• Announcements

    • khawk

      Download the Game Design and Indie Game Marketing Freebook   07/19/17

      GameDev.net and CRC Press have teamed up to bring a free ebook of content curated from top titles published by CRC Press. The freebook, Practices of Game Design & Indie Game Marketing, includes chapters from The Art of Game Design: A Book of Lenses, A Practical Guide to Indie Game Marketing, and An Architectural Approach to Level Design. The GameDev.net FreeBook is relevant to game designers, developers, and those interested in learning more about the challenges in game development. We know game development can be a tough discipline and business, so we picked several chapters from CRC Press titles that we thought would be of interest to you, the GameDev.net audience, in your journey to design, develop, and market your next game. The free ebook is available through CRC Press by clicking here. The Curated Books The Art of Game Design: A Book of Lenses, Second Edition, by Jesse Schell Presents 100+ sets of questions, or different lenses, for viewing a game’s design, encompassing diverse fields such as psychology, architecture, music, film, software engineering, theme park design, mathematics, anthropology, and more. Written by one of the world's top game designers, this book describes the deepest and most fundamental principles of game design, demonstrating how tactics used in board, card, and athletic games also work in video games. It provides practical instruction on creating world-class games that will be played again and again. View it here. A Practical Guide to Indie Game Marketing, by Joel Dreskin Marketing is an essential but too frequently overlooked or minimized component of the release plan for indie games. A Practical Guide to Indie Game Marketing provides you with the tools needed to build visibility and sell your indie games. With special focus on those developers with small budgets and limited staff and resources, this book is packed with tangible recommendations and techniques that you can put to use immediately. As a seasoned professional of the indie game arena, author Joel Dreskin gives you insight into practical, real-world experiences of marketing numerous successful games and also provides stories of the failures. View it here. An Architectural Approach to Level Design This is one of the first books to integrate architectural and spatial design theory with the field of level design. The book presents architectural techniques and theories for level designers to use in their own work. It connects architecture and level design in different ways that address the practical elements of how designers construct space and the experiential elements of how and why humans interact with this space. Throughout the text, readers learn skills for spatial layout, evoking emotion through gamespaces, and creating better levels through architectural theory. View it here. Learn more and download the ebook by clicking here. Did you know? GameDev.net and CRC Press also recently teamed up to bring GDNet+ Members up to a 20% discount on all CRC Press books. Learn more about this and other benefits here.

