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[/] [openrisc/] [trunk/] [rtos/] [freertos-6.1.1/] [Demo/] [CORTEX_AT91SAM3U256_IAR/] [AT91Lib/] [components/] [hx8347/] [hx8347.c] - Blame information for rev 590

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/* ----------------------------------------------------------------------------
 *         ATMEL Microcontroller Software Support
 * ----------------------------------------------------------------------------
 * Copyright (c) 2008, Atmel Corporation
 *
 * All rights reserved.
 *
 * Redistribution and use in source and binary forms, with or without
 * modification, are permitted provided that the following conditions are met:
 *
 * - Redistributions of source code must retain the above copyright notice,
 * this list of conditions and the disclaimer below.
 *
 * Atmel's name may not be used to endorse or promote products derived from
 * this software without specific prior written permission.
 *
 * DISCLAIMER: THIS SOFTWARE IS PROVIDED BY ATMEL "AS IS" AND ANY EXPRESS OR
 * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
 * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT ARE
 * DISCLAIMED. IN NO EVENT SHALL ATMEL BE LIABLE FOR ANY DIRECT, INDIRECT,
 * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
 * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA,
 * OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
 * LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
 * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE,
 * EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
 * ----------------------------------------------------------------------------
 */
 
//------------------------------------------------------------------------------
/// \unit
///
/// !Purpose
///
/// HX8347 driver
///
/// !Usage
///
/// Explanation on the usage of the code made available through the header file.
//------------------------------------------------------------------------------
 
//------------------------------------------------------------------------------
//         Headers
//------------------------------------------------------------------------------
#include <board.h>
#include <stdio.h>
 
#ifdef BOARD_LCD_HX8347
 
#include "hx8347.h"
 
//------------------------------------------------------------------------------
//         Types
//------------------------------------------------------------------------------
typedef volatile unsigned short REG16;
 
//------------------------------------------------------------------------------
//         Definitions
//------------------------------------------------------------------------------
/// LCD index register address
#define LCD_IR(baseAddr) (*((REG16 *)(baseAddr)))
/// LCD status register address
#define LCD_SR(baseAddr) (*((REG16 *)(baseAddr)))
/// LCD data address
#define LCD_D(baseAddr)  (*((REG16 *)((unsigned int)(baseAddr) + BOARD_LCD_RS)))
 
/// HX8347 ID code
#define HX8347_HIMAXID_CODE    0x47
 
/// HX8347 LCD Registers
#define HX8347_R00H        0x00
#define HX8347_R01H        0x01
#define HX8347_R02H        0x02
#define HX8347_R03H        0x03
#define HX8347_R04H        0x04
#define HX8347_R05H        0x05
#define HX8347_R06H        0x06
#define HX8347_R07H        0x07
#define HX8347_R08H        0x08
#define HX8347_R09H        0x09
#define HX8347_R0AH        0x0A
#define HX8347_R0CH        0x0C
#define HX8347_R0DH        0x0D
#define HX8347_R0EH        0x0E
#define HX8347_R0FH        0x0F
#define HX8347_R10H        0x10
#define HX8347_R11H        0x11
#define HX8347_R12H        0x12
#define HX8347_R13H        0x13
#define HX8347_R14H        0x14
#define HX8347_R15H        0x15
#define HX8347_R16H        0x16
#define HX8347_R18H        0x18
#define HX8347_R19H        0x19
#define HX8347_R1AH        0x1A
#define HX8347_R1BH        0x1B
#define HX8347_R1CH        0x1C
#define HX8347_R1DH        0x1D
#define HX8347_R1EH        0x1E
#define HX8347_R1FH        0x1F
#define HX8347_R20H        0x20
#define HX8347_R21H        0x21
#define HX8347_R22H        0x22
#define HX8347_R23H        0x23
#define HX8347_R24H        0x24
#define HX8347_R25H        0x25
#define HX8347_R26H        0x26
#define HX8347_R27H        0x27
#define HX8347_R28H        0x28
#define HX8347_R29H        0x29
#define HX8347_R2AH        0x2A
#define HX8347_R2BH        0x2B
#define HX8347_R2CH        0x2C
#define HX8347_R2DH        0x2D
#define HX8347_R35H        0x35
#define HX8347_R36H        0x36
#define HX8347_R37H        0x37
#define HX8347_R38H        0x38
#define HX8347_R39H        0x39
#define HX8347_R3AH        0x3A
#define HX8347_R3BH        0x3B
#define HX8347_R3CH        0x3C
#define HX8347_R3DH        0x3D
#define HX8347_R3EH        0x3E
#define HX8347_R40H        0x40
#define HX8347_R41H        0x41
#define HX8347_R42H        0x42
#define HX8347_R43H        0x43
#define HX8347_R44H        0x44
#define HX8347_R45H        0x45
#define HX8347_R46H        0x46
#define HX8347_R47H        0x47
#define HX8347_R48H        0x48
#define HX8347_R49H        0x49
#define HX8347_R4AH        0x4A
#define HX8347_R4BH        0x4B
#define HX8347_R4CH        0x4C
#define HX8347_R4DH        0x4D
#define HX8347_R4EH        0x4E
#define HX8347_R4FH        0x4F
#define HX8347_R50H        0x50
#define HX8347_R51H        0x51
#define HX8347_R64H        0x64
#define HX8347_R65H        0x65
#define HX8347_R66H        0x66
#define HX8347_R67H        0x67
#define HX8347_R70H        0x70
#define HX8347_R72H        0x72
#define HX8347_R90H        0x90
#define HX8347_R91H        0x91
#define HX8347_R93H        0x93
#define HX8347_R94H        0x94
#define HX8347_R95H        0x95
 
