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Add Adafruit Macropad (#17512)

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jpe230 2022-07-08 17:33:03 -05:00 committed by GitHub
parent 30f2556ae9
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137
keyboards/adafruit/macropad/config.h Normal file
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/* Copyright 2022 Jose Pablo Ramirez <jp.ramangulo@gmail.com>
*
* 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/>.
*/
#pragma once
#include "config_common.h"
/* key matrix size */
#define MATRIX_ROWS 5
#define MATRIX_COLS 3
#define VENDOR_ID 0x239A
#define PRODUCT_ID 0x0108
#define DEVICE_VER 0x0001
#define MANUFACTURER Adafruit
#define PRODUCT Macropad RP2040
/* Keyboard Matrix Assignments */
// clang-format off
#define DIRECT_PINS { \
{ NO_PIN, NO_PIN, GP0 }, \
{ GP1, GP2, GP3 }, \
{ GP4, GP5, GP6 }, \
{ GP7, GP8, GP9 }, \
{ GP10, GP11, GP12 } \
}
// clang-format on
/* OLED SPI Defines */
#define OLED_DISPLAY_128X64
#define OLED_IC OLED_IC_SH1106
/* OLED SPI Pins */
#define OLED_DC_PIN GP24
#define OLED_CS_PIN GP22
#define OLED_RST_PIN GP23
/* Shift OLED columns by 2 pixels */
#define OLED_COLUMN_OFFSET 2
/* Divisor for OLED */
#define OLED_SPI_DIVISOR 4
/* ChibiOS SPI definitions */
#define SPI_DRIVER SPID1
#define SPI_SCK_PIN GP26
#define SPI_MOSI_PIN GP27
#define SPI_MISO_PIN GP28
/* Encoders */
#define ENCODERS_PAD_A { GP18 }
#define ENCODERS_PAD_B { GP17 }
#define DEBOUNCE 5
/* Bootmagic lite */
/* (Press the Encoder button while plugging the keyboard to enter the bootloader) */
#define BOOTMAGIC_LITE_ROW 0
#define BOOTMAGIC_LITE_COLUMN 2
/* Double tap the side button to enter bootloader */
#define RP2040_BOOTLOADER_DOUBLE_TAP_RESET
#define RP2040_BOOTLOADER_DOUBLE_TAP_RESET_LED GP13
#define RP2040_BOOTLOADER_DOUBLE_TAP_RESET_TIMEOUT 500U
/* Audio (Unsupported for now)*/
// #define AUDIO_PIN GP16
// #define SPEAKER_SHUTDOWN GP14
#ifdef RGB_MATRIX_ENABLE
/* RGB Defines */
# define RGB_DI_PIN GP19
# define DRIVER_LED_TOTAL 12
# define RGBLED_NUM 12
/* Enable Framebuffer and keypress effects */
# define RGB_MATRIX_FRAMEBUFFER_EFFECTS
# define RGB_MATRIX_KEYPRESSES
# define ENABLE_RGB_MATRIX_ALPHAS_MODS
# define ENABLE_RGB_MATRIX_GRADIENT_UP_DOWN
# define ENABLE_RGB_MATRIX_GRADIENT_LEFT_RIGHT
# define ENABLE_RGB_MATRIX_BREATHING
# define ENABLE_RGB_MATRIX_BAND_SAT
# define ENABLE_RGB_MATRIX_BAND_VAL
# define ENABLE_RGB_MATRIX_BAND_PINWHEEL_SAT
# define ENABLE_RGB_MATRIX_BAND_PINWHEEL_VAL
# define ENABLE_RGB_MATRIX_BAND_SPIRAL_SAT
# define ENABLE_RGB_MATRIX_BAND_SPIRAL_VAL
# define ENABLE_RGB_MATRIX_CYCLE_ALL
# define ENABLE_RGB_MATRIX_CYCLE_LEFT_RIGHT
# define ENABLE_RGB_MATRIX_CYCLE_UP_DOWN
# define ENABLE_RGB_MATRIX_RAINBOW_MOVING_CHEVRON
# define ENABLE_RGB_MATRIX_CYCLE_OUT_IN
# define ENABLE_RGB_MATRIX_CYCLE_OUT_IN_DUAL
# define ENABLE_RGB_MATRIX_CYCLE_PINWHEEL
# define ENABLE_RGB_MATRIX_CYCLE_SPIRAL
# define ENABLE_RGB_MATRIX_DUAL_BEACON
# define ENABLE_RGB_MATRIX_RAINBOW_BEACON
# define ENABLE_RGB_MATRIX_RAINBOW_PINWHEELS
# define ENABLE_RGB_MATRIX_RAINDROPS
# define ENABLE_RGB_MATRIX_JELLYBEAN_RAINDROPS
# define ENABLE_RGB_MATRIX_HUE_BREATHING
# define ENABLE_RGB_MATRIX_HUE_PENDULUM
# define ENABLE_RGB_MATRIX_HUE_WAVE
# define ENABLE_RGB_MATRIX_PIXEL_RAIN
# define ENABLE_RGB_MATRIX_PIXEL_FLOW
# define ENABLE_RGB_MATRIX_PIXEL_FRACTAL
# define ENABLE_RGB_MATRIX_TYPING_HEATMAP
# define ENABLE_RGB_MATRIX_DIGITAL_RAIN
# define ENABLE_RGB_MATRIX_SOLID_REACTIVE_SIMPLE
# define ENABLE_RGB_MATRIX_SOLID_REACTIVE
# define ENABLE_RGB_MATRIX_SOLID_REACTIVE_WIDE
# define ENABLE_RGB_MATRIX_SOLID_REACTIVE_MULTIWIDE
# define ENABLE_RGB_MATRIX_SOLID_REACTIVE_CROSS
# define ENABLE_RGB_MATRIX_SOLID_REACTIVE_MULTICROSS
# define ENABLE_RGB_MATRIX_SOLID_REACTIVE_NEXUS
# define ENABLE_RGB_MATRIX_SOLID_REACTIVE_MULTINEXUS
# define ENABLE_RGB_MATRIX_SPLASH
# define ENABLE_RGB_MATRIX_MULTISPLASH
# define ENABLE_RGB_MATRIX_SOLID_SPLASH
# define ENABLE_RGB_MATRIX_SOLID_MULTISPLASH
#endif

28
keyboards/adafruit/macropad/halconf.h Normal file
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/* Copyright 2022 Jose Pablo Ramirez <jp.ramangulo@gmail.com>
*
* 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/>.
