forked from forks/qmk_firmware
OLED driver fixes (#10377)
* Fix dirtying in oled_write_pixel() Set the dirty bit for the block only if oled_write_pixel() actually changed the buffer state. Without this check oled_write_pixel() could not be used inside the oled_task_user() code using the “redraw always” style, because the blocks touched by oled_write_pixel() would always appear dirty, and oled_render() would not proceed beyond the first such dirty block. * Fix oled_write_pixel() with 90/270 degree rotation Use oled_rotation_width instead of OLED_DISPLAY_WIDTH, so that a rotated display would be handled correctly. * Fix compilation with custom OLED_BLOCK_COUNT and OLED_BLOCK_SIZE Some OLED sizes (e.g., 64×48) may require a nonstandard value of OLED_BLOCK_COUNT. The documentation says that this value may be redefined in config.h, but actually trying to redefine it caused a compile error, because the macro was redefined in oled_driver.c. Make the OLED_BLOCK_COUNT definition in oled_driver.c respect any user override, and do the same for OLED_BLOCK_SIZE just in case. * Fix handling of out-of-range bits in oled_dirty If a custom OLED_BLOCK_COUNT value is specified, some bits in oled_dirty may not correspond to existing blocks; however, if those bits are set somewhere (e.g., by code with sets oled_dirty to ~0 or even -1), oled_render() would try to handle them and could access memory beyond oled_buffer and perform hardware operations with out of range values. Prevent this by masking off unused bits in oled_render(), and also avoid setting those bits in other functions. * Fix potentially wrong dirtying in oled_write_char() oled_write_char() tried to mark the position just beyond the written character as dirty; use (OLED_FONT_WIDTH - 1) to dirty the last position still belonging to the character instead. * Fix `#define OLED_BLOCK_TYPE uint32_t` on AVR Using uint32_t as OLED_BLOCK_TYPE did not work properly on AVR, because some bit shifts were performed using 16-bit int. Add explicit casts to OLED_BLOCK_TYPE to those shifts.
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@ -75,8 +75,14 @@ along with this program. If not, see <http://www.gnu.org/licenses/>.
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#define CHARGE_PUMP 0x8D
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#define CHARGE_PUMP 0x8D
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// Misc defines
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// Misc defines
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#define OLED_BLOCK_COUNT (sizeof(OLED_BLOCK_TYPE) * 8)
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#ifndef OLED_BLOCK_COUNT
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#define OLED_BLOCK_SIZE (OLED_MATRIX_SIZE / OLED_BLOCK_COUNT)
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# define OLED_BLOCK_COUNT (sizeof(OLED_BLOCK_TYPE) * 8)
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#endif
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#ifndef OLED_BLOCK_SIZE
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# define OLED_BLOCK_SIZE (OLED_MATRIX_SIZE / OLED_BLOCK_COUNT)
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#endif
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#define OLED_ALL_BLOCKS_MASK (((((OLED_BLOCK_TYPE)1 << (OLED_BLOCK_COUNT - 1)) - 1) << 1) | 1)
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// i2c defines
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// i2c defines
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#define I2C_CMD 0x00
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#define I2C_CMD 0x00
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@ -212,7 +218,7 @@ __attribute__((weak)) oled_rotation_t oled_init_user(oled_rotation_t rotation) {
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void oled_clear(void) {
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void oled_clear(void) {
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memset(oled_buffer, 0, sizeof(oled_buffer));
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memset(oled_buffer, 0, sizeof(oled_buffer));
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oled_cursor = &oled_buffer[0];
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oled_cursor = &oled_buffer[0];
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oled_dirty = -1; // -1 will be max value as long as display_dirty is unsigned type
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oled_dirty = OLED_ALL_BLOCKS_MASK;
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}
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}
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static void calc_bounds(uint8_t update_start, uint8_t *cmd_array) {
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static void calc_bounds(uint8_t update_start, uint8_t *cmd_array) {
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@ -262,13 +268,14 @@ static void rotate_90(const uint8_t *src, uint8_t *dest) {
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void oled_render(void) {
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void oled_render(void) {
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// Do we have work to do?
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// Do we have work to do?
