRIX_TEST_LED_FLAGS(); RGB_MATRIX_TEST_LED_FLAGS();
// The y range will be 0..64, map this to 0..4 // The y range will be 0..64, map this to 0..4
// Relies on hue being 8-bit and wrapping // Relies on hue being 8-bit and wrapping
hsv.h = rgb_matrix_config.hue + scale * (g_led_config.point[i].y >> 4); hsv.h = rgb_matrix_config.hsv.h + scale * (g_led_config.point[i].y >> 4);
RGB rgb = hsv_to_rgb(hsv); RGB rgb = hsv_to_rgb(hsv);
rgb_matrix_set_color(i, rgb.r, rgb.g, rgb.b); rgb_matrix_set_color(i, rgb.r, rgb.g, rgb.b);
} }

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@ -4,7 +4,7 @@ RGB_MATRIX_EFFECT(JELLYBEAN_RAINDROPS)
static void jellybean_raindrops_set_color(int i, effect_params_t* params) { static void jellybean_raindrops_set_color(int i, effect_params_t* params) {
if (!HAS_ANY_FLAGS(g_led_config.flags[i], params->flags)) return; if (!HAS_ANY_FLAGS(g_led_config.flags[i], params->flags)) return;
HSV hsv = { rand() & 0xFF , rand() & 0xFF, rgb_matrix_config.val }; HSV hsv = { rand() & 0xFF , rand() & 0xFF, rgb_matrix_config.hsv.v };
RGB rgb = hsv_to_rgb(hsv); RGB rgb = hsv_to_rgb(hsv);
rgb_matrix_set_color(i, rgb.r, rgb.g, rgb.b); rgb_matrix_set_color(i, rgb.r, rgb.g, rgb.b);
} }

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@ -2,8 +2,9 @@
RGB_MATRIX_EFFECT(RAINBOW_BEACON) RGB_MATRIX_EFFECT(RAINBOW_BEACON)
#ifdef RGB_MATRIX_CUSTOM_EFFECT_IMPLS #ifdef RGB_MATRIX_CUSTOM_EFFECT_IMPLS
static void RAINBOW_BEACON_math(HSV* hsv, int8_t sin, int8_t cos, uint8_t i, uint8_t time) { static HSV RAINBOW_BEACON_math(HSV hsv, int8_t sin, int8_t cos, uint8_t i, uint8_t time) {
hsv->h = ((g_led_config.point[i].y - k_rgb_matrix_center.y) * 2 * cos + (g_led_config.point[i].x - k_rgb_matrix_center.x) * 2 * sin) / 128 + rgb_matrix_config.hue; hsv.h += ((g_led_config.point[i].y - k_rgb_matrix_center.y) * 2 * cos + (g_led_config.point[i].x - k_rgb_matrix_center.x) * 2 * sin) / 128;
return hsv;
} }
bool RAINBOW_BEACON(effect_params_t* params) { bool RAINBOW_BEACON(effect_params_t* params) {

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@ -2,8 +2,9 @@
RGB_MATRIX_EFFECT(RAINBOW_MOVING_CHEVRON) RGB_MATRIX_EFFECT(RAINBOW_MOVING_CHEVRON)
#ifdef RGB_MATRIX_CUSTOM_EFFECT_IMPLS #ifdef RGB_MATRIX_CUSTOM_EFFECT_IMPLS
static void RAINBOW_MOVING_CHEVRON_math(HSV* hsv, uint8_t i, uint8_t time) { static HSV RAINBOW_MOVING_CHEVRON_math(HSV hsv, uint8_t i, uint8_t time) {
hsv->h = abs8(g_led_config.point[i].y - k_rgb_matrix_center.y) + (g_led_config.point[i].x - time) + rgb_matrix_config.hue; hsv.h += abs8(g_led_config.point[i].y - k_rgb_matrix_center.y) + (g_led_config.point[i].x - time);
return hsv;
} }
bool RAINBOW_MOVING_CHEVRON(effect_params_t* params) { bool RAINBOW_MOVING_CHEVRON(effect_params_t* params) {

