nalgebra/src/adaptors/transform.rs

use std::num::{One, Zero};
use std::rand::{Rand, Rng, RngUtil};
use std::cmp::ApproxEq;
use traits::dim::Dim;
use traits::inv::Inv;
use traits::rotation::{Rotation, Rotate, Rotatable};
use traits::translation::{Translation, Translate, Translatable};
use traits::transformation;
use traits::transformation::{Transformation, Transformable};
use traits::rlmul::{RMul, LMul};
use traits::homogeneous::{ToHomogeneous, FromHomogeneous};
use traits::column::Column;

#[deriving(Eq, ToStr)]
pub struct Transform<M, V>
{
  priv submat   : M,
  priv subtrans : V
}

impl<M, V> Transform<M, V>
{
  #[inline]
  pub fn new(mat: M, trans: V) -> Transform<M, V>
  { Transform { submat: mat, subtrans: trans } }
}

impl<M:Dim, V> Dim for Transform<M, V>
{
  #[inline]
  fn dim() -> uint
  { Dim::dim::<M>() }
}

impl<M: One, V: Zero> One for Transform<M, V>
{
  #[inline]
  fn one() -> Transform<M, V>
  { Transform { submat: One::one(), subtrans: Zero::zero() } }
}

impl<M: Zero, V: Zero> Zero for Transform<M, V>
{
  #[inline]
  fn zero() -> Transform<M, V>
  { Transform { submat: Zero::zero(), subtrans: Zero::zero() } }

  #[inline]
  fn is_zero(&self) -> bool
  { self.submat.is_zero() && self.subtrans.is_zero() }
}

impl<M: RMul<V> + Mul<M, M>, V: Add<V, V>>
Mul<Transform<M, V>, Transform<M, V>> for Transform<M, V>
{
  #[inline]
  fn mul(&self, other: &Transform<M, V>) -> Transform<M, V>
  {
    Transform { submat: self.submat * other.submat,
                subtrans: self.subtrans + self.submat.rmul(&other.subtrans) }
  }
}

impl<M: RMul<V>, V: Add<V, V>> RMul<V> for Transform<M, V>
{
  #[inline]
  fn rmul(&self, other: &V) -> V
  { self.submat.rmul(other) + self.subtrans }
}

impl<M: LMul<V>, V: Add<V, V>> LMul<V> for Transform<M, V>
{
  #[inline]
  fn lmul(&self, other: &V) -> V
  { self.submat.lmul(other) + self.subtrans }
}

impl<M, V: Translation<V>> Translation<V> for Transform<M, V>
{
  #[inline]
  fn translation(&self) -> V
  { self.subtrans.translation() }

  #[inline]
  fn inv_translation(&self) -> V
  { self.subtrans.inv_translation() }

  #[inline]
  fn translate_by(&mut self, t: &V)
  { self.subtrans.translate_by(t) }
}

impl<M: Translate<V>, V, _0> Translate<V> for Transform<M, _0>
{
  #[inline]
  fn translate(&self, v: &V) -> V
  { self.submat.translate(v) }

  #[inline]
  fn inv_translate(&self, v: &V) -> V
  { self.submat.inv_translate(v) }
}

impl<M: Copy, V: Translatable<V, Res>, Res: Translation<V>>
Translatable<V, Transform<M, Res>> for Transform<M, V>
{
  #[inline]
  fn translated(&self, t: &V) -> Transform<M, Res>
  { Transform::new(copy self.submat, self.subtrans.translated(t)) }
}

impl<M: Rotation<AV> + RMul<V> + One,
     V,
     AV>
Rotation<AV> for Transform<M, V>
{
  #[inline]
  fn rotation(&self) -> AV
  { self.submat.rotation() }

  #[inline]
  fn inv_rotation(&self) -> AV
  { self.submat.inv_rotation() }


  #[inline]
  fn rotate_by(&mut self, rot: &AV)
  {
    // FIXME: this does not seem opitmal
    let mut delta = One::one::<M>();
    delta.rotate_by(rot);
    self.submat.rotate_by(rot);
    self.subtrans = delta.rmul(&self.subtrans);
  }
}

impl<M: Rotate<V>, V, _0> Rotate<V> for Transform<M, _0>
{
  #[inline]
  fn rotate(&self, v: &V) -> V
  { self.submat.rotate(v) }

