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Elphel
imagej-elphel
Commits
f6e85676
Commit
f6e85676
authored
Aug 02, 2017
by
Andrey Filippov
Browse files
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Email Patches
Plain Diff
bug fixes
parent
15b80649
Changes
5
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Showing
5 changed files
with
237 additions
and
160 deletions
+237
-160
AlignmentCorrection.java
src/main/java/AlignmentCorrection.java
+131
-59
EyesisCorrectionParameters.java
src/main/java/EyesisCorrectionParameters.java
+8
-3
Eyesis_Correction.java
src/main/java/Eyesis_Correction.java
+3
-3
QuadCLT.java
src/main/java/QuadCLT.java
+94
-94
X3dOutput.java
src/main/java/X3dOutput.java
+1
-1
No files found.
src/main/java/AlignmentCorrection.java
View file @
f6e85676
...
...
@@ -154,16 +154,7 @@ public class AlignmentCorrection {
}
}
/**
* Convert transposed jacobian from {d_dx0,d_dy0, ...,d_dy3} to d_mvi (measurement vectors),
* where sum of measurement vectors squared is minimized. Same matrix multiplications
* is applied to each group of 8 columns. last column in each group is only non-zero if
* disparity is known to be 0;
* @param jt transposed Jacobian of 10/9 rows and 8*n columns
* @return converted transposed Jacobian of the same dimensions
*/
double
[][]
convertJt_mv
(
double
[][]
jt
)
public
double
[][]
get_dMismatch_dXY
()
{
double
[][]
dMismatch_dXY
=
{
// extra 0.5 is because differences dxi, dyi are already *= 0.5/magic
//x0 y0 x1 y1 x2 y2 x3 y3
...
...
@@ -175,6 +166,23 @@ public class AlignmentCorrection {
{
0.0
,
-
0.25
,
0.0
,
-
0.25
,
0.0
,
0.25
,
0.0
,
0.25
},
// mv5 = (dy3 - dy2)/2 = (y3 - y1 - y0 + y2) / 2
{-
0.125
,
0.125
,
0.125
,
0.125
,
-
0.125
,
-
0.125
,
0.125
,
-
0.125
},
// mv6 = (dx0 + dx1 -dy2 - dy3)/4 = (x1 - x0 + x3 - x2 - y2 + y0 - y3 + y1)/4
{-
0.0625
,
-
0.0625
,
0.0625
,-
0.0625
,-
0.0625
,
0.0625
,
0.0625
,
0.0625
}};
// mv7 = (dx0 + dx1 +dy2 + dy3)/8= (x1 - x0 + x3 - x2 + y2 - y0 + y3 - y1)/8
return
dMismatch_dXY
;
}
/**
* Convert transposed jacobian from {d_dx0,d_dy0, ...,d_dy3} to d_mvi (measurement vectors),
* where sum of measurement vectors squared is minimized. Same matrix multiplications
* is applied to each group of 8 columns. last column in each group is only non-zero if
* disparity is known to be 0;
* @param jt transposed Jacobian of 10/9 rows and 8*n columns
* @return converted transposed Jacobian of the same dimensions
*/
double
[][]
convertJt_mv
(
double
[][]
jt
)
{
double
[][]
dMismatch_dXY
=
get_dMismatch_dXY
();
double
[][]
jt_conv
=
new
double
[
jt
.
length
][
jt
[
0
].
length
/
dMismatch_dXY
[
0
].
length
*
dMismatch_dXY
.
length
];
// now dMismatch_dXY is square
// multiplying by transposed dMismatch_dXY
for
(
int
g
=
0
;
g
<
jt
[
0
].
length
/
dMismatch_dXY
[
0
].
length
;
g
++)
{
...
...
@@ -2092,18 +2100,11 @@ B = |+dy0 -dy1 -2*dy3 |
String
[]
dbg_titles_tar
=
GeometryCorrection
.
CORR_NAMES
;
String
[]
dbg_titles_sym
=
{
"sym0"
,
"sym1"
,
"sym2"
,
"sym3"
,
"sym4"
,
"sym5"
,
"sroll0"
,
"sroll1"
,
"sroll2"
,
"sroll3"
};
String
[]
dbg_titles_xy
=
{
"x0"
,
"y0"
,
"x1"
,
"y1"
,
"x2"
,
"y2"
,
"x3"
,
"y3"
};
// String [] dbg_titles_mv= {"dy0","dy1","dx2","dx3","dx1-dx0","dy3-dy2","dh-dv","dhy+dv"};
double
[][]
dbg_img_deriv
=
null
;
// compare derivatives with delta-diffs
// double [][] dbg_xy = null; // jacobian dmv/dsym
// double [][] dbg_mv = null; // jacobian dmv/dsym
double
[][]
dbg_dxy_dsym
=
null
;
// jacobian dxy/dsym
// double [][] dbg_dmv_dsym = null; // jacobian dmv/dsym
if
(
dbg_images
)
{
dbg_img_deriv
=
doubleNaN
(
dbg_titles_xy
.
