Screen Shot 2013-01-17 at 01.46.23I’m currently working on a new tilemap renderer for KoboldTouch.

I now have an early version that’s fairly complete and does most of what cocos2d’s tilemap renderer can do. Pun intended: yes, cocos2d’s tilemap renderer really doesn’t do all that much: load and display tilemaps with multiple layers.

In fact my current implementation is one step ahead already:

KoboldTouch’s tilemap renderer doesn’t require you to use -hd/-ipad/-ipadhd TMX files and the related (often hard to use or buggy/broken) TMX scaling tools. Just use the same TMX file designed for standard resolution, then simply provide just the tileset images in the various sizes with the corresponding -hd/-ipad/-ipadhd suffixes. The tilemap looks the same on a Retina device, just with more image detail.

Performance Comparison

Anyhow, I thought I’ll do some quick performance tests. I have a test map with 2 layers and a tiny tileset (3 tiles, 40×40 points). I’m comparing both in the same KoboldTouch project, using the slim MVC wrapper (named KTLegacyTilemapViewController) for cocos2d’s tilemap renderer CCTMXTiledMap.

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I already blogged about scaling node positions with display resolution. This feature is now built into KoboldTouch. Time for a demonstration before I get back to work on an improved Tilemap renderer:

The cool thing about KoboldTouch autoscaling is that it works transparently. Your nodes will be positioned relative to the design resolution, for example 480×320. The nodes will continue to use the same position on any device! So you just develop these nodes’ positions and their movement as if they were always on a 480×320 device. It’s that simple.

It also works for movement of any kind, be it CCMove* actions or manually updating the position property every frame. Moving nodes continue to move seemlessly even when you rotate the device.

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KoboldTouch now available for less!

On January 8, 2013, in KoboldTouch, by Steffen Itterheim

koboldtouch_softwareboxopentop_250x250While I did the year’s end reports on practically everything, I also ran the numbers on KoboldTouch.

Now that it’s been available for just over two months, I decided to make the $39.95 plan available for everyone which was previously only available to Learn Cocos2D 2 book owners. This plan replaces the $44.95 plan.

The “3-months only” plan is now also down from $44.95 to $39.95.

Check out KoboldTouch here.

Please take the KoboldTouch survey. I highly appreciate your feedback, thank you!

With actual sales figures of the past two months I could see a clear pattern:

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scr01There hasn’t been a new Cocos2D Podcast in over 4 months.

It was about time Mohammad Azam and I recorded another one.

This time our guest was Krzysztof Zabłocki, developer of the Foldify app and contributor to cocos2d-iphone.

Among other improvements Krzysztof added stencil buffering to CCRenderTexture.

Interviews with Mobile Game Engine Developers

The Mobile Game Engines eBook is now available!

One of the interviews is with me, about Kobold2D. KoboldTouch was at the time no more than an idea.

Jason Brownlee gave me permission to share the full interview with me (PDF, 18 pages). Go on, read it!

There are of course plenty more reknown game engine developer interviews in this book. Here’s the full list of interviewees:

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Scaling Cocos2D Node Positions with Display Resolution

On December 27, 2012, in idevblogaday, by Steffen Itterheim

Here’s a quick tip on how to design your scenes so that they scale up to higher resolution displays. For example when your app runs on a widescreen iPhone / iPod touch or on an iPad. This article is not about Retina displays, which use the same coordinate system and merely display higher resolution images.

Design for the lowest supported resolution

First, design your game to the lowest device/window resolution that your app supports. In most cases this will be the 480×320 points used by the majority of iPhones.

Contrary to images, you always want to scale your designed screen layouts up and never down. This is because upscaled screens will always fit on the device’s display, with more or less additional spacing between the nodes. Downscaling however might cause screen elements to overlap, which is hard to fix if you don’t see the overlap in the resolution you design for.

It’s also easier to make manual changes to upscaled screen layouts than it is for downscaled screen layouts.

Calculate the scaling factor

By dividing the current device/window size with the resolution you designed for, you get the scaling factor by which you have to multiply positions. This is a simple wrapper you can use:

To make a node’s position resolution independent, use the position you would use for a 480×320 screen and scale it up:

This even works for autorotation. If you use NSNotificationCenter to receive orientation change events, you can use the scalePoint method with the current position to generate the node’s position after the rotation happened. You can try by simply changing the designSize to {320, 480} and setting the app’s default orientation to Portrait.


