Wednesday, January 16, 2013

jQuery with requestAnimationFrame

The requestAnimationFrame specification is being cooked to replace the over-used setTimeout call when doing JavaScript animations. By specifically targeting animations, it’s highly optimized for this purpose. And since JavaScript animations are becoming more and more widespread, I believe it’s a great initiative, aiming to smooth all moving things inside your browser window. Concept and usage are well explained on this article.

If you use jQuery, however, you are not taking benefit of this new specification. It was used on a previous version, but it was dropped since then. I believe it should have been kept, misuse of the animation features shouldn’t have guided this decision. Anyway, when I was developing a jQuery plugin to embed requestAnimationFrame inside jQuery animation again, I just found out that someone had already done that. It’s available on GitHub and it works very well. The author has also made some claims on jQuery forums to make it default inside the library, with no success so far.

So, this is what you need to do (the file you need is within dist directory):
<script type="text/javascript" src="jquery-1.8.3.min.js"></script>
<script type="text/javascript" src="jquery.requestAnimationFrame.min.js"></script>
Animations instantly became smoother on Firefox on Linux. Highly recommended.

Saturday, January 12, 2013

R.I.P. victims of the loudness wars

Terribly mixed, brickwalled, clipped everywhere, static noise, ears bleeding, the horror... loudness wars victims. As an audiophile, it deeply saddens me when I find a good album ruined by a horrible mixing. I think this disease began spreading towards the end of the 1990’s, and from now on, most of the albums are simply unlistenable. Producers responsible by these atrocities should die slowly and in great pain, by having all their blood drained away from their perforated eardrums.

Here it follows a list of some ruined albums which I particularly mourn over, because I cannot listen to:

Slayer
Undisputed Attitude
1996
-10.54 dB

Red Hot Chili Peppers
Californication
1999
-12.42 dB

Children of Bodom
Follow the Reaper
2000
-12.63 dB

Pantera
Reinventing the Steel
2000
-11.42 dB

Stratovarius
Infinite
2000
-11.47 dB

Rage Against the Machine
Renegades
2000
-11.98 dB

Velvet Revolver
Contraband
2004
-10.45 dB

Franz Ferdinand
You Could Have It So Much Better
2005
-11.02 dB

Audioslave
Revelations
2006
-11.14 dB

Joey Ramone
Ya Know?
2012
-10.12 dB


There you have something that makes me really sad about.

Wednesday, January 9, 2013

Blurry fonts on Firefox 18

Firefox is the browser which behavior I like most, but it’s seriously becoming a pain to use, version after version. I’ve just upgraded my Firefox to the ridiculous version number 18, and on some specific sites the fonts look terribly blurry. Seriously, they hurt my eyes. It’s specially noticeable on Google sites, like Gmail, Blogger, YouTube, Groups and Docs – and the font in Docs looks particularly bad.

I’ve run through some fixes from previous versions (though I never had this problem before), like this, this and this. Nothing seems to work. I’m using both Windows XP and Windows 7 to perform all these tests. At first, I thought it would be a problem of GPU rendering overriding ClearType settings, but the fonts are also blurry on Linux!

There’s a thread at Mozilla’s board with some people complaining about this since v17, where the solution was to disable hardware acceleration – what I did already, to fix other rendering problems at that time. On v18, however, no one could find a fix yet, it looks like they really messed it up. So if you have this problem, go make some noise at that thread!

Congratulations to Mozilla for dropping the ball again, with its moronic and Chrome-wannabe release cycling which is introducing more and more bugs. If I wanted Chrome, I would have downloaded Chrome.

Sunday, December 2, 2012

Automation for C++ COM pointers

This week I was working on a C++ program which used a lot of COM pointers. I remembered I’ve seen an automation class somewhere, and after some searching I found it, it’s Microsoft’s ComPtr template class. Although I liked the concept, it had too much fuss to me, so I was displeased in using it.

