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|
-- Copyright (C) 2007-2013 Gabriel Dos Reis.
-- All rights reserved.
--
-- Redistribution and use in source and binary forms, with or without
-- modification, are permitted provided that the following conditions are
-- met:
--
-- - Redistributions of source code must retain the above copyright
-- notice, this list of conditions and the following disclaimer.
--
-- - Redistributions in binary form must reproduce the above copyright
-- notice, this list of conditions and the following disclaimer in
-- the documentation and/or other materials provided with the
-- distribution.
--
-- - Neither the name of The Numerical Algorithms Group Ltd. nor the
-- names of its contributors may be used to endorse or promote products
-- derived from this software without specific prior written permission.
--
-- THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS
-- IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED
-- TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A
-- PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER
-- OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
-- EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
-- PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
-- PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
-- LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
-- NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
-- SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
--
-- This file defines some utility functions common to both the compiler
-- and interpreter.
import sys_-constants
import vmlisp
import hash
namespace BOOT
module sys_-utility where
probeReadableFile : %String -> %Maybe %String
remove!: (%List %Thing,%Thing) -> %List %Thing
displayTextFile: %Thing -> %Void
upwardCut: (%Thing, %List %Thing) -> %List %Thing
symbolPosition: (%Symbol,%List %Symbol) -> %Maybe %Short
valuePosition: (%Thing,%List %Thing) -> %Maybe %Short
symbolTarget: (%Symbol,%List %Thing) -> %Maybe %Thing
scalarAssoc: (%Thing,%List %Thing) -> %Maybe %Pair(%Thing,%Thing)
scalarTarget: (%Thing,%List %Thing) -> %Maybe %Thing
--%
$COMBLOCKLIST := nil
++ Constants describing byte order
%littleEndian == KEYWORD::%littleEndian
%bigEndian == KEYWORD::%bigEndian
%unknownEndian == KEYWORD::%unknownEndian
++ The byte order of the host machine running OpenAxiom.
%hostByteOrder() ==
getHostByteOrder() = 1 => %littleEndian
getHostByteOrder() = 2 => %bigEndian
%unknownEndian
--%
++ getVMType returns an approximation of the underlying object type
++ representation of a domain, as a Lisp type specifier as seen by
++ the runtime system.
getVMType d ==
ident? d =>
d is "*" => d
"%Thing"
string? d => "%Thing" -- literal flag parameter
case (d' := devaluate d) of
Void => "%Void"
Identifier => "%Symbol"
Boolean => "%Boolean"
Byte => "%Byte"
Character => "%Char"
SingleInteger => "%Short"
Integer => "%Integer"
NonNegativeInteger => ["%IntegerSection",0]
PositiveInteger => ["%IntegerSection",1]
IntegerMod => "%Integer"
DoubleFloat => "%DoubleFloat"
String => "%String"
List => ["%List",getVMType second d']
Vector => ["%Vector",getVMType second d']
PrimitiveArray => ["%SimpleArray", getVMType second d']
Pair => ["%Pair",getVMType second d',getVMType third d']
Union => ["%Pair",'%Short,'%Thing]
Record =>
#rest d' > 2 => "%Shell"
["%Pair",'%Thing,'%Thing]
IndexedList => ["%List", getVMType second d']
Int8 => ["SIGNED-BYTE", 8]
Int16 => ["SIGNED-BYTE", 16]
Int32 => ["SIGNED-BYTE", 32]
UInt8 => ["UNSIGNED-BYTE", 8]
UInt16 => ["UNSIGNED-BYTE", 16]
UInt32 => ["UNSIGNED-BYTE", 32]
otherwise => "%Thing" -- good enough, for now.
--%
++ returns true if `f' is bound to a macro.
macrop: %Thing -> %Boolean
macrop f ==
ident? f and not null MACRO_-FUNCTION f
++ returns true if `f' is bound to a function
functionp: %Thing -> %Boolean
functionp f ==
ident? f => functionSymbol? f and null MACRO_-FUNCTION f
function? f
++ returns true if `x' is contained in `y'.
CONTAINED: (%Thing,%Thing) -> %Boolean
CONTAINED(x,y) == main where
main() ==
symbol? x => eq(x,y)
equal(x,y)
eq(x,y) ==
cons? y => eq(x, first y) or eq(x, rest y)
symbolEq?(x,y)
equal(x,y) ==
y isnt [.,:.] => x = y
equal(x, first y) or equal(x, rest y)
++ Returns all the keys of association list `x'
-- ??? Should not this be named `alistAllKeys'?
