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Quat[Class Summary]
x
y
z
w
identity[static][const]
nan[static][const]
ctor (+7 overloads)
WorldX()[const]
WorldY()[const]
WorldZ()[const]
Axis()[const]
Angle()[const]
Dot(rhs)[const]
LengthSq()[const]
Length()[const]
Normalize()
Normalized()[const]
IsNormalized(epsilon)[const]
IsInvertible(epsilon)[const]
IsFinite()[const]
Equals(rhs,epsilon)[const]
BitEquals(other)[const]
ptr() (+1 overload)
Inverse()
Inverted()[const]
InverseAndNormalize()
Conjugate()
Conjugated()[const]
Transform(x,y,z)[const] (+2 overloads)
Lerp(target,t)[const]
Slerp(target,t)[const]
AngleBetween(target)[const]
AxisFromTo(target)[const]
ToAxisAngle(...)[const] (+1 overload)
SetFromAxisAngle(...) (+1 overload)
Set(matrix) (+3 overloads)
ToEulerXYX()[const]
ToFloat3x3()[const]
ToFloat3x4()[const]
ToFloat4x4()[const] (+2 overloads)
ToString()[const]
ToString2()[const]
SerializeToString()[const]
SerializeToCodeString()[const]
operator*(rhs)[const] (+2 overloads)
operator/(rhs)[const]
operator+()[const]
Mul(rhs)[const] (+3 overloads)
Neg()[const]
Lerp(source,target,t)[static]
Slerp(source,target,t)[static]
SlerpVector(from,to,t)[static]
SlerpVectorAbs(...)[static]
LookAt(...)[static]
RotateX(angleRadians)[static]
RotateY(angleRadians)[static]
RotateZ(angleRadians)[static]
RotateAxisAngle(...)[static]
RotateFromTo(...)[static] (+2 overloads)
FromEuler***(x2,y,x)[static]
RandomRotation(lcg)[static]
FromString(str,outEndStr)[static] (+1 overload)

Quat::Set

Syntax

void Quat::Set(const float3x3 &matrix); [12 lines of code]
void Quat::Set(const float3x4 &matrix); [12 lines of code]
void Quat::Set(const float4x4 &matrix); [13 lines of code]

Sets this quaternion to represent the same rotation as the given matrix.

Syntax

void Quat::Set(float x, float y, float z, float w); [11 lines of code]

Sets all elements of this quaternion.

Note
This sets the raw elements, which do not correspond directly to the axis and angle of the rotation. Use SetFromAxisAngle to define this Quat using a rotation axis and an angle.