Michael Zucchi

 B.E. (Comp. Sys. Eng.)

  also known as zed
  & handle of notzed


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Thursday, 30 April 2015, 13:45


My shitty scales said i broke through the 80kg floor this morning. It usually wavers a little over a week but the trend has been clear of late so even if it's not stable it's not far off being so.

Once I got to about 81kg I actually started to actually feel lighter, although the belt is the first indicator followed by the mirror. I've got a waist again.

Not sure how much more will go but 10kg from the start of Feb to the end of April is alright and i'm still eating like a chook.

Now if only my foot worked ...

Tagged biographical.
Thursday, 30 April 2015, 11:01


Playing with spliterators again.

This was my first go of the row spliterator forEachRemaining() func, and does what I believe the stream api expects:

public void forEachRemaining(Consumer<? super ByteRow> action) {
    for (int y = this.y, ey = y + height; y < ey; y++) {
        ByteRow row = ...;
        pixels.getRow(y, row);

And this is the way I would rather do it, because well any other way is a bit dumb:

public void forEachRemaining(Consumer<? super ByteRow> action) {
    ByteRow row = pixels.createByteRow();
    for (int y = this.y, ey = y + height; y < ey; y++) {
        pixels.getRow(y, row);

Because spliterators are single-threaded this actually works for some (all?) of the stream operations that make sense like "map()" (even multiple stages), "collect()", "forEach()", and a couple more. This is because these (or the parts which take the partial result) are all run on the same context as the spliterator. It wont provide meaningful results for others like "toArray()" or "sort()" but those operations wouldn't even if they did and one could always map to a new copy.

Of course, a different streams implementation could change that but I think it's one of those "i'll fix it if it breaks" things and I suspect it wont ever be able to be altered because someone who pays money to oracle will also think the same thing but wont want to fix it on their purse.

Maybe keeping valid instances around makes more sense for tiles, but if needed a copying collector could do that instead.

Update: Ok I decided not to post this originally because i just wasn't feeling like it, but now here goes, so this is a pre-post "update".

I followed on these ideas and did a bunch of re-arranging and settled on a consistent approach: by default any in the "stream" are just references to per-spliterator instances. If they need to be unique for further prorcessing they can be duplicated by clone() or the like. If it turns out this assumption is not sufficiently useful i can just change the spliterators then.

I did a bit of refactoring to try and save some small common bits of code in the spliterators but it just seemed like fiddling at the edges and adding extra classes for no real benefit.

Then I ran out of steam a bit and haven't really done much else on it.

Been doing some mildly interesting things with javafx though - i was going to say a few days ago how nice it is to work with, but then i hit some exceedingly frustrating problems with very simple layout needs which really gave me the shits. I got it working but damn it took way longer than it should have. I also spent too long trying to work out how to blend against a generated mask before I remembered about using the clip node. It's only a simple compositing task but having it running interactive speed with "so little work" is nice.

Tagged hacking, java.
Monday, 27 April 2015, 09:42

ASM + Consumer = ?

I ended up adding bulk operations to my 'row accessor' for the remapping functions; which let me get away with a single driver implementation whilst still retaining most of the performance. I have a separate row accessor for each type and image depth - this is essentially an N-channel vector. Possibly a solution to the problem of complex numbers in java actually so there's something else to try.

So i kinda cleaned a bunch of it up and started a code repository and whatnot.

But after getting all that stuff sorted out; I found the api just wasn't very convenient.

For starters I tried the "andThen" thing of a consumer and found it doesn't work if you have a function which takes two arguments since the second one will still be processing the original input. But I guess thats what you should expect when you abuse the contract; what i really want is a function not a consumer. I'm just trying to avoid all that temporary garbage that would ensue if i kept allocating arrays for each output stage. I just changed andThen() to take only an in-place processor so it 'works', but this isn't very flexible.

This is probably something I can work through the accessor one way or another although anything that isn't trivially simple might be faster just leaving to new[]. Maybe provide in/out/tmp accessors and a way to toggle which one is which as it passes through the processing chain.

ASM bytecode editor

It would still also be nice to just write simple per-pixel operations without the likely potential of losing so much performance.

So I had a "quick look" this morning at using ASM to do some on-the-fly bytecode foo to make it happen. And well, I think here's a rabbit hole that might keep me occupied for some time ...

