circuitpython/shared-module/displayio/EPaperDisplay.c

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/*
* This file is part of the MicroPython project, http://micropython.org/
*
* The MIT License (MIT)
*
* Copyright (c) 2019 Scott Shawcroft for Adafruit Industries
*
* Permission is hereby granted, free of charge, to any person obtaining a copy
* of this software and associated documentation files (the "Software"), to deal
* in the Software without restriction, including without limitation the rights
* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
* copies of the Software, and to permit persons to whom the Software is
* furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in
* all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
* THE SOFTWARE.
*/
#include "shared-bindings/displayio/EPaperDisplay.h"
#include "py/gc.h"
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#include "py/runtime.h"
#include "shared/runtime/interrupt_char.h"
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#include "shared-bindings/displayio/ColorConverter.h"
#include "shared-bindings/displayio/FourWire.h"
#include "shared-bindings/displayio/I2CDisplay.h"
#if CIRCUITPY_PARALLELDISPLAY
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#include "shared-bindings/paralleldisplay/ParallelBus.h"
#endif
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#include "shared-bindings/microcontroller/Pin.h"
#include "shared-bindings/time/__init__.h"
#include "shared-module/displayio/__init__.h"
#include "supervisor/shared/display.h"
#include "supervisor/shared/tick.h"
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#include "supervisor/usb.h"
#include <stdint.h>
#include <string.h>
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#define DELAY 0x80
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void common_hal_displayio_epaperdisplay_construct(displayio_epaperdisplay_obj_t *self,
mp_obj_t bus, const uint8_t *start_sequence, uint16_t start_sequence_len, mp_float_t start_up_time,
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const uint8_t *stop_sequence, uint16_t stop_sequence_len,
uint16_t width, uint16_t height, uint16_t ram_width, uint16_t ram_height,
int16_t colstart, int16_t rowstart, uint16_t rotation,
uint16_t set_column_window_command, uint16_t set_row_window_command,
uint16_t set_current_column_command, uint16_t set_current_row_command,
uint16_t write_black_ram_command, bool black_bits_inverted,
uint16_t write_color_ram_command, bool color_bits_inverted, uint32_t highlight_color,
const uint8_t *refresh_sequence, uint16_t refresh_sequence_len, mp_float_t refresh_time,
const mcu_pin_obj_t *busy_pin, bool busy_state, mp_float_t seconds_per_frame,
bool chip_select, bool grayscale, bool acep, bool two_byte_sequence_length, bool address_little_endian) {
uint16_t color_depth = 1;
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bool core_grayscale = true;
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if (highlight_color != 0x000000) {
self->core.colorspace.tricolor = true;
self->core.colorspace.tricolor_hue = displayio_colorconverter_compute_hue(highlight_color);
self->core.colorspace.tricolor_luma = displayio_colorconverter_compute_luma(highlight_color);
} else {
self->core.colorspace.tricolor = false;
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}
self->acep = acep;
self->core.colorspace.sevencolor = acep;
if (acep) {
color_depth = 4; // bits. 7 colors + clean
grayscale = false;
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core_grayscale = false;
}
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displayio_display_core_construct(&self->core, bus, width, height, ram_width, ram_height,
colstart, rowstart, rotation, color_depth, core_grayscale, true, 1, true, true,
set_column_window_command, set_row_window_command, set_current_column_command, set_current_row_command,
false /* data_as_commands */, chip_select,
false /* SH1107_addressing */, address_little_endian);
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self->write_black_ram_command = write_black_ram_command;
self->black_bits_inverted = black_bits_inverted;
self->write_color_ram_command = write_color_ram_command;
self->color_bits_inverted = color_bits_inverted;
self->refresh_time = refresh_time * 1000;
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self->busy_state = busy_state;
self->refreshing = false;
self->milliseconds_per_frame = seconds_per_frame * 1000;
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self->chip_select = chip_select ? CHIP_SELECT_TOGGLE_EVERY_BYTE : CHIP_SELECT_UNTOUCHED;
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self->grayscale = grayscale;
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self->start_sequence = start_sequence;
self->start_sequence_len = start_sequence_len;
self->start_up_time_ms = start_up_time * 1000;
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self->stop_sequence = stop_sequence;
self->stop_sequence_len = stop_sequence_len;
self->refresh_sequence = refresh_sequence;
self->refresh_sequence_len = refresh_sequence_len;
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self->busy.base.type = &mp_type_NoneType;
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self->two_byte_sequence_length = two_byte_sequence_length;
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if (busy_pin != NULL) {
self->busy.base.type = &digitalio_digitalinout_type;
common_hal_digitalio_digitalinout_construct(&self->busy, busy_pin);
common_hal_never_reset_pin(busy_pin);
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}
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// Clear the color memory if it isn't in use.