Werner291

Members
  • Content count

    9
  • Joined

  • Last visited

Community Reputation

149 Neutral

About Werner291

  • Rank
    Newbie
  1. I find Ogre3D to be quite easy to use. It's for C++, but I believe they have a C# port.
  2. Hello,   I've been working on a game for some time. In short, it is a "sci-fi airplane racing game", set in the far-future, but I'm trying to make the game at least slightly realistic.   It's a huge, oversized project, that I'm completely crazy to start on my own. My current goal is to see if I can at least create a very rough version of it on my own, and maybe team up if that turns out good. It's more a hobby than anything else.   Many things are already in place, but I'm short on ideas for track design, and I'm asking myself: "What are interesting things to race through that actually make sense from a story point of view". It is set in a rather large coastal city that hosts a racing event (anually or something?).   How I see the track before me: Players start out in some kind of stadium that is open on two ends (not shure how that's called) that is located on a cliff, between to higher areas. They then turn and follow the coastline, the "racing area" is limited by floating "beacons". They follow this coastline towards the estuary of a large river that flows through the city,. The players then follow the river into the city, with spectators lining the river banks.   Aaand I'm out of ideas. What would be interesting features of this city that racers can fly through that would make sense? I was thinking about making the river go underground or something, so they fly through a tunnel, but then I'm not shure how to make them exit again.   I'm posting this here in the hope that you might have some cool ideas for this track or maybe the game in general. I'll post some screenshots later (don't expect too much, it's mostly empty terrain).   Here's the starting area:   And the famous (empty) coastline. Maybe I'll add some buildings at the top of the cliffs, and maybe some beaches:   Another shot of the coastline, a small peninsula that you can fly through. This thing needs a bridge.
  3. Hello, I'm trying to write a 3D engine, but I'm having some problems with the management of my shaders and materials.   Mostly, the problem is keeping the two seperate. Some things in my engine require texture splatting, others need to be reflective, others need to glow, yet others should look liquid, and then some more...   I was quite impressed by Ogre3D's material scripts, but I can't make heads or tails out of the enormous amount of source code.   My current approach is to try to automatically generate a shader program for every material, but this seems kinda wasteful. I might for example have two things in the game world that look exactly identical except for a different color.   Also, since the program generation is now locked away in the material, how to I implement things like tesselation and vertex manipulation?   This has been causing me headaches over the past couple days up to the point where I felt like just abandoning, but I'd at least like to understand this before I do.
  4. Aaargh...  typos... Always such errors when I'm doing maths... Why do other people always see such stuff so easily? Thanks.
  5. Good afternoon,   I'm currently developing a game for Android using OpenGL ES 2.0 where users fly through a tunnel, the goal being not to hit the walls.   The tunnel is randomly generated and it is composed of a series of interconnected rings. The rings are supposed to be perpendicular to the direction of the tunnel. See this screenshot when things go well:    [spoiler][/spoiler] Things still look good in this screenshot, but as the tunnel drifts away from the Z axis, the rings do not rotate with it correctly, causing this nice round tunnel to gradually flatten out then turn into an unmanageable mess of lines.   Currently, here's the code that I use to generate the rings: (Java) // Constructor public TunnelSection(GameManager myRenderer, TunnelSection previous) {                  sectionTransform = new float[16];                  float ring_radius =  RING_MIN_RADIUS + (float)(Math.random()) * (RING_MAX_RADIUS - RING_MIN_RADIUS);                  if (previous != null){             mDirection = previous.mDirection;                          Quaternion randomRot = new Quaternion();             randomRot.fromAngles(((float)Math.random()-0.5f)/5f, ((float)Math.random()-0.5f)/5f, ((float)Math.random()-0.5f)/5f);             mDirection = mDirection.mult(randomRot);             mDirection.normalizeLocal();                          Vector3f delta = mDirection.mult(Vector3f.UNIT_Z);                          mPosition = new float[]{previous.mPosition[0]+delta.x, previous.mPosition[0]+delta.y, previous.mPosition[2]+delta.z};         }         else {             mDirection = Quaternion.DIRECTION_Z;             mPosition = new float[]{0,0,0};         }                  ringCoords = new float[(COORDS_PER_VERTEX) * RING_VERTICE_COUNT];                  Vector3f vertLocal = Vector3f.UNIT_X;                  for (int itr=0;itr<RING_VERTICE_COUNT;itr++){             vertLocal.set(android.util.FloatMath.sin((float)Math.PI * 2f * ((float)itr/(float)RING_VERTICE_COUNT )) * ring_radius,                           android.util.FloatMath.cos((float)Math.PI * 2f * ((float)itr/(float)RING_VERTICE_COUNT )) * ring_radius,                           0f);                          vertLocal = mDirection.mult(vertLocal);                          ringCoords[itr*3]   = vertLocal.x;             ringCoords[itr*3+1] = vertLocal.y;             ringCoords[itr*3+2] = vertLocal.z;         } // Initialize the rest...Why is it that the rings do not rotate like they should? It must be something very simple, but I can't find it...
  6. I took your second solution, it works excellently! Here's the resulting code: [source lang="cpp"]Ogre::Vector3 vectorOA = wallStrip[itr-2]; Ogre::Vector3 vectorOB = wallStrip[itr-1]; Ogre::Vector3 vectorOC = wallStrip[itr]; Ogre::Vector3 vectorAB(vectorOB - vectorOA); Ogre::Vector3 vectorBC(vectorOC - vectorOB); Ogre::Vector3 vectorCA(vectorOA - vectorOC); Ogre::Vector3 faceNormal = vectorAB.crossProduct(vectorCA) * (itr%2==0 ? 1.0 : -1.0); // It's a triangle strip if (vectorOA.dotProduct(faceNormal) > 0){ Ogre::Vector3 ABNormal = vectorAB.crossProduct(faceNormal); if (vectorOA.dotProduct(ABNormal) > 0) continue; Ogre::Vector3 BCNormal = vectorBC.crossProduct(faceNormal); if (vectorOB.dotProduct(BCNormal) > 0) continue; Ogre::Vector3 CANormal = vectorCA.crossProduct(faceNormal); if (vectorOA.dotProduct(CANormal) > 0) continue; // The projection falls within the triangle }[/source] It also checks wether the point is on a specific side of the triangle, it's also inside a loop iterating through a vector of these triangles. The point that I'm testing is actually the origin in this case, that's why you don't actually see it in the code. It actually even worked the first time! (That was very unlikely, I'm a champion at typos [img]http://public.gamedev.net//public/style_emoticons/default/tongue.png[/img])
  7. Hello, In 3D, say you have a triangle defined by three non-aligned points (A,B,C). How do I find out if the projection of a fourth point onto the plane that the triangle belongs to is inside the triangle?
  8. An icosahedron is exactly what I need! Too bad there aren't any regular shapes that get closer to a sphere, but this one should work.
  9. Hello, I'm trying to make a 3d online game in a sci-fi environment. I've finally got the connection set up, but I'm not shure how I'm going to handle the planets. I'm planning to make the planets very large to make the game more immersive, leading to the problem that loading something that size into memory at once will probably make something horribly go wrong. In Minecraft, the worlds are also huge, so they are divided into 16x16 square "chunks" that are loaded when approached by the player and unloaded and saved as he or she moves away from them. I'd like to apply a similar system to my planets, but there's one difference: Minecraft worlds are flat, planets are spherical. How do you divide a sphere into "chunks" without things going crazy around the poles, heightmaps becoming deformed, etc... ?