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R1448 Lenstool-HPC
delense_CPU.cpp
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// This file is part of lenstoolHPC
// authors: gilles.fourestey@epfl.ch
#include "delense_CPU.hpp"
#if 1
void
delense_barycenter
(
struct
point
*
image_pos
,
int
MAXIMPERSOURCE
,
int
*
locimagesfound
,
int
*
numimg
,
const
runmode_param
*
runmode
,
const
struct
Potential_SOA
*
lens
,
const
struct
grid_param
*
frame
,
const
int
*
nimages_strongLensing
,
const
struct
galaxy
*
sources
,
double
*
grid_gradient_x
,
double
*
grid_gradient_y
)
{
#define INDEX2D_BAR(y, x) (MAXIMPERSOURCE*y + x)
//const unsigned int nimagestot = runmode->nimagestot;
const
unsigned
int
nsets
=
runmode
->
nsets
;
const
unsigned
int
nbgridcells
=
runmode
->
nbgridcells
;
int
world_size
=
1
;
int
world_rank
=
0
;
#ifdef __WITH_MPI
MPI_Comm_size
(
MPI_COMM_WORLD
,
&
world_size
);
MPI_Comm_rank
(
MPI_COMM_WORLD
,
&
world_rank
);
#endif
unsigned
int
verbose
=
(
world_rank
==
0
);
//
const
int
grid_dim
=
runmode
->
nbgridcells
;
const
int
grid_size
=
nbgridcells
;
const
int
loc_grid_size
=
nbgridcells
/
world_size
;
//
double
y_len
=
fabs
(
frame
->
ymax
-
frame
->
ymin
);
int
y_len_loc
=
nbgridcells
/
world_size
;
int
y_pos_loc
=
(
int
)
world_rank
*
y_len_loc
;
int
y_bound
=
y_len_loc
;
//
if
((
world_rank
+
1
)
!=
world_size
)
y_bound
++
;
//
const
double
dx
=
(
frame
->
xmax
-
frame
->
xmin
)
/
(
nbgridcells
-
1
);
const
double
dy
=
(
frame
->
ymax
-
frame
->
ymin
)
/
(
nbgridcells
-
1
);
//
int
images_total
=
0
;
int
index
=
0
;
//
int
lif
[
nsets
][
16
];
memset
(
&
lif
,
0
,
nsets
*
16
*
sizeof
(
int
));
//
//locimagesfound[source_id] = 0;
//lif[source_id] = 0;
// number of images in the image plane for the specific image (1,3,5...)
//unsigned short int nimages = nimages_strongLensing[source_id];
//printf("@@ source_id = %d, nimages = %d\n", source_id, nimages_strongLensing[source_id]);
//____________________________ image (constrains) loop ________________________________
//
//struct point image_pos [MAXIMPERSOURCE];
//
//MPI_Barrier(MPI_COMM_WORLD);
//if (verbose) printf("source = %d, image = %d\n", source_id, image_id);
//if (verbose) fflush(stdout);
//
for
(
int
source_id
=
0
;
source_id
<
nsets
;
source_id
++
)
{
int
loc_images_found
=
0
;
//printf("source_id = %d, c = %f %f [%f %f]x[%f %f]\n", source_id, sources[source_id].center.x, sources[source_id].center.y, frame->xmin, frame->xmax, frame->ymin, frame->ymax);
// MPI_Barrier(MPI_COMM_WORLD);
//#endif
//
//if (source_id == 2) printf("%f %f\n\n", sources[source_id].center.x, sources[source_id].center.y);
#pragma omp parallel
#pragma omp for reduction(+: images_total)
for
(
int
y_id
=
0
;
y_id
<
(
y_bound
-
1
);
++
y_id
)
{
for
(
int
x_id
=
0
;
x_id
<
runmode
->
nbgridcells
-
1
;
++
x_id
)
{
images_total
++
;
//
double
x_pos
=
frame
->
xmin
+
(
x_id
)
*
dx
;
double
y_pos
=
frame
->
ymin
+
(
y_pos_loc
+
y_id
)
*
dy
;
//
// Define the upper + lower triangle, both together = square = pixel
//
struct
triplet
Tsup
,
Tinf
;
//
Tsup
.
a
.
x
=
x_pos
;
Tsup
.
b
.
x
=
x_pos
;
Tsup
.
c
.
x
=
x_pos
+
dx
;
Tinf
.
