void lcd_init(void)
{
deg_Printf("lcd_init spi_ili8961 \n");
blcd_FrameEnd_Flag = 0;
blcd_writeback_Flag = 0;
PIN_CONF()
SPI_PIN_CONF()
//====open lcd ldo=====
REG32(SYS_CON) = 0x932B; //SPEC request value
REG32(LDO_ACON) |= 0x4; // 3.0v
REG32(LDO_ACON) |= (1<<3); //lcd ldo enable
deg_Printf("lcd ldo open \n");
Delay_MS(100);
//====end open lcd ldo=====
lcd_spirgb_timing_init(spi_ili8961);
lcd_spi_init(&table_init[0][0]);
#if (USER_CONFIG==CONFIG_AX3251_K6000)
reset_rgb_data_en(0xfe); // data 7bit en
#endif
deg_Printf("Reg1=%x,%x,%x,%x,%x\n",REG32(PF_DIR),REG32(PG_DIR),REG32(PMAP_CFG0),REG32(LCD_CFG),REG32(LCD_CFG_EMI));
spi_to_rgb();
//REG32(LCDCON0)|=BIT(8)|BIT(13);//XJC
SetIntSrc(LCD_INT);
REG32(LCDCON0) |= 1<<10;
}
static int hx8357a_hvga_panel_on(struct platform_device *pdev)
{
if (!hx8357a_hvga_state.disp_initialized)
{
hx8357a_hvga_reset();
lcd_spi_init(lcdc_hx8357a_hvga_pdata); /* LCD needs SPI */
hx8357a_hvga_disp_powerup();
hx8357a_hvga_disp_on();
hx8357a_hvga_state.disp_initialized = TRUE;
LCD_DEBUG("%s: hx8357a lcd initialized\n", __func__);
}
else if (!hx8357a_hvga_state.display_on)
{
switch(lcd_panel_hvga)
{
case LCD_HX8357A_TRULY_HVGA:
/* Exit Standby Mode */
process_lcdc_table((struct command*)&hx8357a_truly_hvga_standby_exit_table, ARRAY_SIZE(hx8357a_truly_hvga_standby_exit_table));
break;
case LCD_HX8357A_WINTEK_HVGA:
/* Exit Standby Mode */
process_lcdc_table((struct command*)&hx8357a_wintek_hvga_standby_exit_table, ARRAY_SIZE(hx8357a_wintek_hvga_standby_exit_table));
break;
default:
break;
}
LCD_DEBUG("%s: Exit Standby Mode\n", __func__);
hx8357a_hvga_state.display_on = TRUE;
}
return 0;
}
static int hx8357c_hvga_panel_on(struct platform_device *pdev)
{
boolean para_debug_flag = FALSE;
uint32 para_num = 0;
/* open debug file and read the para */
switch(lcd_panel_hvga)
{
case LCD_HX8357C_TIANMA_HVGA:
para_debug_flag = lcd_debug_malloc_get_para( "hx8357c_tianma_hvga_init_table",
(void**)&hx8357c_hvga_init_table,¶_num);
break;
default:
break;
}
if (!hx8357c_hvga_state.disp_initialized)
{
hx8357c_hvga_reset();
lcd_spi_init(lcdc_hx8357c_hvga_pdata); /* LCD needs SPI */
hx8357c_hvga_disp_powerup();
hx8357c_hvga_disp_on();
hx8357c_hvga_state.disp_initialized = TRUE;
if( (TRUE == para_debug_flag) && (NULL != hx8357c_hvga_init_table))
{
// lcd_reset();
process_lcdc_table(hx8357c_hvga_init_table, para_num,lcd_panel_hvga);
}
LCD_DEBUG("%s: hx8357c lcd initialized\n", __func__);
}
else if (!hx8357c_hvga_state.display_on)
{
switch(lcd_panel_hvga)
{
case LCD_HX8357C_TIANMA_HVGA:
if( (TRUE == para_debug_flag)&&(NULL != hx8357c_hvga_init_table))
