deg

deg              1592 drivers/gpu/drm/drm_modes.c 			unsigned int deg;
deg              1594 drivers/gpu/drm/drm_modes.c 			deg = simple_strtol(value, &sep, 10);
deg              1600 drivers/gpu/drm/drm_modes.c 			switch (deg) {
deg               196 drivers/mtd/nand/raw/atmel/pmecc.c 	const unsigned int k = BIT(deg(poly));
deg               736 include/linux/iio/iio.h #define IIO_DEGREE_TO_RAD(deg) (((deg) * 314159ULL + 9000000ULL) / 18000000ULL)
deg               104 lib/bch.c      	unsigned int deg;    /* polynomial degree */
deg               368 lib/bch.c      			i = deg(poly);
deg               383 lib/bch.c      	memcpy(dst, src, GF_POLY_SZ(src->deg));
deg               400 lib/bch.c      	pelp->deg = 0;
deg               402 lib/bch.c      	elp->deg = 0;
deg               406 lib/bch.c      	for (i = 0; (i < t) && (elp->deg <= t); i++) {
deg               412 lib/bch.c      			for (j = 0; j <= pelp->deg; j++) {
deg               419 lib/bch.c      			tmp = pelp->deg+k;
deg               420 lib/bch.c      			if (tmp > elp->deg) {
deg               421 lib/bch.c      				elp->deg = tmp;
deg               430 lib/bch.c      			for (j = 1; j <= elp->deg; j++)
deg               435 lib/bch.c      	return (elp->deg > t) ? -1 : (int)elp->deg;
deg               593 lib/bch.c      			i = deg(v);
deg               712 lib/bch.c      	int i, d = a->deg, l = GF_N(bch)-a_log(bch, a->c[a->deg]);
deg               727 lib/bch.c      	const unsigned int d = b->deg;
deg               729 lib/bch.c      	if (a->deg < d)
deg               738 lib/bch.c      	for (j = a->deg; j >= d; j--) {
deg               750 lib/bch.c      	a->deg = d-1;
deg               751 lib/bch.c      	while (!c[a->deg] && a->deg)
deg               752 lib/bch.c      		a->deg--;
deg               761 lib/bch.c      	if (a->deg >= b->deg) {
deg               762 lib/bch.c      		q->deg = a->deg-b->deg;
deg               766 lib/bch.c      		memcpy(q->c, &a->c[b->deg], (1+q->deg)*sizeof(unsigned int));
deg               768 lib/bch.c      		q->deg = 0;
deg               783 lib/bch.c      	if (a->deg < b->deg) {
deg               789 lib/bch.c      	while (b->deg > 0) {
deg               813 lib/bch.c      	z->deg = 1;
deg               817 lib/bch.c      	out->deg = 0;
deg               818 lib/bch.c      	memset(out, 0, GF_POLY_SZ(f->deg));
deg               825 lib/bch.c      		for (j = z->deg; j >= 0; j--) {
deg               830 lib/bch.c      		if (z->deg > out->deg)
deg               831 lib/bch.c      			out->deg = z->deg;
deg               834 lib/bch.c      			z->deg *= 2;
deg               839 lib/bch.c      	while (!out->c[out->deg] && out->deg)
deg               840 lib/bch.c      		out->deg--;
deg               865 lib/bch.c      	if (tk->deg > 0) {
deg               869 lib/bch.c      		if (gcd->deg < f->deg) {
deg               873 lib/bch.c      			*h = &((struct gf_poly_deg1 *)f)[gcd->deg].poly;
deg               890 lib/bch.c      	switch (poly->deg) {
deg               907 lib/bch.c      		if (poly->deg && (k <= GF_M(bch))) {
deg               933 lib/bch.c      	bch->cache[p->deg] = 0;
deg               934 lib/bch.c      	syn0 = gf_div(bch, p->c[0], p->c[p->deg]);
deg               938 lib/bch.c      		for (j = 1, syn = syn0; j <= p->deg; j++) {
deg               945 lib/bch.c      			if (count == p->deg)
deg               949 lib/bch.c      	return (count == p->deg) ? count : 0;
deg              1064 lib/bch.c      	const unsigned int k = 1 << deg(poly);
deg              1106 lib/bch.c      				d = deg(data);
deg              1202 lib/bch.c      	g->deg = 0;
deg              1208 lib/bch.c      			g->c[g->deg+1] = 1;
deg              1209 lib/bch.c      			for (j = g->deg; j > 0; j--)
deg              1213 lib/bch.c      			g->deg++;
deg              1217 lib/bch.c      	n = g->deg+1;
deg              1229 lib/bch.c      	bch->ecc_bits = g->deg;