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video.cpp
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video.cpp
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#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <inttypes.h>
#include <linux/fb.h>
#include <errno.h>
#include <sys/ioctl.h>
#include <linux/vt.h>
#include <fcntl.h>
#include <sys/stat.h>
#include <sys/types.h>
#include <unistd.h>
#include "hardware.h"
#include "user_io.h"
#include "spi.h"
#include "cfg.h"
#include "file_io.h"
#include "menu.h"
#include "video.h"
#include "input.h"
#include "shmem.h"
#include "support.h"
#include "lib/imlib2/Imlib2.h"
#define FB_SIZE (1920*1080)
#define FB_ADDR (0x20000000 + (32*1024*1024)) // 512mb + 32mb(Core's fb)
/*
-- [2:0] : 011=8bpp(palette) 100=16bpp 101=24bpp 110=32bpp
-- [3] : 0=16bits 565 1=16bits 1555
-- [4] : 0=RGB 1=BGR (for 16/24/32 modes)
-- [5] : TBD
*/
#define FB_FMT_565 0b00100
#define FB_FMT_1555 0b01100
#define FB_FMT_888 0b00101
#define FB_FMT_8888 0b00110
#define FB_FMT_PAL8 0b00011
#define FB_FMT_RxB 0b10000
#define FB_EN 0x8000
#define FB_DV_LBRD 3
#define FB_DV_RBRD 6
#define FB_DV_UBRD 2
#define FB_DV_BBRD 2
static volatile uint32_t *fb_base = 0;
static int fb_enabled = 0;
static int fb_width = 0;
static int fb_height = 0;
static int fb_num = 0;
static int brd_x = 0;
static int brd_y = 0;
static int menu_bg = 0;
static int menu_bgn = 0;
struct vmode_t
{
uint32_t vpar[8];
double Fpix;
};
vmode_t vmodes[] =
{
{ { 1280, 110, 40, 220, 720, 5, 5, 20 }, 74.25 }, //0
{ { 1024, 24, 136, 160, 768, 3, 6, 29 }, 65 }, //1
{ { 720, 16, 62, 60, 480, 9, 6, 30 }, 27 }, //2
{ { 720, 12, 64, 68, 576, 5, 5, 39 }, 27 }, //3
{ { 1280, 48, 112, 248, 1024, 1, 3, 38 }, 108 }, //4
{ { 800, 40, 128, 88, 600, 1, 4, 23 }, 40 }, //5
{ { 640, 16, 96, 48, 480, 10, 2, 33 }, 25.175 }, //6
{ { 1280, 440, 40, 220, 720, 5, 5, 20 }, 74.25 }, //7
{ { 1920, 88, 44, 148, 1080, 4, 5, 36 }, 148.5 }, //8
{ { 1920, 528, 44, 148, 1080, 4, 5, 36 }, 148.5 }, //9
{ { 1366, 70, 143, 213, 768, 3, 3, 24 }, 85.5 }, //10
{ { 1024, 40, 104, 144, 600, 1, 3, 18 }, 48.96 }, //11
{ { 1920, 48, 32, 80, 1440, 2, 4, 38 }, 185.203 }, //12
{ { 2048, 48, 32, 80, 1536, 2, 4, 38 }, 209.318 }, //13
};
#define VMODES_NUM (sizeof(vmodes) / sizeof(vmodes[0]))
vmode_t tvmodes[] =
{
{{ 640, 30, 60, 70, 240, 4, 4, 14 }, 12.587 }, //NTSC 15K
{{ 640, 16, 96, 48, 480, 8, 4, 33 }, 25.175 }, //NTSC 31K
{{ 640, 30, 60, 70, 288, 6, 4, 14 }, 12.587 }, //PAL 15K
{{ 640, 16, 96, 48, 576, 2, 4, 42 }, 25.175 }, //PAL 31K
};
struct vmode_custom_t
{
uint32_t item[32];
double Fpix;
};