{
// lcd_reset();
process_lcdc_table(hx8357c_hvga_init_table, para_num,lcd_panel_hvga);
}
else
{
/* Exit Standby Mode */
process_lcdc_table((struct sequence*)&hx8357c_tianma_hvga_standby_exit_table,
ARRAY_SIZE(hx8357c_tianma_hvga_standby_exit_table), lcd_panel_hvga);
}
break;
default:
break;
}
LCD_DEBUG("%s: Exit Standby Mode\n", __func__);
hx8357c_hvga_state.display_on = TRUE;
}
/* Must malloc before,then you can call free */
if((TRUE == para_debug_flag)&&(NULL != hx8357c_hvga_init_table))
{
lcd_debug_free_para((void *)hx8357c_hvga_init_table);
}
return 0;
}
static int nt35410_hvga_panel_on(struct platform_device *pdev)
{
boolean para_debug_flag = FALSE;
uint32 para_num = 0;
switch(lcd_panel_hvga)
{
case LCD_NT35410_CHIMEI_HVGA:
para_debug_flag = lcd_debug_malloc_get_para( "lcdc_nt35410_hvga_init_table",
(void**)&lcdc_nt35410_hvga_init_table,¶_num);
break;
default:
break;
}
if (!nt35410_hvga_state.disp_initialized)
{
nt35410_hvga_reset();
lcd_spi_init(lcdc_nt35410_hvga_pdata); /* LCD needs SPI */
nt35410_hvga_disp_powerup();
nt35410_hvga_disp_on();
nt35410_hvga_state.disp_initialized = TRUE;
if((TRUE == para_debug_flag) && (NULL != lcdc_nt35410_hvga_init_table))
{
process_lcdc_table(lcdc_nt35410_hvga_init_table,para_num,lcd_panel_hvga);
}
LCD_DEBUG("%s: nt35410 lcd initialized\n", __func__);
}
else if (!nt35410_hvga_state.display_on)
{
switch(lcd_panel_hvga)
{
case LCD_NT35410_CHIMEI_HVGA:
if( (TRUE == para_debug_flag)&&(NULL != lcdc_nt35410_hvga_init_table))
{
process_lcdc_table(lcdc_nt35410_hvga_init_table,para_num,lcd_panel_hvga);
}
else
{
/* Exit Standby Mode */
process_lcdc_table((struct sequence*)&nt35410_chimei_hvga_standby_exit_table,
ARRAY_SIZE(nt35410_chimei_hvga_standby_exit_table),lcd_panel_hvga);
}
break;
default:
break;
}
LCD_DEBUG("%s: Exit Standby Mode\n", __func__);
nt35410_hvga_state.display_on = TRUE;
}
/* Must malloc before,then you can call free */
if((TRUE == para_debug_flag)&&(NULL != lcdc_nt35410_hvga_init_table))
{
lcd_debug_free_para((void *)lcdc_nt35410_hvga_init_table);
}
return 0;
}
static int lcdc_s6d74a0_panel_on(struct platform_device *pdev)
{
boolean para_debug_flag = FALSE;
uint32 para_num = 0;
LCD_DEBUG("ENTER lcdc_s6d74a0_panel_on\n");
/* open debug file and read the para */
switch(lcd_panel_hvga)
{
case LCD_S6D74A0_SAMSUNG_HVGA:
para_debug_flag = lcd_debug_malloc_get_para( "s6d74a0_samsung_init_table",
(void**)&s6d74a0_samsung_init_table,¶_num);
break;
default:
break;
}
if(!lcd_s6d74a0_state.disp_initialized)
{
lcdc_s6d74a0_pdata->panel_config_gpio(1);
