/** * SSD1306 OLED display driver for esp-open-rtos. * * Copyright (c) 2016 urx (https://github.com/urx), * Ruslan V. Uss (https://github.com/UncleRus) * Zaltora (https://github.com/Zaltora) * * MIT Licensed as described in the file LICENSE * * @todo HW scrolling, sprites */ #include "ssd1306.h" #include #if (SSD1306_SPI4_SUPPORT) || (SSD1306_SPI3_SUPPORT) #include #endif #include #include #include #define SPI_BUS 1 //#define SSD1306_DEBUG /* SSD1306 commands */ #define SSD1306_SET_MEM_ADDR_MODE (0x20) #define SSD1306_SET_COL_ADDR (0x21) #define SSD1306_SET_PAGE_ADDR (0x22) #define SSD1306_SET_DISP_START_LINE (0x40) #define SSD1306_SET_CONTRAST (0x81) #define SSD1306_SET_SEGMENT_REMAP0 (0xA0) #define SSD1306_SET_SEGMENT_REMAP1 (0xA1) #define SSD1306_SET_ENTIRE_DISP_ON (0xA5) #define SSD1306_SET_ENTIRE_DISP_OFF (0xA4) #define SSD1306_SET_INVERSION_OFF (0xA6) #define SSD1306_SET_INVERSION_ON (0xA7) #define SSD1306_SET_MUX_RATIO (0xA8) #define SSD1306_MUX_RATIO_MASK (0x3F) #define SSD1306_SET_DISPLAY_OFF (0xAE) #define SSD1306_SET_DISPLAY_ON (0xAF) #define SSD1306_SET_SCAN_DIR_FWD (0xC0) #define SSD1306_SET_SCAN_DIR_BWD (0xC8) #define SSD1306_SET_DISPLAY_OFFSET (0xD3) #define SSD1306_SET_OSC_FREQ (0xD5) #define SSD1306_SET_PRE_CHRG_PER (0xD9) #define SSD1306_SET_COM_PINS_HW_CFG (0xDA) #define SSD1306_COM_PINS_HW_CFG_MASK (0x32) #define SSD1306_SEQ_COM_PINS_CFG (0x02) #define SSD1306_ALT_COM_PINS_CFG (0x12) #define SSD1306_COM_LR_REMAP_OFF (0x02) #define SSD1306_COM_LR_REMAP_ON (0x22) #define SSD1306_SET_DESEL_LVL (0xDB) #define SSD1306_SET_NOP (0xE3) #define SSD1306_SET_CHARGE_PUMP (0x8D) #define SSD1306_CHARGE_PUMP_EN (0x14) #define SSD1306_CHARGE_PUMP_DIS (0x10) #define SSD1306_SCROLL_HOR_LEFT (0x27) #define SSD1306_SCROLL_HOR_RIGHT (0x26) #define SSD1306_SCROLL_HOR_VER_LEFT (0x2A) #define SSD1306_SCROLL_HOR_VER_RIGHT (0x29) #define SSD1306_SCROLL_ENABLE (0x2F) #define SSD1306_SCROLL_DISABLE (0x2E) #define SH1106_SET_CHARGE_PUMP (0xAD) #define SH1106_CHARGE_PUMP_EN (0x8B) #define SH1106_CHARGE_PUMP_DIS (0x8A) #define SH1106_CHARGE_PUMP_VALUE (0x30) #define SH1106_SET_PAGE_ADDRESS (0xB0) #define SH1106_SET_LOW_COL_ADDR (0x00) #define SH1106_SET_HIGH_COL_ADDR (0x10) #ifdef SSD1306_DEBUG #define debug(fmt, ...) printf("%s: " fmt "\n", "SSD1306", ## __VA_ARGS__) #else #define debug(fmt, ...) #endif #define abs(x) ((x)<0 ? -(x) : (x)) #define swap(x, y) do { typeof(x) temp##x##y = x; x = y; y = temp##x##y; } while (0) #if (SSD1306_I2C_SUPPORT) static int inline i2c_send(const ssd1306_t *dev, uint8_t reg, uint8_t* data, uint8_t len) { return i2c_slave_write(dev->i2c_dev.bus, dev->i2c_dev.addr, ®, data, len); } #endif /* Issue a command to SSD1306 device * I2C proto format: * |S|Slave Address|W|ACK|0x00|Command|Ack|P| * * in case of two-bytes command here will be Data byte * right after the command byte. */ int ssd1306_command(const ssd1306_t *dev, uint8_t cmd) { debug("Command: 0x%02x", cmd); switch (dev->protocol) { #if (SSD1306_I2C_SUPPORT) case SSD1306_PROTO_I2C: return i2c_send(dev, 0x00, &cmd, 1); break; #endif #if (SSD1306_SPI4_SUPPORT) case SSD1306_PROTO_SPI4: gpio_write(dev->dc_pin, false); // command mode