#include "mrilib.h"
/** NOT 7D SAFE **/
/*----------------------------------------------------------------------*/
/*! Flip a 3D image. The (outx,outy,outz) parameters specify the
direction of the output axes relative to the input axes:
- +1 => +x
- -1 => -x
- +2 => +y
- -2 => -y
- +3 => +z
- -3 => -z
Among (outx,outy,outz), exactly one must be either +1 or -1, one
must be +2 or -2, and one must be +3 or -3. Bad inputs result in
a NULL return value.
If the input image doesn't have a data array, then the output
image won't either.
------------------------------------------------------------------------*/
MRI_IMAGE * mri_flip3D( int outx, int outy, int outz, MRI_IMAGE *inim )
{
MRI_IMAGE *outim ;
int ii,jj,kk , dsiz , nxin,nyin,nzin , nxout,nyout,nzout ;
int nxyin , nxyout , ijk_out , ijk_in ;
int ax,bx,cx,dx , ay,by,cy,dy , az,bz,cz,dz , aa,bb,cc,dd ;
char *inar , *outar ;
float delx,dely,delz ;
ENTRY("mri_flip3D") ;
/* check inputs for correctness */
if( inim == NULL || outx == 0 || outy == 0 || outz == 0 ) RETURN( NULL );
ii = abs(outx) ; jj = abs(outy) ; kk = abs(outz) ;
if( ii > 3 || jj > 3 || kk > 3 ) RETURN( NULL );
if( ii == jj || ii == kk || jj == kk ) RETURN( NULL );
if( ii+jj+kk != 6 ) RETURN( NULL );
if( outx==1 && outy==2 && outz==3 ) RETURN( mri_copy(inim) ); /* easy case */
nxin = inim->nx ;
nyin = inim->ny ; nxyin = nxin*nyin ;
nzin = inim->nz ;
/* setup so that i_out = ax + bx*i_in + cx*j_in + dx*k_in,
for i_in=0..nxin-1, j_in=0..nyin-1, k_in=0..nzin-1,
and then similarly for y and z axes */
switch( outx ){
case 1: ax=0 ; bx= 1; cx= 0; dx= 0; nxout=nxin; delx=inim->dx; break;
case -1: ax=nxin-1; bx=-1; cx= 0; dx= 0; nxout=nxin; delx=inim->dx; break;
case 2: ax=0 ; bx= 0; cx= 1; dx= 0; nxout=nyin; delx=inim->dy; break;
case -2: ax=nyin-1; bx= 0; cx=-1; dx= 0; nxout=nyin; delx=inim->dy; break;
case 3: ax=0 ; bx= 0; cx= 0; dx= 1; nxout=nzin; delx=inim->dz; break;
case -3: ax=nzin-1; bx= 0; cx= 0; dx=-1; nxout=nzin; delx=inim->dz; break;
default: RETURN( NULL );
}
switch( outy ){
case 1: ay=0 ; by= 1; cy= 0; dy= 0; nyout=nxin; dely=inim->dx; break;
case -1: ay=nxin-1; by=-1; cy= 0; dy= 0; nyout=nxin; dely=inim->dx; break;
case 2: ay=0 ; by= 0; cy= 1; dy= 0; nyout=nyin; dely=inim->dy; break;
case -2: ay=nyin-1; by= 0; cy=-1; dy= 0; nyout=nyin; dely=inim->dy; break;
case 3: ay=0 ; by= 0; cy= 0; dy= 1; nyout=nzin; dely=inim->dz; break;
case -3: ay=nzin-1; by= 0; cy= 0; dy=-1; nyout=nzin; dely=inim->dz; break;
default: RETURN( NULL );
}
switch( outz ){
case 1: az=0 ; bz= 1; cz= 0; dz= 0; nzout=nxin; delz=inim->dx; break;
case -1: az=nxin-1; bz=-1; cz= 0; dz= 0; nzout=nxin; delz=inim->dx; break;
case 2: az=0 ; bz= 0; cz= 1; dz= 0; nzout=nyin; delz=inim->dy; break;
case -2: az=nyin-1; bz= 0; cz=-1; dz= 0; nzout=nyin; delz=inim->dy; break;
case 3: az=0 ; bz= 0; cz= 0; dz= 1; nzout=nzin; delz=inim->dz; break;
case -3: az=nzin-1; bz= 0; cz= 0; dz=-1; nzout=nzin; delz=inim->dz; break;
default: RETURN( NULL );
}
nxyout = nxout*nyout ;
/* 3D index ijk_out = i_out + nxout*j_out + nxyout*k_out
= (ax + bx*i_in + cx*j_in + dx*k_in)
+(ay + by*i_in + cy*j_in + dy*k_in)*nxout
+(az + bz*i_in + cz*j_in + dz*k_in)*nxyout
= (ax+ay*nxout+az*nxyout)
+(bx+by*nxout+bz*nxyout)*i_in
+(cx+cy*nxout+cz*nxyout)*j_in
+(dx+dy*nxout+dz*nxyout)*k_in
= aa + bb*i_in + cc*j_in + dd*k_in */
inar = mri_data_pointer( inim ) ;
outim = mri_new_vol( nxout,nyout,nzout , inim->kind ) ;
outim->dx = delx ; outim->dy = dely ; outim->dz = delz ;
outar = mri_data_pointer( outim ) ;
if( inar == NULL ){ /* empty input ==> empty output */
free(outar) ; mri_fix_data_pointer(NULL,outim ); RETURN(outim);
}
dsiz = outim->pixel_size ; /* size of each voxel in bytes */
aa = (ax+ay*nxout+az*nxyout)*dsiz ; /* same as aa, etc. in above */
bb = (bx+by*nxout+bz*nxyout)*dsiz ; /* comment, but scaled to be */
cc = (cx+cy*nxout+cz*nxyout)*dsiz ; /* address offset in bytes */
dd = (dx+dy*nxout+dz*nxyout)*dsiz ;
for( ijk_in=kk=0 ; kk < nzin ; kk++ ){
for( jj=0 ; jj < nyin ; jj++ ){
for( ii=0 ; ii < nxin ; ii++,ijk_in+=dsiz ){
ijk_out = aa + bb*ii + cc*jj + dd*kk ;
memcpy( outar+ijk_out , inar+ijk_in , dsiz ) ;
}
}
}
RETURN(outim) ;
}
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