lcd_reset_gpio = *(lcdc_s6d74a0_pdata->gpio_num + 4);
lcd_spi_init(lcdc_s6d74a0_pdata); /* LCD needs SPI */
lcd_s6d74a0_disp_powerup();
lcd_s6d74a0_state.display_on = TRUE;
lcd_s6d74a0_state.disp_initialized = TRUE;
}
else if(!lcd_s6d74a0_state.display_on)
{
switch(lcd_panel_hvga)
{
case LCD_S6D74A0_SAMSUNG_HVGA:
if((TRUE == para_debug_flag)
&&(NULL != s6d74a0_samsung_init_table))
{
//seriout(0x0010, 0x0000); the table should add this value on the front delete by zhangpeng 20110112
process_lcdc_table(s6d74a0_samsung_init_table, para_num, LCD_S6D74A0_SAMSUNG_HVGA);
}
else
{
process_lcdc_table((struct sequence*)&s6d74a0_samsung_init,
ARRAY_SIZE(s6d74a0_samsung_init), LCD_S6D74A0_SAMSUNG_HVGA);
}
break;
default:
break;
}
lcd_s6d74a0_state.display_on = TRUE;
}
/* Must malloc before,then you can call free */
if((TRUE == para_debug_flag)&&(NULL != s6d74a0_samsung_init_table))
{
lcd_debug_free_para((void *)s6d74a0_samsung_init_table);
}
return 0;
}
ADDRESS_MAP_END
/***************************************************************************
MACHINE DRIVERS
***************************************************************************/
static DRIVER_INIT( hp49gp )
{
hp49gp_state *hp49gp = machine.driver_data<hp49gp_state>();
UINT8 *rom = (UINT8 *)machine.region( "maincpu")->base();
memcpy( hp49gp->m_steppingstone, rom, 1024);
lcd_spi_init( machine);
}
void commonInit(const unsigned char *cmdList)
{
colstart = rowstart = 0; // May be overridden in init func
lcd_spi_init();
// Reset screen (TODO: Optimize this to reset faster)
LCD_PORT |= LCD_RESET_BIT;
delay_ms(500);
LCD_PORT &= ~LCD_RESET_BIT;
delay_ms(500);
LCD_PORT |= LCD_RESET_BIT;
delay_ms(500);
if(cmdList)
commandList(cmdList);
}
static int lcdc_hx8357b_panel_on(struct platform_device *pdev)
{
printk(KERN_INFO "%s\n", __func__);
if (!lcd_hx8357b_state.disp_initialized)
{
/* Configure reset GPIO that drives DAC */
lcdc_hx8357b_pdata->panel_config_gpio(1);
lcd_reset_gpio = *(lcdc_hx8357b_pdata->gpio_num + 4);
lcd_spi_init(lcdc_hx8357b_pdata); /* LCD needs SPI */
lcd_hx8357b_disp_powerup();
lcd_hx8357b_state.display_on = TRUE;
lcd_hx8357b_state.disp_initialized = TRUE;
}
else if(!lcd_hx8357b_state.display_on)
{
lcd_hx8357b_panel_exit_sleep();
}
return 0;
}
static int lcd_ili9331b_panel_on(struct platform_device *pdev)
{
if (!lcd_ili9331b_state.disp_initialized)
{
/* Configure reset GPIO that drives DAC */
lcd_ili9331b_pdata->panel_config_gpio(1);
lcd_reset_gpio = *(lcd_ili9331b_pdata->gpio_num + 4);
lcd_spi_init(lcd_ili9331b_pdata); /* LCD needs SPI */
lcd_ili9331b_disp_powerup();
lcd_ili9331b_state.display_on = TRUE;
