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Elphel
imagej-elphel
Commits
624db0c0
Commit
624db0c0
authored
Sep 07, 2021
by
Andrey Filippov
Browse files
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Updating ExtrinsicAdjustment for variable number of sensors
parent
31555875
Changes
5
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5 changed files
with
1136 additions
and
188 deletions
+1136
-188
ExtrinsicAdjustment.java
.../com/elphel/imagej/tileprocessor/ExtrinsicAdjustment.java
+244
-136
ImageDtt.java
src/main/java/com/elphel/imagej/tileprocessor/ImageDtt.java
+14
-14
ImageDttCPU.java
...ain/java/com/elphel/imagej/tileprocessor/ImageDttCPU.java
+853
-26
QuadCLT.java
src/main/java/com/elphel/imagej/tileprocessor/QuadCLT.java
+9
-2
QuadCLTCPU.java
...main/java/com/elphel/imagej/tileprocessor/QuadCLTCPU.java
+16
-10
No files found.
src/main/java/com/elphel/imagej/tileprocessor/ExtrinsicAdjustment.java
View file @
624db0c0
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Click to expand it.
src/main/java/com/elphel/imagej/tileprocessor/ImageDtt.java
View file @
624db0c0
...
@@ -3334,7 +3334,7 @@ public class ImageDtt extends ImageDttCPU {
...
@@ -3334,7 +3334,7 @@ public class ImageDtt extends ImageDttCPU {
dbg_img
[
18
][
nclust
]
=
lma_ds
[
0
][
0
]
+
disparity_array_center
[
clustY
][
clustX
]
+
disparity_corr
;
dbg_img
[
18
][
nclust
]
=
lma_ds
[
0
][
0
]
+
disparity_array_center
[
clustY
][
clustX
]
+
disparity_corr
;
}
}
if
((
lma_ds
[
0
]
!=
null
)
&&
(
lma_ds
[
0
][
1
]>
0.0
))
{
if
((
lma_ds
[
0
]
!=
null
)
&&
(
lma_ds
[
0
][
1
]>
0.0
))
{
lazy_eye_data
[
nclust
]
=
new
double
[
ExtrinsicAdjustment
.
INDX_LENGTH
];
lazy_eye_data
[
nclust
]
=
new
double
[
ExtrinsicAdjustment
.
get_INDX_LENGTH
(
numSensors
)
];
lazy_eye_data
[
nclust
][
ExtrinsicAdjustment
.
INDX_STRENGTH
]
=
strengh_k
*
lma_ds
[
0
][
1
]
*
num_in_cluster
[
clustY
][
clustX
];
lazy_eye_data
[
nclust
][
ExtrinsicAdjustment
.
INDX_STRENGTH
]
=
strengh_k
*
lma_ds
[
0
][
1
]
*
num_in_cluster
[
clustY
][
clustX
];
lazy_eye_data
[
nclust
][
ExtrinsicAdjustment
.
INDX_DISP
]
=
lma_ds
[
0
][
0
]
+
disparity_array_center
[
clustY
][
clustX
]
+
disparity_corr
;
lazy_eye_data
[
nclust
][
ExtrinsicAdjustment
.
INDX_DISP
]
=
lma_ds
[
0
][
0
]
+
disparity_array_center
[
clustY
][
clustX
]
+
disparity_corr
;
lazy_eye_data
[
nclust
][
ExtrinsicAdjustment
.
INDX_TARGET
]
=
(
disparity_array_center
[
clustY
][
clustX
]
+
disparity_corr
);
lazy_eye_data
[
nclust
][
ExtrinsicAdjustment
.
INDX_TARGET
]
=
(
disparity_array_center
[
clustY
][
clustX
]
+
disparity_corr
);
...
@@ -3342,21 +3342,21 @@ public class ImageDtt extends ImageDttCPU {
...
@@ -3342,21 +3342,21 @@ public class ImageDtt extends ImageDttCPU {
lazy_eye_data
[
nclust
][
ExtrinsicAdjustment
.
