/**
* @file
*
* @ingroup RTEMSBSPsARMCSB337
*
* @brief SED1356 LCD/CRT Controllers for KIT637_V6 (CSB637)
* 16-Bit access mode
*/
/**
* @defgroup csb337_sed1356 SED Video Controller.
*
* @ingroup RTEMSBSPsARMCSB337
*
* @brief SED1356 LCD/CRT Controllers for KIT637_V6 (CSB637)
* 16-Bit access mode
*/
/*
* sed1356.h: SED1356 LCD/CRT Controllers for KIT637_V6 (CSB637)
* 16-Bit access mode
*
* Based upon code from MicroMonitor 1.17 from http://www.umonfw.com/
* which includes this notice:
*
**************************************************************************
* General notice:
* This code is part of a boot-monitor package developed as a generic base
* platform for embedded system designs. As such, it is likely to be
* distributed to various projects beyond the control of the original
* author. Please notify the author of any enhancements made or bugs found
* so that all may benefit from the changes. In addition, notification back
* to the author will allow the new user to pick up changes that may have
* been made by other users after this version of the code was distributed.
*
* Note1: the majority of this code was edited with 4-space tabs.
* Note2: as more and more contributions are accepted, the term "author"
* is becoming a mis-representation of credit.
*
* Original author: Ed Sutter
* Email: esutter@alcatel-lucent.com
* Phone: 908-582-2351
**************************************************************************
*
* Ed Sutter has been informed that this code is being used in RTEMS.
*
* The code has been reformatted by Joel Sherrill from OAR Corporation and
* Fernando Nicodemos <fgnicodemos@terra.com.br> from NCB - Sistemas
* Embarcados Ltda. (Brazil) to be more compliant with RTEMS coding standards
* and to eliminate C++ style comments.
*/
#ifndef __sed1356_16bit_h
#define __sed1356_16bit_h
#include "bits.h"
/*------------------------------------------------------------------------
* cpu specific code must define the following board specific macros.
* in cpuio.h. These examples assume the SED135x has been placed in
* the correct endian mode via hardware.
* #define SED_MEM_BASE 0xf0600000 <-- just example addresses,
* #define SED_REG_BASE 0xf0400000 <-- define for each board
* #define SED_STEP 1 <-- 1 = device is on 16-bit boundry, 2 = 32-bit boundry, 4 = 64-bit boundry
* #define SED_REG16(_x_) *(vushortr *)(SED_REG_BASE + (_x_ * SED_STEP)) // Control/Status Registers
* #define RD_FB16(_reg_,_val_) ((_val_) = *((vushort *)((SED_MEM_BASE + (_reg_ * SED_STEP)))))
* #define WR_FB16(_reg_,_val_) (*((vushort *)((SED_MEM_BASE + (_reg_ * 2)))) = (_val_))
* Big endian processors
* #define H2SED(_x_) ((((x) & 0xff00U) >> 8) | (((x) & 0x00ffU) << 8))
* Little endian
* #define H2SED(_x_) (_x_)
*
*/
/*
* SED1356 registers - 16-Bit Access Mode. The first register
* referenced is the even addressed register. The byte offsets
* of the odd registers are shown in the comments
*/
#define SED1356_REG_REV_and_MISC SED_REG16(0x00)
#define SED1356_REG_GPIO_CFG SED_REG16(0x04)
