https://bitbucket.org/daniel_fort/magic-lantern
Tip revision: 63a11348067cd0d68c581543914edba48dbb37d9 authored by Daniel Fort on 27 November 2017, 03:05:32 UTC
Fixed addresses for EOSM.
Fixed addresses for EOSM.
Tip revision: 63a1134
dot_tune.c
/**
* Dot-Tune AFMA tuning method by Horshack
* http://www.magiclantern.fm/forum/index.php?topic=4648
*/
#include "dryos.h"
#include "property.h"
#include "menu.h"
#include "bmp.h"
#include "lens.h"
#include "module.h"
#include "focus.h"
#include "shoot.h"
#include "beep.h"
#include "zebra.h"
/* afma.c */
extern void set_afma_mode(int mode);
extern int get_afma_mode();
extern int get_afma_max();
extern int get_config_afma_wide_tele();
/* lens.c */
extern void restore_af_button_assignment();
extern void assign_af_button_to_halfshutter();
/* state-object.c */
extern int display_is_on();
static int afma_wide_tele = 0;
static int AFMA_MAX = 0;
#define AFMA_SCAN_PASSES_MAX 10
static int afma_mode = AFMA_MODE_AUTODETECT;
static int afma_mode_index = 0;
static int afma_scan_range_index = 0;
static int afma_scan_passes = 4;
static int afma0;
static void afma_print_status(int8_t* score, int range_expand_factor)
{
int max = 4;
for (int i = -20; i <= 20; i++)
max = MAX(max, score[i+20]);
bmp_fill(45, 0, 0, 720, 20);
char msg[5];
snprintf(msg, sizeof(msg), "-%d", 20 * range_expand_factor);
bmp_printf(SHADOW_FONT(FONT_SMALL), 3, 4, msg);
snprintf(msg, sizeof(msg), "+%d", 20 * range_expand_factor);
bmp_printf(SHADOW_FONT(FONT_SMALL), 695, 4, msg);
for (int i = -20; i <= 20; i++)
{
int x = 353 + i*16;
int s = score[i+20];
int h = s * 16 / max;
if (s) h = MAX(h, 2);
bmp_fill(COLOR_BLACK, x, 2, 14, 16-h);
bmp_fill(COLOR_WHITE, x, 2 + 16-h, 14, h);
}
int afma = get_afma(afma_mode);
int xc = 353 + COERCE(afma / range_expand_factor, -20, 20) * 16;
bmp_fill(COLOR_RED, xc, 2, 14, 16);
snprintf(msg, sizeof(msg), "%d", afma);
bmp_printf(SHADOW_FONT(FONT_SMALL), xc + 8 - strlen(msg)*font_small.width/2, 4, msg);
}
static void afma_print_status_extended(int8_t* score, int range_display_min, int range_display_max)
{
int max = 4;
for (int i = -AFMA_MAX; i <= AFMA_MAX; i++)
max = MAX(max, score[i+AFMA_MAX]);
//fill 0,0 -> 720,20 with color 45
bmp_fill(45, 0, 0, 720, 20);
char msg[5];
snprintf(msg, sizeof(msg), "%d", range_display_min);
bmp_printf(SHADOW_FONT(FONT_SMALL), 3, 4, msg);
snprintf(msg, sizeof(msg), "+%d", range_display_max);
bmp_printf(SHADOW_FONT(FONT_SMALL), 695, 4, msg);
int start_x = 33;
int end_x = 689;
int nb_cells = range_display_max - range_display_min +1 ;
int cell_size = (end_x - start_x) / nb_cells;
//center the histogram
int delta = (end_x - (cell_size * nb_cells) - start_x) / 2;
start_x += delta;
for (int i = range_display_min; i <= range_display_max; i++)
{
int x = start_x + (i-range_display_min)*cell_size;
int s = score[i+AFMA_MAX];
int h = s * 16 / max;
if (s) h = MAX(h, 2);
bmp_fill(COLOR_BLACK, x, 2, cell_size-2, 16-h);
bmp_fill(COLOR_WHITE, x, 2 + 16-h, cell_size-2, h);
}
int afma = get_afma(afma_mode);
int xc = start_x + (COERCE(afma, range_display_min, range_display_max)-range_display_min) * cell_size;
bmp_fill(COLOR_RED, xc, 2, cell_size-2, 16);
snprintf(msg, sizeof(msg), "%d", afma);
bmp_printf(SHADOW_FONT(FONT_SMALL), xc + 8 - strlen(msg)*font_small.width/2, 4, msg);
}