INDX_PX
+
0
]
=
pxpy
[
clustY
][
clustX
][
0
];
lazy_eye_data
[
nclust
][
ExtrinsicAdjustment
.
INDX_PX
+
0
]
=
pxpy
[
clustY
][
clustX
][
0
];
lazy_eye_data
[
nclust
][
ExtrinsicAdjustment
.
INDX_PX
+
1
]
=
pxpy
[
clustY
][
clustX
][
1
];
lazy_eye_data
[
nclust
][
ExtrinsicAdjustment
.
INDX_PX
+
1
]
=
pxpy
[
clustY
][
clustX
][
1
];
for
(
int
cam
=
0
;
cam
<
quad
;
cam
++)
{
for
(
int
cam
=
0
;
cam
<
quad
;
cam
++)
{
lazy_eye_data
[
nclust
][
ExtrinsicAdjustment
.
INDX_DYDDISP0
+
cam
]
=
tile_disp_dist
[
cam
][
2
];
lazy_eye_data
[
nclust
][
ExtrinsicAdjustment
.
get_INDX_DYDDISP0
(
numSensors
)
+
cam
]
=
tile_disp_dist
[
cam
][
2
];
lazy_eye_data
[
nclust
][
ExtrinsicAdjustment
.
INDX_PYDIST
+
cam
]
=
clust_pY
[
clustY
][
clustX
][
cam
];
lazy_eye_data
[
nclust
][
ExtrinsicAdjustment
.
get_INDX_PYDIST
(
numSensors
)
+
cam
]
=
clust_pY
[
clustY
][
clustX
][
cam
];
}
}
for
(
int
cam
=
0
;
cam
<
ddnd
.
length
;
cam
++)
{
for
(
int
cam
=
0
;
cam
<
ddnd
.
length
;
cam
++)
{
if
(
ddnd
[
cam
]
!=
null
)
{
//convert to x,y from dd/nd
if
(
ddnd
[
cam
]
!=
null
)
{
//convert to x,y from dd/nd
lazy_eye_data
[
nclust
][
2
*
cam
+
ExtrinsicAdjustment
.
INDX_X0
+
0
]
=
ddnd
[
cam
][
0
]
*
rXY
[
cam
][
0
]
-
ddnd
[
cam
][
1
]
*
rXY
[
cam
][
1
];
lazy_eye_data
[
nclust
][
2
*
cam
+
ExtrinsicAdjustment
.
INDX_X0
+
0
]
=
ddnd
[
cam
][
0
]
*
rXY
[
cam
][
0
]
-
ddnd
[
cam
][
1
]
*
rXY
[
cam
][
1
];
lazy_eye_data
[
nclust
][
2
*
cam
+
ExtrinsicAdjustment
.
INDX_X0
+
1
]
=
ddnd
[
cam
][
0
]
*
rXY
[
cam
][
1
]
+
ddnd
[
cam
][
1
]
*
rXY
[
cam
][
0
];
lazy_eye_data
[
nclust
][
2
*
cam
+
ExtrinsicAdjustment
.
INDX_X0
+
1
]
=
ddnd
[
cam
][
0
]
*
rXY
[
cam
][
1
]
+
ddnd
[
cam
][
1
]
*
rXY
[
cam
][
0
];
lazy_eye_data
[
nclust
][
ExtrinsicAdjustment
.
INDX_DD0
+
cam
]
=
ddnd
[
cam
][
0
];
lazy_eye_data
[
nclust
][
ExtrinsicAdjustment
.
get_INDX_DD0
(
numSensors
)
+
cam
]
=
ddnd
[
cam
][
0
];
lazy_eye_data
[
nclust
][
ExtrinsicAdjustment
.
INDX_ND0
+
cam
]
=
ddnd
[
cam
][
1
];
lazy_eye_data
[
nclust
][
ExtrinsicAdjustment
.
get_INDX_ND0
(
numSensors
)
+
cam
]
=
ddnd
[
cam
][
1
];
}
else
{
}
else
{
lazy_eye_data
[
nclust
][
2
*
cam
+
ExtrinsicAdjustment
.
