| version 1.3, 2018/10/01 05:49:06 |
version 1.4, 2018/10/19 23:27:38 |
|
|
| * DEVELOPER SHALL HAVE NO LIABILITY IN CONNECTION WITH THE USE, |
* DEVELOPER SHALL HAVE NO LIABILITY IN CONNECTION WITH THE USE, |
| * PERFORMANCE OR NON-PERFORMANCE OF THE SOFTWARE. |
* PERFORMANCE OR NON-PERFORMANCE OF THE SOFTWARE. |
| * |
* |
| * $OpenXM: OpenXM_contrib2/asir2018/builtin/array.c,v 1.2 2018/09/28 08:20:27 noro Exp $ |
* $OpenXM: OpenXM_contrib2/asir2018/builtin/array.c,v 1.3 2018/10/01 05:49:06 noro Exp $ |
| */ |
*/ |
| #include "ca.h" |
#include "ca.h" |
| #include "base.h" |
#include "base.h" |
| Line 1774 int generic_gauss_elim_mod64(mp_limb_t **mat,int row,i |
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| Line 1774 int generic_gauss_elim_mod64(mp_limb_t **mat,int row,i |
|
| return rank; |
return rank; |
| } |
} |
| |
|
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int find_lhs_and_lu_mod64(mp_limb_t **a,int row,int col, |
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mp_limb_t md,int **rinfo,int **cinfo) |
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{ |
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int i,j,k,d; |
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int *rp,*cp; |
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mp_limb_t *t,*pivot; |
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mp_limb_t inv,m; |
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|
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*rinfo = rp = (int *)MALLOC_ATOMIC(row*sizeof(int)); |
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*cinfo = cp = (int *)MALLOC_ATOMIC(col*sizeof(int)); |
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for ( i = 0; i < row; i++ ) |
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rp[i] = i; |
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for ( k = 0, d = 0; k < col; k++ ) { |
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for ( i = d; i < row && !a[i][k]; i++ ); |
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if ( i == row ) { |
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cp[k] = 0; |
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continue; |
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} else |
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cp[k] = 1; |
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if ( i != d ) { |
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j = rp[i]; rp[i] = rp[d]; rp[d] = j; |
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t = a[i]; a[i] = a[d]; a[d] = t; |
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} |
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pivot = a[d]; |
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pivot[k] = inv = invmod64(pivot[k],md); |
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for ( i = d+1; i < row; i++ ) { |
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t = a[i]; |
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if ( (m = t[k]) != 0 ) { |
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t[k] = mulmod64(inv,m,md); |
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for ( j = k+1, m = md - t[k]; j < col; j++ ) |
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if ( pivot[j] ) { |
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t[j] = muladdmod64(m,pivot[j],t[j],md); |
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} |
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} |
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} |
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d++; |
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} |
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return d; |
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} |
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|
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int lu_mod64(mp_limb_t **a,int n,mp_limb_t md,int **rinfo) |
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{ |
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int i,j,k; |
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int *rp; |
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mp_limb_t *t,*pivot; |
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mp_limb_t inv,m; |
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|
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*rinfo = rp = (int *)MALLOC_ATOMIC(n*sizeof(int)); |
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for ( i = 0; i < n; i++ ) rp[i] = i; |
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for ( k = 0; k < n; k++ ) { |
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for ( i = k; i < n && !a[i][k]; i++ ); |
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if ( i == n ) return 0; |
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if ( i != k ) { |
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j = rp[i]; rp[i] = rp[k]; rp[k] = j; |
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t = a[i]; a[i] = a[k]; a[k] = t; |
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} |
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pivot = a[k]; |
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inv = invmod64(pivot[k],md); |
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for ( i = k+1; i < n; i++ ) { |
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t = a[i]; |
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if ( (m = t[k]) != 0 ) { |
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t[k] = mulmod64(inv,m,md); |
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for ( j = k+1, m = md - t[k]; j < n; j++ ) |
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if ( pivot[j] ) { |
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t[j] = muladdmod64(m,pivot[j],t[j],md); |
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} |
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} |
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} |
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} |
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return 1; |
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} |
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|
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/* |
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Input |
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a : n x n matrix; a result of LU-decomposition |
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md : modulus |
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b : n x l matrix |
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Output |
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b = a^(-1)b |
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*/ |
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|
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void solve_by_lu_mod64(mp_limb_t **a,int n,mp_limb_t md,mp_limb_signed_t **b,int l,int normalize) |
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{ |
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mp_limb_t *y,*c; |
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int i,j,k; |
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mp_limb_t t,m,m2; |
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|
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y = (mp_limb_t *)MALLOC_ATOMIC(n*sizeof(mp_limb_t)); |
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c = (mp_limb_t *)MALLOC_ATOMIC(n*sizeof(mp_limb_t)); |
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m2 = md/2; |
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for ( k = 0; k < l; k++ ) { |
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/* copy b[.][k] to c */ |
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for ( i = 0; i < n; i++ ) |
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c[i] = b[i][k]; |
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/* solve Ly=c */ |
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for ( i = 0; i < n; i++ ) { |
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for ( t = c[i], j = 0; j < i; j++ ) |
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if ( a[i][j] ) { |
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m = md - a[i][j]; |
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t = muladdmod64(m,y[j],t,md); |
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} |
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y[i] = t; |
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} |
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/* solve Uc=y */ |
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for ( i = n-1; i >= 0; i-- ) { |
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for ( t = y[i], j =i+1; j < n; j++ ) |
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if ( a[i][j] ) { |
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m = md - a[i][j]; |
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t = muladdmod64(m,c[j],t,md); |
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} |
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/* a[i][i] = 1/U[i][i] */ |
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c[i] = mulmod64(t,a[i][i],md); |
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} |
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/* copy c to b[.][k] with normalization */ |
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if ( normalize ) |
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for ( i = 0; i < n; i++ ) |
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b[i][k] = (mp_limb_signed_t)(c[i]>m2 ? c[i]-md : c[i]); |
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else |
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for ( i = 0; i < n; i++ ) |
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b[i][k] = (mp_limb_signed_t)c[i]; |
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} |
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} |
| #endif |
#endif |
| |
|
| void red_by_vect_sf(int m,unsigned int *p,unsigned int *r,unsigned int hc,int len) |
void red_by_vect_sf(int m,unsigned int *p,unsigned int *r,unsigned int hc,int len) |
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