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gfiber / kernel / skids / b796900e7484f66f7a06d6ddf2e73236561a478a / . / drivers / staging / msm / mdp_ppp_v20.c
blob: b5b7271921e0263aac51c490dda81eaea2c2d2c0 [file] [log] [blame]
/* Copyright (c) 2008-2009, Code Aurora Forum. All rights reserved.
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License version 2 and
* only version 2 as published by the Free Software Foundation.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA
* 02110-1301, USA.
*/
#include <linux/module.h>
#include <linux/kernel.h>
#include <linux/sched.h>
#include <linux/time.h>
#include <linux/init.h>
#include <linux/interrupt.h>
#include <linux/fb.h>
#include "linux/proc_fs.h"
#include <mach/hardware.h>
#include <linux/io.h>
#include <asm/system.h>
#include <asm/mach-types.h>
#include <linux/semaphore.h>
#include <asm/div64.h>
#include "mdp.h"
#include "msm_fb.h"
static MDP_SCALE_MODE mdp_curr_up_scale_xy;
static MDP_SCALE_MODE mdp_curr_down_scale_x;
static MDP_SCALE_MODE mdp_curr_down_scale_y;
static long long mdp_do_div(long long num, long long den)
{
do_div(num, den);
return num;
}
struct mdp_table_entry mdp_gaussian_blur_table[] = {
/* max variance */
{ 0x5fffc, 0x20000080 },
{ 0x50280, 0x20000080 },
{ 0x5fffc, 0x20000080 },
{ 0x50284, 0x20000080 },
{ 0x5fffc, 0x20000080 },
{ 0x50288, 0x20000080 },
{ 0x5fffc, 0x20000080 },
{ 0x5028c, 0x20000080 },
{ 0x5fffc, 0x20000080 },
{ 0x50290, 0x20000080 },
{ 0x5fffc, 0x20000080 },
{ 0x50294, 0x20000080 },
{ 0x5fffc, 0x20000080 },
{ 0x50298, 0x20000080 },
{ 0x5fffc, 0x20000080 },
{ 0x5029c, 0x20000080 },
{ 0x5fffc, 0x20000080 },
{ 0x502a0, 0x20000080 },
{ 0x5fffc, 0x20000080 },
{ 0x502a4, 0x20000080 },
{ 0x5fffc, 0x20000080 },
{ 0x502a8, 0x20000080 },
{ 0x5fffc, 0x20000080 },
{ 0x502ac, 0x20000080 },
{ 0x5fffc, 0x20000080 },
{ 0x502b0, 0x20000080 },
{ 0x5fffc, 0x20000080 },
{ 0x502b4, 0x20000080 },
{ 0x5fffc, 0x20000080 },
{ 0x502b8, 0x20000080 },
{ 0x5fffc, 0x20000080 },
{ 0x502bc, 0x20000080 },
{ 0x5fffc, 0x20000080 },
{ 0x502c0, 0x20000080 },
{ 0x5fffc, 0x20000080 },
{ 0x502c4, 0x20000080 },
{ 0x5fffc, 0x20000080 },
{ 0x502c8, 0x20000080 },
{ 0x5fffc, 0x20000080 },
{ 0x502cc, 0x20000080 },
{ 0x5fffc, 0x20000080 },
{ 0x502d0, 0x20000080 },
{ 0x5fffc, 0x20000080 },
{ 0x502d4, 0x20000080 },
{ 0x5fffc, 0x20000080 },
{ 0x502d8, 0x20000080 },
{ 0x5fffc, 0x20000080 },
{ 0x502dc, 0x20000080 },
{ 0x5fffc, 0x20000080 },
{ 0x502e0, 0x20000080 },
{ 0x5fffc, 0x20000080 },
{ 0x502e4, 0x20000080 },
{ 0x5fffc, 0x20000080 },
{ 0x502e8, 0x20000080 },
{ 0x5fffc, 0x20000080 },
{ 0x502ec, 0x20000080 },
{ 0x5fffc, 0x20000080 },
{ 0x502f0, 0x20000080 },
{ 0x5fffc, 0x20000080 },
{ 0x502f4, 0x20000080 },
{ 0x5fffc, 0x20000080 },
{ 0x502f8, 0x20000080 },
{ 0x5fffc, 0x20000080 },
{ 0x502fc, 0x20000080 },
{ 0x5fffc, 0x20000080 },
{ 0x50300, 0x20000080 },
{ 0x5fffc, 0x20000080 },
{ 0x50304, 0x20000080 },
{ 0x5fffc, 0x20000080 },
{ 0x50308, 0x20000080 },
{ 0x5fffc, 0x20000080 },
{ 0x5030c, 0x20000080 },
{ 0x5fffc, 0x20000080 },
{ 0x50310, 0x20000080 },
{ 0x5fffc, 0x20000080 },
{ 0x50314, 0x20000080 },
{ 0x5fffc, 0x20000080 },
{ 0x50318, 0x20000080 },
{ 0x5fffc, 0x20000080 },
{ 0x5031c, 0x20000080 },
{ 0x5fffc, 0x20000080 },
{ 0x50320, 0x20000080 },
{ 0x5fffc, 0x20000080 },
{ 0x50324, 0x20000080 },
{ 0x5fffc, 0x20000080 },
{ 0x50328, 0x20000080 },
{ 0x5fffc, 0x20000080 },
{ 0x5032c, 0x20000080 },
{ 0x5fffc, 0x20000080 },
{ 0x50330, 0x20000080 },
{ 0x5fffc, 0x20000080 },
{ 0x50334, 0x20000080 },
{ 0x5fffc, 0x20000080 },
{ 0x50338, 0x20000080 },
{ 0x5fffc, 0x20000080 },
{ 0x5033c, 0x20000080 },
{ 0x5fffc, 0x20000080 },
{ 0x50340, 0x20000080 },
{ 0x5fffc, 0x20000080 },
{ 0x50344, 0x20000080 },
{ 0x5fffc, 0x20000080 },
{ 0x50348, 0x20000080 },
{ 0x5fffc, 0x20000080 },
{ 0x5034c, 0x20000080 },
{ 0x5fffc, 0x20000080 },
{ 0x50350, 0x20000080 },
{ 0x5fffc, 0x20000080 },
{ 0x50354, 0x20000080 },
{ 0x5fffc, 0x20000080 },
{ 0x50358, 0x20000080 },
{ 0x5fffc, 0x20000080 },
{ 0x5035c, 0x20000080 },
{ 0x5fffc, 0x20000080 },
{ 0x50360, 0x20000080 },
{ 0x5fffc, 0x20000080 },
{ 0x50364, 0x20000080 },
{ 0x5fffc, 0x20000080 },
{ 0x50368, 0x20000080 },
{ 0x5fffc, 0x20000080 },
{ 0x5036c, 0x20000080 },
{ 0x5fffc, 0x20000080 },
{ 0x50370, 0x20000080 },
{ 0x5fffc, 0x20000080 },
{ 0x50374, 0x20000080 },
{ 0x5fffc, 0x20000080 },
{ 0x50378, 0x20000080 },
{ 0x5fffc, 0x20000080 },
{ 0x5037c, 0x20000080 },
};
static void load_scale_table(
struct mdp_table_entry *table, int len)
{
int i;
for (i = 0; i < len; i++)
MDP_OUTP(MDP_BASE + table[i].reg, table[i].val);
}
static void mdp_load_pr_upscale_table(void)
{
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x50200, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x50204, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x50208, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x5020c, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x50210, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x50214, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x50218, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x5021c, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x50220, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x50224, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x50228, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x5022c, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x50230, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x50234, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x50238, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x5023c, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x50240, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x50244, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x50248, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x5024c, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x50250, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x50254, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x50258, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x5025c, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x50260, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x50264, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x50268, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x5026c, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x50270, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x50274, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x50278, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x5027c, 0x0);
}
static void mdp_load_pr_downscale_table_x_point2TOpoint4(void)
{
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x50280, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x50284, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x50288, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x5028c, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x50290, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x50294, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x50298, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x5029c, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x502a0, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x502a4, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x502a8, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x502ac, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x502b0, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x502b4, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x502b8, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x502bc, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x502c0, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x502c4, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x502c8, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x502cc, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x502d0, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x502d4, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x502d8, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x502dc, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x502e0, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x502e4, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x502e8, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x502ec, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x502f0, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x502f4, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x502f8, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x502fc, 0x0);
}
static void mdp_load_pr_downscale_table_y_point2TOpoint4(void)
{
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x50300, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x50304, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x50308, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x5030c, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x50310, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x50314, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x50318, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x5031c, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x50320, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x50324, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x50328, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x5032c, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x50330, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x50334, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x50338, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x5033c, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x50340, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x50344, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x50348, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x5034c, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x50350, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x50354, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x50358, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x5035c, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x50360, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x50364, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x50368, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x5036c, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x50370, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x50374, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x50378, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x5037c, 0x0);
}
static void mdp_load_pr_downscale_table_x_point4TOpoint6(void)
{
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x50280, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x50284, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x50288, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x5028c, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x50290, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x50294, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x50298, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x5029c, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x502a0, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x502a4, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x502a8, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x502ac, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x502b0, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x502b4, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x502b8, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x502bc, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x502c0, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x502c4, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x502c8, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x502cc, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x502d0, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x502d4, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x502d8, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x502dc, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x502e0, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x502e4, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x502e8, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x502ec, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x502f0, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x502f4, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x502f8, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x502fc, 0x0);
}
static void mdp_load_pr_downscale_table_y_point4TOpoint6(void)
{
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x50300, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x50304, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x50308, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x5030c, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x50310, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x50314, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x50318, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x5031c, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x50320, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x50324, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x50328, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x5032c, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x50330, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x50334, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x50338, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x5033c, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x50340, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x50344, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x50348, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x5034c, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x50350, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x50354, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x50358, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x5035c, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x50360, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x50364, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x50368, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x5036c, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x50370, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x50374, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x50378, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x5037c, 0x0);