gpio_write(dev->cs_pin, false); spi_transfer_8(SPI_BUS, cmd); gpio_write(dev->cs_pin, true); break; #endif #if (SSD1306_SPI3_SUPPORT) case SSD1306_PROTO_SPI3: gpio_write(dev->cs_pin, false); spi_set_command(SPI_BUS, 1, 0); // command mode spi_transfer_8(SPI_BUS, cmd); spi_clear_command(SPI_BUS); gpio_write(dev->cs_pin, true); break; #endif default: debug("Unsupported protocol"); return -EPROTONOSUPPORT; } return 0; } /* Perform default init routine according * to SSD1306 datasheet from adafruit.com */ int ssd1306_init(const ssd1306_t *dev) { uint8_t pin_cfg; switch (dev->height) { case 16: case 32: pin_cfg = 0x02; break; case 48: case 64: pin_cfg = 0x12; break; default: debug("Unsupported screen height"); return -ENOTSUP; } switch (dev->protocol) { #if (SSD1306_I2C_SUPPORT) case SSD1306_PROTO_I2C: break; #endif #if (SSD1306_SPI4_SUPPORT) case SSD1306_PROTO_SPI4: gpio_enable(dev->cs_pin, GPIO_OUTPUT); gpio_write(dev->cs_pin, true); gpio_enable(dev->dc_pin, GPIO_OUTPUT); spi_init(SPI_BUS, SPI_MODE0, SPI_FREQ_DIV_8M, true, SPI_LITTLE_ENDIAN, true); break; #endif #if (SSD1306_SPI3_SUPPORT) case SSD1306_PROTO_SPI3: gpio_enable(dev->cs_pin, GPIO_OUTPUT); gpio_write(dev->cs_pin, true); spi_init(SPI_BUS, SPI_MODE0, SPI_FREQ_DIV_8M, true, SPI_LITTLE_ENDIAN, true); break; #endif default: debug("Unsupported protocol"); return -EPROTONOSUPPORT; } switch (dev->screen) { case SSD1306_SCREEN: if (!ssd1306_display_on(dev, false) && !ssd1306_set_osc_freq(dev, 0x80) && !ssd1306_set_mux_ratio(dev, dev->height - 1) && !ssd1306_set_display_offset(dev, 0x0) && !ssd1306_set_display_start_line(dev, 0x0) && !ssd1306_set_charge_pump_enabled(dev, true) && !ssd1306_set_mem_addr_mode(dev, SSD1306_ADDR_MODE_HORIZONTAL) && !ssd1306_set_segment_remapping_enabled(dev, false) && !ssd1306_set_scan_direction_fwd(dev, true) && !ssd1306_set_com_pin_hw_config(dev, pin_cfg) && !ssd1306_set_contrast(dev, 0x9f) && !ssd1306_set_precharge_period(dev, 0xf1) && !ssd1306_set_deseltct_lvl(dev, 0x40) && !ssd1306_set_whole_display_lighting(dev, true) && !ssd1306_set_inversion(dev, false) && !ssd1306_display_on(dev, true)) { return 0; } break; case SH1106_SCREEN: if (!ssd1306_display_on(dev, false) && !ssd1306_set_charge_pump_enabled(dev, true) && !sh1106_set_charge_pump_voltage(dev,SH1106_VOLTAGE_74) && !ssd1306_set_osc_freq(dev, 0x80) && !ssd1306_set_mux_ratio(dev, dev->height - 1) && !ssd1306_set_display_offset(dev, 0x0) && !ssd1306_set_display_start_line(dev, 0x0) && !ssd1306_set_segment_remapping_enabled(dev, true) && !ssd1306_set_scan_direction_fwd(dev, true) && !ssd1306_set_com_pin_hw_config(dev, pin_cfg) && !ssd1306_set_contrast(dev, 0x9f) && !ssd1306_set_precharge_period(dev, 0xf1) && !ssd1306_set_deseltct_lvl(dev, 0x40) && !ssd1306_set_whole_display_lighting(dev, true) && !ssd1306_set_inversion(dev, false) && !ssd1306_display_on(dev, true)) { return 0; } break; } return -EIO; } static int sh1106_go_coordinate(const ssd1306_t *dev, uint8_t x, uint8_t y) { if (x >= dev->width || y >= (dev->height / 8)) return -EINVAL; int err = 0; x += 2; //offset : panel is 128 ; RAM is 132 for sh1106 if ((err = ssd1306_command(dev, SH1106_SET_PAGE_ADDRESS + y))) // Set row return err; if ((err = ssd1306_command(dev, SH1106_SET_LOW_COL_ADDR | (x & 0xf)))) // Set lower column address return err; return ssd1306_command(dev, SH1106_SET_HIGH_COL_ADDR | (x >> 4)); //Set higher column address } int ssd1306_load_frame_buffer(const ssd1306_t *dev, uint8_t buf[]) { uint16_t i; #if (SSD1306_SPI3_SUPPORT) uint8_t j; #endif #if (SSD1306_I2C_SUPPORT) uint8_t tab[16] = { 0 }; #endif size_t len = dev->width * dev->height / 8; if (dev->screen == SSD1306_SCREEN) { if (dev->width == 64 && dev->height == 48) ssd1306_set_column_addr(dev, 32, 32 + dev->width -1); else ssd1306_set_column_addr(dev, 0, dev->width - 1); ssd1306_set_page_addr(dev, 0, dev->height / 8 - 1); } switch (dev->protocol) { #if (SSD1306_I2C_SUPPORT) case SSD1306_PROTO_I2C: for (i = 0; i < len; i++) { if (dev->screen == SH1106_SCREEN && i % dev->width == 0) sh1106_go_coordinate(dev, 0, i / dev->width); i2c_send(dev, 0x40, buf ? &buf[i] : tab, 16); i += 15; } break; #endif #if (SSD1306_SPI4_SUPPORT) case SSD1306_PROTO_SPI4: gpio_write(dev->cs_pin, false); if (dev->screen == SSD1306_SCREEN) { gpio_write(dev->dc_pin, true); // data mode if (buf) spi_transfer(SPI_BUS, buf, NULL, len, SPI_8BIT); else spi_repeat_send_8(SPI_BUS, 0, len); } else { for (i = 0; i < (dev->height / 8); i++) { sh1106_go_coordinate(dev, 0, i); gpio_write(dev->dc_pin, true); // data mode gpio_write(dev->cs_pin, false); if (buf) spi_transfer(SPI_BUS, &buf[dev->width * i], NULL, dev->width, SPI_8BIT); else spi_repeat_send_8(SPI_BUS, 0, dev->width); } } gpio_write(dev->cs_pin, true); break; #endif #if (SSD1306_SPI3_SUPPORT) case SSD1306_PROTO_SPI3: gpio_write(dev->cs_pin, false); if (dev->screen == SSD1306_SCREEN) { spi_set_command(SPI_BUS, 1, 1); // data mode if (buf) { for (i = 0; i < len; i++) { spi_transfer(SPI_BUS, &buf[i], NULL, 1, SPI_8BIT); } } else { for (i = 0; i < len; i++) { spi_transfer_8(SPI_BUS, 0); } } } else { for (i = 0; i < (dev->height / 8); i++) { sh1106_go_coordinate(dev, 0, i); spi_set_command(SPI_BUS, 1, 1); // data mode gpio_write(dev->cs_pin, false); if (buf) for (j = 0; j < dev->width; j++) spi_transfer_8(SPI_BUS, buf[dev->width * i + j]); else for (j = 0; j < dev->width; j++) spi_transfer_8(SPI_BUS, buf[dev->width * i + j]); } } spi_clear_command(SPI_BUS); gpio_write(dev->cs_pin, true); break; #endif default: debug("Unsupported protocol"); return -EPROTONOSUPPORT; } return 0; } int ssd1306_display_on(const ssd1306_t *dev, bool on) { return ssd1306_command(dev, on ? SSD1306_SET_DISPLAY_ON : SSD1306_SET_DISPLAY_OFF); } int ssd1306_set_display_start_line(const ssd1306_t *dev, uint8_t start) { if (start > 63) return -EINVAL; return ssd1306_command(dev, SSD1306_SET_DISP_START_LINE | start); } int ssd1306_set_display_offset(const ssd1306_t *dev, uint8_t offset) { if (offset > 63) return -EINVAL; int err = 0; if ((err = ssd1306_command(dev, SSD1306_SET_DISPLAY_OFFSET))) return err; return ssd1306_command(dev, offset); } int sh1106_set_charge_pump_voltage(const ssd1306_t *dev, sh1106_voltage_t select) { if (dev->screen == SSD1306_SCREEN) { debug("Unsupported screen type"); return -ENOTSUP; } return ssd1306_command(dev, select | SH1106_CHARGE_PUMP_VALUE); } int ssd1306_set_charge_pump_enabled(const ssd1306_t *dev, bool