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/*
@ file EVE_commands . c
@ brief contains FT8xx / BT8xx functions
@ version 4.0
@ date 2020 - 04 - 13
@ author Rudolph Riedel , David Jade
@ section info
This file needs to be renamed to EVE_command . cpp for use with Arduino .
At least für ATSAM I had the best result with - O2 .
The c - standard is C99 .
@ section LICENSE
MIT License
Copyright ( c ) 2016 - 2020 Rudolph Riedel and David Jade
Permission is hereby granted , free of charge , to any person obtaining a copy of this software and associated documentation files ( the " Software " ) ,
to deal in the Software without restriction , including without limitation the rights to use , copy , modify , merge , publish , distribute ,
sublicense , and / or sell copies of the Software , and to permit persons to whom the Software is furnished to do so , subject to the following conditions :
The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software .
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 .
@ section History
4.1 LvGL edition
- This version is a heavily modified version of the MIT licensed FT81x code from https : //github.com/RudolphRiedel/FT800-FT813
This version is based on a fork by David Jade that added native SPI DMA support and stripped out non - ESP32 code .
It has also been trimmed down to suit LvGL ' s needs . Extra features can be enabled by defining FT81X_FULL
*/
# include <stdio.h>
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# include <string.h>
# if defined (BT81X_ENABLE)
# include <stdarg.h>
# endif
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# include "EVE.h"
# include "EVE_commands.h"
# include "freertos/FreeRTOS.h"
# include "freertos/task.h"
# include "driver/gpio.h"
# include "esp_log.h"
# include "soc/soc_memory_layout.h"
# include "disp_spi.h"
/* data structure for SPI reading that has (optional) space for inserted dummy byte */
typedef struct _spi_read_data {
# if defined(DISP_SPI_FULL_DUPLEX)
uint8_t _dummy_byte ;
# endif
union {
uint8_t byte ;
uint16_t word ;
uint32_t dword ;
} __attribute__ ( ( packed ) ) ;
} spi_read_data __attribute__ ( ( aligned ( 4 ) ) ) ;
/* Receive data helpers */
# define member_size(type, member) sizeof(((type *)0)->member)
# if defined(DISP_SPI_FULL_DUPLEX)
# define SPI_READ_DUMMY_LEN member_size(spi_read_data, _dummy_byte)
# else
# define SPI_READ_DUMMY_LEN 0
# endif
# define SPI_READ_BYTE_LEN (SPI_READ_DUMMY_LEN + member_size(spi_read_data, byte))
# define SPI_READ_WORD_LEN (SPI_READ_DUMMY_LEN + member_size(spi_read_data, word))
# define SPI_READ_DWORD_LEN (SPI_READ_DUMMY_LEN + member_size(spi_read_data, dword))
// EVE Memory Commands - used with EVE_memWritexx and EVE_memReadxx
# define MEM_WRITE 0x80 // EVE Host Memory Write
# define MEM_READ 0x00 // EVE Host Memory Read
# define MEM_WRITE_24 0x800000 // EVE Host Memory Write (24-bit format)
volatile uint16_t cmdOffset = 0x0000 ; /* offset for the 4k co-processor FIFO */
volatile uint8_t cmd_burst = 0 ; /* flag to indicate cmd-burst is active */
// Buffer for SPI transactions
uint8_t SPIBuffer [ SPI_BUFFER_SIZE ] ; // must be in DMA capable memory if DMA is used!
uint16_t SPIBufferIndex = 0 ;
disp_spi_send_flag_t SPIInherentSendFlags = 0 ; // additional inherent SPI flags (for DIO/QIO mode switching)
uint8_t SPIDummyReadBits = 0 ; // Dummy bits for reading in DIO/QIO modes
// Macros to make SPI use explicit and less verbose
// (macros do obscure code a little but they also help code search and readability)
// Buffer a byte
# define BUFFER_SPI_BYTE(byte) SPIBuffer[SPIBufferIndex++] = (byte);
// Buffer a Word - little Endian format
# define BUFFER_SPI_WORD(word) \
BUFFER_SPI_BYTE ( ( uint8_t ) ( word ) ) \
BUFFER_SPI_BYTE ( ( uint8_t ) ( ( word ) > > 8 ) )
// Buffer a DWord - little Endian format
# define BUFFER_SPI_DWORD(dword) \
BUFFER_SPI_BYTE ( ( uint8_t ) ( dword ) ) \
BUFFER_SPI_BYTE ( ( uint8_t ) ( ( dword ) > > 8 ) ) \
BUFFER_SPI_BYTE ( ( uint8_t ) ( ( dword ) > > 16 ) ) \
BUFFER_SPI_BYTE ( ( uint8_t ) ( ( dword ) > > 24 ) )
// Buffer a 24-bit SPI Memory Write address - big Endian format
# define BUFFER_SPI_WRITE_ADDRESS(addr) \
BUFFER_SPI_BYTE ( ( uint8_t ) ( ( addr ) > > 16 ) | MEM_WRITE ) \
BUFFER_SPI_BYTE ( ( uint8_t ) ( ( addr ) > > 8 ) ) \
BUFFER_SPI_BYTE ( ( uint8_t ) ( addr ) )
// Send buffer
# define SEND_SPI_BUFFER() \
disp_spi_transaction ( SPIBuffer , SPIBufferIndex , ( disp_spi_send_flag_t ) ( DISP_SPI_SEND_QUEUED | SPIInherentSendFlags ) , NULL , 0 , 0 ) ; \
SPIBufferIndex = 0 ;
// Wait for DMA queued SPI transactions to complete
# define WAIT_SPI() \
disp_wait_for_pending_transactions ( ) ;
void DELAY_MS ( uint16_t ms )
{
vTaskDelay ( ms / portTICK_PERIOD_MS ) ;
}
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# if EVE_USE_PDN
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void EVE_pdn_set ( void )
{
gpio_set_level ( EVE_PDN , 0 ) ; /* Power-Down low */
}
void EVE_pdn_clear ( void )
{
gpio_set_level ( EVE_PDN , 1 ) ; /* Power-Down high */
}
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# endif
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void spi_acquire ( )
{
disp_spi_acquire ( ) ;
}
void spi_release ( )
{
disp_spi_release ( ) ;
}
void EVE_cmdWrite ( uint8_t command , uint8_t parameter )
{
const uint8_t data [ ] =
{
command ,
parameter ,
0x00
} ;
disp_spi_transaction ( data , sizeof ( data ) , ( disp_spi_send_flag_t ) ( DISP_SPI_SEND_POLLING | SPIInherentSendFlags ) , NULL , 0 , 0 ) ;
}
uint8_t EVE_memRead8 ( uint32_t ftAddress )
{
spi_read_data data = { } ;
disp_spi_send_flag_t readflags = ( disp_spi_send_flag_t ) ( DISP_SPI_RECEIVE | DISP_SPI_SEND_POLLING | DISP_SPI_ADDRESS_24 | SPIInherentSendFlags ) ;
# if defined(DISP_SPI_HALF_DUPLEX)
// in half-duplex mode the FT81x requires dummy bits
readflags | = DISP_SPI_VARIABLE_DUMMY ;
# endif
disp_spi_transaction ( NULL , SPI_READ_BYTE_LEN , readflags , ( uint8_t * ) & data , ftAddress , SPIDummyReadBits ) ;
return data . byte ; /* return byte read */
}
uint16_t EVE_memRead16 ( uint32_t ftAddress )
{
# if defined(DISP_SPI_HALF_DUPLEX)
// There are esp32 issues when reading in DMA half-duplex mode that prevents reading more than 1 byte at a time so we work around that
uint16_t word = 0 ;
for ( int i = 0 ; i < sizeof ( word ) ; i + + )
{
word | = ( EVE_memRead8 ( ftAddress + i ) < < i * 8 ) ;
}
return word ;
# endif
spi_read_data data = { } ;
disp_spi_send_flag_t readflags = ( disp_spi_send_flag_t ) ( DISP_SPI_RECEIVE | DISP_SPI_SEND_POLLING | DISP_SPI_ADDRESS_24 | SPIInherentSendFlags ) ;
# if defined(DISP_SPI_HALF_DUPLEX)
// in half-duplex mode the FT81x requires dummy bits
readflags | = DISP_SPI_VARIABLE_DUMMY ;
# endif
disp_spi_transaction ( NULL , SPI_READ_WORD_LEN , readflags , ( uint8_t * ) & data , ftAddress , SPIDummyReadBits ) ;
return data . word ; /* return integer read */
}
uint32_t EVE_memRead32 ( uint32_t ftAddress )
{
# if defined(DISP_SPI_HALF_DUPLEX)
// There are esp32 issues when reading in DMA half-duplex mode that prevents reading more than 1 byte at a time so we work around that
uint32_t dword = 0 ;
for ( int i = 0 ; i < sizeof ( dword ) ; i + + )
{
dword | = ( EVE_memRead8 ( ftAddress + i ) < < i * 8 ) ;
}
return dword ;
# endif
spi_read_data data = { } ;
disp_spi_send_flag_t readflags = ( disp_spi_send_flag_t ) ( DISP_SPI_RECEIVE | DISP_SPI_SEND_POLLING | DISP_SPI_ADDRESS_24 | SPIInherentSendFlags ) ;
# if defined(DISP_SPI_HALF_DUPLEX)
// in half-duplex mode the FT81x requires dummy bits
readflags | = DISP_SPI_VARIABLE_DUMMY ;
# endif
disp_spi_transaction ( NULL , SPI_READ_DWORD_LEN , readflags , ( uint8_t * ) & data , ftAddress , SPIDummyReadBits ) ;
return data . dword ; /* return integer read */
}
void EVE_memWrite8 ( uint32_t ftAddress , uint8_t ftData8 )
{
disp_spi_transaction ( & ftData8 , sizeof ( ftData8 ) , ( disp_spi_send_flag_t ) ( DISP_SPI_SEND_POLLING | DISP_SPI_ADDRESS_24 | SPIInherentSendFlags ) , NULL , ( ftAddress | MEM_WRITE_24 ) , 0 ) ;
}
void EVE_memWrite16 ( uint32_t ftAddress , uint16_t ftData16 )
{
disp_spi_transaction ( ( uint8_t * ) & ftData16 , sizeof ( ftData16 ) , ( disp_spi_send_flag_t ) ( DISP_SPI_SEND_POLLING | DISP_SPI_ADDRESS_24 | SPIInherentSendFlags ) , NULL , ( ftAddress | MEM_WRITE_24 ) , 0 ) ;
}
void EVE_memWrite32 ( uint32_t ftAddress , uint32_t ftData32 )
{
disp_spi_transaction ( ( uint8_t * ) & ftData32 , sizeof ( ftData32 ) , ( disp_spi_send_flag_t ) ( DISP_SPI_SEND_POLLING | DISP_SPI_ADDRESS_24 | SPIInherentSendFlags ) , NULL , ( ftAddress | MEM_WRITE_24 ) , 0 ) ;
}
// write to EVE memory via SPI memory-mapped protocol using queued SPI transactions (i.e. DMA)
// Note: data should be in DMA-capable memory!