static int wait_for_focus_confirmation_val(int maxTimeToWaitMs, int valToWaitFor)
{
int timeWaitedMs = 0;
for ( ;; )
{
int fc = get_focus_confirmation() ? 1 : 0;
if (fc == valToWaitFor)
return 1; // detected value
if (timeWaitedMs >= maxTimeToWaitMs)
return 0; // timed-out before detecting value
msleep(10);
timeWaitedMs += 10;
}
}
static void afma_auto_tune_automatic()
{
int8_t score[AFMA_MAX*2 +1];
int8_t scanned[AFMA_MAX*2 +1];
for (int i = -AFMA_MAX; i <= AFMA_MAX; i++)
{
score[i+AFMA_MAX] = 0;
scanned[i+AFMA_MAX] = 0;
}
int range_display_min = -20;
int range_display_max = 20;
afma_print_status_extended(score, range_display_min, range_display_max);
msleep(1000);
set_afma(0, afma_mode);
assign_af_button_to_halfshutter();
msleep(100);
SW1(1,100);
// Phase 1: rapid edge detection
int found_focus=0;
int found_focus_min_value=0;
int found_focus_max_value=0;
int found_min_edge=0;
int found_max_edge=0;
int scanned_min=0;
int scanned_max=0;
int last_scanned_direction = 0;
int skipped=0;
while (!found_min_edge || !found_max_edge)
{
int candidate;
if (last_scanned_direction == 0)
{
candidate = 0;
last_scanned_direction = 1;
scanned_min = candidate;
scanned_max = candidate;
}
else
{
if (found_max_edge)
{
candidate = scanned_min - 1;
}
else if (found_min_edge)
{
candidate = scanned_max + 1;
}
else
{
int step = found_focus ? 1 : 5;
last_scanned_direction *= -1;
if (last_scanned_direction == 1)
{
candidate = scanned_max + step;
}
else
{
candidate = scanned_min - step;
}
}
}
// scan candidate
if (candidate < -AFMA_MAX ||
candidate > AFMA_MAX)
{
if (skipped)
{
break;
}
else
{
skipped++;
continue;
}
};
skipped=0;
scanned_min = MIN(scanned_min, candidate);
scanned_max = MAX(scanned_max, candidate);
set_afma(candidate, afma_mode);
msleep(100);
int fc;
// initial focus must occur within 200ms
fc = wait_for_focus_confirmation_val(200, 1);
if (fc)
{
// weak or strong confirmation? use a higher score if strong
// focus must sustain for 500ms to be considered strong
if (!wait_for_focus_confirmation_val(500, 0))
{
// focus sustained
fc = 3;
}
}
if (fc)
{
if (found_focus)
{
found_focus_min_value = MIN(found_focus_min_value, candidate);
found_focus_max_value = MAX(found_focus_max_value, candidate);
}
else
{
found_focus = 1;
found_focus_min_value = candidate;
found_focus_max_value = candidate;
}
}
else
{
if (found_focus &&
candidate <= found_focus_min_value - 5)
{
found_min_edge = 1;
}
if (found_focus &&
candidate >= found_focus_max_value + 5)
{
found_max_edge = 1;
}
}
scanned[candidate+AFMA_MAX]++;
score[candidate+AFMA_MAX] += fc;
range_display_min = MIN(range_display_min, candidate);
range_display_max = MAX(range_display_max, candidate);
afma_print_status_extended(score, range_display_min, range_display_max);
if (!get_halfshutter_pressed())
{
NotifyBox(2000, "Canceled by user.");
goto error;
}
}
if (!found_focus)
{
NotifyBox(5000, "OOF, check focus and contrast.");
goto error;
}
int left = MAX(-AFMA_MAX,found_focus_min_value - 10);
int right = MIN(AFMA_MAX,found_focus_max_value + 10);
// Phase 2: scan range edge to edge
for (int pass = 1 ; pass <= afma_scan_passes; pass++)
{
int direction = ((pass % 2) == 1 ? 1 : -1);
for (int j = 0; j <= right - left; j++)
{
int i = (direction == 1 ? left : right) + direction * j;
// skip values that were already scanned during Phase 1
if (pass == 1 &&
