FreeRTOS-Plus/Demo/FreeRTOS_Plus_UDP_and_CLI_LPC1830_GCC/ThirdParty/CMSISv2p10_LPC18xx_DriverLib/src/lpc18xx_lcd.c - nest-detect/1.0.2/freertos - Git at Google

 /**********************************************************************
 * $Id$		lpc18xx_lcd.c		2011-06-02
 *//**
 * @file		lpc18xx_lcd.c
 * @brief	Contains all function support for LCD Driver
 * @version	1.0
 * @date		02. June. 2011
 * @author	NXP MCU SW Application Team
 *
 * Copyright(C) 2011, NXP Semiconductor
 * All rights reserved.
 *
 ***********************************************************************
 * Software that is described herein is for illustrative purposes only
 * which provides customers with programming information regarding the
 * products. This software is supplied "AS IS" without any warranties.
 * NXP Semiconductors assumes no responsibility or liability for the
 * use of the software, conveys no license or title under any patent,
 * copyright, or mask work right to the product. NXP Semiconductors
 * reserves the right to make changes in the software without
 * notification. NXP Semiconductors also make no representation or
 * warranty that such application will be suitable for the specified
 * use without further testing or modification.
 **********************************************************************/

 /* Peripheral group ----------------------------------------------------------- */
 /** @addtogroup LCD
  * @{
  */

 /* Includes ------------------------------------------------------------------- */
 #include "LPC18xx.h"
 #include "lpc18xx_lcd.h"

 /* If this source file built with example, the LPC18xx FW library configuration
  * file in each example directory ("lpc18xx_libcfg.h") must be included,
  * otherwise the default FW library configuration file must be included instead
  */
 #ifdef __BUILD_WITH_EXAMPLE__
 #include "lpc18xx_libcfg.h"
 #else
 #include "lpc18xx_libcfg_default.h"
 #endif /* __BUILD_WITH_EXAMPLE__ */

 #ifdef _LCD

 LCD_CURSOR_SIZE_OPT LCD_Cursor_Size = LCD_CURSOR_64x64;

 /* Private Functions ---------------------------------------------------------- */

 /*********************************************************************//**
  * @brief 		Init the LPC18xx LCD Controller
  * @param[in]	LCDx pointer to LCD Controller Reg Struct, should be: LPC_LCD
  * @param[in]	LCD_ConfigStruct point to LCD_CFG_Type that describe the LCD Panel
  * @return 		None
  **********************************************************************/
 void LCD_Init(LPC_LCD_Type *LCDx, LCD_CFG_Type *LCD_ConfigStruct){
 	uint32_t i, regValue, *pPal;
 	uint32_t pcd;
 	/* disable the display */
 	LCDx->CTRL &= ~CLCDC_LCDCTRL_ENABLE;

 	/* Setting LCD_TIMH register */
 	regValue= ( ((((LCD_ConfigStruct->screen_width/16)-1)&0x3F) << 2)
 	|         (( (LCD_ConfigStruct->HSync_pulse_width-1)    &0xFF) << 8)
 	|         (( (LCD_ConfigStruct->horizontal_porch.front-1)    &0xFF) << 16)
 	|         (( (LCD_ConfigStruct->horizontal_porch.back-1)    &0xFF) << 24) );

 	LCDx->TIMH = regValue;

 	/* Setting LCD_TIMV register */
 	regValue =((((LCD_ConfigStruct->screen_height-1) &0x3FF) << 0)
 	|        (((LCD_ConfigStruct->VSync_pulse_width-1) &0x03F) << 10)
 	|        (((LCD_ConfigStruct->vertical_porch.front-1) &0x0FF) << 16)
 	|        (((LCD_ConfigStruct->vertical_porch.back-1) &0x0FF) << 24) );

 	LCDx->TIMV = regValue;

 	/* Generate the clock and signal polarity control word */
 	regValue = 0;
 	regValue = (((LCD_ConfigStruct->ac_bias_frequency-1) & 0x1F) << 6);

 	regValue |= (LCD_ConfigStruct->OE_pol & 1)<< 14;

 	regValue |= (LCD_ConfigStruct->panel_clk_edge & 1)<< 13;

 	regValue |= (LCD_ConfigStruct->HSync_pol & 1)<< 12;

 	regValue |= (LCD_ConfigStruct->VSync_pol & 1)<< 11;

 	/* Compute clocks per line based on panel type */

 	switch(LCD_ConfigStruct->lcd_panel_type)
 	{
 	  case LCD_MONO_4:
 		regValue |= ((((LCD_ConfigStruct->screen_width / 4)-1) & 0x3FF) << 16);
 		break;
 	  case LCD_MONO_8:
 		regValue |= ((((LCD_ConfigStruct->screen_width / 8)-1) & 0x3FF) << 16);
 		break;
 	  case LCD_CSTN:
 		regValue |= (((((LCD_ConfigStruct->screen_width * 3)/8)-1) & 0x3FF) << 16);
 		break;
 	  case LCD_TFT:
 	  default:
 		regValue |= 1<<26 | (((LCD_ConfigStruct->screen_width-1) & 0x3FF) << 16);
 	}