#define SED1356_REG_GPIO_CTL SED_REG16(0x08)
#define SED1356_REG_MD_CFG_RD_LO_and_HI SED_REG16(0x0c)
#define SED1356_REG_MCLK_CFG SED_REG16(0x10)
#define SED1356_REG_LCD_PCLK_CFG SED_REG16(0x14)
#define SED1356_REG_CRT_PCLK_CFG SED_REG16(0x18)
#define SED1356_REG_MEDIA_PCLK_CFG SED_REG16(0x1c)
#define SED1356_REG_WAIT_STATE SED_REG16(0x1e)
#define SED1356_REG_MEM_CFG_and_REF_RATE SED_REG16(0x20)
#define SED1356_REG_MEM_TMG0_and_1 SED_REG16(0x2a)
#define SED1356_REG_PANEL_TYPE_and_MOD_RATE SED_REG16(0x30)
/* LCD Control registers */
#define SED1356_REG_LCD_HOR_DISP SED_REG16(0x32)
#define SED1356_REG_LCD_HOR_NONDISP_and_START SED_REG16(0x34)
#define SED1356_REG_LCD_HOR_PULSE SED_REG16(0x36)
#define SED1356_REG_LCD_VER_DISP_HT_LO_and_HI SED_REG16(0x38)
#define SED1356_REG_LCD_VER_NONDISP_and_START SED_REG16(0x3a)
#define SED1356_REG_LCD_VER_PULSE SED_REG16(0x3c)
#define SED1356_REG_LCD_DISP_MODE_and_MISC SED_REG16(0x40)
#define SED1356_REG_LCD_DISP_START_LO_and_MID SED_REG16(0x42)
#define SED1356_REG_LCD_DISP_START_HI SED_REG16(0x44)
#define SED1356_REG_LCD_ADD_OFFSET_LO_and_HI SED_REG16(0x46)
#define SED1356_REG_LCD_PIXEL_PAN SED_REG16(0x48)
#define SED1356_REG_LCD_FIFO_THRESH_LO_and_HI SED_REG16(0x4a)
/* CRT/TV Control registers */
#define SED1356_REG_CRT_HOR_DISP SED_REG16(0x50)
#define SED1356_REG_CRT_HOR_NONDISP_and_START SED_REG16(0x52)
#define SED1356_REG_CRT_HOR_PULSE SED_REG16(0x54)
#define SED1356_REG_CRT_VER_DISP_HT_LO_and_HI SED_REG16(0x56)
#define SED1356_REG_CRT_VER_NONDISP_and_START SED_REG16(0x58)
#define SED1356_REG_CRT_VER_PULSE_and_OUT_CTL SED_REG16(0x5a)
#define SED1356_REG_CRT_DISP_MODE SED_REG16(0x60)
#define SED1356_REG_CRT_DISP_START_LO_and_MID SED_REG16(0x62)
#define SED1356_REG_CRT_DISP_START_HI SED_REG16(0x64)
#define SED1356_REG_CRT_ADD_OFFSET_LO_and_HI SED_REG16(0x66)
#define SED1356_REG_CRT_PIXEL_PAN SED_REG16(0x68)
#define SED1356_REG_CRT_FIFO_THRESH_LO_and_HI SED_REG16(0x6a)
/* LCD Cursor Control Registers */
#define SED1356_REG_LCD_CURSOR_CTL_and_START_ADD SED_REG16(0x70)
#define SED1356_REG_LCD_CURSOR_X_POS_LO_and_HI SED_REG16(0x72)
#define SED1356_REG_LCD_CURSOR_Y_POS_LO_and_HI SED_REG16(0x74)
#define SED1356_REG_LCD_CURSOR_BLUE_and_GREEN_CLR_0 SED_REG16(0x76)
#define SED1356_REG_LCD_CURSOR_RED_CLR_0 SED_REG16(0x78)
#define SED1356_REG_LCD_CURSOR_BLUE_and_GREEN_CLR_1 SED_REG16(0x7a)
#define SED1356_REG_LCD_CURSOR_RED_CLR_1 SED_REG16(0x7c)
#define SED1356_REG_LCD_CURSOR_FIFO_THRESH SED_REG16(0x7e)
/* CRT Cursor Control Registers */
#define SED1356_REG_CRT_CURSOR_CTL_and_START_ADD SED_REG16(0x80)
#define SED1356_REG_CRT_CURSOR_X_POS_LO_and_HI SED_REG16(0x82)
#define SED1356_REG_CRT_CURSOR_Y_POS_LO_and_HI SED_REG16(0x84)
#define SED1356_REG_CRT_CURSOR_BLUE_and_GREEN_CLR_0 SED_REG16(0x86)
#define SED1356_REG_CRT_CURSOR_RED_CLR_0 SED_REG16(0x88)
#define SED1356_REG_CRT_CURSOR_BLUE_and_GREEN_CLR_1 SED_REG16(0x8a)
#define SED1356_REG_CRT_CURSOR_RED_CLR_1 SED_REG16(0x8c)
#define SED1356_REG_CRT_CURSOR_FIFO_THRESH SED_REG16(0x8e)
