Remove some unneded visibility modifiers.

src/mat_macros.rs

@@ -18,7 +18,7 @@ macro_rules! mat_cast_impl(
   ($t: ident, $comp0: ident $(,$compN: ident)*) => (
     impl<Nin: NumCast + Clone, Nout: NumCast> MatCast<$t<Nout>> for $t<Nin> {
         #[inline]
-        pub fn from(m: $t<Nin>) -> $t<Nout> {
+        fn from(m: $t<Nin>) -> $t<Nout> {
             $t::new(NumCast::from(m.$comp0.clone()) $(, NumCast::from(m.$compN.clone()) )*)
         }
     }
@@ -29,7 +29,7 @@ macro_rules! add_impl(
   ($t: ident, $comp0: ident $(,$compN: ident)*) => (
     impl<N: Add<N, N>> Add<$t<N>, $t<N>> for $t<N> {
         #[inline]
-        pub fn add(&self, other: &$t<N>) -> $t<N> {
+        fn add(&self, other: &$t<N>) -> $t<N> {
             $t::new(self.$comp0 + other.$comp0 $(, self.$compN + other.$compN )*)
         }
     }
@@ -40,7 +40,7 @@ macro_rules! sub_impl(
   ($t: ident, $comp0: ident $(,$compN: ident)*) => (
     impl<N: Sub<N, N>> Sub<$t<N>, $t<N>> for $t<N> {
         #[inline]
-        pub fn sub(&self, other: &$t<N>) -> $t<N> {
+        fn sub(&self, other: &$t<N>) -> $t<N> {
             $t::new(self.$comp0 - other.$comp0 $(, self.$compN - other.$compN )*)
         }
     }
@@ -51,12 +51,12 @@ macro_rules! scalar_mul_impl(
   ($t: ident, $comp0: ident $(,$compN: ident)*) => (
     impl<N: Mul<N, N>> ScalarMul<N> for $t<N> {
         #[inline]
-        pub fn scalar_mul(&self, other: &N) -> $t<N> {
+        fn scalar_mul(&self, other: &N) -> $t<N> {
             $t::new(self.$comp0 * *other $(, self.$compN * *other )*)
         }
 
         #[inline]
-        pub fn scalar_mul_inplace(&mut self, other: &N) {
+        fn scalar_mul_inplace(&mut self, other: &N) {
             self.$comp0 = self.$comp0 * *other;
             $(self.$compN = self.$compN * *other; )*
         }
@@ -68,12 +68,12 @@ macro_rules! scalar_div_impl(
   ($t: ident, $comp0: ident $(,$compN: ident)*) => (
     impl<N: Div<N, N>> ScalarDiv<N> for $t<N> {
         #[inline]
-        pub fn scalar_div(&self, other: &N) -> $t<N> {
+        fn scalar_div(&self, other: &N) -> $t<N> {
             $t::new(self.$comp0 / *other $(, self.$compN / *other )*)
         }
 
         #[inline]
-        pub fn scalar_div_inplace(&mut self, other: &N) {
+        fn scalar_div_inplace(&mut self, other: &N) {
             self.$comp0 = self.$comp0 / *other;
             $(self.$compN = self.$compN / *other; )*
         }
@@ -85,12 +85,12 @@ macro_rules! scalar_add_impl(
   ($t: ident, $comp0: ident $(,$compN: ident)*) => (
     impl<N: Add<N, N>> ScalarAdd<N> for $t<N> {
         #[inline]
-        pub fn scalar_add(&self, other: &N) -> $t<N> {
+        fn scalar_add(&self, other: &N) -> $t<N> {
             $t::new(self.$comp0 + *other $(, self.$compN + *other )*)
         }
 
         #[inline]
-        pub fn scalar_add_inplace(&mut self, other: &N) {
+        fn scalar_add_inplace(&mut self, other: &N) {
             self.$comp0 = self.$comp0 + *other;
             $(self.$compN = self.$compN + *other; )*
         }
@@ -102,12 +102,12 @@ macro_rules! scalar_sub_impl(
   ($t: ident, $comp0: ident $(,$compN: ident)*) => (
     impl<N: Sub<N, N>> ScalarSub<N> for $t<N> {
         #[inline]
-        pub fn scalar_sub(&self, other: &N) -> $t<N> {
+        fn scalar_sub(&self, other: &N) -> $t<N> {
             $t::new(self.$comp0 - *other $(, self.$compN - *other )*)
         }
 
         #[inline]
-        pub fn scalar_sub_inplace(&mut self, other: &N) {
+        fn scalar_sub_inplace(&mut self, other: &N) {
             self.$comp0 = self.$comp0 - *other;
             $(self.$compN = self.$compN - *other; )*
         }
@@ -168,21 +168,21 @@ macro_rules! indexable_impl(
   ($t: ident, $dim: expr) => (
     impl<N: Clone> Indexable<(uint, uint), N> for $t<N> {
         #[inline]
-        pub fn at(&self, (i, j): (uint, uint)) -> N {
+        fn at(&self, (i, j): (uint, uint)) -> N {
             unsafe {
                 cast::transmute::<&$t<N>, &[N, ..$dim * $dim]>(self)[i * $dim + j].clone()
             }
         }
 
         #[inline]
-        pub fn set(&mut self, (i, j): (uint, uint), val: N) {
+        fn set(&mut self, (i, j): (uint, uint), val: N) {
             unsafe {
                 cast::transmute::<&mut $t<N>, &mut [N, ..$dim * $dim]>(self)[i * $dim + j] = val
             }
         }
 