 	/* panel clock divisor */
 	pcd = LCD_ConfigStruct->pcd;   // TODO: should be calculated from LCDDCLK
 	pcd &= 0x3FF;
 	regValue |=  ((pcd>>5)<<27) | ((pcd)&0x1F);

 	LCDx->POL = regValue;

 	/* configure line end control */
 	CHECK_PARAM(LCD_ConfigStruct->line_end_delay<=(1<<7));
 	if(LCD_ConfigStruct->line_end_delay)
 		LCDx->LE  = (LCD_ConfigStruct->line_end_delay-1) | 1<<16;
 	else
 		LCDx->LE = 0;

 	/* disable interrupts */
 	LCDx->INTMSK = 0;

 	/* set bits per pixel */
 	regValue = LCD_ConfigStruct->bits_per_pixel << 1;

 	/* set color format BGR or RGB */
 	regValue |= LCD_ConfigStruct->color_format << 8;

 	regValue |= LCD_ConfigStruct->lcd_panel_type << 4;

 	if(LCD_ConfigStruct->dual_panel == 1)
 	{
 		regValue |= 1 << 7;
 	}
 	LCDx->CTRL = regValue;
 	/* clear palette */
 	pPal = (uint32_t*) (&(LCDx->PAL));

 	for(i = 0; i < 128; i++)
 	{
 		*pPal = 0;
 		pPal++;
 	}
 }


 /*********************************************************************//**
  * @brief 		Deinit LCD controller
  * @param[in]	LCDx pointer to LCD Controller Reg Struct, should be: LPC_LCD
  * @return 		None
  **********************************************************************/
 void LCD_DeInit(LPC_LCD_Type *LCDx);


 /*********************************************************************//**
  * @brief 		Power the LCD Panel
  * @param[in]	LCDx pointer to LCD Controller Reg Struct, should be: LPC_LCD
  * @param[in]	OnOff	Turn on/off LCD
  * 					- TRUE	:Turn on
  * 					- FALSE :Turn off
  * @return 		None
  **********************************************************************/
 void LCD_Power(LPC_LCD_Type *LCDx, FunctionalState OnOff){
 int i;
 	if(OnOff){
 		LPC_LCD->CTRL |= CLCDC_LCDCTRL_PWR;
 		for(i=0;i<100000;i++);
 		LPC_LCD->CTRL |= CLCDC_LCDCTRL_ENABLE;
 	}else{
 		LPC_LCD->CTRL &= ~CLCDC_LCDCTRL_PWR;
 		for(i=0;i<100000;i++);
 		LPC_LCD->CTRL &= ~CLCDC_LCDCTRL_ENABLE;
 	}
 }


 /*********************************************************************//**
  * @brief 		Enable/Disable the LCD Controller
  * @param[in]	LCDx pointer to LCD Controller Reg Struct, should be: LPC_LCD
  * @param[in]	EnDis	Enable/disable status
  * 					- TRUE	:Enable
  * 					- FALSE :Disable
  * @return 		None
  **********************************************************************/
 void LCD_Enable(LPC_LCD_Type *LCDx, FunctionalState EnDis){
 	if (EnDis)
 	{
 	  LCDx->CTRL |= CLCDC_LCDCTRL_ENABLE;
 	}
 	else
 	{
 	  LCDx->CTRL &= ~CLCDC_LCDCTRL_ENABLE;
 	}
 }


 /*********************************************************************//**
  * @brief 		Set LCD Frame Buffer for Single Panel or Upper Panel Frame
  * 				Buffer for Dual Panel
  * @param[in]	LCDx pointer to LCD Controller Reg Struct, should be: LPC_LCD
  * @param[in]	buffer address of buffer
  * @return 		None
  **********************************************************************/
 void LCD_SetFrameBuffer(LPC_LCD_Type *LCDx, void* buffer){
 	LCDx->UPBASE = (uint32_t)buffer;
 }


 /*********************************************************************//**
  * @brief 		Set LCD Lower Panel Frame Buffer for Dual Panel
  * @param[in]	LCDx pointer to LCD Controller Reg Struct, should be: LPC_LCD
  * @param[in]	buffer address of buffer
  * @return 		None
  **********************************************************************/
 void LCD_SetLPFrameBuffer(LPC_LCD_Type *LCDx, void* buffer){
 	LCDx->LPBASE = (uint32_t)buffer;
 }