//------------------------------------------------------------------------------
//         External functions
//------------------------------------------------------------------------------
// External delay 1 ms function
#include "FreeRTOS.h"
#include "task.h"
#define Delay(ms) vTaskDelay(ms/portTICK_RATE_MS)
 
//------------------------------------------------------------------------------
//         Global functions
//------------------------------------------------------------------------------
 
//------------------------------------------------------------------------------
/// Write data to LCD Register.
/// \param pLcdBase   LCD base address.
/// \param reg        Register address.
/// \param data       Data to be written.
//------------------------------------------------------------------------------
void LCD_WriteReg(void *pLcdBase, unsigned char reg, unsigned short data)
{
    LCD_IR(pLcdBase) = reg;
    LCD_D(pLcdBase)  = data;
}
 
//------------------------------------------------------------------------------
/// Read data from LCD Register.
/// \param pLcdBase   LCD base address.
/// \param reg        Register address.
/// \return data      Data to be read.
//------------------------------------------------------------------------------
unsigned short LCD_ReadReg(void *pLcdBase, unsigned char reg)
{
    LCD_IR(pLcdBase) = reg;
    return LCD_D(pLcdBase);
}
 
//------------------------------------------------------------------------------
/// Read LCD status Register.
/// \param pLcdBase   LCD base address.
/// \param reg        Register address.
/// \return data      Status Data.
//------------------------------------------------------------------------------
unsigned short LCD_ReadStatus(void *pLcdBase)
{
    return LCD_SR(pLcdBase);
}
 
//------------------------------------------------------------------------------
/// Prepare to write GRAM data.
/// \param pLcdBase   LCD base address.
//------------------------------------------------------------------------------
void LCD_WriteRAM_Prepare(void *pLcdBase)
{
    LCD_IR(pLcdBase) = HX8347_R22H;
}
 
//------------------------------------------------------------------------------
/// Write data to LCD GRAM.
/// \param pLcdBase   LCD base address.
/// \param color      16-bits RGB color.
//------------------------------------------------------------------------------
void LCD_WriteRAM(void *pLcdBase, unsigned short color)
{
    // Write 16-bit GRAM Reg
    LCD_D(pLcdBase) = color;
}
 
//------------------------------------------------------------------------------
/// Read GRAM data.
/// \param pLcdBase   LCD base address.
/// \return           16-bits RGB color.
//------------------------------------------------------------------------------
unsigned short LCD_ReadRAM(void *pLcdBase)
{
    // Read 16-bit GRAM Reg
    return LCD_D(pLcdBase);
}
 
//------------------------------------------------------------------------------
/// Dump register data.
/// \param pLcdBase   LCD base address.
/// \param startAddr  Register start address.
/// \param endAddr    Register end address.
//------------------------------------------------------------------------------
void LCD_DumpReg(void *pLcdBase, unsigned char startAddr, unsigned char endAddr)
{
    unsigned short tmp;
    unsigned char addr;
 
    for (addr = startAddr; addr <= endAddr; addr++) {
 
        tmp = LCD_ReadReg(pLcdBase, addr);
        printf("LCD.r 0x%x = 0x%x\n\r", addr, tmp);
    }
}
 
//------------------------------------------------------------------------------
/// Initialize the LCD controller.
/// \param pLcdBase   LCD base address.
//------------------------------------------------------------------------------
void LCD_Initialize(void *pLcdBase)
{
    unsigned short chipid;
 
    // Check HX8347 chipid
    chipid = LCD_ReadReg(pLcdBase, HX8347_R67H);
    if(chipid != HX8347_HIMAXID_CODE) {
 
        printf("Read HX8347 chip ID error, skip initialization.\r\n");
        return ;
    }
 