length
*
dbg_titles_tar
.
length
*
2
,
dbg_length
);
// compare derivatives with delta-diffs
// dbg_xy = doubleNaN(dbg_titles_xy.length, dbg_length); // jacobian dmv/dsym
// dbg_mv = doubleNaN(dbg_titles_mv.length, dbg_length); // jacobian dmv/dsym
dbg_dxy_dsym
=
doubleNaN
(
dbg_titles_xy
.
length
*
dbg_titles_sym
.
length
,
dbg_length
);
// jacobian dxy/dsym
// dbg_dmv_dsym = doubleNaN(dbg_titles_mv.length * dbg_titles_sym.length, dbg_length); // jacobian dmv/dsym
}
int
num_pars
=
0
;
...
...
@@ -2142,30 +2143,8 @@ B = |+dy0 -dy1 -2*dy3 |
}
}
if
(
debugLevel
>
0
){
// double [][] j_partial_debug = new double [2 * NUM_SENSORS][];
double
[][]
deriv_dbg
=
new
double
[
2
*
NUM_SENSORS
][];
double
[]
dbg_a_vector
=
null
;
/*
double [] dbg_a_vector= {
0.0038591302038724394,
-0.08463081841166764,
0.06130822266181911,
-0.036393168371534744,
0.025155872946661495,
0.0,
0.0
};
double [] dbg_a_vector= {
0.5, // 0.0038591302038724394, // 0.0, //
0.0, // -0.08463081841166764,
0.0, // 0.06130822266181911,
0.0, // -0.036393168371534744,
0.0, // 0.025155872946661495,
0.0,
0.0
};
*/
geometryCorrection
.
getPortsCoordinatesAndDerivatives
(
dbg_a_vector
,
// double [] dbg_a_vector, // replace actual radial distortion coefficients
1
E
-
8
,
//6, // double delta, // 1e-6
...
...
@@ -2224,8 +2203,6 @@ B = |+dy0 -dy1 -2*dy3 |
dbg_img_deriv_titles
[
2
*
(
i
*
dbg_titles_tar
.
length
+
j
)
+
1
]=
dbg_titles_xy
[
i
]
+
"_"
+
dbg_titles_tar
[
j
]
+
"delta"
;
}
}
// dbg_xy = new double [dbg_titles_xy.length] [dbg_length]; // jacobian dmv/dsym
// dbg_mv = new double [dbg_titles_mv.length] [dbg_length]; // jacobian dmv/dsym
String
[]
dbg_dxy_dsym_titles
=
new
String
[
dbg_titles_xy
.
length
*
dbg_titles_sym
.
length
];
for
(
int
i
=
0
;
i
<
dbg_titles_xy
.
length
;
i
++){
...
...
@@ -2233,29 +2210,103 @@ B = |+dy0 -dy1 -2*dy3 |
dbg_dxy_dsym_titles
[
i
*
dbg_titles_sym
.
length
+
j
]=
dbg_titles_xy
[
i
]
+
"_"
+
dbg_titles_sym
[
j
];
}
}
// String [] dmv_dmv_dsym_titles = new String [dbg_titles_mv.length * dbg_titles_sym.length];
// for (int i = 0; i < dbg_titles_mv.length; i++){
// for (int j = 0; j < dbg_titles_sym.length; j++){
// dmv_dmv_dsym_titles[i * dbg_titles_sym.length + j]= dbg_titles_mv[i] + "_" +dbg_titles_sym[j];
// }
// }
dbgImgRemoveEmpty
(
dbg_img_deriv
);
// dbgImgRemoveEmpty(dbg_xy);
// dbgImgRemoveEmpty(dbg_mv);
dbgImgRemoveEmpty
(
dbg_dxy_dsym
);
// dbgImgRemoveEmpty(dbg_dmv_dsym);
showDoubleFloatArrays
sdfa_instance
=
new
showDoubleFloatArrays
();
sdfa_instance
.
showArrays
(
dbg_img_deriv
,
dbg_owidth
,
dbg_oheight
,
true
,
"dbg_img_deriv"
,
dbg_img_deriv_titles
);
// sdfa_instance.showArrays(dbg_xy, dbg_owidth, dbg_oheight, true, "dbg_xy", dbg_titles_xy);
// sdfa_instance.showArrays(dbg_mv, dbg_owidth, dbg_oheight, true, "dbg_mv", dbg_titles_mv);
sdfa_instance
.
showArrays
(
dbg_dxy_dsym
,
dbg_owidth
,
dbg_oheight
,
true
,
"dbg_dxy_dsym"
,
dbg_dxy_dsym_titles
);
// sdfa_instance.showArrays(dbg_dmv_dsym, dbg_owidth, dbg_oheight, true, "dbg_dmv_dsym", dmv_dmv_dsym_titles);
}
return
jt
;
}
double
[][]
debug_mv_from_sym_jacobian
(
double
delta
,
boolean
[]
par_mask
,
ArrayList
<
Mismatch
>
mismatch_list
,
GeometryCorrection
geometryCorrection
,
GeometryCorrection
.