/* BitBlt Control Registers */
#define SED1356_REG_BLT_CTL_0_and_1 SED_REG16(0x100)
#define SED1356_REG_BLT_ROP_CODE_and_BLT_OP SED_REG16(0x102)
#define SED1356_REG_BLT_SRC_START_LO_and_MID SED_REG16(0x104)
#define SED1356_REG_BLT_SRC_START_HI SED_REG16(0x106)
#define SED1356_REG_BLT_DEST_START_LO_and_MID SED_REG16(0x108)
#define SED1356_REG_BLT_DEST_START_HI SED_REG16(0x10a)
#define SED1356_REG_BLT_ADD_OFFSET_LO_and_HI SED_REG16(0x10c)
#define SED1356_REG_BLT_WID_LO_and_HI SED_REG16(0x110)
#define SED1356_REG_BLT_HGT_LO_and_HI SED_REG16(0x112)
#define SED1356_REG_BLT_BG_CLR_LO_and_HI SED_REG16(0x114)
#define SED1356_REG_BLT_FG_CLR_LO_and_HI SED_REG16(0x118)
/* Look-Up Table Control Registers */
#define SED1356_REG_LUT_MODE SED_REG16(0x1e0)
#define SED1356_REG_LUT_ADD SED_REG16(0x1e2)
#define SED1356_REG_LUT_DATA SED_REG16(0x1e4)
/* Power and Miscellaneous Control Registers */
#define SED1356_REG_PWR_CFG_and_STAT SED_REG16(0x1f0)
#define SED1356_REG_WATCHDOG_CTL SED_REG16(0x1f4)
#define SED1356_REG_DISP_MODE SED_REG16(0x1fc)
/*
* Bit Assignments - Little Endian, Use H2SED() macro to access
*
* SED1356_REG_REV_and_MISC - even
*/
#define SED1356_REV_ID_MASK 0xfc /* ID bits - masks off the rev bits */
#define SED1356_REV_ID_1356 BIT4
#define SED1356_REV_ID_1355 BIT3
/* SED1356_REG_REV_and_MISC - odd */
#define SED1356_MISC_HOST_DIS BIT7 << 8 /* 0 = enable host access, 1 = disable */
/* SED1356_REG_GPIO_CFG and SED1356_REG_GPIO_STAT */
#define SED1356_GPIO_GPIO3 BIT3 /* 0 = input, 1 = output, if configured as GPIO */
#define SED1356_GPIO_GPIO2 BIT2
#define SED1356_GPIO_GPIO1 BIT1
/* SED1356_REG_MCLK_CFG */
#define SED1356_MCLK_DIV2 BIT4
#define SED1356_MCLK_SRC_BCLK BIT0
#define SED1356_MCLK_SRC_CLKI 0x00
/* SED1356_REG_LCD_PCLK_CFG, SED1356_REG_CRT_PCLK_CFG
* and SED1356_REG_MEDIA_PCLK_CFG
*/
#define SED1356_PCLK_X2 BIT7 /* SED1356_REG_CRT_PCLK_CFG only */
#define SED1356_PCLK_DIV1 0x00 << 4
#define SED1356_PCLK_DIV2 0x01 << 4
#define SED1356_PCLK_DIV3 0x02 << 4
#define SED1356_PCLK_DIV4 0x03 << 4
#define SED1356_PCLK_SRC_CLKI 0x00
#define SED1356_PCLK_SRC_BCLK 0x01
#define SED1356_PCLK_SRC_CLKI2 0x02
#define SED1356_PCLK_SRC_MCLK 0x03
/* SED1356_REG_MEM_CFG_and_REF_RATE - even */
#define SED1356_MEM_CFG_2CAS_EDO 0x00
#define SED1356_MEM_CFG_2CAS_FPM 0x01
#define SED1356_MEM_CFG_2WE_EDO 0x02
#define SED1356_MEM_CFG_2WE_FPM 0x03
#define SED1356_MEM_CFG_MASK 0x03
/* SED1356_REG_MEM_CFG_and_REF_RATE - odd */
#define SED1356_REF_TYPE_CBR 0x00 << 6 << 8
#define SED1356_REF_TYPE_SELF 0x01 << 6 << 8
#define SED1356_REF_TYPE_NONE 0x02 << 6 << 8
#define SED1356_REF_TYPE_MASK 0x03 << 6 << 8
#define SED1356_REF_RATE_64 0x00 << 0 << 8 /* MCLK / 64 */
#define SED1356_REF_RATE_128 0x01 << 0 << 8 /* MCLK / 128 */
#define SED1356_REF_RATE_256 0x02 << 0 << 8 /* MCLK / 256 */
#define SED1356_REF_RATE_512 0x03 << 0 << 8 /* MCLK / 512 */
#define SED1356_REF_RATE_1024 0x04 << 0 << 8 /* MCLK / 1024 */
#define SED1356_REF_RATE_2048 0x05 << 0 << 8 /* MCLK / 2048 */