a
.
x
=
x_pos
+
dx
;
Tinf
.
b
.
x
=
x_pos
+
dx
;
Tinf
.
c
.
x
=
x_pos
;
//
Tsup
.
a
.
y
=
y_pos
;
Tsup
.
b
.
y
=
y_pos
+
dy
;
Tsup
.
c
.
y
=
y_pos
;
Tinf
.
a
.
y
=
y_pos
+
dy
;
Tinf
.
b
.
y
=
y_pos
;
Tinf
.
c
.
y
=
y_pos
+
dy
;
//
//
// Lens to Sourceplane conversion of triangles
//
// double time = -myseconds();
//
struct
triplet
Timage
;
struct
triplet
Tsource
;
//
mychi_transformtriangleImageToSourcePlane_SOA_grid_gradient_upper
(
&
Tsup
,
sources
[
source_id
].
dr
,
&
Tsource
,
grid_gradient_x
,
grid_gradient_y
,
y_id
*
grid_dim
+
x_id
,
grid_dim
);
//printf(" (%f %f) (%f %f) (%f %f) -> (%f %f) (%f %f) (%f %f), c = (%f %f)\n", Tsup.a.x, Tsup.a.y, Tsup.b.x, Tsup.b.y, Tsup.c.x, Tsup.c.y, Tsource.a.x, Tsource.a.y, Tsource.b.x, Tsource.b.y, Tsource.c.x, Tsource.c.y, sources[source_id].center.x, sources[source_id].center.y);
//if (source_id == 2) printf("%f %f\n%f %f\n%f %f\n%f %f\n\n", Tsource.a.x, Tsource.a.y, Tsource.b.x, Tsource.b.y, Tsource.c.x, Tsource.c.y, Tsource.a.x, Tsource.a.y);
#if 0
{
point a = Tsource.a;
point b = Tsource.b;
point c = Tsource.c;
//
if (a.x > frame->xmax || a.x < frame->xmin || a.y > frame->ymax || a.y < frame->ymin) printf("%f %f out of the box\n", a.x, a.y);
if (b.x > frame->xmax || b.x < frame->xmin || b.y > frame->ymax || b.y < frame->ymin) printf("%f %f out of the box\n", b.x, b.y);
if (c.x > frame->xmax || c.x < frame->xmin || c.y > frame->ymax || c.y < frame->ymin) printf("%f %f out of the box\n", c.x, c.y);
}
//
#endif
int
thread_found_image
=
0
;
//
if
(
mychi_insideborder
(
&
sources
[
source_id
].
center
,
&
Tsource
)
==
1
)
{
//printf("source = %d, image = %d out of %d : sup (%f %f) (%f %f) (%f %f) -> (%f %f) (%f %f) (%f %f), c = (%f %f)\n", source_id, loc_images_found + 1, nimages_strongLensing[source_id], Tsup.a.x, Tsup.a.y, Tsup.b.x, Tsup.b.y, Tsup.c.x, Tsup.c.y, Tsource.a.x, Tsource.a.y, Tsource.b.x, Tsource.b.y, Tsource.c.x, Tsource.c.y, sources[source_id].center.x, sources[source_id].center.y);
//if (source_id == 38) printf(" %f %f %f %f %f %f", Tsup.a.x, Tsup.a.y, Tsup.b.x, Tsup.b.y, Tsup.c.x, Tsup.c.y);
//if (source_id == 0) printf("%f %f\n%f %f\n%f %f\n %f %f\n\n", Tsource.a.x, Tsource.a.y, Tsource.b.x, Tsource.b.y, Tsource.c.x, Tsource.c.y, Tsource.a.x, Tsource.a.y);
thread_found_image
=
1
;
Timage
=
Tsup
;
}
else
{
mychi_transformtriangleImageToSourcePlane_SOA_grid_gradient_lower
(
&
Tinf
,
sources
[
source_id
].
dr
,
&
Tsource
,
grid_gradient_x
,
grid_gradient_y
,
y_id
*
grid_dim
+
x_id
,
grid_dim
);
//printf(" (%f %f) (%f %f) (%f %f) -> (%f %f) (%f %f) (%f %f), c = (%f %f)\n", Tinf.a.x, Tinf.a.y, Tinf.b.x, Tinf.b.y, Tinf.c.x, Tinf.c.y, Tsource.a.x, Tsource.a.y, Tsource.b.x, Tsource.b.y, Tsource.c.x, Tsource.c.y, sources[source_id].center.x, sources[source_id].center.y);
//if (source_id == 38) printf(" %f %f %f %f %f %f", Tinf.a.x, Tinf.a.y, Tinf.b.x, Tinf.b.y, Tinf.c.x, Tinf.c.y);
if
(
mychi_inside
(
&
sources
[
source_id
].