scanned[i+AFMA_MAX] > 0)
continue;
scanned[i+AFMA_MAX]++;
range_display_min = MIN(range_display_min, i);
range_display_max = MAX(range_display_max, i);
set_afma(i, afma_mode);
msleep(100);
int fc;
// initial focus must occur within 200ms
fc = wait_for_focus_confirmation_val(200, 1);
if (fc)
{
// weak or strong confirmation? use a higher score if strong
// focus must sustain for 500ms to be considered strong
if (!wait_for_focus_confirmation_val(500, 0))
// focus sustained
fc = 3;
}
score[i+AFMA_MAX] += fc;
afma_print_status_extended(score, range_display_min, range_display_max);
if (!get_halfshutter_pressed())
{
NotifyBox(2000, "Canceled by user.");
goto error;
}
}
}
SW1(0,100);
restore_af_button_assignment();
beep();
int s = 0;
int w = 0;
for (int i = -AFMA_MAX; i <= AFMA_MAX; i++)
{
// values confirmed multiple times, and/or strongly confirmed, are weighted a lot more
int wi = score[i+AFMA_MAX];
s += (wi * i);
w += wi;
}
if (w < afma_scan_passes*3)
{
NotifyBox(5000, "OOF, check focus and contrast.");
goto error;
}
int afma = s / w;
NotifyBox(10000, "New AFMA: %d", afma);
set_afma(afma, afma_mode);
msleep(300);
afma_print_status_extended(score, range_display_min, range_display_max);
//~ call("dispcheck"); // screenshot
/* all OK */
return;
error:
set_afma(afma0, afma_mode);
SW1(0,100);
restore_af_button_assignment();
beep();
}
static void afma_auto_tune_linear(int range_expand_factor)
{
int8_t score[41];
for (int i = -20; i <= 20; i++) score[i+20] = 0;
afma_print_status(score, range_expand_factor);
msleep(1000);
set_afma(-20 * range_expand_factor, afma_mode);
assign_af_button_to_halfshutter();
msleep(100);
SW1(1,100);
for (int k = 0; k <= (afma_scan_passes-1)/2; k++)
{
for (int c = 0; c <= 80; c++) // -20 ... 20 and back to -20
{
if (c>40 && (k*2+1 >= afma_scan_passes)) break;
int i = (c <= 40) ? c-20 : 60-c;
set_afma(i * range_expand_factor, afma_mode);
msleep(100);
int fc;
// initial focus must occur within 200ms
fc = wait_for_focus_confirmation_val(200, 1);
if (fc)
{
// weak or strong confirmation? use a higher score if strong
// focus must sustain for 500ms to be considered strong
if (!wait_for_focus_confirmation_val(500, 0))
// focus sustained
fc = 3;
}
score[i+20] += fc;
afma_print_status(score, range_expand_factor);
if (!get_halfshutter_pressed())
{
NotifyBox(2000, "Canceled by user.");
goto error;
}
}
}
SW1(0,100);
restore_af_button_assignment();
beep();
int s = 0;
int w = 0;
for (int i = -20; i <= 20; i++)
{
// values confirmed multiple times, and/or strongly confirmed, are weighted a lot more
int wi = score[i+20] * score[i+20] * score[i+20] * score[i+20];
s += (wi * i * range_expand_factor);
w += wi;
}
if (w < 10)
{
NotifyBox(5000, "OOF, check focus and contrast.");
goto error;
}
int afma = s / w;
NotifyBox(10000, "New AFMA: %d", afma);
set_afma(afma, afma_mode);
msleep(300);
afma_print_status(score, range_expand_factor);
//~ call("dispcheck"); // screenshot
if (score[0] > 5 || score[40] > 5) // focus confirmed for extreme values
{
msleep(3000);
beep();
if (range_expand_factor == 1)
NotifyBox(5000, "Try scanning from -40 to +40.");
else if (range_expand_factor == 2)
NotifyBox(5000, "Try scanning from -100 to +100.");
else
NotifyBox(5000, "Double-check the focus target.");
}
/* all OK */
return;
error:
set_afma(afma0, afma_mode);
