• Advertisement
  • Popular Tags

  • Popular Now

  • Advertisement
  • Similar Content

    • By octopusarms
      I'm downloading random tilesheets from the internet... and I look at all of these tilesheets and wonder what size are the tiles? Or what is the intended size they're suppose to be used in. Trying to build a small engine and make small example games for fun. Any help? One of the example tilesheets are uploaded.

    • By owenjr
      Hi there!
      I am trying to implement a basic AI for a Turrets game in SFML and C++ and I have some problems.
      This AI follows some waypoints stablished in a Bezier Courve. 
      In first place, this path was followed only by one enemy. For this purpose, the enemy has to calculate his distance between his actual position
      to the next waypoint he has to pick.
      If the distance is less than a specific value we stablish, then, we get to the next point. This will repeat until the final destination is reached. (in the submitting code, forget about the var m_go)

      Okay, our problem gets when we spawn several enemies and all have to follow the same path, because it produces a bad visual effect (everyone gets upside another).
      In order to solve this visual problem, we have decided to use a repulsion vector. The calculus gets like this:

      As you can see, we calculate the repulsion vector with the inverse of the distance between the enemy and his nearest neighbor.
      Then, we get it applying this to the "theorical" direction, by adding it, and we get a resultant, which is the direction that
      our enemy has to follow to not "collide" with it's neighbors. But, our issue comes here: 

      The enemys get sepparated in the middle of the curve and, as we spawn more enemys, the speed of all of them increases dramatically (including the enemies that don't calculate the repuslion vector).
      1 - Is it usual that this sepparation occours in the middle of the trajectory?
      2 - Is it there a way to control this direction without the speed getting affected?
      3 - Is it there any alternative to this theory?

      I submit the code below (There is a variable in Spanish [resultante] which it means resultant in English):
      if (!m_pathCompleted) { if (m_currentWP == 14 && m_cambio == true) { m_currentWP = 0; m_path = m_pathA; m_cambio = false; } if (m_neighbors.size() > 1) { for (int i = 0; i < m_neighbors.size(); i++) { if (m_enemyId != m_neighbors[i]->GetId()) { float l_nvx = m_neighbors[i]->GetSprite().getPosition().x - m_enemySprite.getPosition().x; float l_nvy = m_neighbors[i]->GetSprite().getPosition().y - m_enemySprite.getPosition().y; float distance = std::sqrt(l_nvx * l_nvx + l_nvy * l_nvy); if (distance < MINIMUM_NEIGHBOR_DISTANCE) { l_nvx *= -1; l_nvy *= -1; float l_vx = m_path[m_currentWP].x - m_enemySprite.getPosition().x; float l_vy = m_path[m_currentWP].y - m_enemySprite.getPosition().y; float l_resultanteX = l_nvx + l_vx; float l_resultanteY = l_nvy + l_vy; float l_waypointDistance = std::sqrt(l_resultanteX * l_resultanteX + l_resultanteY * l_resultanteY); if (l_waypointDistance < MINIMUM_WAYPOINT_DISTANCE) { if (m_currentWP == m_path.size() - 1) { std::cout << "\n"; std::cout << "[GAME OVER]" << std::endl; m_go = false; m_pathCompleted = true; } else { m_currentWP++; } } if (l_waypointDistance > MINIMUM_WAYPOINT_DISTANCE) { l_resultanteX = l_resultanteX / l_waypointDistance; l_resultanteY = l_resultanteY / l_waypointDistance; m_enemySprite.move(ENEMY_SPEED * l_resultanteX * dt, ENEMY_SPEED * l_resultanteY * dt); } } else { float vx = m_path[m_currentWP].x - m_enemySprite.getPosition().x; float vy = m_path[m_currentWP].y - m_enemySprite.getPosition().y; float len = std::sqrt(vx * vx + vy * vy); if (len < MINIMUM_WAYPOINT_DISTANCE) { if (m_currentWP == m_path.size() - 1) { std::cout << "\n"; std::cout << "[GAME OVER]" << std::endl; m_go = false; m_pathCompleted = true; } else { m_currentWP++; } } if (len > MINIMUM_WAYPOINT_DISTANCE) { vx = vx / len; vy = vy / len; m_enemySprite.move(ENEMY_SPEED * vx * dt, ENEMY_SPEED * vy * dt); } } } } } else { float vx = m_path[m_currentWP].x - m_enemySprite.getPosition().x; float vy = m_path[m_currentWP].y - m_enemySprite.getPosition().y; float len = std::sqrt(vx * vx + vy * vy); if (len < MINIMUM_WAYPOINT_DISTANCE) { if (m_currentWP == m_path.size() - 1) { std::cout << "\n"; std::cout << "[GAME OVER]" << std::endl; m_go = false; m_pathCompleted = true; } else { m_currentWP++; } } if (len > MINIMUM_WAYPOINT_DISTANCE) { vx = vx / len; vy = vy / len; m_enemySprite.move(ENEMY_SPEED * vx * dt, ENEMY_SPEED * vy * dt); } } }
      ¡¡Thank you very much in advance!! 
    • By mikesayso
      Hi Guys,
      Michael here, I work for a company called SaySo Rewards.
      I actually have a post about our company that you can find on this forum. It talks about how we are trying to work more closely with game developers to help with their funding while also rewarding the player.
      So super quick post. I have a home-made survey I would love it if anyone on here with 2-3 minutes free time could fill in.
      We will be attending GDC in San Francisco next week and it would be great to have some numbers on this to present at the conference.
      Please answer honestly, there are no personal questions being asked. 
      Could you do me a HUGE favor and leave a comment here if you do fill in the survey, I would really appreciate.
      Thanks guys, keep on gaming. Link below:
    • By katastrophic88