CorrVector
corr_vector
,
int
debugLevel
)
{
int
num_pars
=
0
;
for
(
int
i
=
0
;
i
<
par_mask
.
length
;
i
++)
if
(
par_mask
[
i
])
num_pars
++;
double
[][]
jt_mv
=
new
double
[
num_pars
][
2
*
NUM_SENSORS
*
mismatch_list
.
size
()];
double
[]
sym_par_0
=
corr_vector
.
toSymArray
(
par_mask
);
for
(
int
sym_par
=
0
;
sym_par
<
num_pars
;
sym_par
++
)
{
double
[]
sym_par_p
=
sym_par_0
.
clone
();
double
[]
sym_par_m
=
sym_par_0
.
clone
();
sym_par_p
[
sym_par
]
+=
0.5
*
delta
;
sym_par_m
[
sym_par
]
-=
0.5
*
delta
;
GeometryCorrection
.
CorrVector
corr_p
=
geometryCorrection
.
getCorrVector
(
sym_par_p
,
par_mask
);
GeometryCorrection
.
CorrVector
corr_m
=
geometryCorrection
.
getCorrVector
(
sym_par_m
,
par_mask
);
double
[]
mv_p
=
debug_mv_from_sym
(
mismatch_list
,
geometryCorrection
,
corr_p
,
debugLevel
);
double
[]
mv_m
=
debug_mv_from_sym
(
mismatch_list
,
geometryCorrection
,
corr_m
,
debugLevel
);
for
(
int
i
=
0
;
i
<
jt_mv
[
sym_par
].
length
;
i
++){
jt_mv
[
sym_par
][
i
]
=
(
mv_p
[
i
]-
mv_m
[
i
])/
delta
;
}
}
return
jt_mv
;
}
/**
* Debugging jacobian with two coordinate transformations - input and output. Calculating output mv vector
* for all coordinate points for current corr_vector (to use it with delta corr_vecotr)
* @param mismatch_list
* @param geometryCorrection
* @param corr_vector
* @param debugLevel
* @return
*/
double
[]
debug_mv_from_sym
(
// boolean [] par_mask,
ArrayList
<
Mismatch
>
mismatch_list
,
GeometryCorrection
geometryCorrection
,
GeometryCorrection
.
CorrVector
corr_vector
,
int
debugLevel
)
{
double
[][]
dMismatch_dXY
=
(
new
Mismatch
()).
get_dMismatch_dXY
();
// just a static array
double
[]
mv
=
new
double
[
2
*
NUM_SENSORS
*
mismatch_list
.
size
()];
for
(
int
indx
=
0
;
indx
<
mismatch_list
.
size
();
indx
++){
// need indx value
Mismatch
mm
=
mismatch_list
.
get
(
indx
);
double
[]
pXY
=
mm
.
getPXY
();
double
[][]
f
=
geometryCorrection
.
getPortsCoordinatesAndDerivatives
(
// 4x2
corr_vector
,
// CorrVector corr_vector,
null
,
// boolean calc_deriv,
pXY
[
0
],
// double px,
pXY
[
1
],
// double py,
mm
.
getDisparityMeas
());
// getDisparityTask()); // double disparity)
// convert to symmetrical coordianets
// f is [4][2] array of port x,y coordinates - convert them to mv (linear array)
double
[]
mv_partial
=
new
double
[
dMismatch_dXY
.
length
];
for
(
int
i
=
0
;
i
<
mv_partial
.
length
;
i
++){
for
(
int
nsens
=
0
;
nsens
<
NUM_SENSORS
;
nsens
++){
for
(
int
dir
=
0
;
dir
<
2
;
dir
++){
mv_partial
[
i
]+=
f
[
nsens
][
dir
]*
dMismatch_dXY
[
i
][
2
*
nsens
+
dir
];
}
}
}
for
(
int
n
=
0
;
n
<
2
*
NUM_SENSORS
;
n
++){
mv
[
2
*
NUM_SENSORS
*
indx
+
n
]
=
mv_partial
[
n
];
}
}
return
mv
;
}
public
int
dbg_index
(
double
[]
pXY
,
int
decimate
)
{
int
width
=
qc
.
tp
.
getTilesX
()*
qc
.
tp
.
getTileSize
()/
decimate
;
...
...
@@ -2398,6 +2449,9 @@ B = |+dy0 -dy1 -2*dy3 |
double
[][]
jta_mv
=
(
new
Mismatch
()).
convertJt_mv
(
jta
);
//double [][] jt)
Matrix
jt
=
new
Matrix
(
jta_mv
);
double
[]
y_minus_fx_a
=
getYminusFx
(
// mv[0]..mv[7], not the measured data (dx0, dy0, ... dx3, dy3)
mismatch_list
);
// ArrayList<Mismatch> mismatch_list)
...
