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Elphel
imagej-elphel
Commits
57f9aca9
Commit
57f9aca9
authored
Jul 02, 2014
by
Andrey Filippov
Browse files
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next snapshot
parent
47ffc516
Changes
4
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Showing
4 changed files
with
599 additions
and
138 deletions
+599
-138
Aberration_Calibration.java
src/main/java/Aberration_Calibration.java
+59
-12
CalibrationHardwareInterface.java
src/main/java/CalibrationHardwareInterface.java
+17
-10
FocusingField.java
src/main/java/FocusingField.java
+475
-116
MatchSimulatedPattern.java
src/main/java/MatchSimulatedPattern.java
+48
-0
No files found.
src/main/java/Aberration_Calibration.java
View file @
57f9aca9
...
@@ -10147,6 +10147,9 @@ if (MORE_BUTTONS) {
...
@@ -10147,6 +10147,9 @@ if (MORE_BUTTONS) {
}
}
}
}
boolean
showPSF
=
debugLevel
>
1
;
boolean
showPSF
=
debugLevel
>
1
;
if
(
metrics
==
null
)
return
null
;
if
(
showPSF
||
(
focusMeasurementParameters
.
saveResults
)){
if
(
showPSF
||
(
focusMeasurementParameters
.
saveResults
)){
double
[][][][]
psfRGB
=
new
double
[
psf_kernels
.
length
][
psf_kernels
[
0
].
length
][][];
double
[][][][]
psfRGB
=
new
double
[
psf_kernels
.
length
][
psf_kernels
[
0
].
length
][][];
// reorder and assign names to kernel color channels
// reorder and assign names to kernel color channels
...
@@ -10189,8 +10192,11 @@ if (MORE_BUTTONS) {
...
@@ -10189,8 +10192,11 @@ if (MORE_BUTTONS) {
imp_psf
.
setProperty
(
"pY_"
+
index
,
""
+
sampleCoord
[
ii
][
jj
][
1
]);
imp_psf
.
setProperty
(
"pY_"
+
index
,
""
+
sampleCoord
[
ii
][
jj
][
1
]);
if
(
fullResults
[
ii
][
jj
]!=
null
){
if
(
fullResults
[
ii
][
jj
]!=
null
){
for
(
int
cc
=
0
;
cc
<
fullResults
[
ii
][
jj
].
length
;
cc
++)
if
(
fullResults
[
ii
][
jj
][
cc
]!=
null
){
for
(
int
cc
=
0
;
cc
<
fullResults
[
ii
][
jj
].
length
;
cc
++)
if
(
fullResults
[
ii
][
jj
][
cc
]!=
null
){
imp_psf
.
setProperty
(
"R50_"
+
cc
+
"_"
+
index
,
""
+
fullResults
[
ii
][
jj
][
cc
][
0
]);
// imp_psf.setProperty("R50_"+cc+"_"+index, ""+fullResults[ii][jj][cc][0]);
imp_psf
.
setProperty
(
"RTratio_"
+
cc
+
"_"
+
index
,
""
+
fullResults
[
ii
][
jj
][
cc
][
1
]);
// imp_psf.setProperty("RTratio_"+cc+"_"+index, ""+fullResults[ii][jj][cc][1]);
imp_psf
.
setProperty
(
"R50_x2_"
+
cc
+
"_"
+
index
,
""
+
fullResults
[
ii
][
jj
][
cc
][
0
]);
imp_psf
.
setProperty
(
"R50_y2_"
+
cc
+
"_"
+
index
,
""
+
fullResults
[
ii
][
jj
][
cc
][
1
]);
imp_psf
.
setProperty
(
"R50_xy_"
+
cc
+
"_"
+
index
,
""
+
fullResults
[
ii
][
jj
][
cc
][
2
]);
}
}
}
}
}
}
...
@@ -10276,7 +10282,7 @@ if (MORE_BUTTONS) {
...
@@ -10276,7 +10282,7 @@ if (MORE_BUTTONS) {
fullResults
[
i
][
j
]=
new
double
[
numColors
][];
fullResults
[
i
][
j
]=
new
double
[
numColors
][];
for
(
int
cc
=
0
;
cc
<
numColors
;
cc
++)
fullResults
[
i
][
j
][
cc
]=
null
;
for
(
int
cc
=
0
;
cc
<
numColors
;
cc
++)
fullResults
[
i
][
j
][
cc
]=
null
;
}
}
if
(
fullResults
!=
null
)
fullResults
[
i
][
j
][
color
]=
new
double
[
2
];
//
if (fullResults!=null) fullResults[i][j][color]=new double[2];
double
x
=(
sampleCoord
[
i
][
j
][
0
]-
x0
);
double
x
=(
sampleCoord
[
i
][
j
][
0
]-
x0
);
double
y
=(
sampleCoord
[
i
][
j
][
1
]-
y0
);
double
y
=(
sampleCoord
[
i
][
j
][
1
]-
y0
);
double
r
=
Math
.
sqrt
(
x
*
x
+
y
*
y
);
double
r
=
Math
.
sqrt
(
x
*
x
+
y
*
y
);
...
@@ -10287,6 +10293,7 @@ if (MORE_BUTTONS) {
...
@@ -10287,6 +10293,7 @@ if (MORE_BUTTONS) {
// " psf_cutoffLevel="+focusMeasurementParameters.psf_cutoffLevel+
// " psf_cutoffLevel="+focusMeasurementParameters.psf_cutoffLevel+
// " psf_minArea="+focusMeasurementParameters.psf_minArea+
// " psf_minArea="+focusMeasurementParameters.psf_minArea+
// " psf_blurSigma="+focusMeasurementParameters.psf_blurSigma);
// " psf_blurSigma="+focusMeasurementParameters.psf_blurSigma);
/*
double [] tanRad= matchSimulatedPattern.tangetRadialSizes(
double [] tanRad= matchSimulatedPattern.tangetRadialSizes(
ca, // cosine of the center to sample vector
ca, // cosine of the center to sample vector
sa, // sine of the center to sample vector
sa, // sine of the center to sample vector
...
@@ -10302,9 +10309,50 @@ if (MORE_BUTTONS) {
...
@@ -10302,9 +10309,50 @@ if (MORE_BUTTONS) {
tanRad=new double[2];
tanRad=new double[2];
tanRad[0]=Double.NaN;
tanRad[0]=Double.NaN;
tanRad[1]=Double.NaN;
tanRad[1]=Double.NaN;
} else {
// debug calculations
double [] x2y2xy= matchSimulatedPattern.x2y2xySizes(
psf[i][j][color], // PSF function, square array, nominally positive
focusMeasurementParameters.psf_cutoffEnergy, // fraction of energy in the pixels to be used
focusMeasurementParameters.psf_cutoffLevel, // minimal level as a fraction of maximal
focusMeasurementParameters.psf_minArea, // minimal selected area in pixels
focusMeasurementParameters.psf_blurSigma, // optionally blur the selection
0.1, //maskCutOff,
debugLevel-2, // debug level
i+":"+j+"["+color+"]"); // String title) { // prefix used for debug images
double [] tanRad1={
Math.sqrt(sa*sa*x2y2xy[0]+ca*ca*x2y2xy[1]-2*ca*sa*x2y2xy[2]),
Math.sqrt(ca*ca*x2y2xy[0]+sa*sa*x2y2xy[1]+2*ca*sa*x2y2xy[2])};
System.out.println("i="+i+" j="+j+" tanRad[0]="+tanRad[0]+ "("+tanRad1[0]+")"+
" tanRad[1]="+tanRad[1]+ "("+tanRad1[1]+") ### "+x2y2xy[0]+", "+x2y2xy[1]+", "+x2y2xy[2]);
}
}
tanRad
[
0
]/=(
focusMeasurementParameters
.
subdiv
/
2
);
// to sesnor pixels
*/
tanRad
[
1
]/=(
focusMeasurementParameters
.
subdiv
/
2
);
double
[]
x2y2xy
=
matchSimulatedPattern
.
x2y2xySizes
(
psf
[
i
][
j
][
color
],
// PSF function, square array, nominally positive
focusMeasurementParameters
.
psf_cutoffEnergy
,
// fraction of energy in the pixels to be used
focusMeasurementParameters
.
psf_cutoffLevel
,
// minimal level as a fraction of maximal
focusMeasurementParameters
.
psf_minArea
,
// minimal selected area in pixels
focusMeasurementParameters
.
psf_blurSigma
,
// optionally blur the selection
0.1
,
//maskCutOff,
debugLevel
-
2
,
// debug level
i
+
":"
+
j
+
"["
+
color
+
"]"
);
// String title) { // prefix used for debug images
if
(
x2y2xy
==
null
){
x2y2xy
=
new
double
[
3
];
for
(
int
ii
=
0
;
ii
<
3
;
ii
++)
x2y2xy
[
ii
]=
Double
.
NaN
;
}
else
{
for
(
int
ii
=
0
;
ii
<
x2y2xy
.
length
;
ii
++)
x2y2xy
[
ii
]/=
focusMeasurementParameters
.
subdiv
*
focusMeasurementParameters
.
subdiv
/
4
;
}
/*
double [] tanRad={
Math.sqrt(sa*sa*x2y2xy[0]+ca*ca*x2y2xy[1]-2*ca*sa*x2y2xy[2]),
Math.sqrt(ca*ca*x2y2xy[0]+sa*sa*x2y2xy[1]+2*ca*sa*x2y2xy[2])};
*/
// tanRad[0]/=(focusMeasurementParameters.subdiv/2); // to sesnor pixels
// tanRad[1]/=(focusMeasurementParameters.subdiv/2);
double
[][]
quadCoeff
=
matchSimulatedPattern
.
approximatePSFQuadratic
(
double
[][]
quadCoeff
=
matchSimulatedPattern
.
approximatePSFQuadratic
(
psf
[
i
][
j
][
color
],
// PSF function, square array, nominally positive
psf
[
i
][
j
][
color
],
// PSF function, square array, nominally positive
...
@@ -10411,13 +10459,10 @@ Reff=sqrt(1/sqrt(Ar*Br-(Cr/2)^2))
...
@@ -10411,13 +10459,10 @@ Reff=sqrt(1/sqrt(Ar*Br-(Cr/2)^2))
SFcenter
+=
R50
;
// only center samples
SFcenter
+=
R50
;
// only center samples
}
}
if
(
fullResults
!=
null
){
if
(
fullResults
!=
null
){
// fullResults[i][j][color][0]=R50/(focusMeasurementParameters.subdiv/2); // pixels
// fullResults[i][j][color][1]=BA; // radial-to-tangential ratio - was fullResults[i][j][color][0] ???
fullResults
[
i
][
j
][
color
][
0
]=
Math
.
sqrt
((
tanRad
[
0
]*
tanRad
[
0
]+
tanRad
[
1
]*
tanRad
[
1
])/
2
);
// sensor pixels
fullResults
[
i
][
j
][
color
][
1
]=
tanRad
[
1
]/
tanRad
[
0
];
// radial-to-tangential ratio
// fullResults[i][j][color][0]=Math.sqrt((tanRad[0]*tanRad[0]+tanRad[1]*tanRad[1])/2); // sensor pixels
// fullResults[i][j][color][1]=tanRad[1]/tanRad[0]; // radial-to-tangential ratio
fullResults
[
i
][
j
][
color
]=
x2y2xy
.
clone
();
}
}
...
@@ -10426,7 +10471,8 @@ Reff=sqrt(1/sqrt(Ar*Br-(Cr/2)^2))
...
@@ -10426,7 +10471,8 @@ Reff=sqrt(1/sqrt(Ar*Br-(Cr/2)^2))
for
(
int
k
=
0
;
k
<
quadCoeff
[
0
].
length
;
k
++)
debugStr
+=
" "
+
quadCoeff
[
0
][
k
];
for
(
int
k
=
0
;
k
<
quadCoeff
[
0
].
length
;
k
++)
debugStr
+=
" "
+
quadCoeff
[
0
][
k
];
if
(
debugLevel
>
3
)
System
.
out
.
println
(
debugStr
);
if
(
debugLevel
>
3
)
System
.
out
.
println
(
debugStr
);
System
.
out
.
println
(
i
+
":"
+
j
+
"["
+
color
+
"] x="
+
IJ
.
d2s
(
x
,
1
)+
" y="
+
IJ
.
d2s
(
y
,
1
)+
" xc="
+
IJ
.
d2s
(
xc
,
2
)+
" yc="
+
IJ
.
d2s
(
yc
,
2
)+
System
.
out
.
println
(
i
+
":"
+
j
+
"["
+
color
+
"] x="
+
IJ
.
d2s
(
x
,
1
)+
" y="
+
IJ
.
d2s
(
y
,
1
)+
" xc="
+
IJ
.
d2s
(
xc
,
2
)+
" yc="
+
IJ
.
d2s
(
yc
,
2
)+
" tan="
+
IJ
.
d2s
(
tanRad
[
0
],
3
)+
" rad="
+
IJ
.
d2s
(
tanRad
[
1
],
3
)+
// " tan="+IJ.d2s(tanRad[0],3)+" rad="+IJ.d2s(tanRad[1],3)+
"x2="
+
IJ
.
d2s
(
x2y2xy
[
0
],
3
)+
"y2="
+
IJ
.
d2s
(
x2y2xy
[
1
],
3
)+
"xy="
+
IJ
.
d2s
(
x2y2xy
[
2
],
3
)+
" Ar="
+
IJ
.
d2s
(
Ar
,
3
)+
" Br="
+
IJ
.
d2s
(
Br
,
3
)+
" Cr="
+
IJ
.
d2s
(
Cr
,
3
)+
" **** Br/Ar="
+
IJ
.
d2s
(
Br
/
Ar
,
3
)+
" R50="
+
IJ
.
d2s
(
R50
,
3
)+
" subpixels"
+
" A50="
+
IJ
.
d2s
(
Math
.
sqrt
(
A50
),
2
)+
" subpixels"
+
" B50="
+
IJ
.
d2s
(
Math
.
sqrt
(
B50
),
3
)+
" subpixels"
);
" Ar="
+
IJ
.
d2s
(
Ar
,
3
)+
" Br="
+
IJ
.
d2s
(
Br
,
3
)+
" Cr="
+
IJ
.
d2s
(
Cr
,
3
)+
" **** Br/Ar="
+
IJ
.
d2s
(
Br
/
Ar
,
3
)+
" R50="
+
IJ
.
d2s
(
R50
,
3
)+
" subpixels"
+
" A50="
+
IJ
.
d2s
(
Math
.
sqrt
(
A50
),
2
)+
" subpixels"
+
" B50="
+
IJ
.
d2s
(
Math
.
sqrt
(
B50
),
3
)+
" subpixels"
);
}
}
}
}
...