    // Start internal OSC
    LCD_WriteReg(pLcdBase, HX8347_R19H, 0x49); // OSCADJ=10 0000, OSD_EN=1 //60Hz
    LCD_WriteReg(pLcdBase, HX8347_R93H, 0x0C); // RADJ=1100
 
    // Power on flow
    LCD_WriteReg(pLcdBase, HX8347_R44H, 0x4D); // VCM=100 1101
    LCD_WriteReg(pLcdBase, HX8347_R45H, 0x11); // VDV=1 0001
    LCD_WriteReg(pLcdBase, HX8347_R20H, 0x40); // BT=0100
    LCD_WriteReg(pLcdBase, HX8347_R1DH, 0x07); // VC1=111
    LCD_WriteReg(pLcdBase, HX8347_R1EH, 0x00); // VC3=000
    LCD_WriteReg(pLcdBase, HX8347_R1FH, 0x04); // VRH=0100
 
    LCD_WriteReg(pLcdBase, HX8347_R1CH, 0x04); // AP=100
    LCD_WriteReg(pLcdBase, HX8347_R1BH, 0x10); // GASENB=0, PON=1, DK=0, XDK=0, DDVDH_TRI=0, STB=0
    Delay(50);
 
    LCD_WriteReg(pLcdBase, HX8347_R43H, 0x80); // Set VCOMG=1
    Delay(50);
 
    // Gamma for CMO 2.8
    LCD_WriteReg(pLcdBase, HX8347_R46H, 0x95);
    LCD_WriteReg(pLcdBase, HX8347_R47H, 0x51);
    LCD_WriteReg(pLcdBase, HX8347_R48H, 0x00);
    LCD_WriteReg(pLcdBase, HX8347_R49H, 0x36);
    LCD_WriteReg(pLcdBase, HX8347_R4AH, 0x11);
    LCD_WriteReg(pLcdBase, HX8347_R4BH, 0x66);
    LCD_WriteReg(pLcdBase, HX8347_R4CH, 0x14);
    LCD_WriteReg(pLcdBase, HX8347_R4DH, 0x77);
    LCD_WriteReg(pLcdBase, HX8347_R4EH, 0x13);
    LCD_WriteReg(pLcdBase, HX8347_R4FH, 0x4C);
    LCD_WriteReg(pLcdBase, HX8347_R50H, 0x46);
    LCD_WriteReg(pLcdBase, HX8347_R51H, 0x46);
 
    //240x320 window setting
    LCD_WriteReg(pLcdBase, HX8347_R02H, 0x00); // Column address start2
    LCD_WriteReg(pLcdBase, HX8347_R03H, 0x00); // Column address start1
    LCD_WriteReg(pLcdBase, HX8347_R04H, 0x00); // Column address end2
    LCD_WriteReg(pLcdBase, HX8347_R05H, 0xEF); // Column address end1
    LCD_WriteReg(pLcdBase, HX8347_R06H, 0x00); // Row address start2
    LCD_WriteReg(pLcdBase, HX8347_R07H, 0x00); // Row address start1
    LCD_WriteReg(pLcdBase, HX8347_R08H, 0x01); // Row address end2
    LCD_WriteReg(pLcdBase, HX8347_R09H, 0x3F); // Row address end1
 
    // Display Setting
    LCD_WriteReg(pLcdBase, HX8347_R01H, 0x06); // IDMON=0, INVON=1, NORON=1, PTLON=0
    LCD_WriteReg(pLcdBase, HX8347_R16H, 0xC8); // MY=1, MX=1, MV=0, BGR=1
    LCD_WriteReg(pLcdBase, HX8347_R23H, 0x95); // N_DC=1001 0101
    LCD_WriteReg(pLcdBase, HX8347_R24H, 0x95); // P_DC=1001 0101
    LCD_WriteReg(pLcdBase, HX8347_R25H, 0xFF); // I_DC=1111 1111
    LCD_WriteReg(pLcdBase, HX8347_R27H, 0x06); // N_BP=0000 0110
    LCD_WriteReg(pLcdBase, HX8347_R28H, 0x06); // N_FP=0000 0110
    LCD_WriteReg(pLcdBase, HX8347_R29H, 0x06); // P_BP=0000 0110
    LCD_WriteReg(pLcdBase, HX8347_R2AH, 0x06); // P_FP=0000 0110
    LCD_WriteReg(pLcdBase, HX8347_R2CH, 0x06); // I_BP=0000 0110
    LCD_WriteReg(pLcdBase, HX8347_R2DH, 0x06); // I_FP=0000 0110
    LCD_WriteReg(pLcdBase, HX8347_R3AH, 0x01); // N_RTN=0000, N_NW=001
    LCD_WriteReg(pLcdBase, HX8347_R3BH, 0x01); // P_RTN=0000, P_NW=001
    LCD_WriteReg(pLcdBase, HX8347_R3CH, 0xF0); // I_RTN=1111, I_NW=000
    LCD_WriteReg(pLcdBase, HX8347_R3DH, 0x00); // DIV=00
    LCD_WriteReg(pLcdBase, HX8347_R3EH, 0x38); // SON=38h
    LCD_WriteReg(pLcdBase, HX8347_R40H, 0x0F); // GDON=0Fh
    LCD_WriteReg(pLcdBase, HX8347_R41H, 0xF0); // GDOF=F0h
}
 
