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Starting with GDI+

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12 Mar 2003 9  
Getting started with the new Microsoft Graphics Libraries

Sample Image - StartingGDIPlus.jpg

Introduction

I've been using GDI+ for about a week now, and I must say it is a welcome upgrade. I am working on a paint program, and a lot of things I thought I would have to write myself are now built in, meaning I get them "for free". The upside and the downside are, I guess, the same - things I want my program to do are now a lot easier to accomplish, making it easier both for me, and anyone else wanting to write something similar.

Before I get started, let me thank all the people who helped me get started with GDI+ by letting me know it existed, and where to get it. Parts of the information given here are taken verbatim from the thread where these things were discussed on the CodeProject lounge. Of course, all the cool things are written by me :0)

First things first. You need to get GDI+ installed before you can use it. It is found in the Feb 2001 Microsoft Platform SDK. If you don't download the SDK (or get it on CD) then shame on you. Every release of the SDK includes cool new stuff, such as updates to the WTL. Anyhow, I forgive you if you go to ftp.microsoft.com, and download it NOW. If all you want is GDI+, the files are in psdk-common.11.cab (at least that's what I was told, I downloaded the whole thing).

The files you need are:

  • the dll : gdiplus.dll
  • the library : gdiplus.lib
  • the header files : gdiplus*.h
  • the help files: gdicpp.chm & gdicpp.chi

Don't forget to make sure you set Visual C++ to point to the .h files in the includes, and the .lib file in the directories. Also put gdiplus.lib in your list of libraries by choosing Project/Settings/Link and entering it into the object/library modules area. To set your include and library directories, go to Tools/Options/Directories

To get your application to work with GDI+, do the following:

  • in stdafx.h, add:
    #include <gdiplus.h>
    (at the bottom, before the #endif)
  • in your application class, add the member:
    ULONG_PTR m_gdiplusToken;
    ULONG_PTR is a typedef for unsigned __int64. I usually don't like to use typedefs, but in this case I'll make an exception...
  • in InitInstance, add:
    // Initialize GDI+
    
    Gdiplus::GdiplusStartupInput gdiplusStartupInput;
    Gdiplus::GdiplusStartup(&m_gdiplusToken, &gdiplusStartupInput, NULL);

    I'd love to tell you how all this works, but I'm afraid Microsoft are not currently shipping the source, just headers and a dll.
     

  • in ExitInstance, add:
    Gdiplus::GdiplusShutdown(m_gdiplusToken);

I'll mention at this point that you have the option of prefacing all your commands with GdiPlus::, or you can simply put

using namespace GdiPlus; 

at the head of your code. The rest of my examples will assume you have included this command first, and will not preface commands as such. So now we have a program that initialises GDI+, this is probably a good place to discuss how GDI+ actually works. As you may be aware, GDI works with the concept of a device context. Typically you would draw a box using GDI like this:

(in your OnPaint handler)

CPaintDC dc(this); // Creates a device context for the client area, which

                   // also erases the area to be drawn.


CPen MyPen, * pOldPen;
CBrush MyBrush, * pOldBrush;




// A red pen, one pixel wide MyPen.Create(1, PS_SOLID, RGB(255,0,0)); // Selecting an object returns the old one // we need to catch and return it to avoid memory leaks pOldPen = dc.SelectObject(&MyPen); // A Blue brush MyBrush.CreateSolidBrush(RGB(0, 0, 255)); pOldBrush = dc.SelectObject(&MyBrush); // Finally, we have our device context set up with our pen and brush and can // use them to draw.


//Draws a rectangle that is red on the outside, filled in blue dc.Rectangle(0, 0, 200, 200); dc.SelectObject(pOldPen); dc.SelectObject(pOldBrush);

The main thing to understand is that I select a pen or brush and it remains there until I select another, and that the opportunities to leak memory are many, and not exactly easy to debug. In contrast the GDI+ model revolves around creating a graphics object, like so:

CPaintDC dc(this);
Graphics graphics(dc.hdc); 
Now this object is holding our DC until we destroy or release it, and we use this object to manipulate our device context. All the functions take the pen or brush they use, meaning no memory leaks, and ease of writing code that draws in more than one colour. Before presenting an example, let me point out one more exciting thing about GDI+. In GDI we used COLORREF as a variable that held a colour. It was a typedef for a DWORD, and a COLORREF was built using the RGB macro. Colours could be retrieved using GetRValue, GetGValue and GetBValue. In contrast, GDI+ uses the COLOR class, which takes four values to contruct - the extra being alpha. If you are not familiar with the concept of alpha transparency, imagine you are looking through a stained glass window. The colours of the glass affect what you see behind the glass, but the degree to which they obscure your vision depends on how thick the glass is. Alpha transparency similarly blends the colour you use to draw with the colour of the canvas beneath it. Colors in GDI+ are ARGB, the alpha value is specified first. So to draw a line we can do the following:
Pen MyPen(Color(255, 0, 255, ));  // A green pen, with full alpha

graphics.DrawLine(&pen, 0, 0, 200, 100);

GDI+ also dispenses with the idea of a current position: in GDI we used MoveTo(point), followed by LineTo(point). Now we specify both points at once.

I've provided an example program designed to facilitate experimentation by giving you the necessary framework to play with some code, and also to run and see how alpha works, if you've not seen this before. The drawing code creates a pattern in red and blue, then draws over with green, then magenta, and the alpha value fades first up and down, then from left to right.

The OnPaint method of the example program looks like this:

using namespace Gdiplus;

CPaintDC dc(this);

Graphics graphics(dc.m_hDC);

// Pen can also be constructed using a brush or another

//pen. There is a second parameter - a width which defaults to 1.0f

Pen blue (Color(255, 0, 0, 255));

Pen red (Color(255, 255, 0, 0));
int y = 256;
for (int x = 0; x < 256; x += 5)
{
	graphics.DrawLine(&blue, 0, y, x, 0);
	graphics.DrawLine(&red, 256, x, y, 256);  
	y -= 5;
}		
for (y = 0; y < 256; y++)
{
	Pen pen(Color(y, 0, 255,0));
	// A green pen with shifting alpha 

	graphics.DrawLine(&pen, 0, y, 256, y); 
	// The sleep is to slow it down so you can watch the effect 

	Sleep(20);
}		
for (x = 0; x  < 256;  x++)
{
	Pen pen(Color(x, 255, 0, 255));
	// A green pen with shifting alpha 

	graphics.DrawLine(&pen, x, 100, x, 200);
	// The sleep is to slow it down so you can watch the effect

	Sleep(20); 
}

This marks the end of my first GDI+ tutorial. My aim was simply to get you up and running - to show you how to set up a program to use GDI+ and explain some basic concepts about the way it is set up. My next tutorial will be on using brushes - with GDI+ you can make a brush display a gradient, or even be textured with a bitmap. Stay tuned - the real coolness is about to begin...

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