void EVE_memWrite_buffer ( uint32_t ftAddress , const uint8_t * data , uint32_t len , bool LvGL_Flush )
{
// chunk by DMA transfer size (SPI_TRANSER_SIZE)
uint32_t bytes_left = len ;
while ( bytes_left > 0 )
{
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uint32_t block_len = 0 ;
# if defined (SPI_TRANSFER_SIZE)
block_len = ( bytes_left > SPI_TRANSER_SIZE ? SPI_TRANSER_SIZE : bytes_left ) ;
# else
/* ToDo Update SPI_TRANSFER_SIZE calculation, it's based on the DISP_BUF_SIZE */
# endif
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// only send flush on last chunk
disp_spi_send_flag_t flush_flag = 0 ;
if ( LvGL_Flush & & bytes_left - block_len = = 0 )
{
flush_flag = DISP_SPI_SIGNAL_FLUSH ;
}
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disp_spi_transaction ( data , block_len , ( disp_spi_send_flag_t ) ( DISP_SPI_SEND_QUEUED | DISP_SPI_ADDRESS_24 | SPIInherentSendFlags | flush_flag ) , NULL , ( ftAddress | MEM_WRITE_24 ) , 0 ) ;
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data + = block_len ;
ftAddress + = block_len ;
bytes_left - = block_len ;
}
}
/* Check if the graphics processor completed executing the current command list. */
/* This is the case when REG_CMD_READ matches cmdOffset, indicating that all commands have been executed. */
uint8_t EVE_busy ( void )
{
uint16_t cmdBufferRead ;
WAIT_SPI ( ) ; // can't tell if EVE is busy if SPI is taking place
cmdBufferRead = EVE_memRead16 ( REG_CMD_READ ) ; /* read the graphics processor read pointer */
if ( cmdBufferRead = = 0xFFF ) /* we have a co-processor fault, make EVE play with us again */
{
# if defined (BT81X_ENABLE)
uint16_t copro_patch_pointer ;
copro_patch_pointer = EVE_memRead16 ( REG_COPRO_PATCH_DTR ) ;
# endif
EVE_memWrite8 ( REG_CPURESET , 1 ) ; /* hold co-processor engine in the reset condition */
EVE_memWrite16 ( REG_CMD_READ , 0 ) ; /* set REG_CMD_READ to 0 */
EVE_memWrite16 ( REG_CMD_WRITE , 0 ) ; /* set REG_CMD_WRITE to 0 */
EVE_memWrite32 ( REG_CMD_DL , 0 ) ; /* reset REG_CMD_DL to 0 as required by the BT81x programming guide, should not hurt FT8xx */
cmdOffset = 0 ;
EVE_memWrite8 ( REG_CPURESET , 0 ) ; /* set REG_CMD_WRITE to 0 to restart the co-processor engine*/
# if defined (BT81X_ENABLE)
EVE_memWrite16 ( REG_COPRO_PATCH_DTR , copro_patch_pointer ) ;
DELAY_MS ( 5 ) ; /* just to be safe */
// reset the SPI buffer just to be cautious
SPIBufferIndex = 0 ;
BUFFER_SPI_WRITE_ADDRESS ( EVE_RAM_CMD + cmdOffset )
BUFFER_SPI_DWORD ( CMD_FLASHATTACH )
BUFFER_SPI_DWORD ( CMD_FLASHFAST )
SEND_SPI_BUFFER ( )
WAIT_SPI ( )
cmdOffset + = 8 ;
BUFFER_SPI_BYTE
BUFFER_SPI_BYTE ( MEM_WRITE | 0x30 ) ; /* send Memory Write plus high address byte of REG_CMD_WRITE for EVE81x */
BUFFER_SPI_BYTE ( 0x20 ) ; /* send middle address byte of REG_CMD_WRITE for EVE81x */
BUFFER_SPI_BYTE ( 0xfc ) ; /* send low address byte of REG_CMD_WRITE for EVE81x */
BUFFER_SPI_WORD ( cmdOffset ) ;
SEND_SPI_BUFFER ( )
WAIT_SPI ( )
EVE_memWrite8 ( REG_PCLK , EVE_PCLK ) ; /* restore REG_PCLK in case it was set to zero by an error */
DELAY_MS ( 5 ) ; /* just to be safe */
# endif
}
if ( cmdOffset ! = cmdBufferRead )
{
return 1 ;
}
else
{
return 0 ;
}
}
void EVE_get_cmdoffset ( void )
{
cmdOffset = EVE_memRead16 ( REG_CMD_WRITE ) ;
}
void EVE_inc_cmdoffset ( uint16_t increment )
{
cmdOffset + = increment ;
cmdOffset & = 0x0fff ; // circular
}
/* order the command co-processor to start processing its FIFO queue and do not wait for completion */
void EVE_cmd_start ( void )
{
WAIT_SPI ( ) ;
EVE_memWrite16 ( REG_CMD_WRITE , cmdOffset ) ;
}
/* order the command co-processor to start processing its FIFO queue and wait for completion */
void EVE_cmd_execute ( void )
{
EVE_cmd_start ( ) ;
while ( EVE_busy ( ) ) ;
}
/* begin a co-processor command, this is used for all non-display-list commands */
void EVE_begin_cmd ( uint32_t command )
{
BUFFER_SPI_WRITE_ADDRESS ( EVE_RAM_CMD + cmdOffset )
BUFFER_SPI_DWORD ( command )
EVE_inc_cmdoffset ( 4 ) ; // only count the command size - not the write address directive
}
/* co-processor commands that are not used in displays lists, these are no to be used with async transfers */
/* this is meant to be called outside display-list building, does not support cmd-burst */
void EVE_cmd_memzero ( uint32_t ptr , uint32_t num )
{
EVE_begin_cmd ( CMD_MEMZERO ) ;
BUFFER_SPI_DWORD ( ptr )
BUFFER_SPI_DWORD ( num )
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EVE_inc_cmdoffset ( 8 ) ;
SEND_SPI_BUFFER ( )
}
/* this is meant to be called outside display-list building, does not support cmd-burst */
void EVE_cmd_memset ( uint32_t ptr , uint8_t value , uint32_t num )
{
EVE_begin_cmd ( CMD_MEMSET ) ;
BUFFER_SPI_DWORD ( ptr )
BUFFER_SPI_DWORD ( value )
BUFFER_SPI_DWORD ( num )
EVE_inc_cmdoffset ( 12 ) ;
SEND_SPI_BUFFER ( )
}
/* this is meant to be called outside display-list building, does not support cmd-burst */
void block_transfer ( const uint8_t * data , uint32_t len ) ; // forward ref
void EVE_cmd_memwrite ( uint32_t dest , uint32_t num , const uint8_t * data )
{
EVE_begin_cmd ( CMD_MEMWRITE ) ;
BUFFER_SPI_DWORD ( dest )
BUFFER_SPI_DWORD ( num )
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EVE_inc_cmdoffset ( 8 ) ;
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SEND_SPI_BUFFER ( )
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block_transfer ( data , num ) ; // block_transfer is immediate - make sure CMD buffer is prepared!
}
/* this is meant to be called outside display-list building, does not support cmd-burst */
void EVE_cmd_memcpy ( uint32_t dest , uint32_t src , uint32_t num )
{
EVE_begin_cmd ( CMD_MEMCPY ) ;
BUFFER_SPI_DWORD ( dest )
BUFFER_SPI_DWORD ( src )
BUFFER_SPI_DWORD ( num )
EVE_inc_cmdoffset ( 12 ) ;
SEND_SPI_BUFFER ( )
}
/* commands for loading image data into FT8xx CMD memory, with DWORD padding: */
/* Note: these are immediate SPI transfers and assume the CMD buffer is prepared to process the data, etc... */
// Note: data should be in DMA-capable memory!
void eve_spi_CMD_write ( uint64_t addr , const uint8_t * data , uint16_t len )
{
// we can use a direct transaction because it is already chunked
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disp_spi_transaction ( data , len , ( disp_spi_send_flag_t ) ( DISP_SPI_SEND_QUEUED | DISP_SPI_ADDRESS_24 | SPIInherentSendFlags ) , NULL , ( addr | MEM_WRITE_24 ) , 0 ) ;
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uint8_t padding = len & 0x03 ; /* 0, 1, 2 or 3 */
padding = 4 - padding ; /* 4, 3, 2 or 1 */
padding & = 3 ; /* 3, 2, 1 or 0 */
// padding is another transaction and needs it's own address (this is a DMA requirement)
if ( padding )
{
addr + = len ;
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uint8_t padData [ 4 ] = { 0 } ;
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disp_spi_transaction ( padData , padding , ( disp_spi_send_flag_t ) ( DISP_SPI_SEND_QUEUED | DISP_SPI_ADDRESS_24 | SPIInherentSendFlags ) , NULL , ( addr | MEM_WRITE_24 ) , 0 ) ;
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len + = padding ;
}
EVE_inc_cmdoffset ( len ) ;
}
void block_transfer ( const uint8_t * data , uint32_t len )
{
WAIT_SPI ( ) ; // SPI commands must be in CMD buffer first
uint32_t bytes_left ;
bytes_left = len ;
while ( bytes_left > 0 )
{
uint32_t block_len ;
block_len = ( bytes_left > BLOCK_TRANSFER_SIZE ? BLOCK_TRANSFER_SIZE : bytes_left ) ;
eve_spi_CMD_write ( EVE_RAM_CMD + cmdOffset , data , block_len ) ;
data + = block_len ;
bytes_left - = block_len ;
// signal to process data
EVE_cmd_execute ( ) ;
}
}
# if FT81X_FULL
/* this is meant to be called outside display-list building, it includes executing the command and waiting for completion, does not support cmd-burst */
void EVE_cmd_inflate ( uint32_t ptr , const uint8_t * data , uint16_t len )
{
EVE_begin_cmd ( CMD_INFLATE ) ;
BUFFER_SPI_DWORD ( ptr )
EVE_inc_cmdoffset ( 4 ) ;
SEND_SPI_BUFFER ( )
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block_transfer ( data , len ) ; // block_transfer is immediate - make sure CMD buffer is prepared!
}
# if defined (BT81X_ENABLE)
/* this is meant to be called outside display-list building, it includes executing the command and waiting for completion, does not support cmd-burst */
void EVE_cmd_inflate2 ( uint32_t ptr , uint32_t options , const uint8_t * data , uint16_t len )
{
EVE_begin_cmd ( CMD_INFLATE2 ) ;
BUFFER_SPI_DWORD ( ptr )
BUFFER_SPI_DWORD ( options )
EVE_inc_cmdoffset ( 8 ) ;
SEND_SPI_BUFFER ( )
if ( options = = 0 ) /* direct data, not by Media-FIFO or Flash */
{
block_transfer ( data , len ) ; // block_transfer is immediate - make sure CMD buffer is prepared!
}
}
# endif
/* this is meant to be called outside display-list building, it includes executing the command and waiting for completion, does not support cmd-burst */
void EVE_cmd_loadimage ( uint32_t ptr , uint32_t options , const uint8_t * data , uint16_t len )
{
EVE_begin_cmd ( CMD_LOADIMAGE ) ;
BUFFER_SPI_DWORD ( ptr )
BUFFER_SPI_DWORD ( options )
EVE_inc_cmdoffset ( 8 ) ;
SEND_SPI_BUFFER ( )
# if defined (BT81X_ENABLE)
if ( ( ( options & EVE_OPT_MEDIAFIFO ) = = 0 ) & & ( ( options & EVE_OPT_FLASH ) = = 0 ) ) /* direct data, neither by Media-FIFO or from Flash */
# elif defined (FT81X_ENABLE)
if ( ( options & EVE_OPT_MEDIAFIFO ) = = 0 ) /* direct data, not by Media-FIFO */
# endif
{
block_transfer ( data , len ) ; // block_transfer is immediate - make sure CMD buffer is prepared!
