Solvespace
SolveSpace
This repository contains the source code of SolveSpace, a parametric 2d/3d CAD tool.
Community
The official SolveSpace website has tutorials, reference manual and a forum; there is also an official IRC channel #solvespace at web.libera.chat.
Installation
Via Official Packages
Official release packages for macOS (>=10.6 64-bit) and Windows (>=Vista 32-bit) are available via GitHub releases. These packages are automatically built by the SolveSpace maintainers for each stable release.
Via Flathub
Official releases can be installed as a Flatpak from Flathub.
These should work on any Linux distribution that supports Flatpak.
Via Snap Store
Official releases can be installed from the
channel.
Builds from master are automatically released to the
channel in the Snap
Store. Those packages contain the latest improvements, but receive less testing
than release builds.
Or install from a terminal:
# for the latest stable release:snap install solvespace
# for the bleeding edge builds from master:snap install solvespace --edge
Via automated edge builds
⚠️ Edge builds might be unstable or contain severe bugs! They are intended for experienced users to test new features or verify bugfixes.
Cutting edge builds from the latest master commit are available as zip archives from the following links:
Extract the downloaded archive and install or execute the contained file as is appropriate for your platform.
Via source code
Irrespective of the OS used, before building, check out the project and the necessary submodules:
git clone https://github.com/solvespace/solvespacecd solvespacegit submodule update --init
You will need
. See the platform specific instructions below to install it.
Building on Linux
Building for Linux
You will need the usual build tools, CMake, zlib, libpng, cairo, freetype. To build the GUI, you will need fontconfig, gtkmm 3.0 (version 3.16 or later), pangomm 1.4, OpenGL and OpenGL GLU, and optionally, the Space Navigator client library. On a Debian derivative (e.g. Ubuntu) these can be installed with:
sudo apt install git build-essential cmake zlib1g-dev libpng-dev \ libcairo2-dev libfreetype6-dev libjson-c-dev \ libfontconfig1-dev libgtkmm-3.0-dev libpangomm-1.4-dev \ libgl-dev libglu-dev libspnav-dev
On a RedHat derivative (e.g. Fedora) the dependencies can be installed with:
sudo dnf install git gcc-c++ cmake zlib-devel libpng-devel \ cairo-devel freetype-devel json-c-devel \ fontconfig-devel gtkmm30-devel pangomm-devel \ mesa-libGL-devel mesa-libGLU-devel libspnav-devel
Before building, check out the project and the necessary submodules.
After that, build SolveSpace as following:
mkdir buildcd buildcmake .. -DCMAKE_BUILD_TYPE=Release -DENABLE_OPENMP=ONmake
# Optionallysudo make install
Link Time Optimization is supported by adding
to cmake at the
expense of longer build time.
The graphical interface is built as
, and the command-line
interface is built as
. It is possible to build only
the command-line interface by passing the
flag to the cmake
invocation.
Building for Windows
Ubuntu will require 20.04 or above. Cross-compiling with WSL is also confirmed to work.
You will need the usual build tools, CMake, and a Windows cross-compiler. On a Debian derivative (e.g. Ubuntu) these can be installed with:
apt-get install git build-essential cmake mingw-w64
Before building, check out the project and the necessary submodules.
Build 64-bit SolveSpace with the following:
mkdir buildcd buildcmake .. -DCMAKE_TOOLCHAIN_FILE=../cmake/Toolchain-mingw64.cmake \ -DCMAKE_BUILD_TYPE=Releasemake
The graphical interface is built as
, and the
command-line interface is built as
.
Space Navigator support will not be available.
Building for web (very experimental)
Please note that this port contains many critical bugs and unimplemented core functions.
You will need the usual build tools, cmake and Emscripten. On a Debian derivative (e.g. Ubuntu) dependencies other than Emscripten can be installed with:
apt-get install git build-essential cmake
First, install and prepare
:
git clone https://github.com/emscripten-core/emsdkcd emsdk./emsdk install latest./emsdk activate latestsource ./emsdk_env.shcd ..
Before building, check out the project and the necessary submodules.
After that, build SolveSpace as following:
mkdir buildcd buildemcmake cmake .. -DCMAKE_BUILD_TYPE=Release -DENABLE_LTO="ON" -DENABLE_TESTS="OFF" -DENABLE_CLI="OFF" -DENABLE_COVERAGE="OFF"make
The graphical interface is built as multiple files in the
directory with names
starting with
. It can be run locally with
.
The command-line interface is not available.
Building on macOS
You will need git, XCode tools, CMake and libomp. Git, CMake and libomp can be installed via Homebrew:
brew install git cmake libomp
XCode has to be installed via AppStore or the Apple website; it requires a free Apple ID.
Before building, check out the project and the necessary submodules.
After that, build SolveSpace as following:
mkdir buildcd buildcmake .. -DCMAKE_BUILD_TYPE=Release -DENABLE_OPENMP=ONmake
Link Time Optimization is supported by adding
to cmake at the
expense of longer build time.
Alternatively, generate an XCode project, open it, and build the "Release" scheme:
mkdir buildcd buildcmake .. -G Xcode
The application is built in
, the graphical interface executable
is
, and the command-line interface executable
is
.
Building on OpenBSD
You will need git, cmake, libexecinfo, libpng, gtk3mm and pangomm. These can be installed from the ports tree:
pkg_add -U git cmake libexecinfo png json-c gtk3mm pangomm
Before building, check out the project and the necessary submodules.
After that, build SolveSpace as following:
mkdir buildcd buildcmake .. -DCMAKE_BUILD_TYPE=Releasemakesudo make install
Unfortunately, on OpenBSD, the produced executables are not filesystem location independent
and must be installed before use. By default, the graphical interface is installed to
, and the command-line interface is built as
. It is possible to build only the command-line interface
by passing the
flag to the cmake invocation.
Building on Windows
You will need git, cmake and a C++ compiler (either Visual C++ or MinGW). If using Visual C++, Visual Studio 2015 or later is required. If gawk is in your path be sure it is a proper Windows port that can handle CL LF line endings. If not CMake may fail in libpng due to some awk scripts - issue #1228.
Before building, check out the project and the necessary submodules.
Building with Visual Studio IDE
Create a directory
in
the source tree and point cmake-gui to the source tree and that directory.
Press "Configure" and "Generate", then open
with
Visual C++ and build it.
Building with Visual Studio in a command prompt
First, ensure that
and
(the Visual C++ compiler driver) are in your
; the latter is usually done by invoking
from your
Visual Studio install. Then, run the following in cmd or PowerShell:
mkdir buildcd buildcmake .. -G "NMake Makefiles" -DCMAKE_BUILD_TYPE=Releasenmake
Building with MinGW
It is also possible to build SolveSpace using MinGW, though Space Navigator support will be disabled.
First, ensure that git and gcc are in your
. Then, run the following
in bash:
mkdir buildcd buildcmake .. -DCMAKE_BUILD_TYPE=Releasemake
Contributing
See the guide for contributors for the best way to file issues, contribute code, and debug SolveSpace.
License
SolveSpace is distributed under the terms of the GPL v3 or later.
Языки
C++
- HTML
- CMake
- C
- Shell
- GLSL
- Objective-C++
- Visual Basic .NET
- JavaScript
- CSS