*/
#pragma once
#include_next <halconf.h>
#undef HAL_USE_SPI
#define HAL_USE_SPI TRUE
#undef SPI_USE_WAIT
#define SPI_USE_WAIT TRUE
#undef SPI_SELECT_MODE
#define SPI_SELECT_MODE SPI_SELECT_MODE_PAD

24
keyboards/adafruit/macropad/info.json Normal file
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{
"keyboard_name": "Adafruit Macropad RP2040",
"url": "https://learn.adafruit.com/adafruit-macropad-rp2040",
"maintainer": "Jpe230",
"layouts": {
"LAYOUT": {
"layout": [
{"label":"Mute", "x":2, "y":0},
{"label":"Enter", "x":0, "y":1},
{"label":"KC_0", "x":1, "y":1},
{"label":"BackSpace", "x":2, "y":1},
{"label":"KC_7", "x":0, "y":2},
{"label":"KC_8", "x":1, "y":2},
{"label":"KC_9", "x":2, "y":2},
{"label":"KC_4", "x":0, "y":3},
{"label":"KC_5", "x":1, "y":3},
{"label":"KC_6", "x":2, "y":3},
{"label":"KC_1", "x":0, "y":4},
{"label":"KC_2", "x":1, "y":4},
{"label":"KC_3", "x":2, "y":4}
]
}
}
}

114
keyboards/adafruit/macropad/keymaps/default/keymap.c Normal file
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/* Copyright 2022 Jose Pablo Ramirez <jp.ramangulo@gmail.com>
*
* 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/>.
*/
#include QMK_KEYBOARD_H
const uint16_t PROGMEM keymaps[][MATRIX_ROWS][MATRIX_COLS] = {
[0] = LAYOUT(
KC_MUTE,
KC_ENT, KC_0, KC_BSPC,
KC_7, KC_8, KC_9,
KC_4, KC_5, KC_6,
KC_1, KC_2, KC_3
)
};
#ifdef ENCODER_MAP_ENABLE
const uint16_t PROGMEM encoder_map[][NUM_ENCODERS][2] = {
[0] = { ENCODER_CCW_CW(KC_VOLU, KC_VOLD) },
};
#endif
#ifdef OLED_ENABLE
static void render_qmk_logo(void) {
static const char PROGMEM qmk_logo[] = {
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};
oled_write_raw_P(qmk_logo, sizeof(qmk_logo));
}
bool oled_task_user(void) {
render_qmk_logo();
return true;
}
#endif

29
keyboards/adafruit/macropad/lib/oled_driver_spi.h Normal file
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@ -0,0 +1,29 @@
/* Copyright 2022 Jose Pablo Ramirez <jp.ramangulo@gmail.com>
*
* 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/>.
*/
#pragma once
#ifndef OLED_DC_PIN
# error "The OLED driver in SPI needs a D/C pin defined"
#endif
#ifndef OLED_CS_PIN
# error "The OLED driver in SPI needs a CS pin defined"
#endif
#ifndef OLED_SPI_MODE
# define OLED_SPI_MODE 3
#endif
#ifndef OLED_SPI_DIVISOR
# define OLED_SPI_DIVISOR 2
#endif

827
keyboards/adafruit/macropad/lib/ssd1306_sh1106.c Normal file
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/*
Copyright 2019 Ryan Caltabiano <https://github.com/XScorpion2>
Copyright 2022 Jose Pablo Ramirez <jp.ramangulo@gmail.com>
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/>.