INDX_X0
+
0
]
=
Double
.
NaN
;
lazy_eye_data
[
nclust
][
2
*
cam
+
ExtrinsicAdjustment
.
INDX_X0
+
0
]
=
Double
.
NaN
;
lazy_eye_data
[
nclust
][
2
*
cam
+
ExtrinsicAdjustment
.
INDX_X0
+
1
]
=
Double
.
NaN
;
lazy_eye_data
[
nclust
][
2
*
cam
+
ExtrinsicAdjustment
.
INDX_X0
+
1
]
=
Double
.
NaN
;
lazy_eye_data
[
nclust
][
ExtrinsicAdjustment
.
INDX_DD0
+
cam
]
=
Double
.
NaN
;
lazy_eye_data
[
nclust
][
ExtrinsicAdjustment
.
get_INDX_DD0
(
numSensors
)
+
cam
]
=
Double
.
NaN
;
lazy_eye_data
[
nclust
][
ExtrinsicAdjustment
.
INDX_ND0
+
cam
]
=
Double
.
NaN
;
lazy_eye_data
[
nclust
][
ExtrinsicAdjustment
.
get_INDX_ND0
(
numSensors
)
+
cam
]
=
Double
.
NaN
;
}
}
}
}
}
}
...
@@ -3652,7 +3652,7 @@ public class ImageDtt extends ImageDttCPU {
...
@@ -3652,7 +3652,7 @@ public class ImageDtt extends ImageDttCPU {
}
}
if
((
lma_ds
[
0
]
!=
null
)
&&
(
lma_ds
[
0
][
1
]>
0.0
))
{
if
((
lma_ds
[
0
]
!=
null
)
&&
(
lma_ds
[
0
][
1
]>
0.0
))
{
lazy_eye_data_final
[
nclust
]
=
new
double
[
ExtrinsicAdjustment
.
INDX_LENGTH
];
lazy_eye_data_final
[
nclust
]
=
new
double
[
ExtrinsicAdjustment
.
get_INDX_LENGTH
(
numSensors
)
];
lazy_eye_data_final
[
nclust
][
ExtrinsicAdjustment
.
INDX_STRENGTH
]
=
strengh_k
*
lma_ds
[
0
][
1
]
*
num_in_cluster_final
[
clustY
][
clustX
];
lazy_eye_data_final
[
nclust
][
ExtrinsicAdjustment
.
INDX_STRENGTH
]
=
strengh_k
*
lma_ds
[
0
][
1
]
*
num_in_cluster_final
[
clustY
][
clustX
];
lazy_eye_data_final
[
nclust
][
ExtrinsicAdjustment
.
INDX_DISP
]
=
lma_ds
[
0
][
0
]
+
disparity_array_center
[
clustY
][
clustX
]
+
disparity_corr
;
lazy_eye_data_final
[
nclust
][
ExtrinsicAdjustment
.
INDX_DISP
]
=
lma_ds
[
0
][
0
]
+
disparity_array_center
[
clustY
][
clustX
]
+
disparity_corr
;
lazy_eye_data_final
[
nclust
][
ExtrinsicAdjustment
.
INDX_TARGET
]
=
disparity_array_center
[
clustY
][
clustX
]
+
disparity_corr
;
lazy_eye_data_final
[
nclust
][
ExtrinsicAdjustment
.
INDX_TARGET
]
=
disparity_array_center
[
clustY
][
clustX
]
+
disparity_corr
;
...
@@ -3660,20 +3660,20 @@ public class ImageDtt extends ImageDttCPU {
...
@@ -3660,20 +3660,20 @@ public class ImageDtt extends ImageDttCPU {
lazy_eye_data_final
[
nclust
][
ExtrinsicAdjustment
.
INDX_PX
+
0
]
=
pxpy_super
[
clustY
][
clustX
][
0
];
lazy_eye_data_final
[
nclust
][
ExtrinsicAdjustment
.
INDX_PX
+
0
]
=
pxpy_super
[
clustY
][
clustX
][
0
];
lazy_eye_data_final
[
nclust
][
ExtrinsicAdjustment
.