...
@@ -2427,10 +2481,22 @@ B = |+dy0 -dy1 -2*dy3 |
double
[][]
dbg_xy
=
null
;
// jacobian dmv/dsym
double
[][]
dbg_mv
=
null
;
// jacobian dmv/dsym
double
[][]
dbg_dmv_dsym
=
null
;
// jacobian dmv/dsym
double
[][]
dbg_dmv_dsym_delta
=
null
;
// jacobian dmv/dsym
double
[][]
dbg_dmv_dsym_diff
=
null
;
// jacobian dmv/dsym
if
(
dbg_images
)
{
double
[][]
jta_mv_delta
=
debug_mv_from_sym_jacobian
(
1
e
-
9
,
// 6, // double delta,
par_mask
,
// boolean [] par_mask,
mismatch_list
,
// ArrayList<Mismatch> mismatch_list,
geometryCorrection
,
// GeometryCorrection geometryCorrection,
corr_vector
,
// GeometryCorrection.CorrVector corr_vector)
debugLevel
);
// int debugLevel)
dbg_xy
=
doubleNaN
(
dbg_titles_xy
.
length
,
dbg_length
);
// jacobian dmv/dsym
dbg_mv
=
doubleNaN
(
dbg_titles_mv
.
length
,
dbg_length
);
// jacobian dmv/dsym
dbg_dmv_dsym
=
doubleNaN
(
dbg_titles_mv
.
length
*
dbg_titles_sym
.
length
,
dbg_length
);
// jacobian dmv/dsym
dbg_dmv_dsym_delta
=
doubleNaN
(
dbg_titles_mv
.
length
*
dbg_titles_sym
.
length
,
dbg_length
);
// jacobian dmv/dsym
dbg_dmv_dsym_diff
=
doubleNaN
(
dbg_titles_mv
.
length
*
dbg_titles_sym
.
length
,
dbg_length
);
// jacobian dmv/dsym
// dbg_xy = new double [dbg_titles_xy.length] [dbg_length]; // jacobian dmv/dsym
// dbg_mv = new double [dbg_titles_mv.length] [dbg_length]; // jacobian dmv/dsym
...
...
@@ -2464,6 +2530,8 @@ B = |+dy0 -dy1 -2*dy3 |
System
.
out
.
println
(
"solveCorr(): dbg_dmv_dsym.length="
+
dbg_dmv_dsym
.
length
+
", dbg_dmv_dsym[0].length="
+
dbg_dmv_dsym
[
0
].
length
);
}
dbg_dmv_dsym
[
i
*
dbg_titles_sym
.
length
+
j
][
dbg_index
]
=
jta_mv
[
oj
][
dbg_titles_mv
.
length
*
indx
+
i
];
//java.lang.ArrayIndexOutOfBoundsException: 3552
dbg_dmv_dsym_delta
[
i
*
dbg_titles_sym
.
length
+
j
][
dbg_index
]
=
jta_mv_delta
[
oj
][
dbg_titles_mv
.
length
*
indx
+
i
];
dbg_dmv_dsym_diff
[
i
*
dbg_titles_sym
.
length
+
j
][
dbg_index
]
=
jta_mv_delta
[
oj
][
dbg_titles_mv
.
length
*
indx
+
i
]
-
jta_mv
[
oj
][
dbg_titles_mv
.
length
*
indx
+
i
];
oj
++;
}
}
...
...
@@ -2472,11 +2540,15 @@ B = |+dy0 -dy1 -2*dy3 |
dbgImgRemoveEmpty
(
dbg_xy
);
dbgImgRemoveEmpty
(
dbg_xy
);
dbgImgRemoveEmpty
(
dbg_dmv_dsym
);
dbgImgRemoveEmpty
(
dbg_dmv_dsym_delta
);
dbgImgRemoveEmpty
(
dbg_dmv_dsym_diff
);
showDoubleFloatArrays
sdfa_instance
=
new
showDoubleFloatArrays
();
sdfa_instance
.
showArrays
(
dbg_xy
,
dbg_owidth
,
dbg_oheight
,
true
,
"dbg_xy"
,
dbg_titles_xy
);
sdfa_instance
.
showArrays
(
dbg_mv
,
dbg_owidth
,
dbg_oheight
,
true
,
"dbg_mv"
,
dbg_titles_mv
);
sdfa_instance
.
showArrays
(
dbg_dmv_dsym
,
dbg_owidth
,
dbg_oheight
,
true
,
"dbg_dmv_dsym"
,
dbg_dmv_dsym_titles
);
sdfa_instance
.
showArrays
(
dbg_dmv_dsym_delta
,
dbg_owidth
,
dbg_oheight
,
true
,
"delta_dmv_dsym"
,
dbg_dmv_dsym_titles
);
sdfa_instance
.
showArrays
(
dbg_dmv_dsym_diff
,
dbg_owidth
,
dbg_oheight
,
true
,
"diff_dmv_dsym"
,
dbg_dmv_dsym_titles
);
}
if
(
debugLevel
>-
1
)
{
jtj
.
print
(
18
,
6
);
...