}
static void mdp_load_pr_downscale_table_x_point6TOpoint8(void)
{
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x50280, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x50284, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x50288, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x5028c, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x50290, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x50294, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x50298, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x5029c, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x502a0, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x502a4, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x502a8, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x502ac, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x502b0, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x502b4, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x502b8, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x502bc, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x502c0, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x502c4, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x502c8, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x502cc, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x502d0, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x502d4, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x502d8, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x502dc, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x502e0, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x502e4, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x502e8, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x502ec, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x502f0, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x502f4, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x502f8, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x502fc, 0x0);
}
static void mdp_load_pr_downscale_table_y_point6TOpoint8(void)
{
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x50300, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x50304, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x50308, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x5030c, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x50310, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x50314, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x50318, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x5031c, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x50320, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x50324, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x50328, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x5032c, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x50330, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x50334, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x50338, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x5033c, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x50340, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x50344, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x50348, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x5034c, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x50350, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x50354, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x50358, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x5035c, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x50360, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x50364, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x50368, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x5036c, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x50370, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x50374, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x50378, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x5037c, 0x0);
}
static void mdp_load_pr_downscale_table_x_point8TO1(void)
{
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x50280, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x50284, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x50288, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x5028c, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x50290, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x50294, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x50298, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x5029c, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x502a0, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x502a4, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x502a8, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x502ac, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x502b0, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x502b4, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x502b8, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x502bc, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x502c0, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x502c4, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x502c8, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x502cc, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x502d0, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x502d4, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x502d8, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x502dc, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x502e0, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x502e4, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x502e8, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x502ec, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x502f0, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x502f4, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x502f8, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x502fc, 0x0);
}
static void mdp_load_pr_downscale_table_y_point8TO1(void)
{
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x50300, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x50304, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x50308, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x5030c, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x50310, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x50314, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x50318, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x5031c, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x50320, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x50324, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x50328, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x5032c, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x50330, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x50334, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x50338, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x5033c, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x50340, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x50344, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x50348, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x5034c, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x50350, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x50354, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x50358, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x5035c, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x50360, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x50364, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x50368, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x5036c, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x50370, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x50374, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x50378, 0x0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ff);
MDP_OUTP(MDP_BASE + 0x5037c, 0x0);
}
static void mdp_load_bc_upscale_table(void)
{
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x50200, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xff80000d);
MDP_OUTP(MDP_BASE + 0x50204, 0x7ec003f9);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xfec0001c);
MDP_OUTP(MDP_BASE + 0x50208, 0x7d4003f3);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xfe40002b);
MDP_OUTP(MDP_BASE + 0x5020c, 0x7b8003ed);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xfd80003c);
MDP_OUTP(MDP_BASE + 0x50210, 0x794003e8);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xfcc0004d);
MDP_OUTP(MDP_BASE + 0x50214, 0x76c003e4);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xfc40005f);
MDP_OUTP(MDP_BASE + 0x50218, 0x73c003e0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xfb800071);
MDP_OUTP(MDP_BASE + 0x5021c, 0x708003de);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xfac00085);
MDP_OUTP(MDP_BASE + 0x50220, 0x6d0003db);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xfa000098);
MDP_OUTP(MDP_BASE + 0x50224, 0x698003d9);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xf98000ac);
MDP_OUTP(MDP_BASE + 0x50228, 0x654003d8);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xf8c000c1);
MDP_OUTP(MDP_BASE + 0x5022c, 0x610003d7);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xf84000d5);
MDP_OUTP(MDP_BASE + 0x50230, 0x5c8003d7);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xf7c000e9);
MDP_OUTP(MDP_BASE + 0x50234, 0x580003d7);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xf74000fd);
MDP_OUTP(MDP_BASE + 0x50238, 0x534003d8);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xf6c00112);
MDP_OUTP(MDP_BASE + 0x5023c, 0x4e8003d8);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xf6800126);
MDP_OUTP(MDP_BASE + 0x50240, 0x494003da);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xf600013a);
MDP_OUTP(MDP_BASE + 0x50244, 0x448003db);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xf600014d);
MDP_OUTP(MDP_BASE + 0x50248, 0x3f4003dd);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xf5c00160);
MDP_OUTP(MDP_BASE + 0x5024c, 0x3a4003df);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xf5c00172);
MDP_OUTP(MDP_BASE + 0x50250, 0x354003e1);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xf5c00184);
MDP_OUTP(MDP_BASE + 0x50254, 0x304003e3);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xf6000195);
MDP_OUTP(MDP_BASE + 0x50258, 0x2b0003e6);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xf64001a6);
MDP_OUTP(MDP_BASE + 0x5025c, 0x260003e8);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xf6c001b4);
MDP_OUTP(MDP_BASE + 0x50260, 0x214003eb);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xf78001c2);
MDP_OUTP(MDP_BASE + 0x50264, 0x1c4003ee);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xf80001cf);
MDP_OUTP(MDP_BASE + 0x50268, 0x17c003f1);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xf90001db);
MDP_OUTP(MDP_BASE + 0x5026c, 0x134003f3);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xfa0001e5);
MDP_OUTP(MDP_BASE + 0x50270, 0xf0003f6);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xfb4001ee);
MDP_OUTP(MDP_BASE + 0x50274, 0xac003f9);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xfcc001f5);
MDP_OUTP(MDP_BASE + 0x50278, 0x70003fb);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xfe4001fb);
MDP_OUTP(MDP_BASE + 0x5027c, 0x34003fe);
}
static void mdp_load_bc_downscale_table_x_point2TOpoint4(void)
{
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ac00084);
MDP_OUTP(MDP_BASE + 0x50280, 0x23400083);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1b000084);
MDP_OUTP(MDP_BASE + 0x50284, 0x23000083);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1b400084);
MDP_OUTP(MDP_BASE + 0x50288, 0x23000082);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1b400085);
MDP_OUTP(MDP_BASE + 0x5028c, 0x23000081);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1b800085);
MDP_OUTP(MDP_BASE + 0x50290, 0x23000080);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1bc00086);
MDP_OUTP(MDP_BASE + 0x50294, 0x22c0007f);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1c000086);
MDP_OUTP(MDP_BASE + 0x50298, 0x2280007f);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1c400086);
MDP_OUTP(MDP_BASE + 0x5029c, 0x2280007e);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1c800086);
MDP_OUTP(MDP_BASE + 0x502a0, 0x2280007d);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1cc00086);
MDP_OUTP(MDP_BASE + 0x502a4, 0x2240007d);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1cc00087);