if (highlight_color == 0x00 && write_color_ram_command != NO_COMMAND) {
// TODO: Clear
}
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// Set the group after initialization otherwise we may send pixels while we delay in
// initialization.
common_hal_displayio_epaperdisplay_show(self, &circuitpython_splash);
}
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bool common_hal_displayio_epaperdisplay_show(displayio_epaperdisplay_obj_t *self, displayio_group_t *root_group) {
if (root_group == NULL) {
root_group = &circuitpython_splash;
}
return displayio_display_core_set_root_group(&self->core, root_group);
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}
bool common_hal_displayio_epaperdisplay_set_root_group(displayio_epaperdisplay_obj_t *self, displayio_group_t *root_group) {
return displayio_display_core_set_root_group(&self->core, root_group);
}
STATIC const displayio_area_t *displayio_epaperdisplay_get_refresh_areas(displayio_epaperdisplay_obj_t *self) {
if (self->core.full_refresh) {
self->core.area.next = NULL;
return &self->core.area;
}
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const displayio_area_t *first_area = NULL;
if (self->core.current_group != NULL) {
first_area = displayio_group_get_refresh_areas(self->core.current_group, NULL);
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}
if (first_area != NULL && self->core.row_command == NO_COMMAND) {
// Do a full refresh if the display doesn't support partial updates.
self->core.area.next = NULL;
return &self->core.area;
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}
return first_area;
}
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uint16_t common_hal_displayio_epaperdisplay_get_width(displayio_epaperdisplay_obj_t *self) {
return displayio_display_core_get_width(&self->core);
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}
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uint16_t common_hal_displayio_epaperdisplay_get_height(displayio_epaperdisplay_obj_t *self) {
return displayio_display_core_get_height(&self->core);
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}
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STATIC void wait_for_busy(displayio_epaperdisplay_obj_t *self) {
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if (self->busy.base.type == &mp_type_NoneType) {
return;
}
while (common_hal_digitalio_digitalinout_get_value(&self->busy) == self->busy_state) {
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RUN_BACKGROUND_TASKS;
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}
}
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STATIC void send_command_sequence(displayio_epaperdisplay_obj_t *self,
bool should_wait_for_busy, const uint8_t *sequence, uint32_t sequence_len) {
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uint32_t i = 0;
while (i < sequence_len) {
const uint8_t *cmd = sequence + i;
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uint8_t data_size = *(cmd + 1);
bool delay = (data_size & DELAY) != 0;
const uint8_t *data = cmd + 2;
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data_size &= ~DELAY;
if (self->two_byte_sequence_length) {
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data_size = ((data_size & ~DELAY) << 8) + *(cmd + 2);
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data = cmd + 3;
}
displayio_display_core_begin_transaction(&self->core);
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self->core.send(self->core.bus, DISPLAY_COMMAND, self->chip_select, cmd, 1);
self->core.send(self->core.bus, DISPLAY_DATA, self->chip_select, data, data_size);
displayio_display_core_end_transaction(&self->core);
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uint16_t delay_length_ms = 0;
if (delay) {
data_size++;
delay_length_ms = *(cmd + 1 + data_size);
if (delay_length_ms == 255) {
delay_length_ms = 500;
}
}
common_hal_time_delay_ms(delay_length_ms);
if (should_wait_for_busy) {
wait_for_busy(self);
}
i += 2 + data_size;
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if (self->two_byte_sequence_length) {
i++;
}
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}
}
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void displayio_epaperdisplay_change_refresh_mode_parameters(displayio_epaperdisplay_obj_t *self,
mp_buffer_info_t *start_sequence, float seconds_per_frame) {
self->start_sequence = (uint8_t *)start_sequence->buf;
self->start_sequence_len = start_sequence->len;
self->milliseconds_per_frame = seconds_per_frame * 1000;
}
STATIC void displayio_epaperdisplay_start_refresh(displayio_epaperdisplay_obj_t *self) {
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// run start sequence
self->core.bus_reset(self->core.bus);
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common_hal_time_delay_ms(self->start_up_time_ms);
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send_command_sequence(self, true, self->start_sequence, self->start_sequence_len);
displayio_display_core_start_refresh(&self->core);
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}
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uint32_t common_hal_displayio_epaperdisplay_get_time_to_refresh(displayio_epaperdisplay_obj_t *self) {
if (self->core.last_refresh == 0) {
return 0;
}
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// Refresh at seconds per frame rate.
