As I said on the title.
I just want to know which is better between using image files and drawing vector shapes (or path).
I know that using vector is better for appearance but what about performance.
And if this depends on cases. Can anyone explain.
(This question may include WP7, Silverlight, WPF or even in general cases.)
Here is a general answer to compare pros/cons of Bitmap (what I think you mean by "image file") vs. Vector.
Bitmap-based images (gif, tiff, jpeg, png, bmp) are essentially the concept of mapping colours (and other data such as alpha layer) to a pixel grid. Different file formats offer variations of what is supported and levels of compression but this is the high-level concept. The complete map of pixels and data is stored in the file as a matrix/table.
Vector-based images, as you say, are path based. Instead of storing information by pixels, the file format will store geometric points and data.
The pros for bitmaps are:
They usually render faster than a vector. This is because there is minimal computation involved in presenting the image (just take the pixel map and display).
They handle "photographic" content better than a vector.
They are more portable than vector. GIF, JPEG, PNG, BMP are more standard than any vector format (where usually Adobe has the market)
The cons for bitmaps are:
They don't scale without degradation (pixelization)
Manipulation (i.e. resizing, blurring, lighting, etc) of a bitmap is more processor expensive than a vector
The files are usually much larger than vector-based files
The pros for vectors are:
Flexible for scaling and manipulation
Smaller file formats than vector
Ideal for print and animation (i.e. manipulating a shape to produce the animation effect)
The cons for vectors are:
Render time, depending on the complexity of the vector, can be longer
Portability most formats are highly proprietary
Work for "graphic" based images but not useful for photorealism
Hope this helps.
Jeremiah Morrill gave a great overview of WPF rendering that basically shows a vector will always be more expensive to render than an image. Basically an image gets treated as a directx texture...no matter the size, scaling or whatever, there is a set constant cost for rendering an image. As Jer's overview shows, even the simplest vector image takes a number of operations to render in WPF. The moral of the story is that when giving an option, go for the image instead of vector.
Based on our experience with Windows Phone 7 (Non-mango) apps, we find using Images instead of using drawing produces a far more responsiveness hence UX Performance for continuous animation in pages. (YMMV)
I would initially say that images render faster than vectors. The complexer the vector, more time it takes to render. The bigger the image, more time to render.
I'm going to speculate that (in Silverlight terms) most of the current video hardware is capable of directly handling the images rendering getting so a boost in the performance. I'm not sure if calculations for vectors can be done at video hardware level.
From the point of view of Windows Phone 7, you'll typically get faster rendering of images/bitmaps rather than paths/vectors. As a general rule for mobile development, due to the constrained resources on the device and the increased need to consider performance, if you can do something once, such as preparing an image, at design (or compile) time that definitely preferable to doing it multiple times on each client.
Be very careful of applying rules across platforms (WPF, Silverlight & WP7) as they are used for different things in different situations and are under different constraints. Things you have to consider on the phone may not be as much of an issue in a WPF app running on an high powered PC.
Related
I'm writing an astronomy application using Apple's SceneKit and want to provide a skybox of stars to surround a planet.
I have found a large JPEG (8192x4096) with suitable content but my "camera" field of view (10 degrees) magnifies the skybox image background enough to cause serious loss of resolution. In short, it doesn't look good .. here's a screenshot showing blurry stars:
https://ramsaycons.com/screenshots/SkyBoxRes.png
One solution for greater fidelity would be, I imagine, to use a resolution independent 'material' image like a PDF, but SceneKit doesn't support PDF 'materials'.
Or, I could find, or build, a better or bigger image for the skybox material. For example, a (32768x16384) would look better, at the cost of a massive image ~ the 'small' one I'm using now is nearly 8MB already.
Another option would be to move closer to the planet and widen the field of view, but I don't want to move the camera so close (specifically, because I want it 'above' geosynchronous objects in my model).
This code-less question feels not quite appropriate for StackOverflow, but my reading of related Q&A's here reveals a knowledge of clever SceneKit tricks I wouldn't have thought off .. maybe there's a trick for me out there!
I'm using Cairo for text rendering on an embedded device. I've evaluated the 'toy' text API (i.e. cairo_show_text) and it works very well and is efficient. Unforunately it only supports the most basic operations and always discards the shape immediately.
What I need to do is draw simple text with fill and stroke. When I do this using the slightly more complicated API (cairo_text_path) it works but performance drops to unacceptable levels.
It's a bit difficult to find documentation but I did find this hint:
Be aware cairo_show_text() caches glyphs so is much more efficient if you work with a lot of text.
Where can I read about this glyph caching and how to it also for cairo_text_path? Ideally, is there a code example of this being done? I only need to support this simple use case.
cairo_text_path converts a text with all glyphs to a path and adds him to the context. Rendering this path is expensive because of many segments - dozens of moves, lines, curves for every single glyph.
Glyphs caching by cairo_show_text means that repeating glyphs/characters get rendered once and saved in a much cheaper format (like scanlines, triangles or bitmap) for later occurrences. Because the font doesn't change in-between, this recycling isn't a problem.
You could do this caching by yourself, rendering glyphs on image surfaces and using them as pattern, or simply use bitmap fonts from the beginning.
I am looking for some algorithms to add a convex mirror effect and concave mirror effect to an image. I want to know also how to make this efficiently: applying the algorithm to image data or overlay it by a transparent image that contains the effect. But I don't think the second choice is applicable in this case.
If you are doing it manually instead of using hardware primitives, then the bresenham interpolation algorithm (usually used for line drawing) is the way to go: error propagation is far more efficient than other, more complex, methods.