 /*********************************************************************//**
  * @brief 		Configure Cursor
  * @param[in]	LCDx pointer to LCD Controller Reg Struct, should be: LPC_LCD
  * @param[in]	cursor_size specify size of cursor
  * 					- LCD_CURSOR_32x32	:cursor size is 32x32 pixels
  * 					- LCD_CURSOR_64x64	:cursor size is 64x64 pixels
  * @param[in]	sync cursor sync mode
  * 					- TRUE	:cursor sync to the frame sync pulse
  * 					- FALSE	:cursor async mode
  * @return 		None
  **********************************************************************/
 void LCD_Cursor_Config(LPC_LCD_Type *LCDx, LCD_CURSOR_SIZE_OPT cursor_size, Bool sync){
 	LCD_Cursor_Size = cursor_size;
 	LCDx->CRSR_CFG = ((sync?1:0)<<1) | cursor_size;
 }


 /*********************************************************************//**
  * @brief 		Write Cursor Image into Internal Cursor Image Buffer
  * @param[in]	LCDx pointer to LCD Controller Reg Struct, should be: LPC_LCD
  * @param[in]	cursor_num specify number of cursor is going to be written
  * 				this param must < 4
  * @param[in]	Image point to Cursor Image Buffer
  * @return 		None
  **********************************************************************/
 void LCD_Cursor_WriteImage(LPC_LCD_Type *LCDx, uint8_t cursor_num, void* Image){
 	int i,j;
 	uint8_t *fifoptr, *crsr_ptr = (uint8_t *)Image;

 	CHECK_PARAM(cursor_num<4);
 	/* Check if Cursor Size was configured as 32x32 or 64x64*/
 	if(LCD_Cursor_Size == LCD_CURSOR_32x32){
 		i = cursor_num * 256;
 		j = i + 256;
 	}else{
 		i = 0;
 		j = 1024;
 	}
 	fifoptr = (uint8_t*)&(LCDx->CRSR_IMG[0]);
 	/* Copy Cursor Image content to FIFO */
 	for(; i < j; i++)
 	{
 	  fifoptr[i] = *(uint8_t *)crsr_ptr;
 	  crsr_ptr++;
 	}
 }


 /*********************************************************************//**
  * @brief 		Get Internal Cursor Image Buffer Address
  * @param[in]	LCDx pointer to LCD Controller Reg Struct, should be: LPC_LCD
  * @param[in]	cursor_num specify number of cursor is going to be written
  * 				this param must < 4
  * @return 		Cursor Image Buffer Address
  **********************************************************************/
 void* LCD_Cursor_GetImageBufferAddress(LPC_LCD_Type *LCDx, uint8_t cursor_num){
 	CHECK_PARAM(cursor_num<4);
 	return (void*)&(LCDx->CRSR_IMG[cursor_num*64]);
 }


 /*********************************************************************//**
  * @brief 		Enable Cursor
  * @param[in]	LCDx pointer to LCD Controller Reg Struct, should be: LPC_LCD
  * @param[in]	cursor_num specify number of cursor is going to be written
  * 				this param must < 4
  * @param[in]	OnOff Turn on/off LCD
  * 					- TRUE	:Enable
  * 					- FALSE :Disable
  * @return 		None
  **********************************************************************/
 void LCD_Cursor_Enable(LPC_LCD_Type *LCDx, uint8_t cursor_num, FunctionalState OnOff){
 	CHECK_PARAM(cursor_num<4);
 	if (OnOff)
 	{
 	  LCDx->CRSR_CTRL = (cursor_num<<4) | 1;
 	}
 	else
 	{
 	  LCDx->CRSR_CTRL = (cursor_num<<4);
 	}
 }


 /*********************************************************************//**
  * @brief 		Load LCD Palette
  * @param[in]	LCDx pointer to LCD Controller Reg Struct, should be: LPC_LCD
  * @param[in]	palette point to palette address
  * @return 		None
  **********************************************************************/
 void LCD_LoadPalette(LPC_LCD_Type *LCDx, void* palette){
 	LCD_PALETTE_ENTRY_Type pal_entry, *ptr_pal_entry;
 	uint8_t i, *pal_ptr;
 	/* This function supports loading of the color palette from
 	the C file generated by the bmp2c utility. It expects the
 	palette to be passed as an array of 32-bit BGR entries having
 	the following format:
 	2:0 - Not used
 	7:3 - Blue
 	10:8 - Not used
 	15:11 - Green
 	18:16 - Not used
 	23:19 - Red
 	31:24 - Not used
 	arg = pointer to input palette table address */
 	ptr_pal_entry = &pal_entry;
 	pal_ptr = (uint8_t *) palette;

 	/* 256 entry in the palette table */
 	for(i = 0; i < 256/2; i++)
 	{
 	pal_entry.Bl = (*pal_ptr++) >> 3;  /* blue first */
 	pal_entry.Gl = (*pal_ptr++) >> 3;  /* get green */
 	pal_entry.Rl = (*pal_ptr++) >> 3;  /* get red */
 	pal_ptr++;      /* skip over the unused byte */
 	/* do the most significant halfword of the palette */
 	pal_entry.Bu = (*pal_ptr++) >> 3;  /* blue first */
 	pal_entry.Gu = (*pal_ptr++) >> 3;  /* get green */
 	pal_entry.Ru = (*pal_ptr++) >> 3;  /* get red */
 	pal_ptr++;      /* skip over the unused byte */

