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Author | SHA1 | Date | |
---|---|---|---|
7feddbcfbe | |||
cc89ad1e93 | |||
380177b274 | |||
f9c6e04c8c | |||
5ef816610b | |||
d2ba26a53e | |||
bfe3f86116 |
23
.drone.yml
23
.drone.yml
@ -29,7 +29,18 @@ steps:
|
||||
- java -jar /drone/lib/spt/org.metaborg.spt.cmd/target/org.metaborg.spt.cmd* -l . -s /drone/lib/spt/org.metaborg.meta.lang.spt -t tests
|
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- mkdir -p lib
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- curl -o lib/sunshine.jar -L 'http://artifacts.metaborg.org/service/local/artifact/maven/redirect?r=snapshots&g=org.metaborg&a=org.metaborg.sunshine2&v=LATEST'
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- bin/fosgen tests/emit_sum.fos
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- name: setup_gen
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image: gcc
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volumes:
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- name: m2
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path: /root/.m2
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commands:
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- git clone https://github.com/facebook/nailgun.git
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- cd nailgun
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- make
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- cd ../bin
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- ln -s ../nailgun/nailgun-client/target/ng .
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- cd ..
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- name: extract_tests
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image: xonsh/xonsh
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commands:
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@ -41,7 +52,8 @@ steps:
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path: /drone/lib
|
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- name: m2
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path: /root/.m2
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commands:
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commands: # Note we first make sure that fosgen is working
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- bin/fosgen -d tests/emit_sum.fos
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- bin/generate_test_code
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- name: python_tests
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image: python:slim
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@ -55,6 +67,13 @@ steps:
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image: haskell
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commands:
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- bin/run_tests runghc hs
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- name: ocaml_tests
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image: ocaml/opam
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commands:
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- ls -als tests/extracted
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- opam init
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- eval $(opam env)
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- bin/run_tests ocaml ml
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volumes:
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- name: lib
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|
6
.gitignore
vendored
6
.gitignore
vendored
@ -12,10 +12,16 @@
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.pydevproject
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a.out
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*.aterm
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/site
|
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bin/ng
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tests/extracted/*
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tests/*.js
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tests/*.py
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tests/*.hs
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tests/*.ml
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tests/*.cmi
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tests/*.cmo
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adhoc*
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|
@ -13,12 +13,16 @@ DESTINATION = 'tests/extracted'
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# Extension for extracted files:
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EXT = 'fos'
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# Extension for desired input:
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INP = 'in'
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# Extension for expectations:
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EXP = 'expect'
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for path in TEST_LIST:
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destdir = pf"{DESTINATION}/{path.stem}"
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mkdir -p @(destdir)
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chmod ugo+rwx @(destdir)
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contents = path.read_text()
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tests = re.split(r'test\s*(.+?)\s*\[\[.*?\n', contents)[1:]
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testit = iter(tests)
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@ -33,6 +37,11 @@ for path in TEST_LIST:
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expath = destdir / f"{name}.{EXT}"
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expath.write_text(example)
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echo Wrote @(expath)
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im = re.search(r'/\*\*\s+accepts.*?\n([\s\S]*?)\*\*/', details[em.end():])
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if im:
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ipath = destdir / f"{name}.{INP}"
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ipath.write_text(im[1])
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echo " ...and" @(ipath)
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xm = re.search(r'/\*\*\s+writes.*?\n([\s\S]*?)\*\*/', details[em.end():])
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if xm:
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xpath = destdir / f"{name}.{EXP}"
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|
20
bin/fosgen
20
bin/fosgen
@ -5,6 +5,7 @@ erro() { printf "%s\n" "$*" >&2; }
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|
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##### Set defaults:
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SUPPRESS_ERR=YES
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USE_NAILGUN=YES
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LANGUAGE=Python
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|
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##### Extract command line options:
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@ -14,18 +15,23 @@ do
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-h|--help)
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echo
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echo "Usage:"
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echo " fosgen [-d] [-l LANGUAGE] FILE"
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echo " fosgen [-d] [-j] [-l LANGUAGE] FILE"
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echo
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echo "Writes to standard output the code generated from the fostr"
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echo "program in FILE, targeting the specified LANGUAGE (which"
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echo "defaults to Python)."
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echo
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echo "The -d option writes diagnostic output to standard error."
