veloren/common/src/volumes/dyna.rs

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common: Rework volume API See the doc comments in `common/src/vol.rs` for more information on the API itself. The changes include: * Consistent `Err`/`Error` naming. * Types are named `...Error`. * `enum` variants are named `...Err`. * Rename `VolMap{2d, 3d}` -> `VolGrid{2d, 3d}`. This is in preparation to an upcoming change where a “map” in the game related sense will be added. * Add volume iterators. There are two types of them: * _Position_ iterators obtained from the trait `IntoPosIterator` using the method `fn pos_iter(self, lower_bound: Vec3<i32>, upper_bound: Vec3<i32>) -> ...` which returns an iterator over `Vec3<i32>`. * _Volume_ iterators obtained from the trait `IntoVolIterator` using the method `fn vol_iter(self, lower_bound: Vec3<i32>, upper_bound: Vec3<i32>) -> ...` which returns an iterator over `(Vec3<i32>, &Self::Vox)`. Those traits will usually be implemented by references to volume types (i.e. `impl IntoVolIterator<'a> for &'a T` where `T` is some type which usually implements several volume traits, such as `Chunk`). * _Position_ iterators iterate over the positions valid for that volume. * _Volume_ iterators do the same but return not only the position but also the voxel at that position, in each iteration. * Introduce trait `RectSizedVol` for the use case which we have with `Chonk`: A `Chonk` is sized only in x and y direction. * Introduce traits `RasterableVol`, `RectRasterableVol` * `RasterableVol` represents a volume that is compile-time sized and has its lower bound at `(0, 0, 0)`. The name `RasterableVol` was chosen because such a volume can be used with `VolGrid3d`. * `RectRasterableVol` represents a volume that is compile-time sized at least in x and y direction and has its lower bound at `(0, 0, z)`. There's no requirement on he lower bound or size in z direction. The name `RectRasterableVol` was chosen because such a volume can be used with `VolGrid2d`.
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use crate::vol::{
BaseVol, DefaultPosIterator, DefaultVolIterator, IntoPosIterator, IntoVolIterator, ReadVol,
SizedVol, WriteVol,
common: Rework volume API See the doc comments in `common/src/vol.rs` for more information on the API itself. The changes include: * Consistent `Err`/`Error` naming. * Types are named `...Error`. * `enum` variants are named `...Err`. * Rename `VolMap{2d, 3d}` -> `VolGrid{2d, 3d}`. This is in preparation to an upcoming change where a “map” in the game related sense will be added. * Add volume iterators. There are two types of them: * _Position_ iterators obtained from the trait `IntoPosIterator` using the method `fn pos_iter(self, lower_bound: Vec3<i32>, upper_bound: Vec3<i32>) -> ...` which returns an iterator over `Vec3<i32>`. * _Volume_ iterators obtained from the trait `IntoVolIterator` using the method `fn vol_iter(self, lower_bound: Vec3<i32>, upper_bound: Vec3<i32>) -> ...` which returns an iterator over `(Vec3<i32>, &Self::Vox)`. Those traits will usually be implemented by references to volume types (i.e. `impl IntoVolIterator<'a> for &'a T` where `T` is some type which usually implements several volume traits, such as `Chunk`). * _Position_ iterators iterate over the positions valid for that volume. * _Volume_ iterators do the same but return not only the position but also the voxel at that position, in each iteration. * Introduce trait `RectSizedVol` for the use case which we have with `Chonk`: A `Chonk` is sized only in x and y direction. * Introduce traits `RasterableVol`, `RectRasterableVol` * `RasterableVol` represents a volume that is compile-time sized and has its lower bound at `(0, 0, 0)`. The name `RasterableVol` was chosen because such a volume can be used with `VolGrid3d`. * `RectRasterableVol` represents a volume that is compile-time sized at least in x and y direction and has its lower bound at `(0, 0, z)`. There's no requirement on he lower bound or size in z direction. The name `RectRasterableVol` was chosen because such a volume can be used with `VolGrid2d`.