static vmode_custom_t v_cur = {}, v_def = {}, v_pal = {}, v_ntsc = {};
static int vmode_def = 0, vmode_pal = 0, vmode_ntsc = 0;
static uint32_t getPLLdiv(uint32_t div)
{
if (div & 1) return 0x20000 | (((div / 2) + 1) << 8) | (div / 2);
return ((div / 2) << 8) | (div / 2);
}
static int findPLLpar(double Fout, uint32_t *pc, uint32_t *pm, double *pko)
{
uint32_t c = 1;
while ((Fout*c) < 400) c++;
while (1)
{
double fvco = Fout*c;
uint32_t m = (uint32_t)(fvco / 50);
double ko = ((fvco / 50) - m);
fvco = ko + m;
fvco *= 50.f;
if (ko && (ko <= 0.05f || ko >= 0.95f))
{
printf("Fvco=%f, C=%d, M=%d, K=%f ", fvco, c, m, ko);
if (fvco > 1500.f)
{
printf("-> No exact parameters found\n");
return 0;
}
printf("-> K is outside allowed range\n");
c++;
}
else
{
*pc = c;
*pm = m;
*pko = ko;
return 1;
}
}
//will never reach here
return 0;
}
static void setPLL(double Fout, vmode_custom_t *v)
{
double Fpix;
double fvco, ko;
uint32_t m, c;
printf("Calculate PLL for %.4f MHz:\n", Fout);
if (!findPLLpar(Fout, &c, &m, &ko))
{
c = 1;
while ((Fout*c) < 400) c++;
fvco = Fout*c;
m = (uint32_t)(fvco / 50);
ko = ((fvco / 50) - m);
//Make sure K is in allowed range.
if (ko <= 0.05f)
{
ko = 0;
}
else if (ko >= 0.95f)
{
m++;
ko = 0;
}
}
uint32_t k = ko ? (uint32_t)(ko * 4294967296) : 1;
fvco = ko + m;
fvco *= 50.f;
Fpix = fvco / c;
printf("Fvco=%f, C=%d, M=%d, K=%f(%u) -> Fpix=%f\n", fvco, c, m, ko, k, Fpix);
v->item[9] = 4;
v->item[10] = getPLLdiv(m);
v->item[11] = 3;
v->item[12] = 0x10000;
v->item[13] = 5;
v->item[14] = getPLLdiv(c);
v->item[15] = 9;
v->item[16] = 2;
v->item[17] = 8;
v->item[18] = 7;
v->item[19] = 7;
v->item[20] = k;
v->Fpix = Fpix;
}
static char scaler_flt[3][1024] = { 0 };
static int get_phases_count(char *filename)
{
fileTextReader reader = {};
int res = 0;
if (FileOpenTextReader(&reader, filename))
{
const char *line;
while ((line = FileReadLine(&reader)))
{
int c0, c1, c2, c3;
int n = sscanf(line, "%d,%d,%d,%d", &c0, &c1, &c2, &c3);
if (n == 4) res++;
}
}
return res;
}
static void send_phases(char* filename, int type, int phases, int ver)
{
printf("send_phases(%s, %d, %d, %d)\n", filename, type, phases, ver);
fileTextReader reader = {};
int phase = (type == VFILTER_VERT) ? 64 : 0;
if (FileOpenTextReader(&reader, filename))
{
int v2txt = (phases >= 64);
const char *line;
while ((line = FileReadLine(&reader)))
{
int c0, c1, c2, c3;
if (sscanf(line, "%d,%d,%d,%d", &c0, &c1, &c2, &c3) == 4)
{
if (ver == 2)
{
int rep = v2txt ? 1 : 4;
for (int i = 0; i < rep; i++)
{
spi_w((phase * 4) + 0); spi_w(c0 & 0x1FF);
spi_w((phase * 4) + 1); spi_w(c1 & 0x1FF);
spi_w((phase * 4) + 2); spi_w(c2 & 0x1FF);
spi_w((phase * 4) + 3); spi_w(c3 & 0x1FF);
