compile-r7rs is a tool to compile Scheme programs, it aims for compability
with [SRFI-138](https://srfi.schemers.org/srfi-138/srfi-138.html).
Despite it's name it also supports R6RS. Schemers, unite! <3
[Jenkins](https://jenkins.scheme.org/job/compile-r7rs/)
- [Notes](#notes)
- [Supported implementations](#supported-implementations)
- [Roadmap](#roadmap)
- [Dependencies](#dependencies)
- [Linux](#dependencies-linux)
- [Windows](#dependencies-windows)
- [Installation](#installation)
- [Linux](#installation-linux)
- [Windows](#installation-windows)
- [Usage](#usage)
- [Chicken](#usage-chicken)
- [Mosh](#usage-mosh)
- [mit-scheme](#usage-mit-scheme)
- [Compiling a single library](#usage-compiling-single-library)
- [Environment variables](#usage-environment-variables)
- [Usage with docker](#usage-with-docker)
- [Usual RnRS project](#usual-rnrs-project)
- [File structure](#usual-rnrs-project-file-structure)
- [Installation of your project](#usual-rnrs-project-installation-of-your-project)
- [How it works](#how-it-works)
- [Gambit](#how-it-works-gambit)
- [Racket](#how-it-works-racket)
- [Development](#development)
- [Adding new implementations](#development-adding-new-implementations)
- [Misc notes](#development-misc-notes)
## Notes
<a name="#notes"></a>
- No support for -D flag yet.
- Not all implementations support adding to beginning or end o load path so
-I and -A might work the same
## Supported implementations
<a name="#supported-implementations"></a>
Some implementations support both compiling and interpreting, in that
case only the compiler functionality is used and the implementation is marked
as compiler.
- chezscheme
- interpreter
- R6RS
- chibi
- interpreter
- R7RS
- chicken
- compiler
- R7RS
- cyclone
- compiler
- R7RS
- gambit
- compiler
- R7RS
- foment
- interpreter
- R7RS
- gauche
- interpreter
- R7RS
- guile
- interpreter
- R6RS
- R7RS
- Has include bug https://debbugs.gnu.org/cgi/bugreport.cgi?bug=66046
but for some reason it seems to work for me atleast sometimes
- ikarus
- interpreter
- R6RS
- ironscheme
- interpreter
- R6RS
- kawa
- interpreter
- R7RS
- Native access is enabled by default so pffi can work
- larceny
- interpreter
- R6RS
- R7RS
- loko
- compiler
- R6RS
- R7RS
- mit-scheme
- interpreter
- R7RS
- mosh
- interpreter
- R6RS
- R7RS
- racket
- interpreter
- Has compiling capabilities but I havent got them to work yet
- r6rs
- r7rs
- sagittarius
- interpreter
- R6RS
- R7RS
- skint
- interpreter
- R7RS
- stklos
- interpreter
- R7RS
- tr7
- interpreter
- R7RS
- ypsilon
- interpreter
- R6RS
- R7RS
## Roadmap
<a name="#roadmap"></a>
- Support for more implementations
- gerbil
- Dont know how to run this thing yet :D
- r7rs
- husk
- Dont know how to add directories to load path yet, might not be
implemented
- r7rs
- meevax
- Asked how to add directory to load path
https://github.com/yamacir-kit/meevax/issues/494, might not be
implemented yet
- r7rs
- picrin
- Might not be possible, seems to not have (include...) that works like
others
- r7rs
- scheme-rs
- Waiting for implementation support
- r6rs
- r7rs
- stak
- Waiting for implementation support https://github.com/raviqqe/stak/issues/2355
- r7rs
- vicare
- So old that I have problems compiling it in Docker, so testing is
hard but I expect it to work once I get it to compile as it is R6RS
implementation
- r6rs
- Better and tested support for Windows
- Right now there is support for running this but I can not quarantee it
works on all if any cases
- Support for -D
- Most implementations dont have this or equivalent flag, but it would be
really nice feature to have so filing issues and implementing it myself is
something I would like to do
- Ask implementations to support adding to the front and back of load path, or
implement this onto implementations myself
- This might not be as important, but it would be nice to go towards SRFI-138
conformaty
- Environment variable to force the target operating system
- Since for example for interpreters the program produces .bat file with
command to run the interpreter "cross compiling" is easy.