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@ -2,8 +2,9 @@
RGB_MATRIX_EFFECT(PINWHEELS) RGB_MATRIX_EFFECT(PINWHEELS)
#ifdef RGB_MATRIX_CUSTOM_EFFECT_IMPLS #ifdef RGB_MATRIX_CUSTOM_EFFECT_IMPLS
static void PINWHEELS_math(HSV* hsv, int8_t sin, int8_t cos, uint8_t i, uint8_t time) { static HSV PINWHEELS_math(HSV hsv, int8_t sin, int8_t cos, uint8_t i, uint8_t time) {
hsv->h = ((g_led_config.point[i].y - k_rgb_matrix_center.y) * 3 * cos + (56 - abs8(g_led_config.point[i].x - k_rgb_matrix_center.x)) * 3 * sin) / 128 + rgb_matrix_config.hue; hsv.h += ((g_led_config.point[i].y - k_rgb_matrix_center.y) * 3 * cos + (56 - abs8(g_led_config.point[i].x - k_rgb_matrix_center.x)) * 3 * sin) / 128;
return hsv;
} }
bool PINWHEELS(effect_params_t* params) { bool PINWHEELS(effect_params_t* params) {

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@ -4,17 +4,17 @@ RGB_MATRIX_EFFECT(RAINDROPS)
static void raindrops_set_color(int i, effect_params_t* params) { static void raindrops_set_color(int i, effect_params_t* params) {
if (!HAS_ANY_FLAGS(g_led_config.flags[i], params->flags)) return; if (!HAS_ANY_FLAGS(g_led_config.flags[i], params->flags)) return;
HSV hsv = { 0 , rgb_matrix_config.sat, rgb_matrix_config.val }; HSV hsv = { 0 , rgb_matrix_config.hsv.s, rgb_matrix_config.hsv.v };
// Take the shortest path between hues // Take the shortest path between hues
int16_t deltaH = ((rgb_matrix_config.hue + 180) % 360 - rgb_matrix_config.hue) / 4; int16_t deltaH = ((rgb_matrix_config.hsv.h + 180) % 360 - rgb_matrix_config.hsv.h) / 4;
if (deltaH > 127) { if (deltaH > 127) {
deltaH -= 256; deltaH -= 256;
} else if (deltaH < -127) { } else if (deltaH < -127) {
deltaH += 256; deltaH += 256;
} }
hsv.h = rgb_matrix_config.hue + (deltaH * (rand() & 0x03)); hsv.h = rgb_matrix_config.hsv.h + (deltaH * (rand() & 0x03));
RGB rgb = hsv_to_rgb(hsv); RGB rgb = hsv_to_rgb(hsv);
rgb_matrix_set_color(i, rgb.r, rgb.g, rgb.b); rgb_matrix_set_color(i, rgb.r, rgb.g, rgb.b);
} }

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@ -4,8 +4,7 @@ RGB_MATRIX_EFFECT(SOLID_COLOR)
bool SOLID_COLOR(effect_params_t* params) { bool SOLID_COLOR(effect_params_t* params) {
RGB_MATRIX_USE_LIMITS(led_min, led_max); RGB_MATRIX_USE_LIMITS(led_min, led_max);
HSV hsv = { rgb_matrix_config.hue, rgb_matrix_config.sat, rgb_matrix_config.val }; RGB rgb = hsv_to_rgb(rgb_matrix_config.hsv);
RGB rgb = hsv_to_rgb(hsv);
for (uint8_t i = led_min; i < led_max; i++) { for (uint8_t i = led_min; i < led_max; i++) {
RGB_MATRIX_TEST_LED_FLAGS(); RGB_MATRIX_TEST_LED_FLAGS();
rgb_matrix_set_color(i, rgb.r, rgb.g, rgb.b); rgb_matrix_set_color(i, rgb.r, rgb.g, rgb.b);