INDX_PX
+
1
]
=
pxpy_super
[
clustY
][
clustX
][
1
];
lazy_eye_data_final
[
nclust
][
ExtrinsicAdjustment
.
INDX_PX
+
1
]
=
pxpy_super
[
clustY
][
clustX
][
1
];
for
(
int
cam
=
0
;
cam
<
quad
;
cam
++)
{
for
(
int
cam
=
0
;
cam
<
quad
;
cam
++)
{
lazy_eye_data_final
[
nclust
][
ExtrinsicAdjustment
.
INDX_DYDDISP0
+
cam
]
=
tile_disp_dist
[
cam
][
2
];
lazy_eye_data_final
[
nclust
][
ExtrinsicAdjustment
.
get_INDX_DYDDISP0
(
numSensors
)
+
cam
]
=
tile_disp_dist
[
cam
][
2
];
lazy_eye_data_final
[
nclust
][
ExtrinsicAdjustment
.
INDX_PYDIST
+
cam
]
=
clust_pY_super
[
clustY
][
clustX
][
cam
];
lazy_eye_data_final
[
nclust
][
ExtrinsicAdjustment
.
get_INDX_PYDIST
(
numSensors
)
+
cam
]
=
clust_pY_super
[
clustY
][
clustX
][
cam
];
}
}
for
(
int
cam
=
0
;
cam
<
ddnd
.
length
;
cam
++)
{
for
(
int
cam
=
0
;
cam
<
ddnd
.
length
;
cam
++)
{
if
(
ddnd
[
cam
]
!=
null
)
{
//convert to x,y from dd/nd
if
(
ddnd
[
cam
]
!=
null
)
{
//convert to x,y from dd/nd
lazy_eye_data_final
[
nclust
][
2
*
cam
+
ExtrinsicAdjustment
.
INDX_X0
+
0
]
=
ddnd
[
cam
][
0
]
*
rXY
[
cam
][
0
]
-
ddnd
[
cam
][
1
]
*
rXY
[
cam
][
1
];
lazy_eye_data_final
[
nclust
][
2
*
cam
+
ExtrinsicAdjustment
.
INDX_X0
+
0
]
=
ddnd
[
cam
][
0
]
*
rXY
[
cam
][
0
]
-
ddnd
[
cam
][
1
]
*
rXY
[
cam
][
1
];
lazy_eye_data_final
[
nclust
][
2
*
cam
+
ExtrinsicAdjustment
.
INDX_X0
+
1
]
=
ddnd
[
cam
][
0
]
*
rXY
[
cam
][
1
]
+
ddnd
[
cam
][
1
]
*
rXY
[
cam
][
0
];
lazy_eye_data_final
[
nclust
][
2
*
cam
+
ExtrinsicAdjustment
.
INDX_X0
+
1
]
=
ddnd
[
cam
][
0
]
*
rXY
[
cam
][
1
]
+
ddnd
[
cam
][
1
]
*
rXY
[
cam
][
0
];
lazy_eye_data_final
[
nclust
][
ExtrinsicAdjustment
.
INDX_DD0
+
cam
]
=
ddnd
[
cam
][
0
];
lazy_eye_data_final
[
nclust
][
ExtrinsicAdjustment
.
get_INDX_DD0
(
numSensors
)
+
cam
]
=
ddnd
[
cam
][
0
];
lazy_eye_data_final
[
nclust
][
ExtrinsicAdjustment
.
INDX_ND0
+
cam
]
=
ddnd
[
cam
][
1
];
lazy_eye_data_final
[
nclust
][
ExtrinsicAdjustment
.
get_INDX_ND0
(
numSensors
)
+
cam
]
=
ddnd
[
cam
][
1
];
}
else
{
}
else
{
lazy_eye_data_final
[
nclust
][
2
*
cam
+
ExtrinsicAdjustment
.
INDX_X0
+
0
]
=
Double
.
NaN
;
lazy_eye_data_final
[
nclust
][
2
*
cam
+
ExtrinsicAdjustment
.