enabled) { int err = 0; switch (dev->screen) { case SH1106_SCREEN: if ((err = ssd1306_command(dev, SH1106_SET_CHARGE_PUMP))) return err; return ssd1306_command(dev, enabled ? SH1106_CHARGE_PUMP_EN : SH1106_CHARGE_PUMP_DIS); break; case SSD1306_SCREEN: if ((err = ssd1306_command(dev, SSD1306_SET_CHARGE_PUMP))) return err; return ssd1306_command(dev, enabled ? SSD1306_CHARGE_PUMP_EN : SSD1306_CHARGE_PUMP_DIS); break; default: debug("Unsupported screen type"); return -ENOTSUP; } } int ssd1306_set_mem_addr_mode(const ssd1306_t *dev, ssd1306_mem_addr_mode_t mode) { if (dev->screen == SH1106_SCREEN) { debug("Unsupported screen type"); return -ENOTSUP; } int err = 0; if ((err = ssd1306_command(dev, SSD1306_SET_MEM_ADDR_MODE))) return err; return ssd1306_command(dev, mode); } int ssd1306_set_segment_remapping_enabled(const ssd1306_t *dev, bool on) { return ssd1306_command(dev, on ? SSD1306_SET_SEGMENT_REMAP1 : SSD1306_SET_SEGMENT_REMAP0); } int ssd1306_set_scan_direction_fwd(const ssd1306_t *dev, bool fwd) { return ssd1306_command(dev, fwd ? SSD1306_SET_SCAN_DIR_FWD : SSD1306_SET_SCAN_DIR_BWD); } int ssd1306_set_com_pin_hw_config(const ssd1306_t *dev, uint8_t config) { int err = 0; if ((err = ssd1306_command(dev, SSD1306_SET_COM_PINS_HW_CFG))) return err; return ssd1306_command(dev, config & SSD1306_COM_PINS_HW_CFG_MASK); } int ssd1306_set_contrast(const ssd1306_t *dev, uint8_t contrast) { int err = 0; if ((err = ssd1306_command(dev, SSD1306_SET_CONTRAST))) return err; return ssd1306_command(dev, contrast); } int ssd1306_set_inversion(const ssd1306_t *dev, bool on) { return ssd1306_command(dev, on ? SSD1306_SET_INVERSION_ON : SSD1306_SET_INVERSION_OFF); } int ssd1306_set_osc_freq(const ssd1306_t *dev, uint8_t osc_freq) { int err = 0; if ((err = ssd1306_command(dev, SSD1306_SET_OSC_FREQ))) return err; return ssd1306_command(dev, osc_freq); } int ssd1306_set_mux_ratio(const ssd1306_t *dev, uint8_t ratio) { if (ratio < 15 || ratio > 63) return -EINVAL; int err = 0; if ((err = ssd1306_command(dev, SSD1306_SET_MUX_RATIO))) return err; return ssd1306_command(dev, ratio); } int ssd1306_set_column_addr(const ssd1306_t *dev, uint8_t start, uint8_t stop) { int err = 0; if ((err = ssd1306_command(dev, SSD1306_SET_COL_ADDR))) return err; if ((err = ssd1306_command(dev, start))) return err; return ssd1306_command(dev, stop); } int ssd1306_set_page_addr(const ssd1306_t *dev, uint8_t start, uint8_t stop) { int err = 0; if ((err = ssd1306_command(dev, SSD1306_SET_PAGE_ADDR))) return err; if ((err = ssd1306_command(dev, start))) return err; return ssd1306_command(dev, stop); } int ssd1306_set_precharge_period(const ssd1306_t *dev, uint8_t prchrg) { int err = 0; if ((err = ssd1306_command(dev, SSD1306_SET_PRE_CHRG_PER))) return err; return ssd1306_command(dev, prchrg); } int ssd1306_set_deseltct_lvl(const ssd1306_t *dev, uint8_t lvl) { int err = 0; if ((err = ssd1306_command(dev, SSD1306_SET_DESEL_LVL))) return err; return ssd1306_command(dev, lvl); } int ssd1306_set_whole_display_lighting(const ssd1306_t *dev, bool light) { return ssd1306_command(dev, light ? SSD1306_SET_ENTIRE_DISP_ON : SSD1306_SET_ENTIRE_DISP_OFF); } /* one byte of xbm - 8 dots in line of