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@ -3,8 +3,9 @@
RGB_MATRIX_EFFECT(SOLID_REACTIVE) RGB_MATRIX_EFFECT(SOLID_REACTIVE)
#ifdef RGB_MATRIX_CUSTOM_EFFECT_IMPLS #ifdef RGB_MATRIX_CUSTOM_EFFECT_IMPLS
static void SOLID_REACTIVE_math(HSV* hsv, uint16_t offset) { static HSV SOLID_REACTIVE_math(HSV hsv, uint16_t offset) {
hsv->h = rgb_matrix_config.hue + qsub8(130, offset); hsv.h += qsub8(130, offset);
return hsv;
} }
bool SOLID_REACTIVE(effect_params_t* params) { bool SOLID_REACTIVE(effect_params_t* params) {

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@ -11,7 +11,7 @@ RGB_MATRIX_EFFECT(SOLID_REACTIVE_MULTICROSS)
#ifdef RGB_MATRIX_CUSTOM_EFFECT_IMPLS #ifdef RGB_MATRIX_CUSTOM_EFFECT_IMPLS
static void SOLID_REACTIVE_CROSS_math(HSV* hsv, int16_t dx, int16_t dy, uint8_t dist, uint16_t tick) { static HSV SOLID_REACTIVE_CROSS_math(HSV hsv, int16_t dx, int16_t dy, uint8_t dist, uint16_t tick) {
uint16_t effect = tick + dist; uint16_t effect = tick + dist;
dx = dx < 0 ? dx * -1 : dx; dx = dx < 0 ? dx * -1 : dx;
dy = dy < 0 ? dy * -1 : dy; dy = dy < 0 ? dy * -1 : dy;
@ -20,7 +20,8 @@ static void SOLID_REACTIVE_CROSS_math(HSV* hsv, int16_t dx, int16_t dy, uint8_t
effect += dx > dy ? dy : dx; effect += dx > dy ? dy : dx;
if (effect > 255) if (effect > 255)
effect = 255; effect = 255;
hsv->v = qadd8(hsv->v, 255 - effect); hsv.v = qadd8(hsv.v, 255 - effect);
return hsv;
} }
#ifndef DISABLE_RGB_MATRIX_SOLID_REACTIVE_CROSS #ifndef DISABLE_RGB_MATRIX_SOLID_REACTIVE_CROSS

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@ -11,7 +11,7 @@ RGB_MATRIX_EFFECT(SOLID_REACTIVE_MULTINEXUS)
#ifdef RGB_MATRIX_CUSTOM_EFFECT_IMPLS #ifdef RGB_MATRIX_CUSTOM_EFFECT_IMPLS
static void SOLID_REACTIVE_NEXUS_math(HSV* hsv, int16_t dx, int16_t dy, uint8_t dist, uint16_t tick) { static HSV SOLID_REACTIVE_NEXUS_math(HSV hsv, int16_t dx, int16_t dy, uint8_t dist, uint16_t tick) {
uint16_t effect = tick - dist; uint16_t effect = tick - dist;
if (effect > 255) if (effect > 255)
effect = 255; effect = 255;
@ -19,8 +19,9 @@ static void SOLID_REACTIVE_NEXUS_math(HSV* hsv, int16_t dx, int16_t dy, uint8_t
effect = 255; effect = 255;
if ((dx > 8 || dx < -8) && (dy > 8 || dy < -8)) if ((dx > 8 || dx < -8) && (dy > 8 || dy < -8))
effect = 255; effect = 255;
hsv->v = qadd8(hsv->v, 255 - effect); hsv.v = qadd8(hsv.v, 255 - effect);
hsv->h = rgb_matrix_config.hue + dy / 4; hsv.h = rgb_matrix_config.hsv.h + dy / 4;
return hsv;
} }
#ifndef DISABLE_RGB_MATRIX_SOLID_REACTIVE_NEXUS #ifndef DISABLE_RGB_MATRIX_SOLID_REACTIVE_NEXUS