@@ -14959,6 +15005,7 @@ private double [][] jacobianByJacobian(double [][] jacobian, boolean [] mask) {
...
@@ -14959,6 +15005,7 @@ private double [][] jacobianByJacobian(double [][] jacobian, boolean [] mask) {
false
,
// use linear approximation (instead of quadratic)
false
,
// use linear approximation (instead of quadratic)
1.0
E
-
10
,
// thershold ratio of matrix determinant to norm for linear approximation (det too low - fail)
1.0
E
-
10
,
// thershold ratio of matrix determinant to norm for linear approximation (det too low - fail)
1.0
E
-
20
);
// thershold ratio of matrix determinant to norm for quadratic approximation (det too low - fail)
1.0
E
-
20
);
// thershold ratio of matrix determinant to norm for quadratic approximation (det too low - fail)
if
(
distPatPars
==
null
)
return
null
;
int
[]
iUV
={(
int
)
Math
.
floor
(
distPatPars
[
0
][
2
]),(
int
)
Math
.
floor
(
distPatPars
[
1
][
2
])};
int
[]
iUV
={(
int
)
Math
.
floor
(
distPatPars
[
0
][
2
]),(
int
)
Math
.
floor
(
distPatPars
[
1
][
2
])};
boolean
negative
=((
iUV
[
0
]^
iUV
[
1
])&
1
)!=
0
;
boolean
negative
=((
iUV
[
0
]^
iUV
[
1
])&
1
)!=
0
;
double
[]
simCorr
={
double
[]
simCorr
={
...
...
src/main/java/CalibrationHardwareInterface.java
View file @
57f9aca9
...
@@ -5525,18 +5525,19 @@ if (debugLevel>=debugThreshold) System.out.println(i+" "+diff[0]+" "+diff[1]+" "
...
@@ -5525,18 +5525,19 @@ if (debugLevel>=debugThreshold) System.out.println(i+" "+diff[0]+" "+diff[1]+" "
if
((
samples
[
ii
][
jj
]!=
null
)
&&
(
samples
[
ii
][
jj
].
length
>
0
))
{
if
((
samples
[
ii
][
jj
]!=
null
)
&&
(
samples
[
ii
][
jj
].
length
>
0
))
{
String
sdata
=
ii
+
sep
+
jj
;
String
sdata
=
ii
+
sep
+
jj
;
for
(
int
cc
=
0
;
cc
<
samples
[
ii
][
jj
].
length
;
cc
++)
{
for
(
int
cc
=
0
;
cc
<
samples
[
ii
][
jj
].
length
;
cc
++)
{
/*
double rt=samples[ii][jj][cc][0]/Math.sqrt((1+samples[ii][jj][cc][1]*samples[ii][jj][cc][1])/2.0); // tangential;
double rt=samples[ii][jj][cc][0]/Math.sqrt((1+samples[ii][jj][cc][1]*samples[ii][jj][cc][1])/2.0); // tangential;
double rs=rt*samples[ii][jj][cc][1]; // saggital
double rs=rt*samples[ii][jj][cc][1]; // saggital
sdata += sep+rs+ // saggital
sdata += sep+rs+ // saggital
sep+rt; // tangential
sep+rt; // tangential
*/
sdata
+=
sep
+
samples
[
ii
][
jj
][
cc
][
0
]+
// x2
sep
+
samples
[
ii
][
jj
][
cc
][
1
]+
// y2
sep
+
samples
[
ii
][
jj
][
cc
][
2
];
// xy
// double [] samples_st={
// double [] samples_st={
// samples[ii][jj][cc][0], // saggital
// samples[ii][jj][cc][0], // saggital
// samples[ii][jj][cc][0]/samples[ii][jj][cc][1] // tangential (was ratio)
// samples[ii][jj][cc][0]/samples[ii][jj][cc][1] // tangential (was ratio)
// };
// };
if
((
samples
[
ii
][
jj
]!=
null
)
&&
(
samples
[
ii
][
jj
][
cc
]!=
null
))
{
// hConfig.addProperty(prefix+"y"+ii+".x"+jj+".c"+cc,samples_st); // array of 2
// nodeList.add(sdata);
}
}
}
nodeList
.
add
(
sdata
);
nodeList
.
add
(
sdata
);
}
}
...
@@ -5599,14 +5600,18 @@ if (debugLevel>=debugThreshold) System.out.println(i+" "+diff[0]+" "+diff[1]+" "
...
@@ -5599,14 +5600,18 @@ if (debugLevel>=debugThreshold) System.out.println(i+" "+diff[0]+" "+diff[1]+" "
if
(
showIndividualSamples
){
if
(
showIndividualSamples
){
if
(
showIndividualComponents
)
{
// additional 3 per-color rows
if
(
showIndividualComponents
)
{
// additional 3 per-color rows
for
(
int
i
=
0
;
i
<
sampleRows
;
i
++)
for
(
int
j
=
0
;
j
<
sampleColumns
;
j
++){
for
(
int
i
=
0
;
i
<
sampleRows
;
i
++)
for
(
int
j
=
0
;
j
<
sampleColumns
;
j
++){
header
+=
"\tY"
+
i
+
"X"
+
j
+
"_R"
+
"\tY"
+
i
+
"X"
+
j
+
"_R/T"
;
// header+="\tY"+i+"X"+j+"_R"+"\tY"+i+"X"+j+"_R/T";
header
+=
"\tY"
+
i
+
"X"
+
j
+
"_X2"
+
"\tY"
+
i
+
"X"
+
j
+
"_Y2"
+
"\tY"
+
i
+
"X"
+
j
+
"_XY"
;
}
}
}
else
{
}
else
{
for
(
int
i
=
0
;
i
<
sampleRows
;
i
++)
for
(
int
j
=
0
;
j
<
sampleColumns
;
j
++){
// single row fro all colors
for
(
int
i
=
0
;
i
<
sampleRows
;
i
++)
for
(
int
j
=
0
;
j
<
sampleColumns
;
j
++){
// single row fro all colors
header
+=
"\tY"
+
i
+
"X"
+
j
+
"_Red_R"
+
"\tY"
+
i
+
"X"
+
j
+
"_Red_R/T"
+
// header+="\tY"+i+"X"+j+"_Red_R"+"\tY"+i+"X"+j+"_Red_R/T"+
"\tY"
+
i
+
"X"
+
j
+
"_Green_R"
+
"\tY"
+
i
+
"X"
+
j
+
"_Green_R/T"
+
// "\tY"+i+"X"+j+"_Green_R"+"\tY"+i+"X"+j+"_Green_R/T"+
"\tY"
+
i
+
"X"
+
j
+
"_Blue_R"
+
"\tY"
+
i
+
"X"
+
j
+
"_Blue_R/T"
;
// "\tY"+i+"X"+j+"_Blue_R"+"\tY"+i+"X"+j+"_Blue_R/T";
header
+=
"\tY"
+
i
+
"X"
+
j
+
"_Red_X2"
+
"\tY"
+
i
+
"X"
+
j
+
"_Red_Y2"
+
"\tY"
+
i
+
"X"
+
j
+
"_Red_XY"
+
"\tY"
+
i
+
"X"
+
j
+
"_Green_X2"
+
"\tY"
+
i
+
"X"
+
j
+
"_Green_Y2"
+
"\tY"
+
i
+
"X"
+
j
+
"_Green_XY"
+
"\tY"
+
i
+
"X"
+
j
+
"_Blue_X2"
+
"\tY"
+
i
+
"X"
+
j
+
"_Blue_Y2"
+
"\tY"
+
i
+
"X"
+
j
+
"_Blue_XY"
;
}
}
}
}
}
}
...
@@ -5675,8 +5680,9 @@ if (debugLevel>=debugThreshold) System.out.println(i+" "+diff[0]+" "+diff[1]+" "
...
@@ -5675,8 +5680,9 @@ if (debugLevel>=debugThreshold) System.out.println(i+" "+diff[0]+" "+diff[1]+" "
if
((
samples
[
ii
][
jj
]!=
null
)
&&
(
samples
[
ii
][
jj
][
c
]!=
null
))
{
if
((
samples
[
ii
][
jj
]!=
null
)
&&
(
samples
[
ii
][
jj
][
c
]!=
null
))
{
sb
.
append
(
"\t"
+
IJ
.
d2s
(
samples
[
ii
][
jj
][
c
][
0
],
3
));
sb
.
append
(
"\t"
+
IJ
.
d2s
(
samples
[
ii
][
jj
][
c
][
0
],
3
));
sb
.
append
(
"\t"
+
IJ
.
d2s
(
samples
[
ii
][
jj
][
c
][
1
],
3
));
sb
.
append
(
"\t"
+
IJ
.
d2s
(
samples
[
ii
][
jj
][
c
][
1
],
3
));
sb
.
append
(
"\t"
+
IJ
.
d2s
(
samples
[
ii
][
jj
][
c
][
2
],
3
));
}
else
{
}
else
{
sb
.
append
(
"\t---\t---"
);
sb
.
append
(
"\t---\t---
\t---
"
);
}
}
}
}
}
}
...
@@ -5755,8 +5761,9 @@ if (debugLevel>=debugThreshold) System.out.println(i+" "+diff[0]+" "+diff[1]+" "
...
@@ -5755,8 +5761,9 @@ if (debugLevel>=debugThreshold) System.out.println(i+" "+diff[0]+" "+diff[1]+" "
if
((
samples
[
ii
][
jj
]!=
null
)
&&
(
samples
[
ii
][
jj
][
cc
]!=
null
))
{
if
((
samples
[
ii
][
jj
]!=
null
)
&&
(
samples
[
ii
][
jj
][
cc
]!=
null
))
{
sb
.
append
(
"\t"
+
IJ
.
d2s
(
samples
[
ii
][
jj
][
cc
][
0
],
3
));
sb
.
append
(
"\t"
+
IJ
.
d2s
(
samples
[
ii
][
jj
][
cc
][
0
],
3
));
sb
.
append
(
"\t"
+
IJ
.
d2s
(
samples
[
ii
][
jj
][
cc
][
1
],
3
));
sb
.
append
(
"\t"
+
IJ
.
d2s
(
samples
[
ii
][
jj
][
cc
][
1
],
3
));
sb
.
append
(
"\t"
+
IJ
.
d2s
(
samples
[
ii
][
jj
][
cc
][
2
],
3
));
}
else
{
}
else
{
sb
.
append
(
"\t---\t---"
);
sb
.
append
(
"\t---\t---
\t---
"
);
}
}
}
}
}
}
...
...
src/main/java/FocusingField.java
View file @
57f9aca9
...
@@ -55,8 +55,10 @@ public class FocusingField {
...
@@ -55,8 +55,10 @@ public class FocusingField {
public
String
serialNumber
;
public
String
serialNumber
;
public
String
lensSerial
;
// if null - do not add average
public
String
lensSerial
;
// if null - do not add average
public
String
comment
;
public
String
comment
;
public
double
pX0
;
public
double
pX0_distortions
;
public
double
pY0
;
public
double
pY0_distortions
;
public
double
currentPX0
;
public
double
currentPY0
;
public
double
[][][]
sampleCoord
;
public
double
[][][]
sampleCoord
;
public
ArrayList
<
FocusingFieldMeasurement
>
measurements
;
public
ArrayList
<
FocusingFieldMeasurement
>
measurements
;
boolean
sagittalMaster
=
false
;
// center data is the same, when true sagittal fitting only may change r=0 coefficients,
boolean
sagittalMaster
=
false
;
// center data is the same, when true sagittal fitting only may change r=0 coefficients,
...
@@ -111,6 +113,7 @@ public class FocusingField {
...
@@ -111,6 +113,7 @@ public class FocusingField {
private
boolean
showAllSamples
=
true
;
private
boolean
showAllSamples
=
true
;
private
boolean
showIgnoredData
=
false
;
private
boolean
showIgnoredData
=
false
;
private
boolean
showRad
=
true
;
private
boolean
showRad
=
true
;
private
boolean
[][][][]
sampleMask
=
null
;
public
class
LMAArrays
{
// reuse from Distortions?
public
class
LMAArrays
{
// reuse from Distortions?
...
@@ -153,6 +156,8 @@ public class FocusingField {
...
@@ -153,6 +156,8 @@ public class FocusingField {
public
double
py
;
public
double
py
;
public
int
channel
;
public
int
channel
;
public
double
value
;
public
double
value
;
public
double
[]
dPxyc
=
new
double
[
2
];
// derivative of the value by optical (aberration) center pixel X,Y
// public double weight;
// public double weight;
// public MeasuredSample(){}
// public MeasuredSample(){}
public
MeasuredSample
(
public
MeasuredSample
(
...
@@ -161,7 +166,9 @@ public class FocusingField {
...
@@ -161,7 +166,9 @@ public class FocusingField {
double
px
,
double
px
,
double
py
,
double
py
,
int
channel
,
int
channel
,
double
value
double
value
,
double
dPxc
,
double
dPyc
){
){
this
.
motors
=
motors
;
this
.
motors
=
motors
;
this
.
timestamp
=
timestamp
;
this
.
timestamp
=
timestamp
;
...
@@ -169,6 +176,8 @@ public class FocusingField {
...
@@ -169,6 +176,8 @@ public class FocusingField {
this
.
py
=
py
;
this
.
py
=
py
;
this
.
channel
=
channel
;
this
.
channel
=
channel
;
this
.
value
=
value
;
this
.
value
=
value
;
this
.
dPxyc
[
0
]=
dPxc
;
this
.
dPxyc
[
1
]=
dPyc
;
}
}
}
}
public
boolean
configureDataVector
(
String
title
,
boolean
forcenew
){
public
boolean
configureDataVector
(
String
title
,
boolean
forcenew
){
...
@@ -200,7 +209,7 @@ public class FocusingField {
...
@@ -200,7 +209,7 @@ public class FocusingField {
gd
.
addCheckbox
(
"Discard measurements with PSF radius above specified above threshold"
,
useThresholdMax
);
gd
.
addCheckbox
(
"Discard measurements with PSF radius above specified above threshold"
,
useThresholdMax
);
if
(
forcenew
)
{
if
(
forcenew
)
{
gd
.
addMessage
(
"=== Setting number of parameters for approximation of the PSF dimensions ==="
);
gd
.
addMessage
(
"=== Setting number of parameters for approximation of the PSF dimensions ==="
);
gd
.
addNumericField
(
"Number of parameters for p
z
f(z) approximation (>=3)"
,
numCurvPars
[
0
],
0
);
gd
.
addNumericField
(
"Number of parameters for p
s
f(z) approximation (>=3)"
,
numCurvPars
[
0
],
0
);
gd
.
addNumericField
(
"Number of parameters for radial dependence of PSF curves (>=1)"
,
numCurvPars
[
1
],
0
);
gd
.
addNumericField
(
"Number of parameters for radial dependence of PSF curves (>=1)"
,
numCurvPars
[
1
],
0
);
}
}
gd
.
addMessage
(
""
);
gd
.
addMessage
(
""
);
...
@@ -231,14 +240,17 @@ public class FocusingField {
...
@@ -231,14 +240,17 @@ public class FocusingField {
showDisabled
=
gd
.
getNextBoolean
();
showDisabled
=
gd
.
getNextBoolean
();
if
(
forcenew
)
{
if
(
forcenew
)
{
this
.
fieldFitting
=
new
FieldFitting
(
this
.
fieldFitting
=
new
FieldFitting
(
p
X0
,
currentP
X0
,
p
Y0
,
currentP
Y0
,
numCurvPars
[
0
],
numCurvPars
[
0
],
numCurvPars
[
1
]);
numCurvPars
[
1
]);
}
}
if
(
setupMasks
)
this
.
fieldFitting
.
maskSetDialog
(
"Setup parameter masks"
);
if
(
setupMasks
)
fieldFitting
.
maskSetDialog
(
"Setup parameter masks"
);
if
(
setupParameters
)
this
.
fieldFitting
.
showModifyParameterValues
(
"Setup parameter values"
,
showDisabled
);
if
(
setupParameters
)
fieldFitting
.
showModifyParameterValues
(
"Setup parameter values"
,
showDisabled
);
this
.
savedVector
=
this
.
fieldFitting
.
createParameterVector
(
sagittalMaster
);
double
[]
centerXY
=
fieldFitting
.
getCenterXY
();
currentPX0
=
centerXY
[
0
];
currentPY0
=
centerXY
[
1
];
this
.
savedVector
=
fieldFitting
.
createParameterVector
(
sagittalMaster
);
// initialVector
// initialVector
return
true
;
return
true
;
}
}
...
@@ -273,16 +285,34 @@ public class FocusingField {
...
@@ -273,16 +285,34 @@ public class FocusingField {
default
:
dataWeights
[
i
]=
1.0
;
default
:
dataWeights
[
i
]=
1.0
;
}
}
if
(
weightRadius
>
0.0
){
if
(
weightRadius
>
0.0
){
double
r2
=(
ms
.
px
-
pX0
)*(
ms
.
px
-
pX0
)+(
ms
.
py
-
pY0
)*(
ms
.
py
-
p
Y0
);
double
r2
=(
ms
.
px
-
currentPX0
)*(
ms
.
px
-
currentPX0
)+(
ms
.
py
-
currentPY0
)*(
ms
.
py
-
currentP
Y0
);
dataWeights
[
i
]*=
Math
.
exp
(
kw
*
r2
);
dataWeights
[
i
]*=
Math
.
exp
(
kw
*
r2
);
}
}
// sumWeights+=dataWeights[i];
// sumWeights+=dataWeights[i];
}
}
}
}
// for compatibility with Distortions class
// for compatibility with Distortions class\
public
double
[]
createFXandJacobian
(
double
[]
vector
,
boolean
createJacobian
){
public
void
commitParameterVector
(
double
[]
vector
){
fieldFitting
.
commitParameterVector
(
vector
,
sagittalMaster
);
fieldFitting
.
commitParameterVector
(
vector
,
sagittalMaster
);
// recalculate measured S,T (depend on center) if center is among fitted parameters
boolean
[]
centerSelect
=
fieldFitting
.
getCenterSelect
();
if
(
centerSelect
[
0
]
||
centerSelect
[
1
]){
// do not do that if XC, YC are not modified
// recalculate data vector
double
[]
pXY
=
fieldFitting
.
getCenterXY
();
currentPX0
=
pXY
[
0
];
currentPY0
=
pXY
[
1
];
setDataVector
(
createDataVector
(
false
,
// boolean updateSelection,
pXY
[
0
],
//double centerPX,
pXY
[
1
]));
//double centerPY
}
}
public
double
[]
createFXandJacobian
(
double
[]
vector
,
boolean
createJacobian
){
commitParameterVector
(
vector
);
return
createFXandJacobian
(
createJacobian
);
return
createFXandJacobian
(
createJacobian
);
}
}
...
@@ -322,8 +352,15 @@ public class FocusingField {
...
@@ -322,8 +352,15 @@ public class FocusingField {
for
(
int
i
=
0
;
i
<
numPars
;
i
++){
for
(
int
i
=
0
;
i
<
numPars
;
i
++){
jacobian
[
i
][
n
]=
derivs
[
selChanIndices
[
ms
.
channel
]][
i
];
jacobian
[
i
][
n
]=
derivs
[
selChanIndices
[
ms
.
channel
]][
i
];
}
}
}
//TODO: correct /dpx, /dpy to compensate for measured S,T calcualtion
boolean
[]
centerSelect
=
fieldFitting
.
getCenterSelect
();
if
(
centerSelect
[
0
]
||
centerSelect
[
1
]){
// do not do that if both X and Y are disabled
int
np
=
0
;
for
(
int
i
=
0
;
i
<
2
;
i
++)
if
(
centerSelect
[
i
]){
jacobian
[
np
++][
n
]-=
ms
.
dPxyc
[
i
];
// subtract, as effect is opposite to fX
}
}
}
}
}
return
fx
;
return
fx
;
}
}
...
@@ -341,9 +378,21 @@ public class FocusingField {
...
@@ -341,9 +378,21 @@ public class FocusingField {
}
}
return
Math
.
sqrt
(
sum
);
return
Math
.
sqrt
(
sum
);
}
}
public
MeasuredSample
[]
createDataVector
(){
public
MeasuredSample
[]
createDataVector
(){
// use this data
return
createDataVector
(
true
,
// boolean updateSelection,
currentPX0
,
// double centerPX,
currentPY0
);
//double centerPY
}
public
MeasuredSample
[]
createDataVector
(
boolean
updateSelection
,
double
centerPX
,
double
centerPY
){
// use this data
return
createDataVector
(
return
createDataVector
(
updateSelection
,
centerPX
,
centerPY
,
(
this
.
useMinMeas
?
this
.
minMeas
:
null
),
// pixels
(
this
.
useMinMeas
?
this
.
minMeas
:
null
),
// pixels
(
this
.
useMaxMeas
?
this
.
maxMeas
:
null
),
// pixels
(
this
.
useMaxMeas
?
this
.
maxMeas
:
null
),
// pixels
(
this
.
useThresholdMax
?
this
.
thresholdMax
:
null
));
// pixels
(
this
.
useThresholdMax
?
this
.
thresholdMax
:
null
));
// pixels
...
@@ -354,18 +403,115 @@ public class FocusingField {
...
@@ -354,18 +403,115 @@ public class FocusingField {
* @param minMeas minimal measurement PSF radius (in pixels) - correction that increases result
* @param minMeas minimal measurement PSF radius (in pixels) - correction that increases result
* resolution in "sharp" areas (to compensate for measurement error). Individual for each of
* resolution in "sharp" areas (to compensate for measurement error). Individual for each of
* the 6 color/direction components.
* the 6 color/direction components.
* @param updateSelection when true - updates selection of "good" samples, when false - reuses existent one
* @param maxMeas maximal measurement PSF radius (in pixels) - correction that decreases result
* @param maxMeas maximal measurement PSF radius (in pixels) - correction that decreases result
* resolution out-of-focus areas to compensate for the limited size of the PSF window.
* resolution out-of-focus areas to compensate for the limited size of the PSF window.
* Individual for each of the 6 color/direction components.
* Individual for each of the 6 color/direction components.
* @param thresholdMax maximal PSF radius to consider data usable
* @param thresholdMax maximal PSF radius to consider data usable
* @return array of the MeasuredSample instances, including motors, PSF radius, channel and value
* @return array of the MeasuredSample instances, including motors, PSF radius, channel and value
*/
*/
/*
Need to find partial derivatives of each of the 3 coefficients: c2, s2 and cs for both px0 and py0
r2 = (x-x0)^2+ (y-y0)^2
c2=(x-x0)^2/r2
s2=(y-y0)^2/r2
cs=(x-x0)*(y-y0)/r2
(p/q)'=(p'*q-q'*p)/q^2
d_r2/d_x0=-2*(x-x0)
d_r2/d_y0=-2*(y-y0)
d_c2/d_x0=(2*(x-x0)*(-1)*r2 - ((d_r2/d_x0)*(x-x0)^2))/r2^2=
(-2*(x-x0)*r2 + (2*(x-x0)*(x-x0)^2))/r2^2=
2*delta_x*(delta_x^2 - r2)/r2^2
d_c2/d_y0= (0-((d_r2/d_y0)*(x-x0)^2))/r2^2=
((2*(y-y0))*(x-x0)^2)/r2^2=
2*delta_y*delta_x^2/r2^2
d_cs/dx0=(-(y-y0)*r2- ((d_r2/d_x0)*(x-x0)*(y-y0)))/r2^2=
(-(y-y0)*r2 + 2*(x-x0)*(x-x0)*(y-y0))/r2^2=
(-delta_y*r2 + 2*delta_x^2*delta_y)/r2^2=
delta_y*(2*delta_x^2-r2)/r2^2
d_c2/d_x0= 2*delta_x*(delta_x^2 - r2)/r2^2
d_c2/d_y0= 2*delta_y*delta_x^2/r2^2
d_s2/d_y0= 2*delta_y*(delta_y^2 - r2)/r2^2
d_s2/d_x0= 2*delta_x*delta_y^2/r2^2
d_cs/dx0= delta_y*(2*delta_x^2-r2)/r2^2
d_cs/dy0= delta_x*(2*delta_y^2-r2)/r2^2
*/
public
MeasuredSample
[]
createDataVector
(
public
MeasuredSample
[]
createDataVector
(
boolean
updateSelection
,
double
centerPX
,
double
centerPY
,
double
[]
minMeas
,
// pixels
double
[]
minMeas
,
// pixels
double
[]
maxMeas
,
// pixels
double
[]
maxMeas
,
// pixels
double
[]
thresholdMax
){
// pixels
double
[]
thresholdMax
){
// pixels
currentPX0
=
centerPX
;
currentPY0
=
centerPY
;
final
int
numColors
=
3
;
final
int
numColors
=
3
;
final
int
numDirs
=
2
;
final
int
numDirs
=
2
;
if
(
sampleMask
==
null
)
updateSelection
=
true
;
if
(
updateSelection
){
sampleMask
=
new
boolean
[
sampleCoord
.
length
][
sampleCoord
[
0
].
length
][
numColors
][
numDirs
];
for
(
int
i
=
0
;
i
<
sampleMask
.
length
;
i
++)
for
(
int
j
=
0
;
j
<
sampleMask
[
i
].
length
;
j
++)
for
(
int
c
=
0
;
c
<
numColors
;
c
++)
for
(
int
d
=
0
;
d
<
numDirs
;
d
++)
sampleMask
[
i
][
j
][
c
][
d
]=
false
;
}
/*
d_c2/d_x0= 2*delta_x*(delta_x^2 - r2)/r2^2
d_c2/d_y0= 2*delta_y*delta_x^2/r2^2
d_s2/d_y0= 2*delta_y*(delta_y^2 - r2)/r2^2
d_s2/d_x0= 2*delta_x*delta_y^2/r2^2
2*d_cs/dx0= 2*delta_y*(2*delta_x^2-r2)/r2^2
2*d_cs/dy0= 2*delta_x*(2*delta_y^2-r2)/r2^2
*/
double
[][][]
cosSin2Tab
=
new
double
[
sampleCoord
.
length
][
sampleCoord
[
0
].
length
][
3
];
double
[][][]
cosSin2Tab_dx0
=
new
double
[
sampleCoord
.
length
][
sampleCoord
[
0
].
length
][
3
];
double
[][][]
cosSin2Tab_dy0
=
new
double
[
sampleCoord
.