#define SED1356_REF_RATE_4096 0x06 << 0 << 8 /* MCLK / 4096 */
#define SED1356_REF_RATE_8192 0x07 << 0 << 8 /* MCLK / 8192 */
#define SED1356_REF_RATE_MASK 0x07 << 0 << 8 /* MCLK / 8192 */
/* SED1356_REG_MEM_TMG0_and_1 - even */
#define SED1356_MEM_TMG0_EDO50_MCLK40 0x01
#define SED1356_MEM_TMG0_EDO50_MCLK33 0x01
#define SED1356_MEM_TMG0_EDO60_MCLK33 0x01
#define SED1356_MEM_TMG0_EDO50_MCLK30 0x12
#define SED1356_MEM_TMG0_EDO60_MCLK30 0x01
#define SED1356_MEM_TMG0_EDO70_MCLK30 0x00
#define SED1356_MEM_TMG0_EDO50_MCLK25 0x12
#define SED1356_MEM_TMG0_EDO60_MCLK25 0x12
#define SED1356_MEM_TMG0_EDO70_MCLK25 0x01
#define SED1356_MEM_TMG0_EDO80_MCLK25 0x00
#define SED1356_MEM_TMG0_EDO50_MCLK20 0x12
#define SED1356_MEM_TMG0_EDO60_MCLK20 0x12
#define SED1356_MEM_TMG0_EDO70_MCLK20 0x12
#define SED1356_MEM_TMG0_EDO80_MCLK20 0x01
#define SED1356_MEM_TMG0_FPM50_MCLK25 0x12
#define SED1356_MEM_TMG0_FPM60_MCLK25 0x01
#define SED1356_MEM_TMG0_FPM50_MCLK20 0x12
#define SED1356_MEM_TMG0_FPM60_MCLK20 0x12
#define SED1356_MEM_TMG0_FPM70_MCLK20 0x11
#define SED1356_MEM_TMG0_FPM80_MCLK20 0x01
/* SED1356_REG_MEM_TMG0_and_1 - odd */
#define SED1356_MEM_TMG1_EDO50_MCLK40 0x01 << 8
#define SED1356_MEM_TMG1_EDO50_MCLK33 0x01 << 8
#define SED1356_MEM_TMG1_EDO60_MCLK33 0x01 << 8
#define SED1356_MEM_TMG1_EDO50_MCLK30 0x02 << 8
#define SED1356_MEM_TMG1_EDO60_MCLK30 0x01 << 8
#define SED1356_MEM_TMG1_EDO70_MCLK30 0x00 << 8
#define SED1356_MEM_TMG1_EDO50_MCLK25 0x02 << 8
#define SED1356_MEM_TMG1_EDO60_MCLK25 0x02 << 8
#define SED1356_MEM_TMG1_EDO70_MCLK25 0x01 << 8
#define SED1356_MEM_TMG1_EDO80_MCLK25 0x01 << 8
#define SED1356_MEM_TMG1_EDO50_MCLK20 0x02 << 8
#define SED1356_MEM_TMG1_EDO60_MCLK20 0x02 << 8
#define SED1356_MEM_TMG1_EDO70_MCLK20 0x02 << 8
#define SED1356_MEM_TMG1_EDO80_MCLK20 0x01 << 8
#define SED1356_MEM_TMG1_FPM50_MCLK25 0x02 << 8
#define SED1356_MEM_TMG1_FPM60_MCLK25 0x01 << 8
#define SED1356_MEM_TMG1_FPM50_MCLK20 0x02 << 8
#define SED1356_MEM_TMG1_FPM60_MCLK20 0x02 << 8
#define SED1356_MEM_TMG1_FPM70_MCLK20 0x02 << 8
#define SED1356_MEM_TMG1_FPM80_MCLK20 0x01 << 8
/* Bit definitions
*
* SED1356_REG_PANEL_TYPE_AND_MOD_RATE - even
*/
#define SED1356_PANEL_TYPE_EL BIT7
#define SED1356_PANEL_TYPE_4_9 (0x00 << 4) /* Passive 4-Bit, TFT 9-Bit */
#define SED1356_PANEL_TYPE_8_12 (0x01 << 4) /* Passive 8-Bit, TFT 12-Bit */
#define SED1356_PANEL_TYPE_16 (0x02 << 4) /* Passive 16-Bit, or TFT 18-Bit */
#define SED1356_PANEL_TYPE_MASK (0x03 << 4)
#define SED1356_PANEL_TYPE_FMT BIT3 /* 0 = Passive Format 1, 1 = Passive Format 2 */
#define SED1356_PANEL_TYPE_CLR BIT2 /* 0 = Passive Mono, 1 = Passive Color */
#define SED1356_PANEL_TYPE_DUAL BIT1 /* 0 = Passive Single, 1 = Passive Dual */
#define SED1356_PANEL_TYPE_TFT BIT0 /* 0 = Passive, 1 = TFT (DUAL, FMT & CLR are don't cares) */
/* SED1356_REG_CRT_HOR_PULSE, SED1356_REG_CRT_VER_PULSE,
* SED1356_REG_LCD_HOR_PULSE and SED1356_REG_LCD_VER_PULSE
*/