//------------------------------------------------------------------------------
/// Turn on the LCD.
/// \param pLcdBase   LCD base address.
//------------------------------------------------------------------------------
void LCD_On(void *pLcdBase)
{
    // Display ON Setting
    LCD_WriteReg(pLcdBase, HX8347_R90H, 0x7F); // SAP=0111 1111
    LCD_WriteReg(pLcdBase, HX8347_R26H, 0x04); // GON=0, DTE=0, D=01
    Delay(100);
    LCD_WriteReg(pLcdBase, HX8347_R26H, 0x24); // GON=1, DTE=0, D=01
    LCD_WriteReg(pLcdBase, HX8347_R26H, 0x2C); // GON=1, DTE=0, D=11
    Delay(100);
    LCD_WriteReg(pLcdBase, HX8347_R26H, 0x3C); // GON=1, DTE=1, D=11
}
 
//------------------------------------------------------------------------------
/// Turn off the LCD.
/// \param pLcdBase   LCD base address.
//------------------------------------------------------------------------------
void LCD_Off(void *pLcdBase)
{
    LCD_WriteReg(pLcdBase, HX8347_R90H, 0x00); // SAP=0000 0000
    LCD_WriteReg(pLcdBase, HX8347_R26H, 0x00); // GON=0, DTE=0, D=00
}
 
//------------------------------------------------------------------------------
/// Set cursor of LCD srceen.
/// \param pLcdBase   LCD base address.
/// \param x          X-coordinate of upper-left corner on LCD.
/// \param y          Y-coordinate of upper-left corner on LCD.
//------------------------------------------------------------------------------
void LCD_SetCursor(void *pLcdBase, unsigned short x, unsigned short y)
{
    unsigned char x1, x2, y1, y2;
 
    x1 = x & 0xff;
    x2 = (x & 0xff00) >>8;
    y1 = y & 0xff;
    y2 = (y & 0xff00) >>8;
    LCD_WriteReg(pLcdBase, HX8347_R02H, x2); // column high
    LCD_WriteReg(pLcdBase, HX8347_R03H, x1); // column low
    LCD_WriteReg(pLcdBase, HX8347_R06H, y2); // row high
    LCD_WriteReg(pLcdBase, HX8347_R07H, y1); // row low
}
#endif //#ifdef BOARD_LCD_HX8347

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Subversion Repositories openrisc

[/] [openrisc/] [trunk/] [rtos/] [freertos-6.1.1/] [Demo/] [CORTEX_AT91SAM3U256_IAR/] [AT91Lib/] [components/] [hx8347/] [hx8347.c] - Blame information for rev 590

