#ifdef _CVI_
# include <ansi_c.h>
# else _CVI_
# include <stdlib.h>
# include <stdio.h>
# include <string.h>
#endif _CVI_
#include "H3D.h"
#include "H2D.h"
#include "H1D.h"
H3D
*h3
[H3DMAX
];
//int Printf(char *format, ...);
int _VI_FUNC H3D_Clear
(int h3d
) {
if (!h3
[h3d
]) return -1;
memset(h3
[h3d
]->data
, 0,h3
[h3d
]->size
);
h3
[h3d
]->min
=0;
h3
[h3d
]->max
=0;
h3
[h3d
]->nentries
=0;
return 0;
}
int _VI_FUNC H3D_Print
(int h3d
) {
if (!h3
[h3d
]) return -1;
//Printf("PrintH3D nx=%d minx=%f stepx=%f ny=%d miny=%f stepy=%f size=%d\n", h3[h3d]->nx, h3[h3d]->minx, h3[h3d]->stepx, h3[h3d]->ny, h3[h3d]->miny, h3[h3d]->stepy, h3[h3d]->size ) ;
return 0;
}
int _VI_FUNC H3D_Exist
(int h
) {
if (h3
[h
]) return 1;
else return 0;
}
int _VI_FUNC H3D_CalculateBin
(int h
, int axis
, double value
) {
int nx
=1,xmin
=0,dx
=0;
int bin
;
switch (axis
) {
case 0:
nx
= H3D_GetNbinsX
(h
);
xmin
= H3D_GetMinX
(h
);
dx
= H3D_GetStepX
(h
);
break;
case 1:
nx
= H3D_GetNbinsY
(h
);
xmin
= H3D_GetMinY
(h
);
dx
= H3D_GetStepY
(h
);
break;
case 2:
nx
= H3D_GetNbinsZ
(h
);
xmin
= H3D_GetMinZ
(h
);
dx
= H3D_GetStepZ
(h
);
break;
}
if (dx
==0) return -1;
if (value
<xmin
) return -1;
bin
= (int)((value
-xmin
)/dx
);
if (bin
>=nx
) return -1;
else return bin
;
}
int _VI_FUNC H3D_Fill
(int h3d
,double x
, double y
, double z
, double val
) {
int ix
,iy
, iz
;
if (!h3
[h3d
]) return -1;
ix
= H3D_CalculateBin
(h3d
,0,x
);
if (ix
<0) return ix
;
iy
= H3D_CalculateBin
(h3d
,1,y
);
if (iy
<0) return iy
;
iz
= H3D_CalculateBin
(h3d
,2,z
);
if (iz
<0) return iz
;
H3D_FillBin
(h3d
, ix
, iy
, iz
, val
);
return 0;
}
int _VI_FUNC H3D_GetBin
(int h3d
,int x
, int y
, int z
) {
return x
+h3
[h3d
]->nx
*(y
+z
*h3
[h3d
]->ny
);
}
int _VI_FUNC H3D_FillBin
(int h3d
,int x
, int y
, int z
, double val
) {
int idx
;
if (!h3
[h3d
]) {
//Printf("FillH3D error h3d is not initialized\n");
return -1;
}
idx
= H3D_GetBin
(h3d
,x
,y
,z
);
h3
[h3d
]->data
[idx
]+=val
;
//Printf("%d %d data %f %f\n",x,y,val, h3[h3d]->data[idx]);
if (h3
[h3d
]->data
[idx
]>h3
[h3d
]->max
) h3
[h3d
]->max
= h3
[h3d
]->data
[idx
];
if (h3
[h3d
]->data
[idx
]<h3
[h3d
]->min
) h3
[h3d
]->min
= h3
[h3d
]->data
[idx
];
h3
[h3d
]->nentries
++;
return 0;
}
double _VI_FUNC H3D_GetBinContent
(int h3d
,int atx
, int aty
, int atz
) {
int idx
;
if (!h3
[h3d
]) return 0;
if (h3
[h3d
]->nx
<= atx
) return 0;
if (h3
[h3d
]->ny
<= aty
) return 0;
if (h3
[h3d
]->nz
<= atz
) return 0;
idx
= H3D_GetBin
(h3d
,atx
,aty
,atz
);
if (idx
*sizeof(double) < h3
[h3d
]->size
) return h3
[h3d
]->data
[idx
];
return 0;
