OpenXM/src/kan96xx/Kan/coeff.c - diff

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Diff for /OpenXM/src/kan96xx/Kan/coeff.c between version 1.2 and 1.3

version 1.2, 2000/01/16 07:55:38

version 1.3, 2001/05/04 01:06:23

Line 1

/* $OpenXM$ */

/* $OpenXM: OpenXM/src/kan96xx/Kan/coeff.c,v 1.2 2000/01/16 07:55:38 takayama Exp $ */

#include <stdio.h>

#include "datatype.h"

#include "stackm.h"

Line 18 static void printTag(coeffType t)

}

char *intToString(i)

int i;

{

char work[80];

char *s;

Line 30 int i;

}

char *coeffToString(cp)

struct coeff *cp;

{

char *s;

switch(cp->tag) {

Line 54 struct coeff *cp;

/* constructors */

struct coeff *intToCoeff(i,ringp)

int i;

struct ring *ringp;

{

struct coeff *c;

int p;

Line 79 struct ring *ringp;

}

struct coeff *mpintToCoeff(b,ringp)

MP_INT *b;

struct ring *ringp;

{

struct coeff *c;

struct coeff *c2;

Line 103 struct ring *ringp;

c->val.f = coeffToPoly(c2,ringp->next);

return(c);

errorCoeff("mpintToCoeff(): mpint --> poly_coeff has not yet be supported. Returns 0.");

c->tag = POLY_COEFF;

c->val.f = ZERO;

}

struct coeff *polyToCoeff(f,ringp)

POLY f;

struct ring *ringp;

{

struct coeff *c;

if (f ISZERO) {

Line 133 struct ring *ringp;

/* returns -c */

struct coeff *coeffNeg(c,ringp)

struct coeff *c;

struct ring *ringp;

{

struct coeff *r;

r = intToCoeff(-1,ringp);

Line 143 struct ring *ringp;

}

int coeffToInt(cp)

struct coeff *cp;

{

POLY f;

switch(cp->tag) {

Line 164 struct coeff *cp;

}

void Cadd(r,a,b)

struct coeff *r;

struct coeff *a;

struct coeff *b;

{

int p;

POLY f;

Line 175 struct coeff *b;

r->p = p = a->p;

r->val.i = ((a->val.i) + (b->val.i)) % p;

}else if (a->tag == MP_INTEGER && b->tag == MP_INTEGER

&& r->tag == MP_INTEGER) {

mpz_add(r->val.bigp,a->val.bigp,b->val.bigp);

}else if (a->tag == POLY_COEFF && b->tag == POLY_COEFF

&& r->tag == POLY_COEFF) {

f = ppAdd(a->val.f,b->val.f);

r->val.f = f;

}else {

Line 187 struct coeff *b;

}

void Csub(r,a,b)

struct coeff *r;

struct coeff *a;

struct coeff *b;

{

int p;

Line 197 struct coeff *b;

r->p = p = a->p;

r->val.i = ((a->val.i) - (b->val.i)) % p;

}else if (a->tag == MP_INTEGER && b->tag == MP_INTEGER

&& r->tag == MP_INTEGER) {

mpz_sub(r->val.bigp,a->val.bigp,b->val.bigp);

}else {

warningCoeff("Csub(): The data type is not supported.");

Line 205 struct coeff *b;

}

void Cmult(r,a,b)

struct coeff *r;

struct coeff *a;

struct coeff *b;

{

int p;

POLY f;

Line 216 struct coeff *b;

r->p = p = a->p;

r->val.i = ((a->val.i) * (b->val.i)) % p;

}else if (a->tag == MP_INTEGER && b->tag == MP_INTEGER

&& r->tag == MP_INTEGER) {

mpz_mul(r->val.bigp,a->val.bigp,b->val.bigp);

}else if (a->tag == POLY_COEFF && b->tag == POLY_COEFF

&& r->tag == POLY_COEFF) {

f = ppMult(a->val.f,b->val.f);

r->val.f = f;

}else {

Line 232 struct coeff *b;

}

int isZero(a)

struct coeff *a;

{

int r;

if (a->tag == INTEGER) {

Line 252 struct coeff *a;

}

struct coeff *coeffCopy(c)

struct coeff *c;

/* Deep copy */

{

struct coeff *r;

r = newCoeff();

Line 281 struct coeff *c;

}

void CiiComb(r,p,q)

struct coeff *r;

int p,q;

/* r->val.bigp is read only. */

{

switch(r->tag) {

case INTEGER:

Line 301 int p,q;

MP_INT *BiiComb(p,q)

int p,q;

/* It returns {p \choose q} when p>=0, 0<=q<=p.