#define SED1356_PULSE_POL_HIGH BIT7 /* 0 = CRT/TFT Pulse is Low, Passive is High, 1 = CRT/TFT Pulse is High, Passive is Low */
#define SED1356_PULSE_POL_LOW 0x00 /* 0 = CRT/TFT Pulse is Low, Passive is High, 1 = CRT/TFT Pulse is High, Passive is Low */
#define SED1356_PULSE_WID(_x_) (_x_ & 0x0f) /* Pulse Width in Pixels */
/* SED1356_LCD_DISP_MODE_and_MISC - even */
#define SED1356_LCD_DISP_BLANK BIT7 /* 1 = Blank LCD Display */
#define SED1356_LCD_DISP_SWIV_NORM (0x00 << 4) /* Used with SED1356_REG_DISP_MODE Bit 6 */
#define SED1356_LCD_DISP_SWIV_90 (0x00 << 4)
#define SED1356_LCD_DISP_SWIV_180 (0x01 << 4)
#define SED1356_LCD_DISP_SWIV_270 (0x01 << 4)
#define SED1356_LCD_DISP_SWIV_MASK (0x01 << 4)
#define SED1356_LCD_DISP_16BPP 0x05 /* Bit Per Pixel Selection */
#define SED1356_LCD_DISP_15BPP 0x04
#define SED1356_LCD_DISP_8BPP 0x03
#define SED1356_LCD_DISP_4BPP 0x02
#define SED1356_LCD_DISP_BPP_MASK 0x07
/* SED1356_LCD_DISP_MODE_and_MISC - odd */
#define SED1356_LCD_MISC_DITH BIT1 << 8 /* 1 = Dither Disable, Passive Panel Only */
#define SED1356_LCD_MISC_DUAL BIT0 << 8 /* 1 = Dual Panel Disable, Passive Panel Only */
/* SED1356_REG_CRT_VER_PULSE_and_OUT_CTL - odd */
#define SED1356_CRT_OUT_CHROM BIT5 << 8 /* 1 = TV Chrominance Filter Enable */
#define SED1356_CRT_OUT_LUM BIT4 << 8 /* 1 = TV Luminance Filter Enable */
#define SED1356_CRT_OUT_DAC_LVL BIT3 << 8 /* 1 = 4.6ma IREF, 0 = 9.2 IREF */
#define SED1356_CRT_OUT_SVIDEO BIT1 << 8 /* 1 = S-Video Output, 0 = Composite Video Output */
#define SED1356_CRT_OUT_PAL BIT0 << 8 /* 1 = PAL Format Output, 0 = NTSC Format Output */
/* SED1356_REG_CRT_DISP_MODE */
#define SED1356_CRT_DISP_BLANK BIT7 /* 1 = Blank CRT Display */
#define SED1356_CRT_DISP_16BPP 0x05 /* Bit Per Pixel Selection */
#define SED1356_CRT_DISP_15BPP 0x04
#define SED1356_CRT_DISP_8BPP 0x03
#define SED1356_CRT_DISP_4BPP 0x02
#define SED1356_CRT_DISP_BPP_MASK 0x07
/* SED1356_DISP_MODE */
#define SED1356_DISP_SWIV_NORM (0x00 << 6) /* Used with SED1356_LCD_DISP_MODE Bit 4 */
#define SED1356_DISP_SWIV_90 (0x01 << 6)
#define SED1356_DISP_SWIV_180 (0x00 << 6)
#define SED1356_DISP_SWIV_270 (0x01 << 6)
#define SED1356_DISP_MODE_OFF 0x00 /* All Displays Off */
#define SED1356_DISP_MODE_LCD 0x01 /* LCD Only */
#define SED1356_DISP_MODE_CRT 0x02 /* CRT Only */
#define SED1356_DISP_MODE_LCD_CRT 0x03 /* Simultaneous LCD and CRT */
#define SED1356_DISP_MODE_TV 0x04 /* TV Only, Flicker Filter Off */
#define SED1356_DISP_MODE_TV_LCD 0x05 /* Simultaneous LCD and TV, Flicker Filter Off */
#define SED1356_DISP_MODE_TV_FLICK 0x06 /* TV Only, Flicker Filter On */
#define SED1356_DISP_MODE_TV_LCD_FLICK 0x07 /* Simultaneous LCD and TV, Flicker Filter On */
/* SED1356_REG_PWR_CFG and SED1356_REG_PWR_STAT */
#define SED1356_PWR_PCLK BIT1 /* SED1356_REG_PWR_STAT only */
#define SED1356_PWR_MCLK BIT0
/* SED1356_REG_VER_NONDISP */
#define SED1356_VER_NONDISP BIT7 /* vertical retrace status 1 = in retrace */
/* Display size defines */
extern long PIXELS_PER_ROW;
extern long PIXELS_PER_COL;
#define BYTES_PER_PIXEL 2