INDX_X0
+
0
]
=
Double
.
NaN
;
lazy_eye_data_final
[
nclust
][
2
*
cam
+
ExtrinsicAdjustment
.
INDX_X0
+
1
]
=
Double
.
NaN
;
lazy_eye_data_final
[
nclust
][
2
*
cam
+
ExtrinsicAdjustment
.
INDX_X0
+
1
]
=
Double
.
NaN
;
lazy_eye_data_final
[
nclust
][
ExtrinsicAdjustment
.
INDX_DD0
+
cam
]
=
Double
.
NaN
;
lazy_eye_data_final
[
nclust
][
ExtrinsicAdjustment
.
get_INDX_DD0
(
numSensors
)
+
cam
]
=
Double
.
NaN
;
lazy_eye_data_final
[
nclust
][
ExtrinsicAdjustment
.
INDX_ND0
+
cam
]
=
Double
.
NaN
;
lazy_eye_data_final
[
nclust
][
ExtrinsicAdjustment
.
get_INDX_ND0
(
numSensors
)
+
cam
]
=
Double
.
NaN
;
}
}
}
}
}
}
...
...
src/main/java/com/elphel/imagej/tileprocessor/ImageDttCPU.java
View file @
624db0c0
This diff is collapsed.
Click to expand it.
src/main/java/com/elphel/imagej/tileprocessor/QuadCLT.java
View file @
624db0c0
...
@@ -5078,7 +5078,14 @@ if (debugLevel < -100) {
...
@@ -5078,7 +5078,14 @@ if (debugLevel < -100) {
clt_parameters
.
tileY
,
// final int debug_tileY,
clt_parameters
.
tileY
,
// final int debug_tileY,
threadsMax
,
threadsMax
,
debugLevel
);
debugLevel
);
double
[][]
dbg_img
=
new
double
[
ExtrinsicAdjustment
.
DATA_TITLES
.
length
][
lazy_eye_data_dbg
.
length
];
ExtrinsicAdjustment
ea_dbg
=
new
ExtrinsicAdjustment
(
geometryCorrection
,
// GeometryCorrection gc,
1
,
// int clusterSize,
tilesX
,
// int clustersX,
tilesY
);
// int clustersY)
// double [][] dbg_img = new double[ExtrinsicAdjustment.DATA_TITLES.length][lazy_eye_data_dbg.length];
double
[][]
dbg_img
=
new
double
[
ea_dbg
.
data_titles
.
length
][
lazy_eye_data_dbg
.
length
];
for
(
int
i
=
0
;
i
<
dbg_img
.
length
;
i
++)
{
for
(
int
i
=
0
;
i
<
dbg_img
.
length
;
i
++)
{
Arrays
.
fill
(
dbg_img
[
i
],
Double
.
NaN
);
Arrays
.
fill
(
dbg_img
[
i
],
Double
.
NaN
);
}
}
...
@@ -5094,7 +5101,7 @@ if (debugLevel < -100) {
...
@@ -5094,7 +5101,7 @@ if (debugLevel < -100) {
tp
.
getTilesY
(),
tp
.
getTilesY
(),
true
,
true
,
"LY-everytile"
,
"LY-everytile"
,
ExtrinsicAdjustment
.
DATA_TITLES
);
ea_dbg
.
data_titles
);
//
ExtrinsicAdjustment.DATA_TITLES);
}
}
...
...
src/main/java/com/elphel/imagej/tileprocessor/QuadCLTCPU.java
View file @
624db0c0
...
@@ -5945,7 +5945,7 @@ public class QuadCLTCPU {
...
@@ -5945,7 +5945,7 @@ public class QuadCLTCPU {
double
[][]
dsxy
=
new
double
[
clustersX
*
clustersY
][];
double
[][]
dsxy
=
new
double
[
clustersX
*
clustersY
][];
ImagePlus
imp_sel
=
WindowManager
.
getCurrentImage
();
ImagePlus
imp_sel
=
WindowManager
.
getCurrentImage
();
if
((
imp_sel
==
null
)
||
(
imp_sel
.
getStackSize
()
!=
ExtrinsicAdjustment
.