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};
use serde::{Deserialize, Serialize};
use vek::*;
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#[derive(Debug, Clone)]
common: Rework volume API See the doc comments in `common/src/vol.rs` for more information on the API itself. The changes include: * Consistent `Err`/`Error` naming. * Types are named `...Error`. * `enum` variants are named `...Err`. * Rename `VolMap{2d, 3d}` -> `VolGrid{2d, 3d}`. This is in preparation to an upcoming change where a “map” in the game related sense will be added. * Add volume iterators. There are two types of them: * _Position_ iterators obtained from the trait `IntoPosIterator` using the method `fn pos_iter(self, lower_bound: Vec3<i32>, upper_bound: Vec3<i32>) -> ...` which returns an iterator over `Vec3<i32>`. * _Volume_ iterators obtained from the trait `IntoVolIterator` using the method `fn vol_iter(self, lower_bound: Vec3<i32>, upper_bound: Vec3<i32>) -> ...` which returns an iterator over `(Vec3<i32>, &Self::Vox)`. Those traits will usually be implemented by references to volume types (i.e. `impl IntoVolIterator<'a> for &'a T` where `T` is some type which usually implements several volume traits, such as `Chunk`). * _Position_ iterators iterate over the positions valid for that volume. * _Volume_ iterators do the same but return not only the position but also the voxel at that position, in each iteration. * Introduce trait `RectSizedVol` for the use case which we have with `Chonk`: A `Chonk` is sized only in x and y direction. * Introduce traits `RasterableVol`, `RectRasterableVol` * `RasterableVol` represents a volume that is compile-time sized and has its lower bound at `(0, 0, 0)`. The name `RasterableVol` was chosen because such a volume can be used with `VolGrid3d`. * `RectRasterableVol` represents a volume that is compile-time sized at least in x and y direction and has its lower bound at `(0, 0, z)`. There's no requirement on he lower bound or size in z direction. The name `RectRasterableVol` was chosen because such a volume can be used with `VolGrid2d`.
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pub enum DynaError {
OutOfBounds,
}
/// A volume with dimensions known only at the creation of the object.
// V = Voxel
// S = Size (replace when const generics are a thing)
// M = Metadata
#[derive(Debug, Serialize, Deserialize)]
pub struct Dyna<V, M, A: Access = ColumnAccess> {
vox: Vec<V>,
meta: M,
pub sz: Vec3<u32>,
_phantom: std::marker::PhantomData<A>,
}
impl<V: Clone, M: Clone, A: Access> Clone for Dyna<V, M, A> {
fn clone(&self) -> Self {
Self {
vox: self.vox.clone(),
meta: self.meta.clone(),
sz: self.sz,
_phantom: std::marker::PhantomData,
}
}
}
impl<V, M, A: Access> Dyna<V, M, A> {
/// Used to transform a voxel position in the volume into its corresponding
/// index in the voxel array.
#[inline(always)]
fn idx_for(sz: Vec3<u32>, pos: Vec3<i32>) -> Option<usize> {
if pos.map(|e| e >= 0).reduce_and() && pos.map2(sz, |e, lim| e < lim as i32).reduce_and() {
Some(A::idx(pos, sz))
} else {
None
}
}
}
impl<V, M, A: Access> BaseVol for Dyna<V, M, A> {
common: Rework volume API See the doc comments in `common/src/vol.rs` for more information on the API itself. The changes include: * Consistent `Err`/`Error` naming. * Types are named `...Error`. * `enum` variants are named `...Err`. * Rename `VolMap{2d, 3d}` -> `VolGrid{2d, 3d}`. This is in preparation to an upcoming change where a “map” in the game related sense will be added. * Add volume iterators. There are two types of them: * _Position_ iterators obtained from the trait `IntoPosIterator` using the method `fn pos_iter(self, lower_bound: Vec3<i32>, upper_bound: Vec3<i32>) -> ...` which returns an iterator over `Vec3<i32>`. * _Volume_ iterators obtained from the trait `IntoVolIterator` using the method `fn vol_iter(self, lower_bound: Vec3<i32>, upper_bound: Vec3<i32>) -> ...` which returns an iterator over `(Vec3<i32>, &Self::Vox)`. Those traits will usually be implemented by references to volume types (i.e. `impl IntoVolIterator<'a> for &'a T` where `T` is some type which usually implements several volume traits, such as `Chunk`). * _Position_ iterators iterate over the positions valid for that volume. * _Volume_ iterators do the same but return not only the position but also the voxel at that position, in each iteration. * Introduce trait `RectSizedVol` for the use case which we have with `Chonk`: A `Chonk` is sized only in x and y direction. * Introduce traits `RasterableVol`, `RectRasterableVol` * `RasterableVol` represents a volume that is compile-time sized and has its lower bound at `(0, 0, 0)`. The name `RasterableVol` was chosen because such a volume can be used with `VolGrid3d`. * `RectRasterableVol` represents a volume that is compile-time sized at least in x and y direction and has its lower bound at `(0, 0, z)`. There's no requirement on he lower bound or size in z direction. The name `RectRasterableVol` was chosen because such a volume can be used with `VolGrid2d`.