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echo "The -j option uses the Spoofax Sunshine JAR directly, rather"
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echo "than via nailgun."
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exit
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;;
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-d)
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SUPPRESS_ERR=''
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;;
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-j)
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USE_NAILGUN=''
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;;
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-l)
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shift
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LANGUAGE="$1"
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@ -67,5 +73,17 @@ then
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exec 2>/dev/null
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fi
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|
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if [[ $USE_NAILGUN ]]
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then
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if [[ $SUPPRESS_ERR ]]
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then
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$BINDIR/let_sun_shine
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else
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$BINDIR/let_sun_shine noisy
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fi
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$BINDIR/ng sunshine transform -p $PROJDIR -n $LANGUAGE -i $PROGRAM
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exit $?
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fi
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java -jar $SUNJAR transform -p $PROJDIR -l $PROJDIR -l $MVN_REPO -n $LANGUAGE -i $PROGRAM
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exit $?
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|
@ -4,7 +4,7 @@ failed=0
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for dir in tests/extracted/*; do
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for file in $dir/*.fos; do
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for language in Python Javascript Haskell; do
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for language in Python Javascript Haskell OCaml; do
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echo bin/fosgen -l ${language%.*} $file ...
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bin/fosgen -l $language $file
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if [[ $? -ne 0 ]]; then
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|
40
bin/let_sun_shine
Executable file
40
bin/let_sun_shine
Executable file
@ -0,0 +1,40 @@
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#!/bin/bash
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||||
# Helper for fosgen, not intended to be used directly
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# With an argument, print diagnostic output
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||||
BINDIR=$(dirname $BASH_SOURCE)
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|
||||
if $BINDIR/ng sunshine --help
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then
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||||
if [[ $1 ]]
|
||||
then
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||||
echo "sun already shining."
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||||
fi
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else
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if [[ $1 ]]
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then
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echo "disperse the clouds."
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fi
|
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SUNJAR="$BINDIR/../lib/sunshine.jar"
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PROJDIR="$BINDIR/.."
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if [[ ! $MVN_REPO ]]; then
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MVN_REPO="$HOME/.m2/repository"
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fi
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if [[ ! -d $MVN_REPO ]]; then
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MVN_REPO="/root/.m2/repository"
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fi
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||||
if [[ ! -d $MVN_REPO ]]; then
|
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echo "Cannot find your Maven repository. Please set environment variable"
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||||
echo "MVN_REPO to its full path and re-run."
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||||
exit 1
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||||
fi
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if [[ $1 ]]
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then
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java -jar $SUNJAR server &
|
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else
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||||
java -jar $SUNJAR server >/dev/null 2>&1 &
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||||
fi
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||||
sleep 5
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||||
$BINDIR/ng sunshine load -l $PROJDIR -l $MVN_REPO
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fi
|
@ -9,8 +9,14 @@ diffed=0
|
||||
for dir in tests/extracted/*; do
|
||||
for file in $dir/*.$ext; do
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((total++))
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$command $file > $file.out
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||||
if [[ $? -ne 0 ]]; then
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if [[ -f ${file%.*}.in ]]; then
|
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cat ${file%.*}.in | $command $file > $file.out
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result=$?
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||||
else
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||||
$command $file > $file.out
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||||
result=$?
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||||
fi
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||||
if [[ $result -ne 0 ]]; then
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||||
echo ERROR: $command $file failed.
|
||||
((failed++))
|
||||
else
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||||
|
@ -4,3 +4,4 @@ menus
|
||||
action: "Python" = to-python
|
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action: "Javascript" = to-javascript
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action: "Haskell" = to-haskell
|
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action: "OCaml" = to-ocaml
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|
@ -9,7 +9,7 @@ plugins:
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- search
|
||||
- semiliterate:
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ignore_folders: [target, lib]
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exclude_extensions: ['.o', '.hi']
|
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exclude_extensions: ['.o', '.hi', '.cmi', '.cmo']
|
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extract_standard_markdown:
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terminate: <!-- /md -->
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||||
theme:
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||||
|
@ -39,12 +39,16 @@ context-free syntax
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||||
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||||
Ex.Int = INT
|
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Ex.LitString = STRING_LITERAL
|
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Ex.EscString = STRING
|
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Ex.Stream = <stream>
|
||||
Ex.Sum = <<Ex> + <Ex>> {left}
|
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Ex.Concat = <<Ex> ++ <Ex>> {left}
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Ex.Gets = [[Ex] << [Ex]] {left}
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Ex.DefGets = [<<< [Ex]]
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Ex.To = [[Ex] >> [Ex]] {left}
|
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Ex.DefTo = [[Ex] >>>]
|
||||
Ex.Emits = <<Ex>!>
|
||||
Ex.DefEmits = <!!>
|
||||
|
||||
Ex = <(<Ex>)> {bracket}
|
||||
|
||||
@ -52,7 +56,7 @@ context-free priorities
|
||||
|
||||
Ex.To
|
||||
> Ex.DefTo
|
||||
> Ex.Sum
|
||||
> {Ex.Sum Ex.Concat}
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||||
> Ex.DefGets
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||||
> Ex.Gets,
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||||
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||||
|
187
tests/basic.spt
187
tests/basic.spt
@ -16,15 +16,21 @@ Title: A whirlwind tour of fostr
|
||||
|
||||
## Whirlwind tour
|
||||
|
||||
fostr is just in its infancy, so it's not yet even ready for
|
||||
Hello, World. The best we can offer now is this little snippet
|
||||
that writes the sum of the ASCII codes for 'H', 'W', and '!' to standard output:
|
||||
There seems only to be one way to start a tour like this. So here goes:
|
||||
```fostr
|
||||
**/
|
||||
|
||||
/** md */ test emit_sum [[
|
||||
stream << 72 + 87 + 33
|
||||
/** md */ test hello_world [[
|
||||
<<< 'Hello, world!'
|
||||
]] /* **/
|
||||
parse to TopLevel(DefGets(LitString("'Hello, world!'")))
|
||||
/** writes
|
||||
Hello, world!**/
|
||||
|
||||
// Prior proto-hello-world, no longer in the tour.
|
||||
test emit_sum [[
|
||||
stream << 72 + 87 + 33
|
||||
]]
|
||||
parse to TopLevel(Gets(Stream(), Sum(Sum(Int("72"), Int("87")), Int("33"))))
|
||||
/** writes
|
||||
192**/
|
||||
@ -33,7 +39,7 @@ parse to TopLevel(Gets(Stream(), Sum(Sum(Int("72"), Int("87")), Int("33"))))
|
||||
```
|
||||
|
||||
At the moment, there are only two ways to run a file containing fostr code
|
||||
(you can find the above in `tests/emit_sum.fos`). They both start by
|
||||
(you can find the above in `tests/hw.fos`). They both start by
|
||||
cloning this fostr project. Then, either:
|
||||
|
||||
1. Open the project in Eclipse and build it, visit your program file,
|
||||
@ -46,30 +52,70 @@ cloning this fostr project. Then, either:
|
||||
|
||||
For example, this snippet generates the following Python:
|
||||
```python
|
||||
{! ../tests/emit_sum.py extract:
|
||||
{! ../tests/hw.py extract:
|
||||
start: 'Stdio\s='
|
||||
!}
|
||||
```
|
||||
(which writes "192" to standard output); it also generates identical code in
|
||||
this simple example for
|
||||
Javascript, although it generates a different preamble defining Stdio in each
|
||||
case. (Haskell code generation is also currently supported.)
|
||||
It generates nearly identical code in
|
||||
this simple example for Javascript (just with `"Hello, world!"`
|
||||
in place of `r'Hello, world!'`), although it generates a different
|
||||
preamble defining Stdio for each language. (Currently, Haskell and OCaml
|
||||
code generation are also supported.)
|
||||
|
||||
There's not much to break down in such a tiny program as this, but let's do
|
||||
it. The prefix operator `<<<` could be read as "the default stream receives...",
|
||||
and unsurprisingly in a main program the default stream is standard input and
|
||||
output. And `'Hello, world!'` is a literal string constant; what you see is
|
||||
what you get. The only detail to know is that such constants must occur
|
||||
within a single line of your source file. So depending on how you
|
||||
ran the program and how closely you looked at its output,
|
||||
you may have noticed this program does not write a newline at the end
|
||||
of its message. Nothing is ever implicitly sent to a stream. So if you want
|
||||
newlines, you should switch to a (double-quoted) string that allows
|
||||
the usual array of escape sequences:
|
||||
|
||||
```fostr
|
||||
**/
|
||||
|
||||
/** md */ test hello_esc_world [[
|
||||
<<< "Hello,\t\tworld!\n\n"
|
||||
]] /* **/
|
||||
parse to TopLevel(DefGets(EscString("\"Hello,\t\tworld!\n\n\"")))
|
||||
/** writes
|
||||
Hello, world!