My first cut was based on the observation that hotspot will in-line a function call if the code-loop which calls it only invokes up to two instances of the function. So my first goal was to make this 'true' and let the JVM handle the optimisation. I have a a class which implements the Pixel accessor interface and can track a row. It has a forEach function which sets itself up and then invokes Consumer.accept() on itself for each location. When I want to run a particular Consumer over pixel data, I create a new class which is a copy of the original but renamed to be unique and then load this via a class loader. I then create an instance of this class and set it up for the target image and then invoke the forEach function against the Consumer. So this is effectively "specialising" the whole class for each target type.

Does it work? Well it's about 3-4x faster than when hot-spot de-optimises the function which is pretty good; but it's still about 2x slower than it was before hot-spot did the de-optimisation. By passing the consumer interface in the constructor i can knock a bit more off. Hmm, I did think maybe i could do something a bit more involved but now i think about it i'm not sure I can actually.

For an indication of the proportion I have a case that goes from 3.5ms (optimised) to 22ms (deoptimised) to 7ms (per-callback specialisation) to 5.8ms (callback in constructor). Better than a poke in the eye anyway and didn't take much work.

Well I guess the short of it is that whether or not I pursue it at this point it means I don't really have to worry too much about the deoptimisation drop-off when considering the api; if it really becomes an issue I do have the option of doing something about it. And i'm sure there are existing libraries for this if I really needed it (but for now i'm more interested in the mechanism than the results). ASM is something i've wanted to look at for a while anyway.

API humdrum

I can go back to thinking about that api again. Actually maybe the row-based one isn't so bad after-all, I originally made a mistake with the way I started my 'op library' and I was creating a new class for each operation which was a bit cluttery. When I fixed some of the definitions I could change the fixed-function stuff to lambdas and that improved it somewhat.

I'm not that happy with the in-place vs/in-addition-to the out-of-place functions - is it worth all that effort for a bit of speed in some cases? I'll have to at least try a functional/value-returning version to see what impact that has on performance and whether it can be mitigated using some thread-job-specific buffering. I guess that'll keep me off the streets for a little while longer yet.

I also started a basic gui 'thing' to exercise everything and build a useful tool I want for myself. But that will remain a slow-burner for the time being.

So since a 'quick look' turned into 'I guess I totally wrote that day off' I thought i may as well try the row streaming thing before dinner. Running time is ok - about 8.8ms for that earlier test except it's writing to a new image, but as one would expect it can be very very garbage heavy. I'm assuming the contract here is that the row needs to be allocated every call - i suspect in many cases it can just be allocated per-spliterator which makes a huge difference to the gc overhead although it probably breaks the streams contract(?). Using a custom map/collect which runs a batch of rows in a specific thread allows me to get rid of all that garbage and running time is in the order of 4.4ms which is acceptable. Unlike the earlier tests each function includes it's own loop but given each is working on it's own copy of the data it makes them more re-usable.

I'm fast approaching the point I just want to settle on something that works and throw away all these new experiments. Infact I think i'll do that right now; that should fill out the evening and round out the day.

Tagged hacking, java.
Saturday, 25 April 2015, 17:36


So I discovered from observation that the whole performance thing is basically some fundamental speed/space trade-off in the compiler. It seems that for any (abstract) class which implements a loop and calls a method defined in a sub-class inside that loop, it will be inlined (if possible and/or based on other parameters) for up to two sub-classes, but if you add a third those both will be thrown away and replaced with a version they all share which uses a method call instead.

This dynamic recompilation (or rebinding) is actually pretty cool but has some implications for the whole mechanism on which java streams/lambdas are built. It's only much of a "problem" for tasks that don't do much work or for platforms where call overhead is high and where the operation is being called multiple-millions of times. But lambdas rather encourage the former.

Micro-benchmarks overstate the impact and in any event it can still be worked around or avoided in performance-critical code. But regardless I know what to look for now if i see funny results.

I did some experimentation with yet another way to access and process the pixels: by row accessor. There are still on-going but my current approach is to have a Consumer which is supplied a type-specific row accessor. This allows flat-mapped access via a get(i)/set(i,v) interface pair and exposes the internal channel ordering (which is fixed and interleaved). To handle different storage formats the forEach function will perform data conversion and be supplied data-directional hints so that each implementation isn't forced to implement every possible storage format.