...
src/main/java/EyesisCorrectionParameters.java
View file @
f6e85676
...
...
@@ -2140,6 +2140,7 @@ public class EyesisCorrectionParameters {
public
boolean
avg_cluster_disp
=
false
;
// Weight-average disparity for the whole cluster
public
double
maxDispTriangle
=
0.2
;
// Maximal relative disparity difference in a triangle face
public
double
infinityDistance
=
10000
;
// Distance to generate backdrop (0 - use regular backdrop)
public
int
min_bgnd_tiles
=
10
;
// Minimal number of background tiles to generate background
public
boolean
shUseFlaps
=
true
;
// Split into shells with flaps
public
boolean
shAggrFade
=
true
;
// Aggressive fade alpha (whole boundary)
public
int
shMinArea
=
1
;
// Minimal shell area (not counting flaps
...
...
@@ -2758,6 +2759,7 @@ public class EyesisCorrectionParameters {
properties
.
setProperty
(
prefix
+
"avg_cluster_disp"
,
this
.
avg_cluster_disp
+
""
);
properties
.
setProperty
(
prefix
+
"maxDispTriangle"
,
this
.
maxDispTriangle
+
""
);
properties
.
setProperty
(
prefix
+
"infinityDistance"
,
this
.
infinityDistance
+
""
);
properties
.
setProperty
(
prefix
+
"min_bgnd_tiles"
,
this
.
min_bgnd_tiles
+
""
);
properties
.
setProperty
(
prefix
+
"shUseFlaps"
,
this
.
shUseFlaps
+
""
);
properties
.
setProperty
(
prefix
+
"shAggrFade"
,
this
.
shAggrFade
+
""
);
properties
.
setProperty
(
prefix
+
"shMinArea"
,
this
.
shMinArea
+
""
);
...
...
@@ -3335,6 +3337,7 @@ public class EyesisCorrectionParameters {
if
(
properties
.
getProperty
(
prefix
+
"avg_cluster_disp"
)!=
null
)
this
.
avg_cluster_disp
=
Boolean
.
parseBoolean
(
properties
.
getProperty
(
prefix
+
"avg_cluster_disp"
));
if
(
properties
.
getProperty
(
prefix
+
"maxDispTriangle"
)!=
null
)
this
.
maxDispTriangle
=
Double
.
parseDouble
(
properties
.
getProperty
(
prefix
+
"maxDispTriangle"
));
if
(
properties
.
getProperty
(
prefix
+
"infinityDistance"
)!=
null
)
this
.
infinityDistance
=
Double
.
parseDouble
(
properties
.
getProperty
(
prefix
+
"infinityDistance"
));
if
(
properties
.
getProperty
(
prefix
+
"min_bgnd_tiles"
)!=
null
)
this
.
min_bgnd_tiles
=
Integer
.
parseInt
(
properties
.
getProperty
(
prefix
+
"min_bgnd_tiles"
));
if
(
properties
.
getProperty
(
prefix
+
"shUseFlaps"
)!=
null
)
this
.
shUseFlaps
=
Boolean
.
parseBoolean
(
properties
.
getProperty
(
prefix
+
"shUseFlaps"
));
if
(
properties
.
getProperty
(
prefix
+
"shAggrFade"
)!=
null
)
this
.
shAggrFade
=
Boolean
.
parseBoolean
(
properties
.
getProperty
(
prefix
+
"shAggrFade"
));
if
(
properties
.
getProperty
(
prefix
+
"shMinArea"
)!=
null
)
this
.
shMinArea
=
Integer
.
parseInt
(
properties
.
getProperty
(
prefix
+
"shMinArea"
));
...
...
@@ -3809,7 +3812,7 @@ public class EyesisCorrectionParameters {
gd
.
addNumericField
(
"X 3"
,
this
.
fine_corr_x_3
,
3
);
gd
.
addNumericField
(
"Y 4"
,
this
.
fine_corr_y_3
,
3
);
gd
.
addNumericField
(
"
Y 4"
,
this
.
fcorr_radius
,
3
);
gd
.
addNumericField
(
"
fcorr_radius"
,
this
.
fcorr_radius
,
3
);
gd
.
addNumericField
(
"Do not try to correct outside this fraction of width/hight"
,
this
.
fcorr_min_strength
,
3
);
gd
.
addNumericField
(
"Consider only tiles with absolute residual disparity lower than"
,
this
.
fcorr_disp_diff
,
3
);
gd
.
addCheckbox
(
"Use quadratic polynomial for fine correction (false - only linear)"
,
this
.
fcorr_quadratic
);
...
