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205 lines
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205 lines
8.4 KiB
ReStructuredText
Prog8 documentation - |version|
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===============================
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.. image:: _static/logo.jpg
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:align: center
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:alt: Prog8 logo
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.. index:: what is Prog8
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What is Prog8?
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--------------
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This is a compiled programming language targeting the 8-bit
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`6502 <https://en.wikipedia.org/wiki/MOS_Technology_6502>`_ /
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`6510 <https://en.wikipedia.org/wiki/MOS_Technology_6510>`_ /
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`65c02 <https://en.wikipedia.org/wiki/MOS_Technology_65C02>`_ microprocessors.
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This CPU is from the late 1970's and early 1980's and was used in many home computers from that era,
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such as the `Commodore-64 <https://en.wikipedia.org/wiki/Commodore_64>`_.
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The language aims to provide many conveniences over raw assembly code (even when using a macro assembler),
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while still being low level enough to create high performance programs.
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Prog8 is copyright © Irmen de Jong (irmen@razorvine.net | http://www.razorvine.net).
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The project is on github: https://github.com/irmen/prog8.git
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This software is licensed under the GNU GPL 3.0, see https://www.gnu.org/licenses/gpl.html
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.. image:: _static/cube3d.png
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:width: 33%
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:alt: 3d rotating sprites
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.. image:: _static/wizzine.png
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:width: 33%
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:alt: Simple wizzine sprite effect
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.. image:: _static/tehtriz.png
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:width: 33%
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:alt: Fully playable tetris clone
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Language features
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-----------------
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- It is a cross-compiler running on modern machines (Linux, MacOS, Windows, ...)
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It generates a machine code program runnable on actual 8-bit 6502 hardware.
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- Fast execution speed due to compilation to native assembly code. It's possible to write certain raster interrupt 'demoscene' effects purely in Prog8.
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- Provides a very convenient edit/compile/run cycle by being able to directly launch
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the compiled program in an emulator and provide debugging information to this emulator.
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- Based on simple and familiar imperative structured programming (it looks like a mix of C and Python)
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- Modular programming and scoping via modules, code blocks, and subroutines.
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- Provide high level programming constructs but at the same time stay close to the metal;
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still able to directly use memory addresses and ROM subroutines,
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and inline assembly to have full control when every register, cycle or byte matters
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- Subroutines with parameters and return values
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- Complex nested expressions are possible
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- Variables are allocated statically
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- Nested subroutines can access variables from outer scopes to avoids the overhead to pass everything via parameters
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- Variable data types include signed and unsigned bytes and words, arrays, strings.
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- Floating point math also supported if the target system provides floating point library routines (C64 and Cx16 both do).
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- Strings can contain escaped characters but also many symbols directly if they have a petscii equivalent, such as "♠♥♣♦π▚●○╳". Characters like ^, _, \\, {, } and | are also accepted and converted to the closest petscii equivalents.
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- High-level code optimizations, such as const-folding, expression and statement simplifications/rewriting.
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- Many built-in functions, such as ``sin``, ``cos``, ``rnd``, ``abs``, ``min``, ``max``, ``sqrt``, ``msb``, ``rol``, ``ror``, ``swap``, ``sort`` and ``reverse``
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- Programs can be run multiple times without reloading because of automatic variable (re)initializations.
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- Supports the sixteen 'virtual' 16-bit registers R0 .. R15 from the Commander X16, also on the C64.
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- If you only use standard kernal and prog8 library routines, it is possible to compile the *exact same program* for both machines (just change the compiler target flag)!