length
][
sampleCoord
[
0
].
length
][
3
];
for
(
int
i
=
0
;
i
<
sampleMask
.
length
;
i
++)
for
(
int
j
=
0
;
j
<
sampleMask
[
i
].
length
;
j
++){
double
delta_x
=
sampleCoord
[
i
][
j
][
0
]-
currentPX0
;
double
delta_y
=
sampleCoord
[
i
][
j
][
1
]-
currentPY0
;
double
r2
=
delta_x
*
delta_x
+
delta_y
*
delta_y
;
double
r4
=
r2
*
r2
;
if
(
r2
>
0.0
)
{
cosSin2Tab
[
i
][
j
][
0
]=
delta_x
*
delta_x
/
r2
;
// cos^2
cosSin2Tab
[
i
][
j
][
1
]=
delta_y
*
delta_y
/
r2
;
// sin^2
cosSin2Tab
[
i
][
j
][
2
]=
2
*
delta_x
*
delta_y
/
r2
;
// 2*cos*sin
cosSin2Tab_dx0
[
i
][
j
][
0
]=
2
*
delta_x
*(
delta_x
*
delta_x
-
r2
)/
r4
;
// d(cos^2)/d(x0)
cosSin2Tab_dx0
[
i
][
j
][
1
]=
2
*
delta_x
*
delta_y
*
delta_y
/
r4
;
// d(sin^2)/d(x0)
cosSin2Tab_dx0
[
i
][
j
][
2
]=
2
*
delta_y
*(
2
*
delta_x
*
delta_x
-
r2
)/
r4
;
// d(2*cos*sin)/d(x0)
cosSin2Tab_dy0
[
i
][
j
][
0
]=
2
*
delta_y
*
delta_x
*
delta_x
/
r4
;
// d(cos^2)/d(y0)
cosSin2Tab_dy0
[
i
][
j
][
1
]=
2
*
delta_y
*(
delta_y
*
delta_y
-
r2
)/
r4
;
// d(sin^2)/d(y0)
cosSin2Tab_dy0
[
i
][
j
][
2
]=
2
*
delta_x
*(
2
*
delta_y
*
delta_y
-
r2
)/
r4
;
// d(2*cos*sin)/d(y0)
}
else
{
cosSin2Tab
[
i
][
j
][
0
]=
1.0
;
cosSin2Tab
[
i
][
j
][
1
]=
0.0
;
cosSin2Tab
[
i
][
j
][
2
]=
0.0
;
cosSin2Tab_dx0
[
i
][
j
][
0
]=
0.0
;
cosSin2Tab_dx0
[
i
][
j
][
1
]=
0.0
;
cosSin2Tab_dx0
[
i
][
j
][
2
]=
0.0
;
cosSin2Tab_dy0
[
i
][
j
][
0
]=
0.0
;
cosSin2Tab_dy0
[
i
][
j
][
1
]=
0.0
;
cosSin2Tab_dy0
[
i
][
j
][
2
]=
0.0
;
}
}
ArrayList
<
MeasuredSample
>
sampleList
=
new
ArrayList
<
MeasuredSample
>();
ArrayList
<
MeasuredSample
>
sampleList
=
new
ArrayList
<
MeasuredSample
>();
if
(
thresholdMax
!=
null
){
if
(
thresholdMax
!=
null
){
weightReference
=
thresholdMax
.
clone
();
weightReference
=
thresholdMax
.
clone
();
...
@@ -392,6 +538,7 @@ public class FocusingField {
...
@@ -392,6 +538,7 @@ public class FocusingField {
}
}
// convert to microns from pixels
// convert to microns from pixels
weightReference
[
c
]*=
getPixelUM
();
weightReference
[
c
]*=
getPixelUM
();
System
.
out
.
println
(
"==== weightReference["
+
c
+
"]="
+
weightReference
[
c
]);
}
}
}
else
{
}
else
{
thresholdMax
=
null
;
thresholdMax
=
null
;
...
@@ -401,44 +548,103 @@ public class FocusingField {
...
@@ -401,44 +548,103 @@ public class FocusingField {
if
(
samples
!=
null
)
for
(
int
i
=
0
;
i
<
sampleCoord
.
length
;
i
++){
if
(
samples
!=
null
)
for
(
int
i
=
0
;
i
<
sampleCoord
.
length
;
i
++){
if
((
i
<
samples
.
length
)
&&
(
samples
[
i
]!=
null
))
for
(
int
j
=
0
;
j
<
sampleCoord
[
i
].
length
;
j
++){
if
((
i
<
samples
.
length
)
&&
(
samples
[
i
]!=
null
))
for
(
int
j
=
0
;
j
<
sampleCoord
[
i
].
length
;
j
++){
if
((
j
<
samples
[
i
].
length
)
&&
(
samples
[
i
][
j
]!=
null
))
for
(
int
c
=
0
;
c
<
numColors
;
c
++){
if
((
j
<
samples
[
i
].
length
)
&&
(
samples
[
i
][
j
]!=
null
))
for
(
int
c
=
0
;
c
<
numColors
;
c
++){
if
((
c
<
samples
[
i
][
j
].
length
)
&&
(
samples
[
i
][
j
][
c
]!=
null
))
for
(
int
d
=
0
;
d
<
numDirs
;
d
++){
int
chn
=
d
+
numDirs
*
c
;
if
((
c
<
samples
[
i
][
j
].
length
)
&&
(
samples
[
i
][
j
][
c
]!=
null
)){
// System.out.println("i="+i+", j="+j+", c="+c+", d="+d);
double
sagTan
[]
=
{
// saved values are PSF radius, convert to FWHM by multiplying by 2.0
Math
.
sqrt
(
double
value
=
samples
[
i
][
j
][
c
][
d
]*
2.0
;
cosSin2Tab
[
i
][
j
][
0
]*
samples
[
i
][
j
][
c
][
0
]+
// discard above threshold (in pixels, raw FWHM data)
cosSin2Tab
[
i
][
j
][
1
]*
samples
[
i
][
j
][
c
][
1
]+
if
(
Double
.
isNaN
(
value
))
{
cosSin2Tab
[
i
][
j
][
2
]*
samples
[
i
][
j
][
c
][
2
]),
System
.
out
.
println
(
"samples["
+
i
+
"]["
+
j
+
"]["
+
c
+
"]["
+
d
+
"] = Double.NaN, motors[0]="
+
ffm
.
motors
[
0
]);
Math
.
sqrt
(
continue
;
// bad measurement
cosSin2Tab
[
i
][
j
][
1
]*
samples
[
i
][
j
][
c
][
0
]+
}
cosSin2Tab
[
i
][
j
][
0
]*
samples
[
i
][
j
][
c
][
1
]-
if
(
thresholdMax
!=
null
){
cosSin2Tab
[
i
][
j
][
2
]*
samples
[
i
][
j
][
c
][
2
])};
if
(
value
>=
thresholdMax
[
chn
])
continue
;
// bad measurement (above threshold)
}
double
sagTan_dx0
[]
=
{
// correct for for minimal measurement;
(
0.5
*(
if
(
minMeas
!=
null
){
cosSin2Tab_dx0
[
i
][
j
][
0
]*
samples
[
i
][
j
][
c
][
0
]+
if
(
value
<
minMeas
[
chn
])
continue
;
// bad measurement (smaller than correction)
cosSin2Tab_dx0
[
i
][
j
][
1
]*
samples
[
i
][
j
][
c
][
1
]+
value
=
Math
.
sqrt
(
value
*
value
-
minMeas
[
chn
]*
minMeas
[
chn
]);
cosSin2Tab_dx0
[
i
][
j
][
2
]*
samples
[
i
][
j
][
c
][
2
])/
sagTan
[
0
]),
}
(
0.5
*(
// correct for for maximal measurement;
cosSin2Tab_dx0
[
i
][
j
][
1
]*
samples
[
i
][
j
][
c
][
0
]+
if
(
maxMeas
!=
null
)
{
cosSin2Tab_dx0
[
i
][
j
][
0
]*
samples
[
i
][
j
][
c
][
1
]-
if
(
value
>=
maxMeas
[
chn
])
continue
;
// bad measurement (larger than correction)
cosSin2Tab_dx0
[
i
][
j
][
2
]*
samples
[
i
][
j
][
c
][
2
])/
sagTan
[
1
])
value
=
1.0
/
Math
.
sqrt
(
1.0
/(
value
*
value
)-
1.0
/(
maxMeas
[
chn
]*
maxMeas
[
chn
]));
};
double
sagTan_dy0
[]
=
{
(
0.5
*(
cosSin2Tab_dy0
[
i
][
j
][
0
]*
samples
[
i
][
j
][
c
][
0
]+
cosSin2Tab_dy0
[
i
][
j
][
1
]*
samples
[
i
][
j
][
c
][
1
]+
cosSin2Tab_dy0
[
i
][
j
][
2
]*
samples
[
i
][
j
][
c
][
2
])/
sagTan
[
0
]),
(
0.5
*(
cosSin2Tab_dy0
[
i
][
j
][
1
]*
samples
[
i
][
j
][
c
][
0
]+
cosSin2Tab_dy0
[
i
][
j
][
0
]*
samples
[
i
][
j
][
c
][
1
]-
cosSin2Tab_dy0
[
i
][
j
][
2
]*
samples
[
i
][
j
][
c
][
2
])/
sagTan
[
1
])
};
System
.
out
.
print
(
"\n"
+
ffm
.
motors
[
2
]+
" i= "
+
i
+
" j= "
+
j
+
" c= "
+
c
+
" sagTan= "
+
sagTan
[
0
]+
" "
+
sagTan
[
1
]+
" "
);
for
(
int
d
=
0
;
d
<
numDirs
;
d
++){
System
.
out
.
print
(
" d= "
+
d
+
" "
);
if
(!
updateSelection
&&
!
sampleMask
[
i
][
j
][
c
][
d
])
continue
;
int
chn
=
d
+
numDirs
*
c
;
// System.out.println("i="+i+", j="+j+", c="+c+", d="+d);
// saved values are PSF radius, convert to FWHM by multiplying by 2.0
double
value
=
sagTan
[
d
]*
2.0
;
double
value_dx0
=
sagTan_dx0
[
d
]*
2.0
;
double
value_dy0
=
sagTan_dy0
[
d
]*
2.0
;
// discard above threshold (in pixels, raw FWHM data)
if
(
Double
.
isNaN
(
value
))
{
System
.
out
.
println
(
"samples["
+
i
+
"]["
+
j
+
"]["
+
c
+
"]["
+
d
+
"] = Double.NaN, motors[0]="
+
ffm
.
motors
[
0
]);
continue
;
// bad measurement
}
System
.
out
.
print
(
" A "
+
value
);
if
(
thresholdMax
!=
null
){
if
(
value
>=
thresholdMax
[
chn
])
{
System
.
out
.
print
(
" > "
+
thresholdMax
[
chn
]);
continue
;
// bad measurement (above threshold)
}
}
System
.
out
.
print
(
" B "
+
value
);
// correct for for minimal measurement;
if
(
minMeas
!=
null
){
if
(
value
<
minMeas
[
chn
])
continue
;
// bad measurement (smaller than correction)
double
f
=
value
;
value
=
Math
.
sqrt
(
value
*
value
-
minMeas
[
chn
]*
minMeas
[
chn
]);
value_dx0
*=
f
/
value
;
value_dy0
*=
f
/
value
;
}
System
.
out
.
print
(
" C "
+
value
);
// correct for for maximal measurement;
if
(
maxMeas
!=
null
)
{
if
(
value
>=
maxMeas
[
chn
])
continue
;
// bad measurement (larger than correction)
double
f
=
value
;
value
=
1.0
/
Math
.
sqrt
(
1.0
/(
value
*
value
)-
1.0
/(
maxMeas
[
chn
]*
maxMeas
[
chn
]));
value_dx0
*=
1.0
/(
value
*
f
*
f
*
f
);
value_dy0
*=
1.0
/(
value
*
f
*
f
*
f
);
}
System
.
out
.
print
(
" D "
+
value
);
// convert to microns from pixels
value
*=
getPixelUM
();
sampleList
.
add
(
new
MeasuredSample
(
ffm
.
motors
,
ffm
.
timestamp
,
sampleCoord
[
i
][
j
][
0
],
// px,
sampleCoord
[
i
][
j
][
1
],
// py,
chn
,
value
,
value_dx0
,
//double dPxc; // derivative of the value by optical (aberration) center pixel X
value_dy0
//double dPyc; // derivative of the value by optical (aberration) center pixel Y
));
System
.
out
.
print
(
" E "
+
value
);
if
(
updateSelection
)
sampleMask
[
i
][
j
][
c
][
d
]=
true
;
}
}
// convert to microns from pixels
}
value
*=
getPixelUM
();
sampleList
.
add
(
new
MeasuredSample
(
ffm
.
motors
,
ffm
.
timestamp
,
sampleCoord
[
i
][
j
][
0
],
// px,
sampleCoord
[
i
][
j
][
1
],
// py,
chn
,
value
));
}
}
}
}
}
}
}
}
}
System
.
out
.
println
();
System
.
out
.
println
(
"createDataVector -> "
+
sampleList
.
size
()+
" elements"
);
System
.
out
.
println
(
"createDataVector -> "
+
sampleList
.
size
()+
" elements"
);
return
sampleList
.
toArray
(
new
MeasuredSample
[
0
]);
return
sampleList
.
toArray
(
new
MeasuredSample
[
0
]);
}
}
...
@@ -616,9 +822,9 @@ public class FocusingField {
...