  #[inline]
  fn inv_rotate(&self, v: &V) -> V
  { self.submat.inv_rotate(v) }
}

impl<M: Rotatable<AV, Res> + One,
     Res: Rotation<AV> + RMul<V>,
     V,
     AV>
Rotatable<AV, Transform<Res, V>> for Transform<M, V>
{
  #[inline]
  fn rotated(&self, rot: &AV) -> Transform<Res, V>
  {
    // FIXME: this does not seem opitmal
    let delta = One::one::<M>().rotated(rot);

    Transform::new(self.submat.rotated(rot), delta.rmul(&self.subtrans))
  }
}

impl<M: Inv + RMul<V> + Mul<M, M> + Copy, V: Add<V, V> + Neg<V> + Copy>
Transformation<Transform<M, V>> for Transform<M, V>
{
  fn transformation(&self) -> Transform<M, V>
  { copy *self }

  fn inv_transformation(&self) -> Transform<M, V>
  { self.inverse() }

  fn transform_by(&mut self, other: &Transform<M, V>)
  { *self = other * *self; }
}

impl<M: transformation::Transform<V>, V: Add<V, V> + Sub<V, V>>
transformation::Transform<V> for Transform<M, V>
{
  #[inline]
  fn transform_vec(&self, v: &V) -> V
  { self.submat.transform_vec(v) + self.subtrans }

  #[inline]
  fn inv_transform(&self, v: &V) -> V
  { self.submat.inv_transform(&(v - self.subtrans)) }
}


// FIXME: constraints are too restrictive.
// Should be: Transformable<M2, // Transform<Res, V> ...
impl<M: RMul<V> + Mul<M, M>, V: Add<V, V>>
Transformable<Transform<M, V>, Transform<M, V>> for Transform<M, V>
{
  fn transformed(&self, t: &Transform<M, V>) -> Transform<M, V>
  { t * *self }
}

impl<M: Copy + Inv + RMul<V>, V: Copy + Neg<V>>
Inv for Transform<M, V>
{
  #[inline]
  fn invert(&mut self)
  {
    self.submat.invert();
    self.subtrans = self.submat.rmul(&-self.subtrans);
  }

  #[inline]
  fn inverse(&self) -> Transform<M, V>
  {
    let mut res = copy *self;

    res.invert();

    res
  }
}

impl<M: ToHomogeneous<M2>, M2: Dim + Column<V>, V: Copy>
ToHomogeneous<M2> for Transform<M, V>
{
  fn to_homogeneous(&self) -> M2
  {
    let mut res = self.submat.to_homogeneous();

    // copy the translation
    let dim = Dim::dim::<M2>();

    res.set_column(dim - 1, copy self.subtrans);

    res
  }
}

impl<M: Column<V> + Dim, M2: FromHomogeneous<M>, V: Copy>
FromHomogeneous<M> for Transform<M2, V>
{
  fn from_homogeneous(m: &M) -> Transform<M2, V>
  {
    Transform::new(FromHomogeneous::from_homogeneous(m),
                   m.column(Dim::dim::<M>() - 1))
  }
}

impl<N: ApproxEq<N>, M:ApproxEq<N>, V:ApproxEq<N>>
ApproxEq<N> for Transform<M, V>
{
  #[inline]
  fn approx_epsilon() -> N
  { ApproxEq::approx_epsilon::<N, N>() }

  #[inline]
  fn approx_eq(&self, other: &Transform<M, V>) -> bool
  {
    self.submat.approx_eq(&other.submat) &&
    self.subtrans.approx_eq(&other.subtrans)
  }