Performance seems to be pretty good and there don't seem to be any weird speed-degradation gotchas so far. The Consumer code still needs to implement a loop but it's somewhat cleaner than having to have an array+base index passed around and used everywhere and the inner loop being local seems to be the easiest way to guarantee good performance. Oh and I have a way to handle multi-image combining operations by just defining multi-row interfaces which can be passed with a single parameter.

I don't know yet whether I want to also go "full-on-stream" with this as well as the tiles, and/or whether i even want a "Pixel" interface anywhere. I'm getting ideas to feed back and forth between them though like the memory transfer hints and automatic format conversion which might also be applicable to tiles. Having a `Pixel' is still kind of handy for writing less code even if there are performance trade-offs from using it. Then again, how many interfaces do I want to write and build the scaffolding for? Then there is the question of whether these accesors are used in the base apis themselves outside of just supplying ways to read or write the information.

Well that was a short diversion to end the day but I actually spent most of today (actually almost a full working day's worth) implementing what I thought was a fairly modest task: adding a parameterisable coordinate mapper to an all-edge-cases handling "set pixels" function. I'm using it as part of the tile extraction so that for example you can extract a tile from anywhere and have the edges extended in different ways that suit your use.

I already had a mapper enum to handle this for other cases but performing the calculation per-pixel turned out to be rather slow, actually oddly slow now I think about it - like 100x slower then a straight copy and it's not really doing a lot of work. I tried writing an iterator which performed the calculation incrementally and although it was somewhat faster it was still fairly slow and exposed too much of the mess to the caller. After a few other ideas I settled on adding a batch row-operation method to the enum where it handles the whole calculation for a given primitive data type.

The mirror-with-edge-repeat case turned out to way more code than I would like but it's something like 20x faster than a trivial per-pixel mapped version. It breaks the target row into runs of in-order and reverse-order pixels and copies them accordingly. I can get a bit more performance (~20-30%) coding specific versions for each channel count/element size; but it's already enough code to have both float and byte versions. Hmm, maybe this is something that could take a row-pair-accessor, 4 arguments instead of 8, .. ahh but then i'd probably want to add bulk operations to the interface and it's starting to get complicated.

Well now i'm super-tired and not thinking straight so time to call it a night. My foot seems to be going south again and i've been downing all the tea and water I can stomach so i'll probably be up all night anyway :(

Tagged hacking, java.
Saturday, 25 April 2015, 04:02

Streaming tiles

Yesterday I pretty much got lost all day poking around streams and iterators and puzzling over compiler nuances. It was a horrid cold and windy day and my foot's in no state to do anything so I didn't really have much else to do on an rdo. I learnt way more than I really wanted to ...

I was trying to come up with ways to make pixel-programming 'easy' and fit it into the stream framework yet still run at near-optimal efficiency. Streams of primitives are fine for single-channel images but since you can only return a single value the typical 'function' interfaces just don't work.

This means that you have to return multi-element values in some other structure and given it's stored that way; just writing directly to the storage array with an offset works.

My initial approach was to internalise the loop over rows or spans of consective pixels and just pass offsets and a length. i.e. all operators are batch/vector operators. This lets one amortise per-row addressing costs and the compiler can do some other optimisations fairly simply.

The problem is that you're still left writing yet-another-fucking-for-loop each time you write a new function ... and apart from that you've lost the positional information which is sometimes required. Ho hum.

So then I tried functions which operate on a single pixel but are given the coordinates and the channel number as parameters. This looked fairly promising and the performance is still good but it doesn't really solve the initial problem in that each channel is still being processed separately.


Then I tried a Pixel accessor object. This somewhat suprisingly ... was actually very fast.

Well not really. Is it? I thought it was? Things get a little odd here. I had various other cases but the most recent and relevant one is that as soon as the same class of an iterator is used for more than two callbacks suddenly the performance plummets by 5-10x; and stays there forever more. This would explain the strange results that I encountered in the previous post. It seemed like a compiler bug soI tried some older jdks and they were identical, but since i don't feel like removing all the lambdas they were all 1.8.x. It may just be a space/speed tradeoff rather than a bug.

So, ... well shit to that.

And I tried everything ... I first noticed that sharing a spliterator class between different target classes seemed to be the problem, but then i found i could use a general spliterator and then use a custom iterator for the inner-most loop, but then I found even that drops in speed once you have too many functions. So I tried per-target iterators and spliterators and forEach() implementations with out luck.