 	LCDx->PAL[i] = *(uint32_t *)ptr_pal_entry;
 	}
 }


 /*********************************************************************//**
  * @brief 		Load Cursor Palette
  * @param[in]	LCDx pointer to LCD Controller Reg Struct, should be: LPC_LCD
  * @param[in]	palette_color cursor palette 0 value
  * @return 		None
  **********************************************************************/
 void LCD_Cursor_LoadPalette0(LPC_LCD_Type *LCDx, uint32_t palette_color){
 	/* 7:0 - Red
 	15:8 - Green
 	23:16 - Blue
 	31:24 - Not used*/
 	LCDx->CRSR_PAL0 = (uint32_t)palette_color;
 }


 /*********************************************************************//**
  * @brief 		Load Cursor Palette
  * @param[in]	LCDx pointer to LCD Controller Reg Struct, should be: LPC_LCD
  * @param[in]	palette_color cursor palette 1 value
  * @return 		None
  **********************************************************************/
 void LCD_Cursor_LoadPalette1(LPC_LCD_Type *LCDx, uint32_t palette_color){
 	/* 7:0 - Red
 	15:8 - Green
 	23:16 - Blue
 	31:24 - Not used*/
 	LCDx->CRSR_PAL1 = (uint32_t)palette_color;
 }


 /*********************************************************************//**
  * @brief 		Set Interrupt
  * @param[in]	LCDx pointer to LCD Controller Reg Struct, should be: LPC_LCD
  * @param[in]	Int LCD Interrupt Source, should be:
  * 					- LCD_INT_FUF	:FIFO underflow
  * 					- LCD_INT_LNBU	:LCD next base address update bit
  * 					- LCD_INT_VCOMP	:Vertical compare bit
  * 					- LCD_INT_BER	:AHB master error interrupt bit
  * @return 		None
  **********************************************************************/
 void LCD_SetInterrupt(LPC_LCD_Type *LCDx, LCD_INT_SRC Int){
 	LCDx->INTMSK |= Int;
 }


 /*********************************************************************//**
  * @brief 		Clear Interrupt
  * @param[in]	LCDx pointer to LCD Controller Reg Struct, should be: LPC_LCD
  * @param[in]	Int LCD Interrupt Source, should be:
  * 					- LCD_INT_FUF	:FIFO underflow
  * 					- LCD_INT_LNBU	:LCD next base address update bit
  * 					- LCD_INT_VCOMP	:Vertical compare bit
  * 					- LCD_INT_BER	:AHB master error interrupt bit
  * @return 		None
  **********************************************************************/
 void LCD_ClrInterrupt(LPC_LCD_Type *LCDx, LCD_INT_SRC Int){
 	LCDx->INTCLR |= Int;
 }


 /*********************************************************************//**
  * @brief 		Get LCD Interrupt Status
  * @param[in]	LCDx pointer to LCD Controller Reg Struct, should be: LPC_LCD
  * @return 		None
  **********************************************************************/
 LCD_INT_SRC LCD_GetInterrupt(LPC_LCD_Type *LCDx){
 	return (LCD_INT_SRC)LCDx->INTRAW;
 }


 /*********************************************************************//**
  * @brief 		Enable Cursor Interrupt
  * @param[in]	LCDx pointer to LCD Controller Reg Struct, should be: LPC_LCD
  * @return 		None
  **********************************************************************/
 void LCD_Cursor_SetInterrupt(LPC_LCD_Type *LCDx){
 	LCDx->CRSR_INTMSK |= 1;
 }


 /*********************************************************************//**
  * @brief 		Clear Cursor Interrupt
  * @param[in]	LCDx pointer to LCD Controller Reg Struct, should be: LPC_LCD
  * @return 		None
  **********************************************************************/
 void LCD_Cursor_ClrInterrupt(LPC_LCD_Type *LCDx){
 	LCDx->CRSR_INTCLR |= 1;
 }


 /*********************************************************************//**
  * @brief 		Set Cursor Position
  * @param[in]	LCDx pointer to LCD Controller Reg Struct, should be: LPC_LCD
  * @param[in]	x horizontal position
  * @param[in]	y vertical position
  * @return 		None
  **********************************************************************/
 void LCD_Cursor_SetPos(LPC_LCD_Type *LCDx, uint16_t x, uint16_t y){
 	LCDx->CRSR_XY = (x & 0x3FF) | ((y & 0x3FF) << 16);
 }