}
}
# if defined (FT81X_ENABLE)
/* this is meant to be called outside display-list building, does not support cmd-burst */
void EVE_cmd_mediafifo ( uint32_t ptr , uint32_t size )
{
EVE_begin_cmd ( CMD_MEDIAFIFO ) ;
BUFFER_SPI_DWORD ( ptr )
BUFFER_SPI_DWORD ( size )
EVE_inc_cmdoffset ( 8 ) ;
SEND_SPI_BUFFER ( )
}
# endif
/* this is meant to be called outside display-list building, does not support cmd-burst */
void EVE_cmd_interrupt ( uint32_t ms )
{
EVE_begin_cmd ( CMD_INTERRUPT ) ;
BUFFER_SPI_DWORD ( ms )
EVE_inc_cmdoffset ( 4 ) ;
SEND_SPI_BUFFER ( )
}
/* this is meant to be called outside display-list building, does not support cmd-burst */
void EVE_cmd_setfont ( uint32_t font , uint32_t ptr )
{
EVE_begin_cmd ( CMD_SETFONT ) ;
BUFFER_SPI_DWORD ( font )
BUFFER_SPI_DWORD ( ptr )
EVE_inc_cmdoffset ( 8 ) ;
SEND_SPI_BUFFER ( )
}
# if defined (FT81X_ENABLE)
/* this is meant to be called outside display-list building, does not support cmd-burst */
void EVE_cmd_setfont2 ( uint32_t font , uint32_t ptr , uint32_t firstchar )
{
EVE_begin_cmd ( CMD_SETFONT2 ) ;
BUFFER_SPI_DWORD ( font )
BUFFER_SPI_DWORD ( ptr )
BUFFER_SPI_DWORD ( firstchar )
EVE_inc_cmdoffset ( 12 ) ;
SEND_SPI_BUFFER ( )
}
# endif
# if defined (FT81X_ENABLE)
/* this is meant to be called outside display-list building, does not support cmd-burst */
void EVE_cmd_setrotate ( uint32_t r )
{
EVE_begin_cmd ( CMD_SETROTATE ) ;
BUFFER_SPI_DWORD ( r )
EVE_inc_cmdoffset ( 4 ) ;
SEND_SPI_BUFFER ( )
}
# endif
/* this is meant to be called outside display-list building, does not support cmd-burst */
void EVE_cmd_snapshot ( uint32_t ptr )
{
EVE_begin_cmd ( CMD_SNAPSHOT ) ;
BUFFER_SPI_DWORD ( ptr )
EVE_inc_cmdoffset ( 4 ) ;
SEND_SPI_BUFFER ( )
}
# if defined (FT81X_ENABLE)
/* this is meant to be called outside display-list building, does not support cmd-burst */
void EVE_cmd_snapshot2 ( uint32_t fmt , uint32_t ptr , int16_t x0 , int16_t y0 , int16_t w0 , int16_t h0 )
{
EVE_begin_cmd ( CMD_SNAPSHOT2 ) ;
BUFFER_SPI_DWORD ( fmt )
BUFFER_SPI_DWORD ( ptr )
BUFFER_SPI_WORD ( x0 )
BUFFER_SPI_WORD ( y0 )
BUFFER_SPI_WORD ( w0 )
BUFFER_SPI_WORD ( h0 )
EVE_inc_cmdoffset ( 16 ) ;
SEND_SPI_BUFFER ( )
}
# endif
/* this is meant to be called outside display-list building, does not support cmd-burst */
void EVE_cmd_track ( int16_t x0 , int16_t y0 , int16_t w0 , int16_t h0 , int16_t tag )
{
EVE_begin_cmd ( CMD_TRACK ) ;
BUFFER_SPI_WORD ( x0 )
BUFFER_SPI_WORD ( y0 )
BUFFER_SPI_WORD ( w0 )
BUFFER_SPI_WORD ( h0 )
BUFFER_SPI_WORD ( tag )
BUFFER_SPI_WORD ( 0 )
EVE_inc_cmdoffset ( 12 ) ;
SEND_SPI_BUFFER ( )
}
/* commands that return values by writing to the command-fifo */
/* note: yes, these are different than the functions in the Programmers Guide from FTDI,
this is because I have no idea why anyone would want to pass " result " as an actual argument to these functions
when this only marks the offset the command - processor is writing to */
/* this is meant to be called outside display-list building, it includes executing the command and waiting for completion, does not support cmd-burst */
/* crc32 = EVE_cmd_memcrc(my_ptr_to_some_memory_region, some_amount_of_bytes); */
uint32_t EVE_cmd_memcrc ( uint32_t ptr , uint32_t num )
{
EVE_begin_cmd ( CMD_MEMCRC ) ;
BUFFER_SPI_DWORD ( ptr )
BUFFER_SPI_DWORD ( num )
BUFFER_SPI_DWORD ( 0 )
EVE_inc_cmdoffset ( 8 ) ;
uint16_t offset = cmdOffset ;
EVE_inc_cmdoffset ( 4 ) ;
SEND_SPI_BUFFER ( )
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EVE_cmd_execute ( ) ;
return ( EVE_memRead32 ( EVE_RAM_CMD + offset ) ) ;
}
/* this is meant to be called outside display-list building, it includes executing the command and waiting for completion, does not support cmd-burst */
/* address = EVE_cmd_getpr(); */
uint32_t EVE_cmd_getptr ( void )
{
EVE_begin_cmd ( CMD_GETPTR ) ;
uint16_t offset = cmdOffset ;
EVE_inc_cmdoffset ( 4 ) ;
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SEND_SPI_BUFFER ( )
EVE_cmd_execute ( ) ;
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return ( EVE_memRead32 ( EVE_RAM_CMD + offset ) ) ;
}
/* this is meant to be called outside display-list building, it includes executing the command and waiting for completion, does not support cmd-burst */
/* regvalue = EVE_cmd_regread(ptr); */
/* this seems to be completely pointless, there is no real use for it outside a display-list since the register could be read directly */
/* and for what purpose would this be implemented to be used in a display list?? */
uint32_t EVE_cmd_regread ( uint32_t ptr )
{
uint16_t offset ;
EVE_begin_cmd ( CMD_REGREAD ) ;
BUFFER_SPI_DWORD ( ptr )
EVE_inc_cmdoffset ( 4 ) ;
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offset = cmdOffset ;
EVE_inc_cmdoffset ( 4 ) ;
SEND_SPI_BUFFER ( )
EVE_cmd_execute ( ) ;
return ( EVE_memRead32 ( EVE_RAM_CMD + offset ) ) ;
}
/*
Get the properties of an image after a CMD_LOADIMAGE operation .
uint32 pointer , width , height ;
EVE_LIB_GetProps ( & pointer , & width , & height ) ;
uint32 width , height ;
EVE_LIB_GetProps ( 0 , & width , & height ) ;
this is meant to be called outside display - list building , it includes executing the command
and waiting for completion , does not support cmd - burst
*/
void EVE_LIB_GetProps ( uint32_t * pointer , uint32_t * width , uint32_t * height )
{
EVE_begin_cmd ( CMD_GETPROPS ) ;
uint16_t offset = cmdOffset ;
EVE_inc_cmdoffset ( 12 ) ;
SEND_SPI_BUFFER ( )
EVE_cmd_execute ( ) ;
if ( pointer )
{
* pointer = EVE_memRead32 ( EVE_RAM_CMD + offset ) ;
}
if ( width )
{
* width = EVE_memRead32 ( EVE_RAM_CMD + offset + 4 ) ;
}
if ( height )
{
* height = EVE_memRead32 ( EVE_RAM_CMD + offset + 8 ) ;
}
}
/* FT811 / FT813 binary-blob from FTDIs AN_336 to patch the touch-engine for Goodix GT911 / GT9271 touch controllers */
# if defined (EVE_HAS_GT911)
# if defined (__AVR__)
# include <avr/pgmspace.h>
# else
# define PROGMEM
# endif
const uint16_t EVE_GT911_len = 1184 ;
const uint8_t EVE_GT911_data [ 1184 ] PROGMEM =
{
26 , 255 , 255 , 255 , 32 , 32 , 48 , 0 , 4 , 0 , 0 , 0 , 2 , 0 , 0 , 0 ,
34 , 255 , 255 , 255 , 0 , 176 , 48 , 0 , 120 , 218 , 237 , 84 , 221 , 111 , 84 , 69 , 20 , 63 , 51 , 179 , 93 , 160 , 148 , 101 , 111 , 76 , 5 , 44 , 141 , 123 , 111 , 161 , 11 , 219 , 154 , 16 , 9 , 16 , 17 , 229 , 156 , 75 , 26 , 11 , 13 , 21 , 227 , 3 , 16 , 252 , 184 , 179 ,
45 , 219 , 143 , 45 , 41 , 125 , 144 , 72 , 67 , 100 , 150 , 71 , 189 , 113 , 18 , 36 , 17 , 165 , 100 , 165 , 198 , 16 , 32 , 17 , 149 , 196 , 240 , 128 , 161 , 16 , 164 , 38 , 54 , 240 , 0 , 209 , 72 , 130 , 15 , 38 , 125 , 48 , 66 , 82 , 30 , 76 , 19 , 31 , 172 , 103 , 46 ,
139 , 24 , 255 , 4 , 227 , 157 , 204 , 156 , 51 , 115 , 102 , 206 , 231 , 239 , 220 , 5 , 170 , 94 , 129 , 137 , 75 , 194 , 216 , 98 , 94 , 103 , 117 , 115 , 121 , 76 , 131 , 177 , 125 , 89 , 125 , 82 , 123 , 60 , 243 , 58 , 142 , 242 , 204 , 185 , 243 , 188 , 118 , 156 ,
227 , 155 , 203 , 238 , 238 , 195 , 251 , 205 , 229 , 71 , 92 , 28 , 169 , 190 , 184 , 84 , 143 , 113 , 137 , 53 , 244 , 103 , 181 , 237 , 87 , 253 , 113 , 137 , 233 , 48 , 12 , 198 , 165 , 181 , 104 , 139 , 25 , 84 , 253 , 155 , 114 , 74 , 191 , 0 , 54 , 138 , 163 ,
12 , 62 , 131 , 207 , 129 , 23 , 217 , 34 , 91 , 31 , 128 , 65 , 246 , 163 , 175 , 213 , 8 , 147 , 213 , 107 , 35 , 203 , 94 , 108 , 3 , 111 , 40 , 171 , 83 , 24 , 15 , 165 , 177 , 222 , 116 , 97 , 23 , 188 , 140 , 206 , 150 , 42 , 102 , 181 , 87 , 78 , 86 , 182 , 170 , 134 ,
215 , 241 , 121 , 26 , 243 , 252 , 2 , 76 , 115 , 217 , 139 , 222 , 206 , 173 , 136 , 132 , 81 , 61 , 35 , 185 , 39 , 113 , 23 , 46 , 199 , 76 , 178 , 54 , 151 , 183 , 224 , 0 , 40 , 189 , 28 , 149 , 182 , 58 , 131 , 79 , 152 , 30 , 76 , 34 , 98 , 234 , 162 , 216 , 133 , 141 ,
102 , 39 , 170 , 40 , 192 , 101 , 53 , 201 , 146 , 191 , 37 , 77 , 44 , 177 , 209 , 74 , 211 , 5 , 206 , 187 , 5 , 6 , 216 , 47 , 53 , 96 , 123 , 22 , 50 , 103 , 251 , 192 , 84 , 17 , 74 , 227 , 185 , 56 , 106 , 51 , 91 , 161 , 96 , 182 , 163 , 48 , 171 , 141 , 139 , 65 , 152 ,
66 , 66 , 11 , 102 , 43 , 158 , 75 , 36 , 80 , 147 , 184 , 147 , 139 , 112 , 17 , 235 , 216 , 103 , 111 , 239 , 245 , 92 , 10 , 175 , 194 , 40 , 44 , 58 , 125 , 5 , 59 , 112 , 50 , 103 , 245 , 4 , 78 , 192 , 5 , 156 , 194 , 51 , 60 , 191 , 134 , 75 , 110 , 173 , 237 , 46 , 192 ,
121 , 156 , 192 , 115 , 184 , 218 , 120 , 67 , 63 , 115 , 46 , 11 , 102 , 10 , 97 , 232 , 50 , 235 , 114 , 182 , 148 , 118 , 178 , 41 , 188 , 12 , 135 , 77 , 202 , 124 , 12 , 96 , 238 , 35 , 161 , 234 , 189 , 129 , 23 , 249 , 212 , 139 , 230 , 25 , 53 , 48 , 205 , 52 , 93 ,
163 , 117 , 53 , 154 , 170 , 81 , 85 , 163 , 178 , 70 , 69 , 66 , 167 , 241 , 14 , 46 , 241 , 1 , 226 , 136 , 152 , 179 , 197 , 59 , 184 , 148 , 254 , 49 , 132 , 48 , 15 , 176 , 137 , 192 , 76 , 131 , 196 , 105 , 104 , 162 , 86 , 81 , 160 , 165 , 255 , 26 , 173 , 162 , 137 ,
86 , 145 , 210 , 183 , 192 , 55 , 175 , 194 , 211 , 60 , 91 , 120 , 230 , 184 , 174 , 27 , 41 , 131 , 155 , 40 , 224 , 29 , 87 , 179 , 232 , 16 , 55 , 55 , 7 , 165 , 147 , 81 , 23 , 165 , 49 , 101 , 54 , 224 , 75 , 180 , 81 , 108 , 18 , 29 , 226 , 69 , 225 , 110 , 175 , 224 ,
42 , 212 , 25 , 47 , 130 , 193 , 110 , 234 , 192 , 215 , 252 , 56 , 74 , 162 , 24 , 46 , 251 , 174 , 54 , 106 , 68 , 245 , 14 , 9 , 155 , 160 , 22 , 120 , 207 , 104 , 240 , 29 , 90 , 178 , 140 , 28 , 24 , 220 , 47 , 166 , 112 , 61 , 251 , 208 , 192 , 111 , 56 , 239 , 238 ,
93 , 255 , 251 , 62 , 99 , 32 , 193 , 75 , 61 , 190 , 235 , 123 , 229 , 110 , 218 , 194 , 85 , 79 , 225 , 59 , 98 , 20 , 238 , 227 , 235 , 220 , 11 , 221 , 149 , 25 , 180 , 116 , 194 , 159 , 111 , 96 , 192 , 24 , 213 , 59 , 139 , 179 , 156 , 215 , 69 , 230 , 19 , 24 , 35 ,
135 , 117 , 206 , 171 , 206 , 162 , 67 , 129 , 234 , 61 , 235 , 11 , 104 , 103 , 84 , 64 , 223 , 167 , 254 , 40 , 163 , 101 , 92 , 84 , 43 , 150 , 46 , 249 , 219 , 205 , 7 , 116 , 11 , 91 , 104 , 61 , 57 , 75 , 223 , 8 , 48 , 25 , 28 , 119 , 252 , 222 , 113 , 49 , 86 , 249 ,
74 , 180 , 211 , 156 , 181 , 61 , 215 , 168 , 157 , 7 , 251 , 199 , 150 , 242 , 250 , 91 , 58 , 132 , 94 , 121 , 7 , 53 , 151 , 139 , 98 , 6 , 165 , 153 , 69 , 214 , 32 , 110 , 211 , 100 , 101 , 31 , 89 , 45 , 81 , 98 , 23 , 205 , 205 , 197 , 209 , 109 , 186 , 198 , 35 ,
141 , 191 , 249 , 25 , 60 , 132 , 223 , 153 , 251 , 98 , 20 , 239 , 146 , 139 , 20 , 217 , 250 , 41 , 250 , 137 , 58 , 177 , 90 , 57 , 79 , 51 , 108 , 233 , 20 , 253 , 194 , 187 , 49 , 222 , 205 , 114 , 141 , 96 , 48 , 175 , 219 , 107 , 54 , 111 , 138 , 22 , 154 , 103 ,
108 , 79 , 58 , 252 , 179 , 178 , 79 , 164 , 195 , 2 , 153 , 36 , 39 , 170 , 199 , 201 , 167 , 197 , 85 , 106 , 8 , 59 , 177 , 81 , 46 , 56 , 2 , 230 , 75 , 114 , 17 , 55 , 112 , 188 , 65 , 208 , 137 , 77 , 114 , 10 , 115 , 55 , 58 , 208 , 197 , 173 , 122 , 87 , 6 , 140 ,