SW1(0,100);
restore_af_button_assignment();
beep();
}
static void afma_auto_tune()
{
if (get_afma_mode() == AFMA_MODE_DISABLED) return;
afma0 = get_afma(afma_mode);
msleep(1000);
if (is_movie_mode()) { NotifyBox(5000, "Switch to photo mode and try again."); beep(); return; };
if (lv) { close_liveview(); msleep(1000); }
for (int i = 0; i < 5; i++)
{
if (!display_is_on() || !display_idle())
{
module_send_keypress(MODULE_KEY_INFO);
msleep(500);
}
}
if (lv) { NotifyBox(5000, "Turn off LiveView and try again."); beep(); return; }
if (!display_is_on() || !display_idle()) { NotifyBox(5000, "Press %s and try again.", get_info_button_name()); beep(); return; }
if (!is_manual_focus()) { NotifyBox(5000, "Switch to MF and try again."); beep(); return; }
if (!lens_info.name[0]) { NotifyBox(5000, "Attach a chipped lens and try again."); beep(); return; }
NotifyBox(5000, "You should have perfect focus.");
msleep(2000);
NotifyBox(5000, "Leave the camera still...");
msleep(2000);
NotifyBoxHide();
msleep(100);
if (afma_scan_range_index == 0) { afma_auto_tune_automatic(); }
else switch( afma_scan_range_index )
{
case 1:
afma_auto_tune_linear(1); // -20 .. +20
break;
case 2:
afma_auto_tune_linear(2); // -40 .. +40
break;
case 3:
afma_auto_tune_linear(5); // -100 .. +100
break;
}
}
// for toggling
static int afma_mode_to_index(int mode)
{
if (afma_wide_tele)
{
return
(mode == AFMA_MODE_ALL_LENSES) ? 1 :
(mode == AFMA_MODE_PER_LENS_WIDE) ? 2 :
(mode == AFMA_MODE_PER_LENS_TELE) ? 3 :
(mode == AFMA_MODE_PER_LENS) ? 4 :
0 ;
}
else
{
return
(mode == AFMA_MODE_ALL_LENSES) ? 1 :
(mode == AFMA_MODE_PER_LENS) ? 2 :
0 ;
}
}
static int afma_index_to_mode(int index)
{
if (afma_wide_tele)
{
return
(index == 1) ? AFMA_MODE_ALL_LENSES :
(index == 2) ? AFMA_MODE_PER_LENS_WIDE :
(index == 3) ? AFMA_MODE_PER_LENS_TELE :
(index == 4) ? AFMA_MODE_PER_LENS :
AFMA_MODE_DISABLED ;
}
else
{
return
(index == 1) ? AFMA_MODE_ALL_LENSES :
(index == 2) ? AFMA_MODE_PER_LENS :
AFMA_MODE_DISABLED ;
}
}
// sync ML AFMA mode from Canon firmware
static void afma_mode_sync()
{
int mode = get_afma_mode();
// no lens? disable ML AFMA controls
if (!lens_info.name[0])
mode = AFMA_MODE_DISABLED;
if ((afma_mode & 0xFF) != mode)
{
afma_mode = mode;
}
afma_mode_index = afma_mode_to_index(afma_mode);
}
static MENU_UPDATE_FUNC(afma_generic_update)
{
if (!afma_mode)
MENU_SET_WARNING(MENU_WARN_NOT_WORKING, "AFMA is disabled.");
}
static MENU_SELECT_FUNC(afma_scan_range_toggle)
{
int afma_index_max = 3;
if (!lens_info.name[0])
return;
menu_numeric_toggle(&afma_scan_range_index, delta, 0, afma_index_max);
}
static MENU_UPDATE_FUNC(afma_scan_passes_display)
{
MENU_SET_VALUE(
"%d",
afma_scan_passes
);
MENU_SET_ICON(MNI_PERCENT, afma_scan_passes * 100 / AFMA_SCAN_PASSES_MAX);
afma_generic_update(entry, info);
}
static MENU_SELECT_FUNC(afma_scan_passes_toggle)
{
if (afma_mode == AFMA_MODE_DISABLED)
return;
menu_numeric_toggle(&afma_scan_passes, delta, 1, AFMA_SCAN_PASSES_MAX);
}
static MENU_UPDATE_FUNC(afma_display)
{
afma_mode_sync();
int afma = get_afma(afma_mode);
if (afma_mode)
{
MENU_SET_VALUE(
"%s%d",
afma > 0 ? "+" : "", afma
);
if (afma_wide_tele)
{
if (afma_mode == AFMA_MODE_PER_LENS)
{
int w = get_afma(AFMA_MODE_PER_LENS_WIDE);
int t = get_afma(AFMA_MODE_PER_LENS_TELE);
if (w != t)