      Hello Everyone!
      I’m Kat and am now working with MassHive Media -- developer of a recently released RPG named Azure Saga: Pathfinder – as Community Manager.
      Far into the future, the human race survives through colonies scattered across the universe. Dive into the world of Azure Saga: Pathfinder and band together to search for the legendary planet that will save humanity. Battle your enemies in JRPG-style turn-based combat, and explore a 2.5D isometric landscape imbued with hand-drawn visuals. Adventure awaits in the fantastic universe of Azure Saga: Pathfinder.
      We’d love it if you would stop by our Steam page. You can purchase the game for 25% off until March 20th!
      Looking forward to seeing all of the great indie projects being developed and launching this year!
    • By sausagejohnson
      Welcome to the 2D UFO game guide using the Orx Portable Game Engine. My aim for this tutorial is to take you through all the steps to build a UFO game from scratch.
      The aim of our game is to allow the player to control a UFO by applying physical forces to move it around. The player must collect pickups to increase their score to win.
      I should openly acknowledge that this series is cheekily inspired by the 2D UFO tutorial written for Unity.
      It makes an excellent comparison of the approaches between Orx and Unity. It is also a perfect way to highlight one of the major parts that makes Orx unique among other game engines, its Data Driven Configuration System.
      You'll get very familiar with this system very soon. It's at the very heart of just about every game written using Orx.
      If you are very new to game development, don't worry. We'll take it nice and slow and try to explain everything in very simple terms. The only knowledge you will need is some simple C++.
      I'd like say a huge thank you to FullyBugged for providing the graphics for this series of articles.
      What are we making?
      Visit the video below to see the look and gameplay of the final game:
      Getting Orx
      The latest up to date version of Orx can be cloned from github and set up with:
      git clone https://github.com/orx/orx.git After cloning, an $ORX environment variable will be created automatically for your system which will help with making game projects much easier. It will also create several IDE projects for your operating system: Visual Studio, Codelite, Code::Blocks, and gmake.
      These Orx projects will allow you to compile the Orx library for use in your own projects. And the $ORX environment variable means that your projects will know where to find the Orx library.
      For more details on this step, visit http://orx-project.org/wiki/en/tutorials/cloning_orx_from_github at the Orx learning wiki.
      Setting up a 2D UFO Project
      Now the you have the Orx libraries cloned and compiled, you will need a blank project for your game. Supported options are: Visual Studio, CodeLite, Code::Blocks, XCode or gmake, depending on your operating system.
      Once you have a game project, you can use it to work through the steps in this tutorial.
      Orx provides a very nice system for auto creating game projects for you. In the root of the Orx repo, you will find either the init.bat (for Windows) or init.sh (Mac/Linux) command.
      Create a project for our 2D game from the command line in the Orx folder and running:
      init c:\temp\ufo or
      init.sh ~/ufo Orx will create a project for each IDE supported by your OS at the specified location. You can copy this folder anywhere, and your project will always compile and link due to the $ORX environment variable. It knows where the libraries and includes are for Orx.
      Open your project using your favourite IDE from within the ufo/build folder.
      When the blank template loads, there are two main folders to note in your solution:
      config src Firstly, the src folder contains a single source file, ufo.cpp. This is where we will add the c++ code for the game. The config folder contains configuration files for our game.
        What is config?
      Orx is a data driven 2D game engine. Many of the elements in your game, like objects, spawners, music etc, do not need to be defined in code. They can be defined (or configured) using config files.
      You can make a range of complex multi-part objects with special behaviours and effects in Orx, and bring them into your game with a single line of code. You'll see this in the following chapters of this guide.
      There are three ufo config files in the config folder but for this guide, only one will actually be used in our game. This is:
      ufo.ini All our game configuration will be done there.
      Over in the Orx library repo folder under orx/code/bin, there are two other config files:
      CreationTemplate.ini SettingsTemplate.ini These are example configs and they list all the properties and values that are available to you. We will mainly concentrate on referring to the CreationTemplate.ini, which is for objects, sounds, etc. It's good idea to include these two files into your project for easy reference.
      Alternatively you can view these online at https://github.com/orx/orx/blob/master/code/bin/CreationTemplate.ini and here: https://github.com/orx/orx/blob/master/code/bin/SettingsTemplate.ini
      The code template
      Now to take a look at the basic ufo.cpp and see what is contained there.
      The first function is the Init() function.
      This function will execute when the game starts up. Here you can create objects have been defined in the config, or perform other set up tasks like handlers. We'll do both of these soon.
      The Run() function is executed every main clock cycle. This is a good place to continually perform a task. Though there are better alternatives for this, and we will cover those later. This is mainly used to check for the quit key.
      The Exit() function is where memory is cleaned up when your game quits. Orx cleans up nicely after itself. We won't use this function as part of this guide.
      The Bootstrap() function is an optional function to use. This is used to tell Orx where to find the first config file for use in our game (ufo.ini). There is another way to do this, but for now, we'll use this function to inform Orx of the config.
      Then of course, the main() function. We do not need to use this function in this guide.
      Now that we have everything we need to get start, you should be able to compile successfully. Run the program and an Orx logo will appear slowly rotating.