center
,
&
Tsource
)
==
1
)
{
//printf("source = %d, image = %d out of %d: inf (%f %f) (%f %f) (%f %f) -> (%f %f) (%f %f) (%f %f), c = (%f %f)\n", source_id, loc_images_found + 1, nimages_strongLensing[source_id], Tinf.a.x, Tinf.a.y, Tinf.b.x, Tinf.b.y, Tinf.c.x, Tinf.c.y, Tsource.a.x, Tsource.a.y, Tsource.b.x, Tsource.b.y, Tsource.c.x, Tsource.c.y, sources[source_id].center.x, sources[source_id].center.y);
thread_found_image
=
1
;
Timage
=
Tinf
;
}
}
#if 1
if
(
thread_found_image
)
{
#pragma omp critical
{
// get the barycenter of the triangle
int
n
=
lif
[
source_id
][
0
];
if
(
n
+
1
<=
MAXIMPERSOURCE
)
{
lif
[
source_id
][
0
]
++
;
image_pos
[
INDEX2D_BAR
(
source_id
,
loc_images_found
)]
=
mychi_barycenter
(
&
Timage
);
//locimagesfound[source_id]++;
loc_images_found
++
;
*
numimg
=
*
numimg
+
1
;
//locimagesfound[source_id]++;
}
//loc_images_found++;
//*numimg = *numimg + 1;
}
}
#endif
}
}
//printf("--> source %d found %d (%d) images, MAXIMPERSOURCE=%d\n\n", source_id, lif[source_id][0], nimages_strongLensing[source_id], MAXIMPERSOURCE);
index
+=
nimages_strongLensing
[
source_id
];
}
//#pragma omp parallel for
for
(
int
ii
=
0
;
ii
<
nsets
;
++
ii
)
{
locimagesfound
[
ii
]
=
lif
[
ii
][
0
];
}
}
#endif
void
delense
(
struct
point
*
image_pos
,
int
MAXIMPERSOURCE
,
int
*
locimagesfound
,
int
*
numimg
,
const
runmode_param
*
runmode
,
const
struct
Potential_SOA
*
lens
,
const
struct
grid_param
*
frame
,
const
int
*
nimages_strongLensing
,
const
struct
galaxy
*
sources
,
double
*
grid_gradient_x
,
double
*
grid_gradient_y
)
{
const
unsigned
int
nsets
=
runmode
->
nsets
;
const
unsigned
int
nimagestot
=
runmode
->
nimagestot
;
#define INDEX2D(y, x) (nimagestot*y + x)
#define INDEX3D(y, x, z) (nimagestot*MAXIMPERSOURCE*y + MAXIMPERSOURCE*x + z)
//const unsigned int nsets = runmode->nsets;
//const unsigned int nimagestot = runmode->nimagestot;
const
unsigned
int
nbgridcells
=
runmode
->
nbgridcells
;
//printf("nsets = %d, nimagestot = %d\n", nsets, nimagestot);
int
world_size
=
1
;
int
world_rank
=
0
;
#ifdef __WITH_MPI
MPI_Comm_size
(
MPI_COMM_WORLD
,
&
world_size
);
MPI_Comm_rank
(
MPI_COMM_WORLD
,
&
world_rank
);
MPI_Barrier
(
MPI_COMM_WORLD
);
#endif
unsigned
int
verbose
=
(
world_rank
==
0
);
//
const
int
grid_dim
=
runmode
->
nbgridcells
;
const
int
grid_size
=
nbgridcells
;
const
int
loc_grid_size
=
nbgridcells
/
world_size
;
//
double
y_len
=
fabs
(
frame
->
ymax
-
frame
->
ymin
);
int
y_len_loc
=
nbgridcells
/
world_size
;
int
y_pos_loc
=
(
int
)
world_rank
*
y_len_loc
;
int
y_bound
=
y_len_loc
;
//
if
((
world_rank
+
1
)
!=
world_size
)
y_bound
++
;
//
const
double
dx
=
(
frame
->
xmax
-
frame
->
xmin
)
/
(
nbgridcells
-
1
);
const
double
dy
=
(
frame
->
ymax
-
frame
->
ymin
)
/
(
nbgridcells
-
1
);
//
int
images_total
=
0
;
int
index
=
0
;
//
for
(
int
source_id
=
0
;
source_id
<
nsets
;
source_id
++
)
{
// number of images in the image plane for the specific image (1,3,5...)
