cos

cos                46 ext/date/lib/astro.c #define cosd(x)  cos((x)*DEGRAD)
cos              1132 ext/gd/libgd/gd.c 			double ac = cos (atan2 (dy, dx));
cos               246 ext/gd/libgd/gd_arc_f_buggy.c       s_cos = (long) ((double) 32768 * cos ((double) s * M_PI / (double) 180));
cos               256 ext/gd/libgd/gd_arc_f_buggy.c       e_cos = (long) ((double) 32768 * cos ((double) e * M_PI / (double) 180));
cos               611 ext/gd/libgd/gd_arc_f_buggy.c   a_cos = (long) ((double) 32768 * cos ((double) angle * M_PI / (double) 180));
cos               298 ext/gd/libgd/gd_interpolation.c 	q = (double)sqrt(2.0f/(M_PI*x))*(double)(KernelBessel_P1(x)*(1.0f/sqrt(2.0f)*(sin(x)-cos(x)))-8.0f/x*KernelBessel_Q1(x)*
cos               299 ext/gd/libgd/gd_interpolation.c 		(-1.0f/sqrt(2.0f)*(sin(x)+cos(x))));
cos               315 ext/gd/libgd/gd_interpolation.c 	return (0.42f+0.5f*(double)cos(M_PI*x)+0.08f*(double)cos(2.0f*M_PI*x));
cos               511 ext/gd/libgd/gd_interpolation.c 	if ((x >= -1.0) && (x <= 1.0)) return ((cos(x * M_PI) + 1.0)/2.0);
cos               565 ext/gd/libgd/gd_interpolation.c 	return(0.5 + 0.5 * cos(M_PI * x));
cos              1670 ext/gd/libgd/gd_interpolation.c 	const unsigned int new_width = (unsigned int)(abs((int)(src_w * cos(_angle))) + abs((int)(src_h * sin(_angle))) + 0.5f);
cos              1671 ext/gd/libgd/gd_interpolation.c 	const unsigned int new_height = (unsigned int)(abs((int)(src_w * sin(_angle))) + abs((int)(src_h * cos(_angle))) + 0.5f);
cos              1675 ext/gd/libgd/gd_interpolation.c 	const gdFixed f_cos = gd_ftofx(cos(-_angle));
cos              1720 ext/gd/libgd/gd_interpolation.c 	const unsigned int new_width = (unsigned int)(abs((int)(src_w * cos(_angle))) + abs((int)(src_h * sin(_angle))) + 0.5f);
cos              1721 ext/gd/libgd/gd_interpolation.c 	const unsigned int new_height = (unsigned int)(abs((int)(src_w * sin(_angle))) + abs((int)(src_h * cos(_angle))) + 0.5f);
cos              1725 ext/gd/libgd/gd_interpolation.c 	const gdFixed f_cos = gd_ftofx(cos(-_angle));
cos              1783 ext/gd/libgd/gd_interpolation.c 	unsigned int new_width = abs((int)(src_w*cos(_angle))) + abs((int)(src_h*sin(_angle) + 0.5f));
cos              1784 ext/gd/libgd/gd_interpolation.c 	unsigned int new_height = abs((int)(src_w*sin(_angle))) + abs((int)(src_h*cos(_angle) + 0.5f));
cos              1788 ext/gd/libgd/gd_interpolation.c 	const gdFixed f_cos = gd_ftofx(cos(-_angle));
cos              1898 ext/gd/libgd/gd_interpolation.c 	const unsigned int new_width = abs((int)(src_w*cos(_angle))) + abs((int)(src_h*sin(_angle) + 0.5f));
cos              1899 ext/gd/libgd/gd_interpolation.c 	const unsigned int new_height = abs((int)(src_w*sin(_angle))) + abs((int)(src_h*cos(_angle) + 0.5f));
cos              1903 ext/gd/libgd/gd_interpolation.c 	const gdFixed f_cos = gd_ftofx(cos(-_angle));
cos               202 ext/gd/libgd/gd_matrix.c 	const double cos_t = cos (angle * M_PI / 180.0);
cos               434 ext/gd/libgd/gd_rotate.c 	newy = (int) ((double) src->sx * fabs( dSinE ) + (double) src->sy * cos (dRadAngle))+1;
cos               465 ext/gd/libgd/gd_rotate.c 	newx = (int) ((double)src->sy * fabs (dSinE) + (double)src->sx * cos (dRadAngle)) + 1;
cos               819 ext/gd/libgd/gdft.c 	double cos_a = cos (angle);
cos                16 ext/gd/libgd/mathmake.c       basis[i] = cos ((double) i * .0174532925) * scale;
cos              2886 ext/standard/basic_functions.c 	PHP_FE(cos,																arginfo_cos)
cos               453 ext/standard/math.c PHP_FUNCTION(cos)
cos               466 ext/standard/math.c 	RETURN_DOUBLE(cos(num));
cos                33 ext/standard/php_math.h PHP_FUNCTION(cos);