419 lines
21 KiB
Markdown
419 lines
21 KiB
Markdown
# Change Log
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All notable changes to `nalgebra`, starting with the version 0.6.0 will be
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documented here.
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This project adheres to [Semantic Versioning](http://semver.org/).
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## [0.17.0] - WIP
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### Added
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* Add swizzling up to dimension 3. For example, you can do `v.zxy()` as an equivalent to `Vector3::new(v.z, v.x, v.w)`.
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* Add `.copy_from_slice` to copy matrix components from a slice in column-major order.
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* Add `.dot` to quaternions.
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* Add `.zip_zip_map` for iterating on three matrices simultaneously, and applying a closure to them.
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* Add `.slerp` and `.try_slerp` to unit vectors.
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* Add `.lerp` to vectors.
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* Add `.to_projective` and `.as_projective` to `Perspective3` and `Orthographic3` in order to
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use them as `Projective3` structures.
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* Add `From/Into` impls to allow the conversion of any transformation type to a matrix.
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* Add `Into` impls to convert a matrix slice into an owned matrix.
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* Add `Point*::from_slice` to create a point from a slice.
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* Add `.map_with_location` to matrices to apply a map which passes the component indices to the user-defined closure alongside
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the component itself.
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* Add impl `From<Vector>` for `Point`.
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* Add impl `From<Vector4>` for `Quaternion`.
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* Add impl `From<Vector>` for `Translation`.
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* Add the `::from_vec` constructor to construct a matrix from a `Vec` (a `DMatrix` will reuse the original `Vec`
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as-is for its storage).
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### Modified
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* The `Point::from_coordinates` methods is deprecated. Use `Point::from` instead.
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* The `.transform_point` and `.transform_vector` methods are now inherent methods for matrices so that the user does not have to
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explicitly import the `Transform` trait from the alga crate.
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## [0.16.0]
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All dependencies have been updated to their latest versions.
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## Modified
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* Adjust `UnitQuaternion`s, `Rotation3`s, and `Rotation2`s generated from the `Standard` distribution to be uniformly distributed.
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### Added
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* Add a feature `stdweb` to activate the dependency feature `rand/stdweb`.
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* Add blas-like methods `.imin()` and `.imax()` that return the index of the minimum and maximum entry of a vector.
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* Add construction of a `Point` from an array by implementing the `From` trait.
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* Add support for generating uniformly distributed random unit column vectors using the `Standard` distribution.
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## [0.15.0]
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The most notable change of this release is the support for using part of the library without the rust standard
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library (i.e. it supports `#![no_std]`). See the corresponding [documentation](http://nalgebra.org/wasm_and_embedded_programming/).
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### Modified
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* Rename the `core` module to `base` to avoid conflicts with the `core` crate implicitly imported when
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`#![no_std]` is enabled.
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* Constructors of the `MatrixSlice*` types have been renamed from `new_*` to `from_slice_*`. This was
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necessary to avoid the `incoherent_fundamental_impls` lint that is going to become a hard error.
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### Added
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* Add `UnitQuaternion` constructor `::new_eps(...)` and `::from_scaled_axis_eps(...)` that return the
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identity if the magnitude of the input axisangle is smaller than the epsilon provided.
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* Add methods `.rotation_between_axis(...)` and `.scaled_rotation_between_axis(...)` to `UnitComplex`
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to compute the rotation matrix between two 2D **unit** vectors.
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* Add methods `.axis_angle()` to `UnitComplex` and `UnitQuaternion` in order to retrieve both the
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unit rotation axis and the rotation angle simultaneously.
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* Add functions to construct a random matrix with a user-defined distribution: `::from_distribution(...)`.
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## [0.14.0]
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### Modified
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* Allow the `Isometry * Unit<Vector>` multiplication.
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### Added
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* Add blas-like operations: `.quadform(...)` and `.quadform_tr(...)` to compute respectively
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the quadratic forms `self = alpha * A.transpose() * B * A + beta * self` and
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`alpha * A * B * A.transpose() + beta * self`. Here, `A, B` are matrices with
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`B` square, and `alpha, beta` are reals.
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* Add blas-like operations: `.gemv_tr(...)` that behaves like `.gemv` except that the
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provided matrix is assumed to be transposed.
