/* UTouch.cpp - Arduino/chipKit library support for Color TFT LCD Touch screens Copyright (C)2010-2013 Henning Karlsen. All right reserved Basic functionality of this library are based on the demo-code provided by ITead studio. You can find the latest version of the library at http://www.henningkarlsen.com/electronics If you make any modifications or improvements to the code, I would appreciate that you share the code with me so that I might include it in the next release. I can be contacted through http://www.henningkarlsen.com/electronics/contact.php This library is free software; you can redistribute it and/or modify it under the terms of the CC BY-NC-SA 3.0 license. Please see the included documents for further information. */ #include "UTouch.h" #include "UTouchCD.h" UTouch::UTouch(byte tclk, byte tcs, byte din, byte dout, byte irq) { T_CLK = tclk; T_CS = tcs; T_DIN = din; T_DOUT = dout; T_IRQ = irq; } void UTouch::InitTouch(byte orientation) { orient = orientation; _default_orientation = CAL_S>>31; touch_x_left = (CAL_X>>14) & 0x3FFF; touch_x_right = CAL_X & 0x3FFF; touch_y_top = (CAL_Y>>14) & 0x3FFF; touch_y_bottom = CAL_Y & 0x3FFF; disp_x_size = (CAL_S>>12) & 0x0FFF; disp_y_size = CAL_S & 0x0FFF; prec = 10; pinMode(T_CLK, OUTPUT); pinMode(T_CS, OUTPUT); pinMode(T_DIN, OUTPUT); pinMode(T_DOUT, INPUT); pinMode(T_IRQ, OUTPUT); digitalWrite(T_CS, HIGH); digitalWrite(T_CLK, HIGH); digitalWrite(T_DIN, HIGH); digitalWrite(T_CLK, HIGH); } void UTouch::touch_WriteData(byte data) { byte temp; byte nop; temp=data; digitalWrite(T_CLK,LOW); for(byte count=0; count<8; count++) { if(temp & 0x80) digitalWrite(T_DIN, HIGH); else digitalWrite(T_DIN, LOW); temp = temp << 1; digitalWrite(T_CLK, LOW); nop++; digitalWrite(T_CLK, HIGH); nop++; } } word UTouch::touch_ReadData() { byte nop; word data = 0; for(byte count=0; count<12; count++) { data <<= 1; digitalWrite(T_CLK, HIGH); nop++; digitalWrite(T_CLK, LOW); nop++; if (digitalRead(T_DOUT)) data++; } return(data); } void UTouch::read() { unsigned long tx=0, temp_x=0; unsigned long ty=0, temp_y=0; int datacount=0; digitalWrite(T_CS,LOW); for (int i=0; imax(touch_x_left, touch_x_right)) or (temp_x==0) or (temp_y>max(touch_y_top, touch_y_bottom)) or (temp_y==0))) { ty+=temp_x; tx+=temp_y; datacount++; } } digitalWrite(T_CS,HIGH); if (datacount>0) { if (orient == _default_orientation) { TP_X=tx/datacount; TP_Y=ty/datacount; } else { TP_X=ty/datacount; TP_Y=tx/datacount; } } else { TP_X=-1; TP_Y=-1; } } bool UTouch::dataAvailable() { bool avail; pinMode(T_IRQ, INPUT); avail = !digitalRead(T_IRQ); pinMode(T_IRQ, OUTPUT); return avail; } int UTouch::getX() { long c; if (orient == _default_orientation) { c = long(long(TP_X - touch_x_left) * (disp_x_size)) / long(touch_x_right - touch_x_left); if (c<0) c = 0; if (c>disp_x_size) c = disp_x_size; } else { if (_default_orientation == PORTRAIT) c = long(long(TP_X - touch_y_top) * (-disp_y_size)) / long(touch_y_bottom - touch_y_top) + long(disp_y_size); else c = long(long(TP_X - touch_y_top) * (disp_y_size)) / long(touch_y_bottom - touch_y_top); if (c<0) c = 0; if (c>disp_y_size) c = disp_y_size; } return c; } int UTouch::getY() { int c; if (orient == _default_orientation) { c = long(long(TP_Y - touch_y_top) * (disp_y_size)) / long(touch_y_bottom - touch_y_top); if (c<0) c = 0; if (c>disp_y_size) c = disp_y_size; } else { if (_default_orientation == PORTRAIT) c = long(long(TP_Y - touch_x_left) * (disp_x_size)) / long(touch_x_right - touch_x_left); else c = long(long(TP_Y - touch_x_left) * (-disp_x_size)) / long(touch_x_right - touch_x_left) + long(disp_x_size); if (c<0) c = 0; if (c>disp_x_size) c = disp_x_size; } return c; } void UTouch::setPrecision(byte precision) { switch (precision) { case PREC_LOW: prec=1; break; case PREC_MEDIUM: prec=10; break; case PREC_HI: prec=25; break; case PREC_EXTREME: prec=100; break; default: prec=10; break; } }