INDX_LENGTH
))
{
if
((
imp_sel
==
null
)
||
(
imp_sel
.
getStackSize
()
!=
ExtrinsicAdjustment
.
get_INDX_LENGTH
(
getNumSensors
())
))
{
System
.
out
.
println
(
"No image / wrong image selected, bailing out"
);
System
.
out
.
println
(
"No image / wrong image selected, bailing out"
);
return
null
;
return
null
;
}
else
{
}
else
{
...
@@ -5958,7 +5958,7 @@ public class QuadCLTCPU {
...
@@ -5958,7 +5958,7 @@ public class QuadCLTCPU {
return
null
;
return
null
;
}
}
ImageStack
stack_sel
=
imp_sel
.
getStack
();
ImageStack
stack_sel
=
imp_sel
.
getStack
();
float
[][]
fpixels
=
new
float
[
ExtrinsicAdjustment
.
INDX_LENGTH
][];
float
[][]
fpixels
=
new
float
[
ExtrinsicAdjustment
.
get_INDX_LENGTH
(
getNumSensors
())
][];
for
(
int
i
=
0
;
i
<
fpixels
.
length
;
i
++)
{
for
(
int
i
=
0
;
i
<
fpixels
.
length
;
i
++)
{
fpixels
[
i
]
=
(
float
[])
stack_sel
.
getPixels
(
i
+
1
);
fpixels
[
i
]
=
(
float
[])
stack_sel
.
getPixels
(
i
+
1
);
}
}
...
@@ -6247,10 +6247,16 @@ public class QuadCLTCPU {
...
@@ -6247,10 +6247,16 @@ public class QuadCLTCPU {
if
(
lazy_eye_data
!=
null
)
{
if
(
lazy_eye_data
!=
null
)
{
int
clustersX
=
(
tilesX
+
clt_parameters
.
tileStep
-
1
)
/
clt_parameters
.
tileStep
;
int
clustersX
=
(
tilesX
+
clt_parameters
.
tileStep
-
1
)
/
clt_parameters
.
tileStep
;
int
clustersY
=
(
tilesY
+
clt_parameters
.
tileStep
-
1
)
/
clt_parameters
.
tileStep
;
int
clustersY
=
(
tilesY
+
clt_parameters
.
tileStep
-
1
)
/
clt_parameters
.
tileStep
;
double
[][]
dbg_cluster
=
new
double
[
ExtrinsicAdjustment
.
INDX_LENGTH
][
clustersY
*
clustersX
];
ExtrinsicAdjustment
ea_dbg
=
new
ExtrinsicAdjustment
(
geometryCorrection
,
// GeometryCorrection gc,
clt_parameters
.
tileStep
,
// int clusterSize,
clustersX
,
// int clustersX,
clustersY
);
// int clustersY)
double
[][]
dbg_cluster
=
new
double
[
ExtrinsicAdjustment
.
get_INDX_LENGTH
(
getNumSensors
())][
clustersY
*
clustersX
];
for
(
int
n
=
0
;
n
<
lazy_eye_data
.
length
;
n
++)
{
for
(
int
n
=
0
;
n
<
lazy_eye_data
.
length
;
n
++)
{
if
((
lazy_eye_data
[
n
]
!=
null
)
&&
(
lazy_eye_data
[
n
][
ExtrinsicAdjustment
.
INDX_STRENGTH
]
>=
clt_parameters
.
img_dtt
.
lma_diff_minw
))
{
if
((
lazy_eye_data
[
n
]
!=
null
)
&&
(
lazy_eye_data
[
n
][
ExtrinsicAdjustment
.
INDX_STRENGTH
]
>=
clt_parameters
.
img_dtt
.
lma_diff_minw
))
{
for
(
int
i
=
0
;
i
<
ExtrinsicAdjustment
.