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* Add blas-like operations: `cmpy, cdpy` for component-wise multiplications and
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division with scalar factors:
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- `self <- alpha * self + beta * a * b`
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- `self <- alpha * self + beta * a / b`
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* `.cross_matrix()` returns the cross-product matrix of a given 3D vector, i.e.,
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the matrix `M` such that for all vector `v` we have
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`M * v == self.cross(&v)`.
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* `.iamin()` that returns the index of the vector entry with
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smallest absolute value.
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* The `mint` feature that can be enabled in order to allow conversions from
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and to types of the [mint](https://crates.io/crates/mint) crate.
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* Aliases for matrix and vector slices. Their are named by adding `Slice`
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before the dimension numbers, i.e., a 3x5 matrix slice with dimensions known
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at compile-time is called `MatrixSlice3x5`. A vector slice with dimensions
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unknown at compile-time is called `DVectorSlice`.
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* Add functions for constructing matrix slices from a slice `&[N]`, e.g.,
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`MatrixSlice2::new(...)` and `MatrixSlice2::new_with_strides(...)`.
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* The `::repeat(...)` constructor that is an alternative name to
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`::from_element(...)`.
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* `UnitQuaternion::scaled_rotation_between_axis(...)` and
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`UnitQuaternion::rotation_between_axis(...)` that take Unit vectors instead of
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Vector as arguments.
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## [0.13.0]
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The **nalgebra-lapack** crate has been updated. This now includes a broad range
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matrix decompositions using LAPACK bindings.
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This adds support for serialization using the
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[abomonation](https://crates.io/crates/abomonation) crate.
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### Breaking semantic change
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* The implementation of slicing with steps now matches the documentation.
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Before, step identified the number to add to pass from one column/row index
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to the next one. This made 0 step invalid. Now (and on the documentation so
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far), the step is the number of ignored row/columns between each
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row/column. Thus, a step of 0 means that no row/column is ignored. For
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example, a step of, say, 3 on previous versions should now bet set to 2.
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### Modified
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* The trait `Axpy` has been replaced by a method `.axpy`.
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* The alias `MatrixNM` is now deprecated. Use `MatrixMN` instead (we
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reordered M and N to be in alphabetical order).
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* In-place componentwise multiplication and division
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`.component_mul_mut(...)` and `.component_div_mut(...)` have bee deprecated
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for a future renaming. Use `.component_mul_assign(...)` and
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`.component_div_assign(...)` instead.
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### Added
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* `alga::general::Real` is now re-exported by nalgebra.
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elements.)
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* `::zeros(...)` that creates a matrix filled with zeroes.
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* `::from_partial_diagonal(...)` that creates a matrix from diagonal elements.
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The matrix can be rectangular. If not enough elements are provided, the rest
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of the diagonal is set to 0.
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* `.conjugate_transpose()` computes the transposed conjugate of a
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complex matrix.
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* `.conjugate_transpose_to(...)` computes the transposed conjugate of a
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complex matrix. The result written into a user-provided matrix.
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* `.transpose_to(...)` is the same as `.transpose()` but stores the result in
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the provided matrix.
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* `.conjugate_transpose_to(...)` is the same as `.conjugate_transpose()` but
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stores the result in the provided matrix.
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* Implements `IntoIterator` for `&Matrix`, `&mut Matrix` and `Matrix`.
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* `.mul_to(...)` multiplies two matrices and stores the result to the given buffer.
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* `.tr_mul_to(...)` left-multiplies `self.transpose()` to another matrix and stores the result to the given buffer.
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* `.add_scalar(...)` that adds a scalar to each component of a matrix.
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* `.add_scalar_mut(...)` that adds in-place a scalar to each component of a matrix.
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* `.kronecker(a, b)` computes the kronecker product (i.e. matrix tensor
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product) of two matrices.
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* `.apply(f)` replaces each component of a matrix with the results of the
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closure `f` called on each of them.
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Pure Rust implementation of some Blas operations:
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* `.iamax()` returns the index of the maximum value of a vector.
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* `.axpy(...)` computes `self = a * x + b * self`.
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* `.gemv(...)` computes `self = alpha * a * x + beta * self` with a matrix and vector `a` and `x`.
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* `.ger(...)` computes `self = alpha * x^t * y + beta * self` where `x` and `y` are vectors.
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* `.gemm(...)` computes `self = alpha * a * b + beta * self` where `a` and `b` are matrices.
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* `.gemv_symm(...)` is the same as `.gemv` except that `self` is assumed symmetric.