extern long COLS_PER_SCREEN;
extern long ROWS_PER_SCREEN;
/* 16-bit pixels are RGB 565 - LSB of RED and BLUE are tied low at the */
/* LCD Interface, while the LSB of GREEN is loaded as 0 */
#define RED_SUBPIXEL(n) ((n & 0x1f) << 11)
#define GREEN_SUBPIXEL(n) ((n & 0x1f) << 5)
#define BLUE_SUBPIXEL(n) ((n & 0x1f) << 0)
/* define a simple VGA style 16-color pallette */
#if 0
#define LU_BLACK (RED_SUBPIXEL(0x00) | GREEN_SUBPIXEL(0x00) | BLUE_SUBPIXEL(0x00))
#define LU_BLUE (RED_SUBPIXEL(0x00) | GREEN_SUBPIXEL(0x00) | BLUE_SUBPIXEL(0x0f))
#define LU_GREEN (RED_SUBPIXEL(0x00) | GREEN_SUBPIXEL(0x0f) | BLUE_SUBPIXEL(0x00))
#define LU_CYAN (RED_SUBPIXEL(0x00) | GREEN_SUBPIXEL(0x0f) | BLUE_SUBPIXEL(0x0f))
#define LU_RED (RED_SUBPIXEL(0x0f) | GREEN_SUBPIXEL(0x00) | BLUE_SUBPIXEL(0x00))
#define LU_VIOLET (RED_SUBPIXEL(0x0f) | GREEN_SUBPIXEL(0x00) | BLUE_SUBPIXEL(0x0f))
#define LU_YELLOW (RED_SUBPIXEL(0x0f) | GREEN_SUBPIXEL(0x0f) | BLUE_SUBPIXEL(0x00))
#define LU_GREY (RED_SUBPIXEL(0x0f) | GREEN_SUBPIXEL(0x0f) | BLUE_SUBPIXEL(0x0f))
#define LU_WHITE (RED_SUBPIXEL(0x17) | GREEN_SUBPIXEL(0x17) | BLUE_SUBPIXEL(0x17))
#define LU_BRT_BLUE (RED_SUBPIXEL(0x00) | GREEN_SUBPIXEL(0x00) | BLUE_SUBPIXEL(0x1f))
#define LU_BRT_GREEN (RED_SUBPIXEL(0x00) | GREEN_SUBPIXEL(0x1f) | BLUE_SUBPIXEL(0x00))
#define LU_BRT_CYAN (RED_SUBPIXEL(0x00) | GREEN_SUBPIXEL(0x1f) | BLUE_SUBPIXEL(0x1f))
#define LU_BRT_RED (RED_SUBPIXEL(0x1f) | GREEN_SUBPIXEL(0x00) | BLUE_SUBPIXEL(0x00))
#define LU_BRT_VIOLET (RED_SUBPIXEL(0x1f) | GREEN_SUBPIXEL(0x00) | BLUE_SUBPIXEL(0x1f))
#define LU_BRT_YELLOW (RED_SUBPIXEL(0x1f) | GREEN_SUBPIXEL(0x1f) | BLUE_SUBPIXEL(0x00))
#define LU_BRT_WHITE (RED_SUBPIXEL(0x1f) | GREEN_SUBPIXEL(0x1f) | BLUE_SUBPIXEL(0x1f))
/* RED, GREEN, BLUE Entry */
{ 0x00, 0x00, 0x00, }, /* LU_BLACK */
{ 0x00, 0x00, 0xA0, }, /* LU_BLUE */
{ 0x00, 0xA0, 0x00, }, /* LU_GREEN */
{ 0x00, 0xA0, 0xA0, }, /* LU_CYAN */
{ 0xA0, 0x00, 0x00, }, /* LU_RED */
{ 0xA0, 0x00, 0xA0, }, /* LU_VIOLET */
{ 0xA0, 0xA0, 0x00, }, /* LU_YELLOW */
{ 0xA0, 0xA0, 0xA0, }, /* LU_WHITE */
{ 0x50, 0x50, 0x50, }, /* LU_GREY */
{ 0x50, 0x50, 0xF0, }, /* LU_BRT_BLUE */
{ 0x50, 0xF0, 0x50, }, /* LU_BRT_GREEN */
{ 0x50, 0xF0, 0xF0, }, /* LU_BRT_CYAN */
{ 0xF0, 0x50, 0x50, }, /* LU_BRT_RED */
{ 0xF0, 0x50, 0xF0, }, /* LU_BRT_VIOLET */
{ 0xF0, 0xF0, 0x50, }, /* LU_BRT_YELLOW */
{ 0xF0, 0xF0, 0xF0, }, /* LU_BRT_WHITE */
#endif
#define BLUE (0x14 << 0)
#define GREEN (0x14 << 6)
#define RED (0x14 << 11)
#define HALF_BLUE (0x0a << 0)
#define HALF_GREEN (0x0a << 6)
#define HALF_RED (0x0a << 11)
#define BRT_BLUE (0x1e << 0)
#define BRT_GREEN (0x1e << 6)
#define BRT_RED (0x1e << 11)
#define LU_BLACK 0
#define LU_BLUE (BLUE)
#define LU_GREEN (GREEN)
#define LU_CYAN (GREEN | BLUE)
#define LU_RED (RED)
#define LU_VIOLET (RED | BLUE)
#define LU_YELLOW (RED | GREEN)
#define LU_WHITE (RED | GREEN | BLUE)
#define LU_GREY (HALF_RED | HALF_GREEN | HALF_BLUE)
#define LU_BRT_BLUE (HALF_RED | HALF_GREEN | BRT_BLUE)