Since I had some pretty poor performance from immutable base types before I abused the interface somewhat anyway: each pixel is the same instance and I just change the parameters for each consumer invocation. This means the object can't be passed out of the first map() or forEach() stage. It still works for many cases though.

For example:

// greyscale quantise to 16 levels
src.pixels().forEach((Pixel p) -> {
    int v = p.get(0) & 0xf0;
    p.set(v | v>>4);

Just for kicks I might see how well an immutable accessor works - the pixel data will still be stored in the original image but the 'Pixel' object will track it's location so it can be passed through a map function. I can't see much use for chaining per-pixel processing in this way though as you can just add the extra steps in the same function.

If i'm really bored I might try one where the pixel data itself is also copied so you'd need to use a collector to reconstruct an image. Again; I can't see how this would be useful though.


Because I thought i'd solved the Pixel performance problem; and I had at least exhausted all my current ideas, I thought i'd tackle the next big one: tile processing.

So the goal here is to break an image into tiles, process each one independently, and then re-form the result. This ... actually looks a lot like a stream processor and indeed it fits the model quite well assuming you retain the tile home position through the stream (does this make it not really a stream? I don't know, I think it's close enough and the arguments otherwise are a bit pointless).

After a couple of iterations (you can do a lot in 14 hours) I'm getting pretty close to something i'm pretty pleased with. It supports a copy mode which can pass tiles through a processing pipeline and an accessor mode which can be used for readonly access or per-pixel operations. Tiles can be overlapped. I've got a collector which forms the tiles back into a single image based on their coordinates.

A more more ideas to try but this is the sort of thing I've got working already:

// process an image by tiles into a new image
BytePixels1 src = ...;
dst = src.tiles(64, 64, 0, 0)
    .map((Tile t) -> {
            System.out.printf("do stuff @ %d,%d\n", t.getX(), t.getY());
            return t;
    .collect(new TileCollector(src.create()));

Because there are fewer of them there aren't so many concerns with gc blow-out as with the pixel case so these are pipelineable objects.

The practical api

I'm not going for api perfection but i'm working on practicality with a heavy dose of performance.

So I like the tile streaming bit: this is just a necessary feature and it's a pleasantly good fit for java streams and works well with threads.

I'm still not sure on approach to pixels yet, so far i've got convenience or performance but not both (at least not in the general case). This latter target seems to be in a bit of a fight with the compiler but there might be a way to put the specialisation in the correct place so the compiler knows how to optimise it or at least not slow down other cases. Another issue is that any temporary storage needs to be allocated in each callback as you don't have access to thread-instance information in order to index pre-allocated information. So anything that needs extra workspace will add even more overhead.

Ideally I would like to support java streams ... but it may be more practical to just use different mechanisms for pixels and leave the stream and multi-thread handling to tiles. i.e. i could just have serial map(), forEach(), and reduce() calls which can be invoked per-tile and leave the combining to the higher levels. Yes that sounds reasonable.

And there are also some cases where the stream interface doesn't really fit such as a calculation across the same location of different images (apart from using a spliterator to create a multi-source accessor?).

As an old boss used to say, just gotta suck it and see. Time to suck?

Steaming piles

The syntax for generics are giving me the shits a bit. Nesting gets ugly very quickly and when things get complicated it's a bit of pot-luck working out what is needed. This is obviously something that could be learnt but it's not very useful knowledge and i'd rather be doing more interesting things. So I'm mostly just twiddling strings and seeing what netbeans tells me - when it decides to respond.

Something has 'happened' to netbeans too. It's using way too much memory and running far too slow. I'm constantly getting out of memory errors which then throws the whole system into a confused state. I've tried closing all the projects i'm not working on and regularly close all windows and even disabling all the plugins i'm not immediately using right now. Barely makes any difference. It starts at 500MB and keeps growing until I have to restart it.

And that's besides all of it's really annoying behaviours which are apparently not bugs. I've turned off all the tooltips and everything automatic I can find but it still wants to pop up this shitty argument list thing every time I do an expansion via ctrl-space: i'm constantly having to hit escape just to fuck that shit off. And it seems to have given up guessing types altogether now. Type `Foo f = new <ctrl-space>' - No, I do not want or could possibly want to ever create a new AbstractMethodError. It's 'smart' build system is constantly out of date - i never know when i'll need to clean-rebuild so rather than face that hassle I just have to do it every time; and even then it executes some other set of classes so can be out of sync. It seems to randomly decide when it'll let you run the same application twice or not. That's one of those utterly pointless features that just isn't necessary and should be removed as soon as it doesn't work perfectly every single time - there's been enough bug reports about it.

