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Short Question

I have a 50dip by 40dip button in my Android XML layout. What are the pixel dimensions of the drawable that I need to place in my mdpi resource folder?

Long Question

Let's say I have a 50dip x 40dip button.

    android:background="@drawable/someImage" />

I am satisfied with the physical size of this button on my phone. My question is when I'm designing someImage.png in Photoshop, how do I decide on the pixel dimensions of the image? Currently, I'm just making it a gigantic 500px by 400px image and placing it in the the default drawable resource folder because it's working okay across all the phones and tablets I've tested on.

The reference page on supporting multiple screens does not tell me how to decide the pixel dimensions.

Problem #1 - Baseline graphic

enter image description here

This diagram only tells me the relative dimensions of the graphics I need to put into each drawable resource folder. However, it does not tell me the pixel dimension I need to make my baseline mdpi graphic, from which all other graphics are relative to.

Problem #2 - screen density fragmentation

The density-independent pixel is equivalent to one physical pixel on a 160 dpi screen, which is the baseline density assumed by the system for a "medium" density screen. At runtime, the system transparently handles any scaling of the dp units, as necessary, based on the actual density of the screen in use. The conversion of dp units to screen pixels is simple: px = dp * (dpi / 160). For example, on a 240 dpi screen, 1 dp equals 1.5 physical pixels. You should always use dp units when defining your application's UI, to ensure proper display of your UI on screens with different densities.

This little tidbit tells me that a 50dip wide graphic on a 160dpi screen will appear to be 50px wide. So great, you say. I should make my mdpi graphic (160dpi falls under mdpi) 50px wide in Photoshop. Well, it's not that simple, because not all mdpi phones are 160dpi. What if my mother's mdpi phone is 167dpi? Then my 50dip wide graphic would appear as 52.1875px on her phone, which would likely cause some weird blurring artifacts. So what am I supposed to do? Should I model my baseline mdpi off of my mother's 167dpi phone or should I model it off of the perfect laboratory 160dpi phone which maybe doesn't even exist in the real world?

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3 Answers 3

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When it comes to problem #2...

Should I model my baseline mdpi off of my mother's 167dpi phone or should I model it off of the perfect laboratory 160dpi phone which maybe doesn't even exist in the real world?

You should model it aiming at the perfect laboratory 160dpi phone. This is pretty much what that article is trying to tell us. My reasoning is that ldpi, mdpi etc are 'generalised' densities and it is the responsibility of the Android OS's graphics engine to correctly compensate for actual dpi of any given device. There really isn't any other way of doing it other than forcing device manufacturers to use authorised screen components (which isn't going to happen).

As for problem #1, I would look at the width:height ratio of your button and pick actual pixel dimensions based on that but larger than the 'model' 50 x 40 px. The W:H ratio is 5:4 so I'd go for a width divisible by 5 but larger than 50 perhaps 60 which is conveniently divisible by 5 and 4. This would mean creating your button image as 60 x 48 px both of which when multiplied by 0.75 for ldpi purposes give exect values (45 x 36 px).

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I understand your mathematical reasoning behind creating multiple drawables with whole number dimensions, but that doesn't necessarily mean the final image rendered on the screen will have whole number dimensions. If someone has a weird 167dpi screen, it will translate your density-independent pixels (dip) into fractional numbers. Presumably when this happens, Android must do some weird interpolation and the final image will look slightly off. Basically, I'm saying it's not a black-and-white 1x or 2x scaling like iPhone. – JoJo Nov 10 '11 at 1:20
@JoJo: But basically what I'm saying is that you have no choice. The only /res/drawable folders you have at your disposal are ldpi, mdpi, hdpi, xhdpi (plus the nodpi and tvdpi ones). It's up to the implementation of Android on a specific device to interpret how to use the drawables that you provide based on the hardware. If the version of Android on a device with a 167dpi screen decides it is in fact an mdpi screen and interprets for the 'perfect' 160dpi model there's nothing you can do about it. All I can suggest is to create larger images which will scale down - it's better than scaling up. – Squonk Nov 10 '11 at 2:59
So basically, Android does not allow for pixel perfect drawables unless you use pixel units for dimensions, which is unadvised. For example, if you have a fine grained checkerboard image, you'll see a moire pattern when certain phones decide to slightly nudge the dimensions either up or down. – JoJo Nov 10 '11 at 3:38
@JoJo: "Android does not allow for pixel perfect drawables unless you use pixel units..." - Pretty much. The whole point of creating drawables for the 'generalised' screen sizes and densities is that Android allows for 'convenience' ways to easily translate to devices which fall within a particular category, e.g. small screen-hdpi or large screen-mdpi etc. If you really want to you could use absolute pixels and provide several drawables to use depending on getting the DisplayMetrics yourself and adapting. You'd have to do all the scaling yourself though (continued...) – Squonk Nov 10 '11 at 7:13
@JoJo: ...but that's a fair amount of work especially as there are very many devices which DO actually conform to standard display formats (there is a finite number of display manufacturers in this world and probably less display formats than you'd expect - 167dpi, for example, is not logical nor are very many other dpi specs). You mention the iPhone but remember Apple have ABSOLUTE control over their device design. The issue of supporting multiple screen sizes and densities isn't an Android failing, it's a side-effect of Android being portable. – Squonk Nov 10 '11 at 7:18

I don't create the assets that go into our apps (designers do), but I spend a lot of time fixing them so that they are usable across different devices.

I'd suggest something like this:

Make your layout designs (wireframes) for a mdpi 320x480 device, make your pretty designs for the highest res you're going to support. Then think about it - what assets need to stretch, minimum and maximum sizes etc to support different screens. Don't just slice the assets as they appear in your design, .9 patch them, optimise them.

Use the assets from your high res designs and let Android scale them down for you - you've laid out everything to fit on mdpi devices (don't support ldpi... urggghhhh....). A button background shouldn't be a set size, it should be a 9 patched png with min sizes - the content (text or icon) / available space / xml layout will determine the final size.

I might just be blabbering.

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I base all my graphics off using 320x480 as the total screen size. Pixel density does not really play a role until I'm ready exporting the other density graphics. That ends up being 480*1.5 and etc.

To make another point, when you are doing 50dip x 40dip what you are really saying is 50px x 40px using a 320px x 480px baseline. Android will scale images to a certain extent for you so what you were doing does not look half bad. What you should do in this case is make a 50px x 40px button for mdpi, and make a 75px x 60px(these are x 1.5) for hdpi etc.

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I think you are confusing resolution with pixel density. You say a phone with 320px by 480px will always map to mdpi. This is not true. If that 320px by 480px phone where a 2inch by 2inch phone, it would be considered hdpi. – JoJo Nov 9 '11 at 23:11
That is not what I meant to get across, what I mean is ANDROID always maps to 320x480, that is the baseline as stated in the docs. With this in hand you can begin to calculate what the images actually need to be since he liked what he had set using dips in his app. – sgarman Nov 9 '11 at 23:54
Are you sure? I thought the d in mdpi refers to "density", not resolution. There's no r in any of the drawable resource folders. The purpose of these folders is so that images look the same physical size on all phones. They don't occupy the same number of pixels on each phone. – JoJo Nov 10 '11 at 1:22
Maybe someone else can clarify this. – sgarman Nov 10 '11 at 2:37

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