110 , 42 , 208 , 124 , 163 , 70 , 108 , 241 , 104 , 18 , 245 , 98 , 214 , 187 , 134 , 53 , 42 , 221 , 22 , 182 , 133 , 211 , 116 , 148 , 177 , 194 , 209 , 192 , 85 , 90 , 199 , 58 , 55 , 203 , 2 , 229 , 19 , 137 , 187 , 161 , 228 , 154 , 112 , 203 , 145 , 125 , 244 ,
188 , 220 , 118 , 228 , 41 , 201 , 181 , 41 , 195 , 144 , 215 , 183 , 51 , 80 , 250 , 21 , 217 , 16 , 217 , 200 , 235 , 109 , 227 , 188 , 122 , 218 , 142 , 60 , 170 , 224 , 112 , 240 , 184 , 130 , 229 , 224 , 113 , 5 , 223 , 148 , 163 , 80 , 165 , 183 , 130 , 187 ,
132 , 116 , 64 , 238 , 161 , 85 , 220 , 115 , 139 , 205 , 98 , 227 , 244 , 29 , 102 , 125 , 7 , 37 , 243 , 123 , 223 , 11 , 26 , 92 , 63 , 243 , 116 , 61 , 191 , 138 , 123 , 244 , 160 , 84 , 186 , 74 , 31 , 5 , 174 , 247 , 119 , 135 , 199 , 248 , 253 , 135 , 242 , 97 ,
102 , 145 , 190 , 144 , 14 , 85 , 238 , 221 , 231 , 193 , 158 , 48 , 205 , 25 , 120 , 248 , 15 , 220 , 29 , 158 , 9 , 70 , 185 , 30 , 103 , 229 , 33 , 254 , 23 , 237 , 160 , 172 , 62 , 193 , 90 , 222 , 224 , 232 , 14 , 200 , 56 , 90 , 104 , 142 , 227 , 120 , 110 , 6 ,
21 , 211 , 203 , 65 , 150 , 99 , 151 , 220 , 247 , 87 , 164 , 50 , 159 , 49 , 239 , 234 , 58 , 142 , 0 , 109 , 108 , 123 , 18 , 79 , 227 , 36 , 100 , 248 , 222 , 205 , 96 , 127 , 120 , 26 , 171 , 228 , 69 , 63 , 36 , 17 , 252 , 200 , 17 , 116 , 242 , 187 , 227 , 88 , 143 ,
247 , 2 , 75 , 191 , 6 , 130 , 59 , 188 , 11 , 55 , 240 , 31 , 243 , 122 , 152 , 226 , 183 , 207 , 154 , 73 , 188 , 39 , 219 , 43 , 105 , 222 , 87 , 41 , 143 , 141 , 140 , 175 , 73 , 112 , 184 , 252 , 61 , 184 , 16 , 90 , 250 , 35 , 168 , 82 , 119 , 176 , 57 , 116 , 94 ,
200 , 150 , 22 , 190 , 179 , 44 , 104 , 12 , 235 , 84 , 149 , 102 , 252 , 89 , 154 , 193 , 99 , 228 , 106 , 242 , 125 , 248 , 64 , 194 , 255 , 223 , 127 , 242 , 83 , 11 , 255 , 2 , 70 , 214 , 226 , 128 , 0 , 0
} ;
# endif
# endif // FT81X_FULL
/* init, has to be executed with the SPI setup to 11 MHz or less as required by FT8xx / BT8xx */
uint8_t EVE_init ( void )
{
uint8_t chipid = 0 ;
uint16_t timeout = 0 ;
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# if EVE_USE_PDN
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EVE_pdn_set ( ) ;
DELAY_MS ( 6 ) ; /* minimum time for power-down is 5ms */
EVE_pdn_clear ( ) ;
DELAY_MS ( 21 ) ; /* minimum time to allow from rising PD_N to first access is 20ms */
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# endif
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/* EVE_cmdWrite(EVE_CORERST,0); */ /* reset, only required for warm-start if PowerDown line is not used */
# if defined (EVE_HAS_CRYSTAL)
EVE_cmdWrite ( EVE_CLKEXT , 0 ) ; /* setup EVE for external clock */
# else
EVE_cmdWrite ( EVE_CLKINT , 0 ) ; /* setup EVE for internal clock */
# endif
# if defined (BT81X_ENABLE)
EVE_cmdWrite ( EVE_CLKSEL , 0x46 ) ; /* set clock to 72 MHz */
# endif
EVE_cmdWrite ( EVE_ACTIVE , 0 ) ; /* start EVE */
/* BRT AN033 BT81X_Series_Programming_Guide V1.2 had a small change to chapter 2.4 "Initialization Sequence during Boot Up" */
/* Send Host command “ACTIVE” and wait for at least 300 milliseconds. */
/* Ensure that there is no SPI access during this time. */
/* I asked Bridgetek for clarification why this has been made stricter. */
/* From observation with quite a few of different displays I do not agree that either the 300ms are necessary or that */
/* *reading* the SPI while EVE inits itself is causing any issues. */
/* But since BT815 at 72MHz need 42ms anyways before they start to answer, here is my compromise, a fixed 40ms delay */
/* to provide at least a short moment of silence for EVE */
DELAY_MS ( 40 ) ;
/* The most reliable DIO/QIO switching point is after EVE start up but before reading the ChipID. */
# if defined(DISP_SPI_TRANS_MODE_DIO)
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LV_LOG_INFO ( " Switching to DIO mode " ) ;
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DELAY_MS ( 20 ) ; /* different boards may take a different delay but this generally seems to work */
EVE_memWrite16 ( REG_SPI_WIDTH , SPI_WIDTH_DIO ) ;
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SPIInherentSendFlags = DISP_SPI_MODE_DIO | DISP_SPI_MODE_DIOQIO_ADDR ;
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SPIDummyReadBits = 4 ; /* Esp32 DMA SPI transaction dummy_bits works more like clock cycles, so in DIO 4 dummy_bits == 8 total bits */
# elif defined(DISP_SPI_TRANS_MODE_QIO)
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LV_LOG_INFO ( " Switching to QIO mode " ) ;
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DELAY_MS ( 20 ) ; /* different boards may take a different delay but this generally seems to work */
EVE_memWrite16 ( REG_SPI_WIDTH , SPI_WIDTH_QIO ) ;
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SPIInherentSendFlags = DISP_SPI_MODE_QIO | DISP_SPI_MODE_DIOQIO_ADDR ;
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SPIDummyReadBits = 2 ; /* Esp32 DMA SPI transaction dummy_bits works more like clock cycles, so in QIO 2 dummy_bits == 8 total bits */
# elif defined(DISP_SPI_HALF_DUPLEX)
SPIDummyReadBits = 8 ; /* SIO half-duplex mode */
# endif
while ( chipid ! = 0x7C ) /* if chipid is not 0x7c, continue to read it until it is, EVE needs a moment for it's power on self-test and configuration */
{
DELAY_MS ( 1 ) ;
chipid = EVE_memRead8 ( REG_ID ) ;
timeout + + ;
if ( timeout > 400 )
{
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LV_LOG_WARN ( " Failed to read ChipID...aborting initialization. " ) ;
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return 0 ;
}
}
timeout = 0 ;
while ( 0x00 ! = ( EVE_memRead8 ( REG_CPURESET ) & 0x03 ) ) /* check if EVE is in working status */
{
DELAY_MS ( 1 ) ;
timeout + + ;
if ( timeout > 50 ) /* experimental, 10 was the lowest value to get the BT815 started with, the touch-controller was the last to get out of reset */
{
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LV_LOG_WARN ( " Failed to read CPU status...aborting initialization. " ) ;
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return 0 ;
}
}
/* tell EVE that we changed the frequency from default to 72MHz for BT8xx */
# if defined (BT81X_ENABLE)
EVE_memWrite32 ( REG_FREQUENCY , 72000000 ) ;
# endif
/* we have a display with a Goodix GT911 / GT9271 touch-controller on it, so we patch our FT811 or FT813 according to AN_336 or setup a BT815 accordingly */
# if defined (EVE_HAS_GT911)
# if defined (BT81X_ENABLE)
EVE_memWrite32 ( REG_TOUCH_CONFIG , 0x000005d1 ) ; /* switch to Goodix touch controller */
# else
EVE_get_cmdoffset ( ) ;
BUFFER_SPI_WRITE_ADDRESS ( EVE_RAM_CMD + cmdOffset )
SEND_SPI_BUFFER ( )
spi_flash_write ( EVE_GT911_data , EVE_GT911_len ) ;
EVE_cmd_execute ( ) ;
EVE_memWrite8 ( REG_TOUCH_OVERSAMPLE , 0x0f ) ; /* setup oversample to 0x0f as "hidden" in binary-blob for AN_336 */
EVE_memWrite16 ( REG_TOUCH_CONFIG , 0x05D0 ) ; /* write magic cookie as requested by AN_336 */
/* specific to the EVE2 modules from Matrix-Orbital we have to use GPIO3 to reset GT911 */
EVE_memWrite16 ( REG_GPIOX_DIR , 0x8008 ) ; /* Reset-Value is 0x8000, adding 0x08 sets GPIO3 to output, default-value for REG_GPIOX is 0x8000 -> Low output on GPIO3 */
DELAY_MS ( 1 ) ; /* wait more than 100µs */
EVE_memWrite8 ( REG_CPURESET , 0x00 ) ; /* clear all resets */
DELAY_MS ( 56 ) ; /* wait more than 55ms */
EVE_memWrite16 ( REG_GPIOX_DIR , 0x8000 ) ; /* setting GPIO3 back to input */
# endif
# endif
/* EVE_memWrite8(REG_PCLK, 0x00); */ /* set PCLK to zero - don't clock the LCD until later, line disabled because zero is reset-default and we just did a reset */
# if defined (EVE_ADAM101)
EVE_memWrite8 ( REG_PWM_DUTY , 0x80 ) ; /* turn off backlight for Glyn ADAM101 module, it uses inverted values */
# else
EVE_memWrite8 ( REG_PWM_DUTY , 0 ) ; /* turn off backlight for any other module */
# endif
/* Initialize Display */
EVE_memWrite16 ( REG_HSIZE , EVE_HSIZE ) ; /* active display width */
EVE_memWrite16 ( REG_HCYCLE , EVE_HCYCLE ) ; /* total number of clocks per line, incl front/back porch */
EVE_memWrite16 ( REG_HOFFSET , EVE_HOFFSET ) ; /* start of active line */
EVE_memWrite16 ( REG_HSYNC0 , EVE_HSYNC0 ) ; /* start of horizontal sync pulse */
EVE_memWrite16 ( REG_HSYNC1 , EVE_HSYNC1 ) ; /* end of horizontal sync pulse */
EVE_memWrite16 ( REG_VSIZE , EVE_VSIZE ) ; /* active display height */
EVE_memWrite16 ( REG_VCYCLE , EVE_VCYCLE ) ; /* total number of lines per screen, including pre/post */
EVE_memWrite16 ( REG_VOFFSET , EVE_VOFFSET ) ; /* start of active screen */
EVE_memWrite16 ( REG_VSYNC0 , EVE_VSYNC0 ) ; /* start of vertical sync pulse */
EVE_memWrite16 ( REG_VSYNC1 , EVE_VSYNC1 ) ; /* end of vertical sync pulse */
EVE_memWrite8 ( REG_SWIZZLE , EVE_SWIZZLE ) ; /* FT8xx output to LCD - pin order */
EVE_memWrite8 ( REG_PCLK_POL , EVE_PCLKPOL ) ; /* LCD data is clocked in on this PCLK edge */
EVE_memWrite8 ( REG_CSPREAD , EVE_CSPREAD ) ; /* helps with noise, when set to 1 fewer signals are changed simultaneously, reset-default: 1 */
/* do not set PCLK yet - wait for just after the first display list */
/* configure Touch */
EVE_memWrite8 ( REG_TOUCH_MODE , EVE_TMODE_CONTINUOUS ) ; /* enable touch */
EVE_memWrite16 ( REG_TOUCH_RZTHRESH , EVE_TOUCH_RZTHRESH ) ; /* eliminate any false touches */
/* disable Audio for now */
EVE_memWrite8 ( REG_VOL_PB , 0x00 ) ; /* turn recorded audio volume down */
EVE_memWrite8 ( REG_VOL_SOUND , 0x00 ) ; /* turn synthesizer volume off */
EVE_memWrite16 ( REG_SOUND , 0x6000 ) ; /* set synthesizer to mute */
/* write a basic display-list to get things started */
EVE_memWrite32 ( EVE_RAM_DL , DL_CLEAR_RGB ) ;
EVE_memWrite32 ( EVE_RAM_DL + 4 , ( DL_CLEAR | CLR_COL | CLR_STN | CLR_TAG ) ) ;
EVE_memWrite32 ( EVE_RAM_DL + 8 , DL_DISPLAY ) ; /* end of display list */
EVE_memWrite32 ( REG_DLSWAP , EVE_DLSWAP_FRAME ) ;
/* nothing is being displayed yet... the pixel clock is still 0x00 */
EVE_memWrite8 ( REG_GPIO , 0x80 ) ; /* enable the DISP signal to the LCD panel, it is set to output in REG_GPIO_DIR by default */
EVE_memWrite8 ( REG_PCLK , EVE_PCLK ) ; /* now start clocking data to the LCD panel */
# if defined (EVE_ADAM101)
EVE_memWrite8 ( REG_PWM_DUTY , 0x60 ) ; /* turn on backlight to 25% for Glyn ADAM101 module, it uses inverted values */
# else
EVE_memWrite8 ( REG_PWM_DUTY , 0x20 ) ; /* turn on backlight to 25% for any other module */
# endif
timeout = 0 ;
while ( EVE_busy ( ) ) /* just to be safe, should not even enter the loop */
{
DELAY_MS ( 1 ) ;
timeout + + ;
if ( timeout > 4 )
{
break ; /* something is wrong here, but since we made it this far through the init, just leave the loop */
}
}
EVE_get_cmdoffset ( ) ; /* just to be safe */
# if defined (EVE_DMA)
EVE_init_dma ( ) ; /* prepare DMA */
# endif
return 1 ;
}
/*
These eliminate the overhead of transmitting the command - fifo address with every single command , just wrap a sequence of commands
with these and the address is only transmitted once at the start of the block .