const
unsigned
short
int
nimages
=
nimages_strongLensing
[
source_id
];
//____________________________ image (constrains) loop ________________________________
for
(
unsigned
short
int
image_id
=
0
;
image_id
<
nimages
;
image_id
++
)
{
//
//struct point image_pos [MAXIMPERSOURCE];
//
int
loc_images_found
=
0
;
//
#pragma omp parallel
#pragma omp for reduction(+: images_total)
for
(
int
y_id
=
0
;
y_id
<
(
y_bound
-
1
);
++
y_id
)
{
for
(
int
x_id
=
0
;
x_id
<
runmode
->
nbgridcells
-
1
;
++
x_id
)
{
//int yy_pos = MIN(y_pos_loc + y_id, runmode->nbgridcells - 1);
images_total
++
;
//
double
x_pos
=
frame
->
xmin
+
(
x_id
)
*
dx
;
double
y_pos
=
frame
->
ymin
+
(
y_pos_loc
+
y_id
)
*
dy
;
//
// Define the upper + lower triangle, both together = square = pixel
//
struct
triplet
Tsup
,
Tinf
;
//
Tsup
.
a
.
x
=
x_pos
;
Tsup
.
b
.
x
=
x_pos
;
Tsup
.
c
.
x
=
x_pos
+
dx
;
Tinf
.
a
.
x
=
x_pos
+
dx
;
Tinf
.
b
.
x
=
x_pos
+
dx
;
Tinf
.
c
.
x
=
x_pos
;
//
Tsup
.
a
.
y
=
y_pos
;
Tsup
.
b
.
y
=
y_pos
+
dy
;
Tsup
.
c
.
y
=
y_pos
;
Tinf
.
a
.
y
=
y_pos
+
dy
;
//
Tsup
.
c
.
y
=
y_pos
;
Tinf
.
a
.
y
=
y_pos
+
dy
;
Tinf
.
b
.
y
=
y_pos
;
Tinf
.
c
.
y
=
y_pos
+
dy
;
//
// Lens to Sourceplane conversion of triangles
//
struct
triplet
Timage
;
struct
triplet
Tsource
;
//
double
dr
=
sources
[
INDEX2D
(
source_id
,
image_id
)].
dr
;
mychi_transformtriangleImageToSourcePlane_SOA_grid_gradient_upper
(
&
Tsup
,
dr
,
&
Tsource
,
grid_gradient_x
,
grid_gradient_y
,
y_id
*
grid_dim
+
x_id
,
grid_dim
);
//
int
thread_found_image
=
0
;
//
if
(
mychi_insideborder
(
&
sources
[
INDEX2D
(
source_id
,
image_id
)].
center
,
&
Tsource
)
==
1
)
{
thread_found_image
=
1
;
Timage
=
Tsup
;
}
else
{
mychi_transformtriangleImageToSourcePlane_SOA_grid_gradient_lower
(
&
Tinf
,
sources
[
INDEX2D
(
source_id
,
image_id
)].
dr
,
&
Tsource
,
grid_gradient_x
,
grid_gradient_y
,
y_id
*
grid_dim
+
x_id
,
grid_dim
);
if
(
mychi_inside
(
&
sources
[
INDEX2D
(
source_id
,
image_id
)].
center
,
&
Tsource
)
==
1
)
{
thread_found_image
=
1
;
Timage
=
Tinf
;
}
}
#if 1
if
(
thread_found_image
)
{
#pragma omp critical
{
// get the barycenter of the triangle
image_pos
[
INDEX3D
(
source_id
,
image_id
,
loc_images_found
)]
=
mychi_barycenter
(
&
Timage
);
locimagesfound
[
INDEX2D
(
source_id
,
image_id
)]
++
;
loc_images_found
++
;
*
numimg
=
*
numimg
+
1
;
}
}
#endif
}
}
//#if 1
}
index
+=
nimages_strongLensing
[
source_id
];
}
}
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