|
||||
|
||||
**/
|
||||
|
||||
/** md
|
||||
```
|
||||
(We threw in two of each so you could clearly see them in the output if
|
||||
you run this program.)
|
||||
|
||||
### Everything has a value
|
||||
|
||||
As mentioned in the [Introduction](../README.md), everything in a fostr
|
||||
program (including the entire program itself) is an expression and has
|
||||
a value. So what's the value of that expression above? Well, appropriately
|
||||
enough, `stream` is our
|
||||
first example of a stream, and for convenience, the value of a stream
|
||||
receiving an item is (usually) just the stream back again. The `<<` operator
|
||||
is also left-associative, so that way we can chain insertions into a stream:
|
||||
a value. So what's the value of that expression above? Well, for convenience,
|
||||
the value of a stream receiving an item is (generally) just the stream back
|
||||
again. That way we can use the general (left-associative)
|
||||
`_stream_ << _value_` operator to chain insertions into a stream:
|
||||
```fostr
|
||||
**/
|
||||
|
||||
/** md */ test emit_twice [[
|
||||
stream << 72 + 87 + 33 << 291
|
||||
/** md */ test state_obvious [[
|
||||
<<< 'Two and ' << 2 << ' make ' << 2+2 << ".\n"
|
||||
]] /* **/
|
||||
parse to TopLevel(
|
||||
Gets(Gets(Gets(Gets(DefGets(LitString("'Two and '")),Int("2")),
|
||||
LitString("' make '")),Sum(Int("2"),Int("2"))),
|
||||
EscString("\".\n\"")))
|
||||
/** writes
|
||||
Two and 2 make 4.
|
||||
**/
|
||||
|
||||
test emit_twice [[
|
||||
stream << 72 + 87 + 33 << 291
|
||||
]]
|
||||
parse to TopLevel(
|
||||
Gets(Gets(Stream(), Sum(Sum(Int("72"), Int("87")), Int("33"))), Int("291")))
|
||||
/** writes
|
||||
@ -77,24 +123,28 @@ parse to TopLevel(
|
||||
|
||||
/** md
|
||||
```
|
||||
Running this program produces a nice palindromic output: "192291".
|
||||
|
||||
And because sometimes you want to emphasize the value and propagate that
|
||||
instead of the stream, you can also write these expressions "the other way"
|
||||
with `>>`; both forms return the first argument, so the following writes "824":
|
||||
with `>>>` for sending to the default stream or `>>` in general; these forms
|
||||
(generally) return the value sent, so the following writes "824":
|
||||
```fostr
|
||||
**/
|
||||
|
||||
/** md */ test enters_twice [[
|
||||
(7 + 8 >> stream + 9) >> stream
|
||||
(7 + 8 >> stream + 9) >>>
|
||||
]] /* **/
|
||||
parse to TopLevel(
|
||||
To(Sum(Sum(Int("7"), To(Int("8"), Stream())), Int("9")), Stream()))
|
||||
DefTo(Sum(Sum(Int("7"), To(Int("8"), Stream())), Int("9"))))
|
||||
/** writes
|
||||
824**/
|
||||
|
||||
/** md
|
||||
```
|
||||
Two things are worth noting here: the default stream can always be referred to
|
||||
directly via the identifier `stream`, and the precedences of `<<` and `>>` are
|
||||
different so that generally full expressions go to a stream with `<<` but
|
||||
just individual terms are sent with `>>`.
