De-ambiguat AsRef/AsMut/Into implementations.

Addresses comments of #225.

src/core/conversion.rs

@@ -1,11 +1,15 @@
 use std::ptr;
 use std::mem;
 use std::convert::{From, Into, AsRef, AsMut};
-use typenum::{self, Cmp, Equal};
 use alga::general::{SubsetOf, SupersetOf};
 
 use core::{Scalar, Matrix};
-use core::dimension::{Dim, DimName, DimNameMul, DimNameProd, U1, U2, U3, U4, U5, U6};
+use core::dimension::{Dim,
+    U1,  U2,  U3,  U4,
+    U5,  U6,  U7,  U8,
+    U9,  U10, U11, U12,
+    U13, U14, U15, U16
+};
 use core::constraint::{ShapeConstraint, SameNumberOfRows, SameNumberOfColumns};
 use core::storage::{Storage, StorageMut, OwnedStorage};
 use core::iter::{MatrixIter, MatrixIterMut};
@@ -85,14 +89,11 @@ impl<'a, N: Scalar, R: Dim, C: Dim, S: StorageMut<N, R, C>> IntoIterator for &'a
 
 
 macro_rules! impl_from_into_asref_1D(
-    ($($Dim: ident => $SZ: expr);* $(;)*) => {$(
-        impl<N, R, C, S> From<[N; $SZ]> for Matrix<N, R, C, S>
+    ($(($NRows: ident, $NCols: ident) => $SZ: expr);* $(;)*) => {$(
+        impl<N, S> From<[N; $SZ]> for Matrix<N, $NRows, $NCols, S>
         where N: Scalar,
-              R: DimName + DimNameMul<C>,
-              C: DimName,
-              S: OwnedStorage<N, R, C>,
-              S::Alloc: OwnedAllocator<N, R, C, S>,
-              <DimNameProd<R, C> as DimName>::Value: Cmp<typenum::$Dim, Output = Equal> {
+              S: OwnedStorage<N, $NRows, $NCols>,
+              S::Alloc: OwnedAllocator<N, $NRows, $NCols, S> {
             #[inline]
             fn from(arr: [N; $SZ]) -> Self {
                 unsafe {
@@ -104,13 +105,10 @@ macro_rules! impl_from_into_asref_1D(
             }
         }
 
-        impl<N, R, C, S> Into<[N; $SZ]> for Matrix<N, R, C, S>
+        impl<N, S> Into<[N; $SZ]> for Matrix<N, $NRows, $NCols, S>
         where N: Scalar,
-              R: DimName + DimNameMul<C>,
-              C: DimName,
-              S: OwnedStorage<N, R, C>,
-              S::Alloc: OwnedAllocator<N, R, C, S>,
-              <DimNameProd<R, C> as DimName>::Value: Cmp<typenum::$Dim, Output = Equal> {
+              S: OwnedStorage<N, $NRows, $NCols>,
+              S::Alloc: OwnedAllocator<N, $NRows, $NCols, S> {
             #[inline]
             fn into(self) -> [N; $SZ] {
                 unsafe {
@@ -122,13 +120,10 @@ macro_rules! impl_from_into_asref_1D(
             }
         }
 
-        impl<N, R, C, S> AsRef<[N; $SZ]> for Matrix<N, R, C, S>
+        impl<N, S> AsRef<[N; $SZ]> for Matrix<N, $NRows, $NCols, S>
         where N: Scalar,
-              R: DimName + DimNameMul<C>,
-              C: DimName,
-              S: OwnedStorage<N, R, C>,
-              S::Alloc: OwnedAllocator<N, R, C, S>,
-              <DimNameProd<R, C> as DimName>::Value: Cmp<typenum::$Dim, Output = Equal> {
+              S: OwnedStorage<N, $NRows, $NCols>,
+              S::Alloc: OwnedAllocator<N, $NRows, $NCols, S> {
             #[inline]
             fn as_ref(&self) -> &[N; $SZ] {
                 unsafe {
@@ -137,13 +132,10 @@ macro_rules! impl_from_into_asref_1D(
             }
         }
 