phase++;
}
}
else
{
if (!(phase & 3))
{
spi_w((c0 & 0x1FF) | ((phase + 0) << 9));
spi_w((c1 & 0x1FF) | ((phase + 1) << 9));
spi_w((c2 & 0x1FF) | ((phase + 2) << 9));
spi_w((c3 & 0x1FF) | ((phase + 3) << 9));
}
phase += v2txt ? 1 : 4;
}
if (!(phase & 63)) break;
}
}
}
}
static void set_vfilter(int force)
{
static char filename[1024];
static int last_flags = 0;
int flt_flags = spi_uio_cmd_cont(UIO_SET_FLTNUM);
if (!flt_flags || (!force && last_flags == flt_flags))
{
DisableIO();
return;
}
last_flags = flt_flags;
printf("video_set_filter: flt_flags=%d\n", flt_flags);
spi8(scaler_flt[0][0]);
DisableIO();
spi_uio_cmd_cont(UIO_SET_FLTCOEF);
int phases;
//horizontal filter
snprintf(filename, sizeof(filename), COEFF_DIR"/%s", scaler_flt[VFILTER_HORZ] + 1);
phases = get_phases_count(filename);
if (phases) send_phases(filename, VFILTER_HORZ, phases, flt_flags & 0xF);
//vertical/scanlines filter
int vert_flt = ((flt_flags & 0x30) && scaler_flt[VFILTER_SCAN][0]) ? VFILTER_SCAN : (scaler_flt[VFILTER_VERT][0]) ? VFILTER_VERT : VFILTER_HORZ;
snprintf(filename, sizeof(filename), COEFF_DIR"/%s", scaler_flt[vert_flt] + 1);
phases = get_phases_count(filename);
if (phases) send_phases(filename, VFILTER_VERT, phases, flt_flags & 0xF);
DisableIO();
}
static void setScaler()
{
uint32_t arc[4] = {};
for (int i = 0; i < 2; i++)
{
if (cfg.custom_aspect_ratio[i][0])
{
if (sscanf(cfg.custom_aspect_ratio[i], "%u:%u", &arc[i * 2], &arc[(i * 2) + 1]) != 2 || arc[i * 2] < 1 || arc[i * 2] > 4095 || arc[(i * 2) + 1] < 1 || arc[(i * 2) + 1] > 4095)
{
arc[(i * 2) + 0] = 0;
arc[(i * 2) + 1] = 0;
}
}
}
spi_uio_cmd_cont(UIO_SET_AR_CUST);
for (int i = 0; i < 4; i++) spi_w(arc[i]);
DisableIO();
set_vfilter(1);
}
int video_get_scaler_flt(int type)
{
return scaler_flt[type][0];
}
char* video_get_scaler_coeff(int type)
{
return scaler_flt[type] + 1;
}
static char scaler_cfg[128] = { 0 };
void video_set_scaler_flt(int type, int n)
{
scaler_flt[type][0] = (char)n;
FileSaveConfig(scaler_cfg, &scaler_flt, sizeof(scaler_flt));
spi_uio_cmd8(UIO_SET_FLTNUM, scaler_flt[0][0]);
set_vfilter(1);
}
void video_set_scaler_coeff(int type, char *name)
{
strcpy(scaler_flt[type] + 1, name);
FileSaveConfig(scaler_cfg, &scaler_flt, sizeof(scaler_flt));
setScaler();
user_io_send_buttons(1);
}
static void loadScalerCfg()
{
sprintf(scaler_cfg, "%s_scaler.cfg", user_io_get_core_name());
memset(scaler_flt, 0, sizeof(scaler_cfg));
if (!FileLoadConfig(scaler_cfg, &scaler_flt, sizeof(scaler_flt)) || scaler_flt[0][0] > 1)
{
memset(scaler_flt, 0, sizeof(scaler_flt));
}
if (!scaler_flt[VFILTER_HORZ][1] && cfg.vfilter_default[0])
{