Be careful to not use any functions in the sequence that do not address the command - fifo as for example any EVE_mem . . . ( ) function .
*/
void EVE_start_cmd_burst ( void )
{
cmd_burst = 42 ;
WAIT_SPI ( ) // it is important to wait before writing to the SPI buffer as it might be in a DMA transaction
BUFFER_SPI_WRITE_ADDRESS ( EVE_RAM_CMD + cmdOffset )
}
void EVE_end_cmd_burst ( void )
{
cmd_burst = 0 ;
SEND_SPI_BUFFER ( )
}
/* begin a co-processor command */
void EVE_start_cmd ( uint32_t command )
{
if ( ! cmd_burst )
{
WAIT_SPI ( ) // it is important to wait before writing to the SPI buffer as it might be in a DMA transaction
BUFFER_SPI_WRITE_ADDRESS ( EVE_RAM_CMD + cmdOffset )
}
BUFFER_SPI_DWORD ( command )
EVE_inc_cmdoffset ( 4 ) ; /* update the command-ram pointer */
}
/* generic function for all commands that have no arguments and all display-list specific control words */
/*
examples :
EVE_cmd_dl ( CMD_DLSTART ) ;
EVE_cmd_dl ( CMD_SWAP ) ;
EVE_cmd_dl ( CMD_SCREENSAVER ) ;
EVE_cmd_dl ( LINE_WIDTH ( 1 * 16 ) ) ;
EVE_cmd_dl ( VERTEX2F ( 0 , 0 ) ) ;
EVE_cmd_dl ( DL_BEGIN | EVE_RECTS ) ;
*/
void EVE_cmd_dl ( uint32_t command )
{
if ( cmd_burst )
{
BUFFER_SPI_DWORD ( command )
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EVE_inc_cmdoffset ( 4 ) ; /* update the command-ram pointer */
}
else
{
EVE_start_cmd ( command ) ;
SEND_SPI_BUFFER ( )
}
}
# if FT81X_FULL
/* write a string to co-processor memory in context of a command: no chip-select, just plain SPI-transfers */
/* note: assumes cmdOffset is already DWORD aligned */
void EVE_write_string ( const char * text )
{
uint8_t textindex = 0 ;
uint8_t padding = 0 ;
uint8_t * bytes = ( uint8_t * ) text ; /* need to handle the array as bunch of bytes */
while ( bytes [ textindex ] ! = 0 )
{
BUFFER_SPI_BYTE ( bytes [ textindex ] ) ;
textindex + + ;
if ( textindex > 249 | | SPIBufferIndex > = SPI_BUFFER_SIZE ) /* there appears to be no end for the "string", or no more room in SPI buffer, so leave */
{
break ;
}
}
/* we need to transmit at least one 0x00 byte and up to four if the string happens to be 4-byte aligned already */
padding = textindex & 3 ; /* 0, 1, 2 or 3 */
padding = 4 - padding ; /* 4, 3, 2 or 1 */
textindex + = padding ;
while ( padding > 0 & & SPIBufferIndex < SPI_BUFFER_SIZE )
{
BUFFER_SPI_BYTE ( 0 ) ;
padding - - ;
}
EVE_inc_cmdoffset ( textindex ) ;
}
/* EVE3 FLASH functions */
# if defined (BT81X_ENABLE)
/* this is meant to be called outside display-list building, it includes executing the command and waiting for completion, does not support cmd-burst */
/* write "num" bytes from *data to the external flash on a BT81x board at address ptr */
/* note: ptr must be 256 byte aligned, num must be a multiple of 256 */
/* note: EVE will not do anything if the alignment requirements are not met */
/* note: the address ptr is relative to the flash so the first address is 0x00000000 not 0x800000 */
/* note: on AVR controllers this expects the data to be located in the controllers flash memory */
void EVE_cmd_flashwrite ( uint32_t ptr , uint32_t num , const uint8_t * data )
{
EVE_begin_cmd ( CMD_FLASHWRITE ) ;
BUFFER_SPI_DWORD ( ptr )
BUFFER_SPI_DWORD ( num )
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EVE_inc_cmdoffset ( 8 ) ;
SEND_SPI_BUFFER ( )
WAIT_SPI ( )
block_transfer ( data , num ) ;
}
/* this is meant to be called outside display-list building, it includes executing the command and waiting for completion, does not support cmd-burst */
/* write "num" bytes from src in the external flash on a BT81x board to dest in RAM_G */
/* note: src must be 64-byte aligned, dest must be 4-byte aligned, num must be a multiple of 4 */
/* note: EVE will not do anything if the alignment requirements are not met */
/* note: the src pointer is relative to the flash so the first address is 0x00000000 not 0x800000 */
void EVE_cmd_flashread ( uint32_t dest , uint32_t src , uint32_t num )
{
EVE_begin_cmd ( CMD_FLASHREAD ) ;
BUFFER_SPI_DWORD ( dest )
BUFFER_SPI_DWORD ( src )
BUFFER_SPI_DWORD ( num )
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EVE_inc_cmdoffset ( 12 ) ;
SEND_SPI_BUFFER ( )
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EVE_cmd_execute ( ) ;
}
/* this is meant to be called outside display-list building, it includes executing the command and waiting for completion, does not support cmd-burst */
/* write "num" bytes from src in RAM_G to to the external flash on a BT81x board at address dest */
/* note: dest must be 4096-byte aligned, src must be 4-byte aligned, num must be a multiple of 4096 */
/* note: EVE will not do anything if the alignment requirements are not met */
/* note: the address ptr is relative to the flash so the first address is 0x00000000 not 0x800000 */
void EVE_cmd_flashupdate ( uint32_t dest , uint32_t src , uint32_t num )
{
EVE_begin_cmd ( CMD_FLASHUPDATE ) ;
BUFFER_SPI_DWORD ( dest )
BUFFER_SPI_DWORD ( src )
BUFFER_SPI_DWORD ( num )
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EVE_inc_cmdoffset ( 12 ) ;
SEND_SPI_BUFFER ( )
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EVE_cmd_execute ( ) ;
}
/* this is meant to be called outside display-list building, it includes executing the command and waiting for completion, does not support cmd-burst */
/* this is added for conveniance, using EVE_cmd_dl(CMD_FLASHERASE); followed by EVE_cmd_execute(); would work as well */
void EVE_cmd_flasherase ( void )
{
EVE_begin_cmd ( CMD_FLASHERASE ) ;
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SEND_SPI_BUFFER ( )
EVE_cmd_execute ( ) ;
}
/* this is meant to be called outside display-list building, it includes executing the command and waiting for completion, does not support cmd-burst */
/* this is added for conveniance, using EVE_cmd_dl(CMD_FLASHATTACH); followed by EVE_cmd_execute(); would work as well */
void EVE_cmd_flashattach ( void )
{
EVE_begin_cmd ( CMD_FLASHATTACH ) ;
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SEND_SPI_BUFFER ( )
EVE_cmd_execute ( ) ;
}
/* this is meant to be called outside display-list building, it includes executing the command and waiting for completion, does not support cmd-burst */
/* this is added for conveniance, using EVE_cmd_dl(CMD_FLASHDETACH); followed by EVE_cmd_execute(); would work as well */
void EVE_cmd_flashdetach ( void )
{
EVE_begin_cmd ( CMD_FLASHDETACH ) ;
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SEND_SPI_BUFFER ( )
EVE_cmd_execute ( ) ;
}
/* this is meant to be called outside display-list building, it includes executing the command and waiting for completion, does not support cmd-burst */
/* this is added for conveniance, using EVE_cmd_dl(CMD_FLASHSPIDESEL); followed by EVE_cmd_execute(); would work as well */
void EVE_cmd_flashspidesel ( void )
{
EVE_begin_cmd ( CMD_FLASHSPIDESEL ) ;
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SEND_SPI_BUFFER ( )
EVE_cmd_execute ( ) ;
}
/* this is meant to be called outside display-list building, it includes executing the command and waiting for completion, does not support cmd-burst */
uint32_t EVE_cmd_flashfast ( void )
{
uint16_t offset ;
EVE_begin_cmd ( CMD_FLASHFAST ) ;
BUFFER_SPI_DWORD ( 0 )
offset = cmdOffset ;
EVE_inc_cmdoffset ( 4 ) ;
SEND_SPI_BUFFER ( )
EVE_cmd_execute ( ) ;
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return EVE_memRead32 ( EVE_RAM_CMD + offset ) ;
}
/* this is meant to be called outside display-list building, it includes executing the command and waiting for completion, does not support cmd-burst */
/* write "num" bytes from *data to the BT81x SPI interface */
/* note: raw direct access, not really useful for anything */
void EVE_cmd_flashspitx ( uint32_t num , const uint8_t * data )
{
EVE_begin_cmd ( CMD_FLASHSPITX ) ;
BUFFER_SPI_DWORD ( num )
EVE_inc_cmdoffset ( 4 ) ;
SEND_SPI_BUFFER ( )
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WAIT_SPI ( )
block_transfer ( data , num ) ;
}
/* this is meant to be called outside display-list building, it includes executing the command and waiting for completion, does not support cmd-burst */