 /*********************************************************************//**
  * @brief 		Set Cursor Clipping Position
  * @param[in]	LCDx pointer to LCD Controller Reg Struct, should be: LPC_LCD
  * @param[in]	x horizontal position, should be in range: 0..63
  * @param[in]	y vertical position, should be in range: 0..63
  * @return 		None
  **********************************************************************/
 void LCD_Cursor_SetClip(LPC_LCD_Type *LCDx, uint16_t x, uint16_t y){
 	LCDx->CRSR_CLIP = (x & 0x3F) | ((y & 0x3F) << 8);
 }
 #endif /* _LCD */

 /**
  * @}
  */

 /* --------------------------------- End Of File ------------------------------ */
	/**********************************************************************
	* $Id$ lpc18xx_lcd.c 2011-06-02
	//*
	* @file lpc18xx_lcd.c
	* @brief Contains all function support for LCD Driver
	* @version 1.0
	* @date 02. June. 2011
	* @author NXP MCU SW Application Team
	*
	* Copyright(C) 2011, NXP Semiconductor
	* All rights reserved.
	*
	***********************************************************************
	* Software that is described herein is for illustrative purposes only
	* which provides customers with programming information regarding the
	* products. This software is supplied "AS IS" without any warranties.
	* NXP Semiconductors assumes no responsibility or liability for the
	* use of the software, conveys no license or title under any patent,
	* copyright, or mask work right to the product. NXP Semiconductors
	* reserves the right to make changes in the software without
	* notification. NXP Semiconductors also make no representation or
	* warranty that such application will be suitable for the specified
	* use without further testing or modification.
	**********************************************************************/

	/* Peripheral group ----------------------------------------------------------- */
	/** @addtogroup LCD
	* @{
	*/

	/* Includes ------------------------------------------------------------------- */
	#include "LPC18xx.h"
	#include "lpc18xx_lcd.h"

	/* If this source file built with example, the LPC18xx FW library configuration
	* file in each example directory ("lpc18xx_libcfg.h") must be included,
	* otherwise the default FW library configuration file must be included instead
	*/
	#ifdef __BUILD_WITH_EXAMPLE__
	#include "lpc18xx_libcfg.h"
	#else
	#include "lpc18xx_libcfg_default.h"
	#endif /* __BUILD_WITH_EXAMPLE__ */

	#ifdef _LCD

	LCD_CURSOR_SIZE_OPT LCD_Cursor_Size = LCD_CURSOR_64x64;

	/* Private Functions ---------------------------------------------------------- */

	/*******************************************************************//
	* @brief Init the LPC18xx LCD Controller
	* @param[in] LCDx pointer to LCD Controller Reg Struct, should be: LPC_LCD
	* @param[in] LCD_ConfigStruct point to LCD_CFG_Type that describe the LCD Panel
	* @return None
	**********************************************************************/
	void LCD_Init(LPC_LCD_Type LCDx, LCD_CFG_Type LCD_ConfigStruct){
	uint32_t i, regValue, *pPal;
	uint32_t pcd;
	/* disable the display */
	LCDx->CTRL &= ~CLCDC_LCDCTRL_ENABLE;

	/* Setting LCD_TIMH register */
	regValue= ( ((((LCD_ConfigStruct->screen_width/16)-1)&0x3F) << 2)
	\| (( (LCD_ConfigStruct->HSync_pulse_width-1) &0xFF) << 8)
	\| (( (LCD_ConfigStruct->horizontal_porch.front-1) &0xFF) << 16)
	\| (( (LCD_ConfigStruct->horizontal_porch.back-1) &0xFF) << 24) );

	LCDx->TIMH = regValue;

	/* Setting LCD_TIMV register */
	regValue =((((LCD_ConfigStruct->screen_height-1) &0x3FF) << 0)
	\| (((LCD_ConfigStruct->VSync_pulse_width-1) &0x03F) << 10)
	\| (((LCD_ConfigStruct->vertical_porch.front-1) &0x0FF) << 16)
	\| (((LCD_ConfigStruct->vertical_porch.back-1) &0x0FF) << 24) );

	LCDx->TIMV = regValue;

	/* Generate the clock and signal polarity control word */
	regValue = 0;
	regValue = (((LCD_ConfigStruct->ac_bias_frequency-1) & 0x1F) << 6);

	regValue \|= (LCD_ConfigStruct->OE_pol & 1)<< 14;

	regValue \|= (LCD_ConfigStruct->panel_clk_edge & 1)<< 13;

	regValue \|= (LCD_ConfigStruct->HSync_pol & 1)<< 12;

	regValue \|= (LCD_ConfigStruct->VSync_pol & 1)<< 11;