strcpy(scaler_flt[VFILTER_HORZ]+1, cfg.vfilter_default);
scaler_flt[VFILTER_HORZ][0] = 1;
}
if (!scaler_flt[VFILTER_VERT][1] && cfg.vfilter_vertical_default[0])
{
strcpy(scaler_flt[VFILTER_VERT] + 1, cfg.vfilter_vertical_default);
scaler_flt[VFILTER_VERT][0] = 1;
}
if (!scaler_flt[VFILTER_SCAN][1] && cfg.vfilter_scanlines_default[0])
{
strcpy(scaler_flt[VFILTER_SCAN] + 1, cfg.vfilter_scanlines_default);
scaler_flt[VFILTER_SCAN][0] = 1;
}
}
static char gamma_cfg[1024] = { 0 };
static char has_gamma = 0;
static void setGamma()
{
fileTextReader reader = {};
static char filename[1024];
if (!spi_uio_cmd_cont(UIO_SET_GAMMA))
{
DisableIO();
return;
}
has_gamma = 1;
spi8(0);
DisableIO();
snprintf(filename, sizeof(filename), GAMMA_DIR"/%s", gamma_cfg + 1);
if (FileOpenTextReader(&reader, filename))
{
spi_uio_cmd_cont(UIO_SET_GAMCURV);
const char *line;
int index = 0;
while ((line = FileReadLine(&reader)))
{
int c0, c1, c2;
int n = sscanf(line, "%d,%d,%d", &c0, &c1, &c2);
if (n == 1)
{
c1 = c0;
c2 = c0;
n = 3;
}
if (n == 3)
{
spi_w((index << 8) | (c0 & 0xFF));
spi_w((index << 8) | (c1 & 0xFF));
spi_w((index << 8) | (c2 & 0xFF));
index++;
if (index >= 256) break;
}
}
DisableIO();
spi_uio_cmd8(UIO_SET_GAMMA, gamma_cfg[0]);
}
}
int video_get_gamma_en()
{
return has_gamma ? gamma_cfg[0] : -1;
}
char* video_get_gamma_curve()
{
return gamma_cfg + 1;
}
static char gamma_cfg_path[1024] = { 0 };
void video_set_gamma_en(int n)
{
gamma_cfg[0] = (char)n;
FileSaveConfig(gamma_cfg_path, &gamma_cfg, sizeof(gamma_cfg));
setGamma();
}
void video_set_gamma_curve(char *name)
{
strcpy(gamma_cfg + 1, name);
FileSaveConfig(gamma_cfg_path, &gamma_cfg, sizeof(gamma_cfg));
setGamma();
user_io_send_buttons(1);
}
static void loadGammaCfg()
{
sprintf(gamma_cfg_path, "%s_gamma.cfg", user_io_get_core_name());
if (!FileLoadConfig(gamma_cfg_path, &gamma_cfg, sizeof(gamma_cfg) - 1) || gamma_cfg[0]>1)
{
memset(gamma_cfg, 0, sizeof(gamma_cfg));
}
}
static char shadow_mask_cfg[1024] = { 0 };
static bool has_shadow_mask = false;
#define SM_FLAG_2X ( 1 << 1 )
#define SM_FLAG_ROTATED ( 1 << 2 )
#define SM_FLAG_ENABLED ( 1 << 3 )
#define SM_FLAG(v) ( ( 0x0 << 13 ) | (v) )
#define SM_VMAX(v) ( ( 0x1 << 13 ) | (v) )
#define SM_HMAX(v) ( ( 0x2 << 13 ) | (v) )
#define SM_LUT(v) ( ( 0x3 << 13 ) | (v) )
enum
{
SM_MODE_NONE = 0,
SM_MODE_1X,
SM_MODE_2X,
SM_MODE_1X_ROTATED,
SM_MODE_2X_ROTATED,
SM_MODE_COUNT
};
static void setShadowMask()
{
static char filename[1024];
has_shadow_mask = 0;
if (!spi_uio_cmd_cont(UIO_SHADOWMASK))
{
DisableIO();
return;
}
has_shadow_mask = 1;
switch( video_get_shadow_mask_mode() )
{
default: spi_w(SM_FLAG(0)); break;