#define LU_BRT_GREEN (HALF_RED | BRT_GREEN | HALF_BLUE)
#define LU_BRT_CYAN (HALF_RED | BRT_GREEN | BRT_BLUE)
#define LU_BRT_RED (BRT_RED | HALF_GREEN | HALF_BLUE)
#define LU_BRT_VIOLET (BRT_RED | HALF_GREEN | BRT_BLUE)
#define LU_BRT_YELLOW (BRT_RED | BRT_GREEN | HALF_BLUE)
#define LU_BRT_WHITE (BRT_RED | BRT_GREEN | BRT_BLUE)
const ushort vga_lookup[] = {
LU_BLACK, /* 0 */
LU_BLUE, /* 1 */
LU_GREEN, /* 2 */
LU_CYAN, /* 3 */
LU_RED, /* 4 */
LU_VIOLET, /* 5 */
LU_YELLOW, /* 6 */
LU_WHITE, /* 7 */
LU_GREY, /* 8 */
LU_BRT_BLUE, /* 9 */
LU_BRT_GREEN, /* 10 */
LU_BRT_CYAN, /* 11 */
LU_BRT_RED, /* 12 */
LU_BRT_VIOLET, /* 13 */
LU_BRT_YELLOW, /* 14 */
LU_BRT_WHITE /* 15 */
};
/* default foreground and background colors */
#define SED_BG_DEF 1
#define SED_FG_DEF 14
/* Draw defines */
#define TOP 0
#define BOTTOM (PIXELS_PER_COL-1)
#define LEFT 0
#define RIGHT (PIXELS_PER_ROW-1)
#define CENTER_X (PIXELS_PER_ROW/2)
#define CENTER_Y (PIXELS_PER_COL/2)
/* Vertical and Horizontal Pulse, Start and Non-Display values vary depending
* upon the mode. The following section gives some insight into how the
* values are arrived at.
* ms = milliseconds, us = microseconds, ns = nanoseconds
* Mhz = Megaherz, Khz = Kiloherz, Hz = Herz
*
* ***************************************************************************************************
* CRT Mode is 640x480 @ 72Hz VESA compatible timing. PCLK = 31.5Mhz (31.75ns)
* ***************************************************************************************************
*
* CRT MODE HORIZONTAL TIMING PARAMETERS
*
* |<-------Tha------->|
* |___________________| ______
* Display Enable _____________________| |____________________|
* | |
* Horizontal Pulse __ ________|___________________|________ __________
* |_________| | | |________|
* |<- Thp ->| | | |
* | |<-Thbp->| | |
* | |<-Thfp->|
* |<----------------------Tht-------------------->|
*
* Tha - Active Display Time = 640 pixels
* Thp - Horizontal Pulse = 1.27us/31.75ns = 40 pixels
* Thbp - Horizontal Front Porch = 1.016us/31.75ns = 32 pixels
* Thfp - Horizontal Back Porch = 3.8us/31.75ns = 120 pixels
* Tht - Total Horizontal Time = 832 pixels x 32.75ns/pixel = 26.416us or 38.785Khz
*
* Correlation between horizontal timing parameters and SED registers
*/
#define SED_HOR_PULSE_WIDTH_CRT 0x07 /* Horizontal Pulse Width Register = (Thp/8) - 1 */
#define SED_HOR_PULSE_START_CRT 0x02 /* Horizontal Pulse Start Position Register = ((Thfp + 2)/8) - 1 */
#define SED_HOR_NONDISP_CRT 0x17 /* Horizontal Non-Display Period Register = ((Thp + Thfp + Thbp)/8) - 1 */
/*
* CRT MODE VERTICAL TIMING PARAMTERS
*
* |<-------Tva------->|
* |___________________| ______
* Display Enable _____________________| |_____________________|
* | |
* Vertical Pulse __ ________|___________________|________ __________
* |_________| | | |________|
* |<- Tvp ->| | | |
* | |<-Tvbp->| | |
* | |<-Tvfp->|
* |<----------------------Tvt-------------------->|
*
* Tva - Active Display Time = 480 lines
* Tvp - Vertical Pulse = 3 lines