*/
#include "oled_driver.h"
#include "oled_driver_spi.h"
#include "spi_master.h"
#include <quantum.h>
#include OLED_FONT_H
#include "timer.h"
#include "print.h"
#include <string.h>
#include "progmem.h"
#include "keyboard.h"
// Used commands from spec sheet: https://cdn-shop.adafruit.com/datasheets/SSD1306.pdf
// for SH1106: https://www.velleman.eu/downloads/29/infosheets/sh1106_datasheet.pdf
// Fundamental Commands
#define CONTRAST 0x81
#define DISPLAY_ALL_ON 0xA5
#define DISPLAY_ALL_ON_RESUME 0xA4
#define NORMAL_DISPLAY 0xA6
#define INVERT_DISPLAY 0xA7
#define DISPLAY_ON 0xAF
#define DISPLAY_OFF 0xAE
#define NOP 0xE3
// Scrolling Commands
#define ACTIVATE_SCROLL 0x2F
#define DEACTIVATE_SCROLL 0x2E
#define SCROLL_RIGHT 0x26
#define SCROLL_LEFT 0x27
#define SCROLL_RIGHT_UP 0x29
#define SCROLL_LEFT_UP 0x2A
// Addressing Setting Commands
#define MEMORY_MODE 0x20
#define COLUMN_ADDR 0x21
#define PAGE_ADDR 0x22
#define PAM_SETCOLUMN_LSB 0x00
#define PAM_SETCOLUMN_MSB 0x10
#define PAM_PAGE_ADDR 0xB0 // 0xb0 -- 0xb7
// Hardware Configuration Commands
#define DISPLAY_START_LINE 0x40
#define SEGMENT_REMAP 0xA0
#define SEGMENT_REMAP_INV 0xA1
#define MULTIPLEX_RATIO 0xA8
#define COM_SCAN_INC 0xC0
#define COM_SCAN_DEC 0xC8
#define DISPLAY_OFFSET 0xD3
#define COM_PINS 0xDA
#define COM_PINS_SEQ 0x02
#define COM_PINS_ALT 0x12
#define COM_PINS_SEQ_LR 0x22
#define COM_PINS_ALT_LR 0x32
// Timing & Driving Commands
#define DISPLAY_CLOCK 0xD5
#define PRE_CHARGE_PERIOD 0xD9
#define VCOM_DETECT 0xDB
// Advance Graphic Commands
#define FADE_BLINK 0x23
#define ENABLE_FADE 0x20
#define ENABLE_BLINK 0x30
// Charge Pump Commands
#define CHARGE_PUMP 0x8D
// Misc defines
#ifndef OLED_BLOCK_COUNT
# define OLED_BLOCK_COUNT (sizeof(OLED_BLOCK_TYPE) * 8)
#endif
#ifndef OLED_BLOCK_SIZE
# define OLED_BLOCK_SIZE (OLED_MATRIX_SIZE / OLED_BLOCK_COUNT)
#endif
#define OLED_ALL_BLOCKS_MASK (((((OLED_BLOCK_TYPE)1 << (OLED_BLOCK_COUNT - 1)) - 1) << 1) | 1)
#define ARRAY_SIZE(arr) sizeof(arr)/sizeof(arr[0])
// spi defines
#define OLED_STATUS_SUCCESS SPI_STATUS_SUCCESS
void oled_spi_init(void) {
spi_init();
setPinOutput(OLED_CS_PIN);
writePinHigh(OLED_CS_PIN);
setPinOutput(OLED_DC_PIN);
writePinLow(OLED_DC_PIN);
}
void oled_spi_start(void) {
spi_start(OLED_CS_PIN, false, OLED_SPI_MODE, OLED_SPI_DIVISOR);
}
void oled_spi_stop(void) {
spi_stop();
}
// Transmit/Write Funcs.
bool oled_cmd(const uint8_t *data, uint16_t size) {
oled_spi_start();
// Command Mode
writePinLow(OLED_DC_PIN);
// Send the commands
if(spi_transmit(data, size) != OLED_STATUS_SUCCESS){
oled_spi_stop();
return false;
}
oled_spi_stop();
return true;
}
bool oled_cmd_p(const uint8_t *data, uint16_t size) {
return oled_cmd(data, size);
}
bool oled_write_reg(const uint8_t *data, uint16_t size)
{
oled_spi_start();
// Command Mode
writePinHigh(OLED_DC_PIN);
// Send the commands
if(spi_transmit(data, size) != OLED_STATUS_SUCCESS){
oled_spi_stop();
return false;
}
oled_spi_stop();
return true;
}
#define HAS_FLAGS(bits, flags) ((bits & flags) == flags)
// Display buffer's is the same as the OLED memory layout
// this is so we don't end up with rounding errors with
// parts of the display unusable or don't get cleared correctly
// and also allows for drawing & inverting
uint8_t oled_buffer[OLED_MATRIX_SIZE];
uint8_t * oled_cursor;
OLED_BLOCK_TYPE oled_dirty = 0;
bool oled_initialized = false;
bool oled_active = false;
bool oled_scrolling = false;
bool oled_inverted = false;
uint8_t oled_brightness = OLED_BRIGHTNESS;
oled_rotation_t oled_rotation = 0;
uint8_t oled_rotation_width = 0;
uint8_t oled_scroll_speed = 0; // this holds the speed after being remapped to ssd1306 internal values
uint8_t oled_scroll_start = 0;
uint8_t oled_scroll_end = 7;
#if OLED_TIMEOUT > 0
uint32_t oled_timeout;
#endif
#if OLED_SCROLL_TIMEOUT > 0
uint32_t oled_scroll_timeout;
#endif
#if OLED_UPDATE_INTERVAL > 0
uint16_t oled_update_timeout;
#endif
// Flips the rendering bits for a character at the current cursor position
static void InvertCharacter(uint8_t *cursor) {
const uint8_t *end = cursor + OLED_FONT_WIDTH;
while (cursor < end) {
*cursor = ~(*cursor);
cursor++;
}
}
