Duncan McIntyre
/
UniGraphic
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Dependents: TouchScreenCalibrate TouchScreenGUIDemo
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UniGraphic
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GraphicsDisplay
Protocols/SPI16.cpp
- Committer:
- Geremia
- Date:
- 2015-03-23
- Revision:
- 20:14daa48ffd4c
- Parent:
- 11:b842b8e332cb
- Child:
- 34:091b954c3205
File content as of revision 20:14daa48ffd4c:
/* mbed UniGraphic library - SPI16 protocol class
* Copyright (c) 2015 Giuliano Dianda
* Released under the MIT License: http://mbed.org/license/mit
*
* Derived work of:
*
* mbed library for 240*320 pixel display TFT based on ILI9341 LCD Controller
* Copyright (c) 2013 Peter Drescher - DC2PD
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
* THE SOFTWARE.
*/
#include "SPI16.h"
SPI16::SPI16(int Hz, PinName mosi, PinName miso, PinName sclk, PinName CS, PinName reset, PinName DC)
: _CS(CS), _spi(mosi, miso, sclk), _reset(reset), _DC(DC)
{
_reset = 1;
_DC=1;
_CS=1;
_spi.format(16,0); // 8 bit spi mode 0
// _spi.frequency(12000000); // 10 Mhz SPI clock, 12mhz for F411
_spi.frequency(Hz);
hw_reset();
}
void SPI16::wr_cmd8(unsigned char cmd)
{
_spi.format(8,0); // it takes time, better use wr_cmd16 with NOP cmd
_DC.write(0); // 0=cmd
_spi.write(cmd); // write 8bit
_spi.format(16,0);
_DC.write(1); // 1=data next
}
void SPI16::wr_data8(unsigned char data)
{
_spi.format(8,0); // it takes time, check prev cmd parameter, in case use wr_data16 with repeated byte
_spi.write(data); // write 8bit
_spi.format(16,0);
}
void SPI16::wr_cmd16(unsigned short cmd)
{
_DC.write(0); // 0=cmd
_spi.write(cmd); // write 16bit
_DC.write(1); // 1=data next
}
void SPI16::wr_data16(unsigned short data)
{
_spi.write(data); // write 16bit
}
void SPI16::wr_gram(unsigned short data)
{
_spi.write(data); // write 16bit
}
void SPI16::wr_gram(unsigned short data, unsigned int count)
{
while(count)
{
_spi.write(data);
count--;
}
}
void SPI16::wr_grambuf(unsigned short* data, unsigned int lenght)
{
while(lenght)
{
_spi.write(*data);
data++;
lenght--;
}
}
unsigned short SPI16::rd_gram(bool convert)
{
unsigned int r=0;
r |= _spi.write(0); // 16bit, whole first byte is dummy, second is red
r <<= 16;
r |= _spi.write(0);
if(convert)
{
// gram is 18bit/pixel, if you set 16bit/pixel (cmd 3A), during writing the 16bits are expanded to 18bit
// during reading, you read the raw 18bit gram
r = RGB24to16((r&0xFF0000)>>16, (r&0xFF00)>>8, r&0xFF);// 18bit pixel padded to 24bits, rrrrrr00_gggggg00_bbbbbb00, converted to 16bit
}
else r >>= 8;
_CS = 1; // force CS HIG to interupt the "read state"
_CS = 0;
return (unsigned short)r;
}
unsigned int SPI16::rd_reg_data32(unsigned char reg)
{
wr_cmd8(reg);
unsigned int r=0;
r |= _spi.write(0); // we get only 15bit valid, first bit was the dummy cycle
r <<= 16;
r |= _spi.write(0);
r <<= 1; // 32bits are aligned, now collecting bit_0
r |= (_spi.write(0) >> 15);
// we clocked 15 more bit so ILI waiting for 16th, we need to reset spi bus
_CS = 1; // force CS HIG to interupt the cmd
_CS = 0;
return r;
}
unsigned int SPI16::rd_extcreg_data32(unsigned char reg, unsigned char SPIreadenablecmd)
{
unsigned int r=0;
for(int regparam=1; regparam<4; regparam++) // when reading EXTC regs, first parameter is always dummy, so start with 1
{
wr_cmd8(SPIreadenablecmd); // spi-in enable cmd, 0xD9 (ili9341) or 0xFB (ili9488) or don't know
wr_data8(0xF0|regparam); // in low nibble specify which reg parameter we want
wr_cmd8(reg); // now send cmd (select register we want to read)
r <<= 8;
r |= (_spi.write(0) >> 8);
}
_CS = 1; // force CS HIG to interupt the cmd
_CS = 0;
return r;
}
// ILI932x specific
void SPI16::dummyread()
{
_spi.write(0); // dummy read
}
// ILI932x specific
void SPI16::reg_select(unsigned char reg, bool forread)
{
_CS = 1; //fixme: really needed?
_CS = 0; //fixme: really needed?
_spi.write(0x70); // write 0070
_spi.write(reg); // write 16bit
_CS = 1; //fixme: really needed?
_CS = 0; //fixme: really needed?
if(forread) _spi.write(0x73);
else _spi.write(0x72);
}
// ILI932x specific
void SPI16::reg_write(unsigned char reg, unsigned short data)
{
_CS = 1; //fixme: really needed?
_CS = 0; //fixme: really needed?
_spi.write(0x70); // write 0070
_spi.write(reg); // write 16bit
_CS = 1; //fixme: really needed?
_CS = 0; //fixme: really needed?
_spi.write(0x72); // write 0072
_spi.write(data); // write 16bit
}
// ILI932x specific
unsigned short SPI16::reg_read(unsigned char reg)
{
unsigned int r=0;
_CS = 1; //fixme: really needed?
_CS = 0; //fixme: really needed?
_spi.write(0x70); // write 0070
_spi.write(reg); // write 16bit
_CS = 1; //fixme: really needed?
_CS = 0; //fixme: really needed?
_spi.write(0x73); // write 0073
r |= _spi.write(0); // read 16bit, 8bit dummy + 8bit valid
r <<= 16;
r |= _spi.write(0); // read 16bit
_CS = 1; //fixme: to resync, maybe really needed
_CS = 0; //fixme: to resync, maybe really needed
return (r>>8);
}
void SPI16::hw_reset()
{
wait_ms(15);
_DC = 1;
_CS = 1;
_reset = 0; // display reset
wait_ms(2);
_reset = 1; // end reset
wait_ms(100);
}
void SPI16::BusEnable(bool enable)
{
_CS = enable ? 0:1;
}