Of course it’s entirely up to you what makes sense, which nodes can be scaled and which should not. For example squeezing a landscape app in portrait mode is possible, but it simply won’t make for a good user experience. However scaling HUD elements that should be aligned with one side of the screen so that they automatically stick to the side of the screen (ie widescreen iPhones, iPad) would be a huge timesaver.

If you update your node’s positions manually in order to move them, then you may have to also scale the amount by which the node moves. It’s easy to do by multiplying the movement vector with the same scale factor.

This won’t work well for actions, which may run faster (or sometimes even slower) depending on window size and aspect ratio. But it’ll work with actions nonetheless if you also apply the scale factor to the target position.

Another issue to watch out for is to accidentally scale up a position, and then scale it up again. This can happen if you’re not careful when updating more complex algorithms or dependencies where more than one method updates the node’s position. The best way to avoid that is to ignore scaling until just before the screen is drawn. You could override the draw or visit method (don’t forget to call super) and scale the position:

After drawing is complete you could then reset the position back to its original by dividing by the scale factor. I’ll leave it up to you to add a convenience method for that. That would make the position scaling completely transparent to your app and you could simply consider all screens to be in the designed for resolution.


I will be adding a KTAutoscaleController to KoboldTouch soon to make this easier for KT users. This will be a really nice feature to have, and really easy to use:

Until next year, have an enjoyable year’s end!

YETIPIPI Gameplay Video

On December 20, 2012, in Announcements, by Steffen Itterheim

Check out this new gameplay video from the official YETIPIPI website:

Get the game here. Note: it’s only available in Germany & Austria for now, worldwide release will hopefully be in January.

You can find more details about the game including a technical postmortem in an earlier blog post.

Also for the german speaking crowd (and those who are really quick to learn a new language): Game One posted a video interview with cartoonist Joscha Sauer about the game. Game demo starts at 11:30.

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The game I coded is finally out: YETIPIPI

On December 17, 2012, in Announcements, by Steffen Itterheim

I’m really happy and excited that YETIPIPI was released today in the iOS App Store! :)

UPDATE: currently only available in german App Store due to delayed english localization.

Go grab it for $.99 (€.89) try it out and give it it’s (hopefully) deserved 5-Star review.

What’s the game about?

YETIPIPI was a contract project in collaboration with Doubleplus Digital Media Entertainment for Joscha Sauer. Joscha is one of germany’s most popular cartoonists and the mastermind behind the Nichtlustig cartoons (some of his cartoons are also available in english).

The game is inspired by one particularly famous comic strip, where a Yeti pees in a circle, leaving him (or in this case both) stranded in an unfortunate situation.

To survive, our Yeti must drink so he can pee the ice floes floating about in ever smaller pieces. You control the Yeti with the accelerometer to collect items, evade ice floes and to aim your stream of urine.

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There are two classes of scrolling, "fake" and "real".

Altogether there are four ways to create a scrolling view in Cocos2D: with CCCamera, with CCFollow, manually moving a layer and "faking it".

I’ll discuss each approach and show their advantages and disadvantages as well as point out for which types of games they work best.

The example projects for this article can be downloaded from github.

Fake Scrolling – Creating the Illusion of Movement

Ideal for "endless scrolling" games. Typical genres include jumping or running games like Doodle Jump and Canabalt, as well as shoot’em ups.

These games mainly scroll along one axis, often scrolling only in one direction. The other axis has a limited range or is not scrolled at all. The fake scrolling approach prevents the coordinates of game objects to "explode" to similarly infinite coordinate points. This could introduce rounding errors in floating point values which may accumulate over time, causing inaccuracies at later stages of the game.

To create the illusion of scrolling, at least two background image sprites are needed. Four are needed if you also want to scroll a little along the minor scrolling axis. The background images must be repeating seamlessly, and each must be at least the size of the screen. The trick is to use the two or four images and move them in the opposite direction of where the player is supposedly heading.

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