|
||||
|
||||
### Layout in fostr
|
||||
|
||||
@ -104,13 +154,13 @@ lines are indented from the start of the initial line:
|
||||
**/
|
||||
|
||||
/** md */ test receive_enter_break [[
|
||||
stream <<
|
||||
<<<
|
||||
7
|
||||
+ 8 >> stream
|
||||
+ 8 >>>
|
||||
+ 9
|
||||
]] /* **/
|
||||
parse to TopLevel(
|
||||
Gets(Stream(), Sum(Sum(Int("7"), To(Int("8"), Stream())), Int("9"))))
|
||||
DefGets(Sum(Sum(Int("7"), DefTo(Int("8"))), Int("9"))))
|
||||
/** writes
|
||||
824**/
|
||||
|
||||
@ -121,8 +171,8 @@ parse to TopLevel(
|
||||
**/
|
||||
|
||||
/** md */ test enter_receive_bad_continuation [[
|
||||
(7 + 8 >> stream + 9)
|
||||
>> (stream << 9 + 2)
|
||||
(7 + 8 >>> + 9)
|
||||
>> (<<< 9 + 2)
|
||||
]] /* **/
|
||||
parse fails
|
||||
|
||||
@ -145,16 +195,17 @@ lines are evaluated in sequence. For example, the program
|
||||
**/
|
||||
|
||||
/** md */ test emit_thrice [[
|
||||
stream << 72 + 87
|
||||
stream << 88
|
||||
<<< 72 + 87
|
||||
<<< 88
|
||||
+ 96
|
||||
99 + 12 >>
|
||||
stream
|
||||
99 + 12
|
||||
>>>
|
||||
|
||||
]] /* **/
|
||||
parse to TopLevel(Sequence([
|
||||
Gets(Stream(), Sum(Int("72"), Int("87"))),
|
||||
Gets(Stream(), Sum(Int("88"), Int("96"))),
|
||||
Sum(Int("99"), To(Int("12"), Stream()))
|
||||
DefGets(Sum(Int("72"), Int("87"))),
|
||||
DefGets(Sum(Int("88"), Int("96"))),
|
||||
Sum(Int("99"), DefTo(Int("12")))
|
||||
]))
|
||||
/** writes
|
||||
15918412**/
|
||||
@ -169,10 +220,10 @@ in sequence align at the left; e.g., the following fails to parse:
|
||||
**/
|
||||
|
||||
/** md */ test emit_thrice_bad_alignment [[
|
||||
stream << 72 + 87
|
||||
stream << 88
|
||||
<<< 72 + 87
|
||||
<<< 88
|
||||
+ 96
|
||||
99 + 12 >> stream
|
||||
99 + 12 >>>
|
||||
]] /* **/
|
||||
parse fails
|
||||
|
||||
@ -187,23 +238,23 @@ are so terminated. So the following is OK:
|
||||
**/
|
||||
|
||||
/** md */ test emit_several [[
|
||||
stream << 1 + 2; 3 >> stream
|
||||
(4 + 5) >> stream; stream << 6;
|
||||
stream << 7
|
||||
stream << 8
|
||||
<<< 1 + 2; 3 >>>
|
||||
(4 + 5) >>>; stream << 6;
|
||||
<<< 7
|
||||
<<< 8
|
||||
+ (9+10);
|
||||
11 + 12 >> stream; 13 >> stream
|
||||
>> stream
|
||||
11 + 12 >>>; 13 >>>
|
||||
>>>
|
||||
]] /* **/
|
||||
parse to TopLevel(Sequence([
|
||||
ISequence(Prior([Terminate(Gets(Stream(), Sum(Int("1"), Int("2"))))]),
|
||||
To(Int("3"), Stream())),
|
||||
ISequence(Prior([Terminate(To(Sum(Int("4"), Int("5")), Stream()))]),
|
||||
ISequence(Prior([Terminate(DefGets(Sum(Int("1"), Int("2"))))]),
|
||||
DefTo(Int("3"))),
|
||||
ISequence(Prior([Terminate(DefTo(Sum(Int("4"), Int("5"))))]),
|
||||
Terminate(Gets(Stream(), Int("6")))),
|
||||
Gets(Stream(), Int("7")),
|
||||
Terminate(Gets(Stream(), Sum(Int("8"), Sum(Int("9"), Int("10"))))),
|
||||
ISequence(Prior([Terminate(Sum(Int("11"), To(Int("12"), Stream())))]),
|
||||
To(To(Int("13"), Stream()), Stream()))
|
||||
DefGets(Int("7")),
|
||||
Terminate(DefGets(Sum(Int("8"), Sum(Int("9"), Int("10"))))),
|
||||
ISequence(Prior([Terminate(Sum(Int("11"), DefTo(Int("12"))))]),
|
||||
DefTo(DefTo(Int("13"))))
|
||||
]))
|
||||
/** writes
|
||||
3396727121313**/
|
||||
@ -242,4 +293,38 @@ test emit_several_default [[
|
||||
>>>
|
||||
]] parse succeeds
|
||||
/** writes
|
||||
3399677527121313*/
|
||||
3399677527121313**/
|
||||
|
||||
/** md
|
||||
### Streams are bidirectional
|
||||
|
||||
So far we have only sent items to a stream. But we can extract them from
|
||||
streams as well, with the `!` postfix operator. `!!` all by itself abbreviates
|
||||
`stream!`, i.e., extraction from the standard stream. For example,
|
||||
|
||||
```fostr
|
||||
**/
|
||||
|
||||
/** md */ test custom_hw [[
|
||||
<<< "What is your name?\n"
|
||||
<<< 'Hello, ' ++ !!