-        impl<N, R, C, S> AsMut<[N; $SZ]> for Matrix<N, R, C, S>
+        impl<N, S> AsMut<[N; $SZ]> for Matrix<N, $NRows, $NCols, S>
         where N: Scalar,
-              R: DimName + DimNameMul<C>,
-              C: DimName,
-              S: OwnedStorage<N, R, C>,
-              S::Alloc: OwnedAllocator<N, R, C, S>,
-              <DimNameProd<R, C> as DimName>::Value: Cmp<typenum::$Dim, Output = Equal> {
+              S: OwnedStorage<N, $NRows, $NCols>,
+              S::Alloc: OwnedAllocator<N, $NRows, $NCols, S> {
             #[inline]
             fn as_mut(&mut self) -> &mut [N; $SZ] {
                 unsafe {
@@ -154,14 +146,19 @@ macro_rules! impl_from_into_asref_1D(
     )*}
 );
 
-// Implement for vectors of dimension 1 .. 36 and matrices with shape 1x1 .. 6x6.
+// Implement for vectors of dimension 1 .. 16.
 impl_from_into_asref_1D!(
-    U1  => 1;  U2  => 2;  U3  => 3;  U4  => 4;  U5  => 5;  U6  => 6;
-    U7  => 7;  U8  => 8;  U9  => 9;  U10 => 10; U11 => 11; U12 => 12;
-    U13 => 13; U14 => 14; U15 => 15; U16 => 16; U17 => 17; U18 => 18;
-    U19 => 19; U20 => 20; U21 => 21; U22 => 22; U23 => 23; U24 => 24;
-    U25 => 25; U26 => 26; U27 => 27; U28 => 28; U29 => 29; U30 => 30;
-    U31 => 31; U32 => 32; U33 => 33; U34 => 34; U35 => 35; U36 => 36;
+    // Row vectors.
+    (U1, U1 ) => 1;  (U1, U2 ) => 2;  (U1, U3 ) => 3;  (U1, U4 ) => 4;
+    (U1, U5 ) => 5;  (U1, U6 ) => 6;  (U1, U7 ) => 7;  (U1, U8 ) => 8;
+    (U1, U9 ) => 9;  (U1, U10) => 10; (U1, U11) => 11; (U1, U12) => 12;
+    (U1, U13) => 13; (U1, U14) => 14; (U1, U15) => 15; (U1, U16) => 16;
+
+    // Column vectors.
+                     (U2 , U1) => 2;  (U3 , U1) => 3;  (U4 , U1) => 4;
+    (U5 , U1) => 5;  (U6 , U1) => 6;  (U7 , U1) => 7;  (U8 , U1) => 8;
+    (U9 , U1) => 9;  (U10, U1) => 10; (U11, U1) => 11; (U12, U1) => 12;
+    (U13, U1) => 13; (U14, U1) => 14; (U15, U1) => 15; (U16, U1) => 16;
 );
 
 
@@ -225,12 +222,11 @@ macro_rules! impl_from_into_asref_2D(
 );
 
 
-// Implement for matrices with shape 1x1 .. 4x4.
+// Implement for matrices with shape 2x2 .. 4x4.
 impl_from_into_asref_2D!(
-    (U1, U1) => (1, 1); (U1, U2) => (1, 2); (U1, U3) => (1, 3); (U1, U4) => (1, 4); (U1, U5) => (1, 5); (U1, U6) => (1, 6);
-    (U2, U1) => (2, 1); (U2, U2) => (2, 2); (U2, U3) => (2, 3); (U2, U4) => (2, 4); (U2, U5) => (2, 5); (U2, U6) => (2, 6);
-    (U3, U1) => (3, 1); (U3, U2) => (3, 2); (U3, U3) => (3, 3); (U3, U4) => (3, 4); (U3, U5) => (3, 5); (U3, U6) => (3, 6);
-    (U4, U1) => (4, 1); (U4, U2) => (4, 2); (U4, U3) => (4, 3); (U4, U4) => (4, 4); (U4, U5) => (4, 5); (U4, U6) => (4, 6);
-    (U5, U1) => (5, 1); (U5, U2) => (5, 2); (U5, U3) => (5, 3); (U5, U4) => (5, 4); (U5, U5) => (5, 5); (U5, U6) => (5, 6);
-    (U6, U1) => (6, 1); (U6, U2) => (6, 2); (U6, U3) => (6, 3); (U6, U4) => (6, 4); (U6, U5) => (6, 5); (U6, U6) => (6, 6);
+    (U2, U2) => (2, 2); (U2, U3) => (2, 3); (U2, U4) => (2, 4); (U2, U5) => (2, 5); (U2, U6) => (2, 6);
+    (U3, U2) => (3, 2); (U3, U3) => (3, 3); (U3, U4) => (3, 4); (U3, U5) => (3, 5); (U3, U6) => (3, 6);
+    (U4, U2) => (4, 2); (U4, U3) => (4, 3); (U4, U4) => (4, 4); (U4, U5) => (4, 5); (U4, U6) => (4, 6);
+    (U5, U2) => (5, 2); (U5, U3) => (5, 3); (U5, U4) => (5, 4); (U5, U5) => (5, 5); (U5, U6) => (5, 6);
+    (U6, U2) => (6, 2); (U6, U3) => (6, 3); (U6, U4) => (6, 4); (U6, U5) => (6, 5); (U6, U6) => (6, 6);
 );

