% Test of Complex Number mode in REDUCE.
on complex;
(31+i)/74;
ws/(b+1); % this now comes out right!
w:=(x+3*i)**2;
on gcd;
(x**3-7*x**2+x-7)/(x**2+(3+i)*x+3*i);
off gcd;
sqrt(x**4+14*i*x**3-51*x**2-14*i*x+1);
on rounded;
(3.25 + 8.5i) + (6.75 - 8.5i);
(3.25 + 8.5i) - (6.0 - 9.5i);
(1.0 + 10.0*i)*(-6.5 + 2.5*i);
(1.2 - 3.4*i)*(-5.6 + 7.8*i);
(19.8 + 28.4*i)/(-5.6 + 7.8*i);
e;
pi;
17*i**2;
(-7.0 + 24.0*i)**(1/2);
sqrt(-7.0 + 24.0*i);
sqrt(-10.12 - 8.16*i);
sin(0.0 + 0.0*i);
sin(1.0 + 0.0*i);
sin(1.0 + 1.0*i);
cos(0.0 + 0.0*i);
cos(1.0 - 0.0*i);
cos(1.0 + 1.0*i);
tan(0.0 + 0.0*i);
tan(1.0 + 0.0*i);
tan(1.0 + 1.0*i);
asin(1.0 + 1.0*i);
acos(1.0 + 1.0*i);
atan(1.0 + 1.0*i);
log(1.0 + 1.0*i);
asin 2;
sin ws;
acos 2;
cos ws;
atan(1+i);
tan ws;
log(2+i);
exp ws;
e**(i*pi);
e**i;
z := sqrt i;
z**2;
off rounded;
% on rationalize; % no longer needed, since it doesn't affect complex.
s:= 1.1+2.3i;
s/4; % this would have had a common factor of 4.
x:= a+1.1+2.3i;
y:= b+1.2+1.3i;
z:= x/y;
z/4; % this would have had a common polynomial factor b^2 + ...
z*7/4;
s/(c^2+c+1); % this would have had a common factor of c^2+c+1
clear x;
zz:= x^2+(1.1+2.3i)*x+1.2+1.3i;
ss:=1.23456789x^2+1.3579i*x+5.6789;
% off rationalize; % not needed now.
z:= x+1.1+2.3i;
on rationalize;
z; % same as previous answer.
off rationalize;
1.23456789x^2+2.3456i*x+7.89;
on factor;
x**2+1;
x**4-1;
x**4+(i+2)*x**3+(2*i+5)*x**2+(2*i+6)*x+6;
(2*i+3)*x**4+(3*i-2)*x**3-2*(i+1)*x**2+i*x-1;
% Multivariate examples:
x**2+y**2;
off factor;
factorize(x**2+1);
end;