From a990de90fe41456a23e58bd087d2f107d321f3a1 Mon Sep 17 00:00:00 2001 From: Valentin Popov Date: Fri, 19 Jul 2024 16:37:58 +0400 Subject: Deleted vendor folder --- vendor/exr/src/block/samples.rs | 248 ---------------------------------------- 1 file changed, 248 deletions(-) delete mode 100644 vendor/exr/src/block/samples.rs (limited to 'vendor/exr/src/block/samples.rs') diff --git a/vendor/exr/src/block/samples.rs b/vendor/exr/src/block/samples.rs deleted file mode 100644 index 4352b11..0000000 --- a/vendor/exr/src/block/samples.rs +++ /dev/null @@ -1,248 +0,0 @@ -//! Extract pixel samples from a block of pixel bytes. - -use crate::prelude::*; -use half::prelude::HalfFloatSliceExt; - - -/// A single red, green, blue, or alpha value. -#[derive(Copy, Clone, Debug)] -pub enum Sample { - - /// A 16-bit float sample. - F16(f16), - - /// A 32-bit float sample. - F32(f32), - - /// An unsigned integer sample. - U32(u32) -} - -impl Sample { - - /// Create a sample containing a 32-bit float. - pub fn f32(f32: f32) -> Self { Sample::F32(f32) } - - /// Create a sample containing a 16-bit float. - pub fn f16(f16: f16) -> Self { Sample::F16(f16) } - - /// Create a sample containing a 32-bit integer. - pub fn u32(u32: u32) -> Self { Sample::U32(u32) } - - /// Convert the sample to an f16 value. This has lower precision than f32. - /// Note: An f32 can only represent integers up to `1024` as precise as a u32 could. - #[inline] - pub fn to_f16(self) -> f16 { - match self { - Sample::F16(sample) => sample, - Sample::F32(sample) => f16::from_f32(sample), - Sample::U32(sample) => f16::from_f32(sample as f32), - } - } - - /// Convert the sample to an f32 value. - /// Note: An f32 can only represent integers up to `8388608` as precise as a u32 could. - #[inline] - pub fn to_f32(self) -> f32 { - match self { - Sample::F32(sample) => sample, - Sample::F16(sample) => sample.to_f32(), - Sample::U32(sample) => sample as f32, - } - } - - /// Convert the sample to a u32. Rounds floats to integers the same way that `3.1 as u32` does. - #[inline] - pub fn to_u32(self) -> u32 { - match self { - Sample::F16(sample) => sample.to_f32() as u32, - Sample::F32(sample) => sample as u32, - Sample::U32(sample) => sample, - } - } - - /// Is this value not a number? - #[inline] - pub fn is_nan(self) -> bool { - match self { - Sample::F16(value) => value.is_nan(), - Sample::F32(value) => value.is_nan(), - Sample::U32(_) => false, - } - } - - /// Is this value zero or negative zero? - #[inline] - pub fn is_zero(&self) -> bool { - match *self { - Sample::F16(value) => value == f16::ZERO || value == f16::NEG_ZERO, - Sample::F32(value) => value == 0.0, - Sample::U32(value) => value == 0, - } - } -} - -impl PartialEq for Sample { - fn eq(&self, other: &Self) -> bool { - match *self { - Sample::F16(num) => num == other.to_f16(), - Sample::F32(num) => num == other.to_f32(), - Sample::U32(num) => num == other.to_u32(), - } - } -} - -// this is not recommended because it may hide whether a color is transparent or opaque and might be undesired for depth channels -impl Default for Sample { - fn default() -> Self { Sample::F32(0.0) } -} - -impl From for Sample { #[inline] fn from(f: f16) -> Self { Sample::F16(f) } } -impl From for Sample { #[inline] fn from(f: f32) -> Self { Sample::F32(f) } } -impl From for Sample { #[inline] fn from(f: u32) -> Self { Sample::U32(f) } } - -impl From> for Sample where T: Into + Default { - #[inline] fn from(num: Option) -> Self { num.unwrap_or_default().into() } -} - - -impl From for f16 { #[inline] fn from(s: Sample) -> Self { s.to_f16() } } -impl From for f32 { #[inline] fn from(s: Sample) -> Self { s.to_f32() } } -impl From for u32 { #[inline] fn from(s: Sample) -> Self { s.to_u32() } } - - -/// Create an arbitrary sample type from one of the defined sample types. -/// Should be compiled to a no-op where the file contains the predicted sample type. -/// The slice functions should be optimized into a `memcpy` where there is no conversion needed. -pub trait FromNativeSample: Sized + Copy + Default + 'static { - - /// Create this sample from a f16, trying to represent the same numerical value - fn from_f16(value: f16) -> Self; - - /// Create this sample from a f32, trying to represent the same numerical value - fn from_f32(value: f32) -> Self; - - /// Create this sample from a u32, trying to represent the same numerical value - fn from_u32(value: u32) -> Self; - - /// Convert all values from the slice into this type. - /// This function exists to allow the compiler to perform a vectorization optimization. - /// Note that this default implementation will **not** be vectorized by the compiler automatically. - /// For maximum performance you will need to override this function and implement it via - /// an explicit batched conversion such as [`convert_to_f32_slice`](https://docs.rs/half/2.3.1/half/slice/trait.HalfFloatSliceExt.html#tymethod.convert_to_f32_slice) - #[inline] - fn from_f16s(from: &[f16], to: &mut [Self]) { - assert_eq!