And we're talking fairly small toy projects with little or not dependencies written by one man. This image library is only 5KLOC of code lines or 12KOC of source.

Emacs is looking more attractive but that has big problems formatting straightforward C these days (all too often forcing a file close - reopen for a momentary reprieve) and with the size of the java runtime api it's just not practical typing out every function call, package, and type name.

Tagged hacking, java.
Thursday, 23 April 2015, 07:47

spliterators are just iterators

I've been mucking about on-and-off with a 2D pixel library (i.e images) and as one part of that I was trying to utilise the stream functions from java 8 and/or at least look into some functional callbacks.

I can't just use the jre stuff because they don't have byte or float streams and they don't handle 2D data; I wanted to be able to support sub-regions of a rectangular array accessed by offset with different strides.

It took me a little while to wrap my head around spliterators because I was looking at them as if their primary job was to split the work up into smaller chunks to be worked across threads; but this is completely the wrong way to frame them. They are instead just iterators that can be broken into non-overlapping parts.

Once I realised that I had no trouble coming up with some 2D array streams of various types and trying to work out how to get better performance.

Given the code complexity i'm fairly impressed with the performance of the stream code in general but it doesn't always seem to interact with the jvm very well. Some code I have gets slower once hotspot has completed it's optimisations; which is odd. And sometimes it's really not too fast at all.

So I have a test-case which creates a 2D byte array of 1024x1024 elements and sums up every element as an integer 1000 times in tight loop.

The basic object i'm using for these tests is:

class BytePixels {
    public final byte[] pixels;
    public final int width, height, stride, offset;

    public int offset(int x, int y)  { return x+y*stride+offset; }
    public int getb(int x, int y)    { return pixels[offset(x,y)] & 0xff; }
    public int getb(int i)           { return pixels[i] & 0xff; }

The machine is a quad-core cpu and 4 threads are used whenever concurrency.

I'll go through some of the cases I tried and show the inner loops. For the most part i'm assuming offset is not zero since that case is a little simpler but its difference to runtime is minimal. I'm applying obvious micro-optimisations like copying loop bounds or array pointers to local variables.

The first examples are just using basic Java & jre facilities.

376ms Nested loops with getb(x,y)

This loops over the dimensions of the image and calls getb(x,y) to retrieve each element.

for (int y = 0; y < height; y++)
    for (int x = 0; x < width; x++)
        sum += bp.getb(x, y);

This sets a base-line for the most obvious implementation.

387ms Nested loops with pixels[o++]

This loops over the dimensions but removes the internal array calculation by calculating the offset at the start of each row and then accessing the pixel values directly.

for (int y = 0; y < height; y++)
    for (int x = 0, o = bp.offset(0, y); x < width; x++)
        sum += pixels[o++] & 0xff;

This is supposedly optimised ... but executes marginally slower or about the same. Ahah what? I can't explain this one.

328ms Nested loops with pixels[o++] take 2

This is the same as the previous but changes the inner loop bounds checking so that the incrementing value is the same one used as the bounds check.

for (int y = 0; y < height; y++)
    for (int o = bp.offset(0, y), e = o + width; o < < e; o++)
        sum += pixels[o] & 0xff;

Given the simplicity of the change; this makes a pretty big difference. I must remember this for the future.

I only tried this whilst writing this post so went back and applied it to some of the other algorithms ...

2980ms map/reduce in parallel with flat indices.

This uses IntStream.range().parallel() to create a stream of all indices in the array and uses .map() to turn it into an array of elements. Because range is only 1-dimentional this is not a general solution merely 'best case'.

IntStream.range(0, width * height)
    .map((i) -> getb(i))

So ... it is not very 'best'. Actually a further wrinkle is unlike other examples this one runs slower after hotspot has completed it's optimisations and the first-run is the quickest. And we're talking 2-3x slower here not just a bit.

3373ms map/reduce in parallel with 2D indices.

This uses IntStream.range().parallel() to create a stream of all indices within the bounds of the image and then remaps these back to 2D coordinates inside the .map() function. This is the general solution which implements the required features.