bool oled_init(oled_rotation_t rotation) {
oled_rotation = oled_init_user(oled_init_kb(rotation));
if (!HAS_FLAGS(oled_rotation, OLED_ROTATION_90)) {
oled_rotation_width = OLED_DISPLAY_WIDTH;
} else {
oled_rotation_width = OLED_DISPLAY_HEIGHT;
}
oled_spi_init();
#ifdef OLED_RST_PIN
/* Reset device */
setPinOutput(OLED_RST_PIN);
writePinLow(OLED_RST_PIN);
wait_ms(20);
writePinHigh(OLED_RST_PIN);
wait_ms(20);
#endif
static const uint8_t PROGMEM display_setup1[] = {
DISPLAY_OFF,
DISPLAY_CLOCK,
0x80,
MULTIPLEX_RATIO,
OLED_DISPLAY_HEIGHT - 1,
DISPLAY_OFFSET,
0x00,
DISPLAY_START_LINE | 0x00,
CHARGE_PUMP,
0x14,
#if (OLED_IC != OLED_IC_SH1106)
// MEMORY_MODE is unsupported on SH1106 (Page Addressing only)
MEMORY_MODE,
0x00, // Horizontal addressing mode
#endif
};
if (!oled_cmd_p(display_setup1, ARRAY_SIZE(display_setup1))) {
print("oled_init cmd set 1 failed\n");
return false;
}
if (!HAS_FLAGS(oled_rotation, OLED_ROTATION_180)) {
static const uint8_t PROGMEM display_normal[] = {SEGMENT_REMAP_INV, COM_SCAN_DEC};
if (!oled_cmd_p(display_normal, ARRAY_SIZE(display_normal))) {
print("oled_init cmd normal rotation failed\n");
return false;
}
} else {
static const uint8_t PROGMEM display_flipped[] = {SEGMENT_REMAP, COM_SCAN_INC};
if (!oled_cmd_p(display_flipped, ARRAY_SIZE(display_flipped))) {
print("display_flipped failed\n");
return false;
}
}
static const uint8_t PROGMEM display_setup2[] = {COM_PINS, OLED_COM_PINS, CONTRAST, OLED_BRIGHTNESS, PRE_CHARGE_PERIOD, 0xF1, VCOM_DETECT, 0x20, DISPLAY_ALL_ON_RESUME, NORMAL_DISPLAY, DEACTIVATE_SCROLL, DISPLAY_ON};
if (!oled_cmd_p(display_setup2, ARRAY_SIZE(display_setup2))) {
print("display_setup2 failed\n");
return false;
}
#if OLED_TIMEOUT > 0
oled_timeout = timer_read32() + OLED_TIMEOUT;
#endif
#if OLED_SCROLL_TIMEOUT > 0
oled_scroll_timeout = timer_read32() + OLED_SCROLL_TIMEOUT;
#endif
oled_clear();
oled_initialized = true;
oled_active = true;
oled_scrolling = false;
return true;
}
__attribute__((weak)) oled_rotation_t oled_init_kb(oled_rotation_t rotation) {
return rotation;
}
__attribute__((weak)) oled_rotation_t oled_init_user(oled_rotation_t rotation) {
return rotation;
}
void oled_clear(void) {
memset(oled_buffer, 0, sizeof(oled_buffer));
oled_cursor = &oled_buffer[0];
oled_dirty = OLED_ALL_BLOCKS_MASK;
}
static void calc_bounds(uint8_t update_start, uint8_t *cmd_array) {
// Calculate commands to set memory addressing bounds.
uint8_t start_page = OLED_BLOCK_SIZE * update_start / OLED_DISPLAY_WIDTH;
uint8_t start_column = OLED_BLOCK_SIZE * update_start % OLED_DISPLAY_WIDTH;
#if (OLED_IC == OLED_IC_SH1106)
// Commands for Page Addressing Mode. Sets starting page and column; has no end bound.
// Column value must be split into high and low nybble and sent as two commands.
cmd_array[0] = PAM_PAGE_ADDR | start_page;
cmd_array[1] = PAM_SETCOLUMN_LSB | ((OLED_COLUMN_OFFSET + start_column) & 0x0f);
cmd_array[2] = PAM_SETCOLUMN_MSB | ((OLED_COLUMN_OFFSET + start_column) >> 4 & 0x0f);
cmd_array[3] = NOP;
cmd_array[4] = NOP;
cmd_array[5] = NOP;
#else
// Commands for use in Horizontal Addressing mode.
cmd_array[1] = start_column;
cmd_array[4] = start_page;
cmd_array[2] = (OLED_BLOCK_SIZE + OLED_DISPLAY_WIDTH - 1) % OLED_DISPLAY_WIDTH + cmd_array[1];
cmd_array[5] = (OLED_BLOCK_SIZE + OLED_DISPLAY_WIDTH - 1) / OLED_DISPLAY_WIDTH - 1;
#endif
}
static void calc_bounds_90(uint8_t update_start, uint8_t *cmd_array) {
cmd_array[1] = OLED_BLOCK_SIZE * update_start / OLED_DISPLAY_HEIGHT * 8;
cmd_array[4] = OLED_BLOCK_SIZE * update_start % OLED_DISPLAY_HEIGHT;
cmd_array[2] = (OLED_BLOCK_SIZE + OLED_DISPLAY_HEIGHT - 1) / OLED_DISPLAY_HEIGHT * 8 - 1 + cmd_array[1];
;
cmd_array[5] = (OLED_BLOCK_SIZE + OLED_DISPLAY_HEIGHT - 1) % OLED_DISPLAY_HEIGHT / 8;
}
uint8_t crot(uint8_t a, int8_t n) {
const uint8_t mask = 0x7;
n &= mask;
return a << n | a >> (-n & mask);
}
static void rotate_90(const uint8_t *src, uint8_t *dest) {
for (uint8_t i = 0, shift = 7; i < 8; ++i, --shift) {
uint8_t selector = (1 << i);
for (uint8_t j = 0; j < 8; ++j) {
dest[i] |= crot(src[j] & selector, shift - (int8_t)j);
}
}
}
void oled_render(void) {
if (!oled_initialized) {
return;
}
// Do we have work to do?
