// Module for xpt2046 // by Starofall, F.J. Exoo // used source code from: // - https://github.com/spapadim/XPT2046/ // - https://github.com/PaulStoffregen/XPT2046_Touchscreen/ #include "module.h" #include "lauxlib.h" #include "platform.h" // Hardware specific values static const uint16_t CAL_MARGIN = 0; // Set to 0: up to the application static const uint8_t CTRL_LO_DFR = 0b0011; static const uint8_t CTRL_LO_SER = 0b0100; static const uint8_t CTRL_HI_X = 0b1001 << 4; static const uint8_t CTRL_HI_Y = 0b1101 << 4; static const uint16_t ADC_MAX = 0x0fff; // 12 bits // Runtime variables static uint16_t _width, _height; static uint8_t _cs_pin, _irq_pin; static int32_t _cal_dx, _cal_dy, _cal_dvi, _cal_dvj; static uint16_t _cal_vi1, _cal_vj1; // Average pair with least distance between each static int16_t besttwoavg( int16_t x , int16_t y , int16_t z ) { int16_t da, db, dc; int16_t reta = 0; if ( x > y ) da = x - y; else da = y - x; if ( x > z ) db = x - z; else db = z - x; if ( z > y ) dc = z - y; else dc = y - z; if ( da <= db && da <= dc ) reta = (x + y) >> 1; else if ( db <= da && db <= dc ) reta = (x + z) >> 1; else reta = (y + z) >> 1; return reta; } // Checks if the irq_pin is down static int isTouching() { return (platform_gpio_read(_irq_pin) == 0); } // transfer 16 bits from the touch display - returns the recived uint16_t static uint16_t transfer16(uint16_t _data) { union { uint16_t val; struct { uint8_t lsb; uint8_t msb; }; } t; t.val = _data; t.msb = platform_spi_send_recv(1, 8, t.msb); t.lsb = platform_spi_send_recv(1, 8, t.lsb); return t.val; } // reads the value from the touch panel static uint16_t _readLoop(uint8_t ctrl, uint8_t max_samples) { uint16_t prev = 0xffff, cur = 0xffff; uint8_t i = 0; do { prev = cur; cur = platform_spi_send_recv(1, 8 , 0); cur = (cur << 4) | (platform_spi_send_recv(1, 8 , ctrl) >> 4); // 16 clocks -> 12-bits (zero-padded at end) } while ((prev != cur) && (++i < max_samples)); return cur; } // Returns the raw position information static void getRaw(uint16_t *vi, uint16_t *vj) { // Implementation based on TI Technical Note http://www.ti.com/lit/an/sbaa036/sbaa036.pdf // Disable interrupt: reading position generates false interrupt ETS_GPIO_INTR_DISABLE(); platform_gpio_write(_cs_pin, PLATFORM_GPIO_LOW); platform_spi_send_recv(1, 8 , CTRL_HI_X | CTRL_LO_DFR); // Send first control int *vi = _readLoop(CTRL_HI_X | CTRL_LO_DFR, 255); *vj = _readLoop(CTRL_HI_Y | CTRL_LO_DFR, 255); // Turn off ADC by issuing one more read (throwaway) // This needs to be done, because PD=0b11 (needed for MODE_DFR) will disable PENIRQ platform_spi_send_recv(1, 8 , 0); // Maintain 16-clocks/conversion; _readLoop always ends after issuing a control int platform_spi_send_recv(1, 8 , CTRL_HI_Y | CTRL_LO_SER); transfer16(0); // Flush last read, just to be sure platform_gpio_write(_cs_pin, PLATFORM_GPIO_HIGH); // Clear interrupt status GPIO_REG_WRITE(GPIO_STATUS_W1TC_ADDRESS, BIT(pin_num[_irq_pin])); // Enable interrupt again ETS_GPIO_INTR_ENABLE(); } // sets the calibration of the display static void setCalibration (uint16_t vi1, uint16_t vj1, uint16_t vi2, uint16_t vj2) { _cal_dx = _width - 