case SM_MODE_1X: spi_w(SM_FLAG(SM_FLAG_ENABLED)); break;
case SM_MODE_2X: spi_w(SM_FLAG(SM_FLAG_ENABLED | SM_FLAG_2X)); break;
case SM_MODE_1X_ROTATED: spi_w(SM_FLAG(SM_FLAG_ENABLED | SM_FLAG_ROTATED)); break;
case SM_MODE_2X_ROTATED: spi_w(SM_FLAG(SM_FLAG_ENABLED | SM_FLAG_ROTATED | SM_FLAG_2X)); break;
}
int loaded = 0;
snprintf(filename, sizeof(filename), SMASK_DIR"/%s", shadow_mask_cfg + 1);
fileTextReader reader;
if (FileOpenTextReader(&reader, filename))
{
char *start_pos = reader.pos;
const char *line;
uint32_t res = 0;
while ((line = FileReadLine(&reader)))
{
if (!strncasecmp(line, "resolution=", 11))
{
if (sscanf(line + 11, "%u", &res))
{
if (v_cur.item[5] >= res)
{
start_pos = reader.pos;
}
}
}
}
int w = -1, h = -1;
int y = 0;
int v2 = 0;
reader.pos = start_pos;
while ((line = FileReadLine(&reader)))
{
if (w == -1)
{
if (!strcasecmp(line, "v2"))
{
v2 = 1;
continue;
}
if (!strncasecmp(line, "resolution=", 11))
{
continue;
}
int n = sscanf(line, "%d,%d", &w, &h);
if ((n != 2) || (w <= 0) || (h <= 0) || (w > 16) || (h > 16))
{
break;
}
}
else
{
unsigned int p[16];
int n = sscanf(line, "%X,%x,%x,%x,%x,%x,%x,%x,%x,%x,%x,%x,%x,%x,%x,%x", p + 0, p + 1, p + 2, p + 3, p + 4, p + 5, p + 6, p + 7, p + 8, p + 9, p + 10, p + 11, p + 12, p + 13, p + 14, p + 15);
if (n != w)
{
break;
}
for (int x = 0; x < 16; x++) spi_w(SM_LUT(v2 ? (p[x] & 0x7FF) : (((p[x] & 7) << 8) | 0x2A)));
y += 1;
if (y == h)
{
loaded = 1;
break;
}
}
}
if (y == h)
{
spi_w(SM_HMAX(w - 1));
spi_w(SM_VMAX(h - 1));
}
}
if (!loaded) spi_w(SM_FLAG(0));
DisableIO();
}
int video_get_shadow_mask_mode()
{
return has_shadow_mask ? shadow_mask_cfg[0] : -1;
}
char* video_get_shadow_mask()
{
return shadow_mask_cfg + 1;
}
static char shadow_mask_cfg_path[1024] = { 0 };
void video_set_shadow_mask_mode(int n)
{
if( n >= SM_MODE_COUNT )
{
n = 0;
}
else if (n < 0)
{
n = SM_MODE_COUNT - 1;
}
shadow_mask_cfg[0] = (char)n;
FileSaveConfig(shadow_mask_cfg_path, &shadow_mask_cfg, sizeof(shadow_mask_cfg));
setShadowMask();
}
void video_set_shadow_mask(char *name)
{
strcpy(shadow_mask_cfg + 1, name);
FileSaveConfig(shadow_mask_cfg_path, &shadow_mask_cfg, sizeof(shadow_mask_cfg));
setShadowMask();
user_io_send_buttons(1);
}
static void loadShadowMaskCfg()
{
sprintf(shadow_mask_cfg_path, "%s_shmask.cfg", user_io_get_core_name());
if (!FileLoadConfig(shadow_mask_cfg_path, &shadow_mask_cfg, sizeof(shadow_mask_cfg) - 1))
{
memset(shadow_mask_cfg, 0, sizeof(shadow_mask_cfg));
if (cfg.shmask_default[0])
{
strcpy(shadow_mask_cfg + 1, cfg.shmask_default);
shadow_mask_cfg[0] = cfg.shmask_mode_default;
}
}