Oh well, here we go again: I wrote my own COM pointer automation class. Here it goes the full code of it, which I now share with the world:
#pragma once
#include <Windows.h>
#include <ObjBase.h>

template<typename T> class ComPtr {
public:
	ComPtr()                    : _ptr(NULL) { }
	ComPtr(const ComPtr& other) : _ptr(NULL) { operator=(other); }
	~ComPtr()                   { this->release(); }
	ComPtr& operator=(const ComPtr& other) {
		if(this != &other) {
			this->~ComPtr();
			_ptr = other._ptr;
			if(_ptr) _ptr->AddRef();
		}
		return *this;
	}
	void release() {
		if(_ptr) {
			_ptr->Release();
			_ptr = NULL;
		}
	}
	bool coCreateInstance(REFCLSID rclsid) {
		return _ptr ? false :
			SUCCEEDED(::CoCreateInstance(rclsid, 0, CLSCTX_INPROC_SERVER, IID_PPV_ARGS(&_ptr)));
	}
	bool coCreateInstance(REFCLSID rclsid, REFIID riid) {
		return _ptr ? false :
			SUCCEEDED(::CoCreateInstance(rclsid, 0, CLSCTX_INPROC_SERVER, riid, (void**)&_ptr));
	}
	template<typename COM_INTERFACE> bool queryInterface(REFIID riid, COM_INTERFACE **comPtr) {
		return !_ptr ? false :
			SUCCEEDED(_ptr->QueryInterface(riid, (void**)comPtr));
	}
	bool isNull() const { return _ptr == NULL; }
	T&   operator*()    { return *_ptr; }
	T*   operator->()   { return _ptr; }
	T**  operator&()    { return &_ptr; }
	operator T*() const { return _ptr; }
private:
	T *_ptr;
};
Basically, by using this class I don’t have to worry about calling the Release method. Most interestingly, I added two shorhand methods to ease my life, coCreateInstance and queryInterface. Here are an example illustrating the use of the ComPtr class, along with the cited methods:
{
	ComPtr<IGraphBuilder> graph;
	if(!graph.coCreateInstance(CLSID_FilterGraph))
		OutputDebugString(L"Failed!");

	ComPtr<IMediaControl> mediaCtrl;
	if(!graph.queryInterface(IID_IMediaControl, &mediaCtrl))
		OutputDebugString(L"Failed!");

	graph->RenderFile(L"foo.avi", NULL); // sweet!
}
If you’re wondering about the usefulness of this ComPtr class, try to write the code above without it.

Tuesday, November 27, 2012

HTML DTD: strict vs loose

I’ve been writing some HTML5 code lately, and at some point I faced some miscalculations of dimensions through CSS. After some research, I discovered I had my page being rendered in quirks mode. I’ve heard this expression before, but never really bothered much. What happens is that standards compliant pages should have a doctype declaration, which tells the browser the page should be rendered that way, otherwise the HTML will be rendered in a Neanderthal form, the so-called “quirks mode”. I never bothered using a doctype, because I didn’t know the real meaning of it. Until now.

Then, convinced to use a doctype, I faced another problem. There were two types for me:
<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.01//EN"
	"http://www.w3.org/TR/html4/strict.dtd">

<!DOCTYPE HTML PUBLIC "-//W3C//DTD HTML 4.01 Transitional//EN"
	"http://www.w3.org/TR/html4/loose.dtd">
The first is called “strict”, the second is “transitional”. The strict cuts away all the deprecated tags, while the transitional is the same strict plus some stuff like iframe, which I’m using at my project. So, my page is a transitional one, and I finally found my DTD.

Good references here and here.

Friday, November 23, 2012

A JavaScript and HTML5 tree graph

Following the previous post, I needed a graphical representation of a tree graph to put on an HTML page. I thought it would be a great opportunity to learn this HTML5 thingy, which everyone is talking about these days. I ended up writing a full implementation of a tree graph using only HTML5 and pure JavaScript, thus avoiding any third-party JavaScript libraries.

However, I faced some problems. I had to plot more than 2,000 nodes, although not all at the same time, sometimes I had hundreds of them being shown. So I had to run into a series of optimizations of the algorithm, not only to speed up the internal calculations, but also the page rendering itself. On my first implementation, each node was a DIV, and the lines were drawn upon a canvas. Then at some point I decided to purely draw the whole monster on canvas, and I rewrote everything, taking the opportunity to add animation effects.