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type Error = DynaError;
type Vox = V;
}
impl<V, M, A: Access> SizedVol for Dyna<V, M, A> {
#[inline(always)]
fn lower_bound(&self) -> Vec3<i32> { Vec3::zero() }
common: Rework volume API See the doc comments in `common/src/vol.rs` for more information on the API itself. The changes include: * Consistent `Err`/`Error` naming. * Types are named `...Error`. * `enum` variants are named `...Err`. * Rename `VolMap{2d, 3d}` -> `VolGrid{2d, 3d}`. This is in preparation to an upcoming change where a “map” in the game related sense will be added. * Add volume iterators. There are two types of them: * _Position_ iterators obtained from the trait `IntoPosIterator` using the method `fn pos_iter(self, lower_bound: Vec3<i32>, upper_bound: Vec3<i32>) -> ...` which returns an iterator over `Vec3<i32>`. * _Volume_ iterators obtained from the trait `IntoVolIterator` using the method `fn vol_iter(self, lower_bound: Vec3<i32>, upper_bound: Vec3<i32>) -> ...` which returns an iterator over `(Vec3<i32>, &Self::Vox)`. Those traits will usually be implemented by references to volume types (i.e. `impl IntoVolIterator<'a> for &'a T` where `T` is some type which usually implements several volume traits, such as `Chunk`). * _Position_ iterators iterate over the positions valid for that volume. * _Volume_ iterators do the same but return not only the position but also the voxel at that position, in each iteration. * Introduce trait `RectSizedVol` for the use case which we have with `Chonk`: A `Chonk` is sized only in x and y direction. * Introduce traits `RasterableVol`, `RectRasterableVol` * `RasterableVol` represents a volume that is compile-time sized and has its lower bound at `(0, 0, 0)`. The name `RasterableVol` was chosen because such a volume can be used with `VolGrid3d`. * `RectRasterableVol` represents a volume that is compile-time sized at least in x and y direction and has its lower bound at `(0, 0, z)`. There's no requirement on he lower bound or size in z direction. The name `RectRasterableVol` was chosen because such a volume can be used with `VolGrid2d`.
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#[inline(always)]
fn upper_bound(&self) -> Vec3<i32> { self.sz.map(|e| e as i32) }
}
impl<'a, V, M, A: Access> SizedVol for &'a Dyna<V, M, A> {
#[inline(always)]
fn lower_bound(&self) -> Vec3<i32> { (*self).lower_bound() }
#[inline(always)]
fn upper_bound(&self) -> Vec3<i32> { (*self).upper_bound() }
}
impl<V, M, A: Access> ReadVol for Dyna<V, M, A> {
#[inline(always)]
common: Rework volume API See the doc comments in `common/src/vol.rs` for more information on the API itself. The changes include: * Consistent `Err`/`Error` naming. * Types are named `...Error`. * `enum` variants are named `...Err`. * Rename `VolMap{2d, 3d}` -> `VolGrid{2d, 3d}`. This is in preparation to an upcoming change where a “map” in the game related sense will be added. * Add volume iterators. There are two types of them: * _Position_ iterators obtained from the trait `IntoPosIterator` using the method `fn pos_iter(self, lower_bound: Vec3<i32>, upper_bound: Vec3<i32>) -> ...` which returns an iterator over `Vec3<i32>`. * _Volume_ iterators obtained from the trait `IntoVolIterator` using the method `fn vol_iter(self, lower_bound: Vec3<i32>, upper_bound: Vec3<i32>) -> ...` which returns an iterator over `(Vec3<i32>, &Self::Vox)`. Those traits will usually be implemented by references to volume types (i.e. `impl IntoVolIterator<'a> for &'a T` where `T` is some type which usually implements several volume traits, such as `Chunk`). * _Position_ iterators iterate over the positions valid for that volume. * _Volume_ iterators do the same but return not only the position but also the voxel at that position, in each iteration. * Introduce trait `RectSizedVol` for the use case which we have with `Chonk`: A `Chonk` is sized only in x and y direction. * Introduce traits `RasterableVol`, `RectRasterableVol` * `RasterableVol` represents a volume that is compile-time sized and has its lower bound at `(0, 0, 0)`. The name `RasterableVol` was chosen because such a volume can be used with `VolGrid3d`. * `RectRasterableVol` represents a volume that is compile-time sized at least in x and y direction and has its lower bound at `(0, 0, z)`. There's no requirement on he lower bound or size in z direction. The name `RectRasterableVol` was chosen because such a volume can be used with `VolGrid2d`.