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@ -3,8 +3,9 @@
RGB_MATRIX_EFFECT(SOLID_REACTIVE_SIMPLE) RGB_MATRIX_EFFECT(SOLID_REACTIVE_SIMPLE)
#ifdef RGB_MATRIX_CUSTOM_EFFECT_IMPLS #ifdef RGB_MATRIX_CUSTOM_EFFECT_IMPLS
static void SOLID_REACTIVE_SIMPLE_math(HSV* hsv, uint16_t offset) { static HSV SOLID_REACTIVE_SIMPLE_math(HSV hsv, uint16_t offset) {
hsv->v = scale8(255 - offset, rgb_matrix_config.val); hsv.v = scale8(255 - offset, hsv.v);
return hsv;
} }
bool SOLID_REACTIVE_SIMPLE(effect_params_t* params) { bool SOLID_REACTIVE_SIMPLE(effect_params_t* params) {

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@ -11,11 +11,12 @@ RGB_MATRIX_EFFECT(SOLID_REACTIVE_MULTIWIDE)
#ifdef RGB_MATRIX_CUSTOM_EFFECT_IMPLS #ifdef RGB_MATRIX_CUSTOM_EFFECT_IMPLS
static void SOLID_REACTIVE_WIDE_math(HSV* hsv, int16_t dx, int16_t dy, uint8_t dist, uint16_t tick) { static HSV SOLID_REACTIVE_WIDE_math(HSV hsv, int16_t dx, int16_t dy, uint8_t dist, uint16_t tick) {
uint16_t effect = tick + dist * 5; uint16_t effect = tick + dist * 5;
if (effect > 255) if (effect > 255)
effect = 255; effect = 255;
hsv->v = qadd8(hsv->v, 255 - effect); hsv.v = qadd8(hsv.v, 255 - effect);
return hsv;
} }
#ifndef DISABLE_RGB_MATRIX_SOLID_REACTIVE_WIDE #ifndef DISABLE_RGB_MATRIX_SOLID_REACTIVE_WIDE

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@ -11,11 +11,12 @@ RGB_MATRIX_EFFECT(SOLID_MULTISPLASH)
#ifdef RGB_MATRIX_CUSTOM_EFFECT_IMPLS #ifdef RGB_MATRIX_CUSTOM_EFFECT_IMPLS
void SOLID_SPLASH_math(HSV* hsv, int16_t dx, int16_t dy, uint8_t dist, uint16_t tick) { HSV SOLID_SPLASH_math(HSV hsv, int16_t dx, int16_t dy, uint8_t dist, uint16_t tick) {
uint16_t effect = tick - dist; uint16_t effect = tick - dist;
if (effect > 255) if (effect > 255)
effect = 255; effect = 255;
hsv->v = qadd8(hsv->v, 255 - effect); hsv.v = qadd8(hsv.v, 255 - effect);
return hsv;
} }
#ifndef DISABLE_RGB_MATRIX_SOLID_SPLASH #ifndef DISABLE_RGB_MATRIX_SOLID_SPLASH

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@ -11,12 +11,13 @@ RGB_MATRIX_EFFECT(MULTISPLASH)
#ifdef RGB_MATRIX_CUSTOM_EFFECT_IMPLS #ifdef RGB_MATRIX_CUSTOM_EFFECT_IMPLS
void SPLASH_math(HSV* hsv, int16_t dx, int16_t dy, uint8_t dist, uint16_t tick) { HSV SPLASH_math(HSV hsv, int16_t dx, int16_t dy, uint8_t dist, uint16_t tick) {
uint16_t effect = tick - dist; uint16_t effect = tick - dist;
if (effect > 255) if (effect > 255)
effect = 255; effect = 255;
hsv->h += effect; hsv.h += effect;
hsv->v = qadd8(hsv->v, 255 - effect); hsv.v = qadd8(hsv.v, 255 - effect);
return hsv;
} }
#ifndef DISABLE_RGB_MATRIX_SPLASH #ifndef DISABLE_RGB_MATRIX_SPLASH