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* `.ger_symm(...)` is the same as `.ger` except that `self` is assumed symmetric.
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New slicing methods:
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* `.rows_range(...)` that retrieves a reference to a range of rows.
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* `.rows_range_mut(...)` that retrieves a mutable reference to a range of rows.
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* `.columns_range(...)` that retrieves a reference to a range of columns.
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* `.columns_range_mut(...)` that retrieves a mutable reference to a range of columns.
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Matrix decompositions implemented in pure Rust:
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* Cholesky, SVD, LU, QR, Hessenberg, Schur, Symmetric eigendecompositions,
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Bidiagonal, Symmetric tridiagonal
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* Computation of householder reflectors and givens rotations.
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Matrix edition:
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* `.upper_triangle()` extracts the upper triangle of a matrix, including the diagonal.
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* `.lower_triangle()` extracts the lower triangle of a matrix, including the diagonal.
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* `.fill(...)` fills the matrix with a single value.
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* `.fill_with_identity(...)` fills the matrix with the identity.
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* `.fill_diagonal(...)` fills the matrix diagonal with a single value.
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* `.fill_row(...)` fills a selected matrix row with a single value.
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* `.fill_column(...)` fills a selected matrix column with a single value.
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* `.set_diagonal(...)` sets the matrix diagonal.
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* `.set_row(...)` sets a selected row.
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* `.set_column(...)` sets a selected column.
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* `.fill_lower_triangle(...)` fills some sub-diagonals below the main diagonal with a value.
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* `.fill_upper_triangle(...)` fills some sub-diagonals above the main diagonal with a value.
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* `.swap_rows(...)` swaps two rows.
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* `.swap_columns(...)` swaps two columns.
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Column removal:
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* `.remove_column(...)` removes one column.
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* `.remove_fixed_columns<D>(...)` removes `D` columns.
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* `.remove_columns(...)` removes a number of columns known at run-time.
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Row removal:
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* `.remove_row(...)` removes one row.
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* `.remove_fixed_rows<D>(...)` removes `D` rows.
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* `.remove_rows(...)` removes a number of rows known at run-time.
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Column insertion:
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* `.insert_column(...)` adds one column at the given position.
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* `.insert_fixed_columns<D>(...)` adds `D` columns at the given position.
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* `.insert_columns(...)` adds at the given position a number of columns known at run-time.
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Row insertion:
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* `.insert_row(...)` adds one row at the given position.
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* `.insert_fixed_rows<D>(...)` adds `D` rows at the given position.
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* `.insert_rows(...)` adds at the given position a number of rows known at run-time.
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## [0.12.0]
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The main change of this release is the update of the dependency serde to 1.0.
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### Added
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* `.trace()` that computes the trace of a matrix (the sum of its diagonal
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elements.)
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## [0.11.0]
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The [website](http://nalgebra.org) has been fully rewritten and gives a good
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overview of all the added/modified features.
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This version is a major rewrite of the library. Major changes are:
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* Algebraic traits are now defined by the [alga](https://crates.io/crates/alga) crate.
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All other mathematical traits, except `Axpy` have been removed from
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**nalgebra**.
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* Methods are now preferred to free functions because they do not require any
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trait to be used any more.
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* Most algebraic entities can be parametrized by type-level integers
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to specify their dimensions. Using `Dynamic` instead of a type-level
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integer indicates that the dimension known at run-time only.
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* Statically-sized **rectangular** matrices.
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* More transformation types have been added: unit-sized complex numbers (for
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2D rotations), affine/projective/general transformations with `Affine2/3`,
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`Projective2/3`, and `Transform2/3`.
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* Serde serialization is now supported instead of `rustc_serialize`. Enable
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it with the `serde-serialize` feature.
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* Matrix **slices** are now implemented.
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### Added
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Lots of features including rectangular matrices, slices, and Serde
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serialization. Refer to the brand new [website](http://nalgebra.org) for more
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details. The following free-functions have been added as well:
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* `::id()` that returns the universal [identity element](http://nalgebra.org/performance_tricks/#the-id-type)
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of type `Id`.
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* `::inf_sup()` that returns both the infimum and supremum of a value at the
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same time.
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* `::partial_sort2()` that attempts to sort two values in increasing order.
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* `::wrap()` that moves a value to the given interval by adding or removing
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the interval width to it.