The value is read only. DON'T CHANGE IT.

p=0 0 1

p=1 1 2 1 1

p=2 3 4 5 1 2 1

q=0 q=1 q=2

[p(p+1)/2+q]

{

extern MP_INT *Mp_one;

int i,j;

Line 327 p=2 3 4 5 1 2 1

if (newTable == (MP_INT **) NULL) errorCoeff("BiiComb(): No more memory.");

for (i=0; i<tableSize; i++) {

for (j=0; j<=i; j++) {

newTable[(i*(i+1))/2 + j] = table[(i*(i+1))/2 + j];

}

for (i=tableSize; i< 2*p; i++) {

for (j=0; j<=i; j++) {

if (j==0 || j==i) newTable[(i*(i+1))/2 + j] = Mp_one;

else{

newTable[(i*(i+1))/2 + j] = newMP_INT();

}

tableSize = 2*p;

Line 345 p=2 3 4 5 1 2 1

for (i=maxp; i<=p; i++) {

for (j=1; j<i; j++) {

mpz_add(table[(i*(i+1))/2 + j],

table[((i-1)*i)/2 + j-1],

table[((i-1)*i)/2 +j]); /* [p-1,q-1]+[p-1,q] */

}

maxp = p+1;

return(table[(p*(p+1))/2 +q]);

/* ^^^^^^ No problem for the optimizer? */

}

int iiComb(p,q,P)

int p,q,P;

{

/**

foo[n_]:=Block[{p,q,ans},

ans={};

For[p=0,p<=n,p++,ans=Append[ans,Table[Binomial[p,q],{q,0,n}]]];

Return[ans];

]

**/

/* We assume that int is 32 bit */

static int table[26][26]=

{{1,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0},

{1,1,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0},

{1,2,1,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0},

{1,3,3,1,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0},

{1,4,6,4,1,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0},

{1,5,10,10,5,1,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0},

{1,6,15,20,15,6,1,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0},

{1,7,21,35,35,21,7,1,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0},

{1,8,28,56,70,56,28,8,1,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0},

{1,9,36,84,126,126,84,36,9,1,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0},

{1,10,45,120,210,252,210,120,45,10,1,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0},

{1,11,55,165,330,462,462,330,165,55,11,1,0,0,0,0,0,0,0,0,0,0,0,0,0,0},

{1,12,66,220,495,792,924,792,495,220,66,12,1,0,0,0,0,0,0,0,0,0,0,0,0,0},

{1,13,78,286,715,1287,1716,1716,1287,715,286,78,13,1,0,0,0,0,0,0,0,0,0,0,0,0},

{1,14,91,364,1001,2002,3003,3432,3003,2002,1001,364,91,14,1,0,0,0,0,0,0,0,0,0,0,0},

{1,15,105,455,1365,3003,5005,6435,6435,5005,3003,1365,455,105,15,1,0,0,0,0,0,0,0,0,0,0},

{1,16,120,560,1820,4368,8008,11440,12870,11440,8008,4368,1820,560,120,16,1,0,0,0,0,0,0,0,0,0},

{1,17,136,680,2380,6188,12376,19448,24310,24310,19448,12376,6188,2380,680,136,17,1,0,0,0,0,0,0,0,0},

{1,18,153,816,3060,8568,18564,31824,43758,48620,43758,31824,18564,8568,3060,816,153,18,1,0,0,0,0,0,0,0},

{1,19,171,969,3876,11628,27132,50388,75582,92378,92378,75582,50388,27132,11628,3876,969,171,19,1,0,0,0,0,0,0},

{1,20,190,1140,4845,15504,38760,77520,125970,167960,184756,167960,125970,77520,38760,15504,4845,1140,190,20,1,0,0,0,0,0},

{1,21,210,1330,5985,20349,54264,116280,203490,293930,352716,352716,293930,203490,116280,54264,20349,5985,1330,210,21,1,0,0,0,0},

{1,22,231,1540,7315,26334,74613,170544,319770,497420,646646,705432,646646,497420,319770,170544,74613,26334,7315,1540,231,22,1,0,0,0},

{1,23,253,1771,8855,33649,100947,245157,490314,817190,1144066,1352078,1352078,1144066,817190,490314,245157,100947,33649,8855,1771,253,23,1,0,0},

{1,24,276,2024,10626,42504,134596,346104,735471,1307504,1961256,2496144,2704156,2496144,1961256,1307504,735471,346104,134596,42504,10626,2024,276,24,1,0},

{1,25,300,2300,12650,53130,177100,480700,1081575,2042975,3268760,4457400,5200300,5200300,4457400,3268760,2042975,1081575,480700,177100,53130,12650,2300,300,25,1}};

int a,b;

extern MP_INT Mp_work_iiComb;

Line 411 static int table[26][26]=

MP_INT *BiiPoch(p,q)

int p,q;

{

/* It returns p(p-1) ... (p-q+1) = [p,q] when p>=0 and 0<=q or

p<0 and 0<=q.