Line No.	Rev	Author	Line
1	580	jeremybenn	`/* ----------------------------------------------------------------------------`
2			`* ATMEL Microcontroller Software Support`
3			`* ----------------------------------------------------------------------------`
4			`* Copyright (c) 2008, Atmel Corporation`
5			`*`
6			`* All rights reserved.`
7			`*`
8			`* Redistribution and use in source and binary forms, with or without`
9			`* modification, are permitted provided that the following conditions are met:`
10			`*`
11			`* - Redistributions of source code must retain the above copyright notice,`
12			`* this list of conditions and the disclaimer below.`
13			`*`
14			`* Atmel's name may not be used to endorse or promote products derived from`
15			`* this software without specific prior written permission.`
16			`*`
17			`* DISCLAIMER: THIS SOFTWARE IS PROVIDED BY ATMEL "AS IS" AND ANY EXPRESS OR`
18			`* IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF`
19			`* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT ARE`
20			`* DISCLAIMED. IN NO EVENT SHALL ATMEL BE LIABLE FOR ANY DIRECT, INDIRECT,`
21			`* INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT`
22			`* LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA,`
23			`* OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF`
24			`* LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING`
25			`* NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE,`
26			`* EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.`
27			`* ----------------------------------------------------------------------------`
28			`*/`
29
30			`//------------------------------------------------------------------------------`
31			`/// \unit`
32			`///`
33			`/// !Purpose`
34			`///`
35			`/// HX8347 driver`
36			`///`
37			`/// !Usage`
38			`///`
39			`/// Explanation on the usage of the code made available through the header file.`
40			`//------------------------------------------------------------------------------`
41
42			`//------------------------------------------------------------------------------`
43			`// Headers`
44			`//------------------------------------------------------------------------------`
45			`#include <board.h>`
46			`#include <stdio.h>`
47
48			`#ifdef BOARD_LCD_HX8347`
49
50			`#include "hx8347.h"`
51
52			`//------------------------------------------------------------------------------`
53			`// Types`
54			`//------------------------------------------------------------------------------`
55			`typedef volatile unsigned short REG16;`
56
57			`//------------------------------------------------------------------------------`
58			`// Definitions`
59			`//------------------------------------------------------------------------------`
60			`/// LCD index register address`
61			`#define LCD_IR(baseAddr) (((REG16 )(baseAddr)))`
62			`/// LCD status register address`
63			`#define LCD_SR(baseAddr) (((REG16 )(baseAddr)))`
64			`/// LCD data address`
65			`#define LCD_D(baseAddr) (((REG16 )((unsigned int)(baseAddr) + BOARD_LCD_RS)))`
66
67			`/// HX8347 ID code`
68			`#define HX8347_HIMAXID_CODE 0x47`
69
70			`/// HX8347 LCD Registers`
71			`#define HX8347_R00H 0x00`
72			`#define HX8347_R01H 0x01`
73			`#define HX8347_R02H 0x02`
74			`#define HX8347_R03H 0x03`
75			`#define HX8347_R04H 0x04`
76			`#define HX8347_R05H 0x05`
77			`#define HX8347_R06H 0x06`
78			`#define HX8347_R07H 0x07`
79			`#define HX8347_R08H 0x08`
80			`#define HX8347_R09H 0x09`
81			`#define HX8347_R0AH 0x0A`
82			`#define HX8347_R0CH 0x0C`
83			`#define HX8347_R0DH 0x0D`
84			`#define HX8347_R0EH 0x0E`
85			`#define HX8347_R0FH 0x0F`
86			`#define HX8347_R10H 0x10`
87			`#define HX8347_R11H 0x11`
88			`#define HX8347_R12H 0x12`
89			`#define HX8347_R13H 0x13`
90			`#define HX8347_R14H 0x14`
91			`#define HX8347_R15H 0x15`
92			`#define HX8347_R16H 0x16`
93			`#define HX8347_R18H 0x18`
94			`#define HX8347_R19H 0x19`
95			`#define HX8347_R1AH 0x1A`
96			`#define HX8347_R1BH 0x1B`
97			`#define HX8347_R1CH 0x1C`
