Dmitry Shtatnov
mbed library for XPT2046 SPI Touchscreen Controller (TFT_320QVT module)
Dependents: TFT_320QVT_Window_Drag_Demo TFT_320QVT_HelloWorld UTFT_SSD1289 Ejemplo_TFT ... more
UTouch.cpp
- Committer:
- rpocc
- Date:
- 2016-01-11
- Revision:
- 0:a275ef704eb8
File content as of revision 0:a275ef704eb8:
/** \file UTouch.h
* \brief mbed library for XPT2046 SPI Touchscreen Controller (TFT_320QVT module).
* \copyright GNU Public License, v2. or later
*
* A known display with this type of controller chip is the ITDB02-3.2S
* from http://imall.iteadstudio.com
*
* This library is based on the Arduino/chipKIT UTFT library by Henning
* Karlsen, http://www.rinkydinkelectronics.com/library.php?id=55
*
* Pressure sensivity added by Dmitry Shtatnov
*
* Copyright (C)2010-2015 Henning Karlsen. All right reserved.
*
* Copyright (C)2016 Dmitry Shtatnov. All right reserved.
* http://modularsynth.ru/
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to:
*
* Free Software Foundation, Inc.
* 51 Franklin St, 5th Floor, Boston, MA 02110-1301, USA
*
*********************************************************************/
#include "UTouch.h"
#include "UTouchCD.h"
void UTouch::touch_WriteData(byte data)
{
byte temp;
temp=data;
P_CLK = LOW;
for(byte count=0; count<8; count++)
{
if(temp & 0x80)
P_DIN = HIGH;
else
P_DIN = LOW;
temp = temp << 1;
P_CLK = LOW;
P_CLK = HIGH;
}
}
word UTouch::touch_ReadData()
{
word data = 0;
for(byte count=0; count<12; count++)
{
data <<= 1;
P_CLK = HIGH;
P_CLK = LOW;
if (P_DOUT)
data++;
}
return(data);
}
UTouch::UTouch(PinName tclk, PinName tcs, PinName din, PinName dout, PinName irq)
:P_CLK(tclk), P_CS(tcs), P_DIN(din), P_DOUT(dout), P_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;
P_IRQ.output();
P_CS = HIGH;
P_CLK = HIGH;
P_DIN = HIGH;
P_IRQ = HIGH;
touch_tresholdLow = -1024;
touch_tresholdHigh = 2048;
}
int16_t UTouch::touch_getrawdata(uint8_t code) {
int16_t tmp;
P_CS = LOW;
P_IRQ.input();
if(!P_IRQ) {
touch_WriteData(code);
P_CLK = HIGH; P_CLK = LOW;
tmp = touch_ReadData();
}
else {
tmp = 0;
}
P_IRQ.output();
P_CS = LOW;
return tmp;
}
int16_t UTouch::GetPressure()
{
int16_t _ry, _rz1, _rz2;
_ry = GetYraw();
_rz1 = GetZ1raw();
_rz2 = GetZ2raw();
return _ry*_rz1/_rz2-_ry-5000;
}
void UTouch::SetTreshold(int16_t trshLow, int16_t trshHigh)
{
touch_tresholdLow = trshLow;
touch_tresholdHigh = trshLow;
}
int16_t UTouch::GetXraw()
{
return touch_getrawdata(0x90);
}
int16_t UTouch::GetYraw()
{
return touch_getrawdata(0xD0);
}
int16_t UTouch::GetZ1raw()
{
return touch_getrawdata(0xC0);
}
int16_t UTouch::GetZ2raw()
{
return touch_getrawdata(0xB0);
}
bool UTouch::Read()
{
unsigned long tx=0, temp_x=0;
unsigned long ty=0, temp_y=0;
unsigned long minx=99999, maxx=0;
unsigned long miny=99999, maxy=0;
int datacount=0;
uint16_t _press;
_press = GetPressure();
if((_press>touch_tresholdLow)&&(_press<touch_tresholdHigh))
{
P_CS = LOW;
P_IRQ.input();
for (int i=0; i<prec; i++)
{
if (!P_IRQ)
{
touch_WriteData(0x90);
P_CLK = HIGH; P_CLK = LOW;
temp_x=touch_ReadData();
if (!P_IRQ)
{
touch_WriteData(0xD0);
P_CLK = HIGH; P_CLK = LOW;
temp_y=touch_ReadData();
if ((temp_x>0) and (temp_x<4096) and (temp_y>0) and (temp_y<4096))
{
tx+=temp_x;
ty+=temp_y;
if (prec>5)
{
if (temp_x<minx)
minx=temp_x;
if (temp_x>maxx)
maxx=temp_x;
if (temp_y<miny)
miny=temp_y;
if (temp_y>maxy)
maxy=temp_y;
}
datacount++;
}
}
}
}
}
P_IRQ.output();
if (prec>5)
{
tx = tx-(minx+maxx);
ty = ty-(miny+maxy);
datacount -= 2;
}
P_CS = HIGH;
if ((datacount==(prec-2)) or (datacount==PREC_LOW))
{
if (orient == _default_orientation)
{
TP_X=ty/datacount;
TP_Y=tx/datacount;
return true;
}
else
{
TP_X=tx/datacount;
TP_Y=ty/datacount;
return true;
}
}
else
{
TP_X=-1;
TP_Y=-1;
return false;
}
}
bool UTouch::DataAvailable()
{
bool avail;
P_IRQ.input();
avail = !(P_IRQ);
P_IRQ.output();
return avail;
}
int16_t UTouch::GetX()
{
long c;
if ((TP_X==-1) or (TP_Y==-1))
return -1;
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;
}
int16_t UTouch::GetY()
{
int c;
if ((TP_X==-1) or (TP_Y==-1))
return -1;
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; // DO NOT CHANGE!
break;
case PREC_MEDIUM:
prec=12; // Iterations + 2
break;
case PREC_HI:
prec=27; // Iterations + 2
break;
case PREC_EXTREME:
prec=102; // Iterations + 2
break;
default:
prec=12; // Iterations + 2
break;
}
}
void UTouch::CalibrateRead()
{
unsigned long tx=0;
unsigned long ty=0;
P_CS = LOW;
touch_WriteData(0x90);
P_CLK = HIGH; P_CLK = LOW;
tx=touch_ReadData();
touch_WriteData(0xD0);
P_CLK = HIGH; P_CLK = LOW;
ty=touch_ReadData();
P_CS = HIGH;
TP_X=ty;
TP_Y=tx;
}