What Bresenham does is just interpolation. Don't miss the opportunity to use its efficient design elsewhere (slope calculation for line-drwaing is just one of the many applications of interpolation: you can interpolate another dimension: 2D, 3D, transparency, reflection, colors, etc.).
25 years ago, I remember having used it to resize bitmaps and even do texture mapping in a real-time 3D engine! That was at a time graphic-accelerated video boards costed a fortune...
CImg library has a fisheye sample, in examples\CImg_demo.cpp. The core algorithm seems very simple (and fast, as generally this library). I think it's an approximation of the real optical effect, but could be modified to handle the convex mirroring. I don't know if it could be extended to handle 'negative' curvature.
You can use a pre-calculated sin() table and interpolate values to match the size of your bitmap. The inverse effect is achieved by either using an offset or a larger table.
Remembers me the (great times of the) DOS demos in the 80s...
I am looking to style my application with some graphic elements. Icons and other thinks.
Is it better from performance and best practise point of view to use vektor graphics (XAML) or turn my graphic to a PNG?
And Why?
I am aware of the fact that vector graphics are scaleable... this is just a performance questions on large xaml based apps.
You have to weigh your own needs. If it's solely performance, then I'd say that depends on the number of images. If they're a large number then XAML would indeed be more performant, otherwise it would be negligible.
But I have to say for sheer maintainability, especially since you're talking about icons and such, you're far better off with bitmaps and I'll tell you why. Anyone and their brother can edit an icon. You can't say the same with vector graphics. If you want to replace your icons at some point, you simply replace the image. You don't have to go through the hassle of either creating and/or finding vector images and then (most likely) having to convert them to XAML through an export filter. Additionally, there are literally millions of CC licensed icons in bitmap form that you could use for nothing more than attribution.
Yes, there are some hassles with bitmaps (such as some quirks dealing with the ActualWidth/ActualHeight) from time-to-time, but those are minor, in my opinion.
ADDED: Yi-Lun Luo from Microsoft stated vectors are faster back in 2008. With the release of version 3 in 2009, Silverlight has taken advantage of the GPU which makes vectors even faster, if you enable it as well as if you also use BitmapCache. So on from a purely performance standpoint, vectors would be faster, theoretically.
Advantages of XAML over PNG:
Scaling - XAML drawings are made of vectors so are able to scale. Scaling beyond a factor 2 can cause issues (rounding off errors when scaling down and too little detail when scaling up).
Dynamic coloring/animations - You can easily manipulate the colors and points or even curves in the drawing using animations.
Advantages of PNG over XAML:
Speed in loading/caching - PNG can be cached on the GPU. Never more bytes on disk than 4 bits per pixel (+ some overhead)
Pixel perfect - what the designer draws is shown in the app. This is a lot harder when using vectors.
You pick depending on your needs and measurements of performance, load and files sizes.
I am working on a small project where I have to write a low level app. I'd like to display text in that app, and I would even like it to be anti aliased (à la ClearType). No libraries allowed, I have to draw each char pixel by pixel.
What is the best way to do this? Can you recommend some known algorithms? How should I store/read the fonts?
Thanks!
You mean you just want to smooth the edges of an existing bitmapped font? This is easy if your original font is 16x32 and you want to render it at 8x16 or something like that, but if you don't have a higher-resolution bitmap to begin with, smoothing is a highly nontrivial operation involving a lot of guesswork. In that case, I would lookup the 2xsai algorithm (which gives visually-pleasing results for this kind of thing) and first perform it to upscale the font to double resolution, then scale it back down with a area-averaging algorithm (i.e. take each destination pixel from the average of a 4-pixel square).
I would also recommend saving your final "anti-aliased" bitmap font and simply using it in your program, rather than performing all this work at runtime.
Putting all together:
There are two main types of fonts:
1) Monospaced: all the characters have fixed size, and you define a bitmap for each. No need for Anti Aliasing (you can hardcode the grey levels in the bitmap). Look horrible when resized.
2) True Type: each letter is defined by a set of parameters for Bezier curves. Can be easily scaled to any size, but requires lots of program logic (and processing power!) for that. Anti Aliasing is useful here (and especially the sub-pixel rendering techniquies).
As I see you want to use bitmapped font and rescaling? You could just precompute several of them, thus avoiding complex runtime logic.
As R. suggested, keeping the bitmaps at higher resolution in greyscale instead of BW will help. I'd suggest using size that is divisible by most small numbers, so that the bitmap can be downscaled easily. Also, if this resolution is high enough, then you can keep it in BW and downscale to greyscale (using surface integral).
EDIT: feel free to edit it and please don't vote. Just put all those commentaries together.
It is hard to build a good font engine, especially if you need to do scaling and anti-aliasing. So I suggest you take the easy path:
Decide on the fonts and sizes you want to use.
Generate a bitmap font for every font/size combination you need to use. This can be done with a tool like Bitmap Font Generator.
Use the bitmap fonts in your program. Blitting bitmaps should be relatively easy.
If you want more features, I suggest you look into using an engine like FreeType before trying to make your own solution.
Well, reading a TTF (or any other) font and rendering some glyph into the bitmap isnt that hard, given you know some stuff about rasterization and bezier curves. The bad point is that if you want the text to look good, it's gonna take a huge amount of code. Aliased font is pretty hard to render, I'm not talking about hinting. There needs to be a routine for kerning, multi-character sequences, something that decides which glyphs map to your characters and also encoding stuff, ...
You might want to use a bitmap font, which comes pre-rendered - then the whole rendering operation is a simple image copy, eventually with some resampling or rotation; but well, you lose the vector font features.
My advice is to take FreeType and live with it, it's a nice library just for this, and can be statically linked and stripped of unnecessary bloat very easily.