  #[inline]
  fn approx_eq_eps(&self, other: &Transform<M, V>, epsilon: &N) -> bool
  {
    self.submat.approx_eq_eps(&other.submat, epsilon) &&
    self.subtrans.approx_eq_eps(&other.subtrans, epsilon)
  }
}

impl<M: Rand, V: Rand> Rand for Transform<M, V>
{
  #[inline]
  fn rand<R: Rng>(rng: &mut R) -> Transform<M, V>
  { Transform::new(rng.gen(), rng.gen()) }
}
Adapted for the compiler 'incomming' branch. 2013-06-02 02:50:00 +08:00			`use std::num::{One, Zero};`
			`use std::rand::{Rand, Rng, RngUtil};`
			`use std::cmp::ApproxEq;`
Add matrix adaptors and addapted to the now rust features. 2013-05-17 05:30:39 +08:00			`use traits::dim::Dim;`
			`use traits::inv::Inv;`
Refactor vec{1, 2, 3} implemenation + add some useful traits. 2013-06-29 05:03:40 +08:00			`use traits::rotation::{Rotation, Rotate, Rotatable};`
			`use traits::translation::{Translation, Translate, Translatable};`
			`use traits::transformation;`
Refined traits for rotation/translation/transformation. 2013-06-28 00:16:07 +08:00			`use traits::transformation::{Transformation, Transformable};`
workarounds -> traits. All ICE are now compiler errors. 2013-06-16 04:16:44 +08:00			`use traits::rlmul::{RMul, LMul};`
Add Column + Homogeneous + Indexable traits. Column: to access a matrix column. Homogeneous: to convert a matrix/vector from/to homogenous coordinates. Indexable: to access a matrix/vector element using indices. 2013-06-29 19:40:31 +08:00			`use traits::homogeneous::{ToHomogeneous, FromHomogeneous};`
			`use traits::column::Column;`
Add matrix adaptors and addapted to the now rust features. 2013-05-17 05:30:39 +08:00
Use automatic ToStr deriving for everything. 2013-05-26 02:30:03 +08:00			`#[deriving(Eq, ToStr)]`
Add matrix adaptors and addapted to the now rust features. 2013-05-17 05:30:39 +08:00			`pub struct Transform<M, V>`
			`{`
Add delta-transformation implementations. 2013-05-20 03:45:30 +08:00			`priv submat : M,`
			`priv subtrans : V`
Add matrix adaptors and addapted to the now rust features. 2013-05-17 05:30:39 +08:00			`}`

Removed a lot of Copy + made Rotation and Translation more flexible. 2013-06-27 04:56:30 +08:00			`impl<M, V> Transform<M, V>`
Add inlining pragmas. 2013-06-14 00:48:28 +08:00			`{`
#[inline(always)] -> #[inline] 2013-06-28 01:40:37 +08:00			`#[inline]`
Removed some useless references. 2013-06-25 05:38:52 +08:00			`pub fn new(mat: M, trans: V) -> Transform<M, V>`
			`{ Transform { submat: mat, subtrans: trans } }`
Add inlining pragmas. 2013-06-14 00:48:28 +08:00			`}`
Add matrix adaptors and addapted to the now rust features. 2013-05-17 05:30:39 +08:00
			`impl<M:Dim, V> Dim for Transform<M, V>`
			`{`
#[inline(always)] -> #[inline] 2013-06-28 01:40:37 +08:00			`#[inline]`
Add matrix adaptors and addapted to the now rust features. 2013-05-17 05:30:39 +08:00			`fn dim() -> uint`
			`{ Dim::dim::<M>() }`
			`}`

Removed a lot of Copy + made Rotation and Translation more flexible. 2013-06-27 04:56:30 +08:00			`impl<M: One, V: Zero> One for Transform<M, V>`
Add matrix adaptors and addapted to the now rust features. 2013-05-17 05:30:39 +08:00			`{`
#[inline(always)] -> #[inline] 2013-06-28 01:40:37 +08:00			`#[inline]`
Add matrix adaptors and addapted to the now rust features. 2013-05-17 05:30:39 +08:00			`fn one() -> Transform<M, V>`
			`{ Transform { submat: One::one(), subtrans: Zero::zero() } }`
			`}`