      Great. So now you have everything you need to start building the UFO game.
      Setting up the game assets
      Our game will have a background, a UFO which the player will control, and some pickups that the player can collect.
      The UFO will be controlled by the player using the cursor keys.
      First you'll need the assets to make the game. You can download the file  assets-for-orx-ufo-game.zip which contains:
      The background file (background.png):

      The UFO and Pickup sprite images (ufo.png and pickup.png):
      And a pickup sound effect (pickup.ogg):
      Copy the .png files into your data/texture folder
      Copy the .ogg file into your data/sound folder.
      Now these files can be accessed by your project and included in the game.
      Setting up the Playfield
      We will start by setting up the background object. This is done using config.
      Open the ufo.ini config file in your editor and add the following:
      [BackgroundGraphic] Texture = background.png Pivot = center  
      The BackgroundGraphic defined here is called a Graphic Section. It has two properties defined. The first is Texture which has been set as background.png.
      The Orx library knows where to find this image, due to the properties set in the Resource section:
      [Resource] Texture = ../../data/texture  
      So any texture files that are required (just like in our BackgroundGraphic section) will be located in the ../../data/texture folder.
      The second parameter is Pivot. A pivot is the handle (or sometimes “hotspot” in other frameworks). This is set to be center. The position is 0,0 by default, just like the camera. The effect is to ensure the background sits in the center of our game window.
      There are other values available for Pivot. To see the list of values, open the CreationTemplate.ini file in your editor. Scroll to the GraphicTemplate section and find Pivot in the list. There you can see all the possible values that could be used.
      top left is also a typical value.
      We need to define an object that will make use of this graphic. This will be the actual entity that is used in the game:
      [BackgroundObject] Graphic = BackgroundGraphic Position = (0, 0, 0)  
      The Graphic property is the section BackgroundGraphic that we defined earlier. Our object will use that graphic.
      The second property is the Position. In our world, this object will be created at (0, 0, 0). In Orx, the coordinates are (x, y, z). It may seem strange that Orx, being a 2D game engine has a Z axis. Actually Orx is 2.5D. It respects the Z axis for objects, and can use this for layering above or below other objects in the game.
      To make the object appear in our game, we will add a line of code in our source file to create it.
      In the Init() function of ufo.cpp, remove the default line:
      orxObject_CreateFromConfig("Object"); and replace it with:
      orxObject_CreateFromConfig("BackgroundObject"); Compile and run.
      The old spinning logo is now replaced with a nice tiled background object.

      Next, the ufo object is required. This is what the player will control. This will be covered in Part 2.
  • Advertisement
  • Advertisement
Sign in to follow this  

Lumi's Journey [beta] An addictive 1 tap mobile game

Recommended Posts



Hello! I’d like to announce the open beta release of Lumi’s Journey! This is HartBloom Studios’ first game. Endless gameplay, 2D styling, and attempting to beat your friends’ high score is something I grew up with, so that’s what Lumi’s Journey is based around!

Any critique or suggestions for gameplay, music, sound, and graphics is greatly appreciated!


xprib.png  2i7phza.png  vax75.png  j91o91.png  21b2c5d.png

Edited by HartBloom

Share this post

Link to post
Share on other sites

Create an account or sign in to comment

You need to be a member in order to leave a comment

Create an account

Sign up for a new account in our community. It's easy!

Register a new account

Sign in

Already have an account? Sign in here.

Sign In Now

Sign in to follow this  

  • Advertisement