INDX_LENGTH
;
i
++
)
{
for
(
int
i
=
0
;
i
<
ExtrinsicAdjustment
.
get_INDX_LENGTH
(
getNumSensors
())
;
i
++
)
{
if
(
i
==
ExtrinsicAdjustment
.
INDX_STRENGTH
)
{
if
(
i
==
ExtrinsicAdjustment
.
INDX_STRENGTH
)
{
dbg_cluster
[
i
][
n
]
=
lazy_eye_data
[
n
][
i
]
-
clt_parameters
.
img_dtt
.
lma_diff_minw
;
// strength
dbg_cluster
[
i
][
n
]
=
lazy_eye_data
[
n
][
i
]
-
clt_parameters
.
img_dtt
.
lma_diff_minw
;
// strength
}
else
{
}
else
{
...
@@ -6258,7 +6264,7 @@ public class QuadCLTCPU {
...
@@ -6258,7 +6264,7 @@ public class QuadCLTCPU {
}
}
}
}
}
else
{
}
else
{
for
(
int
i
=
0
;
i
<
ExtrinsicAdjustment
.
INDX_LENGTH
;
i
++
)
{
for
(
int
i
=
0
;
i
<
ExtrinsicAdjustment
.
get_INDX_LENGTH
(
getNumSensors
())
;
i
++
)
{
if
(
i
==
ExtrinsicAdjustment
.
INDX_STRENGTH
)
{
if
(
i
==
ExtrinsicAdjustment
.
INDX_STRENGTH
)
{
dbg_cluster
[
i
][
n
]
=
0.0
;
// strength
dbg_cluster
[
i
][
n
]
=
0.0
;
// strength
}
else
{
}
else
{
...
@@ -6274,7 +6280,7 @@ public class QuadCLTCPU {
...
@@ -6274,7 +6280,7 @@ public class QuadCLTCPU {
clustersY
,
clustersY
,
true
,
true
,
name
+
sAux
()+
"-CLT_MISMATCH-D"
+
clt_parameters
.
disparity
+
"_"
+
clt_parameters
.
tileStep
+
"x"
+
clt_parameters
.
tileStep
,
name
+
sAux
()+
"-CLT_MISMATCH-D"
+
clt_parameters
.
disparity
+
"_"
+
clt_parameters
.
tileStep
+
"x"
+
clt_parameters
.
tileStep
,
ExtrinsicAdjustment
.
DATA_TITLES
);
ea_dbg
.
data_titles
);
//
ExtrinsicAdjustment.DATA_TITLES);
if
(
disparity_map
!=
null
){
if
(
disparity_map
!=
null
){
int
target_index
=
ImageDtt
.
DISPARITY_INDEX_INT
;
int
target_index
=
ImageDtt
.
DISPARITY_INDEX_INT
;
...
@@ -13084,7 +13090,7 @@ public class QuadCLTCPU {
...
@@ -13084,7 +13090,7 @@ public class QuadCLTCPU {
CorrVector
corr_vector
=
geometryCorrection
.
getCorrVector
().
clone
();
CorrVector
corr_vector
=
geometryCorrection
.
getCorrVector
().
clone
();
double
[]
curr_corr_arr
=
corr_vector
.
toArray
();
double
[]
curr_corr_arr
=
corr_vector
.
toArray
();
int
clusters
=
ea
.
clustersX
*
ea
.
clustersY
;
int
clusters
=
ea
.
clustersX
*
ea
.
clustersY
;
int
num_ly
=
ExtrinsicAdjustment
.
INDX_LENGTH
;
// scan.getLazyEyeData().length;
int
num_ly
=
ExtrinsicAdjustment
.
get_INDX_LENGTH
(
getNumSensors
())
;
// scan.getLazyEyeData().length;
int
num_pars
=
curr_corr_arr
.
length
;
int
num_pars
=
curr_corr_arr
.
length
;
double
[][][]
ly_diff
=
new
double
[
num_pars
][
num_ly
][
clusters
];
double
[][][]
ly_diff
=
new
double
[
num_pars
][
num_ly
][
clusters
];
for
(
int
np
=
0
;
np
<
num_pars
;
np
++)
{
for
(
int
np
=
0
;
np
<
num_pars
;
np
++)
{
...