98			`#define HX8347_R1DH 0x1D`
99			`#define HX8347_R1EH 0x1E`
100			`#define HX8347_R1FH 0x1F`
101			`#define HX8347_R20H 0x20`
102			`#define HX8347_R21H 0x21`
103			`#define HX8347_R22H 0x22`
104			`#define HX8347_R23H 0x23`
105			`#define HX8347_R24H 0x24`
106			`#define HX8347_R25H 0x25`
107			`#define HX8347_R26H 0x26`
108			`#define HX8347_R27H 0x27`
109			`#define HX8347_R28H 0x28`
110			`#define HX8347_R29H 0x29`
111			`#define HX8347_R2AH 0x2A`
112			`#define HX8347_R2BH 0x2B`
113			`#define HX8347_R2CH 0x2C`
114			`#define HX8347_R2DH 0x2D`
115			`#define HX8347_R35H 0x35`
116			`#define HX8347_R36H 0x36`
117			`#define HX8347_R37H 0x37`
118			`#define HX8347_R38H 0x38`
119			`#define HX8347_R39H 0x39`
120			`#define HX8347_R3AH 0x3A`
121			`#define HX8347_R3BH 0x3B`
122			`#define HX8347_R3CH 0x3C`
123			`#define HX8347_R3DH 0x3D`
124			`#define HX8347_R3EH 0x3E`
125			`#define HX8347_R40H 0x40`
126			`#define HX8347_R41H 0x41`
127			`#define HX8347_R42H 0x42`
128			`#define HX8347_R43H 0x43`
129			`#define HX8347_R44H 0x44`
130			`#define HX8347_R45H 0x45`
131			`#define HX8347_R46H 0x46`
132			`#define HX8347_R47H 0x47`
133			`#define HX8347_R48H 0x48`
134			`#define HX8347_R49H 0x49`
135			`#define HX8347_R4AH 0x4A`
136			`#define HX8347_R4BH 0x4B`
137			`#define HX8347_R4CH 0x4C`
138			`#define HX8347_R4DH 0x4D`
139			`#define HX8347_R4EH 0x4E`
140			`#define HX8347_R4FH 0x4F`
141			`#define HX8347_R50H 0x50`
142			`#define HX8347_R51H 0x51`
143			`#define HX8347_R64H 0x64`
144			`#define HX8347_R65H 0x65`
145			`#define HX8347_R66H 0x66`
146			`#define HX8347_R67H 0x67`
147			`#define HX8347_R70H 0x70`
148			`#define HX8347_R72H 0x72`
149			`#define HX8347_R90H 0x90`
150			`#define HX8347_R91H 0x91`
151			`#define HX8347_R93H 0x93`
152			`#define HX8347_R94H 0x94`
153			`#define HX8347_R95H 0x95`
154
155			`//------------------------------------------------------------------------------`
156			`// External functions`
157			`//------------------------------------------------------------------------------`
158			`// External delay 1 ms function`
159			`#include "FreeRTOS.h"`
160			`#include "task.h"`
161			`#define Delay(ms) vTaskDelay(ms/portTICK_RATE_MS)`
162
163			`//------------------------------------------------------------------------------`
164			`// Global functions`
165			`//------------------------------------------------------------------------------`
166
167			`//------------------------------------------------------------------------------`
168			`/// Write data to LCD Register.`
169			`/// \param pLcdBase LCD base address.`
170			`/// \param reg Register address.`
171			`/// \param data Data to be written.`
172			`//------------------------------------------------------------------------------`
173			`void LCD_WriteReg(void *pLcdBase, unsigned char reg, unsigned short data)`
174			`{`
175			`LCD_IR(pLcdBase) = reg;`
176			`LCD_D(pLcdBase) = data;`
177			`}`
178
179			`//------------------------------------------------------------------------------`
180			`/// Read data from LCD Register.`
181			`/// \param pLcdBase LCD base address.`
182			`/// \param reg Register address.`
183			`/// \return data Data to be read.`
184			`//------------------------------------------------------------------------------`
185			`unsigned short LCD_ReadReg(void *pLcdBase, unsigned char reg)`
186			`{`
187			`LCD_IR(pLcdBase) = reg;`
188			`return LCD_D(pLcdBase);`
189			`}`
190
191			`//------------------------------------------------------------------------------`
192			`/// Read LCD status Register.`
193			`/// \param pLcdBase LCD base address.`
194			`/// \param reg Register address.`
195			`/// \return data Status Data.`
196			`//------------------------------------------------------------------------------`
197			`unsigned short LCD_ReadStatus(void *pLcdBase)`
198			`{`
199			`return LCD_SR(pLcdBase);`
200			`}`
201
202			`//------------------------------------------------------------------------------`