         #[inline]
-        pub fn swap(&mut self, (i1, j1): (uint, uint), (i2, j2): (uint, uint)) {
+        fn swap(&mut self, (i1, j1): (uint, uint), (i2, j2): (uint, uint)) {
             unsafe {
               cast::transmute::<&mut $t<N>, &mut [N, ..$dim * $dim]>(self)
                 .swap(i1 * $dim + j1, i2 * $dim + j2)

src/traits/sample.rs

@@ -2,10 +2,10 @@
 /// approximate a sphere using support mapping functions.
 pub trait UniformSphereSample {
     /// Iterate throught the samples.
-    pub fn sample(&fn(&'static Self));
+    fn sample(&fn(&'static Self));
 
     /// Gets the list of all samples.
-    pub fn sample_list() -> ~[&'static Self] {
+    fn sample_list() -> ~[&'static Self] {
         let mut res = ~[];
 
         do UniformSphereSample::sample::<Self> |s| {

src/vec0_spec.rs

@@ -26,17 +26,17 @@ impl<N> vec::Vec0<N> {
 
 impl<N: Clone> Indexable<uint, N> for vec::Vec0<N> {
     #[inline]
-    pub fn at(&self, _: uint) -> N {
+    fn at(&self, _: uint) -> N {
         fail!("Cannot index a Vec0.")
     }
 
     #[inline]
-    pub fn set(&mut self, _: uint, _: N) {
+    fn set(&mut self, _: uint, _: N) {
 
     }
 
     #[inline]
-    pub fn swap(&mut self, _: uint, _: uint) {
+    fn swap(&mut self, _: uint, _: uint) {
 
     }
 }
@@ -72,10 +72,10 @@ impl<N> Dim for vec::Vec0<N> {
 
 impl<N: Clone + DivisionRing + Algebraic + ApproxEq<N>> Basis for vec::Vec0<N> {
     #[inline(always)]
-    pub fn canonical_basis(_: &fn(vec::Vec0<N>)) { }
+    fn canonical_basis(_: &fn(vec::Vec0<N>)) { }
 
     #[inline(always)]
-    pub fn orthonormal_subspace_basis(&self, _: &fn(vec::Vec0<N>)) { }
+    fn orthonormal_subspace_basis(&self, _: &fn(vec::Vec0<N>)) { }
 }
 
 impl<N: Clone + Add<N,N>> Add<vec::Vec0<N>, vec::Vec0<N>> for vec::Vec0<N> {

src/vec_macros.rs

@@ -95,7 +95,7 @@ macro_rules! vec_cast_impl(
     ($t: ident, $comp0: ident $(,$compN: ident)*) => (
         impl<Nin: NumCast + Clone, Nout: NumCast> VecCast<$t<Nout>> for $t<Nin> {
             #[inline]
-            pub fn from(v: $t<Nin>) -> $t<Nout> {
+            fn from(v: $t<Nin>) -> $t<Nout> {
                 $t::new(NumCast::from(v.$comp0.clone()) $(, NumCast::from(v.$compN.clone()))*)
             }
         }
@@ -106,21 +106,21 @@ macro_rules! indexable_impl(
     ($t: ident, $dim: expr) => (
         impl<N: Clone> Indexable<uint, N> for $t<N> {
             #[inline]
-            pub fn at(&self, i: uint) -> N {
+            fn at(&self, i: uint) -> N {
                 unsafe {
                     cast::transmute::<&$t<N>, &[N, ..$dim]>(self)[i].clone()
                 }
             }
 
             #[inline]
-            pub fn set(&mut self, i: uint, val: N) {
+            fn set(&mut self, i: uint, val: N) {
                 unsafe {
                     cast::transmute::<&mut $t<N>, &mut [N, ..$dim]>(self)[i] = val
                 }
             }
 
             #[inline]
-            pub fn swap(&mut self, i1: uint, i2: uint) {
+            fn swap(&mut self, i1: uint, i2: uint) {
                 unsafe {
                     cast::transmute::<&mut $t<N>, &mut [N, ..$dim]>(self).swap(i1, i2)
                 }
@@ -185,7 +185,7 @@ macro_rules! basis_impl(
     ($t: ident, $dim: expr) => (
         impl<N: Clone + DivisionRing + Algebraic + ApproxEq<N>> Basis for $t<N> {
             #[inline]
-            pub fn canonical_basis(f: &fn($t<N>)) {
+            fn canonical_basis(f: &fn($t<N>)) {
                 for i in range(0u, $dim) {
                     let mut basis_element : $t<N> = Zero::zero();
 
@@ -196,7 +196,7 @@ macro_rules! basis_impl(
             }
 
             #[inline]
-            pub fn orthonormal_subspace_basis(&self, f: &fn($t<N>)) {
+            fn orthonormal_subspace_basis(&self, f: &fn($t<N>)) {
                 // compute the basis of the orthogonal subspace using Gram-Schmidt
                 // orthogonalization algorithm
                 let mut basis: ~[$t<N>] = ~[];

src/vec_spec.rs

@@ -144,16 +144,16 @@ static SAMPLES_3_F64: [Vec3<f64>, ..42] = [
 
 impl UniformSphereSample for Vec2<f64> {
     #[inline(always)]
-    pub fn sample(f: &fn(&'static Vec2<f64>)) {
-        for sample in SAMPLES_2_F64.iter() {
-            f(sample)
-        }
-    }
+    fn sample(f: &fn(&'static Vec2<f64>)) {
+         for sample in SAMPLES_2_F64.iter() {
+             f(sample)
+         }
+     }
 }
 
 impl UniformSphereSample for Vec3<f64> {
     #[inline(always)]
-    pub fn sample(f: &fn(&'static Vec3<f64>)) {
+    fn sample(f: &fn(&'static Vec3<f64>)) {
         for sample in SAMPLES_3_F64.iter() {
             f(sample)
         }