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406 lines
20 KiB
ReStructuredText
406 lines
20 KiB
ReStructuredText
===================
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Compiling a program
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===================
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.. _building_compiler:
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First, getting a working compiler
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---------------------------------
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Before you can compile Prog8 programs, you'll have to download or build the compiler itself.
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Then make sure you have installed the :ref:`requirements`.
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Then you can choose a few ways to get a compiler:
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**Download an official release version from Github:**
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#. download a recent "fat-jar" (called something like "prog8c-all.jar") from `the releases on Github <https://github.com/irmen/prog8/releases>`_
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#. run the compiler with "java -jar prog8c.jar" to see how you can use it (use the correct name and version of the jar file you've downloaded).
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**Or, install via a Package Manager:**
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Currently, it's only available on `AUR <https://wiki.archlinux.org/title/Arch_User_Repository>`_ for Arch Linux and compatible systems.
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The package is called `"prog8" <https://aur.archlinux.org/packages/prog8>`_.
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This package, alongside the compiler itself, also globally installs syntax highlighting for ``vim`` and ``nano``.
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In order to run compiler, you can type ``prog8c``. The usage of those commands is exactly the same as with the ``java -jar`` method.
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In case you prefer to install AUR packages in a traditional manner, make sure to install `"tass64" package <https://aur.archlinux.org/packages/tass64>`_
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before installing prog8, as `makepkg <https://wiki.archlinux.org/title/Makepkg>`_ itself doesn't fetch AUR dependencies.
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**Or, download a bleeding edge development version from Github:**
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#. find the latest CI build on `the actions page on Github <https://github.com/irmen/prog8/actions>`_
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#. download the zipped jar artifact from that build, and unzip it.
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#. run the compiler with "java -jar prog8c.jar" (use the correct name and version of the jar file you've downloaded).
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**Or, use the Gradle build system to build it yourself from source:**
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The Gradle build system is used to build the compiler.
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The most interesting gradle commands to run are probably the ones listed below.
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(Note: if you have a recent gradle installed on your system already, you can probably replace the ``./gradlew`` wrapper commands with just the regular ``gradle`` command.)
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``./gradlew build``
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Builds the compiler code and runs all available checks and unit-tests.
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Also automatically runs the installDist and installShadowDist tasks.
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Read below at those tasks for where the resulting compiler jar file gets written.
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``./gradlew installDist``
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Builds the compiler and installs it with scripts to run it, in the directory
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``./compiler/build/install/prog8c``
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``./gradlew installShadowDist``
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Creates a 'fat-jar' that contains the compiler and all dependencies, in a single
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executable .jar file, and includes few start scripts to run it.
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The output can be found in ``.compiler/build/install/compiler-shadow/``
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``./gradlew shadowDistZip``
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Creates a zipfile with the above in it, for easy distribution.
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This file can be found in ``./compiler/build/distributions/``
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For normal use, the ``installDist`` task should suffice and after succesful completion, you can start the compiler with:
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``./compiler/build/install/prog8c/bin/prog8c <options> <sourcefile>``
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(You should probably make an alias or link...)
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.. hint::
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Development and testing is done on Linux using the IntelliJ IDEA IDE,
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but the actual prog8 compiler should run on all operating systems that provide a java runtime (version 11 or newer).
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If you do have trouble building or running the compiler on your operating system, please let me know!
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To successfully build and debug in IDEA, you have to do two things manually first:
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1. you have to generate the buildversion file, do this with the shell command: ``gradle createVersionFile``
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2. manually generate the Antlr-parser classes first.
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The easiest way to build the parser classes this is the following:
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1. make sure you have the Antlr4 plugin installed in IDEA
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2. right click the grammar file Prog8ANTLR.g4 in the parser project, and choose "Generate Antlr Recognizer" from the menu.
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3. rebuild the full project.
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Alternatively you can also use the Makefile in the antlr directory to generate the parser, but for development the
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Antlr4 plugin provides several extremely handy features so you'll probably want to have it installed anyway.
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.. image:: _static/antlrparser.png
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:alt: Generating the Antlr4 parser files
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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 program somewhere on your shell's search path.
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It's easy to compile yourself, but a recent precompiled .exe (only for Windows) can be obtained from
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`the files section <https://sourceforge.net/projects/tass64/files/binaries/>`_ in the official project on sourceforge.
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*You need at least version 1.58.0 of this assembler.*
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If you are on Linux, there's probably a "64tass" package in the repositories, but check if it is a recent enough version.