203			`/// Prepare to write GRAM data.`
204			`/// \param pLcdBase LCD base address.`
205			`//------------------------------------------------------------------------------`
206			`void LCD_WriteRAM_Prepare(void *pLcdBase)`
207			`{`
208			`LCD_IR(pLcdBase) = HX8347_R22H;`
209			`}`
210
211			`//------------------------------------------------------------------------------`
212			`/// Write data to LCD GRAM.`
213			`/// \param pLcdBase LCD base address.`
214			`/// \param color 16-bits RGB color.`
215			`//------------------------------------------------------------------------------`
216			`void LCD_WriteRAM(void *pLcdBase, unsigned short color)`
217			`{`
218			`// Write 16-bit GRAM Reg`
219			`LCD_D(pLcdBase) = color;`
220			`}`
221
222			`//------------------------------------------------------------------------------`
223			`/// Read GRAM data.`
224			`/// \param pLcdBase LCD base address.`
225			`/// \return 16-bits RGB color.`
226			`//------------------------------------------------------------------------------`
227			`unsigned short LCD_ReadRAM(void *pLcdBase)`
228			`{`
229			`// Read 16-bit GRAM Reg`
230			`return LCD_D(pLcdBase);`
231			`}`
232
233			`//------------------------------------------------------------------------------`
234			`/// Dump register data.`
235			`/// \param pLcdBase LCD base address.`
236			`/// \param startAddr Register start address.`
237			`/// \param endAddr Register end address.`
238			`//------------------------------------------------------------------------------`
239			`void LCD_DumpReg(void *pLcdBase, unsigned char startAddr, unsigned char endAddr)`
240			`{`
241			`unsigned short tmp;`
242			`unsigned char addr;`
243
244			`for (addr = startAddr; addr <= endAddr; addr++) {`
245
246			`tmp = LCD_ReadReg(pLcdBase, addr);`
247			`printf("LCD.r 0x%x = 0x%x\n\r", addr, tmp);`
248			`}`
249			`}`
250
251			`//------------------------------------------------------------------------------`
252			`/// Initialize the LCD controller.`
253			`/// \param pLcdBase LCD base address.`
254			`//------------------------------------------------------------------------------`
255			`void LCD_Initialize(void *pLcdBase)`
256			`{`
257			`unsigned short chipid;`
258
259			`// Check HX8347 chipid`
260			`chipid = LCD_ReadReg(pLcdBase, HX8347_R67H);`
261			`if(chipid != HX8347_HIMAXID_CODE) {`
262
263			`printf("Read HX8347 chip ID error, skip initialization.\r\n");`
264			`return ;`
265			`}`
266
267			`// Start internal OSC`
268			`LCD_WriteReg(pLcdBase, HX8347_R19H, 0x49); // OSCADJ=10 0000, OSD_EN=1 //60Hz`
269			`LCD_WriteReg(pLcdBase, HX8347_R93H, 0x0C); // RADJ=1100`
270
271			`// Power on flow`
272			`LCD_WriteReg(pLcdBase, HX8347_R44H, 0x4D); // VCM=100 1101`
273			`LCD_WriteReg(pLcdBase, HX8347_R45H, 0x11); // VDV=1 0001`
274			`LCD_WriteReg(pLcdBase, HX8347_R20H, 0x40); // BT=0100`
275			`LCD_WriteReg(pLcdBase, HX8347_R1DH, 0x07); // VC1=111`
276			`LCD_WriteReg(pLcdBase, HX8347_R1EH, 0x00); // VC3=000`
277			`LCD_WriteReg(pLcdBase, HX8347_R1FH, 0x04); // VRH=0100`
278
279			`LCD_WriteReg(pLcdBase, HX8347_R1CH, 0x04); // AP=100`
280			`LCD_WriteReg(pLcdBase, HX8347_R1BH, 0x10); // GASENB=0, PON=1, DK=0, XDK=0, DDVDH_TRI=0, STB=0`
281			`Delay(50);`
282
283			`LCD_WriteReg(pLcdBase, HX8347_R43H, 0x80); // Set VCOMG=1`
284			`Delay(50);`
285
286			`// Gamma for CMO 2.8`
287			`LCD_WriteReg(pLcdBase, HX8347_R46H, 0x95);`
288			`LCD_WriteReg(pLcdBase, HX8347_R47H, 0x51);`
289			`LCD_WriteReg(pLcdBase, HX8347_R48H, 0x00);`
290			`LCD_WriteReg(pLcdBase, HX8347_R49H, 0x36);`
291			`LCD_WriteReg(pLcdBase, HX8347_R4AH, 0x11);`
292			`LCD_WriteReg(pLcdBase, HX8347_R4BH, 0x66);`
293			`LCD_WriteReg(pLcdBase, HX8347_R4CH, 0x14);`
294			`LCD_WriteReg(pLcdBase, HX8347_R4DH, 0x77);`
295			`LCD_WriteReg(pLcdBase, HX8347_R4EH, 0x13);`
296			`LCD_WriteReg(pLcdBase, HX8347_R4FH, 0x4C);`
297			`LCD_WriteReg(pLcdBase, HX8347_R50H, 0x46);`
298			`LCD_WriteReg(pLcdBase, HX8347_R51H, 0x46);`
299
300			`//240x320 window setting`
