|Developer||Rob Galleon, QB64Team|
|First appeared||September 8, 2007|
2.0.2 / November 7, 2021
|OS||Microsoft Windows, Linux, macOS|
QB64 (originally QB32) is a self-hosting BASIC compiler for Microsoft Windows, Linux and Mac OS X, designed to be compatible with Microsoft QBasic and QuickBASIC. QB64 is a C++ emitter, which is integrated with a C++ compiler to provide compilation via C++ code and GCC optimization.
QB64 implements most QBasic statements, and can run many QBasic programs, including Microsoft's QBasic Gorillas and Nibbles games. Furthermore, QB64 has been designed to contain an IDE resembling the QBASIC IDE. QB64 also extends the QBASIC programming language to include 64-bit data types, as well as better sound and graphics support. It can also emulate some DOS/x86 specific features such as INT 33h mouse access, and multiple timers.
Since version 2.0, QB64 now offers debugging abilities, with the new $DEBUG metacommand.
QB64 was originally compiled with QuickBASIC 4.5. After significant development, Rob Galleon, the developer, became hindered by QuickBASIC's memory limitations and switched to Microsoft Basic PDS 7.1, which solved these problems for a short time. After version 0.63, QB64 was able to compile itself so the conventional memory limitations no longer applied.
Regarding the impetus for QB64, Galleon said:
I began to see the need for QB64 when it was clear that the introduction of VISTA would cripple QBASIC, relegating it to an ancient language only runnable on emulators which allow little/no chance of taking advantage of modern features on computers. The actual coding of QB64 began at the beginning of this year and QB64 has made steady progress since. I have had experience writing programming languages before so I knew in advance the challenges that awaited.
QB64's syntax is designed to be completely backwards compatible with QuickBASIC. Line numbers are not required, and statements are terminated by newlines or separated by colons (
An example "Hello, World!" program is:
PRINT "Hello, World!"
An example of QB64's emulation of VGA memory for compatibility:
CLS S$ = "Hello, World!" DEF SEG = &HB800 'sets the segment to video memory FOR I = 1 TO LEN(S$) POKE 160 + (I - 1) * 2, ASC(MID$(S$, I, 1))'character NEXT DEF SEG 'reset the segment to default
An example of how QB64 allows audio files:
sound_effect& = _SNDOPEN("sound.wav") 'WAV, OGG or MP3 _SNDPLAY sound_effect&
An example of how QB64 allows picture files:
SCREEN _NEWIMAGE(800, 600, 32) 'creates a 32-bit screen imagename& = _LOADIMAGE("image__name.png") 'BMP, JPG, PNG, etc. _PUTIMAGE (0, 0), imagename& _FREEIMAGE imagename& 'release assigned memory
An example of how QB64 uses multiple timers:
t1 = _FREETIMER t2 = _FREETIMER ON TIMER(t1, 1) GOSUB Timer.Trap 'the code following the Timer.Trap label will be run every 1 second ON TIMER(t2, .5) mySub 'QB64 can also trigger a SUB procedure with TIMER; ' in this case mySUB will be triggered every 500 milliseconds 'activate timers: TIMER(t1) ON TIMER(t2) ON DO 'go into an infinite loop until the window is closed _LIMIT 1 'run the main loop at 1 cycle per second, to show how timers are independent from main program flow LOOP Timer.Trap: PRINT "1s; "; RETURN SUB mySub PRINT "500ms; "; END SUB
QB64's extended commands begin with an underscore in order to avoid conflicts with any names that may be used in a QuickBASIC program. Beginning with version 1.4, the underscore prefix can be dropped by using the metacommand $NOPREFIX.
QB64 extends the QuickBASIC language in several ways. It adds the new data types including
_FLOAT as well as unsigned data types. The new data types have suffixes just like the traditional BASIC data types. QB64 also includes an audio library which allows playing most common audio formats including MP3, Ogg Vorbis, and WAV files as well as libraries allowing users to use higher resolution graphics than the 640×480 offered by QuickBASIC, use different fonts, and plot images in BMP, PNG, and JPEG formats. It also allows the use of 32-bit colors as opposed to the limited 256 (or 16, depending) colors originally offered.
The programmer also does not have to specify which programming libraries to include since QB64 does it automatically. The programmer has the option to include a library of their own through the $INCLUDE command just as QuickBASIC did.
Another significant feature that has been added is networking. Initially this allowed the opening of a TCP/IP stream that could be read and written using Input#/Print# instructions. This mode has its own proprietary packet encapsulation format which, whilst being easy to use with QBasic, meant that it could only be used to communicate with other QB64 programs or server backends with custom interfaces created specifically for the application. Later versions add GET# and PUT# to read and write raw bytes from the stream. This allows native implementations of standard protocols such as smtp and http.
QB64 integrates FreeGLUT for its graphics and text.
A development branch of the repository hosted on GitHub is frequently updated with fixes and improvements, which will eventually become the next stable release. The development builds are also offered via the official website for users to beta test.
QB64 can also use DLL libraries for Windows and C++ headers with a DECLARE LIBRARY block. Users can also access C header files to run C functions.
Due to a shakeup in the community in 2022, there are now at least two forks of the QB64 project. The "QB64 Team" Github repository is no longer active, and all new development is being done in new forks: