In a 2d space, I have an object of coordinates x1 and y1 and it is facing a specific direction , we'll call it "viewer". At start, the angle that measures the object rotation is 0, so the object starts always facing the same way. The angle is measured by a variable called yrot.
let D be the distance from the object determined by sqrt ((x1-x2)^2 + (y1-y2)^2), consider this distance known.
Now, knowing the viewer coordinates, the D distance and the yrot angle I want to determine the coordinates x2, y2 of the object that is at distance D from the viewer object's face.
To clarify this I will add a simple matrix to explain what I want:
Z 0 0
0 0 0
0 0 V
V is the viewer, V is facing towards Z. I am only interested if there is an object in front of V(at the specific distance). In other words, suppose Z is at distance D(known) from V, I am only interested if Z is an object, nothing else.
I believe the needed coordinates are x2 = x1 (+/-) d* sin yrot; y2 = y1 (+/-) d*cos yrot; I am not sure if this is the correct formula and it doesn't seem to be working. I am also unsure abut the signum of the second operand.
If anything is unclear, please leave comments and I will do my best to answer as fast as possible.
Later edit: || <- where is viewer oriented, yrot = 0;  <- viewer
=  <- viewer yrot = 90 degrees.
This should clarify what yrot is. Also, the object can rotate as much as I want to ( > 2 PI) and it can rotate both clock-wise and counter clock wise.
Charles Bretana's answer seems almost correct, I'm not sure if it covers overrotating(rotating > 360 degrees) and rotating in different directions.