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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, get one of the versions of another vendor. Even Microsoft provides their own version.
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Other OpenJDK builds can be found at `Adoptium <https://adoptium.net/temurin/releases/?version=11>`_ .
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For MacOS you can also use the Homebrew system to install a recent version of OpenJDK.
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Running the compiler
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--------------------
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You run the Prog8 compiler on a main source code module file.
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Other modules that this code needs will be loaded and processed via imports from within that file.
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The compiler will link everything together into one output program at the end.
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If you start the compiler without arguments, it will print a short usage text.
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For normal use the compiler can be invoked with the command:
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``$ java -jar prog8c.jar -target cx16 sourcefile.p8``
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(Use the appropriate name and version of the jar file downloaded from one of the Git releases.
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Other ways to invoke the compiler are also available: see the introduction page about how
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to build and run the compiler yourself. The ``-target`` option is always required, in this case we
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tell it to compile a program for the Commander X16)
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By default, assembly code is generated and written to ``sourcefile.asm``.
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It is then (automatically) fed to the `64tass <https://sourceforge.net/projects/tass64/>`_ assembler tool
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that creates the final runnable program.
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Command line options
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^^^^^^^^^^^^^^^^^^^^
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One or more .p8 module files
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Specify the main module file(s) to compile.
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Every file specified is a separate program.
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``-help``, ``-h``
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Prints short command line usage information.
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``-target <compilation target>``
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Sets the target output of the compiler. This option is required.
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``c64`` = Commodore 64, ``c128`` = Commodore 128, ``cx16`` = Commander X16, ``pet32`` - Commodore PET model 4032,
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``atari`` = Atari 800 XL, ``virtual`` = builtin virtual machine.
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``-srcdirs <pathlist>``
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Specify a list of extra paths (separated with ':'), to search in for imported modules.
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Useful if you have library modules somewhere that you want to re-use,
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or to switch implementations of certain routines via a command line switch.
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``-emu``, ``-emu2``
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Auto-starts target system emulator after successful compilation.
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emu2 starts the alternative emulator if available.
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The compiled program and the symbol and breakpoint lists
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(for the machine code monitor) are immediately loaded into the emulator (if it supports them)
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``-out <directory>``
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sets directory location for output files instead of current directory
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``-noasm``
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Do not create assembly code and output program.
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Useful for debugging or doing quick syntax checks.
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``-noopt``
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Don't perform any code optimizations.
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Useful for debugging or faster compilation cycles.
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``-optfloatx``
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Also optimize float expressions if optimizations are enabled.
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Warning: can increase program size significantly if a lot of floating point expressions are used.
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``-watch``
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Enables continuous compilation mode (watches for file changes).
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This greatly increases compilation speed on subsequent runs:
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almost instant compilation times (less than a second) can be achieved in this mode.
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The compiler will compile your program and then instead of exiting, it waits for any changes in the module source files.
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As soon as a change happens, the program gets compiled again.
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Note that it is possible to use the watch mode with multiple modules as well, but it will
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recompile everything in that list even if only one of the files got updated.
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``-warnshadow``
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Tells the assembler to issue warning messages about symbol shadowing.
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These *can* be problematic, but usually aren't because prog8 has different scoping rules
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than the assembler has.
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You may want to watch out for shadowing of builtin names though. Especially 'a', 'x' and 'y'
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as those are the cpu register names and if you shadow those, the assembler might
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interpret certain instructions differently and produce unexpected opcodes (like LDA X getting
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turned into TXA, or not, depending on the symbol 'x' being defined in your own assembly code or not)
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``-addmissingrts``
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Enables old compiler behavior that silently adds RTS to asmsubs that don't have one.
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This was done to fix asmsubs so they return properly to the caller instead of crashing the program.
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However the new compiler behavior is to not silently modify the code anymore and instead give an error message
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that tells you how to fix the problem. This option may go away in future version.
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``-quietasm``
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Don't print assembler output results.
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``-asmlist``
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Generate an assembler listing file as well.
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``-check``
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Quickly check the program for errors. No actual compilation will be performed.
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``-breakinstr <instruction>``
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Also output the specified CPU instruction for a ``%breakpoint``, as well as the entry in the vice monitor list file.
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This can be useful on emulators/systems that don't parse the breakpoint information in the list file,
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such as the X16Emu emulator for the Commander X16.
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Useful instructions to consider are ``brk`` and ``stp``.