uint32_t elapsed_time = supervisor_ticks_ms64() - self->core.last_refresh;
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if (elapsed_time > self->milliseconds_per_frame) {
return 0;
}
return self->milliseconds_per_frame - elapsed_time;
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}
STATIC void displayio_epaperdisplay_finish_refresh(displayio_epaperdisplay_obj_t *self) {
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// Actually refresh the display now that all pixel RAM has been updated.
send_command_sequence(self, false, self->refresh_sequence, self->refresh_sequence_len);
supervisor_enable_tick();
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self->refreshing = true;
displayio_display_core_finish_refresh(&self->core);
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}
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mp_obj_t common_hal_displayio_epaperdisplay_get_bus(displayio_epaperdisplay_obj_t *self) {
return self->core.bus;
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}
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void common_hal_displayio_epaperdisplay_set_rotation(displayio_epaperdisplay_obj_t *self, int rotation) {
bool transposed = (self->core.rotation == 90 || self->core.rotation == 270);
bool will_transposed = (rotation == 90 || rotation == 270);
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if (transposed != will_transposed) {
int tmp = self->core.width;
self->core.width = self->core.height;
self->core.height = tmp;
}
displayio_display_core_set_rotation(&self->core, rotation);
if (self == &displays[0].epaper_display) {
supervisor_stop_terminal();
supervisor_start_terminal(self->core.width, self->core.height);
}
if (self->core.current_group != NULL) {
displayio_group_update_transform(self->core.current_group, &self->core.transform);
}
}
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uint16_t common_hal_displayio_epaperdisplay_get_rotation(displayio_epaperdisplay_obj_t *self) {
return self->core.rotation;
}
mp_obj_t common_hal_displayio_epaperdisplay_get_root_group(displayio_epaperdisplay_obj_t *self) {
if (self->core.current_group == NULL) {
return mp_const_none;
}
return self->core.current_group;
}
STATIC bool displayio_epaperdisplay_refresh_area(displayio_epaperdisplay_obj_t *self, const displayio_area_t *area) {
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uint16_t buffer_size = 128; // In uint32_ts
displayio_area_t clipped;
// Clip the area to the display by overlapping the areas. If there is no overlap then we're done.
if (!displayio_display_core_clip_area(&self->core, area, &clipped)) {
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return true;
}
uint16_t subrectangles = 1;
uint16_t rows_per_buffer = displayio_area_height(&clipped);
uint8_t pixels_per_word = (sizeof(uint32_t) * 8) / self->core.colorspace.depth;
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uint16_t pixels_per_buffer = displayio_area_size(&clipped);
if (displayio_area_size(&clipped) > buffer_size * pixels_per_word) {
rows_per_buffer = buffer_size * pixels_per_word / displayio_area_width(&clipped);
if (rows_per_buffer == 0) {
rows_per_buffer = 1;
}
subrectangles = displayio_area_height(&clipped) / rows_per_buffer;
if (displayio_area_height(&clipped) % rows_per_buffer != 0) {
subrectangles++;
}
pixels_per_buffer = rows_per_buffer * displayio_area_width(&clipped);
buffer_size = pixels_per_buffer / pixels_per_word;
if (pixels_per_buffer % pixels_per_word) {
buffer_size += 1;
}
}
// Allocated and shared as a uint32_t array so the compiler knows the
// alignment everywhere.