tests/conversion.rs

@@ -10,6 +10,7 @@ extern crate nalgebra as na;
 use alga::linear::Transformation;
 use na::{
     Vector1, Vector2, Vector3, Vector4, Vector5, Vector6,
+    RowVector1, RowVector2, RowVector3, RowVector4, RowVector5, RowVector6,
     Matrix2, Matrix3, Matrix4, Matrix5, Matrix6,
     Matrix2x3, Matrix2x4, Matrix2x5, Matrix2x6,
     Matrix3x2, Matrix3x4, Matrix3x5, Matrix3x6,
@@ -158,10 +159,10 @@ macro_rules! array_vector_conversion(
     ($($array_vector_conversion_i: ident, $Vector: ident, $SZ: expr);* $(;)*) => {$(
         #[test]
         fn $array_vector_conversion_i() {
-            let v  = $Vector::from_fn(|i, _| i);
+            let v       = $Vector::from_fn(|i, _| i);
             let arr: [usize; $SZ] = v.into();
-            let arr_ref: &[usize; $SZ] = v.as_ref();
-            let v2 = $Vector::from(arr);
+            let arr_ref = v.as_ref();
+            let v2      = $Vector::from(arr);
         
             for i in 0 .. $SZ {
                 assert_eq!(arr[i], i);
@@ -174,22 +175,50 @@ macro_rules! array_vector_conversion(
 );
 
 array_vector_conversion!(
-    array_vector_conversion_1, Vector1, 1;
-    array_vector_conversion_2, Vector2, 2;
-    array_vector_conversion_3, Vector3, 3;
-    array_vector_conversion_4, Vector4, 4;
-    array_vector_conversion_5, Vector5, 5;
-    array_vector_conversion_6, Vector6, 6;
+    array_vector_conversion_1,  Vector1,  1;
+    array_vector_conversion_2,  Vector2,  2;
+    array_vector_conversion_3,  Vector3,  3;
+    array_vector_conversion_4,  Vector4,  4;
+    array_vector_conversion_5,  Vector5,  5;
+    array_vector_conversion_6,  Vector6,  6;
+);
+
+macro_rules! array_row_vector_conversion(
+    ($($array_vector_conversion_i: ident, $Vector: ident, $SZ: expr);* $(;)*) => {$(
+        #[test]
+        fn $array_vector_conversion_i() {
+            let v       = $Vector::from_fn(|_, i| i);
+            let arr: [usize; $SZ] = v.into();
+            let arr_ref = v.as_ref();
+            let v2      = $Vector::from(arr);
+        
+            for i in 0 .. $SZ {
+                assert_eq!(arr[i], i);
+                assert_eq!(arr_ref[i], i);
+            }
+        
+            assert_eq!(v, v2);
+        }
+    )*}
+);
+
+array_row_vector_conversion!(
+    array_row_vector_conversion_1,  RowVector1,  1;
+    array_row_vector_conversion_2,  RowVector2,  2;
+    array_row_vector_conversion_3,  RowVector3,  3;
+    array_row_vector_conversion_4,  RowVector4,  4;
+    array_row_vector_conversion_5,  RowVector5,  5;
+    array_row_vector_conversion_6,  RowVector6,  6;
 );
 
 macro_rules! array_matrix_conversion(
     ($($array_matrix_conversion_i_j: ident, $Matrix: ident, ($NRows: expr, $NCols: expr));* $(;)*) => {$(
         #[test]
         fn $array_matrix_conversion_i_j() {
-            let m  = $Matrix::from_fn(|i, j| i * 10 + j);
+            let m       = $Matrix::from_fn(|i, j| i * 10 + j);
             let arr: [[usize; $NRows]; $NCols] = m.into();
-            let arr_ref: &[[usize; $NRows]; $NCols] = m.as_ref();
-            let m2 = $Matrix::from(arr);
+            let arr_ref = m.as_ref();
+            let m2      = $Matrix::from(arr);
         
             for i in 0 .. $NRows {
                 for j in 0 .. $NCols {