oled_dirty &= OLED_ALL_BLOCKS_MASK;
if (!oled_dirty || oled_scrolling) {
return;
}
// Find first dirty block
uint8_t update_start = 0;
while (!(oled_dirty & ((OLED_BLOCK_TYPE)1 << update_start))) {
++update_start;
}
// Set column & page position
static uint8_t display_start[] = {COLUMN_ADDR, 0, OLED_DISPLAY_WIDTH - 1, PAGE_ADDR, 0, OLED_DISPLAY_HEIGHT / 8 - 1};
if (!HAS_FLAGS(oled_rotation, OLED_ROTATION_90)) {
calc_bounds(update_start, display_start);
} else {
calc_bounds_90(update_start, display_start);
}
// Send column & page position
if (!oled_cmd(display_start, ARRAY_SIZE(display_start))) {
print("oled_render offset command failed\n");
return;
}
if (!HAS_FLAGS(oled_rotation, OLED_ROTATION_90)) {
// Send render data chunk as is
if (!oled_write_reg(&oled_buffer[OLED_BLOCK_SIZE * update_start], OLED_BLOCK_SIZE)) {
print("oled_render data failed\n");
return;
}
} else {
// Rotate the render chunks
const static uint8_t source_map[] = OLED_SOURCE_MAP;
const static uint8_t target_map[] = OLED_TARGET_MAP;
static uint8_t temp_buffer[OLED_BLOCK_SIZE];
memset(temp_buffer, 0, sizeof(temp_buffer));
for (uint8_t i = 0; i < sizeof(source_map); ++i) {
rotate_90(&oled_buffer[OLED_BLOCK_SIZE * update_start + source_map[i]], &temp_buffer[target_map[i]]);
}
// Send render data chunk after rotating
if (!oled_write_reg(temp_buffer, OLED_BLOCK_SIZE)) {
print("oled_render90 data failed\n");
return;
}
}
// Turn on display if it is off
oled_on();
// Clear dirty flag
oled_dirty &= ~((OLED_BLOCK_TYPE)1 << update_start);
}
void oled_set_cursor(uint8_t col, uint8_t line) {
uint16_t index = line * oled_rotation_width + col * OLED_FONT_WIDTH;
// Out of bounds?
if (index >= OLED_MATRIX_SIZE) {
index = 0;
}
oled_cursor = &oled_buffer[index];
}
void oled_advance_page(bool clearPageRemainder) {
uint16_t index = oled_cursor - &oled_buffer[0];
uint8_t remaining = oled_rotation_width - (index % oled_rotation_width);
if (clearPageRemainder) {
// Remaining Char count
remaining = remaining / OLED_FONT_WIDTH;
// Write empty character until next line
while (remaining--)
oled_write_char(' ', false);
} else {
// Next page index out of bounds?
if (index + remaining >= OLED_MATRIX_SIZE) {
index = 0;
remaining = 0;
}
oled_cursor = &oled_buffer[index + remaining];
}
}
void oled_advance_char(void) {
uint16_t nextIndex = oled_cursor - &oled_buffer[0] + OLED_FONT_WIDTH;
uint8_t remainingSpace = oled_rotation_width - (nextIndex % oled_rotation_width);
// Do we have enough space on the current line for the next character
if (remainingSpace < OLED_FONT_WIDTH) {
nextIndex += remainingSpace;
}
// Did we go out of bounds
if (nextIndex >= OLED_MATRIX_SIZE) {
nextIndex = 0;
}
// Update cursor position
oled_cursor = &oled_buffer[nextIndex];
}
// Main handler that writes character data to the display buffer
void oled_write_char(const char data, bool invert) {
// Advance to the next line if newline
if (data == '\n') {
// Old source wrote ' ' until end of line...
oled_advance_page(true);
return;
}
if (data == '\r') {
oled_advance_page(false);
return;
}
// copy the current render buffer to check for dirty after
static uint8_t oled_temp_buffer[OLED_FONT_WIDTH];
memcpy(&oled_temp_buffer, oled_cursor, OLED_FONT_WIDTH);
_Static_assert(sizeof(font) >= ((OLED_FONT_END + 1 - OLED_FONT_START) * OLED_FONT_WIDTH), "OLED_FONT_END references outside array");
// set the reder buffer data
uint8_t cast_data = (uint8_t)data; // font based on unsigned type for index
if (cast_data < OLED_FONT_START || cast_data > OLED_FONT_END) {
memset(oled_cursor, 0x00, OLED_FONT_WIDTH);
} else {
const uint8_t *glyph = &font[(cast_data - OLED_FONT_START) * OLED_FONT_WIDTH];
memcpy_P(oled_cursor, glyph, OLED_FONT_WIDTH);
}
// Invert if needed
if (invert) {
InvertCharacter(oled_cursor);
}
// Dirty check
if (memcmp(&oled_temp_buffer, oled_cursor, OLED_FONT_WIDTH)) {
uint16_t index = oled_cursor - &oled_buffer[0];
oled_dirty |= ((OLED_BLOCK_TYPE)1 << (index / OLED_BLOCK_SIZE));
// Edgecase check if the written data spans the 2 chunks
oled_dirty |= ((OLED_BLOCK_TYPE)1 << ((index + OLED_FONT_WIDTH - 1) / OLED_BLOCK_SIZE));
}
// Finally move to the next char
oled_advance_char();
}