uint32_t buffer[buffer_size];
volatile uint32_t mask_length = (pixels_per_buffer / 32) + 1;
uint32_t mask[mask_length];
uint8_t passes = 1;
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if (self->write_color_ram_command != NO_COMMAND) {
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passes = 2;
}
for (uint8_t pass = 0; pass < passes; pass++) {
uint16_t remaining_rows = displayio_area_height(&clipped);
if (self->core.row_command != NO_COMMAND) {
displayio_display_core_set_region_to_update(&self->core, &clipped);
}
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uint8_t write_command = self->write_black_ram_command;
if (pass == 1) {
write_command = self->write_color_ram_command;
}
displayio_display_core_begin_transaction(&self->core);
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self->core.send(self->core.bus, DISPLAY_COMMAND, self->chip_select, &write_command, 1);
displayio_display_core_end_transaction(&self->core);
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for (uint16_t j = 0; j < subrectangles; j++) {
displayio_area_t subrectangle = {
.x1 = clipped.x1,
.y1 = clipped.y1 + rows_per_buffer * j,
.x2 = clipped.x2,
.y2 = clipped.y1 + rows_per_buffer * (j + 1)
};
if (remaining_rows < rows_per_buffer) {
subrectangle.y2 = subrectangle.y1 + remaining_rows;
}
remaining_rows -= rows_per_buffer;
uint16_t subrectangle_size_bytes = displayio_area_size(&subrectangle) / (8 / self->core.colorspace.depth);
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memset(mask, 0, mask_length * sizeof(mask[0]));
memset(buffer, 0, buffer_size * sizeof(buffer[0]));
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if (!self->acep) {
self->core.colorspace.grayscale = true;
self->core.colorspace.grayscale_bit = 7;
}
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if (pass == 1) {
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if (self->grayscale) { // 4-color grayscale
self->core.colorspace.grayscale_bit = 6;
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displayio_display_core_fill_area(&self->core, &subrectangle, mask, buffer);
} else if (self->core.colorspace.tricolor) {
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self->core.colorspace.grayscale = false;
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displayio_display_core_fill_area(&self->core, &subrectangle, mask, buffer);
} else if (self->core.colorspace.sevencolor) {
displayio_display_core_fill_area(&self->core, &subrectangle, mask, buffer);
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}
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} else {
displayio_display_core_fill_area(&self->core, &subrectangle, mask, buffer);
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}
// Invert it all.
if ((pass == 1 && self->color_bits_inverted) ||
(pass == 0 && self->black_bits_inverted)) {
for (uint16_t k = 0; k < buffer_size; k++) {
buffer[k] = ~buffer[k];
}
}
if (!displayio_display_core_begin_transaction(&self->core)) {
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// Can't acquire display bus; skip the rest of the data. Try next display.
return false;
}
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self->core.send(self->core.bus, DISPLAY_DATA, self->chip_select, (uint8_t *)buffer, subrectangle_size_bytes);
displayio_display_core_end_transaction(&self->core);
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// TODO(tannewt): Make refresh displays faster so we don't starve other
// background tasks.
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#if CIRCUITPY_USB
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usb_background();
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#endif
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}
}
return true;
}
STATIC bool _clean_area(displayio_epaperdisplay_obj_t *self) {
uint16_t width = displayio_display_core_get_width(&self->core);
uint16_t height = displayio_display_core_get_height(&self->core);
uint8_t buffer[width / 2];
memset(buffer, 0x77, width / 2);
uint8_t write_command = self->write_black_ram_command;
displayio_display_core_begin_transaction(&self->core);
self->core.send(self->core.bus, DISPLAY_COMMAND, self->chip_select, &write_command, 1);
displayio_display_core_end_transaction(&self->core);
for (uint16_t j = 0; j < height; j++) {
if (!displayio_display_core_begin_transaction(&self->core)) {
// Can't acquire display bus; skip the rest of the data. Try next display.
return false;
}
self->core.send(self->core.bus, DISPLAY_DATA, self->chip_select, buffer, width / 2);
displayio_display_core_end_transaction(&self->core);
// TODO(tannewt): Make refresh displays faster so we don't starve other
// background tasks.
