**AnKi 3D Engine** Copyright (C) 2009-2011 Panayiotis Christopoulos-Charitos http://www.ancient-ritual.com godlike@ancient-ritual.com .. contents:: Table of Contents ======= License ======= Anki is dual licensed. The first option is GLPv3 and the second commercial license. If you want to use* AnKi to make opensource software (licensed under GLPv3) then AnKi is provited to you for free but if you want to use it* for non-GPLv3 licensed software then you have to apply for a commercial license. \*: as a whole or parts of the source ======== Building ======== AnKi build system is very Linux specific (GNU make only) at the moment. It also requires a few extra development libraries. To download the latest version of AnKi from the SVN repository type: $ svn checkout http://anki-3d-engine.googlecode.com/svn/trunk/ anki Required external libraries --------------------------- AnKi requires a few up to date versions of some libraries. The libraries are: - Bullet Physics 2.77 - SDL 1.3 - GLEW 1.5.5 - boost 1.4 - libpng 1.2 - libjpeg 6b - libpython 2.6 Normally, in order to build AnKi you need to have all of the above libraries. Some of them are not provided from the most Linux distros or they are older versions. The libraries you have to download and build for yourself are Bullet, SDL and GLEW. The other are pretty common and you can find them almost anywhere. To ease the building process and to save you some time **some** of the above libraries are already backed and placed inside the extern directory. The backed libraries are for Linux and for x86-64 architecture. If you dont trust my binaries and/or you want to build the libs yourselves you have to download, build and install the libs in the extern directory manually. The script *download-externs.sh* downloads the libraries (it requires SVN, mercurial, CMake, autoconf) and the *do-externs.sh* builds the libraries and installs them in the extern directory. Open the files and see how it is done. You wont find any development files for boost, libpng, libjpeg and libpython inside the extern dir. Get them using your Linux distribution's packet manager. Building AnKi and optionally generating makefiles ------------------------------------------------- Inside the build directory you can find 4 build targets containing GNU makefiles. If you want to build AnKi just type "make" from inside a target. **WARNING**: Sometimes I forget to update all the targets. The debug is always updated though. AnKi uses a build system that generates the above makefiles. This build system is no longer part of AnKi and its located in a different repository. This tool is called gBuildSystem and you can find it in http://godlike-projects.googlecode.com/svn/trunk/gBuildSystem. Downloaded it using SVN: $ svn checkout http://godlike-projects.googlecode.com/svn/trunk/gBuildSystem gBuildSystem only purpose is to re-generate these makefiles in case you have made changes in the code structure (renaming/moving/deleting/adding files) or in the included header files (#include) or your have the external libs in different paths. gBuildSystem requires the gen.cfg.py files (something like CMakeLists.txt). gen.cfg.py format is pretty straightforward and minimal. If you want to generate the makefile for the debug target (for example) do the following: #) $ cd /build/debug #) $ /gbs.py To build: $ make And the build process will begin. ====== Assets ====== Currently there are no assets (models, textures, materials etc) so even if you build it, the application will fail to run. =================== System requirements =================== The engine requires: - GPU with shader model 4 - Linux OS - Proprietary GPU drivers Development rig: Ubuntu 10.10, AMD Radeon 4870 w/ Catalyst 10.10. So it should be working on similar systems. ============================================== Generating source code documentation (doxygen) ============================================== The AnKi source code uses doxygen style comments in almost every file. To generate the documentation you need doxygen (http://www.doxygen.org/). From a terminal type: #) $ cd docs #) $ doxygen doxyfile Then open doxygen.html to see it. ============ Coding style ============ Every project has some rules and here are some things to remember while coding AnKi. Types ----- The classes, structs, typedefs, enums etc must be capitalized eg *ThisIsAClass* Functions & variables --------------------- All functions (including class methods) and all variables are mixed case. All functions should have a verb inside them eg *doSomething()* All variables should not have verbs eg *oneVariable* Constants, macros & enumerators ------------------------------- All constants, macros and enumerators are capital with undercores eg *#define MACRO(x)* or *const int ONE_INT = 10;* All the constants should be defined without using the preprocessor eg dont write *#define ONE_INT 10* All enumerators have the first letters of the enum as prefix eg *enum CarColors { CC_BLUE, CC_GREEN };* Parenthesis, braces, comas & operators -------------------------------------- After opening parenthesis and before closing it there is no spaces, same for square brackets. Before and after an operator there is always a space eg *((mat1 * 10) + 10)* or *setWidth(100)* or *int arr[100 + 1];* After a coma there is a space eg *setSize(10, 20)* Order in class definitions -------------------------- class { friends pre-nested (very rare) nested properties public protected private } inlines Naming shortcuts ---------------- This list contains some of the naming shortcuts we use in AnKi. This is because we are bored to type: - Array : arr - Animation : anim - Application : app - Buffer : buff - Camera : cam - Color : col - Controller : ctrl - Current : crnt - Feature : feat - Fragment : frag - Framebuffer Attachable Image : fai - Geometry : geom - Location : loc - Material : mtl - Matrix : mat - Number : num - Physics : phy - Position : pos - Property : prop - Quadrilateral : quad - Quaternion : quat - Resource : rsrc - Rotation : rot - Shader : shdr - Shader Program : shaderProg or sProg - Skeletal Animation : sAnim - Skeleton : skel - Text : txt - Texture : tex - Transformation : trf - Transform Feedback : trffb - Translation : tsl - Triangle : tri - Utility : util - Variable : var - Vector : vec - Vertex : vert Anything else should be typed full. Controllers ----------- The controllers are part of the scene node objects. They control the node's behaviour. They have an input (script, animation, etc) and they control a scene node. The naming convention of the controllers is: Ctrl For Example: MeshSkelNodeCtrl A Mesh is controlled by a SkelNode GLSL shaders ------------ The same rules apply to GLSL shaders but with a few changes: All the vars you can find in a GLSL shader program are either attributes, uniforms or in/out vars (varyings) and everything else. The attributes and uniforms are mixed case. The in/out vars are mixed case as well but they have a prefix string that indicates their output. For example if a var is output from the vertex shader it will have a 'v' before its name. The In detail: v: Vertex shader tc: Tessellation control shader te: Tessellation evaluation shader g: Geometry shader f: Fragment shader All the other variables (locals and globals) inside the code are mixed case but with a leading and a following underscore. Submitting patches ------------------ If you want to update/patch a file (for example Main.cpp) do: - Make the changes on that file - Save the differences in a file using "svn diff Main.cpp > /tmp/diff" - E-mail the "diff" file with subject "[PATCH] Main.cpp updates" ========= ToDo list ========= - Continue working on the new coding style in shaders - Changes in the blending objects problem. The BS will become one stage and the PPS will be divided in two steps. The first will apply the SSAO and the EdgeAA in the IS_FAI and the second will do the rest - The second Physics demo: Create a box that is geting moved by the user. It has to interact with the other boxes - Set the gravity of a certain body to a lower value and see how it behaves - In the Ragdoll bullet demo try to change the distances of the bodies - Ask in the bullet forum: - How to make floating particles like smoke. But first try with one body and manualy setting the gravity - What the btCollisionObject::setActivationState takes as parameter? - Re-enable the stencil tex in Ms.cpp and replace all the stencil buffers with that (Smo, Bs) to save memory - See if the restrictions in FBOs (all FAIs same size) still apply - See what happens if I write *#pragma anki attribute 10* where randName does not exist. Do the same for tranform feedback varyings