	/* Compute clocks per line based on panel type */

	switch(LCD_ConfigStruct->lcd_panel_type)
	{
	case LCD_MONO_4:
	regValue \|= ((((LCD_ConfigStruct->screen_width / 4)-1) & 0x3FF) << 16);
	break;
	case LCD_MONO_8:
	regValue \|= ((((LCD_ConfigStruct->screen_width / 8)-1) & 0x3FF) << 16);
	break;
	case LCD_CSTN:
	regValue \|= (((((LCD_ConfigStruct->screen_width * 3)/8)-1) & 0x3FF) << 16);
	break;
	case LCD_TFT:
	default:
	regValue \|= 1<<26 \| (((LCD_ConfigStruct->screen_width-1) & 0x3FF) << 16);
	}

	/* panel clock divisor */
	pcd = LCD_ConfigStruct->pcd; // TODO: should be calculated from LCDDCLK
	pcd &= 0x3FF;
	regValue \|= ((pcd>>5)<<27) \| ((pcd)&0x1F);

	LCDx->POL = regValue;

	/* configure line end control */
	CHECK_PARAM(LCD_ConfigStruct->line_end_delay<=(1<<7));
	if(LCD_ConfigStruct->line_end_delay)
	LCDx->LE = (LCD_ConfigStruct->line_end_delay-1) \| 1<<16;
	else
	LCDx->LE = 0;

	/* disable interrupts */
	LCDx->INTMSK = 0;

	/* set bits per pixel */
	regValue = LCD_ConfigStruct->bits_per_pixel << 1;

	/* set color format BGR or RGB */
	regValue \|= LCD_ConfigStruct->color_format << 8;

	regValue \|= LCD_ConfigStruct->lcd_panel_type << 4;

	if(LCD_ConfigStruct->dual_panel == 1)
	{
	regValue \|= 1 << 7;
	}
	LCDx->CTRL = regValue;
	/* clear palette */
	pPal = (uint32_t*) (&(LCDx->PAL));

	for(i = 0; i < 128; i++)
	{
	*pPal = 0;
	pPal++;
	}
	}


	/*******************************************************************//
	* @brief Deinit LCD controller
	* @param[in] LCDx pointer to LCD Controller Reg Struct, should be: LPC_LCD
	* @return None
	**********************************************************************/
	void LCD_DeInit(LPC_LCD_Type *LCDx);


	/*******************************************************************//
	* @brief Power the LCD Panel
	* @param[in] LCDx pointer to LCD Controller Reg Struct, should be: LPC_LCD
	* @param[in] OnOff Turn on/off LCD
	* - TRUE :Turn on
	* - FALSE :Turn off
	* @return None
	**********************************************************************/
	void LCD_Power(LPC_LCD_Type *LCDx, FunctionalState OnOff){
	int i;
	if(OnOff){
	LPC_LCD->CTRL \|= CLCDC_LCDCTRL_PWR;
	for(i=0;i<100000;i++);
	LPC_LCD->CTRL \|= CLCDC_LCDCTRL_ENABLE;
	}else{
	LPC_LCD->CTRL &= ~CLCDC_LCDCTRL_PWR;
	for(i=0;i<100000;i++);
	LPC_LCD->CTRL &= ~CLCDC_LCDCTRL_ENABLE;
	}
	}


	/*******************************************************************//
	* @brief Enable/Disable the LCD Controller
	* @param[in] LCDx pointer to LCD Controller Reg Struct, should be: LPC_LCD
	* @param[in] EnDis Enable/disable status
	* - TRUE :Enable
	* - FALSE :Disable
	* @return None
	**********************************************************************/
	void LCD_Enable(LPC_LCD_Type *LCDx, FunctionalState EnDis){
	if (EnDis)
	{
	LCDx->CTRL \|= CLCDC_LCDCTRL_ENABLE;
	}
	else
	{
	LCDx->CTRL &= ~CLCDC_LCDCTRL_ENABLE;
	}
	}


	/*******************************************************************//
	* @brief Set LCD Frame Buffer for Single Panel or Upper Panel Frame
	* Buffer for Dual Panel
	* @param[in] LCDx pointer to LCD Controller Reg Struct, should be: LPC_LCD
	* @param[in] buffer address of buffer
	* @return None
	**********************************************************************/
	void LCD_SetFrameBuffer(LPC_LCD_Type LCDx, void buffer){
	LCDx->UPBASE = (uint32_t)buffer;
	}


	/*******************************************************************//
	* @brief Set LCD Lower Panel Frame Buffer for Dual Panel
	* @param[in] LCDx pointer to LCD Controller Reg Struct, should be: LPC_LCD
	* @param[in] buffer address of buffer
	* @return None
	**********************************************************************/
	void LCD_SetLPFrameBuffer(LPC_LCD_Type LCDx, void buffer){
	LCDx->LPBASE = (uint32_t)buffer;
	}