[p,q] = p*[p-1,q-1]. [p,0] = 1.

The value is read only. DON'T CHANGE IT.

When p>=0,

p=0 0 1

p=1 1 2 1 1

p=2 3 4 5 1 2 2*1

p=3 6 7 8 9 1 3 3*2 3*2*1, if p<q,then 0.

[p(p+1)/2+q]

When p<0, [p,q] is indexed by (-p+q)(-p+q+1)/2 + q.

-p+q = pq.

q=3 0 (-1)(-2)(-3) (-2)(-3)(-4) (-3)(-4)(-5)

q=2 0 (-1)(-2) (-2)(-3) (-3)(-4)

q=1 0 -1 -2 -3

q=0 1 1 1 1

-p=0 -p=2 -p=3 -p=4

extern MP_INT *Mp_one;

extern MP_INT *Mp_zero;

MP_INT mp_work;

Line 461 q=0 1 1 1 1

newTable = (MP_INT **)sGC_malloc(sizeof(MP_INT *)*( (2*p*(2*p+1))/2));

if (newTable == (MP_INT **) NULL) errorCoeff("BiiPoch(): No more memory.");

for (i=0; i<tableSize; i++) {

for (j=0; j<=i; j++) {

newTable[(i*(i+1))/2 + j] = table[(i*(i+1))/2 + j];

}

for (i=tableSize; i< 2*p; i++) {

for (j=0; j<=i; j++) {

if (j==0) newTable[(i*(i+1))/2 + j] = Mp_one;

else{

newTable[(i*(i+1))/2 + j] = newMP_INT();

}

tableSize = 2*p;

table = newTable;

Line 479 q=0 1 1 1 1

/* Compute the binomial coefficients up to {p \choose p} */

for (i=maxp; i<=p; i++) {

for (j=1; j<=i; j++) {

mpz_mul_ui(table[(i*(i+1))/2 + j],

table[((i-1)*i)/2 + j-1],

(unsigned long int) i); /* [i,j] = i*[i-1,j-1] */

}

maxp = p+1;

Line 501 q=0 1 1 1 1

newTable = (MP_INT **)sGC_malloc(sizeof(MP_INT *)*( (2*pq*(2*pq+1))/2));

if (newTable == (MP_INT **) NULL) errorCoeff("BiiPoch(): No more memory.");

for (i=0; i<tablepqSize; i++) {

for (j=0; j<=i; j++) {

newTable[(i*(i+1))/2 + j] = tablepq[(i*(i+1))/2 + j];

}

for (i=tablepqSize; i< 2*pq; i++) {

for (j=0; j<=i; j++) {

if (j==0) newTable[(i*(i+1))/2 + j] = Mp_one;

else if (j==i) newTable[(i*(i+1))/2+j] = Mp_zero;

else { /*^^^ no problem for optimizer? */

newTable[(i*(i+1))/2 + j] = newMP_INT();

}

tablepqSize = 2*pq;

tablepq = newTable;

Line 521 q=0 1 1 1 1

mpz_init(&mp_work);

for (i=maxpq; i<=pq; i++) {

for (j=1; j<i; j++) {

mpz_set_si(&mp_work,-(i-j));

mpz_mul(tablepq[(i*(i+1))/2 + j],

tablepq[(i*(i+1))/2 + j-1],

&mp_work); /* [i,j] = i*[i-1,j-1] */

}

maxpq = pq+1;

Line 538 int iiPoch(p,k,P) int p,k,P; /* p(p-1)...(p-k+1) */ {

int r,i;

extern MP_INT Mp_work_iiPoch;

mpz_mod_ui(&Mp_work_iiPoch,BiiPoch(p,k),(unsigned long) P);

return((int) mpz_get_si(&Mp_work_iiPoch));

100 test takes 16ms.

if (p>=0 && p < k) return(0);

Line 553 int iiPoch(p,k,P) int p,k,P; /* p(p-1)...(p-k+1) */ {

}

void CiiPoch(r,p,q)

struct coeff *r;

int p,q;

/* r->val.bigp is read only. */

{

switch(r->tag) {

case INTEGER:

Line 571 int p,q;

}

MP_INT *BiiPower(p,q)

int p,q;

/* It returns p^q. q must be >=0.

p^q = [p,q] = p*[p,q-1].

The value is read only. DON'T CHANGE IT.