@@ -616,9 +822,9 @@ public class FocusingField {
// this.savedJacobian=this.jacobian;
// this.savedJacobian=this.jacobian;
this
.
savedLMAArrays
=
lMAArrays
.
clone
();
this
.
savedLMAArrays
=
lMAArrays
.
clone
();
this
.
jacobian
=
null
;
// not needed, just to catch bugs
this
.
jacobian
=
null
;
// not needed, just to catch bugs
this
.
nextfX
=
createFXandJacobian
(
this
.
nextVector
,
true
);
this
.
nextfX
=
createFXandJacobian
(
this
.
nextVector
,
true
);
this
.
lMAArrays
=
calculateJacobianArrays
(
this
.
nextfX
);
this
.
lMAArrays
=
calculateJacobianArrays
(
this
.
nextfX
);
this
.
nextRMS
=
calcErrorDiffY
(
this
.
nextfX
);
this
.
nextRMS
=
calcErrorDiffY
(
this
.
nextfX
);
this
.
lastImprovements
[
1
]=
this
.
lastImprovements
[
0
];
this
.
lastImprovements
[
1
]=
this
.
lastImprovements
[
0
];
this
.
lastImprovements
[
0
]=
this
.
currentRMS
-
this
.
nextRMS
;
this
.
lastImprovements
[
0
]=
this
.
currentRMS
-
this
.
nextRMS
;
if
(
debugLevel
>
2
)
{
if
(
debugLevel
>
2
)
{
...
@@ -832,6 +1038,21 @@ public class FocusingField {
...
@@ -832,6 +1038,21 @@ public class FocusingField {
for
(
int
i
=
1
;
i
<
selChanIndices
.
length
;
i
++){
for
(
int
i
=
1
;
i
<
selChanIndices
.
length
;
i
++){
selChanIndices
[
i
]=
selChanIndices
[
i
-
1
]+(
selChannels
[
i
-
1
]?
1
:
0
);
selChanIndices
[
i
]=
selChanIndices
[
i
-
1
]+(
selChannels
[
i
-
1
]?
1
:
0
);
}
}
double
[][][]
cosSin2Tab
=
new
double
[
sampleCoord
.
length
][
sampleCoord
[
0
].
length
][
3
];
for
(
int
i
=
0
;
i
<
sampleMask
.
length
;
i
++)
for
(
int
j
=
0
;
j
<
sampleMask
[
i
].
length
;
j
++){
double
delta_x
=
sampleCoord
[
i
][
j
][
0
]-
currentPX0
;
double
delta_y
=
sampleCoord
[
i
][
j
][
1
]-
currentPY0
;
double
r2
=
delta_x
*
delta_x
+
delta_y
*
delta_y
;
if
(
r2
>
0.0
)
{
cosSin2Tab
[
i
][
j
][
0
]=
delta_x
*
delta_x
/
r2
;
// cos^2
cosSin2Tab
[
i
][
j
][
1
]=
delta_y
*
delta_y
/
r2
;
// sin^2
cosSin2Tab
[
i
][
j
][
2
]=
2
*
delta_x
*
delta_y
/
r2
;
// 2*cos*sin
}
else
{
cosSin2Tab
[
i
][
j
][
0
]=
1.0
;
cosSin2Tab
[
i
][
j
][
1
]=
0.0
;
cosSin2Tab
[
i
][
j
][
2
]=
0.0
;
}
}
StringBuffer
sb
=
new
StringBuffer
();
StringBuffer
sb
=
new
StringBuffer
();
if
(
showMotors
)
header
+=
"M1\tM2\tM3\t"
;
if
(
showMotors
)
header
+=
"M1\tM2\tM3\t"
;
...
@@ -871,30 +1092,51 @@ public class FocusingField {
...
@@ -871,30 +1092,51 @@ public class FocusingField {
if
(
showMeasCalc
[
0
]
&&
(
samples
!=
null
))
for
(
int
i
=
0
;
i
<
sampleCoord
.
length
;
i
++){
if
(
showMeasCalc
[
0
]
&&
(
samples
!=
null
))
for
(
int
i
=
0
;
i
<
sampleCoord
.
length
;
i
++){
if
((
i
<
samples
.
length
)
&&
(
samples
[
i
]!=
null
))
for
(
int
j
=
0
;
j
<
sampleCoord
[
i
].
length
;
j
++){
if
((
i
<
samples
.
length
)
&&
(
samples
[
i
]!=
null
))
for
(
int
j
=
0
;
j
<
sampleCoord
[
i
].
length
;
j
++){
if
((
j
<
samples
[
i
].
length
)
&&
(
samples
[
i
][
j
]!=
null
))
for
(
int
c
=
0
;
c
<
numColors
;
c
++){
if
((
j
<
samples
[
i
].
length
)
&&
(
samples
[
i
][
j
]!=
null
))
for
(
int
c
=
0
;
c
<
numColors
;
c
++){
if
((
c
<
samples
[
i
][
j
].
length
)
&&
(
samples
[
i
][
j
][
c
]!=
null
))
for
(
int
d
=
0
;
d
<
numDirs
;
d
++){
if
((
c
<
samples
[
i
][
j
].
length
)
&&
(
samples
[
i
][
j
][
c
]!=
null
))
{
int
chn
=
d
+
numDirs
*
c
;
double
sagTan
[]
=
{
// System.out.println("i="+i+", j="+j+", c="+c+", d="+d);
Math
.
sqrt
(
// saved values are PSF radius, convert to FWHM by multiplying by 2.0
cosSin2Tab
[
i
][
j
][
0
]*
samples
[
i
][
j
][
c
][
0
]+
double
value
=
samples
[
i
][
j
][
c
][
d
]*
2.0
;
cosSin2Tab
[
i
][
j
][
1
]*
samples
[
i
][
j
][
c
][
1
]+
// discard above threshold (in pixels, raw FWHM data)
cosSin2Tab
[
i
][
j
][
2
]*
samples
[
i
][
j
][
c
][
2
]),
if
(
Double
.
isNaN
(
value
))
continue
;
// bad measurement
Math
.
sqrt
(
if
(!
showIgnoredData
&&
(
thresholdMax
!=
null
)){
cosSin2Tab
[
i
][
j
][
1
]*
samples
[
i
][
j
][
c
][
0
]+
if
(
value
>=
thresholdMax
[
chn
])
continue
;
// bad measurement (above threshold)
cosSin2Tab
[
i
][
j
][
0
]*
samples
[
i
][
j
][
c
][
1
]-
}
cosSin2Tab
[
i
][
j
][
2
]*
samples
[
i
][
j
][
c
][
2
])};
// correct for for minimal measurement;
System
.
out
.
print
(
"\n"
+
ffm
.
motors
[
2
]+
" i= "
+
i
+
" j= "
+
j
+
" c= "
+
c
+
" sagTan= "
+
sagTan
[
0
]+
" "
+
sagTan
[
1
]+
" "
);
if
(
useMinMeas
&&
(
minMeas
!=
null
)){
for
(
int
d
=
0
;
d
<
numDirs
;
d
++){
if
(
value
<
minMeas
[
chn
])
continue
;
// bad measurement (smaller than correction)
System
.
out
.
print
(
" d= "
+
d
+
" "
);
value
=
Math
.
sqrt
(
value
*
value
-
minMeas
[
chn
]*
minMeas
[
chn
]);
int
chn
=
d
+
numDirs
*
c
;
}
// System.out.println("i="+i+", j="+j+", c="+c+", d="+d);
// correct for for maximal measurement;
// saved values are PSF radius, convert to FWHM by multiplying by 2.0
if
(
useMaxMeas
&&
(
maxMeas
!=
null
))
{
double
value
=
sagTan
[
d
]*
2.0
;
if
(
value
>=
maxMeas
[
chn
])
continue
;
// bad measurement (larger than correction)
// discard above threshold (in pixels, raw FWHM data)
value
=
1.0
/
Math
.
sqrt
(
1.0
/(
value
*
value
)-
1.0
/(
maxMeas
[
chn
]*
maxMeas
[
chn
]));
if
(
Double
.
isNaN
(
value
))
continue
;
// bad measurement
}
System
.
out
.
print
(
" A "
+
value
);
// convert to microns from pixels
if
(!
showIgnoredData
&&
(
thresholdMax
!=
null
)){
value
*=
getPixelUM
();
if
(
value
>=
thresholdMax
[
chn
]){
samplesFull
[
i
][
j
][
c
][
d
]=
value
;
System
.
out
.
print
(
" > "
+
thresholdMax
[
chn
]);
}
continue
;
// bad measurement (above threshold)
}
}
System
.
out
.
print
(
" B "
+
value
);
// correct for for minimal measurement;
if
(
useMinMeas
&&
(
minMeas
!=
null
)){
if
(
value
<
minMeas
[
chn
])
continue
;
// bad measurement (smaller than correction)
value
=
Math
.
sqrt
(
value
*
value
-
minMeas
[
chn
]*
minMeas
[
chn
]);
}
System
.
out
.
print
(
" C "
+
value
);
// correct for for maximal measurement;
if
(
useMaxMeas
&&
(
maxMeas
!=
null
))
{
if
(
value
>=
maxMeas
[
chn
])
continue
;
// bad measurement (larger than correction)
value
=
1.0
/
Math
.
sqrt
(
1.0
/(
value
*
value
)-
1.0
/(
maxMeas
[
chn
]*
maxMeas
[
chn
]));
}
System
.
out
.
print
(
" D "
+
value
);
// convert to microns from pixels
value
*=
getPixelUM
();
samplesFull
[
i
][
j
][
c
][
d
]=
value
;
System
.
out
.
print
(
" E "
+
value
);
}
}
}
}
}
}
}
}
...
@@ -949,6 +1191,9 @@ public class FocusingField {
...
@@ -949,6 +1191,9 @@ public class FocusingField {
}
}
sb
.
append
(
"\n"
);
sb
.
append
(
"\n"
);
}
}
System
.
out
.
println
();
if
(
showRad
){
if
(
showRad
){
sb
.
append
(
header
+
"\n"
);
sb
.
append
(
header
+
"\n"
);
if
(
showMotors
)
sb
.
append
(
"Sample\tradius\t(mm)\t"
);
if
(
showMotors
)
sb
.
append
(
"Sample\tradius\t(mm)\t"
);
...
@@ -1070,7 +1315,7 @@ public class FocusingField {
...
@@ -1070,7 +1315,7 @@ public class FocusingField {
String
msg
=
"Calculation aborted by user request, restoring saved parameter vector"
;
String
msg
=
"Calculation aborted by user request, restoring saved parameter vector"
;
IJ
.
showMessage
(
msg
);
IJ
.
showMessage
(
msg
);
System
.
out
.
println
(
msg
);
System
.
out
.
println
(
msg
);
this
.
fieldFitting
.
commitParameterVector
(
this
.
savedVector
,
sagittalMaste
r
);
commitParameterVector
(
this
.
savedVecto
r
);
return
false
;
return
false
;
}
}
...
@@ -1121,13 +1366,13 @@ public class FocusingField {
...
@@ -1121,13 +1366,13 @@ public class FocusingField {
// updateCameraParametersFromCalculated(false); // update camera parameters from enabled only images (may overwrite some of the above)
// updateCameraParametersFromCalculated(false); // update camera parameters from enabled only images (may overwrite some of the above)
}
}
// if RMS was decreased. this.saveSeries==false after dialogLMAStep(state) only if "cancel" was pressed
// if RMS was decreased. this.saveSeries==false after dialogLMAStep(state) only if "cancel" was pressed
this
.
fieldFitting
.
commitParameterVector
(
this
.
savedVector
,
sagittalMaste
r
);
// either new or original
commitParameterVector
(
this
.
savedVecto
r
);
// either new or original
return
this
.
saveSeries
;
// TODO: Maybe change result?
return
this
.
saveSeries
;
// TODO: Maybe change result?
}
}
//stepLevenbergMarquardtAction();
//stepLevenbergMarquardtAction();
if
(
state
[
1
])
{
if
(
state
[
1
])
{
if
(!
state
[
0
])
{
if
(!
state
[
0
])
{
this
.
fieldFitting
.
commitParameterVector
(
this
.
savedVector
,
sagittalMaste
r
);
commitParameterVector
(
this
.
savedVecto
r
);
return
false
;
// sequence failed
return
false
;
// sequence failed
}
}
this
.
savedVector
=
this
.
currentVector
.
clone
();
this
.
savedVector
=
this
.
currentVector
.
clone
();
...
@@ -1147,7 +1392,7 @@ public class FocusingField {
...
@@ -1147,7 +1392,7 @@ public class FocusingField {
" ("
+
this
.
firstRMS
+
") "
+
" ("
+
this
.
firstRMS
+
") "
+
" at "
+
IJ
.
d2s
(
0.000000001
*(
System
.
nanoTime
()-
this
.
startTime
),
3
));
" at "
+
IJ
.
d2s
(
0.000000001
*(
System
.
nanoTime
()-
this
.
startTime
),
3
));
this
.
savedVector
=
this
.
currentVector
.
clone
();
this
.
savedVector
=
this
.
currentVector
.
clone
();
this
.
fieldFitting
.
commitParameterVector
(
this
.
savedVector
,
sagittalMaste
r
);
commitParameterVector
(
this
.
savedVecto
r
);
return
true
;
// all series done
return
true
;
// all series done
}
}
...
@@ -1163,7 +1408,7 @@ public class FocusingField {
...
@@ -1163,7 +1408,7 @@ public class FocusingField {
public
String
timestamp
;
public
String
timestamp
;
public
double
temperature
;
public
double
temperature
;
public
int
[]
motors
;
public
int
[]
motors
;
double
[][][][]
samples
=
null
;
double
[][][][]
samples
=
null
;
// last - psf radius in pixels: {x2,y2, xy}
public
FocusingFieldMeasurement
(
public
FocusingFieldMeasurement
(
String
timestamp
,
String
timestamp
,
...
@@ -1176,16 +1421,21 @@ public class FocusingField {
...
