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README.md

Dust3D

Dust3D is aim to be a quick modeling tool for game development. Currently the development is in the very early stage.
Please join the discussion reddit/r/gamedev

Idea

I was inspired by Jimmy Gunawan's blogs of monster generation, here is the first one INSPIRATION / Pixar Monster Factory Part One, and by search the Skin Modifier of Blender, I found the theory of Skin Modifier:
B-Mesh: A Fast Modeling System for Base Meshes of 3D Articulated Shapes(Authors: Zhongping Ji, Ligang Liu, Yigang Wang). I started to think of monster model generation for game development from years ago, thanks for this paper, Dust3D is achievable now.
From my initial thought, Dust3D should be a tool like Makehuman, with more versatile features, not only can make human, but also be able to generate monsters automatically.

Build

Generate Xcode Project

$ cd build
$ qmake -spec macx-xcode

Generate Makefile

$ cd build
$ qmake
$ make

TODO & Progress

  • Drawing Primitives (Dec 15, 2016 ~ Dec 17, 2016)
    Sphere
    I don't want the whole project have any unnecessary dependent, like glu library. Let's start with drawing a sphere without gluSphere, because I want implement the same spheres which presented in the B-Mesh paper.
    Cylinder
    Two caps and many strips composites a cylinder.
    Infinite Grid
    Almost all 3D editor have a infinite grid ground, I just made a finite one, in the future, I should expand the grid outside of the screen to make it infinite.
    Now, for just beginning, I think it's a not bad start.
  • Implement B-Mesh algorithm (Dec 18, 2016 ~ Jan 04, 2017)
    There is a implementation of B-Mesh algorithm in C++ language, but I want the pure C version, so I start to implement my own version. I read both paper and this implementation, it gave me very helpful understanding of this algorithm.
    Drawing Skeletal Shape Balls
    Draw shape ball is easy, no need to rotate, I just need scale it along the ball's radius. Draw the cylinder which connects two shape balls is more difficult, I need do some math to rotate it. Here described it.
    Camera Control
    Camera rotate/zoom implemented, here is a good article which explained the theory of OpenGL Transformation. Most important is that the demo app is very beautiful.
    Added x,z axis, looks better than last screenshot.
    I have to use the GLU library, the previous implementation of drawSphere and drawCylinder looks not good, and take too much time to debug.

    B-Mesh data struct
    I created the test nodes's geometry information from Blender. Here is the render result of data/bmesh_test_1.h

    Generate Inbetween Nodes

    Generate Mesh

    When I am implementing the B-Mesh algorithm, I am also think in the future, how to create a library of bunch of initial base models. There is a paper the Skeleton of a Closed 3D Shape described how to generate skeleton from mesh, this is the reverse progress of what I am doing, I think it can resolve the problem of insufficient initial base models, I can generate from tons of existed models.
    Convex Hull
    After finish the rotation at the two connected bones, I need implement 3D Convex Hull algorithm at the joint ball, there are so many methods to get the convex hull, I found the Gift wrapping is the most strait-forward one, though is not the most efficient one.
    There is a good implementation of Gift Wrapping algorithm written in lua language. When I was implementing, I first translated this version to C language, but maybe there are some bugs on my own translation, there are lots of repeated faces, so changed a little, the code now is not just the translation of the original lua version.

    Stitching
    I follow the B-Mesh paper, made another test module inside Blender, and created a correspond data/bmesh_test_2.h manually.

    Catmull-Clark Subdivision

    There is a implementation of Catmull-Clark Subdivision algorithm on rosettacode, the code is very simple and beautiful, just lack of some memory alloc fail check. I translated the algorithm to use my own array implementation.
    Now, the render result looks not bad after 2 times of subdivisions. I would like to mark this todo as done, though there are more polish steps on the original paper, I just leave it as to be done in the future.
  • Render B-Mesh result
    This todo already done in the B-Mesh algorithm implementation.
  • Design UI for monster parts configuration (Jan 17, 2017 ~ Jan 18, 2017)
    Skeleton Editor
    There is good tutorial introduced how to implement object selection by mouse in OpenGL, written by Bartek.
    But there is a big pain in the progress of implement the object selection logic, because of resizeGL, the width and height which passed in as parameters of this function is not equal to the size of the window.
  • Render rigid animation
  • png exporter for isometric 2.5D game
  • Export Wavefront .obj
  • Materials merge of different parts
  • Version 0.01 release
  • Implement the Skeleton of a Closed 3D Shape