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@ -59,7 +59,7 @@ bool TYPING_HEATMAP(effect_params_t* params) {
if (!HAS_ANY_FLAGS(g_led_config.flags[led[j]], params->flags)) if (!HAS_ANY_FLAGS(g_led_config.flags[led[j]], params->flags))
continue; continue;
HSV hsv = { 170 - qsub8(val, 85), rgb_matrix_config.sat, scale8((qadd8(170, val) - 170) * 3, rgb_matrix_config.val) }; HSV hsv = { 170 - qsub8(val, 85), rgb_matrix_config.hsv.s, scale8((qadd8(170, val) - 170) * 3, rgb_matrix_config.hsv.v) };
RGB rgb = hsv_to_rgb(hsv); RGB rgb = hsv_to_rgb(hsv);
rgb_matrix_set_color(led[j], rgb.r, rgb.g, rgb.b); rgb_matrix_set_color(led[j], rgb.r, rgb.g, rgb.b);
} }

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@ -1,18 +1,16 @@
#pragma once #pragma once
typedef void (*dx_dy_f)(HSV* hsv, int16_t dx, int16_t dy, uint8_t time); typedef HSV (*dx_dy_f)(HSV hsv, int16_t dx, int16_t dy, uint8_t time);
bool effect_runner_dx_dy(effect_params_t* params, dx_dy_f effect_func) { bool effect_runner_dx_dy(effect_params_t* params, dx_dy_f effect_func) {
RGB_MATRIX_USE_LIMITS(led_min, led_max); RGB_MATRIX_USE_LIMITS(led_min, led_max);
HSV hsv = { rgb_matrix_config.hue, rgb_matrix_config.sat, rgb_matrix_config.val };
uint8_t time = scale16by8(g_rgb_counters.tick, rgb_matrix_config.speed / 2); uint8_t time = scale16by8(g_rgb_counters.tick, rgb_matrix_config.speed / 2);
for (uint8_t i = led_min; i < led_max; i++) { for (uint8_t i = led_min; i < led_max; i++) {
RGB_MATRIX_TEST_LED_FLAGS(); RGB_MATRIX_TEST_LED_FLAGS();
int16_t dx = g_led_config.point[i].x - k_rgb_matrix_center.x; int16_t dx = g_led_config.point[i].x - k_rgb_matrix_center.x;
int16_t dy = g_led_config.point[i].y - k_rgb_matrix_center.y; int16_t dy = g_led_config.point[i].y - k_rgb_matrix_center.y;
effect_func(&hsv, dx, dy, time); RGB rgb = hsv_to_rgb(effect_func(rgb_matrix_config.hsv, dx, dy, time));
RGB rgb = hsv_to_rgb(hsv);
rgb_matrix_set_color(i, rgb.r, rgb.g, rgb.b); rgb_matrix_set_color(i, rgb.r, rgb.g, rgb.b);
} }
return led_max < DRIVER_LED_TOTAL; return led_max < DRIVER_LED_TOTAL;

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@ -1,19 +1,17 @@
#pragma once #pragma once
typedef void (*dx_dy_dist_f)(HSV* hsv, int16_t dx, int16_t dy, uint8_t dist, uint8_t time); typedef HSV (*dx_dy_dist_f)(HSV hsv, int16_t dx, int16_t dy, uint8_t dist, uint8_t time);
bool effect_runner_dx_dy_dist(effect_params_t* params, dx_dy_dist_f effect_func) { bool effect_runner_dx_dy_dist(effect_params_t* params, dx_dy_dist_f effect_func) {
RGB_MATRIX_USE_LIMITS(led_min, led_max); RGB_MATRIX_USE_LIMITS(led_min, led_max);
HSV hsv = { rgb_matrix_config.hue, rgb_matrix_config.sat, rgb_matrix_config.val };
uint8_t time = scale16by8(g_rgb_counters.tick, rgb_matrix_config.speed / 2); uint8_t time = scale16by8(g_rgb_counters.tick, rgb_matrix_config.speed / 2);
for (uint8_t i = led_min; i < led_max; i++) { for (uint8_t i = led_min; i < led_max; i++) {
RGB_MATRIX_TEST_LED_FLAGS(); RGB_MATRIX_TEST_LED_FLAGS();
int16_t dx = g_led_config.point[i].x - k_rgb_matrix_center.x; int16_t dx = g_led_config.point[i].x - k_rgb_matrix_center.x;
int16_t dy = g_led_config.point[i].y - k_rgb_matrix_center.y; int16_t dy = g_led_config.point[i].y - k_rgb_matrix_center.y;
uint8_t dist = sqrt16(dx * dx + dy * dy); uint8_t dist = sqrt16(dx * dx + dy * dy);
effect_func(&hsv, dx, dy, dist, time); RGB rgb = hsv_to_rgb(effect_func(rgb_matrix_config.hsv, dx, dy, dist, time));
RGB rgb = hsv_to_rgb(hsv);
rgb_matrix_set_color(i, rgb.r, rgb.g, rgb.b); rgb_matrix_set_color(i, rgb.r, rgb.g, rgb.b);
} }
return led_max < DRIVER_LED_TOTAL; return led_max < DRIVER_LED_TOTAL;