MENU_SET_VALUE("W:%d T:%d", w, t);
}
}
MENU_SET_ICON(MNI_PERCENT, 50 + afma * 50 / AFMA_MAX);
}
else
{
MENU_SET_VALUE("Disabled");
MENU_SET_ICON(MNI_OFF, 0);
}
afma_generic_update(entry, info);
}
static MENU_SELECT_FUNC(afma_toggle)
{
if (afma_mode == AFMA_MODE_DISABLED)
return;
int afma = get_afma(afma_mode);
menu_numeric_toggle(&afma, delta, -AFMA_MAX, AFMA_MAX);
set_afma(afma, afma_mode);
}
static MENU_SELECT_FUNC(afma_mode_toggle)
{
int afma_index_max = afma_wide_tele ? 4 : 2;
if (!lens_info.name[0])
return;
afma_mode_sync();
menu_numeric_toggle(&afma_mode_index, delta, 0, afma_index_max);
afma_mode = afma_index_to_mode(afma_mode_index);
set_afma_mode(afma_mode);
}
static struct menu_entry afma_menu[] = {
{
.name = "DotTune AFMA",
.select = menu_open_submenu,
.help = "Auto calibrate AF microadjustment ( youtu.be/7zE50jCUPhM )",
.help2 = "Before running, focus manually on a test target in LiveView.",
.depends_on = DEP_CHIPPED_LENS | DEP_PHOTO_MODE,
.submenu_width = 700,
.children = (struct menu_entry[]) {
{
.name = "Start Scan",
.priv = afma_auto_tune,
.select = run_in_separate_task,
.update = afma_generic_update,
.help = "Step 1: achieve critical focus in LiveView with 10x zoom.",
.help2 = "Step 2: run this and leave the camera still for ~2 minutes.",
.depends_on = DEP_MANUAL_FOCUS,
},
{
.name = "Scan type",
.priv = &afma_scan_range_index,
.select = afma_scan_range_toggle,
.min = 0,
.max = 3,
.choices = CHOICES(
"Auto range detection",
"Linear -20 .. +20",
"Linear -40 .. +40",
"Linear -100 .. +100",
),
.help = "AFMA scan type and range",
},
{
.name = "Scan passes",
.update = afma_scan_passes_display,
.select = afma_scan_passes_toggle,
.help = "Number of time to check for focus confirmation.",
.edit_mode = EM_MANY_VALUES,
},
{
.name = "AF microadjust",
.update = afma_display,
.select = afma_toggle,
.help = "Adjust AFMA value manually. Range: -100...+100.",
.edit_mode = EM_MANY_VALUES,
},
MENU_EOL
},
},
};
static struct menu_entry afma_mode_menu_regular[] =
{
{
.name = "AFMA mode",
.priv = &afma_mode_index,
.select = afma_mode_toggle,
.min = 0,
.max = 2,
.choices = CHOICES(
"Disabled",
"All lenses",
"This lens"
),
.help = "Where to apply the AFMA adjustment.",
.icon_type = IT_DICE_OFF,
},
};
static struct menu_entry afma_mode_menu_wide_tele[] =
{
{
.name = "AFMA mode",
.priv = &afma_mode_index,
.select = afma_mode_toggle,
.min = 0,
.max = 4,
.choices = CHOICES(
"Disabled",
"All lenses",
"This lens, wide end",
"This lens, tele end",
"This lens, prime/both",
),
.help = "Where to apply the AFMA adjustment:",
.help2 = " \n"
"All lenses will be adjusted with the same amount.\n"
"For this zoom lens: adjust the wide end only (zoom out).\n"
"For this zoom lens: adjust the tele end only (zoom in).\n"
"For this lens (prime or zoom): adjust for the entire range.\n",
.icon_type = IT_DICE_OFF,
},
};
static unsigned int dottune_init()
{
AFMA_MAX = get_afma_max();
afma_wide_tele = get_config_afma_wide_tele();
if (AFMA_MAX)
{
menu_add("Focus", afma_menu, COUNT(afma_menu));
menu_add("DotTune AFMA", afma_wide_tele ? afma_mode_menu_wide_tele : afma_mode_menu_regular, 1);
return 0;
}
else
{
return CBR_RET_ERROR;
}
}
static unsigned int dottune_deinit()
{
return CBR_RET_ERROR;
}
MODULE_INFO_START()
MODULE_INIT(dottune_init)
MODULE_DEINIT(dottune_deinit)
MODULE_INFO_END()