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### Modified
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* `::cast` -> `::convert`
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* `point.as_vector()` -> `point.coords`
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* `na::origin` -> `P::origin()`
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* `na::is_zero` -> `.is_zero()` (from num::Zero)
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* `.transform` -> `.transform_point`/`.transform_vector`
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* `.translate` -> `.translate_point`
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* `::dimension::<P>` -> `::dimension::<P::Vector>`
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* `::angle_between` -> `::angle`
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Componentwise multiplication and division has been replaced by methods:
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* multiplication -> `.componentwise_mul`, `.componentwise_mul_mut`.
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* division -> `.componentwise_div`, `.componentwise_div_mut`.
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The following free-functions are now replaced by methods (with the same names)
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only:
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`::cross`, `::cholesky`, `::determinant`, `::diagonal`, `::eigen_qr` (becomes
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`.eig`), `::hessenberg`, `::qr`, `::to_homogeneous`, `::to_rotation_matrix`,
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`::transpose`, `::shape`.
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The following free-functions are now replaced by static methods only:
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* `::householder_matrix` under the name `::new_householder_generic`
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* `::identity`
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* `::new_identity` under the name `::identity`
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* `::from_homogeneous`
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* `::repeat` under the name `::from_element`
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The following free-function are now replaced methods accessible through traits
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only:
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* `::transform` -> methods `.transform_point` and `.transform_vector` of the `alga::linear::Transformation` trait.
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* `::inverse_transform` -> methods `.inverse_transform_point` and
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`.inverse_transform_vector` of the `alga::linear::ProjectiveTransformation`
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trait.
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* `::translate`, `::inverse_translate`, `::rotate`, `::inverse_rotate` ->
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methods from the `alga::linear::Similarity` trait instead. Those have the
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same names but end with `_point` or `_vector`, e.g., `.translate_point` and
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`.translate_vector`.
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* `::orthonormal_subspace_basis` -> method with the same name from
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`alga::linear::FiniteDimInnerSpace`.
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* `::canonical_basis_element` and `::canonical_basis` -> methods with the
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same names from `alga::linear::FiniteDimVectorSpace`.
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* `::rotation_between` -> method with the same name from the
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`alga::linear::Rotation` trait.
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* `::is_zero` -> method with the same name from `num::Zero`.
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### Removed
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* The free functions `::prepend_rotation`, `::append_rotation`,
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`::append_rotation_wrt_center`, `::append_rotation_wrt_point`,
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`::append_transformation`, and `::append_translation ` have been removed.
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Instead create the rotation or translation object explicitly and use
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multiplication to compose it with anything else.
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* The free function `::outer` has been removed. Use column-vector ×
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row-vector multiplication instead.
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* `::approx_eq`, `::approx_eq_eps` have been removed. Use the `relative_eq!`
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macro from the [approx](https://crates.io/crates/approx) crate instead.
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* `::covariance` has been removed. There is no replacement for now.
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* `::mean` has been removed. There is no replacement for now.
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* `::sample_sphere` has been removed. There is no replacement for now.
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* `::cross_matrix` has been removed. There is no replacement for now.
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* `::absolute_rotate` has been removed. There is no replacement for now.
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* `::rotation`, `::transformation`, `::translation`, `::inverse_rotation`,
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`::inverse_transformation`, `::inverse_translation` have been removed. Use
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the appropriate methods/field of each transformation type, e.g.,
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`rotation.angle()` and `rotation.axis()`.
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## [0.10.0]
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### Added
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Binary operations are now allowed between references as well. For example
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`Vector3<f32> + &Vector3<f32>` is now possible.
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### Modified
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Removed unused parameters to methods from the `ApproxEq` trait. Those were
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required before rust 1.0 to help type inference. The are not needed any more
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since it now allowed to write for a type `T` that implements `ApproxEq`:
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`<T as ApproxEq>::approx_epsilon()`. This replaces the old form:
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`ApproxEq::approx_epsilon(None::<T>)`.
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## [0.9.0]
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### Modified
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* Renamed:
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- `::from_col_vector` -> `::from_column_vector`
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- `::from_col_iter` -> `::from_column_iter`
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- `.col_slice` -> `.column_slice`
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- `.set_col` -> `.set_column`
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- `::canonical_basis_with_dim` -> `::canonical_basis_with_dimension`
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- `::from_elem` -> `::from_element`
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- `DiagMut` -> `DiagonalMut`
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- `UnitQuaternion::new` becomes `UnitQuaternion::from_scaled_axis` or
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`UnitQuaternion::from_axisangle`. The new `::new` method now requires a
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not-normalized quaternion.