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@ -1,16 +1,14 @@
#pragma once #pragma once
typedef void (*i_f)(HSV* hsv, uint8_t i, uint8_t time); typedef HSV (*i_f)(HSV hsv, uint8_t i, uint8_t time);
bool effect_runner_i(effect_params_t* params, i_f effect_func) { bool effect_runner_i(effect_params_t* params, i_f effect_func) {
RGB_MATRIX_USE_LIMITS(led_min, led_max); RGB_MATRIX_USE_LIMITS(led_min, led_max);
HSV hsv = { rgb_matrix_config.hue, rgb_matrix_config.sat, rgb_matrix_config.val };
uint8_t time = scale16by8(g_rgb_counters.tick, rgb_matrix_config.speed / 4); uint8_t time = scale16by8(g_rgb_counters.tick, rgb_matrix_config.speed / 4);
for (uint8_t i = led_min; i < led_max; i++) { for (uint8_t i = led_min; i < led_max; i++) {
RGB_MATRIX_TEST_LED_FLAGS(); RGB_MATRIX_TEST_LED_FLAGS();
effect_func(&hsv, i, time); RGB rgb = hsv_to_rgb(effect_func(rgb_matrix_config.hsv, i, time));
RGB rgb = hsv_to_rgb(hsv);
rgb_matrix_set_color(i, rgb.r, rgb.g, rgb.b); rgb_matrix_set_color(i, rgb.r, rgb.g, rgb.b);
} }
return led_max < DRIVER_LED_TOTAL; return led_max < DRIVER_LED_TOTAL;

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@ -2,12 +2,11 @@
#ifdef RGB_MATRIX_KEYREACTIVE_ENABLED #ifdef RGB_MATRIX_KEYREACTIVE_ENABLED
typedef void (*reactive_f)(HSV* hsv, uint16_t offset); typedef HSV (*reactive_f)(HSV hsv, uint16_t offset);
bool effect_runner_reactive(effect_params_t* params, reactive_f effect_func) { bool effect_runner_reactive(effect_params_t* params, reactive_f effect_func) {
RGB_MATRIX_USE_LIMITS(led_min, led_max); RGB_MATRIX_USE_LIMITS(led_min, led_max);
HSV hsv = { rgb_matrix_config.hue, rgb_matrix_config.sat, rgb_matrix_config.val };
uint16_t max_tick = 65535 / rgb_matrix_config.speed; uint16_t max_tick = 65535 / rgb_matrix_config.speed;
for (uint8_t i = led_min; i < led_max; i++) { for (uint8_t i = led_min; i < led_max; i++) {
RGB_MATRIX_TEST_LED_FLAGS(); RGB_MATRIX_TEST_LED_FLAGS();
@ -21,8 +20,7 @@ bool effect_runner_reactive(effect_params_t* params, reactive_f effect_func) {
} }
uint16_t offset = scale16by8(tick, rgb_matrix_config.speed); uint16_t offset = scale16by8(tick, rgb_matrix_config.speed);
effect_func(&hsv, offset); RGB rgb = hsv_to_rgb(effect_func(rgb_matrix_config.hsv, offset));
RGB rgb = hsv_to_rgb(hsv);
rgb_matrix_set_color(i, rgb.r, rgb.g, rgb.b); rgb_matrix_set_color(i, rgb.r, rgb.g, rgb.b);
} }
return led_max < DRIVER_LED_TOTAL; return led_max < DRIVER_LED_TOTAL;

