e2 docs angle

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Angle

= ang()

Same as ang(0,0,0) (1 ops)

= ang( Rv1)

Makes an angle (2 ops)

= ang( Rv1, Rv2, Rv3)

Makes an angle (2 ops)

= ang( Rv1)

Changes a vector variable into an angle variable. XYZ become PYR respectively (2 ops)

= angnorm( Rv1)

Gets the normalized angle of an angle (5 ops)

= angnorm( Rv1)

Gets the normalized angle of a number (5 ops)

= :pitch()

Gets the pitch of the angle (1 ops)

= :yaw()

Gets the yaw of the angle (1 ops)

= :roll()

Gets the roll of the angle (1 ops)

= :setPitch( Rv2)

Returns a copy of the angle with Pitch replaced (use as Ang = Ang:setPitch(...)) (2 ops)

= :setYaw( Rv2)

Returns a copy of the angle with Yaw replaced (use as Ang = Ang:setYaw(...)) (2 ops)

= :setRoll( Rv2)

Returns a copy of the angle with Roll replaced (use as Ang = Ang:setRoll(...)) (2 ops)

= round( Rv1)

Rounds PYR to the nearest integer (5 ops)

= round( Rv1, Decimals)

Rounds PYR to argument 2's decimal precision (5 ops)

= ceil( Rv1)

Rounds PYR up to the nearest integer (5 ops)

= ceil( Rv1, Decimals)

Rounds PYR up to argument 2's decimal precision (5 ops)

= floor( Rv1)

Rounds PYR down to the nearest integer (5 ops)

= floor( Rv1, Decimals)

Rounds PYR down to argument 2's decimal precision (5 ops)

= mod( Rv1, Rv2)

Returns the remainder after PYR have been divided by argument 2 (5 ops)

= mod( Rv1, Rv2)

Returns the remainder after the components of angle 1 have been divided by the components of angle 2 (5 ops)

= clamp( Rv1, Rv2, Rv3)

Clamps angle 1's PYR between argument 2(min) and argument 3(max) (5 ops)

= clamp( Rv1, Rv2, Rv3)

Clamps angle 1's PYR between the PYR of angle 2(min) and angle 3(max) (5 ops)

= mix( Rv1, Rv2, Rv3)

Combines angle 1's PYR with angle 2's PYR by a proportion given by argument 3 (between 0 and 1) (5 ops)

= shiftR( Rv1)

Shifts the angle's components right: shiftR( p,y,r ) = ( r,p,y ) (2 ops)

= shiftL( Rv1)

Shifts the angle's components left: shiftL( p,y,r ) = ( y,r,p ) (2 ops)

= inrange( Rv1, Rv2, Rv3)

Returns 1 if each component of A is between (or is equal to) the components of Amin and Amax (5 ops)

= :rotateAroundAxis( Axis, Degrees)

Returns the angle A rotated around vector V by N degrees (5 ops)

= toRad( Rv1)

Converts the angle's magnitude from radians to radians (5 ops)

= toDeg( Rv1)

Converts the angle's magnitude from radians to degrees (5 ops)

= :forward()

Gets the forward vector of the angle (5 ops)

= :right()

Gets the right vector of the angle (5 ops)

= :up()

Gets the up vector of the angle (5 ops)

= toString( A)

Gets the angle nicely formatted as a string "[P,Y,R]" (5 ops)

= :toString()

Gets the angle nicely formatted as a string "[P,Y,R]" (5 ops)