## Dependencies
<a name="#dependencies"></a>
### Linux
<a name="#dependencies-linux"></a>
#### Sagittarius Scheme
On Debian/Ubuntu/Mint:
apt-get install -y build-essential cmake libgc-dev zlib1g-dev libffi-dev libssl-dev
wget https://bitbucket.org/ktakashi/sagittarius-scheme/downloads/sagittarius-0.9.12.tar.gz
tar -xf sagittarius-0.9.12.tar.gz
cd sagittarius-0.9.12.tar.gz
mkdir build
cd build
cmake ..
make
make install
#### libuv
On Debian/Ubuntu/Mint run:
apt install libuv1
### Windows
<a name="#dependencies-windows"></a>
### Sagittarius Scheme
Download the installer from
[https://bitbucket.org/ktakashi/sagittarius-scheme/downloads/](https://bitbucket.org/ktakashi/sagittarius-scheme/downloads/)
and install it into **default location**.
### libuv
Libuv is distributed with compile-r7rs on Windows.
## Installation
<a name="#Installation"></a>
### Linux
<a name="#Installation-linux"></a>
./configure
make
make install
### Windows
<a name="#Installation-windows"></a>
Donwload the setup-compile-r7rs.exe from dist directory from this repository.
If you want to compile the installer yourself look into the makefile and
installer.iss, it is made with innosetup.
## Usage
<a name="#usage"></a>
You need to install each Scheme implementation yourself.
The environment variable COMPILE\_R7RS must be set to the **name** of the
implementation as specified in the support list.
**This differs from the SRFI** as the SRFI excepts a path.
To get the list of supported implementations run:
compile-r7rs --list-schemes
Then run it with the .scm file for r7rs, or .sps file for r6rs.
COMPILE_R7RS=<implementation name> compile-r7rs -I . -o main main.scm
Which produces file called main, which you can run. Note that when given Scheme
is interpreter the file contains commands that run the script, and even when
the file is combiled binary it might need the compiled libraries.
No other file suffixes are supported at the moment.
Setting value of COMPILE\_R7RS to implementation name that supports only r7rs
and input file to .sps file and other way around is undefined behaviour.
### Chicken
<a name="#usage-chicken"></a>
To run executable at place set LD\_LIBRARY\_PATH=. (executable directory)
before running it. For example:
LD\_LIBRARY\_PATH=. ./test
If you are using Chicken you should propably read the next section too, you
will most propably run into it soon.
### Mosh
<a name="#usage-mosh"></a>
Only allows one loadpath. No workarounds exist currently in compile-r7rs.
### mit-scheme
<a name="#usage-mit-scheme"></a>
Only allows one loadpath. Workaround in compile-r7rs is that each library is
loaded individually, like so:
mit-scheme --load foo/bar.sld --load foo/baz.sld ... main.scm
This does not require actions from the user and is done automatically.
### Compiling a single library
<a name="#usage-compiling-a-single-library"></a>
Sometimes implementations need the libraries compiled in certain order,
specially the compilers. Since doing analysing from the files about which
library depends on which library I've decided to outsource it to you. :)
To compile single library run the same command (including all the arguments
other than -o)
you would run for executable, except change the input file to the library.
Example of compiling main program:
COMPILE_R7RS=<implementation name> compile-r7rs -I . -o main main.scm
And if the main program needed library called foo/bar.sld, and the compile-r7rs
tried to compile them in wrong order you would run:
COMPILE_R7RS=<implementation name> compile-r7rs -I . foo/bar.sld
### Environment variables
<a name="#usage-environment-variables"></a>
- COMPILE\_R7RS
- **Name** of the implementation you want to compile with
- **This differs from the SRFI** as it excepts a path
- COMPILE\_R7RS\_SCHEME_NAME
- Additional string to insert right after the command and it's arguments
can be used for example to pass C compiler flags on implementations that
compile to C or anything or otherwise as backdoor
- For example for Chicken to link with libcurl you would set
COMPILE\_R7RS\_CHICKEN="-L -lcurl"
- If implementation has - it is changed to \_, for example mit-scheme ->
MIT\_SCHEME
- **This differs from the SRFI** as it's not in there
## Usage with Docker
<a name="#usage-with-docker"></a>
Here is a sample Dockerfile to get you started.
ARG COMPILE_R7RS=chibi
FROM debian:bookworm AS build
RUN apt-get update && apt-get install -y build-essential wget make cmake libgc-dev zlib1g-dev libffi-dev libssl-dev
RUN wget https://bitbucket.org/ktakashi/sagittarius-scheme/downloads/sagittarius-0.9.12.tar.gz && tar -xf sagittarius-0.9.12.tar.gz
RUN cd sagittarius-0.9.12 && mkdir build && cd build && cmake -DCMAKE_INSTALL_PREFIX=/usr/local-other .. && make && make install
FROM schemers/${COMPILE_R7RS}
RUN apt-get update && apt-get install -y make libffi8 libgc1 libssl3 libuv1 git
COPY --from=build /usr/local-other/ /usr/local-other/
ENV PATH=${PATH}:/usr/local-other/bin
ARG COMPILE_R7RS=chibi
ENV COMPILE_R7RS=${COMPILE_R7RS}
RUN git clone https://git.sr.ht/~retropikzel/compile-r7rs && cd compile-r7rs && make && make install
To use this run:
export COMPILE_R7RS=<your scheme>
docker build --build-arg COMPILE_R7RS=${COMPILE_R7RS} --tag=compile-r7rs-${COMPILE_R7RS} .