if( shadow_mask_cfg[0] >= SM_MODE_COUNT )
{
shadow_mask_cfg[0] = 0;
}
}
static char fb_reset_cmd[128] = {};
static void set_video(vmode_custom_t *v, double Fpix)
{
loadGammaCfg();
setGamma();
loadScalerCfg();
setScaler();
v_cur = *v;
vmode_custom_t v_fix = v_cur;
if (cfg.direct_video)
{
v_fix.item[2] = FB_DV_RBRD;
v_fix.item[4] = FB_DV_LBRD;
v_fix.item[1] += v_cur.item[2] - v_fix.item[2];
v_fix.item[1] += v_cur.item[4] - v_fix.item[4];
v_fix.item[6] = FB_DV_BBRD;
v_fix.item[8] = FB_DV_UBRD;;
v_fix.item[5] += v_cur.item[6] - v_fix.item[6];
v_fix.item[5] += v_cur.item[8] - v_fix.item[8];
}
printf("Send HDMI parameters:\n");
spi_uio_cmd_cont(UIO_SET_VIDEO);
printf("video: ");
for (int i = 1; i <= 8; i++)
{
spi_w(v_fix.item[i]);
printf("%d(%d), ", v_cur.item[i], v_fix.item[i]);
}
if(Fpix) setPLL(Fpix, &v_cur);
printf("\nPLL: ");
for (int i = 9; i < 21; i++)
{
printf("0x%X, ", v_cur.item[i]);
if (i & 1) spi_w(v_cur.item[i] | ((i == 9 && Fpix && cfg.vsync_adjust == 2 && !is_menu()) ? 0x8000 : 0));
else
{
spi_w(v_cur.item[i]);
spi_w(v_cur.item[i] >> 16);
}
}
printf("Fpix=%f\n", v_cur.Fpix);
DisableIO();
if (cfg.fb_size <= 1) cfg.fb_size = ((v_cur.item[1] * v_cur.item[5]) <= FB_SIZE) ? 1 : 2;
else if (cfg.fb_size == 3) cfg.fb_size = 2;
else if (cfg.fb_size > 4) cfg.fb_size = 4;
fb_width = v_cur.item[1] / cfg.fb_size;
fb_height = v_cur.item[5] / cfg.fb_size;
brd_x = cfg.vscale_border / cfg.fb_size;;
brd_y = cfg.vscale_border / cfg.fb_size;;
if (fb_enabled) video_fb_enable(1, fb_num);
sprintf(fb_reset_cmd, "echo %d %d %d %d %d >/sys/module/MiSTer_fb/parameters/mode", 8888, 1, fb_width, fb_height, fb_width * 4);
system(fb_reset_cmd);
loadShadowMaskCfg();
setShadowMask();
}
static int parse_custom_video_mode(char* vcfg, vmode_custom_t *v)
{
int khz = 0;
int cnt = 0;
char *orig = vcfg;
while (*vcfg)
{
char *next;
if (cnt == 9 && v->item[0] == 1)
{
double Fpix = khz ? strtoul(vcfg, &next, 0)/1000.f : strtod(vcfg, &next);
if (vcfg == next || (Fpix < 2.f || Fpix > 300.f))
{
printf("Error parsing video_mode parameter: ""%s""\n", orig);
return -1;
}
setPLL(Fpix, v);
break;
}
uint32_t val = strtoul(vcfg, &next, 0);
if (vcfg == next || (*next != ',' && *next))
{
printf("Error parsing video_mode parameter: ""%s""\n", orig);
return -1;
}
if (!cnt && val >= 100)
{
v->item[cnt++] = 1;
khz = 1;
}
if (cnt < 32) v->item[cnt] = val;
if (*next == ',') next++;
vcfg = next;
cnt++;
}
if (cnt == 1)
{
printf("Set predefined video_mode to %d\n", v->item[0]);
return v->item[0];
}
if ((v->item[0] == 0 && cnt < 21) || (v->item[0] == 1 && cnt < 9))
{
printf("Incorrect amount of items in video_mode parameter: %d\n", cnt);
return -1;