lcd_ili9331b_state.disp_initialized = TRUE;
}
else if(!lcd_ili9331b_state.display_on)
{
lcd_ili9331b_disp_exit_sleep();
}
return 0;
}
static int hx8357a_panel_on(struct platform_device *pdev)
{
if (!hx8357a_state.disp_initialized)
{
hx8357a_reset();
lcd_spi_init(lcdc_hx8357a_pdata); /* LCD needs SPI */
hx8357a_disp_powerup();
hx8357a_disp_on();
hx8357a_state.disp_initialized = TRUE;
LCD_DEBUG("%s: hx8357a lcd initialized\n", __func__);
}
else if (!hx8357a_state.display_on)
{
/* Exit Standby Mode */
process_lcdc_table((struct command*)&hx8357a_standby_exit_table, ARRAY_SIZE(hx8357a_standby_exit_table));
LCD_DEBUG("%s: Exit Standby Mode\n", __func__);
hx8357a_state.display_on = TRUE;
}
return 0;
}
static int truly_r61529_hvga_panel_on(struct platform_device *pdev)
{
boolean para_debug_flag = FALSE;
uint32 para_num = 0;
/* open debug file and read the para */
switch(lcd_panel_hvga)
{
case LCD_R61529_TRULY_HVGA:
para_debug_flag = lcd_debug_malloc_get_para( "truly_r61529_hvga_init_table",
(void**)&truly_r61529_hvga_init_table,¶_num);
break;
default:
break;
}
if (!truly_r61529_hvga_state.disp_initialized)
{
truly_r61529_hvga_reset();
lcd_spi_init(lcdc_truly_r61529_hvga_pdata); /* LCD needs SPI */
truly_r61529_hvga_disp_powerup();
truly_r61529_hvga_disp_on();
truly_r61529_hvga_state.disp_initialized = TRUE;
if( (TRUE == para_debug_flag) && (NULL != truly_r61529_hvga_init_table))
{
// lcd_reset();
process_lcdc_table(truly_r61529_hvga_init_table, para_num,lcd_panel_hvga);
}
LCD_DEBUG("%s: truly r61529 lcd initialized\n", __func__);
}
else if (!truly_r61529_hvga_state.display_on)
{
switch(lcd_panel_hvga)
{
case LCD_R61529_TRULY_HVGA:
if( (TRUE == para_debug_flag)&&(NULL != truly_r61529_hvga_init_table))
{
//lcd_reset();
process_lcdc_table(truly_r61529_hvga_init_table, para_num,lcd_panel_hvga);
}
else
{
/* Exit Standby Mode */
process_lcdc_table((struct sequence*)&truly_r61529_hvga_standby_exit_table,
ARRAY_SIZE(truly_r61529_hvga_standby_exit_table), lcd_panel_hvga);
}
/* we use this function to set low to the SPI CS pin
* to ensure this LCD can enter sleep mode and be waken up
*/
truly_r61529_set_cs(lcdc_truly_r61529_hvga_pdata);
break;
default:
break;
}
LCD_DEBUG("%s: Exit Standby Mode\n", __func__);
truly_r61529_hvga_state.display_on = TRUE;
}
/* Must malloc before,then you can call free */
if((TRUE == para_debug_flag)&&(NULL != truly_r61529_hvga_init_table))
{
lcd_debug_free_para((void *)truly_r61529_hvga_init_table);
}
return 0;
}
/*! \brief Initialize the LCD.
*
* The LCD is reset and initialized with all predefined settings.