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For example for the Commander X16 emulator, ``stp`` is useful because it can actually tyrigger
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a breakpoint halt in the debugger when this is enabled by running the emulator with -debug.
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``-expericodegen``
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Use experimental code generation backend (*incomplete*).
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``-printast1``
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Prints the "compiler AST" (the internal representation of the program) after all processing steps.
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``-printast2``
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Prints the "intermediate AST" which is the reduced representation of the program.
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This is what is used in the code generators, to generate the executable code from.
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``-dumpvars``
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print a dump of the variables in the program
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``-dumpsymbols``
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print a dump of the variable declarations and subroutine signatures
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``-sourcelines``
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Also include the original prog8 source code lines as comments in the generated assembly code file,
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mixed in between the actual generated assembly code.
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This can be useful for debugging purposes to see what assembly was generated for what prog8 source code.
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``-splitarrays``
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Treat all word arrays as tagged with @split so they are all lsb/msb split into memory.
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This removes the need to add @split yourself but some programs may fail to compile with
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this option as not all array operations are implemented yet on split arrays.
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``-vm``
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load and run a p8-virt or p8-ir listing in the internal VirtualMachine instead of compiling a prog8 program file..
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``-D SYMBOLNAME=VALUE``
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Add this user-defined symbol directly to the beginning of the generated assembly file.
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Can be repeated to define multiple symbols.
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``-varshigh <rambank>``
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Places uninitialized non-zeropage variables in a separate memory area, instead of inside the program itself.
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This increases the amount of system ram available for program code.
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The size of the increase depends on the program but can be several hundreds of bytes or more.
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The location of the memory area for these variables depends on the compilation target machine:
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c64: $C000 - $CFFF ; 4 kB, and the specified rambank number is ignored
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cx16: $A000 - $BFFF ; 8 kB in the specified HiRAM bank (note: no auto bank switching is done, you must make sure yourself that this HiRAM bank is active when accessing these variables!)
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If you use this option, you can no longer use the part of the above memory area that is
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alotted to the variables, for your own purposes. The output of the 64tass assembler step at the
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end of compilation shows precise details of where and how much memory is used by the variables
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(it's called 'BSS' section or Gap at the address mentioned above).
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Assembling the program will fail if there are too many variables to fit in a single high ram bank.
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``-varsgolden``
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Like ``-varshigh``, but places the variables in the $0400-$07FF "golden ram" area instead.
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Because this is in normal system memory, there are no bank switching issues.
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This mode is only available on the Commander X16.
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``-slabshigh``
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put memory() slabs in high memory area instead of at the end of the program.
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On the cx16 target the value specifies the HiRAM bank to use, on other systems this value is ignored.
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``-slabsgolden``
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put memory() slabs in 'golden ram' memory area instead of at the end of the program.
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On the cx16 target this is $0400-07ff. This is unavailable on other systems.
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``-bytes2float <bytes>``
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convert a comma separated list of bytes from the target system to a float value.
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NOTE: you need to supply a target option too, and also still have to supply a dummy module file name as well!
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``-float2bytes <number>``
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convert floating point number to a list of bytes for the target system.
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NOTE: you need to supply a target option too, and also still have to supply a dummy module file name as well!
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Module source code files
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------------------------
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A module source file is a text file with the ``.p8`` suffix, containing the program's source code.
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It consists of compilation options and other directives, imports of other modules,
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and source code for one or more code blocks.
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Prog8 has various *LIBRARY* modules that are defined in special internal files provided by the compiler.
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You should not overwrite these or reuse their names.
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They are embedded into the packaged release version of the compiler so you don't have to worry about
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where they are, but their names are still reserved.
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Importing other source files and specifying search location(s)
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^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
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You can create multiple source files yourself to modularize your large programs into
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multiple module files. You can also create "library" modules this way with handy routines,
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that can be shared among programs. By importing those module files, you can use them in other modules.
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It is possible to tell the compiler where it should look for these files, by using
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the ``srcdirs`` command line option. This can also be a lo-fi way to use different source files
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for different compilation targets if you wish. Which is useful as currently the compiler
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doesn't have conditional compilation like #ifdef/#endif in C.
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.. _debugging:
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Debugging (with VICE or Box16)
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------------------------------
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There's support for using the monitor and debugging capabilities of the rather excellent
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`VICE emulator <http://vice-emu.sourceforge.net/>`_.
