GraphicsDisplay
Basically i glued Peter Drescher and Simon Ford libs in a GraphicsDisplay class, then derived TFT or LCD class (which inherits Protocols class), then the most derived ones (Inits), which are per-display and are the only part needed to be adapted to diff hw.
Dependents: testUniGraphic_150217 maze_TFT_MMA8451Q TFT_test_frdm-kl25z TFT_test_NUCLEO-F411RE ... more
Diff: Protocols/SPI8.cpp
- Revision:
- 5:b222a9461d6b
- Parent:
- 4:12ba0ecc2c1f
- Child:
- 7:bb0383b91104
--- a/Protocols/SPI8.cpp Sun Feb 15 20:06:07 2015 +0000
+++ b/Protocols/SPI8.cpp Mon Feb 16 00:52:24 2015 +0000
@@ -135,6 +135,52 @@
_CS = 1;
#endif
}
+unsigned int SPI8::rd_data32_wdummy()
+{
+#ifdef USE_CS
+ _CS = 0;
+#endif
+ unsigned int r=0;
+ _DC.write(1); // 1=data
+
+ r |= _spi.write(0); // we get only 7bit valid, first bit was the dummy cycle
+ r <<= 8;
+ r |= _spi.write(0);
+ r <<= 8;
+ r |= _spi.write(0);
+ r <<= 8;
+ r |= _spi.write(0);
+ r <<= 1; // 32bits are aligned, now collecting bit_0
+ r |= (_spi.write(0) >> 7);
+ // we clocked 7 more bit so ILI waiting for 8th, we need to reset spi bus
+ _CS = 1; // force CS HIG to interupt the cmd
+#ifndef USE_CS //if CS is not used, force fixed LOW again
+ _CS = 0;
+#endif
+ return r;
+}
+unsigned short SPI8::rd_gram()
+{
+#ifdef USE_CS
+ _CS = 0;
+#endif
+ unsigned int r=0;
+ _DC.write(1); // 1=data
+ _spi.write(0); // whole first byte is dummy
+ r |= _spi.write(0);
+ r <<= 8;
+ r |= _spi.write(0);
+ r <<= 8;
+ r |= _spi.write(0);
+ _CS = 1; // force CS HIG to interupt the "read state"
+#ifndef USE_CS //if CS is not used, force fixed LOW again
+ _CS = 0;
+#endif
+ // 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 = RGB18to16((r&0xFC0000)>>16, (r&0xFC00)>>8, r&0xFC);// 18bit pixel, rrrrrr00_gggggg00_bbbbbb00, converted to 16bit
+ return (unsigned short)r;
+}
void SPI8::hw_reset()
{
wait_ms(15);