|
||||
]] /* **/
|
||||
parse to TopLevel(Sequence([
|
||||
DefGets(EscString("\"What is your name?\n\"")),
|
||||
DefGets(Concat(LitString("'Hello, '"),DefEmits()))
|
||||
]))
|
||||
/** accepts
|
||||
Kilroy
|
||||
**/
|
||||
/** writes
|
||||
What is your name?
|
||||
Hello, Kilroy
|
||||
**/
|
||||
|
||||
/** md
|
||||
```
|
||||
|
||||
queries users for their name and then writes a customized greeting. It also
|
||||
illustrates the use of `++` for string concatenation, as opposed to `+` for
|
||||
(numerical) addition.
|
||||
**/
|
||||
|
1
tests/hw2.fos
Normal file
1
tests/hw2.fos
Normal file
@ -0,0 +1 @@
|
||||
<<< "Hello,\t\tworld!\n\n"
|
@ -17,6 +17,7 @@ rules
|
||||
|
||||
defStream: DefGets(x) -> Gets(Stream(), x)
|
||||
defStream: DefTo(x) -> To(x, Stream())
|
||||
defStream: DefEmits() -> Emits(Stream())
|
||||
|
||||
strategies
|
||||
|
||||
|
@ -6,6 +6,7 @@ imports
|
||||
pp
|
||||
outline
|
||||
analysis
|
||||
ocaml
|
||||
haskell
|
||||
javascript
|
||||
python
|
||||
|
@ -10,7 +10,7 @@ rules
|
||||
rule.
|
||||
C) We will use bottomup-para to traverse the full AST with the
|
||||
transformation from A so that we have access to the original expression
|
||||
(and get get the Statix-associated type when we need to).
|
||||
(and can get the Statix-associated type when we need to).
|
||||
Hence the transformation in (A) must actually take a pair of
|
||||
an (original) term and a term with value strings at each child,
|
||||
and be certain to return a value string.
|
||||
@ -23,6 +23,7 @@ rules
|
||||
import System.IO
|
||||
data IOStream = StdIO
|
||||
|
||||
-- Danger: These currently assume the stream is StdIO
|
||||
gets :: Show b => a -> b -> IO a
|
||||
gets s d = do
|
||||
putStr(show d)
|
||||
@ -33,13 +34,19 @@ rules
|
||||
putStr(d)
|
||||
return s
|
||||
|
||||
emit s = do
|
||||
l <- getLine
|
||||
return (l ++ "\n")
|
||||
|
||||
main = do
|
||||
[<Preactions>()]return [val]]
|
||||
|
||||
hs: (_, Stream()) -> "StdIO"
|
||||
hs: (_, Int(x)) -> x
|
||||
hs: (_, LitString(x)) -> <haskLitString>x
|
||||
hs: (_, EscString(x)) -> x
|
||||
hs: (_, Sum(x, y)) -> $[([x] + [y])]
|
||||
hs: (_, Concat(x, y)) -> $[([x] ++ [y])]
|
||||
|
||||
hs: (Gets(_, xn), Gets(s, x)) -> v
|
||||
with v := <newname>"_fostr_get"
|
||||
@ -51,6 +58,10 @@ rules
|
||||
hs_gets: (s, xn, x ) -> $[[s] [<hs_getOp>xn] [x]]
|
||||
hs_getOp = get-type; (?STRING() < !"`getsStr`" + !"`gets`")
|
||||
|
||||
hs: (_, Emits(s)) -> v
|
||||
with v := <newname>"_fostr_emitted"
|
||||
; <add-preactions>[$[[v] <- emit [s]]]
|
||||
|
||||
hs: (_, Terminate(x)) -> $[[x];;]
|
||||
hs: (_, Sequence(l)) -> <last>l
|
||||
/* One drawback of using paramorphism is we have to handle lists
|
||||
|
@ -3,23 +3,41 @@ imports libstrategolib signatures/- util
|
||||
|
||||
rules
|
||||
js: TopLevel(x) -> $[// Fostr preamble
|
||||
const _fostr_readline = require('readline');
|
||||
const _fostr_events = require('events');
|
||||
const _fostr_rl = _fostr_readline.createInterface({input: process.stdin});
|
||||
const Stdio = {
|
||||