}
int _VI_FUNC H3D_Init
(int h3d
,char *name
, char *title
,
int nx
, double minx
, double maxx
,
int ny
, double miny
, double maxy
,
int nz
, double minz
, double maxz
) {
if (h3
[h3d
]) {
free(h3
[h3d
]->data
);
free(h3
[h3d
]);
h3
[h3d
] = NULL
;
}
//printf("InitH3D hID=%d\n",h3d);
h3
[h3d
] = (H3D
*) malloc(sizeof(H3D
));
//h2 =h3d;
H3D_SetTitle
(h3d
,title
);
H3D_SetName
(h3d
,name
);
h3
[h3d
]->id
=H3D_ID
;
h3
[h3d
]->nx
= nx
;
h3
[h3d
]->ny
= ny
;
h3
[h3d
]->nz
= nz
;
h3
[h3d
]->minx
= minx
;
h3
[h3d
]->miny
= miny
;
h3
[h3d
]->minz
= minz
;
h3
[h3d
]->stepx
= (nx
>1)?(maxx
-minx
)/(nx
):0;
h3
[h3d
]->stepy
= (nx
>1)?(maxy
-miny
)/(ny
):0;
h3
[h3d
]->stepz
= (nx
>1)?(maxz
-minz
)/(nz
):0;
h3
[h3d
]->size
= h3
[h3d
]->nx
*h3
[h3d
]->ny
*h3
[h3d
]->nz
*sizeof(double);
h3
[h3d
]->data
= (double *) malloc(h3
[h3d
]->size
);
h3
[h3d
]->len
=sizeof(H3D
)-sizeof(double *)+h3
[h3d
]->size
;
H3D_Clear
(h3d
);
H3D_Print
(h3d
);
//Printf("InitH3D 0x%x\n", h3d );
return 0;
}
int _VI_FUNC H3D_SliXY
(int histogram
,int slice
, int direction
) {
if (!H3D_Exist
(histogram
)) {
printf("3D Histogram %d does not exist!\n",histogram
);
return -1;
}
int hid
=499;
int i
=0;
int j
=0;
switch (direction
){
case 0:// xy
H2D_Init
(hid
,"projectionXY","projectionXY",
H3D_GetNbinsX
(histogram
), H3D_GetMinX
(histogram
),H3D_GetMaxX
(histogram
),
H3D_GetNbinsY
(histogram
), H3D_GetMinY
(histogram
),H3D_GetMaxY
(histogram
)
);
for (i
=0; i
< H3D_GetNbinsX
(histogram
); i
++ )
for (j
=0; j
< H3D_GetNbinsY
(histogram
); j
++ )
H2D_SetBinContent
(hid
,i
,j
,H3D_GetBinContent
(histogram
,i
,j
,slice
));
break;
case 1:// xz
H2D_Init
(hid
,"projectionXZ","projectionXZ",
H3D_GetNbinsX
(histogram
), H3D_GetMinX
(histogram
),H3D_GetMaxX
(histogram
),
H3D_GetNbinsZ
(histogram
), H3D_GetMinZ
(histogram
),H3D_GetMaxZ
(histogram
)
);
for (i
=0; i
< H3D_GetNbinsX
(histogram
); i
++ )
for (j
=0; j
< H3D_GetNbinsZ
(histogram
); j
++ )
H2D_SetBinContent
(hid
,i
,j
,H3D_GetBinContent
(histogram
,i
,slice
,j
));
break;
case 2:// yz
default:
H2D_Init
(hid
,"projectionYZ","projectionYZ",
H3D_GetNbinsY
(histogram
), H3D_GetMinY
(histogram
),H3D_GetMaxY
(histogram
),
H3D_GetNbinsZ
(histogram
), H3D_GetMinZ
(histogram
),H3D_GetMaxZ
(histogram
)
);
for (i
=0; i
< H3D_GetNbinsY
(histogram
); i
++ )
for (j
=0; j
< H3D_GetNbinsZ
(histogram
); j
++ )
H2D_SetBinContent
(hid
,i
,j
,H3D_GetBinContent
(histogram
,slice
,i
,j
));
break;
}
return hid
;
}
double _VI_FUNC H3D_GetMaxX
(int h
){
return h3
[h
]->minx
+(h3
[h
]->nx
)*h3
[h
]->stepx
;
}
double _VI_FUNC H3D_GetMaxY