...
@@ -3940,6 +3943,7 @@ public class EyesisCorrectionParameters {
gd
.
addCheckbox
(
"Weight-average disparity for the whole cluster "
,
this
.
avg_cluster_disp
);
gd
.
addNumericField
(
"Maximal disparity difference in a triangle face to show"
,
this
.
maxDispTriangle
,
6
);
gd
.
addNumericField
(
"Distance to generate backdrop (0 - use regular backdrop)"
,
this
.
infinityDistance
,
8
);
gd
.
addNumericField
(
" Minimal number of background tiles to generate background"
,
this
.
min_bgnd_tiles
,
0
);
gd
.
addCheckbox
(
"Split into shells with flaps"
,
this
.
shUseFlaps
);
gd
.
addCheckbox
(
"Aggressive fade alpha (whole boundary)"
,
this
.
shAggrFade
);
...
...
@@ -4549,6 +4553,7 @@ public class EyesisCorrectionParameters {
this
.
avg_cluster_disp
=
gd
.
getNextBoolean
();
this
.
maxDispTriangle
=
gd
.
getNextNumber
();
this
.
infinityDistance
=
gd
.
getNextNumber
();
this
.
min_bgnd_tiles
=
(
int
)
gd
.
getNextNumber
();
this
.
shUseFlaps
=
gd
.
getNextBoolean
();
this
.
shAggrFade
=
gd
.
getNextBoolean
();
this
.
shMinArea
=
(
int
)
gd
.
getNextNumber
();
...
...
src/main/java/Eyesis_Correction.java
View file @
f6e85676
...
...
@@ -501,7 +501,7 @@ private Panel panel1,
addButton
(
"CLT process files"
,
panelClt1
,
color_process
);
addButton
(
"CLT process sets"
,
panelClt1
,
color_process
);
addButton
(
"CLT process quads"
,
panelClt1
,
color_process
);
// addButton("CLT
process corr
", panelClt1, color_conf_process);
// addButton("CLT
4 images
", panelClt1, color_conf_process);
// addButton("CLT disparity scan", panelClt1, color_conf_process);
// addButton("CLT reset fine corr", panelClt1, color_stop);
// addButton("CLT show fine corr", panelClt1, color_configure);
...
...
@@ -528,7 +528,7 @@ private Panel panel1,
// addButton("CLT process files", panelClt2, color_process);
// addButton("CLT process sets", panelClt2, color_process);
// addButton("CLT process quads", panelClt2, color_process);
addButton
(
"CLT
process corr
"
,
panelClt2
,
color_conf_process
);
addButton
(
"CLT
4 images
"
,
panelClt2
,
color_conf_process
);
addButton
(
"CLT disparity scan"
,
panelClt2
,
color_conf_process
);
addButton
(
"CLT reset fine corr"
,
panelClt2
,
color_stop
);
addButton
(
"CLT reset extrinsic corr"
,
panelClt2
,
color_stop
);
...
...
@@ -4475,7 +4475,7 @@ private Panel panel1,
return
;
}
else
if
(
label
.
equals
(
"CLT
process corr
"
)
||
label
.
equals
(
"CLT apply fine corr"
)
||
label
.
equals
(
"CLT infinity corr"
))
{
}
else
if
(
label
.
equals
(
"CLT
4 images
"
)
||
label
.
equals
(
"CLT apply fine corr"
)
||
label
.
equals
(
"CLT infinity corr"
))
{
boolean
apply_corr
=
label
.
equals
(
"CLT apply fine corr"
);
boolean
infinity_corr
=
label
.
equals
(
"CLT infinity corr"
);
DEBUG_LEVEL
=
MASTER_DEBUG_LEVEL
;
...
...
src/main/java/QuadCLT.java
View file @
f6e85676
...
...
@@ -5166,7 +5166,7 @@ public class QuadCLT {
// }
bgnd_data
.
texture
=
imp_bgnd
.
getTitle
()+
(
clt_parameters
.
black_back
?
".jpeg"
:
".png"
);
bgnd_data
.
texture
=
(
imp_bgnd
==
null
)?
null
:
(
imp_bgnd
.
getTitle
()+
(
clt_parameters
.
black_back
?
".jpeg"
:
".png"
)
);
// create x3d file
X3dOutput
x3dOutput
=
new
X3dOutput
(
...
...
@@ -5176,10 +5176,11 @@ public class QuadCLT {
tp
.
clt_3d_passes
);
x3dOutput
.
generateBackground
(
clt_parameters
.
infinityDistance
<=
0.0
);
// needs just first (background) scan
/*
String x3d_path= correctionsParameters.selectX3dDirectory(
true, // smart,
true); //newAllowed, // save
*/
// refine first measurement
int
bg_pass
=
tp
.
clt_3d_passes
.
size
()
-
1
;
// 0
int
refine_pass
=
tp
.
clt_3d_passes
.
size
();
// 1
...