MDP_OUTP(MDP_BASE + 0x502a8, 0x2240007c);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1d000087);
MDP_OUTP(MDP_BASE + 0x502ac, 0x2240007b);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1d400087);
MDP_OUTP(MDP_BASE + 0x502b0, 0x2200007b);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1d400088);
MDP_OUTP(MDP_BASE + 0x502b4, 0x22400079);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1d800088);
MDP_OUTP(MDP_BASE + 0x502b8, 0x22400078);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1dc00088);
MDP_OUTP(MDP_BASE + 0x502bc, 0x22400077);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1dc00089);
MDP_OUTP(MDP_BASE + 0x502c0, 0x22000077);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1e000089);
MDP_OUTP(MDP_BASE + 0x502c4, 0x22000076);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1e400089);
MDP_OUTP(MDP_BASE + 0x502c8, 0x22000075);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ec00088);
MDP_OUTP(MDP_BASE + 0x502cc, 0x21c00075);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ec00089);
MDP_OUTP(MDP_BASE + 0x502d0, 0x21c00074);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1f000089);
MDP_OUTP(MDP_BASE + 0x502d4, 0x21c00073);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1f400089);
MDP_OUTP(MDP_BASE + 0x502d8, 0x21800073);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1f40008a);
MDP_OUTP(MDP_BASE + 0x502dc, 0x21800072);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1f80008a);
MDP_OUTP(MDP_BASE + 0x502e0, 0x21800071);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1fc0008a);
MDP_OUTP(MDP_BASE + 0x502e4, 0x21800070);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1fc0008b);
MDP_OUTP(MDP_BASE + 0x502e8, 0x2180006f);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x2000008c);
MDP_OUTP(MDP_BASE + 0x502ec, 0x2140006e);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x2040008c);
MDP_OUTP(MDP_BASE + 0x502f0, 0x2140006d);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x2080008c);
MDP_OUTP(MDP_BASE + 0x502f4, 0x2100006d);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x20c0008c);
MDP_OUTP(MDP_BASE + 0x502f8, 0x2100006c);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x20c0008d);
MDP_OUTP(MDP_BASE + 0x502fc, 0x2100006b);
}
static void mdp_load_bc_downscale_table_y_point2TOpoint4(void)
{
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ac00084);
MDP_OUTP(MDP_BASE + 0x50300, 0x23400083);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1b000084);
MDP_OUTP(MDP_BASE + 0x50304, 0x23000083);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1b400084);
MDP_OUTP(MDP_BASE + 0x50308, 0x23000082);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1b400085);
MDP_OUTP(MDP_BASE + 0x5030c, 0x23000081);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1b800085);
MDP_OUTP(MDP_BASE + 0x50310, 0x23000080);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1bc00086);
MDP_OUTP(MDP_BASE + 0x50314, 0x22c0007f);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1c000086);
MDP_OUTP(MDP_BASE + 0x50318, 0x2280007f);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1c400086);
MDP_OUTP(MDP_BASE + 0x5031c, 0x2280007e);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1c800086);
MDP_OUTP(MDP_BASE + 0x50320, 0x2280007d);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1cc00086);
MDP_OUTP(MDP_BASE + 0x50324, 0x2240007d);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1cc00087);
MDP_OUTP(MDP_BASE + 0x50328, 0x2240007c);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1d000087);
MDP_OUTP(MDP_BASE + 0x5032c, 0x2240007b);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1d400087);
MDP_OUTP(MDP_BASE + 0x50330, 0x2200007b);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1d400088);
MDP_OUTP(MDP_BASE + 0x50334, 0x22400079);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1d800088);
MDP_OUTP(MDP_BASE + 0x50338, 0x22400078);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1dc00088);
MDP_OUTP(MDP_BASE + 0x5033c, 0x22400077);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1dc00089);
MDP_OUTP(MDP_BASE + 0x50340, 0x22000077);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1e000089);
MDP_OUTP(MDP_BASE + 0x50344, 0x22000076);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1e400089);
MDP_OUTP(MDP_BASE + 0x50348, 0x22000075);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ec00088);
MDP_OUTP(MDP_BASE + 0x5034c, 0x21c00075);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ec00089);
MDP_OUTP(MDP_BASE + 0x50350, 0x21c00074);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1f000089);
MDP_OUTP(MDP_BASE + 0x50354, 0x21c00073);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1f400089);
MDP_OUTP(MDP_BASE + 0x50358, 0x21800073);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1f40008a);
MDP_OUTP(MDP_BASE + 0x5035c, 0x21800072);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1f80008a);
MDP_OUTP(MDP_BASE + 0x50360, 0x21800071);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1fc0008a);
MDP_OUTP(MDP_BASE + 0x50364, 0x21800070);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1fc0008b);
MDP_OUTP(MDP_BASE + 0x50368, 0x2180006f);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x2000008c);
MDP_OUTP(MDP_BASE + 0x5036c, 0x2140006e);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x2040008c);
MDP_OUTP(MDP_BASE + 0x50370, 0x2140006d);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x2080008c);
MDP_OUTP(MDP_BASE + 0x50374, 0x2100006d);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x20c0008c);
MDP_OUTP(MDP_BASE + 0x50378, 0x2100006c);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x20c0008d);
MDP_OUTP(MDP_BASE + 0x5037c, 0x2100006b);
}
static void mdp_load_bc_downscale_table_x_point4TOpoint6(void)
{
MDP_OUTP(MDP_BASE + 0x5fffc, 0x740008c);
MDP_OUTP(MDP_BASE + 0x50280, 0x33800088);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x800008e);
MDP_OUTP(MDP_BASE + 0x50284, 0x33400084);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x8400092);
MDP_OUTP(MDP_BASE + 0x50288, 0x33000080);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x9000094);
MDP_OUTP(MDP_BASE + 0x5028c, 0x3300007b);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x9c00098);
MDP_OUTP(MDP_BASE + 0x50290, 0x32400077);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xa40009b);
MDP_OUTP(MDP_BASE + 0x50294, 0x32000073);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xb00009d);
MDP_OUTP(MDP_BASE + 0x50298, 0x31c0006f);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xbc000a0);
MDP_OUTP(MDP_BASE + 0x5029c, 0x3140006b);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xc8000a2);
MDP_OUTP(MDP_BASE + 0x502a0, 0x31000067);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xd8000a5);
MDP_OUTP(MDP_BASE + 0x502a4, 0x30800062);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xe4000a8);
MDP_OUTP(MDP_BASE + 0x502a8, 0x2fc0005f);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xec000aa);
MDP_OUTP(MDP_BASE + 0x502ac, 0x2fc0005b);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xf8000ad);
MDP_OUTP(MDP_BASE + 0x502b0, 0x2f400057);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x108000b0);
MDP_OUTP(MDP_BASE + 0x502b4, 0x2e400054);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x114000b2);
MDP_OUTP(MDP_BASE + 0x502b8, 0x2e000050);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x124000b4);
MDP_OUTP(MDP_BASE + 0x502bc, 0x2d80004c);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x130000b6);
MDP_OUTP(MDP_BASE + 0x502c0, 0x2d000049);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x140000b8);
MDP_OUTP(MDP_BASE + 0x502c4, 0x2c800045);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x150000b9);
MDP_OUTP(MDP_BASE + 0x502c8, 0x2c000042);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x15c000bd);
MDP_OUTP(MDP_BASE + 0x502cc, 0x2b40003e);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x16c000bf);
MDP_OUTP(MDP_BASE + 0x502d0, 0x2a80003b);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x17c000bf);
MDP_OUTP(MDP_BASE + 0x502d4, 0x2a000039);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x188000c2);
MDP_OUTP(MDP_BASE + 0x502d8, 0x29400036);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x19c000c4);
MDP_OUTP(MDP_BASE + 0x502dc, 0x28800032);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ac000c5);
MDP_OUTP(MDP_BASE + 0x502e0, 0x2800002f);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1bc000c7);
MDP_OUTP(MDP_BASE + 0x502e4, 0x2740002c);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1cc000c8);
MDP_OUTP(MDP_BASE + 0x502e8, 0x26c00029);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1dc000c9);
MDP_OUTP(MDP_BASE + 0x502ec, 0x26000027);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ec000cc);
MDP_OUTP(MDP_BASE + 0x502f0, 0x25000024);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x200000cc);
MDP_OUTP(MDP_BASE + 0x502f4, 0x24800021);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x210000cd);
MDP_OUTP(MDP_BASE + 0x502f8, 0x23800020);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x220000ce);
MDP_OUTP(MDP_BASE + 0x502fc, 0x2300001d);
}
static void mdp_load_bc_downscale_table_y_point4TOpoint6(void)
{
MDP_OUTP(MDP_BASE + 0x5fffc, 0x740008c);
MDP_OUTP(MDP_BASE + 0x50300, 0x33800088);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x800008e);
MDP_OUTP(MDP_BASE + 0x50304, 0x33400084);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x8400092);
MDP_OUTP(MDP_BASE + 0x50308, 0x33000080);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x9000094);
MDP_OUTP(MDP_BASE + 0x5030c, 0x3300007b);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x9c00098);
MDP_OUTP(MDP_BASE + 0x50310, 0x32400077);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xa40009b);
MDP_OUTP(MDP_BASE + 0x50314, 0x32000073);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xb00009d);
MDP_OUTP(MDP_BASE + 0x50318, 0x31c0006f);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xbc000a0);
MDP_OUTP(MDP_BASE + 0x5031c, 0x3140006b);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xc8000a2);
MDP_OUTP(MDP_BASE + 0x50320, 0x31000067);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xd8000a5);
MDP_OUTP(MDP_BASE + 0x50324, 0x30800062);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xe4000a8);
MDP_OUTP(MDP_BASE + 0x50328, 0x2fc0005f);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xec000aa);
MDP_OUTP(MDP_BASE + 0x5032c, 0x2fc0005b);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xf8000ad);
MDP_OUTP(MDP_BASE + 0x50330, 0x2f400057);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x108000b0);
MDP_OUTP(MDP_BASE + 0x50334, 0x2e400054);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x114000b2);
MDP_OUTP(MDP_BASE + 0x50338, 0x2e000050);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x124000b4);
MDP_OUTP(MDP_BASE + 0x5033c, 0x2d80004c);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x130000b6);
MDP_OUTP(MDP_BASE + 0x50340, 0x2d000049);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x140000b8);
MDP_OUTP(MDP_BASE + 0x50344, 0x2c800045);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x150000b9);
MDP_OUTP(MDP_BASE + 0x50348, 0x2c000042);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x15c000bd);
MDP_OUTP(MDP_BASE + 0x5034c, 0x2b40003e);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x16c000bf);
MDP_OUTP(MDP_BASE + 0x50350, 0x2a80003b);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x17c000bf);
MDP_OUTP(MDP_BASE + 0x50354, 0x2a000039);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x188000c2);
MDP_OUTP(MDP_BASE + 0x50358, 0x29400036);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x19c000c4);
MDP_OUTP(MDP_BASE + 0x5035c, 0x28800032);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ac000c5);
MDP_OUTP(MDP_BASE + 0x50360, 0x2800002f);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1bc000c7);
MDP_OUTP(MDP_BASE + 0x50364, 0x2740002c);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1cc000c8);
MDP_OUTP(MDP_BASE + 0x50368, 0x26c00029);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1dc000c9);
MDP_OUTP(MDP_BASE + 0x5036c, 0x26000027);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1ec000cc);
MDP_OUTP(MDP_BASE + 0x50370, 0x25000024);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x200000cc);
MDP_OUTP(MDP_BASE + 0x50374, 0x24800021);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x210000cd);
MDP_OUTP(MDP_BASE + 0x50378, 0x23800020);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x220000ce);
MDP_OUTP(MDP_BASE + 0x5037c, 0x2300001d);
}
static void mdp_load_bc_downscale_table_x_point6TOpoint8(void)
{
MDP_OUTP(MDP_BASE + 0x5fffc, 0xfe000070);
MDP_OUTP(MDP_BASE + 0x50280, 0x4bc00068);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xfe000078);
MDP_OUTP(MDP_BASE + 0x50284, 0x4bc00060);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xfe000080);
MDP_OUTP(MDP_BASE + 0x50288, 0x4b800059);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xfe000089);
MDP_OUTP(MDP_BASE + 0x5028c, 0x4b000052);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xfe400091);
MDP_OUTP(MDP_BASE + 0x50290, 0x4a80004b);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xfe40009a);
MDP_OUTP(MDP_BASE + 0x50294, 0x4a000044);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xfe8000a3);
MDP_OUTP(MDP_BASE + 0x50298, 0x4940003d);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xfec000ac);
MDP_OUTP(MDP_BASE + 0x5029c, 0x48400037);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xff0000b4);
MDP_OUTP(MDP_BASE + 0x502a0, 0x47800031);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xff8000bd);