2*CAL_MARGIN; _cal_dy = _height - 2*CAL_MARGIN; _cal_vi1 = (int32_t)vi1; _cal_vj1 = (int32_t)vj1; _cal_dvi = (int32_t)vi2 - vi1; _cal_dvj = (int32_t)vj2 - vj1; } // returns the position on the screen by also applying the calibration static void getPosition (uint16_t *x, uint16_t *y) { if (isTouching() == 0) { *x = *y = 0xffff; return; } uint16_t vi, vj; getRaw(&vi, &vj); // Map to (un-rotated) display coordinates *x = (uint16_t)(_cal_dx * (vj - _cal_vj1) / _cal_dvj + CAL_MARGIN); if (*x > 0x7fff) *x = 0; *y = (uint16_t)(_cal_dy * (vi - _cal_vi1) / _cal_dvi + CAL_MARGIN); if (*y > 0x7fff) *y = 0; } // Lua: xpt2046.init(cspin, irqpin, height, width) static int xpt2046_init( lua_State* L ) { _cs_pin = luaL_checkinteger( L, 1 ); _irq_pin = luaL_checkinteger( L, 2 ); _height = luaL_checkinteger( L, 3 ); _width = luaL_checkinteger( L, 4 ); // set pins correct platform_gpio_mode(_cs_pin, PLATFORM_GPIO_OUTPUT, PLATFORM_GPIO_FLOAT ); setCalibration( /*vi1=*/((int32_t)CAL_MARGIN) * ADC_MAX / _width, /*vj1=*/((int32_t)CAL_MARGIN) * ADC_MAX / _height, /*vi2=*/((int32_t)_width - CAL_MARGIN) * ADC_MAX / _width, /*vj2=*/((int32_t)_height - CAL_MARGIN) * ADC_MAX / _height ); // assume spi was inited before with a clockDiv of >=16 // as higher spi clock speed produced inaccurate results // do first powerdown platform_gpio_write(_cs_pin, PLATFORM_GPIO_LOW); // Issue a throw-away read, with power-down enabled (PD{1,0} == 0b00) // Otherwise, ADC is disabled platform_spi_send_recv(1, 8, CTRL_HI_Y | CTRL_LO_SER); transfer16(0); // Flush, just to be sure platform_gpio_write(_cs_pin, PLATFORM_GPIO_HIGH); return 0; } // Lua: xpt2046.isTouched() static int xpt2046_isTouched( lua_State* L ) { lua_pushboolean( L, isTouching()); return 1; } // Lua: xpt2046.setCalibration(a,b,c,d) static int xpt2046_setCalibration( lua_State* L ) { int32_t a = luaL_checkinteger( L, 1 ); int32_t b = luaL_checkinteger( L, 2 ); int32_t c = luaL_checkinteger( L, 3 ); int32_t d = luaL_checkinteger( L, 4 ); setCalibration(a,b,c,d); return 0; } // Lua: xpt2046.xpt2046_getRaw() static int xpt2046_getRaw( lua_State* L ) { uint16_t x, y; getRaw(&x, &y); lua_pushinteger( L, x); lua_pushinteger( L, y); return 2; } // Lua: xpt2046.xpt2046_getPosition() static int xpt2046_getPosition( lua_State* L ) { uint16_t x, y; getPosition(&x, &y); lua_pushinteger( L, x); lua_pushinteger( L, y); return 2; } // Lua: xpt2046.xpt2046_getPositionAvg() static int xpt2046_getPositionAvg( lua_State* L ) { // Run three times uint16_t x1, y1, x2, y2, x3, y3; getPosition(&x1, &y1); getPosition(&x2, &y2); getPosition(&x3, &y3); // Average the two best results int16_t x = besttwoavg(x1,x2,x3); int16_t y = besttwoavg(y1,y2,y3); lua_pushinteger( L, x); lua_pushinteger( L, y); return 2; } // Module function map LROT_BEGIN(xpt2046) LROT_FUNCENTRY( isTouched, xpt2046_isTouched ) LROT_FUNCENTRY( getRaw, xpt2046_getRaw ) LROT_FUNCENTRY( getPosition, xpt2046_getPosition ) LROT_FUNCENTRY( getPositionAvg, xpt2046_getPositionAvg ) LROT_FUNCENTRY( setCalibration, xpt2046_setCalibration ) LROT_FUNCENTRY( init, xpt2046_init ) LROT_END( xpt2046, NULL, 0 ) NODEMCU_MODULE(XPT2046, "xpt2046", xpt2046, NULL);