/* write "num" bytes from the BT81x SPI interface dest in RAM_G */
/* note: raw direct access, not really useful for anything */
void EVE_cmd_flashspirx ( uint32_t dest , uint32_t num )
{
EVE_begin_cmd ( CMD_FLASHREAD ) ;
BUFFER_SPI_DWORD ( dest )
BUFFER_SPI_DWORD ( num )
EVE_inc_cmdoffset ( 8 ) ;
SEND_SPI_BUFFER ( )
EVE_cmd_execute ( ) ;
}
/* this is meant to be called outside display-list building, it includes executing the command and waiting for completion, does not support cmd-burst */
void EVE_cmd_flashsource ( uint32_t ptr )
{
EVE_begin_cmd ( CMD_FLASHSOURCE ) ;
BUFFER_SPI_DWORD ( ptr )
EVE_inc_cmdoffset ( 4 ) ;
SEND_SPI_BUFFER ( )
EVE_cmd_execute ( ) ;
}
/* switch the FLASH attached to a BT815/BT816 to full-speed mode, returns 0 for failing to do so, does not support cmd-burst */
uint8_t EVE_init_flash ( void )
{
uint8_t timeout = 0 ;
uint8_t status ;
status = EVE_memRead8 ( REG_FLASH_STATUS ) ; /* should be 0x02 - FLASH_STATUS_BASIC, power-up is done and the attached flash is detected */
while ( status = = 0 ) /* FLASH_STATUS_INIT - we are somehow still in init, give it a litte more time, this should never happen */
{
status = EVE_memRead8 ( REG_FLASH_STATUS ) ;
DELAY_MS ( 1 ) ;
timeout + + ;
if ( timeout > 100 ) /* 100ms and still in init, lets call quits now and exit with an error */
{
return 0 ;
}
}
if ( status = = 1 ) /* FLASH_STATUS_DETACHED - no flash was found during init, no flash present or the detection failed, but have hope and let the BT81x have annother try */
{
EVE_cmd_dl ( CMD_FLASHATTACH ) ;
EVE_cmd_execute ( ) ;
status = EVE_memRead8 ( REG_FLASH_STATUS ) ;
if ( status ! = 2 ) /* still not in FLASH_STATUS_BASIC, time to give up */
{
return 0 ;
}
}
if ( status = = 2 ) /* FLASH_STATUS_BASIC - flash detected and ready for action, lets move it up to FLASH_STATUS_FULL */
{
uint32_t result ;
result = EVE_cmd_flashfast ( ) ;
if ( result = = 0 ) /* cmd_flashfast was successful */
{
return 1 ;
}
else /* room for improvement, cmd_flashfast provided an error code but there is no way to return it without returning a value that is FALSE all the same */
{
return 0 ;
}
}
if ( status = = 3 ) /* FLASH_STATUS_FULL - we are already there, why has this function been called? */
{
return 1 ;
}
return 0 ;
}
# endif
/* commands to draw graphics objects: */
# if defined (BT81X_ENABLE)
/* as the name implies, "num_args" is the number of arguments passed to this function as variadic arguments */
void EVE_cmd_text_var ( int16_t x0 , int16_t y0 , int16_t font , uint16_t options , const char * text , uint8_t num_args , . . . )
{
va_list arguments ;
uint8_t counter ;
uint32_t data ;
va_start ( arguments , num_args ) ;
BUFFER_SPI_DWORD ( CMD_TEXT )
BUFFER_SPI_WORD ( x0 )
BUFFER_SPI_WORD ( y0 )
BUFFER_SPI_WORD ( font )
BUFFER_SPI_WORD ( options )
EVE_inc_cmdoffset ( 12 ) ;
EVE_write_string ( text ) ;
if ( options & EVE_OPT_FORMAT )
{
for ( counter = 0 ; counter < num_args ; counter + + )
{
data = ( uint32_t ) va_arg ( arguments , int ) ;
BUFFER_SPI_DWORD ( data )
EVE_inc_cmdoffset ( 4 ) ;
}
}
if ( ! cmd_burst )
{
SEND_SPI_BUFFER ( )
}
va_end ( arguments ) ;
}
# endif
void EVE_cmd_text ( int16_t x0 , int16_t y0 , int16_t font , uint16_t options , const char * text )
{
EVE_start_cmd ( CMD_TEXT ) ;
BUFFER_SPI_WORD ( x0 )
BUFFER_SPI_WORD ( y0 )
BUFFER_SPI_WORD ( font )
BUFFER_SPI_WORD ( options )
EVE_inc_cmdoffset ( 8 ) ;
EVE_write_string ( text ) ;
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if ( ! cmd_burst )
{
SEND_SPI_BUFFER ( )
}
}
# if defined (BT81X_ENABLE)
/* as the name implies, "num_args" is the number of arguments passed to this function as variadic arguments */
void EVE_cmd_button_var ( int16_t x0 , int16_t y0 , int16_t w0 , int16_t h0 , int16_t font , uint16_t options , const char * text , uint8_t num_args , . . . )
{
va_list arguments ;
uint8_t counter ;
uint32_t data ;
va_start ( arguments , num_args ) ;
EVE_start_cmd ( CMD_BUTTON ) ;
BUFFER_SPI_WORD ( x0 )
BUFFER_SPI_WORD ( y0 )
BUFFER_SPI_WORD ( w0 )
BUFFER_SPI_WORD ( h0 )
BUFFER_SPI_WORD ( font )
BUFFER_SPI_WORD ( options )
EVE_inc_cmdoffset ( 12 ) ;
EVE_write_string ( text ) ;
if ( options & EVE_OPT_FORMAT )
{
for ( counter = 0 ; counter < num_args ; counter + + )
{
data = ( uint32_t ) va_arg ( arguments , int ) ;
BUFFER_SPI_DWORD ( data )
EVE_inc_cmdoffset ( 4 ) ;
}
}
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if ( ! cmd_burst )
{
SEND_SPI_BUFFER ( )
}
va_end ( arguments ) ;
}
# endif
void EVE_cmd_button ( int16_t x0 , int16_t y0 , int16_t w0 , int16_t h0 , int16_t font , uint16_t options , const char * text )
{
EVE_start_cmd ( CMD_BUTTON ) ;
BUFFER_SPI_WORD ( x0 )
BUFFER_SPI_WORD ( y0 )
BUFFER_SPI_WORD ( w0 )
BUFFER_SPI_WORD ( h0 )
BUFFER_SPI_WORD ( font )
BUFFER_SPI_WORD ( options )
EVE_inc_cmdoffset ( 12 ) ;
EVE_write_string ( text ) ;
if ( ! cmd_burst )
{
SEND_SPI_BUFFER ( )
}
}
/* draw a clock */
void EVE_cmd_clock ( int16_t x0 , int16_t y0 , int16_t r0 , uint16_t options , uint16_t hours , uint16_t minutes , uint16_t seconds , uint16_t millisecs )
{
EVE_start_cmd ( CMD_CLOCK ) ;
BUFFER_SPI_WORD ( x0 )
BUFFER_SPI_WORD ( y0 )
BUFFER_SPI_WORD ( r0 )
BUFFER_SPI_WORD ( options )
BUFFER_SPI_WORD ( hours )
BUFFER_SPI_WORD ( minutes )
BUFFER_SPI_WORD ( seconds )
BUFFER_SPI_WORD ( millisecs )
EVE_inc_cmdoffset ( 16 ) ;
if ( ! cmd_burst )
{
SEND_SPI_BUFFER ( )
}
}
void EVE_color_rgb ( uint8_t red , uint8_t green , uint8_t blue )
{
BUFFER_SPI_BYTE ( green ) /* low-byte */
BUFFER_SPI_BYTE ( blue )
BUFFER_SPI_BYTE ( red )
BUFFER_SPI_BYTE ( 0x04 ) /* encoding for COLOR_RGB */
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EVE_inc_cmdoffset ( 4 ) ;
if ( ! cmd_burst )
{
SEND_SPI_BUFFER ( )
}
}
void EVE_cmd_bgcolor ( uint32_t color )
{
EVE_start_cmd ( CMD_BGCOLOR ) ;
BUFFER_SPI_DWORD ( color & 0x00ffffff )
EVE_inc_cmdoffset ( 4 ) ;
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if ( ! cmd_burst )
{
SEND_SPI_BUFFER ( )
}
}
void EVE_cmd_fgcolor ( uint32_t color )
{
EVE_start_cmd ( CMD_FGCOLOR ) ;
BUFFER_SPI_DWORD ( color & 0x00ffffff )
EVE_inc_cmdoffset ( 4 ) ;
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if ( ! cmd_burst )
{
SEND_SPI_BUFFER ( )
}
}
void EVE_cmd_gradcolor ( uint32_t color )
{
EVE_start_cmd ( CMD_GRADCOLOR ) ;
BUFFER_SPI_DWORD ( color & 0x00ffffff )
EVE_inc_cmdoffset ( 4 ) ;
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if ( ! cmd_burst )
{
SEND_SPI_BUFFER ( )
}
}
void EVE_cmd_gauge ( int16_t x0 , int16_t y0 , int16_t r0 , uint16_t options , uint16_t major , uint16_t minor , uint16_t val , uint16_t range )
{
EVE_start_cmd ( CMD_GAUGE ) ;
BUFFER_SPI_WORD ( x0 )
BUFFER_SPI_WORD ( y0 )
BUFFER_SPI_WORD ( r0 )
BUFFER_SPI_WORD ( options )
BUFFER_SPI_WORD ( major )
BUFFER_SPI_WORD ( minor )
BUFFER_SPI_WORD ( val )
BUFFER_SPI_WORD ( range )
EVE_inc_cmdoffset ( 16 ) ;
if ( ! cmd_burst )
{
SEND_SPI_BUFFER ( )
}
}
void EVE_cmd_gradient ( int16_t x0 , int16_t y0 , uint32_t rgb0 , int16_t x1 , int16_t y1 , uint32_t rgb1 )
{
EVE_start_cmd ( CMD_GRADIENT ) ;
BUFFER_SPI_WORD ( x0 )
BUFFER_SPI_WORD ( y0 )
BUFFER_SPI_DWORD ( rgb0 & 0x00ffffff )
BUFFER_SPI_WORD ( x1 )
BUFFER_SPI_WORD ( y1 )
BUFFER_SPI_DWORD ( rgb1 & 0x00ffffff )
EVE_inc_cmdoffset ( 16 ) ;
if ( ! cmd_burst )
{
SEND_SPI_BUFFER ( )
}
}
void EVE_cmd_keys ( int16_t x0 , int16_t y0 , int16_t w0 , int16_t h0 , int16_t font , uint16_t options , const char * text )
{
EVE_start_cmd ( CMD_KEYS ) ;
BUFFER_SPI_WORD ( x0 )
BUFFER_SPI_WORD ( y0 )
BUFFER_SPI_WORD ( w0 )
BUFFER_SPI_WORD ( h0 )
BUFFER_SPI_WORD ( font )
BUFFER_SPI_WORD ( options )
EVE_inc_cmdoffset ( 12 ) ;
EVE_write_string ( text ) ;
if ( ! cmd_burst )
{
SEND_SPI_BUFFER ( )
}
}
void EVE_cmd_progress ( int16_t x0 , int16_t y0 , int16_t w0 , int16_t h0 , uint16_t options , uint16_t val , uint16_t range )
{
EVE_start_cmd ( CMD_PROGRESS ) ;
BUFFER_SPI_WORD ( x0 )
BUFFER_SPI_WORD ( y0 )
BUFFER_SPI_WORD ( w0 )
BUFFER_SPI_WORD ( h0 )
BUFFER_SPI_WORD ( options )
BUFFER_SPI_WORD ( val )