...
@@ -6182,14 +6183,6 @@ public class QuadCLT {
tp
.
clt_3d_passes
.
add
(
latest_scan
);
// put it back
}
int
next_pass
=
tp
.
clt_3d_passes
.
size
();
//
// tp.showScan(
// tp.clt_3d_passes.get(0), // CLTPass3d scan,
// "bg_scan"); //String title)
// tp.showScan(
// tp.clt_3d_passes.get(next_pass-1), // CLTPass3d scan,
// "after_pass2-"+(next_pass-1)); //String title)
// tp.thirdPassSetup( // prepare tile tasks for the second pass based on the previous one(s)
tp
.
thirdPassSetupSurf
(
// prepare tile tasks for the second pass based on the previous one(s) // needs last scan
clt_parameters
,
clt_parameters
.
bgnd_range
,
// double disparity_far,
...
...
@@ -6233,31 +6226,30 @@ public class QuadCLT {
x3dOutput
.
generateBackground
(
clt_parameters
.
infinityDistance
<=
0.0
);
// needs just first (background) scan
}
int
bgndIndex
=
0
;
// it already exists?
CLTPass3d
bgndScan
=
tp
.
clt_3d_passes
.
get
(
bgndIndex
);
// boolean [] bgnd_sel = bgndScan.getSelected().clone();
// int num_bgnd = 0;
// for (int i = 0; i < bgnd_sel.length; i++) if (bgnd_sel[i]) num_bgnd++;
// if (num_bgnd >= clt_parameters.min_bgnd_tiles) { // TODO: same for the backdrop too
if
(
bgndScan
.
texture
!=
null
)
{
// TODO: same for the backdrop too
if
(
clt_parameters
.
infinityDistance
>
0.0
){
// generate background as a billboard
// tp.showScan(
// tp.clt_3d_passes.get(0), // CLTPass3d scan,
// "bg_scan_inf"); //String title)
double
infinity_disparity
=
geometryCorrection
.
getDisparityFromZ
(
clt_parameters
.
infinityDistance
);
int
scanIndex
=
0
;
// it already exists?
CLTPass3d
scan
=
tp
.
clt_3d_passes
.
get
(
scanIndex
);
// grow selection, then grow once more and create border_tiles
// create/rstore, probably not needed
boolean
[]
bg_sel_backup
=
s
can
.
getSelected
().
clone
();
boolean
[]
bg_border_backup
=
(
scan
.
getBorderTiles
()
==
null
)
?
null
:
s
can
.
getBorderTiles
().
clone
();
boolean
[]
bg_selected
=
s
can
.
getSelected
();
// tp.growTiles(
// 2, // grow tile selection by 1 over non-background tiles 1: 4 directions, 2 - 8 directions, 3 - 8 by 1, 4 by 1 more
// bg_selected,
// null); // prohibit
boolean
[]
bg_sel_backup
=
bgndS
can
.
getSelected
().
clone
();
boolean
[]
bg_border_backup
=
(
bgndScan
.
getBorderTiles
()
==
null
)
?
null
:
bgndS
can
.
getBorderTiles
().
clone
();
boolean
[]
bg_selected
=
bgndS
can
.
getSelected
();
// tp.growTiles(
// 2, // grow tile selection by 1 over non-background tiles 1: 4 directions, 2 - 8 directions, 3 - 8 by 1, 4 by 1 more
// bg_selected,
// null); // prohibit
boolean
[]
border_tiles
=
bg_selected
.
clone
();
tp
.
growTiles
(
2
,
// grow tile selection by 1 over non-background tiles 1: 4 directions, 2 - 8 directions, 3 - 8 by 1, 4 by 1 more
bg_selected
,
null
);
// prohibit
// for (int)
// for (int)
for
(
int
i
=
0
;
i
<
border_tiles
.
length
;
i
++){
border_tiles
[
i
]
=
!
border_tiles
[
i
]
&&
bg_selected
[
i
];
...
...
@@ -6266,19 +6258,19 @@ public class QuadCLT {
for
(
int
ty
=
0
;
ty
<
tilesY
;
ty
++){
for
(
int
tx
=
0
;
tx
<
tilesX
;
tx
++){
if
(!
bg_selected
[
tx
+
tilesX
*
ty
]){
s
can
.
texture_tiles
[
ty
][
tx
]
=
null
;
bgndS
can
.
texture_tiles
[
ty
][
tx
]
=
null
;
}
}
}
s
can
.
setBorderTiles
(
border_tiles
);
bgndS
can
.
setBorderTiles
(
border_tiles
);
// updates selection from non-null texture tiles
String
texturePath
=
getPassImage
(
// get image from a single pass
clt_parameters
,
colorProcParameters
,
rgbParameters
,
this
.
image_name
+
"-img_infinity"
,
// +scanIndex,
scan
Index
,
bgnd
Index
,
threadsMax
,
// maximal number of threads to launch
updateStatus
,
debugLevel
);
...