}
if (v->item[0] > 1)
{
printf("Incorrect video_mode parameter\n");
return -1;
}
return -2;
}
static int store_custom_video_mode(char* vcfg, vmode_custom_t *v)
{
int ret = parse_custom_video_mode(vcfg, v);
if (ret == -2) return 1;
uint mode = (ret < 0) ? 0 : ret;
if (mode >= VMODES_NUM) mode = 0;
for (int i = 0; i < 8; i++) v->item[i + 1] = vmodes[mode].vpar[i];
setPLL(vmodes[mode].Fpix, v);
return ret >= 0;
}
static void fb_init()
{
if (!fb_base)
{
fb_base = (volatile uint32_t*)shmem_map(FB_ADDR, FB_SIZE * 4 * 3);
if (!fb_base)
{
printf("Unable to mmap FB!\n");
}
}
spi_uio_cmd16(UIO_SET_FBUF, 0);
}
void video_mode_load()
{
fb_init();
if (cfg.direct_video && cfg.vsync_adjust)
{
printf("Disabling vsync_adjust because of enabled direct video.\n");
cfg.vsync_adjust = 0;
}
if (cfg.direct_video)
{
int mode = cfg.menu_pal ? 2 : 0;
if (cfg.forced_scandoubler) mode++;
v_def.item[0] = mode;
for (int i = 0; i < 8; i++) v_def.item[i + 1] = tvmodes[mode].vpar[i];
setPLL(tvmodes[mode].Fpix, &v_def);
vmode_def = 1;
vmode_pal = 0;
vmode_ntsc = 0;
}
else
{
vmode_def = store_custom_video_mode(cfg.video_conf, &v_def);
vmode_pal = store_custom_video_mode(cfg.video_conf_pal, &v_pal);
vmode_ntsc = store_custom_video_mode(cfg.video_conf_ntsc, &v_ntsc);
}
set_video(&v_def, 0);
}
static int api1_5 = 0;
int hasAPI1_5()
{
return api1_5 || is_menu();
}
static uint32_t show_video_info(int force)
{
uint32_t ret = 0;
static uint16_t nres = 0;
spi_uio_cmd_cont(UIO_GET_VRES);
uint16_t res = spi_w(0);
if ((nres != res) || force)
{
if (nres != res) force = 0;
nres = res;
uint32_t width = spi_w(0) | (spi_w(0) << 16);
uint32_t height = spi_w(0) | (spi_w(0) << 16);
uint32_t htime = spi_w(0) | (spi_w(0) << 16);
uint32_t vtime = spi_w(0) | (spi_w(0) << 16);
uint32_t ptime = spi_w(0) | (spi_w(0) << 16);
uint32_t vtimeh = spi_w(0) | (spi_w(0) << 16);
DisableIO();
float vrate = 100000000;
if (vtime) vrate /= vtime; else vrate = 0;
float hrate = 100000;
if (htime) hrate /= htime; else hrate = 0;
float prate = width * 100;
prate /= ptime;
printf("\033[1;33mINFO: Video resolution: %u x %u%s, fHorz = %.1fKHz, fVert = %.1fHz, fPix = %.2fMHz\033[0m\n", width, height, (res & 0x100) ? "i" : "", hrate, vrate, prate);
printf("\033[1;33mINFO: Frame time (100MHz counter): VGA = %d, HDMI = %d\033[0m\n", vtime, vtimeh);
if (vtimeh) api1_5 = 1;
if (hasAPI1_5() && cfg.video_info)
{
static char str[128], res1[16], res2[16];
float vrateh = 100000000;
if (vtimeh) vrateh /= vtimeh; else vrateh = 0;
sprintf(res1, "%dx%d%s", width, height, (res & 0x100) ? "i" : "");
sprintf(res2, "%dx%d", v_cur.item[1], v_cur.item[5]);