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fn get(&self, pos: Vec3<i32>) -> Result<&V, DynaError> {
Self::idx_for(self.sz, pos)
.and_then(|idx| self.vox.get(idx))
common: Rework volume API See the doc comments in `common/src/vol.rs` for more information on the API itself. The changes include: * Consistent `Err`/`Error` naming. * Types are named `...Error`. * `enum` variants are named `...Err`. * Rename `VolMap{2d, 3d}` -> `VolGrid{2d, 3d}`. This is in preparation to an upcoming change where a “map” in the game related sense will be added. * Add volume iterators. There are two types of them: * _Position_ iterators obtained from the trait `IntoPosIterator` using the method `fn pos_iter(self, lower_bound: Vec3<i32>, upper_bound: Vec3<i32>) -> ...` which returns an iterator over `Vec3<i32>`. * _Volume_ iterators obtained from the trait `IntoVolIterator` using the method `fn vol_iter(self, lower_bound: Vec3<i32>, upper_bound: Vec3<i32>) -> ...` which returns an iterator over `(Vec3<i32>, &Self::Vox)`. Those traits will usually be implemented by references to volume types (i.e. `impl IntoVolIterator<'a> for &'a T` where `T` is some type which usually implements several volume traits, such as `Chunk`). * _Position_ iterators iterate over the positions valid for that volume. * _Volume_ iterators do the same but return not only the position but also the voxel at that position, in each iteration. * Introduce trait `RectSizedVol` for the use case which we have with `Chonk`: A `Chonk` is sized only in x and y direction. * Introduce traits `RasterableVol`, `RectRasterableVol` * `RasterableVol` represents a volume that is compile-time sized and has its lower bound at `(0, 0, 0)`. The name `RasterableVol` was chosen because such a volume can be used with `VolGrid3d`. * `RectRasterableVol` represents a volume that is compile-time sized at least in x and y direction and has its lower bound at `(0, 0, z)`. There's no requirement on he lower bound or size in z direction. The name `RectRasterableVol` was chosen because such a volume can be used with `VolGrid2d`.
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.ok_or(DynaError::OutOfBounds)
}
}
impl<V, M, A: Access> WriteVol for Dyna<V, M, A> {
#[inline(always)]
common: Rework volume API See the doc comments in `common/src/vol.rs` for more information on the API itself. The changes include: * Consistent `Err`/`Error` naming. * Types are named `...Error`. * `enum` variants are named `...Err`. * Rename `VolMap{2d, 3d}` -> `VolGrid{2d, 3d}`. This is in preparation to an upcoming change where a “map” in the game related sense will be added. * Add volume iterators. There are two types of them: * _Position_ iterators obtained from the trait `IntoPosIterator` using the method `fn pos_iter(self, lower_bound: Vec3<i32>, upper_bound: Vec3<i32>) -> ...` which returns an iterator over `Vec3<i32>`. * _Volume_ iterators obtained from the trait `IntoVolIterator` using the method `fn vol_iter(self, lower_bound: Vec3<i32>, upper_bound: Vec3<i32>) -> ...` which returns an iterator over `(Vec3<i32>, &Self::Vox)`. Those traits will usually be implemented by references to volume types (i.e. `impl IntoVolIterator<'a> for &'a T` where `T` is some type which usually implements several volume traits, such as `Chunk`). * _Position_ iterators iterate over the positions valid for that volume. * _Volume_ iterators do the same but return not only the position but also the voxel at that position, in each iteration. * Introduce trait `RectSizedVol` for the use case which we have with `Chonk`: A `Chonk` is sized only in x and y direction. * Introduce traits `RasterableVol`, `RectRasterableVol` * `RasterableVol` represents a volume that is compile-time sized and has its lower bound at `(0, 0, 0)`. The name `RasterableVol` was chosen because such a volume can be used with `VolGrid3d`. * `RectRasterableVol` represents a volume that is compile-time sized at least in x and y direction and has its lower bound at `(0, 0, z)`. There's no requirement on he lower bound or size in z direction. The name `RectRasterableVol` was chosen because such a volume can be used with `VolGrid2d`.