IntStream.range(0, width * height)
    .map((i) -> getb(offset + (i / width) * stride + (i % width)));

Not surprisingly it's a bit slower, and like the previous example also gets slower once optimised.

Basically; that's a no then, this just isn't going to cut it. So time to see if a custom spliterator will do it.

1960ms map/reduce in parallel with custom 2D spliterator

This uses a custom 2D spliterator that splits (at most) into rows and then uses map() to retrieve the pixel values.

StreamSupport.intStream(new Spliterator2DIndex(width, height, offset, stride), true)
    .map((i) -> getb(i))

Still "slow as shit" to use the correct technical jargon.

This is about when I worked out how to use spliterators and tried the next obvious thing: using the spliterator to do the map() since that seems to be "problematic".

125ms stream reduce in parallel with custom 2D array spliterator

The custom 2D spliterator performs the array lookups itself and feeds out the values as the stream. It supports the full features required.

StreamSupport.intStream(new Spliterator2DByteArray(width, height, offset, stride, pixels), true)

Ok, so now this is more like it. It's finally managed to beat that single threaded code.

Until this point I was ready to ditch even bothering with the stream code; one can deal with a bit of a performance drop for some convenience and code re-use, but 10x is just unacceptable.

115ms stream reduce in parallel with custom 1D array spliterator

This loops over all elements of an array and feeds out the array values. This is a non-conformant solution to determine the overheads of the 2D indexing.

StreamSupport.intStream(new SpliteratorByteArray(offset, width * height, pixels), true)

The overheads of the 2D case are not zero but they are modest.

I tried a bunch of other things right through to a completely different multi-threaded forEach() call and polled queues and a more OpenCL-like approach to the processing model; my best result was under 100ms.

By `OpenCL approach' I made the thread index an explicitly available parameter so that for example a reduction step can just write a partial result directly to a pre-allocated array of values by 'group id' rather than having to allocate and pass back working storage. This together with an exotic single-reader work queue produced the best result. I also learned how to use park(), ... maybe something for a later post.


I found it particularly critical to optimise the spliterator iteration function forEachRemaining(). Even trivial changes can have a big impact.

The difference between this:

private final byte[] pixels;
private final int width, stride;
private int height, offset;
private int x, y;

public void forEachRemaining(IntConsumer action) {
    while (y < height) {
        while (x < width)
            action.accept(pixels[(x++) + y * stride + offset] & 0xff);
        x = 0;
        y += 1;

And this:

private final byte[] pixels;
private final int width, stride;
private int height, offset;
private int x, y;

public void forEachRemaining(IntConsumer action) {
    int y = this.y;
    int height = this.height;
    int x = this.x;
    byte[] pixels = this.pixels;
    int offset = this.offset;

    while (y < height) {
        for (int o = x + y * stride + offset, e = y * stride + offset + width; o < e; o++)
            action.accept(pixels[o] & 0xff);
        y += 1;
        x = 0;
    this.x = x;
    this.y = y;

Is an over 600% difference in running time.

For images

These streams aren't really very useful for a lot of image processing; only handling single channel data and losing the positional information leaves only a few basic and not widely useful operations left over. The other stream interfaces like collections just wont scale very well to images either: they require intermediate blocks to be allocated rather than just referencing sub-ranges.

So I have been and probably will continue to use the streams in these cases as multi-threaded forEach() and gain the concurrency serialisation implicitly by each task working on independent values. But I can also just borrow ideas and implement similar interfaces even if they are not compatible, e.g. a reduce call that just runs directly on the data without forming a stream first. This might let me get some of the code re-usability and brevity benefits without trying to force a not-quite-right processing model onto the problem.

But being able to create custom/multi-dimensional spliterators is pretty handy all the same.

Tagged hacking, java.
Saturday, 18 April 2015, 07:07

less shitty internet and more shitty gout

So I got my NBN working again - by power cycling the NBN modem. This isn't terribly easy as it's got a battery backup and a difficult to access/remove power connector. Internode were no help at all and seem to have stopped even responding to support requests now, or at least mine. I only got one response a couple of weeks ago.

Going back to the ADSL did however let me confirm that there's something not quite right with it, as I managed to get some multiplayer DRIVECLUB games in - whilst it wasn't perfect as their servers are still pretty shitty at least it worked a few times - and it's never worked even once using the NBN. To confirm I've flipped back and forth a few times and it's still the same: ADSL works sometimes, NBN never works (it might let me start but always kicks me out). Even using the same shitty fritz-box; so maybe it's not the modem but reports elsewhere suggest it's a piece of junk. Why internode recommend them is beyond me, although i'm sure a firmware update could fix it if it's just that.