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The ``%breakpoint`` directive (see :ref:`directives`) in the source code instructs the compiler to put
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a *breakpoint* at that position. Some systems use a BRK instruction for this, but
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this will usually halt the machine altogether instead of just suspending execution.
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Prog8 issues a NOP instruction instead and creates a 'virtual' breakpoint at this position.
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All breakpoints are then written to a file called "programname.vice-mon-list",
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which is meant to be used by the VICE and Box16 emulators.
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It contains a series of commands for VICE's monitor, including source labels and the breakpoint settings.
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If you use the emulator autostart feature of the compiler, it will take care of this for you.
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If you launch VICE manually, you'll have to use a command line option to load this file:
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``$ x64 -moncommands programname.vice-mon-list``
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VICE will then use the label names in memory disassembly, and will activate any breakpoints as well.
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If your running program hits one of the breakpoints, VICE will halt execution and drop you into the monitor.
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Box16 is the alternative emulator for the Commander X16 and it also includes debugging facilities
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that support these symbol and breakpoint lists.
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Troubleshooting
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---------------
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Compiler doesn't run, complains about "UnsupportedClassVersionError"
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^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
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You need to install and use JDK version 11 or newer to run the prog8 compiler. Check this with "java -version".
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See :ref:`requirements`.
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The computer just resets (at the end of the program)
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^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
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In the default compiler configuration, it is not safely possible to return back to the BASIC prompt when
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your program exits. The only reliable thing to do is to reboot the system.
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This is due to the fact that in this mode, prog8 will overwrite important BASIC and Kernal variables in zero page memory.
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To avoid the reset from happening, use an empty ``repeat`` loop at the end of your program to keep it from exiting.
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Alternatively, if you want your program to exit cleanly back to the BASIC prompt,
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you have to use ``%zeropage basicsafe``, see :ref:`directives`.
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The reason this is not the default is that it is very beneficial to have more zeropage space available to the program,
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and programs that have to return cleanly to the BASIC prompt are considered to be the exception.
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Odd text and screen colors at start
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^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
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Prog8 will reset the screen mode and colors to a uniform well-known state. If you don't like the
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default text and screen colors, you can simply change them yourself to whatever you want at the
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start of your program. It depends on the computer system how you do this but there are some
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routines in the textio module to help you with this.
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Alternatively you can choose to disable this re-initialization altogether
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using ``%option no_sysinit``, see :ref:`directives`.
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Floats error
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^^^^^^^^^^^^
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Are you getting an assembler error about undefined symbols such as ``not defined 'floats'``?
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This happens when your program uses floating point values, and you forgot to import ``floats`` library.
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If you use floating points, the compiler needs routines from that library.
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Fix it by adding an ``%import floats``.
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Gradle error when building the compiler yourself
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^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
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If you get a gradle build error containing the line "No matching toolchains found for requested specification"
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somewhere, it means that the Gradle build tool can't locate the correct version of the JDK to use.
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The file "gradle.properties" contains a line like this: ``javaVersion=11``.
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You can do one of two things to fix the build error:
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- install a JDK with that version,
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- or change the version number to match the JDK version that *is* installed on your system (must be >= 11)
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Strange assembler errors
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^^^^^^^^^^^^^^^^^^^^^^^^
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If the compilation of your program fails in the assembly step, please check that you have
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the required version of the 64tass assembler installed. See :ref:`requirements`.
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Also make sure that inside hand-written inlined assembly,
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you don't use symbols named just a single letter (especially 'a', 'x' and 'y').
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Sometimes these are interpreted as the CPU register of that name. To avoid such confusions,
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always use 2 or more letters for symbols in your assembly code.
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'shadowing' warnings form the assembler
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^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
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Avoid using 'a', 'x' or 'y' as symbols in your inlined assembly code.
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Also avoid using 64tass' built-in function or type names as symbols in your inlined assembly code.
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The 64tass manual contains `a list of those <https://tass64.sourceforge.net/#functions>`_.
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Examples
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--------
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A bunch of example programs can be found in the 'examples' directory of the source tree.
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There are cross-platform examples that can be compiled for various systems unaltered,
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and there are also examples specific to certain computers (C64, X16, etcetera).
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So for instance, to compile and run the Commodore 64 rasterbars example program, use this command::
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$ java -jar prog8c.jar -target c64 -emu examples/c64/rasterbars.p8
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or::
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$ /path/to/prog8c -target c64 -emu examples/c64/rasterbars.p8
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