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@ -2,25 +2,24 @@
#ifdef RGB_MATRIX_KEYREACTIVE_ENABLED #ifdef RGB_MATRIX_KEYREACTIVE_ENABLED
typedef void (*reactive_splash_f)(HSV* hsv, int16_t dx, int16_t dy, uint8_t dist, uint16_t tick); typedef HSV (*reactive_splash_f)(HSV hsv, int16_t dx, int16_t dy, uint8_t dist, uint16_t tick);
bool effect_runner_reactive_splash(uint8_t start, effect_params_t* params, reactive_splash_f effect_func) { bool effect_runner_reactive_splash(uint8_t start, effect_params_t* params, reactive_splash_f effect_func) {
RGB_MATRIX_USE_LIMITS(led_min, led_max); RGB_MATRIX_USE_LIMITS(led_min, led_max);
HSV hsv = { 0, rgb_matrix_config.sat, 0 };
uint8_t count = g_last_hit_tracker.count; uint8_t count = g_last_hit_tracker.count;
for (uint8_t i = led_min; i < led_max; i++) { for (uint8_t i = led_min; i < led_max; i++) {
RGB_MATRIX_TEST_LED_FLAGS(); RGB_MATRIX_TEST_LED_FLAGS();
hsv.h = rgb_matrix_config.hue; HSV hsv = rgb_matrix_config.hsv;
hsv.v = 0; hsv.v = 0;
for (uint8_t j = start; j < count; j++) { for (uint8_t j = start; j < count; j++) {
int16_t dx = g_led_config.point[i].x - g_last_hit_tracker.x[j]; int16_t dx = g_led_config.point[i].x - g_last_hit_tracker.x[j];
int16_t dy = g_led_config.point[i].y - g_last_hit_tracker.y[j]; int16_t dy = g_led_config.point[i].y - g_last_hit_tracker.y[j];
uint8_t dist = sqrt16(dx * dx + dy * dy); uint8_t dist = sqrt16(dx * dx + dy * dy);
uint16_t tick = scale16by8(g_last_hit_tracker.tick[j], rgb_matrix_config.speed); uint16_t tick = scale16by8(g_last_hit_tracker.tick[j], rgb_matrix_config.speed);
effect_func(&hsv, dx, dy, dist, tick); hsv = effect_func(hsv, dx, dy, dist, tick);
} }
hsv.v = scale8(hsv.v, rgb_matrix_config.val); hsv.v = scale8(hsv.v, rgb_matrix_config.hsv.v);
RGB rgb = hsv_to_rgb(hsv); RGB rgb = hsv_to_rgb(hsv);
rgb_matrix_set_color(i, rgb.r, rgb.g, rgb.b); rgb_matrix_set_color(i, rgb.r, rgb.g, rgb.b);
} }