...
@@ -6288,9 +6280,9 @@ public class QuadCLT {
for
(
int
ty
=
0
;
ty
<
tilesY
;
ty
++)
for
(
int
tx
=
0
;
tx
<
tilesX
;
tx
++){
scan_disparity
[
indx
++]
=
infinity_disparity
;
}
// tp.showScan(
// scan, // CLTPass3d scan,
// "infinityDistance");
// tp.showScan(
// scan, // CLTPass3d scan,
// "infinityDistance");
boolean
showTri
=
false
;
// ((scanIndex < next_pass + 1) && clt_parameters.show_triangles) ||((scanIndex - next_pass) == 73);
try
{
...
...
@@ -6300,8 +6292,8 @@ public class QuadCLT {
texturePath
,
"INFINITY"
,
// id (scanIndex - next_pass), // id
"INFINITY"
,
// class
s
can
.
getTextureBounds
(),
s
can
.
selected
,
bgndS
can
.
getTextureBounds
(),
bgndS
can
.
selected
,
scan_disparity
,
// scan.disparity_map[ImageDtt.DISPARITY_INDEX_CM],
clt_parameters
.
transform_size
,
clt_parameters
.
correct_distortions
,
// requires backdrop image to be corrected also
...
...
@@ -6315,10 +6307,10 @@ public class QuadCLT {
return
false
;
}
// maybe not needed
scan
.
setBorderTiles
(
bg_border_backup
);
scan
.
setSelected
(
bg_sel_backup
);
bgndScan
.
setBorderTiles
(
bg_border_backup
);
bgndScan
.
setSelected
(
bg_sel_backup
);
}
}
...
...
@@ -6620,6 +6612,7 @@ public class QuadCLT {
sdfa_instance
.
showArrays
(
dbg_img
,
tilesX
,
tilesY
,
true
,
"strict_grown"
,
titles
);
}
int
num_bgnd
=
0
;
double
[][][][]
texture_tiles_bgnd
=
new
double
[
tilesY
][
tilesX
][][];
double
[]
alpha_zero
=
new
double
[
4
*
clt_parameters
.
transform_size
*
clt_parameters
.
transform_size
];
int
alpha_index
=
3
;
...
...
@@ -6632,6 +6625,7 @@ public class QuadCLT {
bgnd_tiles_grown2
[
tileY
*
tilesX
+
tileX
])
{
if
(
bgnd_tiles
[
tileY
*
tilesX
+
tileX
])
{
texture_tiles_bgnd
[
tileY
][
tileX
]=
texture_tiles
[
tileY
][
tileX
];
num_bgnd
++;
}
else
{
texture_tiles_bgnd
[
tileY
][
tileX
]=
texture_tiles
[
tileY
][
tileX
].
clone
();
texture_tiles_bgnd
[
tileY
][
tileX
][
alpha_index
]
=
alpha_zero
;
...
...
@@ -6647,6 +6641,7 @@ public class QuadCLT {
bgnd_tiles
[
tileY
*
tilesX
+
tileX
])
{
if
(
bgnd_tiles_grown2
[
tileY
*
tilesX
+
tileX
])
{
texture_tiles_bgnd
[
tileY
][
tileX
]=
texture_tiles
[
tileY
][
tileX
];
num_bgnd
++;
}
else
{
texture_tiles_bgnd
[
tileY
][
tileX
]=
texture_tiles
[
tileY
][
tileX
].
clone
();
texture_tiles_bgnd
[
tileY
][
tileX
][
alpha_index
]
=
alpha_zero
;
...
...
@@ -6656,6 +6651,11 @@ public class QuadCLT {
}
}
if
(
num_bgnd
<
clt_parameters
.
min_bgnd_tiles
){
return
null
;
// no background to generate
}
ImageDtt
image_dtt
=
new
ImageDtt
();
double
[][]
texture_overlap
=
image_dtt
.
combineRGBATiles
(
texture_tiles_bgnd
,
// texture_tiles, // array [tp.tilesY][tp.tilesX][4][4*transform_size] or [tp.tilesY][tp.tilesX]{null}
...
...
src/main/java/X3dOutput.java
View file @
f6e85676
...
...
@@ -97,7 +97,7 @@ public class X3dOutput {
Element
el_Bgnd
=
x3dDoc
.
createElement
(
"Background"
);
el_Bgnd
.
setAttribute
(
"class"
,
"Background"
);
el_Bgnd
.
setAttribute
(
"id"
,
"Background"
);
if
(
use_backdrop
)
{
if
(
use_backdrop
&&
(
bgnd_pass
.
texture
!=
null
)
)
{
el_Bgnd
.
setAttribute
(
"frontUrl"
,
bgnd_pass
.
texture
);
// temporarily - add same picture to all other sides. Actually - any square will work, make some
// perspective grids/ colors to simplify orientation when looking wrong way
...
...
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