	/*******************************************************************//
	* @brief Configure Cursor
	* @param[in] LCDx pointer to LCD Controller Reg Struct, should be: LPC_LCD
	* @param[in] cursor_size specify size of cursor
	* - LCD_CURSOR_32x32 :cursor size is 32x32 pixels
	* - LCD_CURSOR_64x64 :cursor size is 64x64 pixels
	* @param[in] sync cursor sync mode
	* - TRUE :cursor sync to the frame sync pulse
	* - FALSE :cursor async mode
	* @return None
	**********************************************************************/
	void LCD_Cursor_Config(LPC_LCD_Type *LCDx, LCD_CURSOR_SIZE_OPT cursor_size, Bool sync){
	LCD_Cursor_Size = cursor_size;
	LCDx->CRSR_CFG = ((sync?1:0)<<1) \| cursor_size;
	}


	/*******************************************************************//
	* @brief Write Cursor Image into Internal Cursor Image Buffer
	* @param[in] LCDx pointer to LCD Controller Reg Struct, should be: LPC_LCD
	* @param[in] cursor_num specify number of cursor is going to be written
	* this param must < 4
	* @param[in] Image point to Cursor Image Buffer
	* @return None
	**********************************************************************/
	void LCD_Cursor_WriteImage(LPC_LCD_Type LCDx, uint8_t cursor_num, void Image){
	int i,j;
	uint8_t fifoptr, crsr_ptr = (uint8_t *)Image;

	CHECK_PARAM(cursor_num<4);
	/* Check if Cursor Size was configured as 32x32 or 64x64*/
	if(LCD_Cursor_Size == LCD_CURSOR_32x32){
	i = cursor_num * 256;
	j = i + 256;
	}else{
	i = 0;
	j = 1024;
	}
	fifoptr = (uint8_t*)&(LCDx->CRSR_IMG[0]);
	/* Copy Cursor Image content to FIFO */
	for(; i < j; i++)
	{
	fifoptr[i] = (uint8_t )crsr_ptr;
	crsr_ptr++;
	}
	}


	/*******************************************************************//
	* @brief Get Internal Cursor Image Buffer Address
	* @param[in] LCDx pointer to LCD Controller Reg Struct, should be: LPC_LCD
	* @param[in] cursor_num specify number of cursor is going to be written
	* this param must < 4
	* @return Cursor Image Buffer Address
	**********************************************************************/
	void* LCD_Cursor_GetImageBufferAddress(LPC_LCD_Type *LCDx, uint8_t cursor_num){
	CHECK_PARAM(cursor_num<4);
	return (void)&(LCDx->CRSR_IMG[cursor_num64]);
	}


	/*******************************************************************//
	* @brief Enable Cursor
	* @param[in] LCDx pointer to LCD Controller Reg Struct, should be: LPC_LCD
	* @param[in] cursor_num specify number of cursor is going to be written
	* this param must < 4
	* @param[in] OnOff Turn on/off LCD
	* - TRUE :Enable
	* - FALSE :Disable
	* @return None
	**********************************************************************/
	void LCD_Cursor_Enable(LPC_LCD_Type *LCDx, uint8_t cursor_num, FunctionalState OnOff){
	CHECK_PARAM(cursor_num<4);
	if (OnOff)
	{
	LCDx->CRSR_CTRL = (cursor_num<<4) \| 1;
	}
	else
	{
	LCDx->CRSR_CTRL = (cursor_num<<4);
	}
	}


	/*******************************************************************//
	* @brief Load LCD Palette
	* @param[in] LCDx pointer to LCD Controller Reg Struct, should be: LPC_LCD
	* @param[in] palette point to palette address
	* @return None
	**********************************************************************/
	void LCD_LoadPalette(LPC_LCD_Type LCDx, void palette){
	LCD_PALETTE_ENTRY_Type pal_entry, *ptr_pal_entry;
	uint8_t i, *pal_ptr;
	/* This function supports loading of the color palette from
	the C file generated by the bmp2c utility. It expects the
	palette to be passed as an array of 32-bit BGR entries having
	the following format:
	2:0 - Not used
	7:3 - Blue
	10:8 - Not used
	15:11 - Green
	18:16 - Not used
	23:19 - Red
	31:24 - Not used
	arg = pointer to input palette table address */
	ptr_pal_entry = &pal_entry;
	pal_ptr = (uint8_t *) palette;

	/* 256 entry in the palette table */
	for(i = 0; i < 256/2; i++)
	{
	pal_entry.Bl = (pal_ptr++) >> 3; / blue first */
	pal_entry.Gl = (pal_ptr++) >> 3; / get green */
	pal_entry.Rl = (pal_ptr++) >> 3; / get red */
	pal_ptr++; /* skip over the unused byte */
	/* do the most significant halfword of the palette */
	pal_entry.Bu = (pal_ptr++) >> 3; / blue first */
	pal_entry.Gu = (pal_ptr++) >> 3; / get green */
	pal_entry.Ru = (pal_ptr++) >> 3; / get red */
	pal_ptr++; /* skip over the unused byte */