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Code example
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------------
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Here is a hello world program::
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%import textio
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main {
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sub start() {
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txt.print("hello world i ♥ prog8\n")
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}
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}
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This code calculates prime numbers using the Sieve of Eratosthenes algorithm::
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%import textio
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%zeropage basicsafe
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main {
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ubyte[256] sieve
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ubyte candidate_prime = 2 ; is increased in the loop
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sub start() {
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; clear the sieve, to reset starting situation on subsequent runs
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sys.memset(sieve, 256, false)
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; calculate primes
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txt.print("prime numbers up to 255:\n\n")
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ubyte amount=0
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repeat {
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ubyte prime = find_next_prime()
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if prime==0
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break
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txt.print_ub(prime)
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txt.print(", ")
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amount++
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}
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txt.nl()
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txt.print("number of primes (expected 54): ")
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txt.print_ub(amount)
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txt.nl()
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}
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sub find_next_prime() -> ubyte {
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while sieve[candidate_prime] {
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candidate_prime++
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if candidate_prime==0
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return 0 ; we wrapped; no more primes available in the sieve
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}
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; found next one, mark the multiples and return it.
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sieve[candidate_prime] = true
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uword multiple = candidate_prime
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while multiple < len(sieve) {
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sieve[lsb(multiple)] = true
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multiple += candidate_prime
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}
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return candidate_prime
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}
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}
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when compiled an ran on a C-64 you get this:
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.. image:: _static/primes_example.png
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:align: center
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:alt: result when run on C-64
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when the exact same program is compiled for the Commander X16 target, and run on the emulator, you get this:
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.. image:: _static/primes_cx16.png
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:align: center
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:alt: result when run on CX16 emulator
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Getting the compiler
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--------------------
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Usually you just download a fat jar of an official released version, but you can also build
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it yourself from source.
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Detailed instructions on how to obtain a version of the compiler are in :ref:`building_compiler`.
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.. _requirements:
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Required additional tools
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-------------------------
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`64tass <https://sourceforge.net/projects/tass64/>`_ - cross assembler. Install this on your shell path.
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It's very easy to compile yourself.
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A recent precompiled .exe (only for Windows) can be obtained from my `clone <https://github.com/irmen/64tass/releases>`_ of this project.
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*You need at least version 1.55.2257 of this assembler to correctly use the breakpoints feature.*
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It's possible to use older versions, but it is very likely that the automatic Vice breakpoints won't work with them.
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A **Java runtime (jre or jdk), version 11 or newer** is required to run the prog8 compiler itself.
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If you're scared of Oracle's licensing terms, most Linux distributions ship OpenJDK in their packages repository instead.
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For Windows it's possible to get that as well; check out `AdoptOpenJDK <https://adoptopenjdk.net/>`_ .
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For MacOS you can use the Homebrew system to install a recent version of OpenJDK.
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Finally: an **emulator** (or a real machine ofcourse) to test and run your programs on.
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In C64 mode, the compiler assumes the presence of the `Vice emulator <http://vice-emu.sourceforge.net/>`_.
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If you're targeting the CommanderX16 instead, there's a choice of the official `x16emu <https://github.com/commanderx16/x16-emulator>`_
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and the unofficial `box16 <https://github.com/indigodarkwolf/box16>`_ (you can select which one you want to launch
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using the ``-emu`` or ``-emu2`` command line options)
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.. attention:: **Commander-X16 V38 versus V39**
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Starting with Prog8 7.0 the CX16 compilation target is configured for the upcoming v39 version of the emulator
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and roms, that are most accurately reflecting the current state of the hardware design of the CX16.
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Unfortunately, v39 has not yet been officially released. At the time of writing, v38 is still
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the latest official release. So, you have to either compile the v39 emulator+roms from the source in git yourself
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or obtain a precompiled version from someone else.
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A cx16 program compiled by prog8 7.0 is meant for v39 but *may* still work on the older v38 release of the emulator!
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For this to work you should make sure that the program is not using floating point, nor the ram/rom bank switching logic provided by the libraries.
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You can also choose to just stick with Prog8 6.4 (which still targets cx16 v38) and wait it out till
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the emulator v39 is officially released - but you won't be able to benefit from the compiler improvements
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made since the previous release of prog8.
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.. toctree::
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:maxdepth: 2
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:caption: Contents of this manual:
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building.rst
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programming.rst
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syntaxreference.rst
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libraries.rst
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targetsystem.rst
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technical.rst
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todo.rst
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Index
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=====
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* :ref:`genindex`
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