MDP_OUTP(MDP_BASE + 0x502a4, 0x4640002b);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xc5);
MDP_OUTP(MDP_BASE + 0x502a8, 0x45000026);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x8000ce);
MDP_OUTP(MDP_BASE + 0x502ac, 0x43800021);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x10000d6);
MDP_OUTP(MDP_BASE + 0x502b0, 0x4240001c);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x18000df);
MDP_OUTP(MDP_BASE + 0x502b4, 0x40800018);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x24000e6);
MDP_OUTP(MDP_BASE + 0x502b8, 0x3f000014);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x30000ee);
MDP_OUTP(MDP_BASE + 0x502bc, 0x3d400010);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x40000f5);
MDP_OUTP(MDP_BASE + 0x502c0, 0x3b80000c);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x50000fc);
MDP_OUTP(MDP_BASE + 0x502c4, 0x39800009);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x6000102);
MDP_OUTP(MDP_BASE + 0x502c8, 0x37c00006);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x7000109);
MDP_OUTP(MDP_BASE + 0x502cc, 0x35800004);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x840010e);
MDP_OUTP(MDP_BASE + 0x502d0, 0x33800002);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x9800114);
MDP_OUTP(MDP_BASE + 0x502d4, 0x31400000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xac00119);
MDP_OUTP(MDP_BASE + 0x502d8, 0x2f4003fe);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xc40011e);
MDP_OUTP(MDP_BASE + 0x502dc, 0x2d0003fc);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xdc00121);
MDP_OUTP(MDP_BASE + 0x502e0, 0x2b0003fb);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xf400125);
MDP_OUTP(MDP_BASE + 0x502e4, 0x28c003fa);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x11000128);
MDP_OUTP(MDP_BASE + 0x502e8, 0x268003f9);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x12c0012a);
MDP_OUTP(MDP_BASE + 0x502ec, 0x244003f9);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1480012c);
MDP_OUTP(MDP_BASE + 0x502f0, 0x224003f8);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1640012e);
MDP_OUTP(MDP_BASE + 0x502f4, 0x200003f8);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1800012f);
MDP_OUTP(MDP_BASE + 0x502f8, 0x1e0003f8);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1a00012f);
MDP_OUTP(MDP_BASE + 0x502fc, 0x1c0003f8);
}
static void mdp_load_bc_downscale_table_y_point6TOpoint8(void)
{
MDP_OUTP(MDP_BASE + 0x5fffc, 0xfe000070);
MDP_OUTP(MDP_BASE + 0x50300, 0x4bc00068);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xfe000078);
MDP_OUTP(MDP_BASE + 0x50304, 0x4bc00060);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xfe000080);
MDP_OUTP(MDP_BASE + 0x50308, 0x4b800059);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xfe000089);
MDP_OUTP(MDP_BASE + 0x5030c, 0x4b000052);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xfe400091);
MDP_OUTP(MDP_BASE + 0x50310, 0x4a80004b);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xfe40009a);
MDP_OUTP(MDP_BASE + 0x50314, 0x4a000044);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xfe8000a3);
MDP_OUTP(MDP_BASE + 0x50318, 0x4940003d);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xfec000ac);
MDP_OUTP(MDP_BASE + 0x5031c, 0x48400037);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xff0000b4);
MDP_OUTP(MDP_BASE + 0x50320, 0x47800031);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xff8000bd);
MDP_OUTP(MDP_BASE + 0x50324, 0x4640002b);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xc5);
MDP_OUTP(MDP_BASE + 0x50328, 0x45000026);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x8000ce);
MDP_OUTP(MDP_BASE + 0x5032c, 0x43800021);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x10000d6);
MDP_OUTP(MDP_BASE + 0x50330, 0x4240001c);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x18000df);
MDP_OUTP(MDP_BASE + 0x50334, 0x40800018);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x24000e6);
MDP_OUTP(MDP_BASE + 0x50338, 0x3f000014);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x30000ee);
MDP_OUTP(MDP_BASE + 0x5033c, 0x3d400010);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x40000f5);
MDP_OUTP(MDP_BASE + 0x50340, 0x3b80000c);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x50000fc);
MDP_OUTP(MDP_BASE + 0x50344, 0x39800009);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x6000102);
MDP_OUTP(MDP_BASE + 0x50348, 0x37c00006);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x7000109);
MDP_OUTP(MDP_BASE + 0x5034c, 0x35800004);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x840010e);
MDP_OUTP(MDP_BASE + 0x50350, 0x33800002);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x9800114);
MDP_OUTP(MDP_BASE + 0x50354, 0x31400000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xac00119);
MDP_OUTP(MDP_BASE + 0x50358, 0x2f4003fe);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xc40011e);
MDP_OUTP(MDP_BASE + 0x5035c, 0x2d0003fc);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xdc00121);
MDP_OUTP(MDP_BASE + 0x50360, 0x2b0003fb);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xf400125);
MDP_OUTP(MDP_BASE + 0x50364, 0x28c003fa);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x11000128);
MDP_OUTP(MDP_BASE + 0x50368, 0x268003f9);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x12c0012a);
MDP_OUTP(MDP_BASE + 0x5036c, 0x244003f9);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1480012c);
MDP_OUTP(MDP_BASE + 0x50370, 0x224003f8);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1640012e);
MDP_OUTP(MDP_BASE + 0x50374, 0x200003f8);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1800012f);
MDP_OUTP(MDP_BASE + 0x50378, 0x1e0003f8);
MDP_OUTP(MDP_BASE + 0x5fffc, 0x1a00012f);
MDP_OUTP(MDP_BASE + 0x5037c, 0x1c0003f8);
}
static void mdp_load_bc_downscale_table_x_point8TO1(void)
{
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x50280, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xff80000d);
MDP_OUTP(MDP_BASE + 0x50284, 0x7ec003f9);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xfec0001c);
MDP_OUTP(MDP_BASE + 0x50288, 0x7d4003f3);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xfe40002b);
MDP_OUTP(MDP_BASE + 0x5028c, 0x7b8003ed);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xfd80003c);
MDP_OUTP(MDP_BASE + 0x50290, 0x794003e8);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xfcc0004d);
MDP_OUTP(MDP_BASE + 0x50294, 0x76c003e4);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xfc40005f);
MDP_OUTP(MDP_BASE + 0x50298, 0x73c003e0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xfb800071);
MDP_OUTP(MDP_BASE + 0x5029c, 0x708003de);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xfac00085);
MDP_OUTP(MDP_BASE + 0x502a0, 0x6d0003db);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xfa000098);
MDP_OUTP(MDP_BASE + 0x502a4, 0x698003d9);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xf98000ac);
MDP_OUTP(MDP_BASE + 0x502a8, 0x654003d8);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xf8c000c1);
MDP_OUTP(MDP_BASE + 0x502ac, 0x610003d7);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xf84000d5);
MDP_OUTP(MDP_BASE + 0x502b0, 0x5c8003d7);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xf7c000e9);
MDP_OUTP(MDP_BASE + 0x502b4, 0x580003d7);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xf74000fd);
MDP_OUTP(MDP_BASE + 0x502b8, 0x534003d8);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xf6c00112);
MDP_OUTP(MDP_BASE + 0x502bc, 0x4e8003d8);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xf6800126);
MDP_OUTP(MDP_BASE + 0x502c0, 0x494003da);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xf600013a);
MDP_OUTP(MDP_BASE + 0x502c4, 0x448003db);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xf600014d);
MDP_OUTP(MDP_BASE + 0x502c8, 0x3f4003dd);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xf5c00160);
MDP_OUTP(MDP_BASE + 0x502cc, 0x3a4003df);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xf5c00172);
MDP_OUTP(MDP_BASE + 0x502d0, 0x354003e1);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xf5c00184);
MDP_OUTP(MDP_BASE + 0x502d4, 0x304003e3);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xf6000195);
MDP_OUTP(MDP_BASE + 0x502d8, 0x2b0003e6);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xf64001a6);
MDP_OUTP(MDP_BASE + 0x502dc, 0x260003e8);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xf6c001b4);
MDP_OUTP(MDP_BASE + 0x502e0, 0x214003eb);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xf78001c2);
MDP_OUTP(MDP_BASE + 0x502e4, 0x1c4003ee);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xf80001cf);
MDP_OUTP(MDP_BASE + 0x502e8, 0x17c003f1);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xf90001db);
MDP_OUTP(MDP_BASE + 0x502ec, 0x134003f3);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xfa0001e5);
MDP_OUTP(MDP_BASE + 0x502f0, 0xf0003f6);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xfb4001ee);
MDP_OUTP(MDP_BASE + 0x502f4, 0xac003f9);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xfcc001f5);
MDP_OUTP(MDP_BASE + 0x502f8, 0x70003fb);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xfe4001fb);
MDP_OUTP(MDP_BASE + 0x502fc, 0x34003fe);
}
static void mdp_load_bc_downscale_table_y_point8TO1(void)
{
MDP_OUTP(MDP_BASE + 0x5fffc, 0x0);
MDP_OUTP(MDP_BASE + 0x50300, 0x7fc00000);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xff80000d);
MDP_OUTP(MDP_BASE + 0x50304, 0x7ec003f9);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xfec0001c);
MDP_OUTP(MDP_BASE + 0x50308, 0x7d4003f3);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xfe40002b);
MDP_OUTP(MDP_BASE + 0x5030c, 0x7b8003ed);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xfd80003c);
MDP_OUTP(MDP_BASE + 0x50310, 0x794003e8);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xfcc0004d);
MDP_OUTP(MDP_BASE + 0x50314, 0x76c003e4);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xfc40005f);
MDP_OUTP(MDP_BASE + 0x50318, 0x73c003e0);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xfb800071);
MDP_OUTP(MDP_BASE + 0x5031c, 0x708003de);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xfac00085);
MDP_OUTP(MDP_BASE + 0x50320, 0x6d0003db);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xfa000098);
MDP_OUTP(MDP_BASE + 0x50324, 0x698003d9);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xf98000ac);
MDP_OUTP(MDP_BASE + 0x50328, 0x654003d8);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xf8c000c1);
MDP_OUTP(MDP_BASE + 0x5032c, 0x610003d7);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xf84000d5);
MDP_OUTP(MDP_BASE + 0x50330, 0x5c8003d7);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xf7c000e9);
MDP_OUTP(MDP_BASE + 0x50334, 0x580003d7);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xf74000fd);
MDP_OUTP(MDP_BASE + 0x50338, 0x534003d8);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xf6c00112);
MDP_OUTP(MDP_BASE + 0x5033c, 0x4e8003d8);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xf6800126);
MDP_OUTP(MDP_BASE + 0x50340, 0x494003da);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xf600013a);
MDP_OUTP(MDP_BASE + 0x50344, 0x448003db);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xf600014d);
MDP_OUTP(MDP_BASE + 0x50348, 0x3f4003dd);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xf5c00160);
MDP_OUTP(MDP_BASE + 0x5034c, 0x3a4003df);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xf5c00172);
MDP_OUTP(MDP_BASE + 0x50350, 0x354003e1);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xf5c00184);
MDP_OUTP(MDP_BASE + 0x50354, 0x304003e3);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xf6000195);
MDP_OUTP(MDP_BASE + 0x50358, 0x2b0003e6);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xf64001a6);
MDP_OUTP(MDP_BASE + 0x5035c, 0x260003e8);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xf6c001b4);
MDP_OUTP(MDP_BASE + 0x50360, 0x214003eb);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xf78001c2);
MDP_OUTP(MDP_BASE + 0x50364, 0x1c4003ee);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xf80001cf);
MDP_OUTP(MDP_BASE + 0x50368, 0x17c003f1);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xf90001db);
MDP_OUTP(MDP_BASE + 0x5036c, 0x134003f3);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xfa0001e5);
MDP_OUTP(MDP_BASE + 0x50370, 0xf0003f6);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xfb4001ee);
MDP_OUTP(MDP_BASE + 0x50374, 0xac003f9);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xfcc001f5);
MDP_OUTP(MDP_BASE + 0x50378, 0x70003fb);
MDP_OUTP(MDP_BASE + 0x5fffc, 0xfe4001fb);
MDP_OUTP(MDP_BASE + 0x5037c, 0x34003fe);
}
static int mdp_get_edge_cond(MDPIBUF *iBuf, uint32 *dup, uint32 *dup2)
{
uint32 reg;
uint32 dst_roi_width; /* Dimensions of DST ROI. */
uint32 dst_roi_height; /* Used to calculate scaling ratios. */
/*
* positions of the luma pixel(relative to the image ) required for
* scaling the ROI
*/
int32 luma_interp_point_left = 0; /* left-most luma pixel needed */
int32 luma_interp_point_right = 0; /* right-most luma pixel needed */
int32 luma_interp_point_top = 0; /* top-most luma pixel needed */
int32 luma_interp_point_bottom = 0; /* bottom-most luma pixel needed */
/*
* positions of the chroma pixel(relative to the image ) required for
* interpolating a chroma value at all required luma positions
*/
/* left-most chroma pixel needed */
int32 chroma_interp_point_left = 0;
/* right-most chroma pixel needed */
int32 chroma_interp_point_right = 0;
/* top-most chroma pixel needed */
int32 chroma_interp_point_top = 0;
/* bottom-most chroma pixel needed */
int32 chroma_interp_point_bottom = 0;
/*
* a rectangular region within the chroma plane of the "image".