Since I consider it to be good and clean code, and believing that it could be useful to someone else, I published the whole code on GitHub at rodrigocfd/html5-tree-graph, along with an example file.

A hard work and a great experience, indeed.

Monday, November 12, 2012

A jQuery popup modal dialog

These days I needed to display a form in HTML. The simplest way to do this would be just go to another page, where the form would be displayed, then go back to the previous page after the submit. But the form had only a couple fields to use a whole page, and also it felt too cumbersome to go back and forth with the pages. Or I could use an ordinary window popup, but since it’s a modeless window, problems would easily arise.

So, with the aid of jQuery, I wrote a small jQuery plugin to use an ordinary hidden DIV as a popup modal dialog, so that I’d just have to keep the form into a DIV, and it would be shown without leave the current page. At some point, it saw that the OK and Cancel buttons could be automated themselves, so my form would need just the fields.

I also took the opportunity and used the same engine to generate automatic OK and OK/Cancel dialogs, thus beautifying the alert and confirm JavaScript stock functions. Worth mentioning that the popup can be stacked, that is, a modal popup can open another modal popup, and so on.

It ended up helping me a lot, so I published it on GitHub at rodrigocfd/jquery-modalForm, along with an example file.

Wednesday, September 12, 2012

Singly linked list in C++

These days I needed a clean implementation of a singly linked list in C++. I found some ones around, but none of them was functional and clean and the same time. So I wrote my own, using nothing but pure C++ with templates, and here I’m publishing the full implementation.

First, the header. I chose to put the node class nested into the linked list class, because this approach allows me to have another node class which can belong to another kind of structure, if I need to. There are a couple of methods beyond the basics, I needed them to have a functional data structure that worked for me.
template<typename T> class LinkedList {
public:
	class Node {
	public:
		      Node()                     : _next(NULL) { }
		      Node(const T& data)        : _data(data), _next(NULL) { }
		Node* insertAfter();
		Node* insertAfter(const T& data) { return &(*this->insertAfter() = data); }
		Node* removeAfter();
		T&    data()                     { return _data; }
		Node& operator=(const T& data)   { this->_data = data; return *this; }
		Node* next(int howMany=1);
		int   countAfter() const;
	private:
		T     _data;
		Node *_next;
	friend class LinkedList;
	};

public:
	      LinkedList()          : _first(NULL) { }
	     ~LinkedList();
	int   count() const         { return !this->_first ? 0 : this->_first->countAfter() + 1; }
	Node* operator[](int index) { return !this->_first ? NULL : this->_first->next(index); }
	Node* append();
	Node* append(const T& data) { return &(*this->append() = data); }
	void  removeFirst();
	Node* insertFirst();
	Node* insertFirst(const T& data) { return &(*this->insertFirst() = data); }
private:
	Node *_first;
};
The node class implementation:
template<typename T> typename LinkedList<T>::Node* LinkedList<T>::Node::insertAfter() {
	Node *tmp = new Node;
	tmp->_next = this->_next; // move our next ahead
	this->_next = tmp; // new is our next now
	return this->_next; // return newly inserted node
}

template<typename T> typename LinkedList<T>::Node* LinkedList<T>::Node::removeAfter() {
	if(this->_next) {
		Node *nodebye = this->_next;
		if(this->_next->_next) this->_next = this->_next->_next;
		delete nodebye;
	}
	return this; // return itself
}

template<typename T> typename LinkedList<T>::Node* LinkedList<T>::Node::next(int howMany) {
	Node *ret = this;
	for(int i = 0; i < howMany; ++i) {
		ret = ret->_next;
		if(!ret) break;
	}
	return ret; // howMany=0 returns itself
}

template<typename T> int LinkedList<T>::Node::countAfter() const {
	int ret = NULL;
	Node *no = this->_next;
	while(no) { no = no->_next; ++ret; }
	return ret; // how many nodes exist after us
}
And the linked list implementation:
template<typename T> LinkedList<T>::~LinkedList() {
	Node *node = this->_first;
	while(node) {
		Node *tmpNode = node->next();
		delete node;
		node = tmpNode;
	}
}