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fn set(&mut self, pos: Vec3<i32>, vox: Self::Vox) -> Result<(), DynaError> {
Self::idx_for(self.sz, pos)
.and_then(|idx| self.vox.get_mut(idx))
.map(|old_vox| *old_vox = vox)
common: Rework volume API See the doc comments in `common/src/vol.rs` for more information on the API itself. The changes include: * Consistent `Err`/`Error` naming. * Types are named `...Error`. * `enum` variants are named `...Err`. * Rename `VolMap{2d, 3d}` -> `VolGrid{2d, 3d}`. This is in preparation to an upcoming change where a “map” in the game related sense will be added. * Add volume iterators. There are two types of them: * _Position_ iterators obtained from the trait `IntoPosIterator` using the method `fn pos_iter(self, lower_bound: Vec3<i32>, upper_bound: Vec3<i32>) -> ...` which returns an iterator over `Vec3<i32>`. * _Volume_ iterators obtained from the trait `IntoVolIterator` using the method `fn vol_iter(self, lower_bound: Vec3<i32>, upper_bound: Vec3<i32>) -> ...` which returns an iterator over `(Vec3<i32>, &Self::Vox)`. Those traits will usually be implemented by references to volume types (i.e. `impl IntoVolIterator<'a> for &'a T` where `T` is some type which usually implements several volume traits, such as `Chunk`). * _Position_ iterators iterate over the positions valid for that volume. * _Volume_ iterators do the same but return not only the position but also the voxel at that position, in each iteration. * Introduce trait `RectSizedVol` for the use case which we have with `Chonk`: A `Chonk` is sized only in x and y direction. * Introduce traits `RasterableVol`, `RectRasterableVol` * `RasterableVol` represents a volume that is compile-time sized and has its lower bound at `(0, 0, 0)`. The name `RasterableVol` was chosen because such a volume can be used with `VolGrid3d`. * `RectRasterableVol` represents a volume that is compile-time sized at least in x and y direction and has its lower bound at `(0, 0, z)`. There's no requirement on he lower bound or size in z direction. The name `RectRasterableVol` was chosen because such a volume can be used with `VolGrid2d`.
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.ok_or(DynaError::OutOfBounds)
}
}
impl<'a, V, M, A: Access> IntoPosIterator for &'a Dyna<V, M, A> {
common: Rework volume API See the doc comments in `common/src/vol.rs` for more information on the API itself. The changes include: * Consistent `Err`/`Error` naming. * Types are named `...Error`. * `enum` variants are named `...Err`. * Rename `VolMap{2d, 3d}` -> `VolGrid{2d, 3d}`. This is in preparation to an upcoming change where a “map” in the game related sense will be added. * Add volume iterators. There are two types of them: * _Position_ iterators obtained from the trait `IntoPosIterator` using the method `fn pos_iter(self, lower_bound: Vec3<i32>, upper_bound: Vec3<i32>) -> ...` which returns an iterator over `Vec3<i32>`. * _Volume_ iterators obtained from the trait `IntoVolIterator` using the method `fn vol_iter(self, lower_bound: Vec3<i32>, upper_bound: Vec3<i32>) -> ...` which returns an iterator over `(Vec3<i32>, &Self::Vox)`. Those traits will usually be implemented by references to volume types (i.e. `impl IntoVolIterator<'a> for &'a T` where `T` is some type which usually implements several volume traits, such as `Chunk`). * _Position_ iterators iterate over the positions valid for that volume. * _Volume_ iterators do the same but return not only the position but also the voxel at that position, in each iteration. * Introduce trait `RectSizedVol` for the use case which we have with `Chonk`: A `Chonk` is sized only in x and y direction. * Introduce traits `RasterableVol`, `RectRasterableVol` * `RasterableVol` represents a volume that is compile-time sized and has its lower bound at `(0, 0, 0)`. The name `RasterableVol` was chosen because such a volume can be used with `VolGrid3d`. * `RectRasterableVol` represents a volume that is compile-time sized at least in x and y direction and has its lower bound at `(0, 0, z)`. There's no requirement on he lower bound or size in z direction. The name `RectRasterableVol` was chosen because such a volume can be used with `VolGrid2d`.