Removed a lot of Copy + made Rotation and Translation more flexible. 2013-06-27 04:56:30 +08:00			`impl<M: Zero, V: Zero> Zero for Transform<M, V>`
Add matrix adaptors and addapted to the now rust features. 2013-05-17 05:30:39 +08:00			`{`
#[inline(always)] -> #[inline] 2013-06-28 01:40:37 +08:00			`#[inline]`
Add matrix adaptors and addapted to the now rust features. 2013-05-17 05:30:39 +08:00			`fn zero() -> Transform<M, V>`
			`{ Transform { submat: Zero::zero(), subtrans: Zero::zero() } }`

#[inline(always)] -> #[inline] 2013-06-28 01:40:37 +08:00			`#[inline]`
Add matrix adaptors and addapted to the now rust features. 2013-05-17 05:30:39 +08:00			`fn is_zero(&self) -> bool`
			`{ self.submat.is_zero() && self.subtrans.is_zero() }`
			`}`

Removed a lot of Copy + made Rotation and Translation more flexible. 2013-06-27 04:56:30 +08:00			`impl<M: RMul<V> + Mul<M, M>, V: Add<V, V>>`
Add matrix adaptors and addapted to the now rust features. 2013-05-17 05:30:39 +08:00			`Mul<Transform<M, V>, Transform<M, V>> for Transform<M, V>`
			`{`
#[inline(always)] -> #[inline] 2013-06-28 01:40:37 +08:00			`#[inline]`
Add matrix adaptors and addapted to the now rust features. 2013-05-17 05:30:39 +08:00			`fn mul(&self, other: &Transform<M, V>) -> Transform<M, V>`
			`{`
			`Transform { submat: self.submat * other.submat,`
			`subtrans: self.subtrans + self.submat.rmul(&other.subtrans) }`
			`}`
			`}`

Add DeltaTransformVector tait and fix transformation. 2013-06-13 22:44:15 +08:00			`impl<M: RMul<V>, V: Add<V, V>> RMul<V> for Transform<M, V>`
Add matrix adaptors and addapted to the now rust features. 2013-05-17 05:30:39 +08:00			`{`
#[inline(always)] -> #[inline] 2013-06-28 01:40:37 +08:00			`#[inline]`
Add matrix adaptors and addapted to the now rust features. 2013-05-17 05:30:39 +08:00			`fn rmul(&self, other: &V) -> V`
Add DeltaTransformVector tait and fix transformation. 2013-06-13 22:44:15 +08:00			`{ self.submat.rmul(other) + self.subtrans }`
Add matrix adaptors and addapted to the now rust features. 2013-05-17 05:30:39 +08:00			`}`

Add DeltaTransformVector tait and fix transformation. 2013-06-13 22:44:15 +08:00			`impl<M: LMul<V>, V: Add<V, V>> LMul<V> for Transform<M, V>`
Add matrix adaptors and addapted to the now rust features. 2013-05-17 05:30:39 +08:00			`{`
#[inline(always)] -> #[inline] 2013-06-28 01:40:37 +08:00			`#[inline]`
Add matrix adaptors and addapted to the now rust features. 2013-05-17 05:30:39 +08:00			`fn lmul(&self, other: &V) -> V`
Add DeltaTransformVector tait and fix transformation. 2013-06-13 22:44:15 +08:00			`{ self.submat.lmul(other) + self.subtrans }`
Add matrix adaptors and addapted to the now rust features. 2013-05-17 05:30:39 +08:00			`}`

Refined traits for rotation/translation/transformation. 2013-06-28 00:16:07 +08:00			`impl<M, V: Translation<V>> Translation<V> for Transform<M, V>`
Add rotation and translation traits. 2013-05-19 19:44:27 +08:00			`{`
#[inline(always)] -> #[inline] 2013-06-28 01:40:37 +08:00			`#[inline]`
Add rotation and translation traits. 2013-05-19 19:44:27 +08:00			`fn translation(&self) -> V`
			`{ self.subtrans.translation() }`

#[inline(always)] -> #[inline] 2013-06-28 01:40:37 +08:00			`#[inline]`
Refactor vec{1, 2, 3} implemenation + add some useful traits. 2013-06-29 05:03:40 +08:00			`fn inv_translation(&self) -> V`
			`{ self.subtrans.inv_translation() }`