@@ -1176,16 +1421,21 @@ public class FocusingField {
this
.
motors
=
new
int
[
motors
.
length
];
this
.
motors
=
new
int
[
motors
.
length
];
for
(
int
i
=
0
;
i
<
motors
.
length
;
i
++)
this
.
motors
[
i
]=
motors
[
i
];
for
(
int
i
=
0
;
i
<
motors
.
length
;
i
++)
this
.
motors
[
i
]=
motors
[
i
];
if
(
samples
!=
null
)
{
if
(
samples
!=
null
)
{
this
.
samples
=
new
double
[
samples
.
length
][
samples
[
0
].
length
][
samples
[
0
][
0
].
length
][
2
];
// this.samples=new double[samples.length][samples[0].length][samples[0][0].length][2];
try
{
this
.
samples
=
new
double
[
samples
.
length
][
samples
[
0
].
length
][
samples
[
0
][
0
].
length
][
3
];
}
catch
(
Exception
e
){
return
;
}
for
(
int
i
=
0
;
i
<
this
.
samples
.
length
;
i
++)
for
(
int
j
=
0
;
j
<
this
.
samples
[
i
].
length
;
j
++)
for
(
int
c
=
0
;
c
<
this
.
samples
[
i
][
j
].
length
;
c
++){
for
(
int
i
=
0
;
i
<
this
.
samples
.
length
;
i
++)
for
(
int
j
=
0
;
j
<
this
.
samples
[
i
].
length
;
j
++)
for
(
int
c
=
0
;
c
<
this
.
samples
[
i
][
j
].
length
;
c
++){
try
{
try
{
double
rt
=
samples
[
i
][
j
][
c
][
0
]/
Math
.
sqrt
((
1
+
samples
[
i
][
j
][
c
][
1
]*
samples
[
i
][
j
][
c
][
1
])/
2.0
);
// tangential;
// double rt=samples[i][j][c][0]/Math.sqrt((1+samples[i][j][c][1]*samples[i][j][c][1])/2.0); // tangential;
double
rs
=
rt
*
samples
[
i
][
j
][
c
][
1
];
// sagittal
// double rs=rt*samples[i][j][c][1]; // sagittal
this
.
samples
[
i
][
j
][
c
][
0
]=
rs
;
// this.samples[i][j][c][0]=rs;
this
.
samples
[
i
][
j
][
c
][
1
]=
rt
;
// this.samples[i][j][c][1]=rt;
this
.
samples
[
i
][
j
][
c
]=
samples
[
i
][
j
][
c
].
clone
();
}
catch
(
Exception
e
){
}
catch
(
Exception
e
){
this
.
samples
[
i
][
j
][
c
][
0
]=
Double
.
NaN
;
for
(
int
ii
=
0
;
ii
<
this
.
samples
[
i
][
j
][
c
].
length
;
ii
++)
this
.
samples
[
i
][
j
][
c
][
ii
]=
Double
.
NaN
;
this
.
samples
[
i
][
j
][
c
][
1
]=
Double
.
NaN
;
}
}
}
}
}
}
...
@@ -1219,11 +1469,14 @@ public class FocusingField {
...
@@ -1219,11 +1469,14 @@ public class FocusingField {
String
[]
ps
=
s
.
split
(
regSep
);
String
[]
ps
=
s
.
split
(
regSep
);
int
i
=
Integer
.
parseInt
(
ps
[
0
]);
int
i
=
Integer
.
parseInt
(
ps
[
0
]);
int
j
=
Integer
.
parseInt
(
ps
[
1
]);
int
j
=
Integer
.
parseInt
(
ps
[
1
]);
int
colors
=(
ps
.
length
-
2
)/
2
;
int
colors
=(
ps
.
length
-
2
)/
3
;
//
2;
this
.
samples
[
i
][
j
]=
new
double
[
colors
][
2
];
this
.
samples
[
i
][
j
]=
new
double
[
colors
][
3
];
//[
2];
for
(
int
c
=
0
;
c
<
colors
;
c
++){
for
(
int
c
=
0
;
c
<
colors
;
c
++){
this
.
samples
[
i
][
j
][
c
][
0
]=
Double
.
parseDouble
(
ps
[
2
*
c
+
2
]);
// this.samples[i][j][c][0]=Double.parseDouble(ps[2*c+2]);
this
.
samples
[
i
][
j
][
c
][
1
]=
Double
.
parseDouble
(
ps
[
2
*
c
+
3
]);
// this.samples[i][j][c][1]=Double.parseDouble(ps[2*c+3]);
this
.
samples
[
i
][
j
][
c
][
0
]=
Double
.
parseDouble
(
ps
[
3
*
c
+
2
]);
this
.
samples
[
i
][
j
][
c
][
1
]=
Double
.
parseDouble
(
ps
[
3
*
c
+
3
]);
this
.
samples
[
i
][
j
][
c
][
2
]=
Double
.
parseDouble
(
ps
[
3
*
c
+
4
]);
}
}
}
}
}
}
...
@@ -1235,8 +1488,11 @@ public class FocusingField {
...
@@ -1235,8 +1488,11 @@ public class FocusingField {
for
(
int
i
=
0
;
i
<
this
.
samples
.
length
;
i
++)
for
(
int
j
=
0
;
j
<
this
.
samples
[
i
].
length
;
j
++){
for
(
int
i
=
0
;
i
<
this
.
samples
.
length
;
i
++)
for
(
int
j
=
0
;
j
<
this
.
samples
[
i
].
length
;
j
++){
String
sdata
=
i
+
sep
+
j
;
String
sdata
=
i
+
sep
+
j
;
for
(
int
c
=
0
;
c
<
samples
[
i
][
j
].
length
;
c
++)
{
for
(
int
c
=
0
;
c
<
samples
[
i
][
j
].
length
;
c
++)
{
sdata
+=
sep
+
this
.
samples
[
i
][
j
][
c
][
0
]+
// sagittal
// sdata += sep+this.samples[i][j][c][0]+ // sagittal
sep
+
this
.
samples
[
i
][
j
][
c
][
1
];
// tangential
// sep+this.samples[i][j][c][1]; // tangential
sdata
+=
sep
+
this
.
samples
[
i
][
j
][
c
][
0
]+
// x2
sep
+
this
.
samples
[
i
][
j
][
c
][
1
]+
// y2
sep
+
this
.
samples
[
i
][
j
][
c
][
2
];
// xy
}
}
nodeList
.
add
(
sdata
);
nodeList
.
add
(
sdata
);
}
}
...
@@ -1255,8 +1511,11 @@ public class FocusingField {
...
@@ -1255,8 +1511,11 @@ public class FocusingField {
this
.
serialNumber
=
serialNumber
;
this
.
serialNumber
=
serialNumber
;
this
.
lensSerial
=
lensSerial
;
this
.
lensSerial
=
lensSerial
;
this
.
comment
=
comment
;
this
.
comment
=
comment
;
this
.
pX0
=
pX0
;
this
.
pX0_distortions
=
pX0
;
this
.
pY0
=
pY0
;
this
.
pY0_distortions
=
pY0
;
// copy distortions to current PX0/PY0
this
.
currentPX0
=
pX0_distortions
;
this
.
currentPY0
=
pY0_distortions
;
this
.
sampleCoord
=
sampleCoord
;
this
.
sampleCoord
=
sampleCoord
;
this
.
measurements
=
new
ArrayList
<
FocusingFieldMeasurement
>();
this
.
measurements
=
new
ArrayList
<
FocusingFieldMeasurement
>();
this
.
stopRequested
=
stopRequested
;
this
.
stopRequested
=
stopRequested
;
...
@@ -1306,8 +1565,11 @@ public class FocusingField {
...
@@ -1306,8 +1565,11 @@ public class FocusingField {
comment
=
hConfig
.
getString
(
"comment"
,
"no comments"
);
comment
=
hConfig
.
getString
(
"comment"
,
"no comments"
);
serialNumber
=
hConfig
.
getString
(
"serialNumber"
,
"???"
);
serialNumber
=
hConfig
.
getString
(
"serialNumber"
,
"???"
);
lensSerial
=
hConfig
.
getString
(
"lensSerial"
,
"???"
);
lensSerial
=
hConfig
.
getString
(
"lensSerial"
,
"???"
);
pX0
=
Double
.
parseDouble
(
hConfig
.
getString
(
"lens_center_x"
,
"0.0"
));
pX0_distortions
=
Double
.
parseDouble
(
hConfig
.
getString
(
"lens_center_x"
,
"0.0"
));
pY0
=
Double
.
parseDouble
(
hConfig
.
getString
(
"lens_center_y"
,
"0.0"
));
pY0_distortions
=
Double
.
parseDouble
(
hConfig
.
getString
(
"lens_center_y"
,
"0.0"
));
// copy distortions to current PX0/PY0
this
.
currentPX0
=
pX0_distortions
;
this
.
currentPY0
=
pY0_distortions
;
int
rows
=
Integer
.
parseInt
(
hConfig
.
getString
(
"samples_y"
,
"0"
));
int
rows
=
Integer
.
parseInt
(
hConfig
.
getString
(
"samples_y"
,
"0"
));
int
cols
=
Integer
.
parseInt
(
hConfig
.
getString
(
"samples_x"
,
"0"
));
int
cols
=
Integer
.
parseInt
(
hConfig
.
getString
(
"samples_x"
,
"0"
));
sampleCoord
=
new
double
[
rows
][
cols
][
2
];
sampleCoord
=
new
double
[
rows
][
cols
][
2
];
...
@@ -1342,8 +1604,8 @@ public class FocusingField {
...
@@ -1342,8 +1604,8 @@ public class FocusingField {
if
(
comment
!=
null
)
hConfig
.
addProperty
(
"comment"
,
comment
);
if
(
comment
!=
null
)
hConfig
.
addProperty
(
"comment"
,
comment
);
if
(
serialNumber
!=
null
)
hConfig
.
addProperty
(
"serialNumber"
,
serialNumber
);
if
(
serialNumber
!=
null
)
hConfig
.
addProperty
(
"serialNumber"
,
serialNumber
);
if
(
lensSerial
!=
null
)
hConfig
.
addProperty
(
"lensSerial"
,
lensSerial
);
if
(
lensSerial
!=
null
)
hConfig
.
addProperty
(
"lensSerial"
,
lensSerial
);
hConfig
.
addProperty
(
"lens_center_x"
,
pX0
);
hConfig
.
addProperty
(
"lens_center_x"
,
pX0
_distortions
);
// distortions center, not aberrations!
hConfig
.
addProperty
(
"lens_center_y"
,
pY0
);
hConfig
.
addProperty
(
"lens_center_y"
,
pY0
_distortions
);
if
((
sampleCoord
!=
null
)
&&
(
sampleCoord
.
length
>
0
)
&&
(
sampleCoord
[
0
]
!=
null
)
&&
(
sampleCoord
[
0
].
length
>
0
)){
if
((
sampleCoord
!=
null
)
&&
(
sampleCoord
.
length
>
0
)
&&
(
sampleCoord
[
0
]
!=
null
)
&&
(
sampleCoord
[
0
].
length
>
0
)){
hConfig
.
addProperty
(
"samples_x"
,
sampleCoord
[
0
].
length
);
hConfig
.
addProperty
(
"samples_x"
,
sampleCoord
[
0
].
length
);
hConfig
.
addProperty
(
"samples_y"
,
sampleCoord
.
length
);
hConfig
.
addProperty
(
"samples_y"
,
sampleCoord
.
length
);
...
@@ -1376,6 +1638,9 @@ public class FocusingField {
...
@@ -1376,6 +1638,9 @@ public class FocusingField {
}
}
}
}
public
class
FieldFitting
{
public
class
FieldFitting
{
public
double
[]
pXY
=
null
;
public
boolean
[]
centerSelect
=
null
;
public
boolean
[]
centerSelectDefault
={
true
,
true
};
MechanicalFocusingModel
mechanicalFocusingModel
;
MechanicalFocusingModel
mechanicalFocusingModel
;
CurvatureModel
[]
curvatureModel
=
new
CurvatureModel
[
6
];
// 3 colors, sagittal+tangential each
CurvatureModel
[]
curvatureModel
=
new
CurvatureModel
[
6
];
// 3 colors, sagittal+tangential each
boolean
[]
channelSelect
=
null
;
boolean
[]
channelSelect
=
null
;
...
@@ -1389,6 +1654,13 @@ public class FocusingField {
...
@@ -1389,6 +1654,13 @@ public class FocusingField {
return
channelDescriptions
[
i
];
return
channelDescriptions
[
i
];
}
}
public
boolean
[]
getCenterSelect
(){
return
centerSelect
;
}
public
double
[]
getCenterXY
(){
return
pXY
;
}
public
boolean
[]
getDefaultMask
(){
public
boolean
[]
getDefaultMask
(){
boolean
[]
mask
=
{
true
,
true
,
true
,
true
,
true
,
true
};
boolean
[]
mask
=
{
true
,
true
,
true
,
true
,
true
,
true
};
return
mask
;
return
mask
;
...
@@ -1401,9 +1673,13 @@ public class FocusingField {
...
@@ -1401,9 +1673,13 @@ public class FocusingField {
int
distanceParametersNumber
,
int
distanceParametersNumber
,
int
radialParametersNumber
)
int
radialParametersNumber
)
{
{
pXY
=
new
double
[
2
];
pXY
[
0
]=
pX0
;
pXY
[
1
]=
pY0
;
channelSelect
=
getDefaultMask
();
channelSelect
=
getDefaultMask
();
mechanicalFocusingModel
=
new
MechanicalFocusingModel
();
mechanicalFocusingModel
=
new
MechanicalFocusingModel
();
mechanicalSelect
=
mechanicalFocusingModel
.
getDefaultMask
();
mechanicalSelect
=
mechanicalFocusingModel
.
getDefaultMask
();
centerSelect
=
centerSelectDefault
.
clone
();
for
(
int
i
=
0
;
i
<
curvatureModel
.
length
;
i
++){
for
(
int
i
=
0
;
i
<
curvatureModel
.
length
;
i
++){
curvatureModel
[
i
]=
new
CurvatureModel
(
curvatureModel
[
i
]=
new
CurvatureModel
(
pX0
,
pX0
,
...