* Chroma pixels falling inside of this rectangle belongs to the ROI
*/
int32 chroma_bound_left = 0;
int32 chroma_bound_right = 0;
int32 chroma_bound_top = 0;
int32 chroma_bound_bottom = 0;
/*
* number of chroma pixels to replicate on the left, right,
* top and bottom edge of the ROI.
*/
int32 chroma_repeat_left = 0;
int32 chroma_repeat_right = 0;
int32 chroma_repeat_top = 0;
int32 chroma_repeat_bottom = 0;
/*
* number of luma pixels to replicate on the left, right,
* top and bottom edge of the ROI.
*/
int32 luma_repeat_left = 0;
int32 luma_repeat_right = 0;
int32 luma_repeat_top = 0;
int32 luma_repeat_bottom = 0;
boolean chroma_edge_enable;
uint32 _is_scale_enabled = 0;
uint32 _is_yuv_offsite_vertical = 0;
/* fg edge duplicate */
reg = 0x0;
if (iBuf->mdpImg.mdpOp & MDPOP_ASCALE) { /* if scaling enabled */
_is_scale_enabled = 1;
/*
* if rotation mode involves a 90 deg rotation, flip
* dst_roi_width with dst_roi_height.
* Scaling ratios is based on source ROI dimensions, and
* dst ROI dimensions before rotation.
*/
if (iBuf->mdpImg.mdpOp & MDPOP_ROT90) {
dst_roi_width = iBuf->roi.dst_height;
dst_roi_height = iBuf->roi.dst_width;
} else {
dst_roi_width = iBuf->roi.dst_width;
dst_roi_height = iBuf->roi.dst_height;
}
/*
* Find out the luma pixels needed for scaling in the
* x direction (LEFT and RIGHT). Locations of pixels are
* relative to the ROI. Upper-left corner of ROI corresponds
* to coordinates (0,0). Also set the number of luma pixel
* to repeat.
*/
if (iBuf->roi.width > 3 * dst_roi_width) {
/* scale factor < 1/3 */
luma_interp_point_left = 0;
luma_interp_point_right = (iBuf->roi.width - 1);
luma_repeat_left = 0;
luma_repeat_right = 0;
} else if (iBuf->roi.width == 3 * dst_roi_width) {
/* scale factor == 1/3 */
luma_interp_point_left = 0;
luma_interp_point_right = (iBuf->roi.width - 1) + 1;
luma_repeat_left = 0;
luma_repeat_right = 1;
} else if ((iBuf->roi.width > dst_roi_width) &&
(iBuf->roi.width < 3 * dst_roi_width)) {
/* 1/3 < scale factor < 1 */
luma_interp_point_left = -1;
luma_interp_point_right = (iBuf->roi.width - 1) + 1;
luma_repeat_left = 1;
luma_repeat_right = 1;
}
else if (iBuf->roi.width == dst_roi_width) {
/* scale factor == 1 */
luma_interp_point_left = -1;
luma_interp_point_right = (iBuf->roi.width - 1) + 2;
luma_repeat_left = 1;
luma_repeat_right = 2;
} else { /* (iBuf->roi.width < dst_roi_width) */
/* scale factor > 1 */
luma_interp_point_left = -2;
luma_interp_point_right = (iBuf->roi.width - 1) + 2;
luma_repeat_left = 2;
luma_repeat_right = 2;
}
/*
* Find out the number of pixels needed for scaling in the
* y direction (TOP and BOTTOM). Locations of pixels are
* relative to the ROI. Upper-left corner of ROI corresponds
* to coordinates (0,0). Also set the number of luma pixel
* to repeat.
*/
if (iBuf->roi.height > 3 * dst_roi_height) {
/* scale factor < 1/3 */
luma_interp_point_top = 0;
luma_interp_point_bottom = (iBuf->roi.height - 1);
luma_repeat_top = 0;
luma_repeat_bottom = 0;
} else if (iBuf->roi.height == 3 * dst_roi_height) {
/* scale factor == 1/3 */
luma_interp_point_top = 0;
luma_interp_point_bottom = (iBuf->roi.height - 1) + 1;
luma_repeat_top = 0;
luma_repeat_bottom = 1;
} else if ((iBuf->roi.height > dst_roi_height) &&
(iBuf->roi.height < 3 * dst_roi_height)) {
/* 1/3 < scale factor < 1 */
luma_interp_point_top = -1;
luma_interp_point_bottom = (iBuf->roi.height - 1) + 1;
luma_repeat_top = 1;
luma_repeat_bottom = 1;
} else if (iBuf->roi.height == dst_roi_height) {
/* scale factor == 1 */
luma_interp_point_top = -1;
luma_interp_point_bottom = (iBuf->roi.height - 1) + 2;
luma_repeat_top = 1;
luma_repeat_bottom = 2;
} else { /* (iBuf->roi.height < dst_roi_height) */
/* scale factor > 1 */
luma_interp_point_top = -2;
luma_interp_point_bottom = (iBuf->roi.height - 1) + 2;
luma_repeat_top = 2;
luma_repeat_bottom = 2;
}
} /* if (iBuf->scale.scale_flag) */
else { /* scaling disabled */
/*
* Since no scaling needed, Tile Fetch does not require any
* more luma pixel than what the ROI contains.
*/
luma_interp_point_left = (int32) 0;
luma_interp_point_right = (int32) (iBuf->roi.width - 1);
luma_interp_point_top = (int32) 0;
luma_interp_point_bottom = (int32) (iBuf->roi.height - 1);
luma_repeat_left = 0;
luma_repeat_right = 0;
luma_repeat_top = 0;
luma_repeat_bottom = 0;
}
/* After adding the ROI offsets, we have locations of
* luma_interp_points relative to the image.
*/
luma_interp_point_left += (int32) (iBuf->roi.x);
luma_interp_point_right += (int32) (iBuf->roi.x);
luma_interp_point_top += (int32) (iBuf->roi.y);
luma_interp_point_bottom += (int32) (iBuf->roi.y);
/*
* After adding the ROI offsets, we have locations of
* chroma_interp_points relative to the image.