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@ -1,18 +1,16 @@
#pragma once #pragma once
typedef void (*sin_cos_i_f)(HSV* hsv, int8_t sin, int8_t cos, uint8_t i, uint8_t time); typedef HSV (*sin_cos_i_f)(HSV hsv, int8_t sin, int8_t cos, uint8_t i, uint8_t time);
bool effect_runner_sin_cos_i(effect_params_t* params, sin_cos_i_f effect_func) { bool effect_runner_sin_cos_i(effect_params_t* params, sin_cos_i_f effect_func) {
RGB_MATRIX_USE_LIMITS(led_min, led_max); RGB_MATRIX_USE_LIMITS(led_min, led_max);
HSV hsv = { rgb_matrix_config.hue, rgb_matrix_config.sat, rgb_matrix_config.val };
uint16_t time = scale16by8(g_rgb_counters.tick, rgb_matrix_config.speed / 4); uint16_t time = scale16by8(g_rgb_counters.tick, rgb_matrix_config.speed / 4);
int8_t cos_value = cos8(time) - 128; int8_t cos_value = cos8(time) - 128;
int8_t sin_value = sin8(time) - 128; int8_t sin_value = sin8(time) - 128;
for (uint8_t i = led_min; i < led_max; i++) { for (uint8_t i = led_min; i < led_max; i++) {
RGB_MATRIX_TEST_LED_FLAGS(); RGB_MATRIX_TEST_LED_FLAGS();
effect_func(&hsv, cos_value, sin_value, i, time); RGB rgb = hsv_to_rgb(effect_func(rgb_matrix_config.hsv, cos_value, sin_value, i, time));
RGB rgb = hsv_to_rgb(hsv);
rgb_matrix_set_color(i, rgb.r, rgb.g, rgb.b); rgb_matrix_set_color(i, rgb.r, rgb.g, rgb.b);
} }
return led_max < DRIVER_LED_TOTAL; return led_max < DRIVER_LED_TOTAL;

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@ -2,6 +2,7 @@
#include <stdint.h> #include <stdint.h>
#include <stdbool.h> #include <stdbool.h>
#include "color.h"
#if defined(__GNUC__) #if defined(__GNUC__)
#define PACKED __attribute__ ((__packed__)) #define PACKED __attribute__ ((__packed__))
@ -81,10 +82,8 @@ typedef union {
struct PACKED { struct PACKED {
uint8_t enable :2; uint8_t enable :2;
uint8_t mode :6; uint8_t mode :6;
uint8_t hue :8; HSV hsv;
uint8_t sat :8; uint8_t speed; //EECONFIG needs to be increased to support this
uint8_t val :8;
uint8_t speed :8;//EECONFIG needs to be increased to support this
}; };
} rgb_config_t; } rgb_config_t;

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@ -80,7 +80,7 @@ static void render_status(void)
oled_set_cursor(0, oled_max_lines() - 7); oled_set_cursor(0, oled_max_lines() - 7);
oled_write_P(PSTR("-----"), false); oled_write_P(PSTR("-----"), false);
static char buffer[26] = {0}; static char buffer[26] = {0};
snprintf(buffer, sizeof(buffer), "h%3d s%3d v%3d s%3d m%3d\n", rgb_matrix_config.hue, rgb_matrix_config.sat, rgb_matrix_config.val, rgb_matrix_config.speed, rgb_matrix_config.mode); snprintf(buffer, sizeof(buffer), "h%3d s%3d v%3d s%3d m%3d\n", rgb_matrix_config.hsv.h, rgb_matrix_config.hsv.s, rgb_matrix_config.hsv.v, rgb_matrix_config.speed, rgb_matrix_config.mode);
oled_write(buffer, false); oled_write(buffer, false);
#elif defined(RGBLIGHT_ENABLE) #elif defined(RGBLIGHT_ENABLE)
oled_set_cursor(0, oled_max_lines() - 7); oled_set_cursor(0, oled_max_lines() - 7);
@ -137,7 +137,7 @@ static void render_status(void)
#if defined(RGB_MATRIX_ENABLE) #if defined(RGB_MATRIX_ENABLE)
static char buffer[20] = {0}; static char buffer[20] = {0};
snprintf(buffer, sizeof(buffer), " h%3d s%3d v%3d\n", rgb_matrix_config.hue, rgb_matrix_config.sat, rgb_matrix_config.val); snprintf(buffer, sizeof(buffer), " h%3d s%3d v%3d\n", rgb_matrix_config.hsv.h, rgb_matrix_config.hsv.s, rgb_matrix_config.hsv.v);
oled_write(buffer, false); oled_write(buffer, false);
#elif defined(RGBLIGHT_ENABLE) #elif defined(RGBLIGHT_ENABLE)
static char buffer[20] = {0}; static char buffer[20] = {0};