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Methods names starting with `new_with_` now start with `from_`. This is more
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idiomatic in Rust.
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The `Norm` trait now uses an associated type instead of a type parameter.
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Other similar trait changes are to be expected in the future, e.g., for the
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`Diagonal` trait.
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Methods marked `unsafe` for reasons unrelated to memory safety are no
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longer unsafe. Instead, their name end with `_unchecked`. In particular:
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* `Rotation3::new_with_matrix` -> `Rotation3::from_matrix_unchecked`
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* `PerspectiveMatrix3::new_with_matrix` -> `PerspectiveMatrix3::from_matrix_unchecked`
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* `OrthographicMatrix3::new_with_matrix` -> `OrthographicMatrix3::from_matrix_unchecked`
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### Added
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- A `Unit<T>` type that wraps normalized values. In particular,
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`UnitQuaternion<N>` is now an alias for `Unit<Quaternion<N>>`.
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- `.ln()`, `.exp()` and `.powf(..)` for quaternions and unit quaternions.
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- `::from_parts(...)` to build a quaternion from its scalar and vector
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parts.
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- The `Norm` trait now has a `try_normalize()` that returns `None` if the
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norm is too small.
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- The `BaseFloat` and `FloatVector` traits now inherit from `ApproxEq` as
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well. It is clear that performing computations with floats requires
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approximate equality.
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Still WIP: add implementations of abstract algebra traits from the `algebra`
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crate for vectors, rotations and points. To enable them, activate the
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`abstract_algebra` feature.
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## [0.8.0]
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### Modified
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* Almost everything (types, methods, and traits) now use full names instead
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of abbreviations (e.g. `Vec3` becomes `Vector3`). Most changes are abvious.
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Note however that:
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- `::sqnorm` becomes `::norm_squared`.
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- `::sqdist` becomes `::distance_squared`.
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- `::abs`, `::min`, etc. did not change as this is a common name for
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absolute values on, e.g., the libc.
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- Dynamically sized structures keep the `D` prefix, e.g., `DMat` becomes
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`DMatrix`.
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* All files with abbreviated names have been renamed to their full version,
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e.g., `vec.rs` becomes `vector.rs`.
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## [0.7.0]
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### Added
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* Added implementation of assignment operators (+=, -=, etc.) for
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everything.
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### Modified
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* Points and vectors are now linked to each other with associated types
|
||
(on the PointAsVector trait).
|
||
|
||
|
||
## [0.6.0]
|
||
**Announcement:** a users forum has been created for `nalgebra`, `ncollide`, and `nphysics`. See
|
||
you [there](http://users.nphysics.org)!
|
||
|
||
### Added
|
||
* Added a dependency to [generic-array](https://crates.io/crates/generic-array). Feature-gated:
|
||
requires `features="generic_sizes"`.
|
||
* Added statically sized vectors with user-defined sizes: `VectorN`. Feature-gated: requires
|
||
`features="generic_sizes"`.
|
||
* Added similarity transformations (an uniform scale followed by a rotation followed by a
|
||
translation): `Similarity2`, `Similarity3`.
|
||
|
||
### Removed
|
||
* Removed zero-sized elements `Vector0`, `Point0`.
|
||
* Removed 4-dimensional transformations `Rotation4` and `Isometry4` (which had an implementation to incomplete to be useful).
|
||
|
||
### Modified
|
||
* Vectors are now multipliable with isometries. This will result into a pure rotation (this is how
|
||
vectors differ from point semantically: they design directions so they are not translatable).
|
||
* `{Isometry3, Rotation3}::look_at` reimplemented and renamed to `::look_at_rh` and `::look_at_lh` to agree
|
||
with the computer graphics community (in particular, the GLM library). Use the `::look_at_rh`
|
||
variant to build a view matrix that
|
||
may be successfully used with `Persp` and `Ortho`.
|
||
* The old `{Isometry3, Rotation3}::look_at` implementations are now called `::new_observer_frame`.
|
||
* Rename every `fov` on `Persp` to `fovy`.
|
||
* Fixed the perspective and orthographic projection matrices.
|