[p,q] is indexed by table2D[p+q,q]=table1D[(p+q)(p+q+1)/2 + q].

p+q = pq.

q=3 0 1 8 27

q=2 0 1 4 9

q=1 0 1 2 3

q=0 1 1 1 1

-p=0 -p=1 -p=2 -p=3

{

extern MP_INT *Mp_one;

extern MP_INT *Mp_zero;

Line 622 q=0 1 1 1 1

errorCoeff("BiiPower(): No more memory.");

for (i=0; i<tableSize; i++) {

for (j=0; j<=i; j++) {

newTable[(i*(i+1))/2 + j] = table[(i*(i+1))/2 + j];

newTable2[(i*(i+1))/2 + j] = tableneg[(i*(i+1))/2 + j];

}

for (i=tableSize; i< 2*pq; i++) {

for (j=0; j<=i; j++) {

if (j==0) {

newTable[(i*(i+1))/2 + j] = Mp_one;

newTable2[(i*(i+1))/2 + j] = Mp_one;

} else if (j==i) {

newTable[(i*(i+1))/2+j] = Mp_zero;

newTable2[(i*(i+1))/2+j] = Mp_zero;

}else { /*^^^ no problem for optimizer? */

newTable[(i*(i+1))/2 + j] = newMP_INT();

newTable2[(i*(i+1))/2 + j] = newMP_INT();

}

table = newTable;

Line 650 q=0 1 1 1 1

for (j=1; j<i; j++) {

mpz_set_si(&mp_work,-(i-j));

mpz_mul(tableneg[(i*(i+1))/2 + j],

tableneg[((i-1)*i)/2 + j-1],

&mp_work); /* (-(i-j))^j=[i,j] = (-i+j)*[i-1,j-1] */

mpz_set_si(&mp_work,i-j);

mpz_mul(table[(i*(i+1))/2 + j],

table[((i-1)*i)/2 + j-1],

&mp_work); /* (i-j)^j=[i,j] = (i-j)*[i-1,j-1] */

}

maxp = pq+1;

Line 667 q=0 1 1 1 1

}

int iiPower(k,s,P)

int k;

int s; /* k^s , s>=0*/

int P;

{

int kk,r;

r = 1;

Line 680 int P;

}

void CiiPower(r,p,q)

struct coeff *r;

int p,q;

/* r->val.bigp is read only. */

{

switch(r->tag) {

case INTEGER:

Line 698 int p,q;

}

struct coeff *stringToUniversalNumber(s,flagp)

char *s;

int *flagp;

{

MP_INT *value;

struct coeff * c;

Line 712 int *flagp;

}

struct coeff *newUniversalNumber(i)

int i;

{ extern struct ring *SmallRingp;

struct coeff *c;

c = intToCoeff(i,SmallRingp);

return(c);

}

struct coeff *newUniversalNumber2(i)

MP_INT *i;

{ extern struct ring *SmallRingp;

struct coeff *c;

c = mpintToCoeff(i,SmallRingp);

return(c);

}

int coeffEqual(a,b)

struct coeff *a;

struct coeff *b;

{

if (a->tag == INTEGER && b->tag == INTEGER) {

return((a->val.i) == (b->val.i));

Line 744 struct coeff *b;

}

int coeffGreater(a,b)

struct coeff *a;

struct coeff *b;

{

if (a->tag == INTEGER && b->tag == INTEGER) {

return((a->val.i) - (b->val.i));

Line 760 struct coeff *b;

}

void universalNumberDiv(r,a,b)

struct coeff *r;

struct coeff *a;

struct coeff *b;

{

if (a->tag == MP_INTEGER && b->tag == MP_INTEGER && r->tag == MP_INTEGER) {

mpz_div(r->val.bigp,a->val.bigp,b->val.bigp);

Line 773 struct coeff *b;

/* Note that it does not check if c is zero or not. cf isZero(). */

POLY coeffToPoly(c,ringp)

struct coeff *c;

struct ring *ringp;

{ int p;

struct coeff *tc;

if (c->tag == INTEGER) {

tc = intToCoeff(c->val.i,ringp);

return(newCell(tc,newMonomial(ringp)));

}else if (c->tag == MP_INTEGER) {

tc = mpintToCoeff(c->val.bigp,ringp);

return(newCell(tc,newMonomial(ringp)));

} else if (c->tag == POLY_COEFF) {

return(newCell(c,newMonomial(ringp)));

}else {

warningCoeff("coeffToPoly(): The data type is not supported. Return 0.");

return(ZERO);

}

void errorCoeff(str)

char *str;

{

fprintf(stderr,"Error(coeff.c): %s\n",str);

fprintf(stderr,"Type in ctrl-\\");getchar();

Line 800 char *str;

}

void warningCoeff(str)

char *str;

{

fprintf(stderr,"Warning(coeff.c): %s\n",str);

}

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