			`#[inline]`
			`fn translate_by(&mut self, t: &V)`
			`{ self.subtrans.translate_by(t) }`
			`}`

			`impl<M: Translate<V>, V, _0> Translate<V> for Transform<M, _0>`
			`{`
			`#[inline]`
			`fn translate(&self, v: &V) -> V`
			`{ self.submat.translate(v) }`

			`#[inline]`
			`fn inv_translate(&self, v: &V) -> V`
			`{ self.submat.inv_translate(v) }`
Add rotation and translation traits. 2013-05-19 19:44:27 +08:00			`}`

Refined traits for rotation/translation/transformation. 2013-06-28 00:16:07 +08:00			`impl<M: Copy, V: Translatable<V, Res>, Res: Translation<V>>`
			`Translatable<V, Transform<M, Res>> for Transform<M, V>`
			`{`
#[inline(always)] -> #[inline] 2013-06-28 01:40:37 +08:00			`#[inline]`
Refined traits for rotation/translation/transformation. 2013-06-28 00:16:07 +08:00			`fn translated(&self, t: &V) -> Transform<M, Res>`
			`{ Transform::new(copy self.submat, self.subtrans.translated(t)) }`
			`}`

			`impl<M: Rotation<AV> + RMul<V> + One,`
Removed a lot of Copy + made Rotation and Translation more flexible. 2013-06-27 04:56:30 +08:00			`V,`
			`AV>`
Refined traits for rotation/translation/transformation. 2013-06-28 00:16:07 +08:00			`Rotation<AV> for Transform<M, V>`
Add rotation and translation traits. 2013-05-19 19:44:27 +08:00			`{`
#[inline(always)] -> #[inline] 2013-06-28 01:40:37 +08:00			`#[inline]`
Relaxed type constraints for transform rotation. 2013-06-09 00:33:49 +08:00			`fn rotation(&self) -> AV`
Add rotation and translation traits. 2013-05-19 19:44:27 +08:00			`{ self.submat.rotation() }`

#[inline(always)] -> #[inline] 2013-06-28 01:40:37 +08:00			`#[inline]`
Refactor vec{1, 2, 3} implemenation + add some useful traits. 2013-06-29 05:03:40 +08:00			`fn inv_rotation(&self) -> AV`
			`{ self.submat.inv_rotation() }`


			`#[inline]`
			`fn rotate_by(&mut self, rot: &AV)`
Fix rotation for transform adaptor. 2013-05-19 23:01:38 +08:00			`{`
			`// FIXME: this does not seem opitmal`
Refined traits for rotation/translation/transformation. 2013-06-28 00:16:07 +08:00			`let mut delta = One::one::<M>();`
Refactor vec{1, 2, 3} implemenation + add some useful traits. 2013-06-29 05:03:40 +08:00			`delta.rotate_by(rot);`
			`self.submat.rotate_by(rot);`
Refined traits for rotation/translation/transformation. 2013-06-28 00:16:07 +08:00			`self.subtrans = delta.rmul(&self.subtrans);`
Fix rotation for transform adaptor. 2013-05-19 23:01:38 +08:00			`}`
Refined traits for rotation/translation/transformation. 2013-06-28 00:16:07 +08:00			`}`
Add rotation and translation traits. 2013-05-19 19:44:27 +08:00
Refactor vec{1, 2, 3} implemenation + add some useful traits. 2013-06-29 05:03:40 +08:00			`impl<M: Rotate<V>, V, _0> Rotate<V> for Transform<M, _0>`
			`{`
			`#[inline]`
			`fn rotate(&self, v: &V) -> V`
			`{ self.submat.rotate(v) }`

			`#[inline]`
			`fn inv_rotate(&self, v: &V) -> V`
			`{ self.submat.inv_rotate(v) }`
			`}`