BUFFER_SPI_WORD ( range )
BUFFER_SPI_WORD ( 0 ) /* dummy word for 4-byte alignment */
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EVE_inc_cmdoffset ( 16 ) ;
if ( ! cmd_burst )
{
SEND_SPI_BUFFER ( )
}
}
void EVE_cmd_scrollbar ( int16_t x0 , int16_t y0 , int16_t w0 , int16_t h0 , uint16_t options , uint16_t val , uint16_t size , uint16_t range )
{
EVE_start_cmd ( CMD_SCROLLBAR ) ;
BUFFER_SPI_WORD ( x0 )
BUFFER_SPI_WORD ( y0 )
BUFFER_SPI_WORD ( w0 )
BUFFER_SPI_WORD ( h0 )
BUFFER_SPI_WORD ( options )
BUFFER_SPI_WORD ( val )
BUFFER_SPI_WORD ( size )
BUFFER_SPI_WORD ( range )
EVE_inc_cmdoffset ( 16 ) ;
if ( ! cmd_burst )
{
SEND_SPI_BUFFER ( )
}
}
void EVE_cmd_slider ( int16_t x1 , int16_t y1 , int16_t w1 , int16_t h1 , uint16_t options , uint16_t val , uint16_t range )
{
EVE_start_cmd ( CMD_SLIDER ) ;
BUFFER_SPI_WORD ( x1 )
BUFFER_SPI_WORD ( y1 )
BUFFER_SPI_WORD ( w1 )
BUFFER_SPI_WORD ( h1 )
BUFFER_SPI_WORD ( options )
BUFFER_SPI_WORD ( val )
BUFFER_SPI_WORD ( range )
BUFFER_SPI_WORD ( 0 ) /* dummy word for 4-byte alignment */
EVE_inc_cmdoffset ( 16 ) ;
if ( ! cmd_burst )
{
SEND_SPI_BUFFER ( )
}
}
void EVE_cmd_dial ( int16_t x0 , int16_t y0 , int16_t r0 , uint16_t options , uint16_t val )
{
EVE_start_cmd ( CMD_DIAL ) ;
BUFFER_SPI_WORD ( x0 )
BUFFER_SPI_WORD ( y0 )
BUFFER_SPI_WORD ( r0 )
BUFFER_SPI_WORD ( options )
BUFFER_SPI_WORD ( val )
BUFFER_SPI_WORD ( 0 ) /* dummy word for 4-byte alignment */
EVE_inc_cmdoffset ( 12 ) ;
if ( ! cmd_burst )
{
SEND_SPI_BUFFER ( )
}
}
# if defined (BT81X_ENABLE)
/* as the name implies, "num_args" is the number of arguments passed to this function as variadic arguments */
void EVE_cmd_toggle_var ( int16_t x0 , int16_t y0 , int16_t w0 , int16_t font , uint16_t options , uint16_t state , const char * text , uint8_t num_args , . . . )
{
va_list arguments ;
uint8_t counter ;
uint32_t data ;
va_start ( arguments , num_args ) ;
EVE_start_cmd ( CMD_TOGGLE ) ;
BUFFER_SPI_WORD ( x0 )
BUFFER_SPI_WORD ( y0 )
BUFFER_SPI_WORD ( w0 )
BUFFER_SPI_WORD ( font )
BUFFER_SPI_WORD ( options )
BUFFER_SPI_WORD ( state )
EVE_inc_cmdoffset ( 12 ) ;
EVE_write_string ( text ) ;
if ( options & EVE_OPT_FORMAT )
{
for ( counter = 0 ; counter < num_args ; counter + + )
{
data = ( uint32_t ) va_arg ( arguments , int ) ;
BUFFER_SPI_DWORD ( data )
EVE_inc_cmdoffset ( 4 ) ;
}
}
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if ( ! cmd_burst )
{
SEND_SPI_BUFFER ( )
}
va_end ( arguments ) ;
}
# endif
void EVE_cmd_toggle ( int16_t x0 , int16_t y0 , int16_t w0 , int16_t font , uint16_t options , uint16_t state , const char * text )
{
EVE_start_cmd ( CMD_TOGGLE ) ;
BUFFER_SPI_WORD ( x0 )
BUFFER_SPI_WORD ( y0 )
BUFFER_SPI_WORD ( font )
BUFFER_SPI_WORD ( options )
BUFFER_SPI_WORD ( state )
EVE_inc_cmdoffset ( 12 ) ;
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EVE_write_string ( text ) ;
if ( ! cmd_burst )
{
SEND_SPI_BUFFER ( )
}
}
# if defined (FT81X_ENABLE)
void EVE_cmd_setbase ( uint32_t base )
{
EVE_start_cmd ( CMD_SETBASE ) ;
BUFFER_SPI_DWORD ( base ) ;
EVE_inc_cmdoffset ( 4 ) ;
if ( ! cmd_burst )
{
SEND_SPI_BUFFER ( )
}
}
# endif
# endif // FT81X_FULL
# if defined (FT81X_ENABLE)
void EVE_cmd_setbitmap ( uint32_t addr , uint16_t fmt , uint16_t width , uint16_t height )
{
EVE_start_cmd ( CMD_SETBITMAP ) ;
BUFFER_SPI_DWORD ( addr )
BUFFER_SPI_WORD ( fmt )
BUFFER_SPI_WORD ( width )
BUFFER_SPI_WORD ( height )
BUFFER_SPI_WORD ( 0 )
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EVE_inc_cmdoffset ( 12 ) ;
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if ( ! cmd_burst )
{
SEND_SPI_BUFFER ( )
}
}
# endif
# if FT81X_FULL
void EVE_cmd_number ( int16_t x0 , int16_t y0 , int16_t font , uint16_t options , int32_t number )
{
EVE_start_cmd ( CMD_NUMBER ) ;
BUFFER_SPI_WORD ( x0 )
BUFFER_SPI_WORD ( y0 )
BUFFER_SPI_WORD ( font )
BUFFER_SPI_WORD ( options )
BUFFER_SPI_DWORD ( number )
EVE_inc_cmdoffset ( 12 ) ;
if ( ! cmd_burst )
{
SEND_SPI_BUFFER ( )
}
}
void EVE_cmd_append ( uint32_t ptr , uint32_t num )
{
EVE_start_cmd ( CMD_APPEND ) ;
BUFFER_SPI_DWORD ( ptr )
BUFFER_SPI_DWORD ( num )
EVE_inc_cmdoffset ( 8 ) ;
if ( ! cmd_burst )
{
SEND_SPI_BUFFER ( )
}
}
/* commands for setting the bitmap transform matrix: */
/*
The description in the programmers guide is strange for this function .
While it is named * get * matrix , parameters ' a ' to ' f ' are supplied to the function
and described as " output parameter "
Best guess is that this one allows to setup the matrix coefficients manually .
If this assumption is correct it rather should be named cmd_setupmatrix ( ) .
*/
void EVE_cmd_getmatrix ( int32_t a , int32_t b , int32_t c , int32_t d , int32_t e , int32_t f )
{
EVE_start_cmd ( CMD_GETMATRIX ) ;
BUFFER_SPI_DWORD ( a )
BUFFER_SPI_DWORD ( b )
BUFFER_SPI_DWORD ( c )
BUFFER_SPI_DWORD ( d )
BUFFER_SPI_DWORD ( e )
BUFFER_SPI_DWORD ( f )
EVE_inc_cmdoffset ( 24 ) ;
if ( ! cmd_burst )
{
SEND_SPI_BUFFER ( )
}
}
void EVE_cmd_translate ( int32_t tx , int32_t ty )
{
EVE_start_cmd ( CMD_TRANSLATE ) ;
BUFFER_SPI_DWORD ( tx )
BUFFER_SPI_DWORD ( ty )
EVE_inc_cmdoffset ( 8 ) ;
if ( ! cmd_burst )
{
SEND_SPI_BUFFER ( )
}
}
void EVE_cmd_scale ( int32_t sx , int32_t sy )
{
EVE_start_cmd ( CMD_SCALE ) ;
BUFFER_SPI_DWORD ( sx )
BUFFER_SPI_DWORD ( sy )
EVE_inc_cmdoffset ( 8 ) ;
if ( ! cmd_burst )
{
SEND_SPI_BUFFER ( )
}
}
void EVE_cmd_rotate ( int32_t ang )
{
EVE_start_cmd ( CMD_ROTATE ) ;
BUFFER_SPI_DWORD ( ang )
EVE_inc_cmdoffset ( 4 ) ;
if ( ! cmd_burst )
{
SEND_SPI_BUFFER ( )
}
}
# if defined (BT81X_ENABLE)
void EVE_cmd_rotatearound ( int32_t x0 , int32_t y0 , int32_t angle , int32_t scale )
{
EVE_start_cmd ( CMD_ROTATEAROUND ) ;
BUFFER_SPI_DWORD ( x0 )
BUFFER_SPI_DWORD ( y0 )
BUFFER_SPI_DWORD ( ang )
BUFFER_SPI_DWORD ( scale )
EVE_inc_cmdoffset ( 16 ) ;
if ( ! cmd_burst )
{
SEND_SPI_BUFFER ( )
}
}
# endif
/* other commands: */
void EVE_cmd_calibrate ( void )
{
EVE_start_cmd ( CMD_CALIBRATE ) ;
BUFFER_SPI_DWORD ( 0 )
EVE_inc_cmdoffset ( 4 ) ;
if ( ! cmd_burst )
{
SEND_SPI_BUFFER ( )
}
}
# if defined (FT81X_ENABLE)
void EVE_cmd_romfont ( uint32_t font , uint32_t romslot )
{
EVE_start_cmd ( CMD_ROMFONT ) ;
BUFFER_SPI_DWORD ( font & 0x0000ffff )
BUFFER_SPI_DWORD ( romslot & 0x0000ffff )
EVE_inc_cmdoffset ( 8 ) ;
if ( ! cmd_burst )
{
SEND_SPI_BUFFER ( )
}
}
# endif
# if defined (FT81X_ENABLE)
void EVE_cmd_setscratch ( uint32_t handle )
{
EVE_start_cmd ( CMD_SETSCRATCH ) ;
BUFFER_SPI_DWORD ( handle )
EVE_inc_cmdoffset ( 4 ) ;
if ( ! cmd_burst )
{
SEND_SPI_BUFFER ( )
}
}
# endif
void EVE_cmd_sketch ( int16_t x0 , int16_t y0 , uint16_t w0 , uint16_t h0 , uint32_t ptr , uint16_t format )
{
EVE_start_cmd ( CMD_SKETCH ) ;
BUFFER_SPI_WORD ( x0 )
BUFFER_SPI_WORD ( y0 )
BUFFER_SPI_WORD ( w0 )
BUFFER_SPI_WORD ( h0 )
BUFFER_SPI_DWORD ( ptr )
BUFFER_SPI_WORD ( format )
BUFFER_SPI_WORD ( 0 ) /* dummy word for 4-byte alignment */
EVE_inc_cmdoffset ( 16 ) ;
if ( ! cmd_burst )
{
SEND_SPI_BUFFER ( )
}
}
void EVE_cmd_spinner ( int16_t x0 , int16_t y0 , uint16_t style , uint16_t scale )
{
EVE_start_cmd ( CMD_SPINNER ) ;
BUFFER_SPI_WORD ( x0 )
BUFFER_SPI_WORD ( y0 )
BUFFER_SPI_WORD ( style )
BUFFER_SPI_WORD ( scale )
EVE_inc_cmdoffset ( 8 ) ;
if ( ! cmd_burst )
{
SEND_SPI_BUFFER ( )
}
}
/* various commands new for EVE3 */
# if defined (BT81X_ENABLE)
void EVE_cmd_animstart ( int32_t ch , uint32_t aoptr , uint32_t loop )
{
EVE_start_cmd ( CMD_ANIMSTART ) ;
BUFFER_SPI_DWORD ( ch )
BUFFER_SPI_DWORD ( aoptr )
BUFFER_SPI_DWORD ( loop )
EVE_inc_cmdoffset ( 12 ) ;
if ( ! cmd_burst )
{
SEND_SPI_BUFFER ( )
}
}
void EVE_cmd_animstop ( int32_t ch )
{
EVE_start_cmd ( CMD_ANIMSTOP ) ;
BUFFER_SPI_DWORD ( ch )
EVE_inc_cmdoffset ( 4 ) ;
if ( ! cmd_burst )
{
SEND_SPI_BUFFER ( )
}
}
void EVE_cmd_animxy ( int32_t ch , int16_t x0 , int16_t y0 )
{
EVE_start_cmd ( CMD_ANIMXY ) ;
BUFFER_SPI_DWORD ( ch )
BUFFER_SPI_WORD ( x0 )
BUFFER_SPI_WORD ( y0 )
EVE_inc_cmdoffset ( 8 ) ;
if ( ! cmd_burst )
{
SEND_SPI_BUFFER ( )
}
}
void EVE_cmd_animdraw ( int32_t ch )
{
EVE_start_cmd ( CMD_ANIMDRAW ) ;
BUFFER_SPI_DWORD ( ch )