(int h
){
return h3
[h
]->miny
+(h3
[h
]->ny
)*h3
[h
]->stepy
;
}
double _VI_FUNC H3D_GetMaxZ
(int h
){
return h3
[h
]->minz
+(h3
[h
]->nz
)*h3
[h
]->stepz
;
}
double _VI_FUNC H3D_GetXBinCenter
(int h3d
,int xbin
) {
return h3
[h3d
]->minx
+(xbin
+0.5)*h3
[h3d
]->stepx
;
}
double _VI_FUNC H3D_GetYBinCenter
(int h3d
,int ybin
) {
return h3
[h3d
]->miny
+(ybin
+0.5)*h3
[h3d
]->stepy
;
}
double _VI_FUNC H3D_GetZBinCenter
(int h3d
,int zbin
) {
return h3
[h3d
]->minz
+(zbin
+0.5)*h3
[h3d
]->stepz
;
}
int _VI_FUNC H3D_Write2File
(int h3d
,FILE
*fp
) {
if (!fp
) return -1;
//printf("H3D sizeof(H3D)=%lu len-datasize=%d len=%lu datasize=%d\t",sizeof(H3D)-sizeof(double *),h3[h3d]->len-h3[h3d]->size,h3[h3d]->len,h3[h3d]->size);
//printf("H3D sz=%d %d\n",sizeof(double),sizeof(double *));
fwrite (h3
[h3d
], 1, sizeof(H3D
)-sizeof(double *), fp
);
fwrite (h3
[h3d
]->data
, 1, h3
[h3d
]->size
, fp
);
return 0;
}
int _VI_FUNC H3D_Write
(int h3d
,const char *fname
,const char *opt
) {
FILE
*fp
=fopen(fname
,opt
);
H3D_Write2File
(h3d
,fp
);
fclose(fp
);
return 0;
}
int _VI_FUNC H3D_SetTitle
(int h3d
,char *title
) {
sprintf(h3
[h3d
]->title
,"%s",title
);
return 0;
}
int _VI_FUNC H3D_SetTitleX
(int h3d
,char *title
) {
sprintf(h3
[h3d
]->titlex
,"%s",title
);
return 0;
}
int _VI_FUNC H3D_SetTitleY
(int h3d
,char *title
) {
sprintf(h3
[h3d
]->titley
,"%s",title
);
return 0;
}
int _VI_FUNC H3D_SetTitleZ
(int h3d
,char *title
) {
sprintf(h3
[h3d
]->titlez
,"%s",title
);
return 0;
}
int _VI_FUNC H3D_SetName
(int h3d
,char *title
) {
sprintf(h3
[h3d
]->name
,"%s",title
);
return 0;
}
int _VI_FUNC H3D_GetNbinsY
(int h
) {
if (h3
[h
]) return h3
[h
]->ny
;
else return 0;
}
int _VI_FUNC H3D_GetNbinsX
(int h
) {
if (h3
[h
]) return h3
[h
]->nx
;
else return 0;
}
int _VI_FUNC H3D_GetNbinsZ
(int h
) {
if (h3
[h
]) return h3
[h
]->nz
;
else return 0;
}
double _VI_FUNC H3D_GetMinX
(int h
) {
if (h3
[h
]) return h3
[h
]->minx
;
else return 0;
}
double _VI_FUNC H3D_GetMinY
(int h
) {
if (h3
[h
]) return h3
[h
]->miny
;
else return 0;
}
double _VI_FUNC H3D_GetMinZ
(int h
) {
if (h3
[h
]) return h3
[h
]->minz
;
else return 0;
}
double _VI_FUNC H3D_GetStepX
(int h
) {
if (h3
[h
]) return h3
[h
]->stepx
;
else return 0;
}
double _VI_FUNC H3D_GetStepY
(int h
) {
if (h3
[h
]) return h3
[h
]->stepy
;
else return 0;
}
double _VI_FUNC H3D_GetStepZ
(int h
) {
if (h3
[h
]) return h3
[h
]->stepz
;
else return 0;
}
double _VI_FUNC H3D_GetMin
(int h
) {
if (h3
[h
]) return h3
[h
]->min
;
else return 0;
}
double _VI_FUNC H3D_GetMax
(int h
) {
if (h3
[h
]) return h3
