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author | Mendes Oulamara <oulamara@clipper.ens.fr> | 2013-11-28 09:52:21 +0100 |
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committer | Mendes Oulamara <oulamara@clipper.ens.fr> | 2013-11-28 09:52:21 +0100 |
commit | dc7b29b7dab2a8386f739c02b6a2ac09ebfccefb (patch) | |
tree | 8aa43d1cf8a88d349ce468b3845174b5971ffdc0 | |
parent | f120f1b8496cf237eade0a435347a70c1e212d5d (diff) | |
download | AlgoProg-Projet-dc7b29b7dab2a8386f739c02b6a2ac09ebfccefb.tar.gz AlgoProg-Projet-dc7b29b7dab2a8386f739c02b6a2ac09ebfccefb.zip |
Vrai debug de bitset --'
-rw-r--r-- | set_bitsets.c | 139 | ||||
-rw-r--r-- | sets.h | 2 |
2 files changed, 68 insertions, 73 deletions
diff --git a/set_bitsets.c b/set_bitsets.c index 3e4c257..6645e0e 100644 --- a/set_bitsets.c +++ b/set_bitsets.c @@ -10,119 +10,108 @@ #include "sets.h" #include <stdlib.h> #include <stdio.h> -#define SCOD 8*sizeof(unsigned long long) +#include <assert.h> +#define SCOD (unsigned long long)(8*sizeof(unsigned long long)) -int nbCells(int n){ +int nbCells(int n){ //the mathematical ceil function if(n == (n/SCOD)*SCOD) return n/SCOD; else return n/SCOD+1; } +int nb_one(unsigned long long x) { //the hamming weight of x + int cnt = 0, i; + for(i = 0; i < SCOD; i++) + cnt+= ((x>>i)&1); + return cnt; +} + int set_size(const set s){ - return s.size; + return *(s.size); } -set empty_set(int size){ +set empty_set(int n){ + assert(n > 0); set res; int i; - res.size = size; - int N = nbCells(size); - res.tab = malloc(SCOD*N/8); - for(i = 0; i < N; i++) + res.N = n; + res.size = malloc(sizeof(int)); + *(res.size) = 0; + int NC = nbCells(n); + res.tab = malloc(SCOD*NC/8); + for(i = 0; i < NC; i++) res.tab[i] = 0; return res; } -/* -set singleton(int size, int x){ - set res = empty_set(size); - - if(x >= size){ - printf("Index %d out of bound %d in singleton creation\n", x, size); - exit 1; - } - - res.tab.tab[x/SCOD] = 1<<(x%SCOD); - return res; -}*/ - set copy_set(const set s){ - set res = empty_set(s.size); - int N = nbCells(s.size), i; - for(i = 0; i < N; i++) + set res = empty_set(s.N); + *(res.size) = *(s.size); + int NC = nbCells(*(s.size)), i; + for(i = 0; i < NC; i++) res.tab[i] = s.tab[i]; return res; } void delete_set(set a){ free(a.tab); + free(a.size); } void set_union_ip(set a, const set b){ - if(a.size != b.size){ + if(a.N != b.N){ printf("Union failed : the sets don't have the same size\n"); - exit(1); + assert(a.N == b.N); } - int N = nbCells(a.size), i; - for(i = 0; i < N; i++) + int NC = nbCells(*(a.size)), i; + *(a.size)=0; + for(i = 0; i < NC; i++) { a.tab[i] = a.tab[i]|b.tab[i]; + *(a.size) += nb_one(a.tab[i]); + } } void set_inter_ip(set a, const set b){ - if(a.size != b.size){ + if(a.N != b.N){ printf("Intersection failed : the sets don't have the same size\n"); - exit(1); + assert(a.N == b.N); } - int N = nbCells(a.size), i; - for(i = 0; i < N; i++) + int NC = nbCells(*(a.size)), i; + *(a.size)=0; + for(i = 0; i < NC; i++){ a.tab[i] = a.tab[i]&b.tab[i]; + *(a.size) += nb_one(a.tab[i]); + } } void set_diff_ip(set a, const set b){ - if(a.size != b.size){ + if(a.N != b.N){ printf("Difference failed : the sets don't have the same size\n"); - exit(1); + assert(a.N == b.N); } - int N = nbCells(a.size), i; - for(i = 0; i < N; i++) + int NC = nbCells(*(a.size)), i; + for(i = 0; i < NC; i++) { a.tab[i] = a.tab[i] & (~b.tab[i]); + *(a.size) += nb_one(a.tab[i]); + } } -/* -set set_union(const set a, const set b){ - set res = copy_set(a); - set_union_ip(res, b); -} - -set set_inter(const set a, const set b){ - set res = copy_set(a); - set_inter_ip(res, b); -} - -set set_diff(const set a, const set b){ - set res = copy_set(a); - set_diff_ip(res, b); -} -*/ - bool is_set_empty(const set s){ - int N = nbCells(s.size),i; - for(i = 0; i < N; i++) - if(s.tab[i] != 0) - return false; - return true; + return (*(s.size) == 0); } inline bool set_mem(int x, const set s){ - return (s.tab[x/SCOD]>>(x%SCOD))&1; + unsigned long long ux = x; + assert(x < s.N && x >= 0); + return (s.tab[ux/SCOD]>>(ux%SCOD))&1; } int dyadic_val(unsigned long long x){ if(x == 0){ printf("Infinite valuation\n"); - exit (1); + assert(false); } int i; for(i=0; ((x>>i)&1) == 0; i++); @@ -130,39 +119,45 @@ int dyadic_val(unsigned long long x){ } int elt_of_set(const set s){ - int N=nbCells(s.size), i; + int N=nbCells(s.N), i; for(i=0; i<N; i++) if(s.tab[i] != 0) + return i*SCOD+dyadic_val(s.tab[i]); printf("No element in an empty set!\n"); - exit(1); + assert(false); } -//set set_add(int x, const set s); - void set_add_ip(int x, set s){ - s.tab[x/SCOD] = s.tab[x/SCOD] | 1<<(x%SCOD); + unsigned long long ux = x; + if(! set_mem(ux, s)){ + s.tab[ux/SCOD] = s.tab[ux/SCOD] | (unsigned long long)(1)<<(ux%SCOD); + *(s.size) = *(s.size)+1; + } } -//set set_remove(int x, const set s); - void set_remove_ip(int x, set s){ - s.tab[x/SCOD] = s.tab[x/SCOD] & (~(1<<(x%SCOD))); + unsigned long long ux = x; + if(set_mem(ux, s) ) { + s.tab[ux/SCOD] = s.tab[ux/SCOD] & (~((unsigned long long)(1)<<(ux%SCOD))); + *(s.size) = *(s.size)-1; + } } void dump_set(const set s){ int i=0; printf("["); - for(i=0; i < s.size; i++) + for(i=0; i < s.N; i++) if(set_mem(i, s)) printf(" %d ", i); - printf("] (%d)\n", s.size); + printf("] (%d)\n", *(s.size)); } set full_set(int n) { set r = empty_set(n); - int N=nbCells(r.size), i; - for(i=0; i< N; i++) + *(r.size) = n; + int NC=nbCells(n), i; + for(i=0; i< NC; i++) r.tab[i]=-1; return r; } @@ -14,7 +14,7 @@ #ifdef BITSETS typedef struct { - int size; + int N, *size; unsigned long long* tab; } set; #endif |