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oled_dirty &= OLED_ALL_BLOCKS_MASK;
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if (!oled_dirty || oled_scrolling) {
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if (!oled_dirty || oled_scrolling) {
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return;
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return;
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}
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}
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// Find first dirty block
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// Find first dirty block
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uint8_t update_start = 0;
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uint8_t update_start = 0;
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while (!(oled_dirty & (1 << update_start))) {
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while (!(oled_dirty & ((OLED_BLOCK_TYPE)1 << update_start))) {
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++update_start;
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++update_start;
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}
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}
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@ -314,7 +321,7 @@ void oled_render(void) {
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oled_on();
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oled_on();
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// Clear dirty flag
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// Clear dirty flag
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oled_dirty &= ~(1 << update_start);
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oled_dirty &= ~((OLED_BLOCK_TYPE)1 << update_start);
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}
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}
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void oled_set_cursor(uint8_t col, uint8_t line) {
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void oled_set_cursor(uint8_t col, uint8_t line) {
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@ -404,9 +411,9 @@ void oled_write_char(const char data, bool invert) {
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// Dirty check
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// Dirty check
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if (memcmp(&oled_temp_buffer, oled_cursor, OLED_FONT_WIDTH)) {
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if (memcmp(&oled_temp_buffer, oled_cursor, OLED_FONT_WIDTH)) {
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uint16_t index = oled_cursor - &oled_buffer[0];
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uint16_t index = oled_cursor - &oled_buffer[0];
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oled_dirty |= (1 << (index / OLED_BLOCK_SIZE));
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oled_dirty |= ((OLED_BLOCK_TYPE)1 << (index / OLED_BLOCK_SIZE));
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// Edgecase check if the written data spans the 2 chunks
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// Edgecase check if the written data spans the 2 chunks
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oled_dirty |= (1 << ((index + OLED_FONT_WIDTH) / OLED_BLOCK_SIZE));
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oled_dirty |= ((OLED_BLOCK_TYPE)1 << ((index + OLED_FONT_WIDTH - 1) / OLED_BLOCK_SIZE));
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}
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}
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// Finally move to the next char
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// Finally move to the next char
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@ -441,7 +448,7 @@ void oled_pan(bool left) {
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}
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}
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}
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}
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}
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}
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oled_dirty = ~((OLED_BLOCK_TYPE)0);
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oled_dirty = OLED_ALL_BLOCKS_MASK;
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}
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}
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oled_buffer_reader_t oled_read_raw(uint16_t start_index) {
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oled_buffer_reader_t oled_read_raw(uint16_t start_index) {
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@ -456,7 +463,7 @@ void oled_write_raw_byte(const char data, uint16_t index) {
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if (index > OLED_MATRIX_SIZE) index = OLED_MATRIX_SIZE;
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if (index > OLED_MATRIX_SIZE) index = OLED_MATRIX_SIZE;
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if (oled_buffer[index] == data) return;
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if (oled_buffer[index] == data) return;
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oled_buffer[index] = data;
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oled_buffer[index] = data;
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oled_dirty |= (1 << (index / OLED_BLOCK_SIZE));
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oled_dirty |= ((OLED_BLOCK_TYPE)1 << (index / OLED_BLOCK_SIZE));
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}
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}
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void oled_write_raw(const char *data, uint16_t size) {
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void oled_write_raw(const char *data, uint16_t size) {
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@ -464,21 +471,28 @@ void oled_write_raw(const char *data, uint16_t size) {
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for (uint16_t i = 0; i < size; i++) {
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for (uint16_t i = 0; i < size; i++) {
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if (oled_buffer[i] == data[i]) continue;
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if (oled_buffer[i] == data[i]) continue;
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oled_buffer[i] = data[i];
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oled_buffer[i] = data[i];
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oled_dirty |= (1 << (i / OLED_BLOCK_SIZE));
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oled_dirty |= ((OLED_BLOCK_TYPE)1 << (i / OLED_BLOCK_SIZE));
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}
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}
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}
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}
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void oled_write_pixel(uint8_t x, uint8_t y, bool on) {
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void oled_write_pixel(uint8_t x, uint8_t y, bool on) {
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if (x >= OLED_DISPLAY_WIDTH || y >= OLED_DISPLAY_HEIGHT) {
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if (x >= oled_rotation_width) {
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return;
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return;
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}
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}
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uint16_t index = x + (y / 8) * OLED_DISPLAY_WIDTH;
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uint16_t index = x + (y / 8) * oled_rotation_width;
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if (on) {
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if (index >= OLED_MATRIX_SIZE) {
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oled_buffer[index] |= (1 << (y % 8));
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return;
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} else {
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}
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oled_buffer[index] &= ~(1 << (y % 8));
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uint8_t data = oled_buffer[index];
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if (on) {
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data |= (1 << (y % 8));
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} else {
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data &= ~(1 << (y % 8));
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}
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if (oled_buffer[index] != data) {
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oled_buffer[index] = data;
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oled_dirty |= ((OLED_BLOCK_TYPE)1 << (index / OLED_BLOCK_SIZE));
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}
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}
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oled_dirty |= (1 << (index / OLED_BLOCK_SIZE));
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}
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}
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#if defined(__AVR__)
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#if defined(__AVR__)
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@ -501,7 +515,7 @@ void oled_write_raw_P(const char *data, uint16_t size) {
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uint8_t c = pgm_read_byte(data++);
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uint8_t c = pgm_read_byte(data++);
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if (oled_buffer[i] == c) continue;
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if (oled_buffer[i] == c) continue;
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oled_buffer[i] = c;
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oled_buffer[i] = c;
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oled_dirty |= (1 << (i / OLED_BLOCK_SIZE));
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oled_dirty |= ((OLED_BLOCK_TYPE)1 << (i / OLED_BLOCK_SIZE));
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}
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}
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}
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}
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#endif // defined(__AVR__)
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#endif // defined(__AVR__)
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@ -597,7 +611,7 @@ bool oled_scroll_off(void) {
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return oled_scrolling;
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return oled_scrolling;
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}
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}
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oled_scrolling = false;
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oled_scrolling = false;
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oled_dirty = -1;
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oled_dirty = OLED_ALL_BLOCKS_MASK;
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}
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}
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return !oled_scrolling;
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return !oled_scrolling;
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}
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}
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