[h
]->max
;
else return 0;
}
double * _VI_FUNC H3D_GetSliceXYData
(int h
, int slice
) {
if (h3
[h
]) return (h3
[h
]->data
+slice
*h3
[h
]->nx
*h3
[h
]->ny
);
else return NULL
;
}
double * _VI_FUNC H3D_GetData
(int h
) {
if (h3
[h
]) return h3
[h
]->data
;
else return NULL
;
}
#ifdef _CVI_
// defined only in CVI
static HColorMap
*colormap
= NULL
;
HColorMap
* _VI_FUNC H3D_GetColorMap
(void) {
return colormap
;
}
int _VI_FUNC H3D_SetRangeColors
( double min
, double max
) {
int i
;
if (colormap
== NULL
) {
colormap
= malloc(sizeof(HColorMap
));
colormap
->numberofColors
= 5;
colormap
->array
= malloc(colormap
->numberofColors
*sizeof(ColorMapEntry
));
colormap
->array
[0].
color = 0x0000ff; //BLUE
colormap
->array
[1].
color = 0x00ff00; //GREEN
colormap
->array
[2].
color = 0xffff00; //YELLOW
colormap
->array
[3].
color = 0xff8000; //ORANGE
colormap
->array
[4].
color = 0xff0000; //RED
colormap
->HiColor
=colormap
->array
[colormap
->numberofColors
-1].
color ;
}
if (colormap
->numberofColors
<2) return -1;
double fx
= (max
-min
)/(colormap
->numberofColors
-1);
for (i
=0; i
<colormap
->numberofColors
; i
++) {
colormap
->array
[i
].
dataValue.
valDouble=i
*fx
+min
;
}
return 0;
}
int _VI_FUNC H3D_DrawSliceXY
(int histogram
,int slice
,int direction
, int panel
, int control
, int *plothandle
) {
if (H3D_GetNbinsY
(histogram
)==1|| H3D_GetNbinsX
(histogram
)==1) {
if (H3D_GetNbinsY
(histogram
)==1) {
H1D_Init
(499,"projection","projection", H3D_GetNbinsX
(histogram
), H3D_GetMinX
(histogram
),H3D_GetMaxX
(histogram
));
for (int i
=0; i
< H3D_GetNbinsX
(histogram
); i
++ ) H1D_SetBinContent
(499,i
,H3D_GetBinContent
(histogram
,i
,0,slice
));
} else {
H1D_Init
(499,"projection","projection", H3D_GetNbinsY
(histogram
), H3D_GetMinY
(histogram
),H3D_GetMaxY
(histogram
));
for (int i
=0; i
< H3D_GetNbinsY
(histogram
); i
++ ) H1D_SetBinContent
(499,i
,H3D_GetBinContent
(histogram
,0,i
,slice
));
}
H1D_Draw
(499, panel
, control
, plothandle
);
} else {
if (*plothandle
> 0 ) DeleteGraphPlot
(panel
, control
, *plothandle
, VAL_IMMEDIATE_DRAW
);
H3D_SetRangeColors
(H3D_GetMin
(histogram
),H3D_GetMax
(histogram
));
*plothandle
= PlotScaledIntensity
(panel
, control
,
H3D_GetSliceXYData
(histogram
, slice
),
H3D_GetNbinsX
(histogram
),
H3D_GetNbinsY
(histogram
),
VAL_DOUBLE
,
H3D_GetStepY
(histogram
),
H3D_GetYBinCenter
(histogram
,0),
H3D_GetStepX
(histogram
),
H3D_GetXBinCenter
(histogram
,0),
colormap
->array
,
colormap
->HiColor
,
colormap
->numberofColors
, 1, 0);
}
ProcessSystemEvents
();
return *plothandle
;
}
#endif