I'm not particularly annoyed that DRIVECLUB doesn't work itself because i'm just not into that kind of competition (albeit there is a small spark when it works, but wears thin quickly against deaf and dumb strangers) but it shits me that i've got something that doesn't work properly. I reached level 50 a few days ago - I don't understand when people call the game unapproachable, as it's easy to just work at your own pace and you can still eventually complete the game. I'm very much middle-of-the-road on all the leaderboards and "challenges" and aren't even playing that much each week.

When I feel like blowing an afternoon I'll try setting up a router+dhcp+etc on a GNU box and see if that will work properly just to confirm it's the router. From what I can tell my old billion VG wont support PPPoE without going over the ADSL link - I tried but failed to get anywhere.

Gout kicked up again a few days ago but i'm not really sure why this time. I caught up with some people over a few beers a couple of times and so on with no ill effects but then a week later it just started again. All I can think of is not enough water one day or climbing up a tree barefoot to do some pruning (clumsily). Or the attack is just more delayed than I thought and it was due to something I ate/did a few days earlier. It's mostly ok unless I try to walk but I had to go to the shop today because I ran out of drugs and that was pretty limpy - and to my shock the supermarket was out of ibuprofen, although fortunately the chemist is next to it. Going to be fun getting my bike shoe off. The rate slowed but i'm still losing weight - I had my appetite back there for a bit but it's deserted me again although I'm also putting in a conscious effort too. Come on 80kg, just 2 more to go.

I'm avoiding the news and barely watching tv (working, reading, or playing games instead) but what little I pick up is probably more depressing than these localised issues. But if someone like tony-"fucknut"-abbott can be voted in by the will of the people then what are you gonna do? I just got a mail from the FSF about the TPP ... i just can't believe these slimy cunts who would sell their own nations souvereignty out for the benefit of those who least need it. Why aren't they in a gaol cell or hanging from a tree for such obvious treason?

Well writing this blew a couple of hours in-between doing the washing and some vacuuming; although it's raining now so I gotta find somewhere to hang it. But what to do with the rest of the weekend ...

Update: Internode ended up calling me one night, sort of to appologise for the delay and to follow it up. Guy was a bit annoying, you know the type trying to be `helpful' whilst constantly pushing the conversation forward and not admitting to anything. When I mentioned DRIVECLUB he just did a web search, yeah like i didn't already try that. I never wanted to have to contact support in the first place and hopefully I don't have to again.

Foot's been worse. I have no idea why as right now i'm not really eating enough for it to be diet related and i'm drinking a normal amount of water. Unless it's the weight loss itself, which I guess is just a necessary cost since I need to lose it so i'm taking advantage of the fact I don't feel hungry most of the time right now.

Tagged biographical, rants.
Sunday, 05 April 2015, 03:44

shitty internet & shitty stuff

Well my NBN is still down. Not even a response from internode after a service request 2.5 days ago. It's Easter which is a big holiday in Australia and I don't particularly begrudge the lack of response, but I see from whirlpool posts they are still working. I see from others it might not be something they can fix anyway.

So i'm using my old ADSL - the one I thought i "switched" from; but alas they just kept both running and billed. I think it's because i used their crappy on-line form to request it and it's been a drawn out collection of misunderstanding and mistakes since. For an internet company they seem pretty poor at doing everything over the internet.

Yay more shit

So I got hit with gout a couple of months ago as a nice birthday present which pretty much screwed up any tentative plans I had for that let alone the future. After the first couple of days of pain it just turned into another sore foot; I can hobble a bit by putting weight on the outside edge but even walking around the garden too much has consequences. Surprisingly, cycling is worse than walking and may hint at the trigger. It sometimes swells a bit but without shoes that isn't very noticable. A couple of weeks after an attack it starts to get to the point I can ride a few km or go to the supermarket but it still gets sore afterwards. For the most part even at it's worst the pain was mostly annoying - certainly painful but still able to sleep with drugs - although after the second attack I had to go to the shop to get groceries and walking in shoes was one of the more painful things i've ever done to myself; I should've waited for the ibuprofen to kick in properly and probably just gone bare foot. As I live alone I would have had to go eventually though.