301			`LCD_WriteReg(pLcdBase, HX8347_R02H, 0x00); // Column address start2`
302			`LCD_WriteReg(pLcdBase, HX8347_R03H, 0x00); // Column address start1`
303			`LCD_WriteReg(pLcdBase, HX8347_R04H, 0x00); // Column address end2`
304			`LCD_WriteReg(pLcdBase, HX8347_R05H, 0xEF); // Column address end1`
305			`LCD_WriteReg(pLcdBase, HX8347_R06H, 0x00); // Row address start2`
306			`LCD_WriteReg(pLcdBase, HX8347_R07H, 0x00); // Row address start1`
307			`LCD_WriteReg(pLcdBase, HX8347_R08H, 0x01); // Row address end2`
308			`LCD_WriteReg(pLcdBase, HX8347_R09H, 0x3F); // Row address end1`
309
310			`// Display Setting`
311			`LCD_WriteReg(pLcdBase, HX8347_R01H, 0x06); // IDMON=0, INVON=1, NORON=1, PTLON=0`
312			`LCD_WriteReg(pLcdBase, HX8347_R16H, 0xC8); // MY=1, MX=1, MV=0, BGR=1`
313			`LCD_WriteReg(pLcdBase, HX8347_R23H, 0x95); // N_DC=1001 0101`
314			`LCD_WriteReg(pLcdBase, HX8347_R24H, 0x95); // P_DC=1001 0101`
315			`LCD_WriteReg(pLcdBase, HX8347_R25H, 0xFF); // I_DC=1111 1111`
316			`LCD_WriteReg(pLcdBase, HX8347_R27H, 0x06); // N_BP=0000 0110`
317			`LCD_WriteReg(pLcdBase, HX8347_R28H, 0x06); // N_FP=0000 0110`
318			`LCD_WriteReg(pLcdBase, HX8347_R29H, 0x06); // P_BP=0000 0110`
319			`LCD_WriteReg(pLcdBase, HX8347_R2AH, 0x06); // P_FP=0000 0110`
320			`LCD_WriteReg(pLcdBase, HX8347_R2CH, 0x06); // I_BP=0000 0110`
321			`LCD_WriteReg(pLcdBase, HX8347_R2DH, 0x06); // I_FP=0000 0110`
322			`LCD_WriteReg(pLcdBase, HX8347_R3AH, 0x01); // N_RTN=0000, N_NW=001`
323			`LCD_WriteReg(pLcdBase, HX8347_R3BH, 0x01); // P_RTN=0000, P_NW=001`
324			`LCD_WriteReg(pLcdBase, HX8347_R3CH, 0xF0); // I_RTN=1111, I_NW=000`
325			`LCD_WriteReg(pLcdBase, HX8347_R3DH, 0x00); // DIV=00`
326			`LCD_WriteReg(pLcdBase, HX8347_R3EH, 0x38); // SON=38h`
327			`LCD_WriteReg(pLcdBase, HX8347_R40H, 0x0F); // GDON=0Fh`
328			`LCD_WriteReg(pLcdBase, HX8347_R41H, 0xF0); // GDOF=F0h`
329			`}`
330
331			`//------------------------------------------------------------------------------`
332			`/// Turn on the LCD.`
333			`/// \param pLcdBase LCD base address.`
334			`//------------------------------------------------------------------------------`
335			`void LCD_On(void *pLcdBase)`
336			`{`
337			`// Display ON Setting`
338			`LCD_WriteReg(pLcdBase, HX8347_R90H, 0x7F); // SAP=0111 1111`
339			`LCD_WriteReg(pLcdBase, HX8347_R26H, 0x04); // GON=0, DTE=0, D=01`
340			`Delay(100);`
341			`LCD_WriteReg(pLcdBase, HX8347_R26H, 0x24); // GON=1, DTE=0, D=01`
342			`LCD_WriteReg(pLcdBase, HX8347_R26H, 0x2C); // GON=1, DTE=0, D=11`
343			`Delay(100);`
344			`LCD_WriteReg(pLcdBase, HX8347_R26H, 0x3C); // GON=1, DTE=1, D=11`
345			`}`
346
347			`//------------------------------------------------------------------------------`
348			`/// Turn off the LCD.`
349			`/// \param pLcdBase LCD base address.`
350			`//------------------------------------------------------------------------------`
351			`void LCD_Off(void *pLcdBase)`
352			`{`
353			`LCD_WriteReg(pLcdBase, HX8347_R90H, 0x00); // SAP=0000 0000`
354			`LCD_WriteReg(pLcdBase, HX8347_R26H, 0x00); // GON=0, DTE=0, D=00`
355			`}`
356
357			`//------------------------------------------------------------------------------`
358			`/// Set cursor of LCD srceen.`
359			`/// \param pLcdBase LCD base address.`
360			`/// \param x X-coordinate of upper-left corner on LCD.`
361			`/// \param y Y-coordinate of upper-left corner on LCD.`
362			`//------------------------------------------------------------------------------`
363			`void LCD_SetCursor(void *pLcdBase, unsigned short x, unsigned short y)`
364			`{`
365			`unsigned char x1, x2, y1, y2;`
366
367			`x1 = x & 0xff;`
368			`x2 = (x & 0xff00) >>8;`
369			`y1 = y & 0xff;`
370			`y2 = (y & 0xff00) >>8;`
371			`LCD_WriteReg(pLcdBase, HX8347_R02H, x2); // column high`
372			`LCD_WriteReg(pLcdBase, HX8347_R03H, x1); // column low`
373			`LCD_WriteReg(pLcdBase, HX8347_R06H, y2); // row high`
374			`LCD_WriteReg(pLcdBase, HX8347_R07H, y1); // row low`
375			`}`
376			`#endif //#ifdef BOARD_LCD_HX8347`