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type IntoIter = DefaultPosIterator;
fn pos_iter(self, lower_bound: Vec3<i32>, upper_bound: Vec3<i32>) -> Self::IntoIter {
Self::IntoIter::new(lower_bound, upper_bound)
}
}
impl<'a, V, M, A: Access> IntoVolIterator<'a> for &'a Dyna<V, M, A> {
type IntoIter = DefaultVolIterator<'a, Dyna<V, M, A>>;
common: Rework volume API See the doc comments in `common/src/vol.rs` for more information on the API itself. The changes include: * Consistent `Err`/`Error` naming. * Types are named `...Error`. * `enum` variants are named `...Err`. * Rename `VolMap{2d, 3d}` -> `VolGrid{2d, 3d}`. This is in preparation to an upcoming change where a “map” in the game related sense will be added. * Add volume iterators. There are two types of them: * _Position_ iterators obtained from the trait `IntoPosIterator` using the method `fn pos_iter(self, lower_bound: Vec3<i32>, upper_bound: Vec3<i32>) -> ...` which returns an iterator over `Vec3<i32>`. * _Volume_ iterators obtained from the trait `IntoVolIterator` using the method `fn vol_iter(self, lower_bound: Vec3<i32>, upper_bound: Vec3<i32>) -> ...` which returns an iterator over `(Vec3<i32>, &Self::Vox)`. Those traits will usually be implemented by references to volume types (i.e. `impl IntoVolIterator<'a> for &'a T` where `T` is some type which usually implements several volume traits, such as `Chunk`). * _Position_ iterators iterate over the positions valid for that volume. * _Volume_ iterators do the same but return not only the position but also the voxel at that position, in each iteration. * Introduce trait `RectSizedVol` for the use case which we have with `Chonk`: A `Chonk` is sized only in x and y direction. * Introduce traits `RasterableVol`, `RectRasterableVol` * `RasterableVol` represents a volume that is compile-time sized and has its lower bound at `(0, 0, 0)`. The name `RasterableVol` was chosen because such a volume can be used with `VolGrid3d`. * `RectRasterableVol` represents a volume that is compile-time sized at least in x and y direction and has its lower bound at `(0, 0, z)`. There's no requirement on he lower bound or size in z direction. The name `RectRasterableVol` was chosen because such a volume can be used with `VolGrid2d`.
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fn vol_iter(self, lower_bound: Vec3<i32>, upper_bound: Vec3<i32>) -> Self::IntoIter {
Self::IntoIter::new(self, lower_bound, upper_bound)
}
}
impl<V: Clone, M, A: Access> Dyna<V, M, A> {
/// Create a new `Dyna` with the provided dimensions and all voxels filled
/// with duplicates of the provided voxel.
pub fn filled(sz: Vec3<u32>, vox: V, meta: M) -> Self {
Self {
vox: vec![vox; sz.product() as usize],
meta,
sz,
_phantom: std::marker::PhantomData,
}
}
/// Get a reference to the internal metadata.
pub fn metadata(&self) -> &M { &self.meta }
/// Get a mutable reference to the internal metadata.
pub fn metadata_mut(&mut self) -> &mut M { &mut self.meta }
}
pub trait Access {
fn idx(pos: Vec3<i32>, sz: Vec3<u32>) -> usize;
}
pub struct ColumnAccess;
impl Access for ColumnAccess {
fn idx(pos: Vec3<i32>, sz: Vec3<u32>) -> usize {
(pos.x * sz.y as i32 * sz.z as i32 + pos.y * sz.z as i32 + pos.z) as usize
}
}