(from.len(), to.len(), "slices must have the same length"); - for (from, to) in from.iter().zip(to.iter_mut()) { - *to = Self::from_f16(*from); - } - } - - /// Convert all values from the slice into this type. - /// This function exists to allow the compiler to perform a vectorization optimization. - /// Note that this default implementation will be vectorized by the compiler automatically. - #[inline] - fn from_f32s(from: &[f32], to: &mut [Self]) { - assert_eq!(from.len(), to.len(), "slices must have the same length"); - for (from, to) in from.iter().zip(to.iter_mut()) { - *to = Self::from_f32(*from); - } - } - - /// Convert all values from the slice into this type. - /// This function exists to allow the compiler to perform a vectorization optimization. - /// Note that this default implementation will be vectorized by the compiler automatically, - /// provided that the CPU supports the necessary conversion instructions. - /// For example, x86_64 lacks the instructions to convert `u32` to floats, - /// so this will inevitably be slow on x86_64. - #[inline] - fn from_u32s(from: &[u32], to: &mut [Self]) { - assert_eq!(from.len(), to.len(), "slices must have the same length"); - for (from, to) in from.iter().zip(to.iter_mut()) { - *to = Self::from_u32(*from); - } - } -} - -// TODO haven't i implemented this exact behaviour already somewhere else in this library...?? -impl FromNativeSample for f32 { - #[inline] fn from_f16(value: f16) -> Self { value.to_f32() } - #[inline] fn from_f32(value: f32) -> Self { value } - #[inline] fn from_u32(value: u32) -> Self { value as f32 } - - // f16 is a custom type - // so the compiler can not automatically vectorize the conversion - // that's why we need to specialize this function - #[inline] - fn from_f16s(from: &[f16], to: &mut [Self]) { - from.convert_to_f32_slice(to); - } -} - -impl FromNativeSample for u32 { - #[inline] fn from_f16(value: f16) -> Self { value.to_f32() as u32 } - #[inline] fn from_f32(value: f32) -> Self { value as u32 } - #[inline] fn from_u32(value: u32) -> Self { value } -} - -impl FromNativeSample for f16 { - #[inline] fn from_f16(value: f16) -> Self { value } - #[inline] fn from_f32(value: f32) -> Self { f16::from_f32(value) } - #[inline] fn from_u32(value: u32) -> Self { f16::from_f32(value as f32) } - - // f16 is a custom type - // so the compiler can not automatically vectorize the conversion - // that's why we need to specialize this function - #[inline] - fn from_f32s(from: &[f32], to: &mut [Self]) { - to.convert_from_f32_slice(from) - } -} - -impl FromNativeSample for Sample { - #[inline] fn from_f16(value: f16) -> Self { Self::from(value) } - #[inline] fn from_f32(value: f32) -> Self { Self::from(value) } - #[inline] fn from_u32(value: u32) -> Self { Self::from(value) } -} - - -/// Convert any type into one of the supported sample types. -/// Should be compiled to a no-op where the file contains the predicted sample type -pub trait IntoNativeSample: Copy + Default + Sync + 'static { - - /// Convert this sample to an f16, trying to represent the same numerical value. - fn to_f16(&self) -> f16; - - /// Convert this sample to an f32, trying to represent the same numerical value. - fn to_f32(&self) -> f32; - - /// Convert this sample to an u16, trying to represent the same numerical value. - fn to_u32(&self) -> u32; -} - -impl IntoNativeSample for f16 { - fn to_f16(&self) -> f16 { f16::from_f16(*self) } - fn to_f32(&self) -> f32 { f32::from_f16(*self) } - fn to_u32(&self) -> u32 { u32::from_f16(*self) } -} - -impl IntoNativeSample for f32 { - fn to_f16(&self) -> f16 { f16::from_f32(*self) } - fn to_f32(&self) -> f32 { f32::from_f32(*self) } - fn to_u32(&self) -> u32 { u32::from_f32(*self) } -} - -impl IntoNativeSample for u32 { - fn to_f16(&self) -> f16 { f16::from_u32(*self) } - fn to_f32(&self) -> f32 { f32::from_u32(*self) } - fn to_u32(&self) -> u32 { u32::from_u32(*self) } -} - -impl IntoNativeSample for Sample { - fn to_f16(&self) -> f16 { Sample::to_f16(*self) } - fn to_f32(&self) -> f32 { Sample::to_f32(*self) } - fn to_u32(&self) -> u32 { Sample::to_u32(*self) } -} - - - -- cgit v1.2.3