EVE_inc_cmdoffset ( 4 ) ;
if ( ! cmd_burst )
{
SEND_SPI_BUFFER ( )
}
}
void EVE_cmd_animframe ( int16_t x0 , int16_t y0 , uint32_t aoptr , uint32_t frame )
{
EVE_start_cmd ( CMD_ANIMFRAME ) ;
BUFFER_SPI_WORD ( x0 )
BUFFER_SPI_WORD ( y0 )
BUFFER_SPI_DWORD ( aoptr )
BUFFER_SPI_DWORD ( frame )
EVE_inc_cmdoffset ( 12 ) ;
if ( ! cmd_burst )
{
SEND_SPI_BUFFER ( )
}
}
void EVE_cmd_gradienta ( int16_t x0 , int16_t y0 , uint32_t argb0 , int16_t x1 , int16_t y1 , uint32_t argb1 )
{
EVE_start_cmd ( CMD_GRADIENTA ) ;
BUFFER_SPI_WORD ( x0 )
BUFFER_SPI_WORD ( y0 )
BUFFER_SPI_DWORD ( argb0 )
BUFFER_SPI_WORD ( x1 )
BUFFER_SPI_WORD ( y1 )
BUFFER_SPI_DWORD ( argb1 )
EVE_inc_cmdoffset ( 16 ) ;
if ( ! cmd_burst )
{
SEND_SPI_BUFFER ( )
}
}
void EVE_cmd_fillwidth ( uint32_t s )
{
EVE_start_cmd ( CMD_FILLWIDTH ) ;
BUFFER_SPI_DWORD ( s )
EVE_inc_cmdoffset ( 4 ) ;
if ( ! cmd_burst )
{
SEND_SPI_BUFFER ( )
}
}
void EVE_cmd_appendf ( uint32_t ptr , uint32_t num )
{
EVE_start_cmd ( CMD_APPENDF ) ;
BUFFER_SPI_DWORD ( ptr )
BUFFER_SPI_DWORD ( num )
EVE_inc_cmdoffset ( 8 ) ;
if ( ! cmd_burst )
{
SEND_SPI_BUFFER ( )
}
}
# endif
/* warning! meta-command! this is a sequence of display-list commands to simplify use at the price of some overhead */
void EVE_cmd_point ( int16_t x0 , int16_t y0 , uint16_t size )
{
EVE_start_cmd ( ( DL_BEGIN | EVE_POINTS ) ) ;
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uint32_t calc = POINT_SIZE ( size * 16 ) ;
BUFFER_SPI_DWORD ( calc )
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calc = VERTEX2F ( x0 * 16 , y0 * 16 ) ;
BUFFER_SPI_DWORD ( calc )
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BUFFER_SPI_DWORD ( DL_END )
EVE_inc_cmdoffset ( 12 ) ;
if ( ! cmd_burst )
{
SEND_SPI_BUFFER ( )
}
}
/* warning! meta-command! this is a sequence of display-list commands to simplify use at the price of some overhead */
void EVE_cmd_line ( int16_t x0 , int16_t y0 , int16_t x1 , int16_t y1 , uint16_t width )
{
EVE_start_cmd ( ( DL_BEGIN | EVE_LINES ) ) ;
uint32_t calc = LINE_WIDTH ( width * 16 ) ;
BUFFER_SPI_DWORD ( calc )
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calc = VERTEX2F ( x0 * 16 , y0 * 16 ) ;
BUFFER_SPI_DWORD ( calc )
calc = VERTEX2F ( x1 * 16 , y1 * 16 ) ;
BUFFER_SPI_DWORD ( calc )
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BUFFER_SPI_DWORD ( DL_END )
EVE_inc_cmdoffset ( 16 ) ;
if ( ! cmd_burst )
{
SEND_SPI_BUFFER ( )
}
}
/* warning! meta-command! this is a sequence of display-list commands to simplify use at the price of some overhead */
void EVE_cmd_rect ( int16_t x0 , int16_t y0 , int16_t x1 , int16_t y1 , uint16_t corner )
{
EVE_start_cmd ( ( DL_BEGIN | EVE_RECTS ) ) ;
uint32_t calc = LINE_WIDTH ( corner * 16 ) ;
BUFFER_SPI_DWORD ( calc )
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calc = VERTEX2F ( x0 * 16 , y0 * 16 ) ;
BUFFER_SPI_DWORD ( calc )
calc = VERTEX2F ( x1 * 16 , y1 * 16 ) ;
BUFFER_SPI_DWORD ( calc )
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BUFFER_SPI_DWORD ( DL_END )
EVE_inc_cmdoffset ( 16 ) ;
if ( ! cmd_burst )
{
SEND_SPI_BUFFER ( )
}
}
/* this is meant to be called outside display-list building */
/* this function displays an interactive calibration screen, calculates the calibration values and */
/* writes the new values to the touch matrix registers of EVE */
/* unlike the built-in cmd_calibrate() of EVE this also works with displays that are cut down from larger ones like EVE2-38A / EVE2-38G */
/* the height is needed as parameter as EVE_VSIZE for the EVE2-38 is 272 but the visible size is only 116 */
/* so the call would be EVE_calibrate_manual(116); for the EVE2-38A and EVE2-38G while for most other displays */
/* using EVE_calibrate_manual(EVE_VSIZE) would work - but for normal displays the built-in cmd_calibrate would work as expected anyways */
/* this code was taken from the MatrixOrbital EVE2-Library on Github, adapted and modified */
void EVE_calibrate_manual ( uint16_t height )
{
uint32_t displayX [ 3 ] , displayY [ 3 ] ;
uint32_t touchX [ 3 ] , touchY [ 3 ] ;
uint32_t touchValue ;
int32_t tmp , k ;
int32_t TransMatrix [ 6 ] ;
uint8_t count = 0 ;
char num [ 2 ] ;
uint8_t touch_lock = 1 ;
/* these values determine where your calibration points will be drawn on your display */
displayX [ 0 ] = ( EVE_HSIZE * 0.15 ) ;
displayY [ 0 ] = ( height * 0.15 ) ;
displayX [ 1 ] = ( EVE_HSIZE * 0.85 ) ;
displayY [ 1 ] = ( height / 2 ) ;
displayX [ 2 ] = ( EVE_HSIZE / 2 ) ;
displayY [ 2 ] = ( height * 0.85 ) ;
while ( count < 3 )
{
// immediate transfer mode
EVE_cmd_dl ( CMD_DLSTART ) ;
EVE_cmd_dl ( DL_CLEAR_RGB | 0x000000 ) ;
EVE_cmd_dl ( DL_CLEAR | CLR_COL | CLR_STN | CLR_TAG ) ;
/* draw Calibration Point on screen */
EVE_cmd_dl ( DL_COLOR_RGB | 0x0000ff ) ;
EVE_cmd_dl ( POINT_SIZE ( 20 * 16 ) ) ;
EVE_cmd_dl ( ( DL_BEGIN | EVE_POINTS ) ) ;
EVE_cmd_dl ( VERTEX2F ( ( uint32_t ) ( displayX [ count ] ) * 16 , ( uint32_t ) ( ( displayY [ count ] ) ) * 16 ) ) ;
EVE_cmd_dl ( DL_END ) ;
EVE_cmd_dl ( DL_COLOR_RGB | 0xffffff ) ;
EVE_cmd_text ( ( EVE_HSIZE / 2 ) , 50 , 27 , EVE_OPT_CENTER , " Please tap on the dot. " ) ;
num [ 0 ] = count + 0x31 ; num [ 1 ] = 0 ; /* null terminated string of one character */
EVE_cmd_text ( displayX [ count ] , displayY [ count ] , 27 , EVE_OPT_CENTER , num ) ;
EVE_cmd_dl ( DL_DISPLAY ) ;
EVE_cmd_dl ( CMD_SWAP ) ;
EVE_cmd_execute ( ) ;
while ( 1 )
{
touchValue = EVE_memRead32 ( REG_TOUCH_DIRECT_XY ) ; /* read for any new touch tag inputs */
if ( touch_lock )
{
if ( touchValue & 0x80000000 ) /* check if we have no touch */
{
touch_lock = 0 ;
}
}
else
{
if ( ! ( touchValue & 0x80000000 ) ) /* check if a touch is detected */
{
touchX [ count ] = ( touchValue > > 16 ) & 0x03FF ; /* raw Touchscreen Y coordinate */
touchY [ count ] = touchValue & 0x03FF ; /* raw Touchscreen Y coordinate */
touch_lock = 1 ;
count + + ;
break ; /* leave while(1) */
}
}
}
}
k = ( ( touchX [ 0 ] - touchX [ 2 ] ) * ( touchY [ 1 ] - touchY [ 2 ] ) ) - ( ( touchX [ 1 ] - touchX [ 2 ] ) * ( touchY [ 0 ] - touchY [ 2 ] ) ) ;
tmp = ( ( ( displayX [ 0 ] - displayX [ 2 ] ) * ( touchY [ 1 ] - touchY [ 2 ] ) ) - ( ( displayX [ 1 ] - displayX [ 2 ] ) * ( touchY [ 0 ] - touchY [ 2 ] ) ) ) ;
TransMatrix [ 0 ] = ( ( int64_t ) tmp < < 16 ) / k ;
tmp = ( ( ( touchX [ 0 ] - touchX [ 2 ] ) * ( displayX [ 1 ] - displayX [ 2 ] ) ) - ( ( displayX [ 0 ] - displayX [ 2 ] ) * ( touchX [ 1 ] - touchX [ 2 ] ) ) ) ;
TransMatrix [ 1 ] = ( ( int64_t ) tmp < < 16 ) / k ;
tmp = ( ( touchY [ 0 ] * ( ( ( touchX [ 2 ] * displayX [ 1 ] ) - ( touchX [ 1 ] * displayX [ 2 ] ) ) ) ) + ( touchY [ 1 ] * ( ( ( touchX [ 0 ] * displayX [ 2 ] ) - ( touchX [ 2 ] * displayX [ 0 ] ) ) ) ) + ( touchY [ 2 ] * ( ( ( touchX [ 1 ] * displayX [ 0 ] ) - ( touchX [ 0 ] * displayX [ 1 ] ) ) ) ) ) ;
TransMatrix [ 2 ] = ( ( int64_t ) tmp < < 16 ) / k ;
tmp = ( ( ( displayY [ 0 ] - displayY [ 2 ] ) * ( touchY [ 1 ] - touchY [ 2 ] ) ) - ( ( displayY [ 1 ] - displayY [ 2 ] ) * ( touchY [ 0 ] - touchY [ 2 ] ) ) ) ;
TransMatrix [ 3 ] = ( ( int64_t ) tmp < < 16 ) / k ;
tmp = ( ( ( touchX [ 0 ] - touchX [ 2 ] ) * ( displayY [ 1 ] - displayY [ 2 ] ) ) - ( ( displayY [ 0 ] - displayY [ 2 ] ) * ( touchX [ 1 ] - touchX [ 2 ] ) ) ) ;
TransMatrix [ 4 ] = ( ( int64_t ) tmp < < 16 ) / k ;
tmp = ( ( touchY [ 0 ] * ( ( ( touchX [ 2 ] * displayY [ 1 ] ) - ( touchX [ 1 ] * displayY [ 2 ] ) ) ) ) + ( touchY [ 1 ] * ( ( ( touchX [ 0 ] * displayY [ 2 ] ) - ( touchX [ 2 ] * displayY [ 0 ] ) ) ) ) + ( touchY [ 2 ] * ( ( ( touchX [ 1 ] * displayY [ 0 ] ) - ( touchX [ 0 ] * displayY [ 1 ] ) ) ) ) ) ;
TransMatrix [ 5 ] = ( ( int64_t ) tmp < < 16 ) / k ;
EVE_memWrite32 ( REG_TOUCH_TRANSFORM_A , TransMatrix [ 0 ] ) ;
EVE_memWrite32 ( REG_TOUCH_TRANSFORM_B , TransMatrix [ 1 ] ) ;
EVE_memWrite32 ( REG_TOUCH_TRANSFORM_C , TransMatrix [ 2 ] ) ;
EVE_memWrite32 ( REG_TOUCH_TRANSFORM_D , TransMatrix [ 3 ] ) ;
EVE_memWrite32 ( REG_TOUCH_TRANSFORM_E , TransMatrix [ 4 ] ) ;
EVE_memWrite32 ( REG_TOUCH_TRANSFORM_F , TransMatrix [ 5 ] ) ;
}
# endif // FT81X_FULL