*/
chroma_interp_point_left = luma_interp_point_left;
chroma_interp_point_right = luma_interp_point_right;
chroma_interp_point_top = luma_interp_point_top;
chroma_interp_point_bottom = luma_interp_point_bottom;
chroma_edge_enable = TRUE;
/* find out which chroma pixels are needed for chroma upsampling. */
switch (iBuf->mdpImg.imgType) {
/*
* cosite in horizontal axis
* fully sampled in vertical axis
*/
case MDP_Y_CBCR_H2V1:
case MDP_Y_CRCB_H2V1:
case MDP_YCRYCB_H2V1:
/* floor( luma_interp_point_left / 2 ); */
chroma_interp_point_left = luma_interp_point_left >> 1;
/* floor( ( luma_interp_point_right + 1 ) / 2 ); */
chroma_interp_point_right = (luma_interp_point_right + 1) >> 1;
chroma_interp_point_top = luma_interp_point_top;
chroma_interp_point_bottom = luma_interp_point_bottom;
break;
/*
* cosite in horizontal axis
* offsite in vertical axis
*/
case MDP_Y_CBCR_H2V2:
case MDP_Y_CRCB_H2V2:
/* floor( luma_interp_point_left / 2) */
chroma_interp_point_left = luma_interp_point_left >> 1;
/* floor( ( luma_interp_point_right + 1 )/ 2 ) */
chroma_interp_point_right = (luma_interp_point_right + 1) >> 1;
/* floor( (luma_interp_point_top - 1 ) / 2 ) */
chroma_interp_point_top = (luma_interp_point_top - 1) >> 1;
/* floor( ( luma_interp_point_bottom + 1 ) / 2 ) */
chroma_interp_point_bottom =
(luma_interp_point_bottom + 1) >> 1;
_is_yuv_offsite_vertical = 1;
break;
default:
chroma_edge_enable = FALSE;
chroma_interp_point_left = luma_interp_point_left;
chroma_interp_point_right = luma_interp_point_right;
chroma_interp_point_top = luma_interp_point_top;
chroma_interp_point_bottom = luma_interp_point_bottom;
break;
}
/* only if the image type is in YUV domain, we calculate chroma edge */
if (chroma_edge_enable) {
/* Defines which chroma pixels belongs to the roi */
switch (iBuf->mdpImg.imgType) {
/*
* Cosite in horizontal direction, and fully sampled
* in vertical direction.
*/
case MDP_Y_CBCR_H2V1:
case MDP_Y_CRCB_H2V1:
case MDP_YCRYCB_H2V1:
/*
* width of chroma ROI is 1/2 of size of luma ROI
* height of chroma ROI same as size of luma ROI
*/
chroma_bound_left = iBuf->roi.x / 2;
/* there are half as many chroma pixel as luma pixels */
chroma_bound_right =
(iBuf->roi.width + iBuf->roi.x - 1) / 2;
chroma_bound_top = iBuf->roi.y;
chroma_bound_bottom =
(iBuf->roi.height + iBuf->roi.y - 1);
break;
case MDP_Y_CBCR_H2V2:
case MDP_Y_CRCB_H2V2:
/*
* cosite in horizontal dir, and offsite in vertical dir
* width of chroma ROI is 1/2 of size of luma ROI
* height of chroma ROI is 1/2 of size of luma ROI
*/
chroma_bound_left = iBuf->roi.x / 2;
chroma_bound_right =
(iBuf->roi.width + iBuf->roi.x - 1) / 2;
chroma_bound_top = iBuf->roi.y / 2;
chroma_bound_bottom =
(iBuf->roi.height + iBuf->roi.y - 1) / 2;
break;
default:
/*
* If no valid chroma sub-sampling format specified,
* assume 4:4:4 ( i.e. fully sampled). Set ROI
* boundaries for chroma same as ROI boundaries for
* luma.
*/
chroma_bound_left = iBuf->roi.x;
chroma_bound_right = iBuf->roi.width + iBuf->roi.x - 1;
chroma_bound_top = iBuf->roi.y;
chroma_bound_bottom =
(iBuf->roi.height + iBuf->roi.y - 1);
break;
}
/*
* Knowing which chroma pixels are needed, and which chroma
* pixels belong to the ROI (i.e. available for fetching ),
* calculate how many chroma pixels Tile Fetch needs to
* duplicate. If any required chroma pixels falls outside
* of the ROI, Tile Fetch must obtain them by replicating
* pixels.
*/
if (chroma_bound_left > chroma_interp_point_left)
chroma_repeat_left =
chroma_bound_left - chroma_interp_point_left;
else
chroma_repeat_left = 0;
if (chroma_interp_point_right > chroma_bound_right)
chroma_repeat_right =
chroma_interp_point_right - chroma_bound_right;
else
chroma_repeat_right = 0;
if (chroma_bound_top > chroma_interp_point_top)
chroma_repeat_top =
chroma_bound_top - chroma_interp_point_top;
else
chroma_repeat_top = 0;
if (chroma_interp_point_bottom > chroma_bound_bottom)
chroma_repeat_bottom =
chroma_interp_point_bottom - chroma_bound_bottom;
else
chroma_repeat_bottom = 0;
if (_is_scale_enabled && (iBuf->roi.height == 1)
&& _is_yuv_offsite_vertical) {
chroma_repeat_bottom = 3;
chroma_repeat_top = 0;
}
}
/* make sure chroma repeats are non-negative */
if ((chroma_repeat_left < 0) || (chroma_repeat_right < 0) ||
(chroma_repeat_top < 0) || (chroma_repeat_bottom < 0))
return -1;
/* make sure chroma repeats are no larger than 3 pixels */
if ((chroma_repeat_left > 3) || (chroma_repeat_right > 3) ||
(chroma_repeat_top > 3) || (chroma_repeat_bottom > 3))
return -1;
/* make sure luma repeats are non-negative */
if ((luma_repeat_left < 0) || (luma_repeat_right < 0) ||
(luma_repeat_top < 0) || (luma_repeat_bottom < 0))
return -1;
/* make sure luma repeats are no larger than 3 pixels */
if ((luma_repeat_left > 3) || (luma_repeat_right > 3) ||
(luma_repeat_top > 3) || (luma_repeat_bottom > 3))
return -1;
/* write chroma_repeat_left to register */
reg |= (chroma_repeat_left & 3) << MDP_LEFT_CHROMA;
/* write chroma_repeat_right to register */
reg |= (chroma_repeat_right & 3) << MDP_RIGHT_CHROMA;
/* write chroma_repeat_top to register */
reg |= (chroma_repeat_top & 3) << MDP_TOP_CHROMA;
/* write chroma_repeat_bottom to register */
reg |= (chroma_repeat_bottom & 3) << MDP_BOTTOM_CHROMA;
/* write luma_repeat_left to register */
reg |= (luma_repeat_left & 3) << MDP_LEFT_LUMA;
/* write luma_repeat_right to register */
reg |= (luma_repeat_right & 3) << MDP_RIGHT_LUMA;
/* write luma_repeat_top to register */
reg |= (luma_repeat_top & 3) << MDP_TOP_LUMA;
/* write luma_repeat_bottom to register */
reg |= (luma_repeat_bottom & 3) << MDP_BOTTOM_LUMA;
/* done with reg */
*dup = reg;
/* bg edge duplicate */
reg = 0x0;
switch (iBuf->ibuf_type) {
case MDP_Y_CBCR_H2V2:
case MDP_Y_CRCB_H2V2:
/*
* Edge condition for MDP_Y_CRCB/CBCR_H2V2 cosite only.
* For 420 cosite, 1 chroma replicated on all sides except
* left, so reg 101b8 should be 0x0209. For 420 offsite,
* 1 chroma replicated all sides.
*/
if (iBuf->roi.lcd_y == 0) {
reg |= BIT(MDP_TOP_CHROMA);
}
if ((iBuf->roi.lcd_y + iBuf->roi.dst_height) ==
iBuf->ibuf_height) {
reg |= BIT(MDP_BOTTOM_CHROMA);
}
if (((iBuf->roi.lcd_x + iBuf->roi.dst_width) ==
iBuf->ibuf_width) && ((iBuf->roi.dst_width % 2) == 0)) {
reg |= BIT(MDP_RIGHT_CHROMA);
}
break;
case MDP_Y_CBCR_H2V1:
case MDP_Y_CRCB_H2V1:
case MDP_YCRYCB_H2V1:
if (((iBuf->roi.lcd_x + iBuf->roi.dst_width) ==
iBuf->ibuf_width) && ((iBuf->roi.dst_width % 2) == 0)) {
reg |= BIT(MDP_RIGHT_CHROMA);
}
break;
default:
break;
}
*dup2 = reg;
return 0;
}
#define ADJUST_IP /* for 1/3 scale factor fix */
static int mdp_calc_scale_params(
/* ROI origin coordinate for the dimension */
uint32 org,
/* src ROI dimension */
uint32 dim_in,
/* scaled ROI dimension*/
uint32 dim_out,
/* is this ROI width dimension? */
boolean is_W,
/* initial phase location address */
int32 *phase_init_ptr,
/* phase increment location address */
uint32 *phase_step_ptr,
/* ROI start over-fetch location address */
uint32 *num_repl_beg_ptr,
/* ROI end over-fetch location address */
uint32 *num_repl_end_ptr)
{
boolean rpa_on = FALSE;
int init_phase = 0;
uint32 beg_of = 0;
uint32 end_of = 0;
uint64 numer = 0;
uint64 denom = 0;
/*uint64 inverter = 1; */
int64 point5 = 1;
int64 one = 1;
int64 k1, k2, k3, k4; /* linear equation coefficients */
uint64 int_mask;
uint64 fract_mask;
uint64 Os;
int64 Osprime;
int64 Od;
int64 Odprime;
int64 Oreq;
uint64 Es;
uint64 Ed;
uint64 Ereq;
#ifdef ADJUST_IP
int64 IP64;
int64 delta;
#endif
uint32 mult;
/*
* The phase accumulator should really be rational for all cases in a
* general purpose polyphase scaler for a tiled architecture with
* non-zero * origin capability because there is no way to represent
* certain scale factors in fixed point regardless of precision.
* The error incurred in attempting to use fixed point is most
* eggregious for SF where 1/SF is an integral multiple of 1/3.
*
* However, since the MDP2 has already been committed to HW, we
* only use the rational phase accumulator (RPA) when 1/SF is an
* integral multiple of 1/3. This will help minimize regressions in
* matching the HW to the C-Sim.
*/
/*
* Set the RPA flag for this dimension.
*
* In order for 1/SF (dim_in/dim_out) to be an integral multiple of
* 1/3, dim_out must be an integral multiple of 3.
*/
if (!(dim_out % 3)) {
mult = dim_out / 3;
rpa_on = (!(dim_in % mult));
}
numer = dim_out;
denom = dim_in;
/*
* convert to U30.34 before division
*
* The K vectors carry 4 extra bits of precision
* and are rounded.