@@ -1432,6 +1708,9 @@ public class FocusingField {
...
@@ -1432,6 +1708,9 @@ public class FocusingField {
boolean
editCurvMask
=
false
;
boolean
editCurvMask
=
false
;
boolean
commonCurvMask
=
true
;
boolean
commonCurvMask
=
true
;
boolean
detailedCurvMask
=
false
;
boolean
detailedCurvMask
=
false
;
if
(
centerSelect
==
null
)
centerSelect
=
centerSelectDefault
.
clone
();
gd
.
addCheckbox
(
"Adjust aberration center (pX0)"
,
centerSelect
[
0
]);
gd
.
addCheckbox
(
"Adjust aberration center (pY0)"
,
centerSelect
[
1
]);
if
(
channelSelect
==
null
)
channelSelect
=
getDefaultMask
();
if
(
channelSelect
==
null
)
channelSelect
=
getDefaultMask
();
for
(
int
i
=
0
;
i
<
channelSelect
.
length
;
i
++)
{
for
(
int
i
=
0
;
i
<
channelSelect
.
length
;
i
++)
{
...
@@ -1445,6 +1724,8 @@ public class FocusingField {
...
@@ -1445,6 +1724,8 @@ public class FocusingField {
// gd.enableYesNoCancel("Keep","Apply"); // default OK (on enter) - "Keep"
// gd.enableYesNoCancel("Keep","Apply"); // default OK (on enter) - "Keep"
gd
.
showDialog
();
gd
.
showDialog
();
if
(
gd
.
wasCanceled
())
return
false
;
if
(
gd
.
wasCanceled
())
return
false
;
centerSelect
[
0
]=
gd
.
getNextBoolean
();
centerSelect
[
1
]=
gd
.
getNextBoolean
();
for
(
int
i
=
0
;
i
<
channelSelect
.
length
;
i
++)
{
for
(
int
i
=
0
;
i
<
channelSelect
.
length
;
i
++)
{
channelSelect
[
i
]=
gd
.
getNextBoolean
();
channelSelect
[
i
]=
gd
.
getNextBoolean
();
}
}
...
@@ -1493,6 +1774,15 @@ public class FocusingField {
...
@@ -1493,6 +1774,15 @@ public class FocusingField {
}
}
ArrayList
<
String
>
getParameterValueStrings
(
boolean
showDisabled
){
ArrayList
<
String
>
getParameterValueStrings
(
boolean
showDisabled
){
ArrayList
<
String
>
parList
=
new
ArrayList
<
String
>();
ArrayList
<
String
>
parList
=
new
ArrayList
<
String
>();
parList
.
add
(
"\t ===== Aberrations center =====\t\t"
);
String
[]
centerDescriptions
={
"Aberrations center X"
,
"Aberrations center Y"
};
for
(
int
i
=
0
;
i
<
2
;
i
++){
if
(
centerSelect
[
i
]
)
{
parList
.
add
(
"\t"
+
centerDescriptions
[
i
]+
":\t"
+
pXY
[
i
]+
"\tpix"
);
}
else
if
(
showDisabled
){
parList
.
add
(
"(disabled)\t"
+
centerDescriptions
[
i
]+
":\t"
+
pXY
[
i
]+
"\tpix"
);
}
}
parList
.
add
(
"\t ===== Mechanical model parameters =====\t\t"
);
parList
.
add
(
"\t ===== Mechanical model parameters =====\t\t"
);
for
(
int
i
=
0
;
i
<
mechanicalFocusingModel
.
paramValues
.
length
;
i
++){
for
(
int
i
=
0
;
i
<
mechanicalFocusingModel
.
paramValues
.
length
;
i
++){
if
((
mechanicalSelect
==
null
)
||
mechanicalSelect
[
i
]
)
{
if
((
mechanicalSelect
==
null
)
||
mechanicalSelect
[
i
]
)
{
...
@@ -1535,6 +1825,16 @@ public class FocusingField {
...
@@ -1535,6 +1825,16 @@ public class FocusingField {
// Show/modify all parameters in a single window.
// Show/modify all parameters in a single window.
public
boolean
showModifyParameterValues
(
String
title
,
boolean
showDisabled
){
public
boolean
showModifyParameterValues
(
String
title
,
boolean
showDisabled
){
GenericDialog
gd
=
new
GenericDialog
(
title
);
GenericDialog
gd
=
new
GenericDialog
(
title
);
gd
.
addMessage
(
"===== Aberrations center ====="
);
String
[]
centerDescriptions
={
"Aberrations center X"
,
"Aberrations center Y"
};
for
(
int
i
=
0
;
i
<
2
;
i
++){
if
(
centerSelect
[
i
]
)
{
gd
.
addNumericField
(
centerDescriptions
[
i
],
pXY
[
i
],
5
,
10
,
"pix"
);
}
else
if
(
showDisabled
){
gd
.
addNumericField
(
"(disabled) "
+
centerDescriptions
[
i
],
pXY
[
i
],
5
,
10
,
"pix"
);
}
}
gd
.
addMessage
(
"===== Mechanical model parameters ====="
);
gd
.
addMessage
(
"===== Mechanical model parameters ====="
);
for
(
int
i
=
0
;
i
<
mechanicalFocusingModel
.
paramValues
.
length
;
i
++){
for
(
int
i
=
0
;
i
<
mechanicalFocusingModel
.
paramValues
.
length
;
i
++){
if
((
mechanicalSelect
==
null
)
||
mechanicalSelect
[
i
]
)
{
if
((
mechanicalSelect
==
null
)
||
mechanicalSelect
[
i
]
)
{
...
@@ -1575,6 +1875,11 @@ public class FocusingField {
...
@@ -1575,6 +1875,11 @@ public class FocusingField {
gd
.
showDialog
();
gd
.
showDialog
();
if
(
gd
.
wasCanceled
())
return
false
;
if
(
gd
.
wasCanceled
())
return
false
;
if
(!
gd
.
wasOKed
())
{
// selected non-default "Apply"
if
(!
gd
.
wasOKed
())
{
// selected non-default "Apply"
for
(
int
i
=
0
;
i
<
2
;
i
++){
if
(
centerSelect
[
i
]
||
showDisabled
)
{
pXY
[
i
]=
gd
.
getNextNumber
();
}
}
for
(
int
i
=
0
;
i
<
mechanicalFocusingModel
.
paramValues
.
length
;
i
++){
for
(
int
i
=
0
;
i
<
mechanicalFocusingModel
.
paramValues
.
length
;
i
++){
if
((
mechanicalSelect
==
null
)
||
mechanicalSelect
[
i
]
||
showDisabled
)
{
if
((
mechanicalSelect
==
null
)
||
mechanicalSelect
[
i
]
||
showDisabled
)
{
mechanicalFocusingModel
.
paramValues
[
i
]=
gd
.
getNextNumber
();
mechanicalFocusingModel
.
paramValues
[
i
]=
gd
.
getNextNumber
();
...
@@ -1594,10 +1899,13 @@ public class FocusingField {
...
@@ -1594,10 +1899,13 @@ public class FocusingField {
}
}
/**
/**
* @return number of selected parameters (including mechanical and each selected - up to 6 - curvature)
* @return number of selected parameters (including
center,
mechanical and each selected - up to 6 - curvature)
*/
*/
public
int
getNumberOfParameters
(
boolean
sagittalMaster
){
public
int
getNumberOfParameters
(
boolean
sagittalMaster
){
int
np
=
0
;
int
np
=
0
;
for
(
int
i
=
0
;
i
<
2
;
i
++){
if
(
centerSelect
[
i
])
np
++;
}
for
(
int
i
=
0
;
i
<
mechanicalFocusingModel
.
paramValues
.
length
;
i
++){
for
(
int
i
=
0
;
i
<
mechanicalFocusingModel
.
paramValues
.
length
;
i
++){
if
((
mechanicalSelect
==
null
)
||
mechanicalSelect
[
i
]
)
np
++;
if
((
mechanicalSelect
==
null
)
||
mechanicalSelect
[
i
]
)
np
++;
}
}
...
@@ -1627,6 +1935,10 @@ public class FocusingField {
...
@@ -1627,6 +1935,10 @@ public class FocusingField {
public
double
[]
createParameterVector
(
boolean
sagittalMaster
){
public
double
[]
createParameterVector
(
boolean
sagittalMaster
){
double
[]
pars
=
new
double
[
getNumberOfParameters
(
sagittalMaster
)];
double
[]
pars
=
new
double
[
getNumberOfParameters
(
sagittalMaster
)];
int
np
=
0
;
int
np
=
0
;
for
(
int
i
=
0
;
i
<
2
;
i
++){
if
(
centerSelect
[
i
])
pars
[
np
++]=
pXY
[
i
];
}
for
(
int
i
=
0
;
i
<
mechanicalFocusingModel
.
paramValues
.
length
;
i
++){
for
(
int
i
=
0
;
i
<
mechanicalFocusingModel
.
paramValues
.
length
;
i
++){
if
((
mechanicalSelect
==
null
)
||
mechanicalSelect
[
i
]
)
pars
[
np
++]=
mechanicalFocusingModel
.
paramValues
[
i
];
if
((
mechanicalSelect
==
null
)
||
mechanicalSelect
[
i
]
)
pars
[
np
++]=
mechanicalFocusingModel
.
paramValues
[
i
];
}
}
...
@@ -1649,6 +1961,9 @@ public class FocusingField {
...
@@ -1649,6 +1961,9 @@ public class FocusingField {
*/
*/
public
void
commitParameterVector
(
double
[]
pars
,
boolean
sagittalMaster
){
public
void
commitParameterVector
(
double
[]
pars
,
boolean
sagittalMaster
){
int
np
=
0
;
int
np
=
0
;
for
(
int
i
=
0
;
i
<
2
;
i
++){
if
(
centerSelect
[
i
])
pXY
[
i
]=
pars
[
np
++];
}
for
(
int
i
=
0
;
i
<
mechanicalFocusingModel
.
paramValues
.
length
;
i
++){
for
(
int
i
=
0
;
i
<
mechanicalFocusingModel
.
paramValues
.
length
;
i
++){
if
((
mechanicalSelect
==
null
)
||
mechanicalSelect
[
i
]
)
mechanicalFocusingModel
.
paramValues
[
i
]
=
pars
[
np
++];;
if
((
mechanicalSelect
==
null
)
||
mechanicalSelect
[
i
]
)
mechanicalFocusingModel
.
paramValues
[
i
]
=
pars
[
np
++];;
}
}
...
@@ -1669,9 +1984,11 @@ public class FocusingField {
...
@@ -1669,9 +1984,11 @@ public class FocusingField {
if
(
isMasterDir
){
if
(
isMasterDir
){
curvatureModel
[
n
^
1
].
setCenterVector
(
curvatureModel
[
n
].
getCenterVector
());
curvatureModel
[
n
^
1
].
setCenterVector
(
curvatureModel
[
n
].
getCenterVector
());
}
}
}
}
// propagate pXY to each channel (even disabled)
for
(
int
n
=
0
;
n
<
curvatureModel
.
length
;
n
++){
curvatureModel
[
n
].
setCenter
(
pXY
[
0
],
pXY
[
1
]);
}
}
}
public
double
getMotorsZ
(
public
double
getMotorsZ
(
int
[]
motors
,
// 3 motor coordinates
int
[]
motors
,
// 3 motor coordinates
...
@@ -1687,10 +2004,17 @@ public class FocusingField {
...
@@ -1687,10 +2004,17 @@ public class FocusingField {
public
double
getRadiusMM
(
public
double
getRadiusMM
(
double
px
,
// pixel x
double
px
,
// pixel x
double
py
)
{
// pixel y
double
py
)
{
// pixel y
double
pd
=
Math
.
sqrt
((
px
-
pX0
)*(
px
-
pX0
)+(
py
-
pY0
)*(
py
-
p
Y0
));
double
pd
=
Math
.
sqrt
((
px
-
currentPX0
)*(
px
-
currentPX0
)+(
py
-
currentPY0
)*(
py
-
currentP
Y0
));
return
pd
*
getPixelMM
();
return
pd
*
getPixelMM
();
}
}
public
double
getRadiusMM_distortions
(
double
px
,
// pixel x
double
py
)
{
// pixel y
double
pd
=
Math
.
sqrt
((
px
-
pX0_distortions
)*(
px
-
pX0_distortions
)+(
py
-
pY0_distortions
)*(
py
-
pY0_distortions
));
return
pd
*
getPixelMM
();
}
/**
/**
* Generate vector of function values (up to 6 - 1 per selected channel), corresponding to motor positions and pixel
* Generate vector of function values (up to 6 - 1 per selected channel), corresponding to motor positions and pixel
* coordinates, optionally generate partial derivatives for each channel and parameter
* coordinates, optionally generate partial derivatives for each channel and parameter
...
@@ -1727,14 +2051,29 @@ public class FocusingField {
...