template<typename T> typename LinkedList<T>::Node* LinkedList<T>::append() {
	if(!this->_first)
		return ( this->_first = new Node ); // return first and only
	Node *node = this->_first;
	while(node->next()) node = node->next();
	return node->insertAfter(); // return newly inserted node
}

template<typename T> void LinkedList<T>::removeFirst() {
	Node *nodebye = this->_first;
	if(this->_first->next()) this->_first = this->_first->next();
	delete nodebye;
}

template<typename T> typename LinkedList<T>::Node* LinkedList<T>::insertFirst() {
	Node *newly = new Node;
	if(this->_first) newly->_next = this->_first; // only case of FRIEND use
	return this->_first = newly; // return newly inserted node
}
The machinery is pretty straightforward to use, I believe. You just need to declare one instance of the LinkedList class, and all the node manipulation will be done through it and the node pointers returned by the methods, which allows operations on the nodes themselves. You’ll never have to alloc/dealloc any node. Here’s an example, with some operations and then printing all elements:
#include <stdio.h>
int main() {
	LinkedList<int> list;
	list.append(33)->insertAfter(80);
	list.insertFirst(4)->removeAfter();

	LinkedList<int>::Node *node = list[0];
	while(node) {
		printf("%d\n", node->data()); // print each value
		node = node->next();
	}
	return 0;
}

Friday, July 27, 2012

Bringing back the favicon on Firefox 14

On its way to chromify Firefox, Mozilla removed the favicon from the URL bar on Firefox 14. I agree with their reason, saying that one could use the favicon to emulate the secure connection padlock, but in my opinion it should be disabled by default, being optional to bring it back. Not all Firefox users are newbies or morons.

Fortunately, a guy called jooliaan published an addon to bring the favicon back to the URL bar, and it works just like it should. The addon is called Favicon Restorer, and I highly recommend it.

The way it goes, Mozilla is killing Firefox version after version. We love Firefox for what it is; if we wanted something that looks like Chrome, we would just use Chrome. Wake up, Mozilla.

Thursday, July 5, 2012

A trick to auto hide Chrome download bar

If you make a quick search, you’ll find how many people are annoyed by Chrome’s download bar, which doesn’t hide itself automatically, and requires you to manually hit the “X” button. There is no way to automate this through the extensions API, nor the browser gives you any option.

However, I found a simple trick to close the download bar, and it’s so simple that it’s hard to imagine how no one had this idea before – I didn’t see it anywhere, by the way. Not exactly automatic, but it’s better than click that “X” button.

Here’s how: you’ll have to use two shortcut keystrokes. The first one is Ctrl+J, which opens the download tab. The silver bullet is that this download tab displays the download progress, thus automatically closing the download bar. Then, once you have the download tab opened, just hit Ctrl+W, which closes the current tab, and it’s done.

So, by hitting Ctrl+J and Ctrl+W in succession, you’ll be free from clicking the “X” button on the download bar.

Sunday, June 17, 2012

Linus Torvalds is my hero

I’m a big fan of Linus Torvalds, not only for what he did with Linux, but also for his figure, particularly his lack of tenderness. His thoughts about C++ are legendary already, and that impressed me to the point that today I’m writing mostly ANSI C code.

Now, during a talk at Aalto University in Finland, he voiced about the lack of support Nvidia has given Linux, and his zero-diplomacy balls have striked loudly again. For my personal delight, I must admit, since I had a problem with a Nvidia video card driver on my Ubuntu just a couple months ago, to which I simply shrugged after days of pain.

Listen to the man:


And Nvidia, fuck you!

Saturday, June 2, 2012

Nu Sans programming font

I’ve just discovered out the Nu Sans monospace font on a Reddit discussion regarding the Mensch font – which is also a good font. However, Nu Sans caught my attention when I tested it on Visual Studio 2008 because it has that Lucida Console feel: a large font within small line height. And this is good for programming, because you can fit more lines on the screen. The TTF of the link above is a demo without accents, but it’s pretty usable.

So I just found a new font for my programming font collection.