*/
void lcd_init(void)
{
lcd_spi_init();
lcd_reset_on();
//R_ESET=1;
//for(i=120; i > 0; i--);
delay_ms(1);
lcd_reset_off();
delay_ms(10);
//for(i=1200; i > 0; i--);
lcd_reset_on();
delay_ms(1000);
//for(i=12000; i > 0; i--);
static const uint8_t init_commands[] = {
4, 0xEF, 0x03, 0x80, 0x02,
4, 0xCF, 0x00, 0XC1, 0X30,
5, 0xED, 0x64, 0x03, 0X12, 0X81,
4, 0xE8, 0x85, 0x00, 0x78,
6, 0xCB, 0x39, 0x2C, 0x00, 0x34, 0x02,
2, 0xF7, 0x20,
3, 0xEA, 0x00, 0x00,
2, ILI9341_PWCTR1, 0x23, // Power control
2, ILI9341_PWCTR2, 0x10, // Power control
3, ILI9341_VMCTR1, 0x3e, 0x28, // VCM control
2, ILI9341_VMCTR2, 0x86, // VCM control2
2, ILI9341_MADCTL, 0x48, // Memory Access Control
2, ILI9341_PIXFMT, 0x55,
3, ILI9341_FRMCTR1, 0x00, 0x18,
4, ILI9341_DFUNCTR, 0x08, 0x82, 0x27, // Display Function Control
2, 0xF2, 0x00, // Gamma Function Disable
2, ILI9341_GAMMASET, 0x01, // Gamma curve selected
16, ILI9341_GMCTRP1, 0x0F, 0x31, 0x2B, 0x0C, 0x0E, 0x08,
0x4E, 0xF1, 0x37, 0x07, 0x10, 0x03, 0x0E, 0x09, 0x00, // Set Gamma
16, ILI9341_GMCTRN1, 0x00, 0x0E, 0x14, 0x03, 0x11, 0x07,
0x31, 0xC1, 0x48, 0x08, 0x0F, 0x0C, 0x31, 0x36, 0x0F, // Set Gamma
0
};
const uint8_t *addr = init_commands;
while (1) {
uint8_t count = *addr++;
if (count-- == 0) break;
writecommand_cont(*addr++);
while (count-- > 0) {
writedata8_cont(*addr++);
}
}
writecommand_last(ILI9341_SLPOUT); // Exit Sleep
writecommand_last(ILI9341_DISPON); // Display on
/*lcd_send_cmd(ILI9341_PWCTRA);
lcd_send_data(0x39);
lcd_send_data(0x2C);
lcd_send_data(0x00);
lcd_send_data(0x34);
lcd_send_data(0x02);
lcd_send_cmd(ILI9341_PWCTRB);
lcd_send_data(0x00);
lcd_send_data(0X81);
lcd_send_data(0X30);
lcd_send_cmd(ILI9341_DRVTCTRA);
lcd_send_data(0x85);
lcd_send_data(0x00);
lcd_send_data(0x78);
lcd_send_cmd(ILI9341_DRVTCTRB);
lcd_send_data(0x66);
lcd_send_data(0x00);
lcd_send_cmd(ILI9341_PWRONCTR);
lcd_send_data(0x55);
lcd_send_data(0x01);
lcd_send_data(0X23);
lcd_send_data(0X01);
lcd_send_cmd(ILI9341_PMPRTCTR);
lcd_send_data(0x10);
lcd_send_cmd(ILI9341_PWCTR1); //Power control
lcd_send_data(0x21); //VRH[5:0]
lcd_send_cmd(ILI9341_PWCTR2); //Power control
lcd_send_data(0x10); //SAP[2:0];BT[3:0]
lcd_send_cmd(ILI9341_VMCTR1); //VCM control
lcd_send_data(0x31);
lcd_send_data(0x3C);
lcd_send_cmd(ILI9341_VMCTR2); //VCM control2
lcd_send_data(0xC0); //--0x86
lcd_set_Orientation(rot0);
lcd_send_cmd(ILI9341_PIXFMT);
lcd_send_data(0x55);
lcd_send_cmd(ILI9341_FRMCTR1);
lcd_send_data(0x00);
lcd_send_data(0x11);
lcd_send_cmd(ILI9341_FRMCTR2);
lcd_send_data(0x00);
lcd_send_data(0x11);
lcd_send_cmd(ILI9341_FRMCTR3);
lcd_send_data(0x00);
lcd_send_data(0x11);
lcd_send_cmd(ILI9341_DFUNCTR); // Display Function Control
lcd_send_data(0x08);
lcd_send_data(0x82);
lcd_send_data(0x27);
lcd_send_cmd(0xF2); // 3Gamma Function Disable
lcd_send_data(0x02);
lcd_send_cmd(ILI9341_GAMMASET); //Gamma curve selected
lcd_send_data(0x01);
lcd_send_cmd(ILI9341_SLPOUT); //Exit Sleep*/
delay_ms(100);
// lcd_send_cmd(ILI9341_DISPON); //Display on
// lcd_send_cmd(ILI9341_RAMWR);
}