#if CIRCUITPY_USB
usb_background();
#endif
}
return true;
}
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bool common_hal_displayio_epaperdisplay_refresh(displayio_epaperdisplay_obj_t *self) {
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if (self->refreshing && self->busy.base.type == &digitalio_digitalinout_type) {
if (common_hal_digitalio_digitalinout_get_value(&self->busy) != self->busy_state) {
supervisor_disable_tick();
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self->refreshing = false;
// Run stop sequence but don't wait for busy because busy is set when sleeping.
send_command_sequence(self, false, self->stop_sequence, self->stop_sequence_len);
} else {
return false;
}
}
if (self->core.current_group == NULL) {
return true;
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}
// Refresh at seconds per frame rate.
if (common_hal_displayio_epaperdisplay_get_time_to_refresh(self) > 0) {
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return false;
}
if (!displayio_display_core_bus_free(&self->core)) {
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// Can't acquire display bus; skip updating this display. Try next display.
return false;
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}
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const displayio_area_t *current_area = displayio_epaperdisplay_get_refresh_areas(self);
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if (current_area == NULL) {
return true;
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}
if (self->acep) {
displayio_epaperdisplay_start_refresh(self);
_clean_area(self);
displayio_epaperdisplay_finish_refresh(self);
while (self->refreshing && !mp_hal_is_interrupted()) {
RUN_BACKGROUND_TASKS;
}
}
if (mp_hal_is_interrupted()) {
return false;
}
displayio_epaperdisplay_start_refresh(self);
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while (current_area != NULL) {
displayio_epaperdisplay_refresh_area(self, current_area);
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current_area = current_area->next;
}
displayio_epaperdisplay_finish_refresh(self);
return true;
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}
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void displayio_epaperdisplay_background(displayio_epaperdisplay_obj_t *self) {
if (self->refreshing) {
bool refresh_done = false;
if (self->busy.base.type == &digitalio_digitalinout_type) {
bool busy = common_hal_digitalio_digitalinout_get_value(&self->busy);
refresh_done = busy != self->busy_state;
} else {
refresh_done = supervisor_ticks_ms64() - self->core.last_refresh > self->refresh_time;
}
if (refresh_done) {
supervisor_disable_tick();
self->refreshing = false;
// Run stop sequence but don't wait for busy because busy is set when sleeping.
send_command_sequence(self, false, self->stop_sequence, self->stop_sequence_len);
}
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}
}
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bool common_hal_displayio_epaperdisplay_get_busy(displayio_epaperdisplay_obj_t *self) {
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displayio_epaperdisplay_background(self);
return self->refreshing;
}
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void release_epaperdisplay(displayio_epaperdisplay_obj_t *self) {
if (self->refreshing) {
wait_for_busy(self);
supervisor_disable_tick();
self->refreshing = false;
// Run stop sequence but don't wait for busy because busy is set when sleeping.
send_command_sequence(self, false, self->stop_sequence, self->stop_sequence_len);
}
release_display_core(&self->core);
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if (self->busy.base.type == &digitalio_digitalinout_type) {
common_hal_digitalio_digitalinout_deinit(&self->busy);
}
}
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void displayio_epaperdisplay_collect_ptrs(displayio_epaperdisplay_obj_t *self) {
displayio_display_core_collect_ptrs(&self->core);
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gc_collect_ptr((void *)self->start_sequence);
gc_collect_ptr((void *)self->stop_sequence);
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}
size_t maybe_refresh_epaperdisplay(void) {
for (uint8_t i = 0; i < CIRCUITPY_DISPLAY_LIMIT; i++) {
if (displays[i].epaper_display.base.type != &displayio_epaperdisplay_type ||
displays[i].epaper_display.core.current_group != &circuitpython_splash) {
// Skip regular displays and those not showing the splash.
continue;
}
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displayio_epaperdisplay_obj_t *display = &displays[i].epaper_display;
size_t time_to_refresh = common_hal_displayio_epaperdisplay_get_time_to_refresh(display);
if (time_to_refresh > 0) {
return time_to_refresh;
}
if (common_hal_displayio_epaperdisplay_refresh(display)) {
return 0;
}
// If we could refresh but it failed, then we want to retry.
return 1;
}
// Return 0 if no ePaper displays are available to pretend it was updated.
return 0;
}