*
* We initially go 5 bits over then round by adding
* 1 and right shifting by 1
* so final result is U31.33
*/
numer <<= PQF_PLUS_5;
/* now calculate the scale factor (aka k3) */
k3 = ((mdp_do_div(numer, denom) + 1) >> 1);
/* check scale factor for legal range [0.25 - 4.0] */
if (((k3 >> 4) < (1LL << PQF_MINUS_2)) ||
((k3 >> 4) > (1LL << PQF_PLUS_2))) {
return -1;
}
/* calculate inverse scale factor (aka k1) for phase init */
numer = dim_in;
denom = dim_out;
numer <<= PQF_PLUS_5;
k1 = ((mdp_do_div(numer, denom) + 1) >> 1);
/*
* calculate initial phase and ROI overfetch
*/
/* convert point5 & one to S39.24 (will always be positive) */
point5 <<= (PQF_PLUS_4 - 1);
one <<= PQF_PLUS_4;
k2 = ((k1 - one) >> 1);
init_phase = (int)(k2 >> 4);
k4 = ((k3 - one) >> 1);
if (k3 == one) {
/* the simple case; SF = 1.0 */
beg_of = 1;
end_of = 2;
} else {
/* calculate the masks */
fract_mask = one - 1;
int_mask = ~fract_mask;
if (!rpa_on) {
/*
* FIXED POINT IMPLEMENTATION
*/
if (!org) {
/* A fairly simple case; ROI origin = 0 */
if (k1 < one) {
/* upscaling */
beg_of = end_of = 2;
}
/* 0.33 <= SF < 1.0 */
else if (k1 < (3LL << PQF_PLUS_4))
beg_of = end_of = 1;
/* 0.33 == SF */
else if (k1 == (3LL << PQF_PLUS_4)) {
beg_of = 0;
end_of = 1;
}
/* 0.25 <= SF < 0.33 */
else
beg_of = end_of = 0;
} else {
/*
* The complicated case; ROI origin != 0
* init_phase needs to be adjusted
* OF is also position dependent
*/
/* map (org - .5) into destination space */
Os = ((uint64) org << 1) - 1;
Od = ((k3 * Os) >> 1) + k4;
/* take the ceiling */
Odprime = (Od & int_mask);
if (Odprime != Od)
Odprime += one;
/* now map that back to source space */
Osprime = (k1 * (Odprime >> PQF_PLUS_4)) + k2;
/* then floor & decrement to calculate the required
starting coordinate */
Oreq = (Osprime & int_mask) - one;
/* calculate end coord in destination space then map to
source space */
Ed = Odprime +
((uint64) dim_out << PQF_PLUS_4) - one;
Es = (k1 * (Ed >> PQF_PLUS_4)) + k2;
/* now floor & increment by 2 to calculate the required
ending coordinate */
Ereq = (Es & int_mask) + (one << 1);
/* calculate initial phase */
#ifdef ADJUST_IP
IP64 = Osprime - Oreq;
delta = ((int64) (org) << PQF_PLUS_4) - Oreq;
IP64 -= delta;
/* limit to valid range before the left shift */
delta = (IP64 & (1LL << 63)) ? 4 : -4;
delta <<= PQF_PLUS_4;
while (abs((int)(IP64 >> PQF_PLUS_4)) > 4)
IP64 += delta;
/* right shift to account for extra bits of precision */
init_phase = (int)(IP64 >> 4);
#else /* ADJUST_IP */
/* just calculate the real initial phase */
init_phase = (int)((Osprime - Oreq) >> 4);
#endif /* ADJUST_IP */
/* calculate the overfetch */
beg_of = org - (uint32) (Oreq >> PQF_PLUS_4);
end_of =
(uint32) (Ereq >> PQF_PLUS_4) - (org +
dim_in -
1);
}
} else {
/*
* RPA IMPLEMENTATION
*
* init_phase needs to be calculated in all RPA_on cases
* because it's a numerator, not a fixed point value.
*/
/* map (org - .5) into destination space */
Os = ((uint64) org << PQF_PLUS_4) - point5;
Od = mdp_do_div((dim_out * (Os + point5)),
dim_in) - point5;
/* take the ceiling */
Odprime = (Od & int_mask);
if (Odprime != Od)
Odprime += one;
/* now map that back to source space */
Osprime =
mdp_do_div((dim_in * (Odprime + point5)),
dim_out) - point5;
/* then floor & decrement to calculate the required
starting coordinate */
Oreq = (Osprime & int_mask) - one;
/* calculate end coord in destination space then map to
source space */
Ed = Odprime + ((uint64) dim_out << PQF_PLUS_4) - one;
Es = mdp_do_div((dim_in * (Ed + point5)),
dim_out) - point5;
/* now floor & increment by 2 to calculate the required
ending coordinate */
Ereq = (Es & int_mask) + (one << 1);
/* calculate initial phase */
#ifdef ADJUST_IP
IP64 = Osprime - Oreq;
delta = ((int64) (org) << PQF_PLUS_4) - Oreq;
IP64 -= delta;
/* limit to valid range before the left shift */
delta = (IP64 & (1LL << 63)) ? 4 : -4;
delta <<= PQF_PLUS_4;
while (abs((int)(IP64 >> PQF_PLUS_4)) > 4)
IP64 += delta;
/* right shift to account for extra bits of precision */
init_phase = (int)(IP64 >> 4);
#else /* ADJUST_IP */
/* just calculate the real initial phase */
init_phase = (int)((Osprime - Oreq) >> 4);
#endif /* ADJUST_IP */
/* calculate the overfetch */
beg_of = org - (uint32) (Oreq >> PQF_PLUS_4);
end_of =
(uint32) (Ereq >> PQF_PLUS_4) - (org + dim_in - 1);
}
}
/* return the scale parameters */
*phase_init_ptr = init_phase;
*phase_step_ptr = (uint32) (k1 >> 4);
*num_repl_beg_ptr = beg_of;
*num_repl_end_ptr = end_of;
return 0;
}
static uint8 *mdp_adjust_rot_addr(MDPIBUF *iBuf, uint8 *addr, uint32 uv)
{
uint32 dest_ystride = iBuf->ibuf_width * iBuf->bpp;
uint32 h_slice = 1;
if (uv && ((iBuf->ibuf_type == MDP_Y_CBCR_H2V2) ||
(iBuf->ibuf_type == MDP_Y_CRCB_H2V2)))
h_slice = 2;
if (MDP_CHKBIT(iBuf->mdpImg.mdpOp, MDPOP_ROT90) ^
MDP_CHKBIT(iBuf->mdpImg.mdpOp, MDPOP_LR)) {
addr =
addr + (iBuf->roi.dst_width -
MIN(16, iBuf->roi.dst_width)) * iBuf->bpp;
}
if (MDP_CHKBIT(iBuf->mdpImg.mdpOp, MDPOP_UD)) {
addr =
addr + ((iBuf->roi.dst_height -
MIN(16, iBuf->roi.dst_height))/h_slice) * dest_ystride;
}
return addr;
}
void mdp_set_scale(MDPIBUF *iBuf,
uint32 dst_roi_width,
uint32 dst_roi_height,
boolean inputRGB, boolean outputRGB, uint32 *pppop_reg_ptr)
{
uint32 dst_roi_width_scale;
uint32 dst_roi_height_scale;
boolean use_pr;
uint32 phasex_step = 0;
uint32 phasey_step = 0;
int32 phasex_init = 0;
int32 phasey_init = 0;
uint32 lines_dup = 0;
uint32 lines_dup_bg = 0;
uint32 dummy;
uint32 mdp_blur = 0;
if (iBuf->mdpImg.mdpOp & MDPOP_ASCALE) {
if (iBuf->mdpImg.mdpOp & MDPOP_ROT90) {
dst_roi_width_scale = dst_roi_height;
dst_roi_height_scale = dst_roi_width;
} else {
dst_roi_width_scale = dst_roi_width;
dst_roi_height_scale = dst_roi_height;
}
mdp_blur = iBuf->mdpImg.mdpOp & MDPOP_BLUR;
if ((dst_roi_width_scale != iBuf->roi.width) ||
(dst_roi_height_scale != iBuf->roi.height) ||
mdp_blur) {
*pppop_reg_ptr |=
(PPP_OP_SCALE_Y_ON | PPP_OP_SCALE_X_ON);
/* let's use SHIM logic to calculate the partial ROI scaling */
#if 0
phasex_step =
(uint32) mdp_do_div(0x20000000 * iBuf->roi.width,
dst_roi_width_scale);
phasey_step =
(uint32) mdp_do_div(0x20000000 * iBuf->roi.height,
dst_roi_height_scale);
/*
phasex_step= ((long long) iBuf->roi.width * 0x20000000)/dst_roi_width_scale;
phasey_step= ((long long)iBuf->roi.height * 0x20000000)/dst_roi_height_scale;
*/
phasex_init =
(((long long)phasex_step - 0x20000000) >> 1);
phasey_init =
(((long long)phasey_step - 0x20000000) >> 1);
#else
mdp_calc_scale_params(iBuf->roi.x, iBuf->roi.width,
dst_roi_width_scale, 1,
&phasex_init, &phasex_step,