Refined traits for rotation/translation/transformation. 2013-06-28 00:16:07 +08:00			`impl<M: Rotatable<AV, Res> + One,`
			`Res: Rotation<AV> + RMul<V>,`
			`V,`
			`AV>`
			`Rotatable<AV, Transform<Res, V>> for Transform<M, V>`
			`{`
#[inline(always)] -> #[inline] 2013-06-28 01:40:37 +08:00			`#[inline]`
Refined traits for rotation/translation/transformation. 2013-06-28 00:16:07 +08:00			`fn rotated(&self, rot: &AV) -> Transform<Res, V>`
Fix rotation for transform adaptor. 2013-05-19 23:01:38 +08:00			`{`
			`// FIXME: this does not seem opitmal`
			`let delta = One::one::<M>().rotated(rot);`
Refined traits for rotation/translation/transformation. 2013-06-28 00:16:07 +08:00
			`Transform::new(self.submat.rotated(rot), delta.rmul(&self.subtrans))`
Fix rotation for transform adaptor. 2013-05-19 23:01:38 +08:00			`}`
Add rotation and translation traits. 2013-05-19 19:44:27 +08:00			`}`

Refactor vec{1, 2, 3} implemenation + add some useful traits. 2013-06-29 05:03:40 +08:00			`impl<M: Inv + RMul<V> + Mul<M, M> + Copy, V: Add<V, V> + Neg<V> + Copy>`
			`Transformation<Transform<M, V>> for Transform<M, V>`
Refined traits for rotation/translation/transformation. 2013-06-28 00:16:07 +08:00			`{`
			`fn transformation(&self) -> Transform<M, V>`
			`{ copy *self }`

Refactor vec{1, 2, 3} implemenation + add some useful traits. 2013-06-29 05:03:40 +08:00			`fn inv_transformation(&self) -> Transform<M, V>`
			`{ self.inverse() }`

Refined traits for rotation/translation/transformation. 2013-06-28 00:16:07 +08:00			`fn transform_by(&mut self, other: &Transform<M, V>)`
			`{ self = other *self; }`
			`}`

Refactor vec{1, 2, 3} implemenation + add some useful traits. 2013-06-29 05:03:40 +08:00			`impl<M: transformation::Transform<V>, V: Add<V, V> + Sub<V, V>>`
			`transformation::Transform<V> for Transform<M, V>`
			`{`
			`#[inline]`
			`fn transform_vec(&self, v: &V) -> V`
			`{ self.submat.transform_vec(v) + self.subtrans }`

			`#[inline]`
			`fn inv_transform(&self, v: &V) -> V`
			`{ self.submat.inv_transform(&(v - self.subtrans)) }`
			`}`


Refined traits for rotation/translation/transformation. 2013-06-28 00:16:07 +08:00			`// FIXME: constraints are too restrictive.`
			`// Should be: Transformable<M2, // Transform<Res, V> ...`
			`impl<M: RMul<V> + Mul<M, M>, V: Add<V, V>>`
			`Transformable<Transform<M, V>, Transform<M, V>> for Transform<M, V>`
			`{`
			`fn transformed(&self, t: &Transform<M, V>) -> Transform<M, V>`
			`{ t * *self }`
			`}`

Refactor vec{1, 2, 3} implemenation + add some useful traits. 2013-06-29 05:03:40 +08:00			`impl<M: Copy + Inv + RMul<V>, V: Copy + Neg<V>>`
Add matrix adaptors and addapted to the now rust features. 2013-05-17 05:30:39 +08:00			`Inv for Transform<M, V>`
			`{`
#[inline(always)] -> #[inline] 2013-06-28 01:40:37 +08:00			`#[inline]`
Add matrix adaptors and addapted to the now rust features. 2013-05-17 05:30:39 +08:00			`fn invert(&mut self)`
			`{`
			`self.submat.invert();`
			`self.subtrans = self.submat.rmul(&-self.subtrans);`
			`}`

#[inline(always)] -> #[inline] 2013-06-28 01:40:37 +08:00			`#[inline]`
Add matrix adaptors and addapted to the now rust features. 2013-05-17 05:30:39 +08:00			`fn inverse(&self) -> Transform<M, V>`
			`{`
Fix to make it work with the new compiler. 2013-06-19 18:26:59 +08:00			`let mut res = copy *self;`
Add matrix adaptors and addapted to the now rust features. 2013-05-17 05:30:39 +08:00
			`res.invert();`