@@ -1727,14 +2051,29 @@ public class FocusingField {
deriv_curv
[
c
]);
deriv_curv
[
c
]);
}
}
if
(
deriv
!=
null
){
if
(
deriv
!=
null
){
double
dX
=
px
-
pXY
[
0
];
double
dY
=
py
-
pXY
[
1
];
double
r
=
Math
.
sqrt
(
dX
*
dX
+
dY
*
dY
);
double
[]
dr_dxy
={
1.0
,
1.0
};
if
(
r
>
0.0
){
dr_dxy
[
0
]=-
dX
/
r
;
dr_dxy
[
1
]=-
dY
/
r
;
}
nChn
=
0
;
nChn
=
0
;
for
(
int
c
=
0
;
c
<
channelSelect
.
length
;
c
++)
if
(
channelSelect
[
c
]){
for
(
int
c
=
0
;
c
<
channelSelect
.
length
;
c
++)
if
(
channelSelect
[
c
]){
boolean
isMasterDir
=(
c
%
2
)
==
(
sagittalMaster
?
0
:
1
);
boolean
isMasterDir
=(
c
%
2
)
==
(
sagittalMaster
?
0
:
1
);
int
otherChannel
=
c
^
1
;
int
otherChannel
=
c
^
1
;
deriv
[
nChn
]=
new
double
[
getNumberOfParameters
(
sagittalMaster
)];
deriv
[
nChn
]=
new
double
[
getNumberOfParameters
(
sagittalMaster
)];
int
np
=
0
;
int
np
=
0
;
for
(
int
i
=
0
;
i
<
2
;
i
++){
if
(
centerSelect
[
i
]
)
{
deriv
[
nChn
][
np
++]=
dr_dxy
[
i
]*
deriv_curv
[
c
][
deriv_curv
[
c
].
length
-
1
];
// needs correction from measurement conversion
}
}
// For dependent/master channels no difference for mechanical parameters
// For dependent/master channels no difference for mechanical parameters
// TOSO: verify they are the same?
// TODO: verify they are the same?
// calculate derivatives for the center variations (/dXc, /dYc). Will need to be modified for Y vector too as
// Y-vector two values (S,T) are calculated from 3 (X2,Y2,XY) and depend on the center position.
for
(
int
i
=
0
;
i
<
mechanicalFocusingModel
.
paramValues
.
length
;
i
++){
for
(
int
i
=
0
;
i
<
mechanicalFocusingModel
.
paramValues
.
length
;
i
++){
if
((
mechanicalSelect
==
null
)
||
mechanicalSelect
[
i
]
)
{
if
((
mechanicalSelect
==
null
)
||
mechanicalSelect
[
i
]
)
{
...
@@ -2071,9 +2410,9 @@ public class FocusingField {
...
@@ -2071,9 +2410,9 @@ public class FocusingField {
private
double
dflt_na
=
0.15
;
// um/um
private
double
dflt_na
=
0.15
;
// um/um
private
double
dflt_r0
=
4.0
;
//3.3; // um (1.5 pix)
private
double
dflt_r0
=
4.0
;
//3.3; // um (1.5 pix)
private
double
[][]
modelParams
=
null
;
private
double
[][]
modelParams
=
null
;
public
static
final
int
dflt_distanceParametersNumber
=
4
;
public
static
final
int
dflt_distanceParametersNumber
=
5
;
public
static
final
int
dflt_radialParametersNumber
=
3
;
public
static
final
int
dflt_radialParametersNumber
=
3
;
private
static
final
int
min_distanceParametersNumber
=
3
;
private
static
final
int
min_distanceParametersNumber
=
4
;
private
static
final
int
min_radialParametersNumber
=
1
;
private
static
final
int
min_radialParametersNumber
=
1
;
private
double
pX0
,
pY0
;
private
double
pX0
,
pY0
;
public
CurvatureModel
(
public
CurvatureModel
(
...
@@ -2088,6 +2427,10 @@ public class FocusingField {
...
@@ -2088,6 +2427,10 @@ public class FocusingField {
this
.
modelParams
=
new
double
[
distanceParametersNumber
][
radialParametersNumber
];
this
.
modelParams
=
new
double
[
distanceParametersNumber
][
radialParametersNumber
];
setDefaults
();
setDefaults
();
}
}
public
void
setCenter
(
double
pX
,
double
pY
){
pX0
=
pX
;
pY0
=
pY
;
}
public
int
[]
getNumPars
(){
public
int
[]
getNumPars
(){
if
(
modelParams
==
null
)
return
null
;
if
(
modelParams
==
null
)
return
null
;
int
[]
numPars
={
modelParams
.
length
,
modelParams
[
0
].
length
};
int
[]
numPars
={
modelParams
.
length
,
modelParams
[
0
].
length
};
...
@@ -2129,7 +2472,7 @@ public class FocusingField {
...
@@ -2129,7 +2472,7 @@ public class FocusingField {
}
}
public
int
getSize
(){
public
int
getSize
(){
try
{
try
{
return
this
.
modelParams
.
length
*
this
.
modelParams
[
0
].
length
;
return
this
.
modelParams
.
length
*
this
.
modelParams
[
0
].
length
+
1
;
// last element df/dr
}
catch
(
Exception
e
){
}
catch
(
Exception
e
){
return
0
;
return
0
;
}
}
...
@@ -2142,7 +2485,7 @@ public class FocusingField {
...
@@ -2142,7 +2485,7 @@ public class FocusingField {
* @param pX - sample pixel x coordinate (currently just for radius calculation)
* @param pX - sample pixel x coordinate (currently just for radius calculation)
* @param pY - sample pixel y coordinate (currently just for radius calculation)
* @param pY - sample pixel y coordinate (currently just for radius calculation)
* @param z_in - z (from mechanical) before subtracting of z0
* @param z_in - z (from mechanical) before subtracting of z0
* @param deriv array to accommodate all partial derivatives or null
* @param deriv array to accommodate all partial derivatives or null
(should have modelParams.length*modelParams[0].length+1
* @return function value
* @return function value
*/
*/
public
double
getFdF
(
public
double
getFdF
(
...
@@ -2167,13 +2510,15 @@ ar1 - ar[4]
...
@@ -2167,13 +2510,15 @@ ar1 - ar[4]
*/
*/
double
r
=
Math
.
sqrt
((
pX
-
pX0
)*(
pX
-
pX0
)+(
pY
-
pY0
)*(
pY
-
pY0
))*
PIXEL_SIZE
;
// in mm
double
r
=
Math
.
sqrt
((
pX
-
pX0
)*(
pX
-
pX0
)+(
pY
-
pY0
)*(
pY
-
pY0
))*
PIXEL_SIZE
;
// in mm
double
r2
=
r
*
r
;
//
double r2=r*r;
double
[]
ar
=
new
double
[
this
.
modelParams
.
length
];
double
[]
ar
=
new
double
[
this
.
modelParams
.
length
];
for
(
int
i
=
0
;
i
<
this
.
modelParams
.
length
;
i
++){
for
(
int
i
=
0
;
i
<
this
.
modelParams
.
length
;
i
++){
ar
[
i
]=
this
.
modelParams
[
i
][
0
];
ar
[
i
]=
this
.
modelParams
[
i
][
0
];
double
rp
=
1.0
;
// double rp=1.0;
double
rp
=
r
;
for
(
int
j
=
1
;
j
<
this
.
modelParams
[
i
].
length
;
j
++){
for
(
int
j
=
1
;
j
<
this
.
modelParams
[
i
].
length
;
j
++){
rp
*=
r2
;
// rp*=r2;
rp
*=
r
;
ar
[
i
]+=
this
.
modelParams
[
i
][
j
]*
rp
;
ar
[
i
]+=
this
.
modelParams
[
i
][
j
]*
rp
;
}
}
}
}
...
@@ -2231,20 +2576,34 @@ ar1 - ar[4]
...
@@ -2231,20 +2576,34 @@ ar1 - ar[4]
double
[]
dar
=
new
double
[
this
.
modelParams
[
0
].
length
];
double
[]
dar
=
new
double
[
this
.
modelParams
[
0
].
length
];
dar
[
0
]=
1
;
dar
[
0
]=
1
;
for
(
int
j
=
1
;
j
<
dar
.
length
;
j
++){
for
(
int
j
=
1
;
j
<
dar
.
length
;
j
++){
dar
[
j
]=
dar
[
j
-
1
]*
r2
;
// dar[j]=dar[j-1]*r2;
dar
[
j
]=
dar
[
j
-
1
]*
r
;
if
(
j
==
1
)
dar
[
j
]*=
r
;
// 0,2,3,4,5...
}
}
int
index
=
0
;
int
index
=
0
;
for
(
int
i
=
0
;
i
<
this
.
modelParams
.
length
;
i
++)
for
(
int
j
=
0
;
j
<
this
.
modelParams
[
0
].
length
;
j
++){
for
(
int
i
=
0
;
i
<
this
.
modelParams
.
length
;
i
++)
for
(
int
j
=
0
;
j
<
this
.
modelParams
[
0
].
length
;
j
++){
deriv
[
index
++]=
df_da
[
i
]*
dar
[
j
];
deriv
[
index
++]=
df_da
[
i
]*
dar
[
j
];
}
}
// calculate d(f)/d(r)
double
df_dr
=
0.0
;
for
(
int
i
=
0
;
i
<
this
.
modelParams
.
length
;
i
++){
double
da_dr
=
0.0
;
double
rp
=
1.0
;
for
(
int
j
=
1
;
j
<
this
.
modelParams
[
0
].
length
;
j
++)
{
rp
*=
r
;
da_dr
+=
this
.
modelParams
[
i
][
j
]*(
j
+
1
)*
rp
;
}
df_dr
+=
df_da
[
i
]*
da_dr
;
}
deriv
[
this
.
modelParams
.
length
*
this
.
modelParams
[
0
].
length
]=
df_dr
;
// last element
return
f
;
// function value
return
f
;
// function value
}
}
public
String
getRadialName
(
int
i
){
public
String
getRadialName
(
int
i
){
return
"ar_"
+(
2
*
i
);
return
"ar_"
+(
i
+
1
);
}
}
public
String
getRadialDecription
(
int
i
){
public
String
getRadialDecription
(
int
i
){
if
(
i
==
0
)
return
"Radial constant coefficient"
;
if
(
i
==
0
)
return
"Radial constant coefficient"
;
return
"Radial polynomial coefficient for r^"
+(
2
*
i
);
return
"Radial polynomial coefficient for r^"
+(
i
+
1
);
}
}
public
String
getZName
(
int
i
){
public
String
getZName
(
int
i
){
if
(
i
==
0
)
return
"z0"
;
if
(
i
==
0
)
return
"z0"
;
...
...
src/main/java/MatchSimulatedPattern.java
View file @
57f9aca9
...
@@ -5354,6 +5354,53 @@ java.lang.ArrayIndexOutOfBoundsException: -3566
...
@@ -5354,6 +5354,53 @@ java.lang.ArrayIndexOutOfBoundsException: -3566
return
result
;
return
result
;
}
}
//====================================================
public
double
[]
x2y2xySizes
(
double
[]
psf
,
// PSF function, square array, nominally positive
double
cutoffEnergy
,
// fraction of energy in the pixels to be used
double
cutoffLevel
,
// minimal level as a fraction of maximal
int
minArea
,
// minimal selected area in pixels
double
blurSigma
,
// optionally blur the selection
double
maskCutOff
,
int
debugLevel
,
// debug level
String
title
)
{
// prefix used for debug images
double
[]
mask
=
findClusterOnPSF
(
psf
,
cutoffEnergy
,
cutoffLevel
,
minArea
,
blurSigma
,
debugLevel
,
title
);
for
(
int
i
=
0
;
i
<
mask
.
length
;
i
++)
if
(
mask
[
i
]<
maskCutOff
)
mask
[
i
]=
0.0
;
int
size
=
(
int
)
Math
.
sqrt
(
psf
.
length
);
int
hsize
=
size
/
2
;
// int nn=0;
double
S0
=
0.0
,
SX
=
0.0
,
SY
=
0.0
,
SX2
=
0.0
,
SY2
=
0.0
,
SXY
=
0.0
;
for
(
int
i
=
0
;
i
<
mask
.
length
;
i
++)
if
(
mask
[
i
]>
0.0
)
{
double
x
=(
i
%
size
)
-
hsize
;
double
y
=(
i
/
size
)
-
hsize
;
double
d
=
psf
[
i
]*
mask
[
i
];
S0
+=
d
;
SX
+=
d
*
x
;
SY
+=
d
*
y
;
SX2
+=
d
*
x
*
x
;
SY2
+=
d
*
y
*
y
;
SXY
+=
d
*
x
*
y
;
// nn++;
}
if
(
S0
==
0.0
)
return
null
;
// make sure it is OK
double
[]
result
={
(
SX2
*
S0
-
SX
*
SX
)/
S0
/
S0
,
(
SY2
*
S0
-
SY
*
SY
)/
S0
/
S0
,
(
SXY
*
S0
-
SX
*
SY
)/
S0
/
S0
};
// this may be negative
// System.out.println(" mask.length="+mask.length+" nn="+nn+" S0="+S0+" SX="+SX+" SY="+SY+" SX2="+SXR2+" SY2="+SY2+" SXY="+SXY+
// " result={"+result[0]+","+result[1]+","+result[2]+"}");
return
result
;
}
//====================================================
//====================================================
public
double
[]
findClusterOnPSF
(
public
double
[]
findClusterOnPSF
(
...
@@ -8509,6 +8556,7 @@ d()/dy=C*x+2*B*y+E=0
...
@@ -8509,6 +8556,7 @@ d()/dy=C*x+2*B*y+E=0
IJ
.
showMessage
(
"Error"
,
msg
);
IJ
.
showMessage
(
"Error"
,
msg
);
throw
new
IllegalArgumentException
(
msg
);
throw
new
IllegalArgumentException
(
msg
);
}
}
if
(
this
.
PATTERN_GRID
.
length
==
0
)
return
null
;
double
x1
=
x0
,
y1
=
y0
;
double
x1
=
x0
,
y1
=
y0
;
double
x2
=
x1
+
size
;
double
x2
=
x1
+
size
;
double
y2
=
y1
+
size
;
double
y2
=
y1
+
size
;
...
...
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