Enum ParamRange

Source

pub enum ParamRange {
    Linear {
        min: f64,
        max: f64,
    },
    Logarithmic {
        min: f64,
        max: f64,
    },
    Discrete {
        min: i64,
        max: i64,
    },
    Enum {
        count: usize,
    },
}

Expand description

Defines how a parameter maps between plain and normalized values.

Copy because every variant is POD (two scalar fields). Lets format wrappers pass info.range by value without clone() noise.

Variants§

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Linear

Fields

§min: f64

§max: f64

§

Logarithmic

Fields

§min: f64

§max: f64

§

Discrete

Fields

§min: i64

§max: i64

§

Enum

Fields

§count: usize

Implementations§

Source §

impl ParamRange

Source

pub fn normalize(&self, plain: f64) -> f64

Map a plain value to 0.0–1.0.

Degenerate bounds - min == max for Linear / Discrete, non-positive or empty for Logarithmic, count <= 1 for Enum - collapse to 0.0. Combined with Self::denormalize returning min on the same inputs, the pair is round-trip stable: the result always converges to the bottom of the (degenerate) range rather than producing NaN or wrapping into nonsense.

Source

pub fn denormalize(&self, normalized: f64) -> f64

Map 0.0–1.0 back to a plain value.

Degenerate bounds collapse to min (or 0.0 for Enum with count <= 1). See Self::normalize for the round-trip semantics.

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pub fn min(&self) -> f64

Plain-value minimum.

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pub fn max(&self) -> f64

Plain-value maximum.

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pub fn step_count(&self) -> Option<NonZeroU32>

Number of discrete steps for a quantized range.

None means continuous (Linear / Logarithmic). Some(n) means the range covers n + 1 distinct values (a step count of 3 → 4 picker positions). Cross-format wrappers that serialize a 0 = continuous sentinel into a C struct should call .map(NonZeroU32::get).unwrap_or(0) at the FFI boundary.

Discrete / Enum variants with degenerate bounds (min > max, or count <= 1) return None - semantically continuous, because there’s nothing to step through.

Source

pub fn step_count_usize(&self) -> usize

step_count widened to usize with the continuous case flattened to 1. Convenience for UI code that loops over discrete values and falls back to a single step for continuous ranges.