			`res`
			`}`
			`}`

Add Column + Homogeneous + Indexable traits. Column: to access a matrix column. Homogeneous: to convert a matrix/vector from/to homogenous coordinates. Indexable: to access a matrix/vector element using indices. 2013-06-29 19:40:31 +08:00			`impl<M: ToHomogeneous<M2>, M2: Dim + Column<V>, V: Copy>`
			`ToHomogeneous<M2> for Transform<M, V>`
			`{`
			`fn to_homogeneous(&self) -> M2`
			`{`
			`let mut res = self.submat.to_homogeneous();`

			`// copy the translation`
			`let dim = Dim::dim::<M2>();`

			`res.set_column(dim - 1, copy self.subtrans);`

			`res`
			`}`
			`}`

			`impl<M: Column<V> + Dim, M2: FromHomogeneous<M>, V: Copy>`
			`FromHomogeneous<M> for Transform<M2, V>`
			`{`
			`fn from_homogeneous(m: &M) -> Transform<M2, V>`
			`{`
			`Transform::new(FromHomogeneous::from_homogeneous(m),`
			`m.column(Dim::dim::<M>() - 1))`
			`}`
			`}`

Used a better type parametter name. 2013-06-10 07:36:47 +08:00			`impl<N: ApproxEq<N>, M:ApproxEq<N>, V:ApproxEq<N>>`
			`ApproxEq<N> for Transform<M, V>`
Add fuzzy_eq implementation for everything. 2013-05-17 06:23:25 +08:00			`{`
#[inline(always)] -> #[inline] 2013-06-28 01:40:37 +08:00			`#[inline]`
Used a better type parametter name. 2013-06-10 07:36:47 +08:00			`fn approx_epsilon() -> N`
			`{ ApproxEq::approx_epsilon::<N, N>() }`
Add comments and adapted to new rust syntax. 2013-05-21 23:25:01 +08:00
#[inline(always)] -> #[inline] 2013-06-28 01:40:37 +08:00			`#[inline]`
Add comments and adapted to new rust syntax. 2013-05-21 23:25:01 +08:00			`fn approx_eq(&self, other: &Transform<M, V>) -> bool`
Add fuzzy_eq implementation for everything. 2013-05-17 06:23:25 +08:00			`{`
Add comments and adapted to new rust syntax. 2013-05-21 23:25:01 +08:00			`self.submat.approx_eq(&other.submat) &&`
			`self.subtrans.approx_eq(&other.subtrans)`
Add fuzzy_eq implementation for everything. 2013-05-17 06:23:25 +08:00			`}`

#[inline(always)] -> #[inline] 2013-06-28 01:40:37 +08:00			`#[inline]`
Used a better type parametter name. 2013-06-10 07:36:47 +08:00			`fn approx_eq_eps(&self, other: &Transform<M, V>, epsilon: &N) -> bool`
Add fuzzy_eq implementation for everything. 2013-05-17 06:23:25 +08:00			`{`
Add comments and adapted to new rust syntax. 2013-05-21 23:25:01 +08:00			`self.submat.approx_eq_eps(&other.submat, epsilon) &&`
			`self.subtrans.approx_eq_eps(&other.subtrans, epsilon)`
Add fuzzy_eq implementation for everything. 2013-05-17 06:23:25 +08:00			`}`
			`}`

Removed a lot of Copy + made Rotation and Translation more flexible. 2013-06-27 04:56:30 +08:00			`impl<M: Rand, V: Rand> Rand for Transform<M, V>`
Add Rand implementation for everything. 2013-05-18 08:11:59 +08:00			`{`
#[inline(always)] -> #[inline] 2013-06-28 01:40:37 +08:00			`#[inline]`
Add comments and adapted to new rust syntax. 2013-05-21 23:25:01 +08:00			`fn rand<R: Rng>(rng: &mut R) -> Transform<M, V>`
Removed some useless references. 2013-06-25 05:38:52 +08:00			`{ Transform::new(rng.gen(), rng.gen()) }`
Add Rand implementation for everything. 2013-05-18 08:11:59 +08:00			`}`