sprintf(str, "%9s %6.2fKHz %4.1fHz\n" \
"\x81\x81\x81\x81\x81\x81\x81\x81\x81\x81\x81\x81\x81\x81\x81\x81\x81\x81\x81\x81\x81\x81\x81\x81\x81\x81\n" \
"%9s %6.2fMHz %4.1fHz",
res1, hrate, vrate, res2, v_cur.Fpix, vrateh);
Info(str, cfg.video_info * 1000);
}
uint32_t scrh = v_cur.item[5];
if (scrh)
{
if (cfg.vscale_mode && height)
{
uint32_t div = 1 << (cfg.vscale_mode - 1);
uint32_t mag = (scrh*div) / height;
scrh = (height * mag) / div;
printf("Set vertical scaling to : %d\n", scrh);
spi_uio_cmd16(UIO_SETHEIGHT, scrh);
}
else if(cfg.vscale_border)
{
uint32_t border = cfg.vscale_border * 2;
if ((border + 100) > scrh) border = scrh - 100;
scrh -= border;
printf("Set max vertical resolution to : %d\n", scrh);
spi_uio_cmd16(UIO_SETHEIGHT, scrh);
}
else
{
spi_uio_cmd16(UIO_SETHEIGHT, 0);
}
}
uint32_t scrw = v_cur.item[1];
if (scrw)
{
if (cfg.vscale_border && !(cfg.vscale_mode && height))
{
uint32_t border = cfg.vscale_border * 2;
if ((border + 100) > scrw) border = scrw - 100;
scrw -= border;
printf("Set max horizontal resolution to : %d\n", scrw);
spi_uio_cmd16(UIO_SETWIDTH, scrw);
}
else
{
spi_uio_cmd16(UIO_SETWIDTH, 0);
}
}
if (vtime && vtimeh) ret = vtime;
minimig_set_adjust(2);
}
else
{
DisableIO();
}
return force ? 0 : ret;
}
void video_mode_adjust()
{
static int force = 0;
uint32_t vtime = show_video_info(force);
force = 0;
if (vtime && cfg.vsync_adjust && !is_menu())
{
printf("\033[1;33madjust_video_mode(%u): vsync_adjust=%d", vtime, cfg.vsync_adjust);
int adjust = 1;
vmode_custom_t *v = &v_def;
if (vmode_pal || vmode_ntsc)
{
if (vtime > 1800000)
{
if (vmode_pal)
{
printf(", using PAL mode");
v = &v_pal;
}
else
{
printf(", PAL mode cannot be used. Using predefined NTSC mode");
v = &v_ntsc;
adjust = 0;
}
}
else
{
if (vmode_ntsc)
{
printf(", using NTSC mode");
v = &v_ntsc;
}
else
{
printf(", NTSC mode cannot be used. Using predefined PAL mode");
v = &v_pal;
adjust = 0;
}
}
}
printf(".\033[0m\n");
double Fpix = 0;
if (adjust)
{
Fpix = 100 * (v->item[1] + v->item[2] + v->item[3] + v->item[4]) * (v->item[5] + v->item[6] + v->item[7] + v->item[8]);
Fpix /= vtime;
if (Fpix < 2.f || Fpix > 300.f)
{
printf("Estimated Fpix(%.4f MHz) is outside supported range. Canceling auto-adjust.\n", Fpix);
Fpix = 0;
}
uint32_t hz = 100000000 / vtime;
if (cfg.refresh_min && hz < cfg.refresh_min)
{
printf("Estimated frame rate (%d Hz) is less than MONITOR_HZ_MIN(%d Hz). Canceling auto-adjust.\n", hz, cfg.refresh_min);
Fpix = 0;
}
if (cfg.refresh_max && hz > cfg.refresh_max)
{
printf("Estimated frame rate (%d Hz) is more than MONITOR_HZ_MAX(%d Hz). Canceling auto-adjust.\n", hz, cfg.refresh_max);
Fpix = 0;
}