gets: v => { process.stdout.write(String(v)); return Stdio; },
|
||||
gets: v => { process.stdout.write(String(v)); return Stdio; },
|
||||
emit: async () => {
|
||||
const [line] = await _fostr_events.once(_fostr_rl, 'line');
|
||||
return line + "\n"; }
|
||||
}
|
||||
function to(data, strm) {
|
||||
strm.gets(data);
|
||||
return data;
|
||||
}
|
||||
|
||||
const _fostr_body = async () => {
|
||||
// End of preamble
|
||||
|
||||
[x]]
|
||||
[x]
|
||||
|
||||
// Fostr coda
|
||||
_fostr_rl.close()
|
||||
}
|
||||
_fostr_body();
|
||||
]
|
||||
with line := "[line]"
|
||||
|
||||
js: Stream() -> $[Stdio]
|
||||
js: Int(x) -> x
|
||||
js: LitString(x) -> <javaLitString>x
|
||||
js: Sum(x,y) -> $[[x] + [y]]
|
||||
js: EscString(x) -> x
|
||||
js: Sum(x, y) -> $[[x] + [y]]
|
||||
js: Concat(x, y) -> $[[x] + [y]]
|
||||
js: Gets(x, y) -> $[[x].gets([y])]
|
||||
js: To(x, y) -> $[to([x],[y])]
|
||||
js: Emits(x) -> $[(await [x].emit())]
|
||||
js: Terminate(x) -> x
|
||||
js: Sequence(l) -> <join(|";\n")>l
|
||||
|
||||
|
66
trans/ocaml.str
Normal file
66
trans/ocaml.str
Normal file
@ -0,0 +1,66 @@
|
||||
module ocaml
|
||||
imports libstrategolib signatures/- util signature/TYPE analysis
|
||||
|
||||
/* Note will use bottomup-para to traverse the full AST so that
|
||||
we have access to the original expression (and can get the
|
||||
Statix-associated type when we need to).
|
||||
|
||||
This means that every one of our local rules must take a pair
|
||||
of an original term and a term with every child replaced by
|
||||
its generated code.
|
||||
*/
|
||||
|
||||
rules
|
||||
ml: (_, TopLevel(x)) -> $[(* fostr preamble *)
|
||||
type stream = { getS: string -> stream; emitS: unit -> string }
|
||||
let rec stdio = {
|
||||
getS = (fun s -> print_string s; stdio);
|
||||
emitS = (fun () -> (read_line ()) ^ "\n");
|
||||
};;
|
||||
(* End of preamble *)
|
||||
|
||||
[x]]
|
||||
|
||||
ml: (_, Stream()) -> $[stdio]
|
||||
ml: (_, Int(x)) -> x
|
||||
ml: (_, LitString(x)) -> $[{|[<un-single-quote>x]|}]
|
||||
ml: (_, EscString(x)) -> x
|
||||
ml: (_, Sum(x, y)) -> $[[x] + [y]]
|
||||
ml: (_, Concat(x, y)) -> $[[x] ^ [y]]
|
||||
|
||||
ml: (Gets(_,yn), Gets(x, y))
|
||||
-> $[([x]).getS ([<ml_str>(yn,y)])]
|
||||
ml: (To(xn,_), To(x, y))
|
||||
-> $[let _fto = ([x]) in (ignore (([y]).getS ([<ml_str>(xn,"_fto")])); _fto)]
|
||||
ml: (_, Emits(s)) -> $[[s].emitS ()]
|
||||
|
||||
ml: (_, Terminate(x)) -> x
|
||||
ml: (_, Sequence(l)) -> <ml_seq>l
|
||||
|
||||
ml_seq: [x] -> x
|
||||
ml_seq: [x | xs ] -> $[ignore ([x]);
|
||||
[<ml_seq>xs]]
|
||||
|
||||
/* One drawback of using paramorphism is we have to handle lists
|
||||
explicitly:
|
||||
*/
|
||||
ml: (_, []) -> []
|
||||
ml: (_, [x | xs]) -> [x | xs]
|
||||
|
||||
/* Another drawback of using paramorphism is at the very leaves we have
|
||||
to undouble the tuple:
|
||||
*/
|
||||
ml: (x, x) -> x where <is-string>x
|
||||
|
||||
ml_str: (node, code) -> $[[<ml_string_cast>node]([code])]
|
||||
|
||||
strategies
|
||||
|
||||
ml_string_cast = get-type; (?INT() < !"string_of_int" + !"")