&dummy, &dummy);
mdp_calc_scale_params(iBuf->roi.y, iBuf->roi.height,
dst_roi_height_scale, 0,
&phasey_init, &phasey_step,
&dummy, &dummy);
#endif
MDP_OUTP(MDP_CMD_DEBUG_ACCESS_BASE + 0x013c,
phasex_init);
MDP_OUTP(MDP_CMD_DEBUG_ACCESS_BASE + 0x0140,
phasey_init);
MDP_OUTP(MDP_CMD_DEBUG_ACCESS_BASE + 0x0144,
phasex_step);
MDP_OUTP(MDP_CMD_DEBUG_ACCESS_BASE + 0x0148,
phasey_step);
use_pr = (inputRGB) && (outputRGB);
if ((dst_roi_width_scale > iBuf->roi.width) ||
(dst_roi_height_scale > iBuf->roi.height)) {
if ((use_pr)
&& (mdp_curr_up_scale_xy !=
MDP_PR_SCALE_UP)) {
mdp_load_pr_upscale_table();
mdp_curr_up_scale_xy = MDP_PR_SCALE_UP;
} else if ((!use_pr)
&& (mdp_curr_up_scale_xy !=
MDP_BC_SCALE_UP)) {
mdp_load_bc_upscale_table();
mdp_curr_up_scale_xy = MDP_BC_SCALE_UP;
}
}
if (mdp_blur) {
load_scale_table(mdp_gaussian_blur_table,
ARRAY_SIZE(mdp_gaussian_blur_table));
mdp_curr_down_scale_x = MDP_SCALE_BLUR;
mdp_curr_down_scale_y = MDP_SCALE_BLUR;
}
/* 0.2 < x <= 1 scaling factor */
if ((dst_roi_width_scale <= iBuf->roi.width) &&
!mdp_blur) {
if (((dst_roi_width_scale * 10) /
iBuf->roi.width) > 8) {
if ((use_pr)
&& (mdp_curr_down_scale_x !=
MDP_PR_SCALE_POINT8_1)) {
mdp_load_pr_downscale_table_x_point8TO1
();
mdp_curr_down_scale_x =
MDP_PR_SCALE_POINT8_1;
} else if ((!use_pr)
&& (mdp_curr_down_scale_x !=
MDP_BC_SCALE_POINT8_1)) {
mdp_load_bc_downscale_table_x_point8TO1
();
mdp_curr_down_scale_x =
MDP_BC_SCALE_POINT8_1;
}
} else
if (((dst_roi_width_scale * 10) /
iBuf->roi.width) > 6) {
if ((use_pr)
&& (mdp_curr_down_scale_x !=
MDP_PR_SCALE_POINT6_POINT8)) {
mdp_load_pr_downscale_table_x_point6TOpoint8
();
mdp_curr_down_scale_x =
MDP_PR_SCALE_POINT6_POINT8;
} else if ((!use_pr)
&& (mdp_curr_down_scale_x !=
MDP_BC_SCALE_POINT6_POINT8))
{
mdp_load_bc_downscale_table_x_point6TOpoint8
();
mdp_curr_down_scale_x =
MDP_BC_SCALE_POINT6_POINT8;
}
} else
if (((dst_roi_width_scale * 10) /
iBuf->roi.width) > 4) {
if ((use_pr)
&& (mdp_curr_down_scale_x !=
MDP_PR_SCALE_POINT4_POINT6)) {
mdp_load_pr_downscale_table_x_point4TOpoint6
();
mdp_curr_down_scale_x =
MDP_PR_SCALE_POINT4_POINT6;
} else if ((!use_pr)
&& (mdp_curr_down_scale_x !=
MDP_BC_SCALE_POINT4_POINT6))
{
mdp_load_bc_downscale_table_x_point4TOpoint6
();
mdp_curr_down_scale_x =
MDP_BC_SCALE_POINT4_POINT6;
}
} else {
if ((use_pr)
&& (mdp_curr_down_scale_x !=
MDP_PR_SCALE_POINT2_POINT4)) {
mdp_load_pr_downscale_table_x_point2TOpoint4
();
mdp_curr_down_scale_x =
MDP_PR_SCALE_POINT2_POINT4;
} else if ((!use_pr)
&& (mdp_curr_down_scale_x !=
MDP_BC_SCALE_POINT2_POINT4))
{
mdp_load_bc_downscale_table_x_point2TOpoint4
();
mdp_curr_down_scale_x =
MDP_BC_SCALE_POINT2_POINT4;
}
}
}
/* 0.2 < y <= 1 scaling factor */
if ((dst_roi_height_scale <= iBuf->roi.height) &&
!mdp_blur) {
if (((dst_roi_height_scale * 10) /
iBuf->roi.height) > 8) {
if ((use_pr)
&& (mdp_curr_down_scale_y !=
MDP_PR_SCALE_POINT8_1)) {
mdp_load_pr_downscale_table_y_point8TO1
();
mdp_curr_down_scale_y =
MDP_PR_SCALE_POINT8_1;
} else if ((!use_pr)
&& (mdp_curr_down_scale_y !=
MDP_BC_SCALE_POINT8_1)) {
mdp_load_bc_downscale_table_y_point8TO1
();
mdp_curr_down_scale_y =
MDP_BC_SCALE_POINT8_1;
}
} else
if (((dst_roi_height_scale * 10) /
iBuf->roi.height) > 6) {
if ((use_pr)
&& (mdp_curr_down_scale_y !=
MDP_PR_SCALE_POINT6_POINT8)) {
mdp_load_pr_downscale_table_y_point6TOpoint8
();
mdp_curr_down_scale_y =
MDP_PR_SCALE_POINT6_POINT8;
} else if ((!use_pr)
&& (mdp_curr_down_scale_y !=
MDP_BC_SCALE_POINT6_POINT8))
{
mdp_load_bc_downscale_table_y_point6TOpoint8
();
mdp_curr_down_scale_y =
MDP_BC_SCALE_POINT6_POINT8;
}
} else
if (((dst_roi_height_scale * 10) /
iBuf->roi.height) > 4) {
if ((use_pr)
&& (mdp_curr_down_scale_y !=
MDP_PR_SCALE_POINT4_POINT6)) {
mdp_load_pr_downscale_table_y_point4TOpoint6
();
mdp_curr_down_scale_y =
MDP_PR_SCALE_POINT4_POINT6;
} else if ((!use_pr)
&& (mdp_curr_down_scale_y !=
MDP_BC_SCALE_POINT4_POINT6))
{
mdp_load_bc_downscale_table_y_point4TOpoint6
();
mdp_curr_down_scale_y =
MDP_BC_SCALE_POINT4_POINT6;
}
} else {
if ((use_pr)
&& (mdp_curr_down_scale_y !=
MDP_PR_SCALE_POINT2_POINT4)) {
mdp_load_pr_downscale_table_y_point2TOpoint4
();
mdp_curr_down_scale_y =
MDP_PR_SCALE_POINT2_POINT4;
} else if ((!use_pr)
&& (mdp_curr_down_scale_y !=
MDP_BC_SCALE_POINT2_POINT4))
{
mdp_load_bc_downscale_table_y_point2TOpoint4
();
mdp_curr_down_scale_y =
MDP_BC_SCALE_POINT2_POINT4;
}
}
}
} else {
iBuf->mdpImg.mdpOp &= ~(MDPOP_ASCALE);
}
}
/* setting edge condition here after scaling check */
if (mdp_get_edge_cond(iBuf, &lines_dup, &lines_dup_bg))
printk(KERN_ERR "msm_fb: mdp_get_edge_cond() error!\n");
MDP_OUTP(MDP_CMD_DEBUG_ACCESS_BASE + 0x01b8, lines_dup);
MDP_OUTP(MDP_CMD_DEBUG_ACCESS_BASE + 0x01bc, lines_dup_bg);
}
void mdp_init_scale_table(void)
{
mdp_curr_up_scale_xy = MDP_INIT_SCALE;
mdp_curr_down_scale_x = MDP_INIT_SCALE;
mdp_curr_down_scale_y = MDP_INIT_SCALE;
}
void mdp_adjust_start_addr(uint8 **src0,
uint8 **src1,
int v_slice,
int h_slice,
int x,
int y,
uint32 width,
uint32 height, int bpp, MDPIBUF *iBuf, int layer)
{
*src0 += (x + y * width) * bpp;
/* if it's dest/bg buffer, we need to adjust it for rotation */
if (layer != 0)
*src0 = mdp_adjust_rot_addr(iBuf, *src0, 0);
if (*src1) {
/*
* MDP_Y_CBCR_H2V2/MDP_Y_CRCB_H2V2 cosite for now
* we need to shift x direction same as y dir for offsite
*/
*src1 +=
((x / h_slice) * h_slice +
((y == 0) ? 0 : ((y + 1) / v_slice - 1) * width)) * bpp;
/* if it's dest/bg buffer, we need to adjust it for rotation */
if (layer != 0)
*src1 = mdp_adjust_rot_addr(iBuf, *src1, 1);
}
}
void mdp_set_blend_attr(MDPIBUF *iBuf,
uint32 *alpha,
uint32 *tpVal,
uint32 perPixelAlpha, uint32 *pppop_reg_ptr)
{
if (perPixelAlpha) {
*pppop_reg_ptr |= PPP_OP_ROT_ON |
PPP_OP_BLEND_ON | PPP_OP_BLEND_SRCPIXEL_ALPHA;
} else {
if ((iBuf->mdpImg.mdpOp & MDPOP_ALPHAB)
&& (iBuf->mdpImg.alpha == 0xff)) {
iBuf->mdpImg.mdpOp &= ~(MDPOP_ALPHAB);
}
if ((iBuf->mdpImg.mdpOp & MDPOP_ALPHAB)
&& (iBuf->mdpImg.mdpOp & MDPOP_TRANSP)) {
*pppop_reg_ptr |=
PPP_OP_ROT_ON | PPP_OP_BLEND_ON |
PPP_OP_BLEND_CONSTANT_ALPHA |
PPP_OP_BLEND_ALPHA_BLEND_NORMAL |
PPP_BLEND_CALPHA_TRNASP;
*alpha = iBuf->mdpImg.alpha;
*tpVal = iBuf->mdpImg.tpVal;
} else {
if (iBuf->mdpImg.mdpOp & MDPOP_TRANSP) {
*pppop_reg_ptr |= PPP_OP_ROT_ON |
PPP_OP_BLEND_ON |
PPP_OP_BLEND_SRCPIXEL_TRANSP;
*tpVal = iBuf->mdpImg.tpVal;
} else if (iBuf->mdpImg.mdpOp & MDPOP_ALPHAB) {
*pppop_reg_ptr |= PPP_OP_ROT_ON |
PPP_OP_BLEND_ON |
PPP_OP_BLEND_ALPHA_BLEND_NORMAL |
PPP_OP_BLEND_CONSTANT_ALPHA;
*alpha = iBuf->mdpImg.alpha;
}
}
}
}