void oled_write(const char *data, bool invert) {
const char *end = data + strlen(data);
while (data < end) {
oled_write_char(*data, invert);
data++;
}
}
void oled_write_ln(const char *data, bool invert) {
oled_write(data, invert);
oled_advance_page(true);
}
void oled_pan(bool left) {
uint16_t i = 0;
for (uint16_t y = 0; y < OLED_DISPLAY_HEIGHT / 8; y++) {
if (left) {
for (uint16_t x = 0; x < OLED_DISPLAY_WIDTH - 1; x++) {
i = y * OLED_DISPLAY_WIDTH + x;
oled_buffer[i] = oled_buffer[i + 1];
}
} else {
for (uint16_t x = OLED_DISPLAY_WIDTH - 1; x > 0; x--) {
i = y * OLED_DISPLAY_WIDTH + x;
oled_buffer[i] = oled_buffer[i - 1];
}
}
}
oled_dirty = OLED_ALL_BLOCKS_MASK;
}
oled_buffer_reader_t oled_read_raw(uint16_t start_index) {
if (start_index > OLED_MATRIX_SIZE) start_index = OLED_MATRIX_SIZE;
oled_buffer_reader_t ret_reader;
ret_reader.current_element = &oled_buffer[start_index];
ret_reader.remaining_element_count = OLED_MATRIX_SIZE - start_index;
return ret_reader;
}
void oled_write_raw_byte(const char data, uint16_t index) {
if (index > OLED_MATRIX_SIZE) index = OLED_MATRIX_SIZE;
if (oled_buffer[index] == data) return;
oled_buffer[index] = data;
oled_dirty |= ((OLED_BLOCK_TYPE)1 << (index / OLED_BLOCK_SIZE));
}
void oled_write_raw(const char *data, uint16_t size) {
uint16_t cursor_start_index = oled_cursor - &oled_buffer[0];
if ((size + cursor_start_index) > OLED_MATRIX_SIZE) size = OLED_MATRIX_SIZE - cursor_start_index;
for (uint16_t i = cursor_start_index; i < cursor_start_index + size; i++) {
uint8_t c = *data++;
if (oled_buffer[i] == c) continue;
oled_buffer[i] = c;
oled_dirty |= ((OLED_BLOCK_TYPE)1 << (i / OLED_BLOCK_SIZE));
}
}
void oled_write_pixel(uint8_t x, uint8_t y, bool on) {
if (x >= oled_rotation_width) {
return;
}
uint16_t index = x + (y / 8) * oled_rotation_width;
if (index >= OLED_MATRIX_SIZE) {
return;
}
uint8_t data = oled_buffer[index];
if (on) {
data |= (1 << (y % 8));
} else {
data &= ~(1 << (y % 8));
}
if (oled_buffer[index] != data) {
oled_buffer[index] = data;
oled_dirty |= ((OLED_BLOCK_TYPE)1 << (index / OLED_BLOCK_SIZE));
}
}
#if defined(__AVR__)
void oled_write_P(const char *data, bool invert) {
uint8_t c = pgm_read_byte(data);
while (c != 0) {
oled_write_char(c, invert);
c = pgm_read_byte(++data);
}
}
void oled_write_ln_P(const char *data, bool invert) {
oled_write_P(data, invert);
oled_advance_page(true);
}
void oled_write_raw_P(const char *data, uint16_t size) {
uint16_t cursor_start_index = oled_cursor - &oled_buffer[0];
if ((size + cursor_start_index) > OLED_MATRIX_SIZE) size = OLED_MATRIX_SIZE - cursor_start_index;
for (uint16_t i = cursor_start_index; i < cursor_start_index + size; i++) {
uint8_t c = pgm_read_byte(data++);
if (oled_buffer[i] == c) continue;
oled_buffer[i] = c;
oled_dirty |= ((OLED_BLOCK_TYPE)1 << (i / OLED_BLOCK_SIZE));
}
}
#endif // defined(__AVR__)
bool oled_on(void) {
if (!oled_initialized) {
return oled_active;
}
#if OLED_TIMEOUT > 0
oled_timeout = timer_read32() + OLED_TIMEOUT;
#endif
static const uint8_t PROGMEM display_on[] =
#ifdef OLED_FADE_OUT
{FADE_BLINK, 0x00};
#else
{DISPLAY_ON};
#endif
if (!oled_active) {
if (!oled_cmd_p(display_on, ARRAY_SIZE(display_on))) {
print("oled_on cmd failed\n");
return oled_active;
}
oled_active = true;
}
return oled_active;
}
bool oled_off(void) {
if (!oled_initialized) {
return !oled_active;
}
static const uint8_t PROGMEM display_off[] =
#ifdef OLED_FADE_OUT
{FADE_BLINK, ENABLE_FADE | OLED_FADE_OUT_INTERVAL};
#else
{DISPLAY_OFF};
#endif
if (oled_active) {
if (!oled_cmd_p(display_off, ARRAY_SIZE(display_off))) {
print("oled_off cmd failed\n");
return oled_active;
}
oled_active = false;
}
return !oled_active;
}
bool is_oled_on(void) {
return oled_active;
}
uint8_t oled_set_brightness(uint8_t level) {
if (!oled_initialized) {
return oled_brightness;
}
uint8_t set_contrast[] = { CONTRAST, level};
if (oled_brightness != level) {
if (!oled_cmd(set_contrast, ARRAY_SIZE(set_contrast))) {
print("set_brightness cmd failed\n");
return oled_brightness;
}
oled_brightness = level;
}
return oled_brightness;
}
uint8_t oled_get_brightness(void) {
return oled_brightness;
}
// Set the specific 8 lines rows of the screen to scroll.