|
||||
|
||||
ocaml = bottomup-para(try(ml))
|
||||
|
||||
// Interface ocaml code generation with editor services and file system
|
||||
to-ocaml: (selected, _, _, path, project-path) -> (filename, result)
|
||||
with filename := <guarantee-extension(|"ml")> path
|
||||
; result := <ocaml> selected
|
@ -8,6 +8,8 @@ rules
|
||||
def gets(self, v):
|
||||
print(v, file=sys.stdout, end='')
|
||||
return self
|
||||
def emit(self):
|
||||
return input() + "\n" # Python inconsistently strips when using input
|
||||
def to(data,strm):
|
||||
strm.gets(data)
|
||||
return data
|
||||
@ -19,9 +21,12 @@ rules
|
||||
py: Stream() -> $[Stdio]
|
||||
py: Int(x) -> x
|
||||
py: LitString(x) -> $[r[x]]
|
||||
py: EscString(x) -> x
|
||||
py: Sum(x,y) -> $[[x] + [y]]
|
||||
py: Concat(x,y) -> $[[x] + [y]]
|
||||
py: Gets(x, y) -> $[[x].gets([y])]
|
||||
py: To(x, y) -> $[to([x],[y])]
|
||||
py: Emits(x) -> $[[x].emit()]
|
||||
py: Terminate(x) -> $[[x];]
|
||||
py: Sequence(l) -> <join(|"\n")>l
|
||||
|
||||
|
@ -184,16 +184,19 @@ constructor was trivial:
|
||||
|
||||
Now typing literals is straightforward:
|
||||
```statix
|
||||
{! "\git docs/statix_works:trans/statics.stx" extract:
|
||||
start: '(.*ty_Ex.Int.*\s*)'
|
||||
stop: '/. ../'
|
||||
!}
|
||||
```
|
||||
**/
|
||||
|
||||
/** md */
|
||||
ty_Ex(Int(_)) = INT().
|
||||
ty_Ex(LitString(_)) = STRING().
|
||||
ty_Ex(EscString(_)) = STRING().
|
||||
ty_Ex(e@Stream()) = STREAM().
|
||||
/* **/
|
||||
|
||||
/** md
|
||||
```
|
||||
|
||||
Finally we get to the binary operators, and here we use the pattern found in
|
||||
recent versions of the
|
||||
@ -219,6 +222,13 @@ This pattern lets us specify error messages.
|
||||
type_Ex(e2) == STREAM() | error $[Items may only be sent to Streams.]@e2.
|
||||
/* **/
|
||||
|
||||
ty_Ex(Concat(e1, e2)) = STRING() :-
|
||||
type_Ex(e1) == STRING() | error $[Expression [e1] not String in concat.]@e1,
|
||||
type_Ex(e2) == STRING() | error $[Expression [e2] not String in concat.]@e2.
|
||||
|
||||
ty_Ex(Emits(e)) = STRING() :- // At the moment, only stream is stdio
|
||||
type_Ex(e) == STREAM() | error $[Only Streams may emit items.]@e.
|
||||
|
||||
/** md
|
||||
```
|
||||
|
||||
|
Loading…
Reference in New Issue
Block a user