What is most frustrating about it is that after a couple of months of summer doing pretty much nothing i was ready to get a bit of exercise and mix with humanity again; so i went for a 2 hour ride (took it mostly easy but pushed a little for the exercise), got drunk at the pub, then came home and had some biscuits and cheese for "dinner". Then suddenly it felt like i'd broken my big toe and i wasn't really sure I hadn't ... But I knew instantly it was gout (i think i'd looked it up before due to my other foot trouble). And that was pretty much summer and exercise (and life?) all over. Getting so bored sitting around at home is a big reason I started hacking code again. We also had a notably mild - and completely dry - summer this year so it was doubly frustrating I couldn't really enjoy it. As an aside some of my initial searching turned up a similar story of a guy the same age as me going for a "moderate" bike ride before his first attack.

It was a pretty depressing read looking up information about it on the internet: pretty much everything i eat was "off the list", pretty much everything i do for fun was "off the list". Then I started to notice it was almost all exclusively old wives tales full of completely contradictory information. Even the limited medical information is contradictory: e.g. it's all about the purines, well, except when they're in vegetables when they apparently don't count. Even beer which is the worst thing for gout doesn't have much in the way of purines. Also surprising that there seems to have been so little in the way of hard studies done for such a common ailment. What few medical suggestions are available seems to be targeted at the obese: it is unclear for example whether sugars, fats, and oils are bad for gout or just bad for fat people and being fat is bad for everything. I would consider myself overweight but plenty wouldn't these days due to their distorted sense of "normal" and efforts not to "offend" (typical family greeting however: when did you turn into such a fat cunt? - as it should be). The recognition in the irony of suggesting lots of exercise when you can't even walk or cycle is not terribly comforting.

So my initial readings pretty much put me off eating almost everything at the start; and now i've lost most interest in food. When I went to a doctor a couple of weeks afterwards he said meat should be ok but I've barely had any since; doing a roast just seems like asking for trouble. Pangs of hunger come and go but are easier to ignore, and small meals and snacks seem to fill me up much faster and for longer. I've lost nearly 1Kg/week so far so now i'm interested in seeing how far I can go. At this rate i'll break through 80 in another month and if i can do that at least it will be something gained from this sorry episode.

So now after a bit of time and experiments i've kinda worked out that tons of water is about all I can do to help. Together with ibuprofen if it's too sore or swollen. Conversely the main problem seems to be dehydration or more particularly a lack of urination. I usually drink plenty of water unless i'm too busy to notice, especially when cycling, but I also sweat profusely when doing anything physical so maybe it just isn't ever enough. I can have some wine and beer if i drink a lot of water - but it often gets to the point of being only slightly intoxicated while being waterlogged so it isn't remotely fun. If i feel it coming on (a pricking on the toe) absolutely drowning in water seems to prevent it going further but doing that together with visiting the dunny all night is starting to get pretty obnoxious. I'm having tons of coffee - some evidence suggests it reduces the chance of gout but again no study to say if it helps it - but at least it's something i can safely imbibe (i don't really get any buzz from it; it stops me sleeping properly if i have it too late is all). According to the internets (green) tea is supposed to do wonders but the medical evidence says otherwise: i concur with the latter. It does however have one important potential use: it lets you drink much more water without exploding. I prefer green to black without milk anyway, and black with milk doesn't seem to agree with me anymore. The doctor said no red wine but red seems to be better than white and wine better than beer. I really miss being properly beerly-drunk.

No doubt the beer and food over a lifetime helped it on it's way but I think the trigger was probably dehydration. In that 4 hour period of the bike ride+pub I had ~2L of beer and ~2L of water but only urinated once I got home. Maybe i've also just got a naturally high level of uric acid. It's unlikely to be family related; they all drink like fish - more often and intensely than I do.

I had another attack Thursday night and didn't feel like fighting it with water. It ended up fairly mild but my foot's still swollen and it feels like it's reset it's 'state' to two weeks ago. It's not like I was walking around properly anyway so hobbling a bit more is quickly becoming a matter of "so fucking what".

Since i'm pissed off with my internet too, despite having access to it, it's probably time to sit in the garden reading as i've done the last 2 days. With a bottle of water. And maybe something a little stronger - in small amounts :( It also needs a mow and other maintenance but my foot needs more rest.

Tagged rants.
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