@@ -13208,14 +13214,14 @@ public class QuadCLTCPU {
...
@@ -13208,14 +13214,14 @@ public class QuadCLTCPU {
*/
*/
dbg_img
=
new
double
[
num_pars
][
width
*
height
];
dbg_img
=
new
double
[
num_pars
][
width
*
height
];
for
(
int
par
=
0
;
par
<
num_pars
;
par
++)
{
for
(
int
par
=
0
;
par
<
num_pars
;
par
++)
{
for
(
int
mode
=
0
;
mode
<
ExtrinsicAdjustment
.
POINTS_SAMPLE
;
mode
++)
{
for
(
int
mode
=
0
;
mode
<
ExtrinsicAdjustment
.
get_POINTS_SAMPLE
(
getNumSensors
())
;
mode
++)
{
int
x0
=
(
mode
%
3
)
*
(
ea
.
clustersX
+
gap
);
int
x0
=
(
mode
%
3
)
*
(
ea
.
clustersX
+
gap
);
int
y0
=
(
mode
/
3
)
*
(
ea
.
clustersY
+
gap
);
int
y0
=
(
mode
/
3
)
*
(
ea
.
clustersY
+
gap
);
for
(
int
cluster
=
0
;
cluster
<
clusters
;
cluster
++)
{
for
(
int
cluster
=
0
;
cluster
<
clusters
;
cluster
++)
{
int
x
=
x0
+
(
cluster
%
ea
.
clustersX
);
int
x
=
x0
+
(
cluster
%
ea
.
clustersX
);
int
y
=
y0
+
(
cluster
/
ea
.
clustersX
);
int
y
=
y0
+
(
cluster
/
ea
.
clustersX
);
int
pix
=
x
+
y
*
width
;
int
pix
=
x
+
y
*
width
;
int
indx
=
(
mode
==
0
)
?
ExtrinsicAdjustment
.
INDX_DIFF
:
(
ExtrinsicAdjustment
.
INDX_DD0
+
mode
-
1
);
int
indx
=
(
mode
==
0
)
?
ExtrinsicAdjustment
.
INDX_DIFF
:
(
ExtrinsicAdjustment
.
get_INDX_DD0
(
getNumSensors
())
+
mode
-
1
);
if
(
mode
==
0
)
{
if
(
mode
==
0
)
{
dbg_img
[
par
][
pix
]
=
-
ly_diff
[
par
][
indx
][
cluster
];
dbg_img
[
par
][
pix
]
=
-
ly_diff
[
par
][
indx
][
cluster
];
}
else
{
}
else
{
...
@@ -13234,7 +13240,7 @@ public class QuadCLTCPU {
...
@@ -13234,7 +13240,7 @@ public class QuadCLTCPU {
dbg_img
=
new
double
[
num_pars
][
width
*
height
];
dbg_img
=
new
double
[
num_pars
][
width
*
height
];
for
(
int
par
=
0
;
par
<
num_pars
;
par
++)
{
for
(
int
par
=
0
;
par
<
num_pars
;
par
++)
{
for
(
int
mode
=
0
;
mode
<
ExtrinsicAdjustment
.
POINTS_SAMPLE
;
mode
++)
{
for
(
int
mode
=
0
;
mode
<
ExtrinsicAdjustment
.
get_POINTS_SAMPLE
(
getNumSensors
())
;
mode
++)
{
int
x0
=
(
mode
%
3
)
*
(
ea
.
clustersX
+
gap
);
int
x0
=
(
mode
%
3
)
*
(
ea
.
clustersX
+
gap
);
int
y0
=
(
mode
/
3
)
*
(
ea
.
clustersY
+
gap
);
int
y0
=
(
mode
/
3
)
*
(
ea
.
clustersY
+
gap
);
for
(
int
cluster
=
0
;
cluster
<
clusters
;
cluster
++)
{
for
(
int
cluster
=
0
;
cluster
<
clusters
;
cluster
++)
{
...
...
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