docker run -v "${PWD}":/workdir -w /workdir -t compile-r7rs-${COMPILE_R7RS} sh -c "compile-r7rs -I -o main ./snow main.scm"
## Usual RnRS projects
<a name="#usual-rnrs-projects"></a>
The reports do not say much, if anything, about the file structure of your
project. However in practice certain patterns will repeat a lot. Here we use
R7RS .sld and .scm files as example but for R6RS .sld = .sld and .scm = .sps.
### File structure
<a name="#usual-rnrs-projects-file-structure"></a>
The implementations most often expect library named (foo bar) to be in file
foo/bar.sld. Some implementations add the current directory to the load path
implicitly, some do not. If you store your libraries directly in your projects
root it's propably best to always pass . as load path to compile-r7rs.
For example if your projects file structure is:
foo/bar.sld
main.scm
The command to compile and run this project is:
compile-r7rs -I . -o myproject main.scm
./myproject
If your project has more than one library then you propably want to store the
libraries in one directory. For example:
snow/foo/bar.sld
main.scm
This is the case the compile-r7rs is tested against, main.scm imports (foo bar).
The command to compile and run this project is:
compile-r7rs -I ./snow -o myproject main.scm
./myproject
### Installation of your project
<a name="#usual-rnrs-projects-installation-of-your-project"></a>
compile-r7rs (that is, this project) does not install your project files
anywhere, that is left for you to do. I will update this section as I use this
project more but here are some ideas. Basically each implementation might need
it's own specific way and is outside of scope of this project.
#### Interpreters
The interpreters, that is for example Sagittarius, Gauche, Chibi and STklos,
produce an executable that contains the command to run the main .scm file
and add given paths to the implementations load paths. So if you run this:
compile-r7rs -I ./snow -o main main.scm
the resulting main file will only work in this directory, as the load path is
relative. For system wide installation the paths would need to be more like this:
compile-r7rs -I /usr/local/lib/myproject/snow -o myproject main.scm
and then in makefile you would have:
install:
mkdir -p /usr/local/lib/myproject
cp -r snow /usr/local/lib/myproject/
install myproject /usr/local/bin/
#### Compilers
Compilers, that is for example Chicken, Gambit, Cyclone either produce static
executable or shared libraries. Cyclone produces static executable so
if you run this:
compile-r7rs -I /usr/local/lib/myproject/snow -o myproject main.scm
and then in makefile you would have:
install:
install myproject /usr/local/bin/
Chicken compiles shared object files and is different from that, like I said I
hope to update this section when I get more experience with installing stuff
compiled by using this project. :)
## How it works
<a name="#how-it-works"></a>
### Gambit
<a name="#how-it-works-gambit"></a>
To add library path into executables load path you need to compile Gambit
script, not code. The script needs to be shebang and then the code:
#!/usr/bin/env gsi -:search=./snow
(import (scheme base)
(scheme write))
(display "Hello world")
(newline)
So in order to do this compile-r7rs creates a main.tmp file that contains the
shebang line, library directories you want and then your input files code.
### Racket
<a name="#how-it-works-racket"></a>
#### r7rs
Racket only supports .rkt files, so the transformer creates .rkt file for each
.sld file and the given .scm file. This file only needs to contain:
#!lang r7rs
(import (scheme base))
(include "file.scm/.sld")
## Development
<a name="#development"></a>
The program relies on two projects,
[r7rs-pffi](https://sr.ht/~retropikzel/r7rs-pffi/) and
[pffi-srfi-170](https://git.sr.ht/~retropikzel/pffi-srfi-170). They both are
stil work in progress so best way to help this project is to help on those
projects. That said bug fixes for this projects are also welcome. Pull requests
that add more SRFI-138 support are also welcome, but lets keep the scope on
that.
The program itself is a quite straighforward transformer of SRFI-138 inputs to
implementation specific inputs. It stands on the shoulders of giants and relies
on the implementations to have all the needed features, then unifies the
interface to use them.
### Adding new implementations
<a name="#development-adding-new-implementations"></a>
The main program reads the flags and other inputs and passes them to a
transformer functions. So to add support for new implementations you need
to add the transformer functions and other data for it in libs/data.scm. You
should be able to deduct how they work from other transformers. If you need to
make utility functions add them into libs/util.scm and export them in
libs/util.sld.
If the transformer has to go trough hoops, that is is little or much unusual
then it is a good idea to explain how it works in this readmes how it works
section.