// 0 is the default for start, and 7 for end, which is the entire
// height of the screen. For 128x32 screens, rows 4-7 are not used.
void oled_scroll_set_area(uint8_t start_line, uint8_t end_line) {
oled_scroll_start = start_line;
oled_scroll_end = end_line;
}
void oled_scroll_set_speed(uint8_t speed) {
// Sets the speed for scrolling... does not take effect
// until scrolling is either started or restarted
// the ssd1306 supports 8 speeds
// FrameRate2 speed = 7
// FrameRate3 speed = 4
// FrameRate4 speed = 5
// FrameRate5 speed = 0
// FrameRate25 speed = 6
// FrameRate64 speed = 1
// FrameRate128 speed = 2
// FrameRate256 speed = 3
// for ease of use these are remaped here to be in order
static const uint8_t scroll_remap[8] = {7, 4, 5, 0, 6, 1, 2, 3};
oled_scroll_speed = scroll_remap[speed];
}
bool oled_scroll_right(void) {
if (!oled_initialized) {
return oled_scrolling;
}
// Dont enable scrolling if we need to update the display
// This prevents scrolling of bad data from starting the scroll too early after init
if (!oled_dirty && !oled_scrolling) {
uint8_t display_scroll_right[] = {SCROLL_RIGHT, 0x00, oled_scroll_start, oled_scroll_speed, oled_scroll_end, 0x00, 0xFF, ACTIVATE_SCROLL};
if (!oled_cmd(display_scroll_right, ARRAY_SIZE(display_scroll_right))) {
print("oled_scroll_right cmd failed\n");
return oled_scrolling;
}
oled_scrolling = true;
}
return oled_scrolling;
}
bool oled_scroll_left(void) {
if (!oled_initialized) {
return oled_scrolling;
}
// Dont enable scrolling if we need to update the display
// This prevents scrolling of bad data from starting the scroll too early after init
if (!oled_dirty && !oled_scrolling) {
uint8_t display_scroll_left[] = {SCROLL_LEFT, 0x00, oled_scroll_start, oled_scroll_speed, oled_scroll_end, 0x00, 0xFF, ACTIVATE_SCROLL};
if (!oled_cmd(display_scroll_left, ARRAY_SIZE(display_scroll_left))) {
print("oled_scroll_left cmd failed\n");
return oled_scrolling;
}
oled_scrolling = true;
}
return oled_scrolling;
}
bool oled_scroll_off(void) {
if (!oled_initialized) {
return !oled_scrolling;
}
if (oled_scrolling) {
static const uint8_t PROGMEM display_scroll_off[] = {DEACTIVATE_SCROLL};
if (!oled_cmd_p(display_scroll_off, ARRAY_SIZE(display_scroll_off))) {
print("oled_scroll_off cmd failed\n");
return oled_scrolling;
}
oled_scrolling = false;
oled_dirty = OLED_ALL_BLOCKS_MASK;
}
return !oled_scrolling;
}
bool is_oled_scrolling(void) {
return oled_scrolling;
}
bool oled_invert(bool invert) {
if (!oled_initialized) {
return oled_inverted;
}
if (invert && !oled_inverted) {
static const uint8_t PROGMEM display_inverted[] = {INVERT_DISPLAY};
if (!oled_cmd_p(display_inverted, ARRAY_SIZE(display_inverted))) {
print("oled_invert cmd failed\n");
return oled_inverted;
}
oled_inverted = true;
} else if (!invert && oled_inverted) {
static const uint8_t PROGMEM display_normal[] = {NORMAL_DISPLAY};
if (!oled_cmd_p(display_normal, ARRAY_SIZE(display_normal))) {
print("oled_invert cmd failed\n");
return oled_inverted;
}
oled_inverted = false;
}
return oled_inverted;
}
uint8_t oled_max_chars(void) {
if (!HAS_FLAGS(oled_rotation, OLED_ROTATION_90)) {
return OLED_DISPLAY_WIDTH / OLED_FONT_WIDTH;
}
return OLED_DISPLAY_HEIGHT / OLED_FONT_WIDTH;
}
uint8_t oled_max_lines(void) {
if (!HAS_FLAGS(oled_rotation, OLED_ROTATION_90)) {
return OLED_DISPLAY_HEIGHT / OLED_FONT_HEIGHT;
}
return OLED_DISPLAY_WIDTH / OLED_FONT_HEIGHT;
}
void oled_task(void) {
if (!oled_initialized) {
return;
}
#if OLED_UPDATE_INTERVAL > 0
if (timer_elapsed(oled_update_timeout) >= OLED_UPDATE_INTERVAL) {
oled_update_timeout = timer_read();
oled_set_cursor(0, 0);
oled_task_kb();
}
#else
oled_set_cursor(0, 0);
oled_task_kb();
#endif
#if OLED_SCROLL_TIMEOUT > 0
if (oled_dirty && oled_scrolling) {
oled_scroll_timeout = timer_read32() + OLED_SCROLL_TIMEOUT;
oled_scroll_off();
}
#endif
// Smart render system, no need to check for dirty
oled_render();
// Display timeout check
#if OLED_TIMEOUT > 0
if (oled_active && timer_expired32(timer_read32(), oled_timeout)) {
oled_off();
}
#endif
#if OLED_SCROLL_TIMEOUT > 0
if (!oled_scrolling && timer_expired32(timer_read32(), oled_scroll_timeout)) {
# ifdef OLED_SCROLL_TIMEOUT_RIGHT
oled_scroll_right();
# else
oled_scroll_left();
# endif
}
#endif
}
__attribute__((weak)) bool oled_task_kb(void) {
return oled_task_user();
}
__attribute__((weak)) bool oled_task_user(void) {
return true;
}

56
keyboards/adafruit/macropad/macropad.c Normal file
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/* Copyright 2022 Jose Pablo Ramirez <jp.ramangulo@gmail.com>
*
* 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/>.
*/
#include "macropad.h"
#ifdef RGB_MATRIX_ENABLE
#define NA NO_LED
/* RGB Positioning */
led_config_t g_led_config = { {
{ NA, NA, NA },
{ 0, 1, 2 },
{ 3, 4, 5 },
{ 6, 7, 8 },
{ 9, 10, 11 }
}, {
{ 0, 0 }, { 112, 0 }, { 224, 0},
{ 0, 21 }, { 112, 21 }, { 224, 21},
{ 0, 42 }, { 112, 42 }, { 224, 42},
{ 0, 64 }, { 112, 64 }, { 224, 64}
}, {
4, 4, 4,
4, 4, 4,
4, 4, 4,
4, 4, 4
} };
#endif
#ifdef ENCODER_ENABLE
bool encoder_update_kb(uint8_t index, bool clockwise) {
if (!encoder_update_user(index, clockwise)) { return false; }
if (index == 0) {
if (clockwise) {
tap_code_delay(KC_VOLU, 10);
} else {
tap_code_delay(KC_VOLD, 10);
}
}
return true;
}
#endif

38
keyboards/adafruit/macropad/macropad.h Normal file
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/* Copyright 2022 Jose Pablo Ramirez <jp.ramangulo@gmail.com>
*
* 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/>.
*/
#pragma once
#include "quantum.h"
#define ___ KC_NO
// clang-format off
#define LAYOUT( \
K02, \
K10, K11, K12, \
K20, K21, K22, \
K30, K31, K32, \
K40, K41, K42 \
) \
{ \
{ ___, ___, K02 }, \
{ K10, K11, K12 }, \
{ K20, K21, K22 }, \
{ K30, K31, K32 }, \
{ K40, K41, K42 } \
}
// clang-format on

22
keyboards/adafruit/macropad/mcuconf.h Normal file
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/* Copyright 2022 Jose Pablo Ramirez <jp.ramangulo@gmail.com>
*
* 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/>.
*/
#pragma once
#include_next <mcuconf.h>
#undef RP_SPI_USE_SPI1
#define RP_SPI_USE_SPI1 TRUE

37
keyboards/adafruit/macropad/readme.md Normal file
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# Adafruit MacroPad RP2040
![AdafruitMacropad](https://i.imgur.com/dSBSwcJh.jpeg)
A RP2040-powered Macropad with a 3x4 layout.
- Keyboard Maintainer: [Jpe230](https://github.com/jpe230/)
- Hardware Supported: Adafruit MacroPad RP2040
- Hardware Availability: [Barebones kit](https://www.adafruit.com/product/5100) [Starter Kit](https://www.adafruit.com/product/5128)
Make example for this board (after setting up your build environment):
```sh
qmk compile -kb adafruit/macropad -km default
```
See the [build environment setup](https://docs.qmk.fm/#/getting_started_build_tools) and the [make instructions](https://docs.qmk.fm/#/getting_started_make_guide) for more information. Brand new to QMK? Start with our [Complete Newbs Guide](https://docs.qmk.fm/#/newbs).
## Features
- Raspberry Pi RP2040 Chip + 8MB Flash memory - Dual-core Cortex M0+ at ~130MHz with 264KB of RAM.
- 3x4 Mechanical key switch sockets - accepts any Cherry MX-compatible switches. Individually tied to GPIO pins (not matrix wired)
- One NeoPixel RGB LED per switch, on north side.
- Rotary encoder, 20 detents per rotation, with push-switch on GPIO pin. Push switch is also used for entering bootloader mode when held down on power-up or reset.
- 128x64 SH1106 Monochrome OLED display - On high-speed hardware SPI port for quick updates.
- 8mm Speaker/Buzzer - With Class D amplifier and RC filter, can be used to make simple beeps and sounds effects. (Unsupported for now)
- STEMMA QT Connector - Allows adding any I2C sensors/displays/devices with plug-and-play cables.
- Reset button - On the side, for quick restarting, press it twice to enter bootloader.
- Four M3 mounting bosses - Make custom enclosures easily.
## Bootloader
Enter the bootloader in 3 ways:
* **Bootmagic reset**: Hold down the rotary encoder push-button on power-up or reset.
* **Physical reset button**: Press twice the button on the side while the board is connected.
* **Keycode in layout**: Press the key mapped to `QK_BOOT` if it is available.

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keyboards/adafruit/macropad/rules.mk Normal file
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# MCU name
MCU = RP2040
# Bootloader selection
BOOTLOADER = rp2040
# Build Options
# change yes to no to disable
#
BOOTMAGIC_ENABLE = yes # Enable Bootmagic Lite
MOUSEKEY_ENABLE = no # Mouse keys
EXTRAKEY_ENABLE = yes # Audio control and System control
CONSOLE_ENABLE = no # Console for debug
COMMAND_ENABLE = no # Commands for debug and configuration
NKRO_ENABLE = yes # Enable N-Key Rollover
BACKLIGHT_ENABLE = no # Enable keyboard backlight functionality
RGBLIGHT_ENABLE = no # Enable keyboard RGB underglow
AUDIO_ENABLE = no # Audio output
# AUDIO_DRIVER = pwm_software
ENCODER_ENABLE = yes
RGB_MATRIX_ENABLE = yes
RGB_MATRIX_DRIVER = WS2812
WS2812_DRIVER = vendor
OLED_ENABLE = yes
OLED_DRIVER = custom
# Project specific files
SRC += lib/ssd1306_sh1106.c
QUANTUM_LIB_SRC += spi_master.c