Debian Science Geometry packages

C.a.R.(Compass and Rule) 프로젝트에 기초한, CaRMetal은 거의 모든 기능을 포함합니다. 그래픽 인터페이스 관점과는 또 다른 접근방식을 제안합니다.

• 눈금자와 나침판 구성은 기본 구성 요소중에 하나를 드래그하여 변경할 수 있습니다. 구조는 즉시 변경됩니다. 학생들은 구조의 정확성을 확인하고 새로운 통찰력을 얻을 수 있습니다.
• 포인트와 애니메이션 구조의 트랙은 기하학적 관계를 이해하는데 도움이 됩니다. 트랙은 탐색할 새로운 객체로 사용될 수 있습니다.
• C.a.R 매크로를 통해 매우 복잡한 구조가 가능해집니다. 매크로는 기학적 사고를 구성하는 방법이기도 합니다.
• 구조의 세부 사항을 숨기고 색상을 사용하면 구조를 더욱 명확하게 읽을 수 있습니다. C.a.R. 에서 선과 원도 관련 포인트로 줄일 수 있습니다.
• 산술 계산, 수치 해법, 곡선, 함수는 고전적 구조를 뛰어넘습니다. 고급 매크로를 사용해서 3D를 구성하는 것도 가능합니다.
• 다른 기하학, 쌍곡선 또는 타원을 탐색할 수 있습니다.
• 그림의 스크립팅 (javascript 기반).

Geometry::Primitive is a device- and library-agnostic system for representing geometric entities such as points, lines, and shapes. It provides some simple objects and many convenience methods you would expect from a simple geometry library.

Math::Geometry::Voronoi computes Voronoi diagrams from a set of input points. This module is a wrapper around a C implementation by Steve Fortune, the inventor of the algorithm used (Fortune's algorithm), that was further modified by Derek Bradley.

Info on Voronoi diagrams can be found here:

    http://en.wikipedia.org/wiki/Voronoi_diagram

Contains absolute-pose, relative-pose, triangulation, and point-cloud alignment methods for the calibrated case. All problems can be solved with central or non-central cameras, and embedded into a random sample consensus or nonlinear optimization context. Matlab and Python interfaces are implemented as well

This package contains the build-time libraries

This package extends the MatGeom functions for Octave, a scientific computing software. It is useful to create, transform, manipulate and display geometric primitives in 2D. It also contains functions for performing boolean operations between two polygons and to manipulate files in SVG and gmsh formats.

This Octave add-on package is part of the Octave-Forge project.

Contains absolute-pose, relative-pose, triangulation, and point-cloud alignment methods for the calibrated case. All problems can be solved with central or non-central cameras, and embedded into a random sample consensus or nonlinear optimization context. Matlab and Python interfaces are implemented as well

This package contains the Python interface

This package contains several different Rubik's cube solvers, either useful directly on the command-line or through sagemath.

Michael Reid's "optimal" uses pre-computed tables to find an optimal solution to the 3x3x3 Rubik's cube.

Dik T.Winter's "dikcube" uses Kociemba's algorithm to iteratively find a short solution to the 3x3x3 cube.

Eric Dietz' "cubex" has fast non-optimal solver for the 3x3x3 cube.

G+Smo (Geometry + Simulation Modules, pronounced "gismo") is a new open-source C++ library that brings together mathematical tools for geometric design and numerical simulation. This package contains inlude headers, cmake configuration files and other development utils.

Salomé is a pre- and post-processor for numerical simulations. It can import CAD files in IGES and STEP formats, facilitates component integration in heterogeneous systems, and has a user-friendly GUI as well as a Python console with all of the platform functionality.

This package contains the Salomé geometry module.