picture source * one byte of fb - 8 rows for 1 column of screen */ int ssd1306_load_xbm(const ssd1306_t *dev, uint8_t *xbm, uint8_t *fb) { uint8_t bit = 0; int row = 0; int column = 0; for (row = 0; row < dev->height; row++) { for (column = 0; column < dev->width / 8; column++) { uint16_t xbm_offset = row * 16 + column; for (bit = 0; bit < 8; bit++) { if (*(xbm + xbm_offset) & 1 << bit) { *(fb + dev->width * (row / 8) + column * 8 + bit) |= 1 << row % 8; } } } } return ssd1306_load_frame_buffer(dev, fb); } int ssd1306_draw_pixel(const ssd1306_t *dev, uint8_t *fb, int8_t x, int8_t y, ssd1306_color_t color) { uint16_t index; if ((x >= dev->width) || (x < 0) || (y >= dev->height) || (y < 0)) return -EINVAL; index = x + (y / 8) * dev->width; switch (color) { case OLED_COLOR_WHITE: fb[index] |= (1 << (y & 7)); break; case OLED_COLOR_BLACK: fb[index] &= ~(1 << (y & 7)); break; case OLED_COLOR_INVERT: fb[index] ^= (1 << (y & 7)); break; default: break; } return 0; } int ssd1306_draw_hline(const ssd1306_t *dev, uint8_t *fb, int8_t x, int8_t y, uint8_t w, ssd1306_color_t color) { uint16_t index; uint8_t mask, t; // boundary check if ((x >= dev->width) || (x < 0) || (y >= dev->height) || (y < 0)) return -EINVAL; if (w == 0) return -EINVAL; if (x + w > dev->width) w = dev->width - x; t = w; index = x + (y / 8) * dev->width; mask = 1 << (y & 7); switch (color) { case OLED_COLOR_WHITE: while (t--) { fb[index] |= mask; ++index; } break; case OLED_COLOR_BLACK: mask = ~mask; while (t--) { fb[index] &= mask; ++index; } break; case OLED_COLOR_INVERT: while (t--) { fb[index] ^= mask; ++index; } break; default: break; } return 0; } int ssd1306_draw_vline(const ssd1306_t *dev, uint8_t *fb, int8_t x, int8_t y, uint8_t h, ssd1306_color_t color) { uint16_t index; uint8_t fill, mask, mod; // boundary check if ((x >= dev->width) || (x < 0) || (y >= dev->height) || (y < 0)) return -EINVAL; if (h == 0) return -EINVAL; if (y + h > dev->height) h = dev->height - y; do { mod = y & 7; fill = 8 - mod; if (fill > h) fill = h; index = x + (y / 8) * dev->width; mask = ((1 << fill) - 1) << mod; switch (color) { case OLED_COLOR_WHITE: fb[index] |= mask; break; case OLED_COLOR_BLACK: fb[index] &= ~mask; break; case OLED_COLOR_INVERT: fb[index] ^= mask; break; default: break; } y += fill; h -= fill; } while(h > 0); return 0; } int ssd1306_draw_rectangle(const ssd1306_t *dev, uint8_t *fb, int8_t x, int8_t y, uint8_t w, uint8_t h, ssd1306_color_t color) { int err = 0; if ((err = ssd1306_draw_hline(dev, fb, x, y, w, color))) return err; if ((err = ssd1306_draw_hline(dev, fb, x, y + h - 1, w, color))) return err; if ((err = ssd1306_draw_vline(dev, fb, x, y, h, color))) return err; return ssd1306_draw_vline(dev, fb, x + w - 1, y, h, color); } int ssd1306_fill_rectangle(const ssd1306_t *dev, uint8_t *fb, int8_t x, int8_t y, uint8_t w, uint8_t h, ssd1306_color_t color) { uint16_t index; uint8_t fill, mask, mod, t; // boundary check if ((x >= dev->width) || (x < 0) || (y >= dev->height) || (y < 0)) return -EINVAL; if (w == 0 || h == 0) return -EINVAL; if (x + w > dev->width) w = dev->width - x; if (y + h > dev->height) h = dev->height - y; do { mod = y & 7; fill = 8 - mod; if (fill > h) fill = h; t = w; index = x + (y / 8) * dev->width; mask = ((1 << fill) - 1) << mod; switch (color) { case OLED_COLOR_WHITE: while (t--) { fb[index] |= mask; ++index; } break; case OLED_COLOR_BLACK: mask = ~mask; while (t--) { fb[index] &= mask; ++index; } break; case OLED_COLOR_INVERT: while (t--) { fb[index] ^= mask; ++index; } break; default: break; } y += fill; h -= fill; } while(h > 0); return 0; } int ssd1306_draw_circle(const ssd1306_t *dev, uint8_t *fb, int8_t x0, int8_t y0, uint8_t r, ssd1306_color_t color) { // Refer to http://en.wikipedia.org/wiki/Midpoint_circle_algorithm for the algorithm int8_t x = r; int8_t y = 1; int16_t radius_err = 1 - x; int err = 0; if (r == 0) return -EINVAL; if ((err = ssd1306_draw_pixel(dev, fb, x0 - r, y0, color))) return err; if ((err = ssd1306_draw_pixel(dev, fb, x0 + r, y0, color))) return err; if ((err = ssd1306_draw_pixel(dev, fb, x0, y0 - r, color))) return err; if ((err = ssd1306_draw_pixel(dev, fb, x0, y0 + r, color))) return err; while (x >= y) { if ((err = ssd1306_draw_pixel(dev, fb, x0 + x, y0 + y, color))) return err; if ((err = ssd1306_draw_pixel(dev, fb, x0 - x, y0 + y, color))) return err; if ((err = ssd1306_draw_pixel(dev, fb, x0 + x, y0 - y, color))) return err; if ((err = ssd1306_draw_pixel(dev, fb, x0 - x, y0 - y, color))) return err; if (x != y) { /* Otherwise the 4 drawings below are the same as above, causing * problem when color is INVERT */ if ((err = ssd1306_draw_pixel(dev, fb, x0 + y, y0 + x, color))) return err; if ((err = ssd1306_draw_pixel(dev, fb, x0 - y, y0 + x, color))) return err; if ((err = ssd1306_draw_pixel(dev, fb, x0 + y, y0 - x, color))) return err; if ((err = ssd1306_draw_pixel(dev, fb, x0 - y, y0 - x, color))) return err; } ++y; if (radius_err < 0) { radius_err += 2 * y + 1; } else { --x; radius_err += 2 * (y - x + 1); } } return 0; } int ssd1306_fill_circle(const ssd1306_t *dev, uint8_t *fb, int8_t x0, int8_t y0, uint8_t r, ssd1306_color_t color) { int8_t x = 1; int8_t y = r; int16_t radius_err = 1 - y; int8_t x1; int err = 0; if (r == 0) return -EINVAL; if ((err = ssd1306_draw_vline(dev, fb, x0, y0 - r, 2 * r + 1, color))) // Center vertical line return err; while (y >= x) { if ((err = ssd1306_draw_vline(dev, fb, x0 - x, y0 - y, 2 * y + 1, color))) return err; if ((err = ssd1306_draw_vline(dev, fb, x0 + x, y0 - y, 2 * y + 1, color))) return err; if (color != OLED_COLOR_INVERT) { if ((err = ssd1306_draw_vline(dev, fb, x0 - y, y0 - x, 2 * x + 1, color))) return err; if ((err = ssd1306_draw_vline(dev, fb, x0 + y, y0 - x, 2 * x + 1, color))) return err; } ++x; if (radius_err < 0) { radius_err += 2 * x + 1; } else { --y; radius_err += 2 * (x - y + 1); } } if (color == OLED_COLOR_INVERT) { x1 = x; // Save where we stopped y = 1; x = r; radius_err = 1 - x; if ((err = ssd1306_draw_hline(dev, fb, x0 + x1, y0, r - x1 + 1, color))) return err; if ((err = ssd1306_draw_hline(dev, fb, x0 - r, y0, r - x1 + 1, color))) return err; while (x >= y) { if ((err = ssd1306_draw_hline(dev, fb, x0 + x1, y0 - y, x - x1 + 1, color))) return err; if ((err = ssd1306_draw_hline(dev, fb, x0 + x1, y0 + y, x - x1 + 1, color))) return err; if ((err = ssd1306_draw_hline(dev, fb, x0 - x, y0 - y, x - x1 + 1, color))) return err; if ((err = ssd1306_draw_hline(dev, fb, x0 - x, y0 + y, x - x1 + 1, color))) return err; ++y; if (radius_err < 0) { radius_err += 2 * y + 1; } else { --x; radius_err += 2 * (y - x + 1); } } } return 0; } int ssd1306_draw_line(const ssd1306_t *dev, uint8_t *fb, int16_t x0, int16_t y0, int16_t x1, int16_t y1, ssd1306_color_t color) { if ((x0 >= dev->width) || (x0 < 0) || (y0 >= dev->height) || (y0 < 0)) return -EINVAL; if ((x1 >= dev->width) || (x1 < 0) || (y1 >= dev->height) || (y1 < 0)) return -EINVAL; int err; bool steep = abs(y1 - y0) > abs(x1 - x0); if (steep) { swap(x0, y0); swap(x1, y1); } if (x0 > x1) { swap(x0, x1); swap(y0, y1); } int16_t dx, dy; dx = x1 - x0; dy = abs(y1 - y0); int16_t errx = dx / 2; int16_t ystep; if (y0 < y1) { ystep = 1; } else { ystep = -1; } for (; x0 <= x1; x0++) { if (steep) { if ((err = ssd1306_draw_pixel(dev, fb, y0, x0, color))) return err; } else { if ((err = ssd1306_draw_pixel(dev, fb, x0, y0, color))) return err; } errx -= dy; if (errx < 0) { y0 += ystep; errx += dx; } } return 0; } int ssd1306_draw_triangle(const ssd1306_t *dev, uint8_t *fb, int16_t x0, int16_t y0, int16_t x1, int16_t y1, int16_t x2, int16_t y2, ssd1306_color_t color) { int err; if ((err = ssd1306_draw_line(dev, fb, x0, y0, x1, y1, color))) return err; if ((err = ssd1306_draw_line(dev, fb, x1, y1, x2, y2, color))) return err; return ssd1306_draw_line(dev, fb, x2, y2, x0, y0, color); } int ssd1306_fill_triangle(const ssd1306_t *dev, uint8_t *fb, int16_t x0, int16_t y0, int16_t x1, int16_t y1, int16_t x2, int16_t y2, ssd1306_color_t color) { int16_t a, b, y, last; int err; // Sort coordinates by Y order (y2 >= y1 >= y0) if (y0 > y1) { swap(y0, y1);swap(x0, x1); } if (y1 > y2) { swap(y2, y1);swap(x2, x1); } if (y0 > y1) { swap(y0, y1);swap(x0, x1); } if (y0 == y2) { // Handle awkward all-on-same-line case as its own thing a = b = x0; if (x1 < a) a = x1; else if (x1 > b) b = x1; if (x2 < a) a = x2; else if (x2 > b) b = x2; if ((err = ssd1306_draw_hline(dev, fb, a, y0, b - a + 1, color))) return err; return 0; } int16_t dx01 = x1 - x0, dy01 = y1 - y0, dx02 = x2 - x0, dy02 = y2 - y0, dx12 = x2 - x1, dy12 = y2 - y1, sa = 0, sb = 0; // For upper part of triangle, find scanline crossings for segments // 0-1 and 0-2. If y1=y2 (flat-bottomed triangle), the scanline y1 // is included here (and second loop will be skipped, avoiding a /0 // error there), otherwise scanline y1 is skipped here and handled // in the second loop...which also avoids a /0 error here if y0=y1 // (flat-topped triangle). if (y1 == y2) last = y1; // Include y1 scanline else last = y1 - 1; // Skip it for (y = y0; y <= last; y++) { a = x0 + sa / dy01; b = x0 + sb / dy02; sa += dx01; sb += dx02; /* longhand: a = x0 + (x1 - x0) * (y - y0) / (y1 - y0); b = x0 + (x2 - x0) * (y - y0) / (y2 - y0); */ if (a > b) swap(a, b); if ((err = ssd1306_draw_hline(dev, fb, a, y, b - a + 1, color))) return err; } // For lower part of triangle, find scanline crossings for segments // 0-2 and 1-2. This loop is skipped if y1=y2. sa = dx12 * (y - y1); sb = dx02 * (y - y0); for (; y <= y2; y++) { a = x1 + sa / dy12; b = x0 + sb / dy02; sa += dx12; sb += dx02; /* longhand: a = x1 + (x2 - x1) * (y - y1) / (y2 - y1); b = x0 + (x2 - x0) * (y - y0) / (y2 - y0); */ if (a > b) swap(a, b); if ((err = ssd1306_draw_hline(dev, fb, a, y, b - a + 1, color))) return err; } return 0; } int ssd1306_draw_char(const ssd1306_t *dev, uint8_t *fb, const font_info_t *font, uint8_t x, uint8_t y, char c, ssd1306_color_t foreground, ssd1306_color_t background) { uint8_t i, j; const uint8_t *bitmap; uint8_t line = 0; int err; if (font == NULL) return 0; const font_char_desc_t *d = font_get_char_desc(font, c); if (d == NULL) return 0; bitmap = font->bitmap + d->offset; for (j = 0; j < font->height; ++j) { for (i = 0; i < d->width; ++i) { if (i % 8 == 0) { line = bitmap[(d->width + 7) / 8 * j + i / 8]; // line data } if (line & 0x80) { err = ssd1306_draw_pixel(dev, fb, x + i, y + j, foreground); } else { switch (background) { case OLED_COLOR_TRANSPARENT: // Not drawing for transparent background break; case OLED_COLOR_WHITE: case OLED_COLOR_BLACK: err = ssd1306_draw_pixel(dev, fb, x + i, y + j, background); break; case OLED_COLOR_INVERT: // I don't know why I need invert background break; } } if (err) return -ERANGE; line = line << 1; } } return d->width; } int ssd1306_draw_string(const ssd1306_t *dev, uint8_t *fb, const font_info_t *font, uint8_t x, uint8_t y, const char *str, ssd1306_color_t foreground, ssd1306_color_t background) { uint8_t t = x; int err; if (font == NULL || str == NULL) return 0; while (*str) { if ((err = ssd1306_draw_char(dev, fb, font, x, y, *str, foreground, background)) < 0) return err; x += err; ++str; if (*str) x += font->c; } return x - t; } int ssd1306_stop_scroll(const ssd1306_t *dev) { return ssd1306_command(dev, SSD1306_SCROLL_DISABLE); } int ssd1306_start_scroll_hori(const ssd1306_t *dev, bool way, uint8_t start, uint8_t stop, ssd1306_scroll_t frame) { int err; if (way) { if ((err = ssd1306_command(dev, SSD1306_SCROLL_HOR_LEFT))) return err; } else { if ((err = ssd1306_command(dev, SSD1306_SCROLL_HOR_RIGHT))) return err; } if (!ssd1306_command(dev, 0x00) && //dummy !ssd1306_command(dev, (start&0x07)) && !ssd1306_command(dev, frame) && !ssd1306_command(dev, (stop&0x07)) && !ssd1306_command(dev, 0x00) && //dummy !ssd1306_command(dev, 0xFF) && //dummy !ssd1306_command(dev, SSD1306_SCROLL_ENABLE)) { return 0; } return -EIO; } int ssd1306_start_scroll_hori_vert(const ssd1306_t *dev, bool way, uint8_t start, uint8_t stop, uint8_t dy, ssd1306_scroll_t frame) { //this function dont work well if no vertical setting. if ((!dy) || (dy > 63)) return -EINVAL; int err; //vertical scrolling selection (all screen) if ((err = ssd1306_command(dev, 0xA3))) return err; if ((err = ssd1306_command(dev, 0))) return err; if ((err = ssd1306_command(dev, dev->height))) return err; if (way) { if ((err = ssd1306_command(dev, SSD1306_SCROLL_HOR_VER_LEFT))) return err; } else { if ((err = ssd1306_command(dev, SSD1306_SCROLL_HOR_VER_RIGHT))) return err; } if (!ssd1306_command(dev, 0x00) && //dummy !ssd1306_command(dev, (start&0x07)) && !ssd1306_command(dev, frame) && !ssd1306_command(dev, (stop&0x07)) && !ssd1306_command(dev, dy) && !ssd1306_command(dev, SSD1306_SCROLL_ENABLE)) { return 0; } return -EIO; }