* Tvfp - Vertical Front Porch = 9 lines
* Tvbp - Vertical Back Porch = 28 lines
* Tvt - Total Horizontal Time = 520 lines x 26.416us/line = 13.73632ms or 72.8Hz
*
* Correlation between vertical timing parameters and SED registers
*/
#define SED_VER_PULSE_WIDTH_CRT 0x02 // VRTC/FPFRAME Pulse Width Register = Tvp - 1
#define SED_VER_PULSE_START_CRT 0x08 // VRTC/FPFRAME Start Position Register = Tvfp - 1
#define SED_VER_NONDISP_CRT 0x27 // Vertical Non-Display Period Register = (Tvp + Tvfp + Tvbp) - 1
/*
*****************************************************************************************************
* DUAL LCD Mode is 640x480 @ 60Hz VGA compatible timing. PCLK = 25.175Mhz (39.722ns)
*****************************************************************************************************
*
* LCD MODE HORIZONTAL TIMING PARAMTERS
*
* |<-------Tha------->|
* |___________________| ______
* Display Enable _____________________| |____________________|
* | |
* Horizontal Pulse __ ________|___________________|________ __________
* |_________| | | |________|
* |<- Thp ->| | | |
* | |<-Thbp->| | |
* | |<-Thfp->|
* |<----------------------Tht-------------------->|
*
* Tha - Active Display Time = 640 pixels
* Thp - Horizontal Pulse = 3.8us/39.72ns = 96 pixels
* Thfp - Horizontal Front Porch = .595us/39.72ns = 16 pixels
* Thbp - Horizontal Backporch = 1.9us/39.72ns = 48 pixels
* Tht - Total Horizontal Time = = 800 pixels @ 39.72ns/pixel = 31.776us or 31.47Khz
*
* Correlation between horizontal timing parameters and SED registers
*#define SED_HOR_PULSE_WIDTH_LCD 0x0b // HRTC/FPLINE Pulse Width Register = (Thp/8) - 1
*#define SED_HOR_PULSE_START_LCD 0x02 // HRTC/FPLINE Start Position Register = (Thfp/8) - 2
*#define SED_HOR_NONDISP_LCD 0x13 // Horizontal Non-Display Period Register = ((Thp + Thfp + Thbp)/8) - 1
*/
extern long SED_HOR_PULSE_WIDTH_LCD;
extern long SED_HOR_PULSE_START_LCD;
extern long SED_HOR_NONDISP_LCD;
/*
*
* LCD MODE VERTICAL TIMING PARAMTERS
*
* |<-------Tva------->|
* |___________________| ______
* Display Enable _____________________| |_____________________|
* | |
* Vertical Pulse __ ________|___________________|________ __________
* |_________| | | |________|
* |<- Tvp ->| | | |
* | |<-Tvbp->| | |
* | |<-Tvfp->|
* |<----------------------Tvt-------------------->|
*
* Tva - Active Display Time = 480 lines
* Tvp - Vertical Pulse = 2 lines
* Tvfp - Vertical Front Porch = 10 lines
* Tvbp - Vertical Backporch = 33 lines
* Tvt - Total Horizontal Time = 525 lines @ 31.776us/line = 16.682ms or 60Hz
*
* Correlation between vertical timing parameters and SED registers
*#define SED_VER_PULSE_WIDTH_LCD 0x01 // VRTC/FPFRAME Pulse Width Register = Tvp - 1
*#define SED_VER_PULSE_START_LCD 0x09 // VRTC/FPFRAME Start Position Register = Tvfp - 1
*#define SED_VER_NONDISP_LCD 0x2c // Vertical Non-Display Period Register = (Tvp + Tvfp + Tvbp) - 1
*/
extern long SED_VER_PULSE_WIDTH_LCD;
extern long SED_VER_PULSE_START_LCD;
extern long SED_VER_NONDISP_LCD;
#endif