	LCDx->PAL[i] = (uint32_t )ptr_pal_entry;
	}
	}


	/*******************************************************************//
	* @brief Load Cursor Palette
	* @param[in] LCDx pointer to LCD Controller Reg Struct, should be: LPC_LCD
	* @param[in] palette_color cursor palette 0 value
	* @return None
	**********************************************************************/
	void LCD_Cursor_LoadPalette0(LPC_LCD_Type *LCDx, uint32_t palette_color){
	/* 7:0 - Red
	15:8 - Green
	23:16 - Blue
	31:24 - Not used*/
	LCDx->CRSR_PAL0 = (uint32_t)palette_color;
	}


	/*******************************************************************//
	* @brief Load Cursor Palette
	* @param[in] LCDx pointer to LCD Controller Reg Struct, should be: LPC_LCD
	* @param[in] palette_color cursor palette 1 value
	* @return None
	**********************************************************************/
	void LCD_Cursor_LoadPalette1(LPC_LCD_Type *LCDx, uint32_t palette_color){
	/* 7:0 - Red
	15:8 - Green
	23:16 - Blue
	31:24 - Not used*/
	LCDx->CRSR_PAL1 = (uint32_t)palette_color;
	}


	/*******************************************************************//
	* @brief Set Interrupt
	* @param[in] LCDx pointer to LCD Controller Reg Struct, should be: LPC_LCD
	* @param[in] Int LCD Interrupt Source, should be:
	* - LCD_INT_FUF :FIFO underflow
	* - LCD_INT_LNBU :LCD next base address update bit
	* - LCD_INT_VCOMP :Vertical compare bit
	* - LCD_INT_BER :AHB master error interrupt bit
	* @return None
	**********************************************************************/
	void LCD_SetInterrupt(LPC_LCD_Type *LCDx, LCD_INT_SRC Int){
	LCDx->INTMSK \|= Int;
	}


	/*******************************************************************//
	* @brief Clear Interrupt
	* @param[in] LCDx pointer to LCD Controller Reg Struct, should be: LPC_LCD
	* @param[in] Int LCD Interrupt Source, should be:
	* - LCD_INT_FUF :FIFO underflow
	* - LCD_INT_LNBU :LCD next base address update bit
	* - LCD_INT_VCOMP :Vertical compare bit
	* - LCD_INT_BER :AHB master error interrupt bit
	* @return None
	**********************************************************************/
	void LCD_ClrInterrupt(LPC_LCD_Type *LCDx, LCD_INT_SRC Int){
	LCDx->INTCLR \|= Int;
	}


	/*******************************************************************//
	* @brief Get LCD Interrupt Status
	* @param[in] LCDx pointer to LCD Controller Reg Struct, should be: LPC_LCD
	* @return None
	**********************************************************************/
	LCD_INT_SRC LCD_GetInterrupt(LPC_LCD_Type *LCDx){
	return (LCD_INT_SRC)LCDx->INTRAW;
	}


	/*******************************************************************//
	* @brief Enable Cursor Interrupt
	* @param[in] LCDx pointer to LCD Controller Reg Struct, should be: LPC_LCD
	* @return None
	**********************************************************************/
	void LCD_Cursor_SetInterrupt(LPC_LCD_Type *LCDx){
	LCDx->CRSR_INTMSK \|= 1;
	}


	/*******************************************************************//
	* @brief Clear Cursor Interrupt
	* @param[in] LCDx pointer to LCD Controller Reg Struct, should be: LPC_LCD
	* @return None
	**********************************************************************/
	void LCD_Cursor_ClrInterrupt(LPC_LCD_Type *LCDx){
	LCDx->CRSR_INTCLR \|= 1;
	}


	/*******************************************************************//
	* @brief Set Cursor Position
	* @param[in] LCDx pointer to LCD Controller Reg Struct, should be: LPC_LCD
	* @param[in] x horizontal position
	* @param[in] y vertical position
	* @return None
	**********************************************************************/
	void LCD_Cursor_SetPos(LPC_LCD_Type *LCDx, uint16_t x, uint16_t y){
	LCDx->CRSR_XY = (x & 0x3FF) \| ((y & 0x3FF) << 16);
	}


	/*******************************************************************//
	* @brief Set Cursor Clipping Position
	* @param[in] LCDx pointer to LCD Controller Reg Struct, should be: LPC_LCD
	* @param[in] x horizontal position, should be in range: 0..63
	* @param[in] y vertical position, should be in range: 0..63
	* @return None
	**********************************************************************/
	void LCD_Cursor_SetClip(LPC_LCD_Type *LCDx, uint16_t x, uint16_t y){
	LCDx->CRSR_CLIP = (x & 0x3F) \| ((y & 0x3F) << 8);
	}
	#endif /* _LCD */

	/**
	* @}
	*/

	/* --------------------------------- End Of File ------------------------------ */