Contents
Most of these functions correspond to the C math library equivalents, and are called on a per-pixel basis. Given the limited precision ofFractional and FixedPoint types, some operations must be used with care. (Values are automatically clamped to the legal range).
ice.Image Abs()
Absolute value.
ice.Image Add(b)
Add two images.
Parameters
b
second operand (ice.Image).
ice.Image AddWrap(b)
Add two images, but wrap the result so that it falls in the range 0-1. Something like a floating point modulo operation.
Parameters
b
second operand (ice.Image).
ice.Image ACos()
ice.Image ASin()
ice.Image ATan()
ice.Image ATan2(x)
Parameters
x
Base (ice.Image).
ice.Image Ceil()
Round up to nearest integer.
ice.Image Cos()
Cosine.
ice.Image Cosh()
Hyperbolic cosine.
ice.Image Divide(b)
Divide one image by another: the image being operated upon is the numerator.
Parameters
b
Denominator (ice.Image).
ice.Image Exp()
Inverse natural logarithm.
ice.Image Floor()
Round down to nearest integer.
ice.Image Hypot(b)
Compute the hypotenuse of a triangle: the image being operated upon is the first operand.
Parameters
b
Second side of the "triangle" (ice.Image).
ice.Image Ln()
Natural logarithm.
ice.Image Max(b)
Result is the maximum of the two inputs.
Parameters
b
Second operand (ice.Image).
ice.Image Min(b)
Result is the minimum of the two inputs.
Parameters
b
Second operand (ice.Image).
ice.Image Multiply(b)
Multiply two images. The multiplier is the image being operated upon.
Parameters
b
Multiplicand (ice.Image).
ice.Image MultiplyAccumulate(b, c)
Multiply image a by b and add c.
Parameters
b
Scale (ice.Image).
c
Offset (ice.Image).
ice.Image MultiplyComplement(b)
Implements a * (1 − b). a is the image being operated upon.
Parameters
b
Second operand (ice.Image).
ice.Image Pow(b)
Raise this image to the b power.
Parameters
b
Second operand (ice.Image).
ice.Image Round()
Round to nearest integer.
ice.Image Sign()
Signum function.
Return value is 1 for positive values, and −1 for negative ones.
Should probably be called Sgn(), to conform to common mathematics convention
ice.Image Sine()
Sine function.
ice.Image Sinh()
Hyperbolic sine.
ice.Image SmoothStep(min, max)
Return 0 if less than the lower threshold, 1 if greater than the upper threshold, and smoothly varying in between. (A cubic is used, with c1 continuity at both ends).
Parameters
min
Lower threshold (ice.Image).
max
Upper threshold (ice.Image).
ice.Image Subtract(b)
Subtract two images. The minuend is the image being operated upon.
Parameters
b
Subtrahend (ice.Image).
ice.Image Tan()
Tangent function.
ice.Image Tanh()
Hyperbolic tangent.