// Arduino Adafruit_SSD1306 library API. Source C API is defined at: // [mgos_arduino_ssd1306.h](https://github.com/mongoose-os-libs/arduino-adafruit-ssd1306/blob/master/src/mgos_arduino_ssd1306.h) let Adafruit_SSD1306 = { _ci2c: ffi('void *mgos_ssd1306_create_i2c(int, int)'), _cspi: ffi('void *mgos_ssd1306_create_spi(int, int, int, int)'), _close: ffi('void mgos_ssd1306_close(void *)'), _begin: ffi('void mgos_ssd1306_begin(void *, int, int, int)'), _cmd: ffi('void mgos_ssd1306_command(void *, int)'), _cd: ffi('void mgos_ssd1306_clear_display(void *)'), _id: ffi('void mgos_ssd1306_invert_display(void *, int)'), _d: ffi('void mgos_ssd1306_display(void *)'), _ssr: ffi('void mgos_ssd1306_start_scroll_right(void *, int, int)'), _ssl: ffi('void mgos_ssd1306_start_scroll_left(void *, int, int)'), _ssdr: ffi('void mgos_ssd1306_start_scroll_diag_right(void *, int, int)'), _ssdl: ffi('void mgos_ssd1306_start_scroll_diag_left(void *, int, int)'), _ss: ffi('void mgos_ssd1306_stop_scroll(void *)'), _dim: ffi('void mgos_ssd1306_dim(void *, int)'), _dp: ffi('void mgos_ssd1306_draw_pixel(void *, int, int, int)'), _dfvl: ffi('void mgos_ssd1306_draw_fast_vline(void *, int, int, int, int)'), _dfhl: ffi('void mgos_ssd1306_draw_fast_hline(void *, int, int, int, int)'), _pair: ffi('int mgos_ssd1306_make_xy_pair(int, int)'), _dc: ffi('void mgos_ssd1306_draw_circle(void *, int, int, int)'), _dch: ffi('void mgos_ssd1306_draw_circle_helper(void *, int, int, int, int)'), _fc: ffi('void mgos_ssd1306_fill_circle(void *, int, int, int)'), _fch: ffi('void mgos_ssd1306_fill_circle_helper(void *, int, int, int, int, int)'), _dt: ffi('void mgos_ssd1306_draw_triangle(void *, int, int, int, int)'), _ft: ffi('void mgos_ssd1306_fill_triangle(void *, int, int, int, int)'), _drr: ffi('void mgos_ssd1306_draw_round_rect(void *, int, int, int, int, int)'), _frr: ffi('void mgos_ssd1306_fill_round_rect(void *, int, int, int, int, int)'), _dch: ffi('void mgos_ssd1306_draw_char(void *, int, int, int, int, int)'), _sc: ffi('void mgos_ssd1306_set_cursor(void *, int, int)'), _stc: ffi('void mgos_ssd1306_set_text_color(void *, int)'), _stcb: ffi('void mgos_ssd1306_set_text_color_bg(void *, int, int)'), _sts: ffi('void mgos_ssd1306_set_text_size(void *, int)'), _stw: ffi('void mgos_ssd1306_set_text_wrap(void *, int)'), _w: ffi('int mgos_ssd1306_write(void *, char *, int)'), _ht: ffi('int mgos_ssd1306_height(void *)'), _wh: ffi('int mgos_ssd1306_width(void *)'), _gr: ffi('int mgos_ssd1306_get_rotation(void *)'), _gcx: ffi('int mgos_ssd1306_get_cursor_x(void *)'), _gcy: ffi('int mgos_ssd1306_get_cursor_y(void *)'), RES_96_16: 0, RES_128_32: 1, RES_128_64: 2, EXTERNALVCC: 1, SWITCHCAPVCC: 2, BLACK: 0, WHITE: 1, INVERSE: 2, _proto: { // Close Adafruit_SSD1306 handle. Return value: none. close: function() { return Adafruit_SSD1306._close(this.ssd); }, // Initialize the display. begin: function(vccst, addr, reset) { return Adafruit_SSD1306._begin(this.ssd, vccst, addr, reset); }, ssd1306_command: function(cmd) { return Adafruit_SSD1306._cmd(this.ssd, cmd); }, clearDisplay: function() { return Adafruit_SSD1306._cd(this.ssd); }, invertDisplay: function(i) { return Adafruit_SSD1306._id(this.ssd, i); }, display: function() { return Adafruit_SSD1306._d(this.ssd); }, // Activates a right handed scroll for rows start through stop. startScrollRight: function(start, stop) { return Adafruit_SSD1306._ssr(this.ssd, start, stop); }, // Activates a right handed scroll for rows start through stop. startScrollLeft: function(start, stop) { return Adafruit_SSD1306._ssl(this.ssd, start, stop); }, // Activates a diagonal scroll for rows start through stop. startScrollDiagRight: function(start, stop) { return Adafruit_SSD1306._ssdr(this.ssd, start, stop); }, // Activates a diagonal scroll for rows start through stop. startScrollDiagLeft: function(start, stop) { return Adafruit_SSD1306._ssdl(this.ssd, start, stop); }, // Stops scroll. stopScroll: function() { return Adafruit_SSD1306._ss(this.ssd); }, // Dims the display. // dim = 1: display is dimmed; // dim = 0: display is normal. dim: function(dim) { return Adafruit_SSD1306._dim(this.ssd, dim); }, // Sets a single pixel. drawPixel: function(x, y, color) { return Adafruit_SSD1306._dp(this.ssd, x, y, color); }, drawFastVLine: function(x, y, h, color) { return Adafruit_SSD1306._dfvl(this.ssd, x, y, h, color); }, drawFastHLine: function(x, y, w, color) { return Adafruit_SSD1306._dfhl(this.ssd, x, y, w, color); }, drawCircle: function(x0, y0, r, color) { return Adafruit_SSD1306._dc(this.ssd, _pair(x0, y0), r, color); }, drawCircleHelper: function(x0, y0, r, cornername, color) { return Adafruit_SSD1306._dch(this.ssd, _pair(x0, y0), r, cornername, color); }, fillCircle: function(x0, y0, r, color) { return Adafruit_SSD1306._fc(this.ssd, _pair(x0, y0), r, color); }, fillCircleHelper: function(x0, y0, r, cornername, delta, color) { return Adafruit_SSD1306._fch(this.ssd, _pair(x0, y0), r, cornername, delta, color); }, drawTriangle: function(x0, y0, x1, y1, x2, y2, color) { return Adafruit_SSD1306._dt(this.ssd, _pair(x0, y0), _pair(x1, y1), _pair(x2, y2), color); }, fillTriangle: function(x0, y0, x1, y1, x2, y2, color) { return Adafruit_SSD1306._ft(this.ssd, _pair(x0, y0), _pair(x1, y1), _pair(x2, y2), color); }, drawRoundRect: function(x0, y0, w, h, radius, color) { return Adafruit_SSD1306._drr(this.ssd, _pair(x0, y0), w, h, radius, color); }, fillRoundRect: function(x0, y0, w, h, radius, color) { return Adafruit_SSD1306._frr(this.ssd, _pair(x0, y0), w, h, radius, color); }, drawChar: function(x, y, c, color, bg, size) { return Adafruit_SSD1306._dch(this.ssd, _pair(x, y), c, color, bg, size); }, setCursor: function(x, y) { return Adafruit_SSD1306._sc(this.ssd, x, y); }, setTextColor: function(color) { return Adafruit_SSD1306._stc(this.ssd, color); }, setTextColorBg: function(color, bg) { return Adafruit_SSD1306._stcb(this.ssd, color, bg); }, setTextSize: function(size) { return Adafruit_SSD1306._sts(this.ssd, size); }, setTextWrap: function(w) { return Adafruit_SSD1306._stw(this.ssd, w); }, write: function(str) { return Adafruit_SSD1306._w(this.ssd, str, str.length); }, height: function() { return Adafruit_SSD1306._ht(this.ssd); }, width: function() { return Adafruit_SSD1306._wh(this.ssd); }, getRotation: function() { return Adafruit_SSD1306._gr(this.ssd); }, // get current cursor position (get rotation safe maximum values, using: width() for x, height() for y) getCursorX: function() { return Adafruit_SSD1306._gcx(this.ssd); }, getCursorY: function() { return Adafruit_SSD1306._gcy(this.ssd); }, }, // Create a SSD1306 object for I2C. create_i2c: function(rst, res) { let obj = Object.create(Adafruit_SSD1306._proto); // Initialize Adafruit_SSD1306 library for I2C. // Return value: handle opaque pointer. // We set the reset pin and // Resolution: 0 - RES_96_16, 1 - RES_128_32, 2 - RES_128_64. obj.ssd = Adafruit_SSD1306._ci2c(rst, res); return obj; }, // Create a SSD1306 object for SPI. create_spi: function(dc, rst, cs, res) { let obj = Object.create(Adafruit_SSD1306._proto); // Initialize Adafruit_SSD1306 library for SPI. // Return value: handle opaque pointer. // We set DataCommand, ChipSelect, Reset and // Resolution: 0 - RES_96_16, 1 - RES_128_32, 2 - RES_128_64. obj.ssd = Adafruit_SSD1306._cspi(dc, rst, cs, res); return obj; }, }