ASSOCLEFT: %Thing -> %Thing
ASSOCLEFT x ==
x isnt [.,:.] => x
[first p for p in x]
++ Returns all the datums of association list `x'.
-- ??? Should not this be named `alistAllValues'?
ASSOCRIGHT: %Thing -> %Thing
ASSOCRIGHT x ==
x isnt [.,:.] => x
[rest p for p in x]
++ Put the association list pair `(x . y)' into `l', erasing any
++ previous association for `x'.
ADDASSOC: (%Thing,%Thing,%Alist(%Thing,%Thing)) -> %Alist(%Thing,%Thing)
ADDASSOC(x,y,l) ==
l isnt [.,:.] => [[x,:y],:l]
x = first first l => [[x,:y],:rest l]
[first l,:ADDASSOC(x,y,rest l)]
++ Remove any assocation pair `(u . x)' from list `v'.
DELLASOS: (%Thing,%Alist(%Thing,%Thing)) -> %Alist(%Thing,%Thing)
DELLASOS(u,v) ==
v isnt [.,:.] => nil
u = first first v => rest v
[first v,:DELLASOS(u,rest v)]
++ Return the datum associated with key `x' in association list `y'.
-- ??? Should not this be named `alistValue'?
LASSOC: (%Thing,%Alist(%Thing,%Thing)) -> %Thing
LASSOC(x,y) ==
y isnt [.,:.] => nil
x = first first y => rest first y
LASSOC(x,rest y)
++ Return the key associated with datum `x' in association list `y'.
rassoc: (%Thing,%Alist(%Thing,%Thing)) -> %Thing
rassoc(x,y) ==
y isnt [.,:.] => nil
x = rest first y => first first y
rassoc(x,rest y)
++ Reclaim unreachable objects.
RECLAIM() ==
)if %hasFeature KEYWORD::GCL
SI::GBC true
)elseif %hasFeature KEYWORD::SBCL
SB_-EXT::GC()
)elseif %hasFeature KEYWORD::CLISP
EXT::GC()
)else
nil
)endif
++
makeAbsoluteFilename: %String -> %String
makeAbsoluteFilename name ==
strconc(systemRootDirectory(),name)
++ returns true if `file' exists as a pathname.
existingFile? file ==
PROBE_-FILE file => true
false
probeReadableFile file ==
readablep file > 0 => file
nil
++
$REPLACE(filespec1,filespec2) ==
filespec1 := makeFullFilePath filespec1
removeFile filespec1
renameFile(makeFullFilePath filespec2, filespec1)
++
checkMkdir path ==
mkdir path = 0 => true
systemError ['"cannot create directory",:bright path]
++ return the pathname to the system module designated by `m'.
getSystemModulePath m ==
d := systemAlgebraDirectory() => strconc(d,m,'".",$faslType)
strconc(systemRootDirectory(),'"algebra/",m,'".",$faslType)
++ load module in `path' that supposedly will define the function
++ indicated by `name'.
loadModule: (%String,%Symbol) -> %Thing
loadModule(path,name) ==
FMAKUNBOUND name
LOAD path
--% numerics
log10 x ==
LOG(x,10)
bitand: (%Short,%Short) -> %Short
bitand(x,y) ==
BOOLE(BOOLE_-AND,x,y)
bitior: (%Short,%Short) -> %Short
bitior(x,y) ==
BOOLE(BOOLE_-IOR,x,y)
--% Hash table
hashTable cmp ==
testFun :=
cmp in '(ID EQ) => function sameObject?
cmp = 'EQL => function scalarEq?
cmp = 'EQUAL => function EQUAL
error '"bad arg to hashTable"
MAKE_-HASH_-TABLE(test <- testFun)
--% Trees to Graphs
minimalise x ==
min(x,hashTable 'EQUAL) where
min(x,ht) ==
y := tableValue(ht,x)
y => y
cons? x =>
z := min(first x,ht)
if not sameObject?(z,first x) then x.first := z
z := min(rest x,ht)
if not sameObject?(z,rest x) then x.rest := z
hashCheck(x,ht)
vector? x =>
for i in 0..maxIndex x repeat
x.i := min(x.i,ht)
hashCheck(x,ht)
string? x => hashCheck(x,ht)
x
hashCheck(x,ht) ==
y := tableValue(ht,x)
y => y
tableValue(ht,x) := x
x
--% File IO
$InputIOMode == KEYWORD::INPUT
$OutputIOMode == KEYWORD::OUTPUT
$BothWaysIOMode == KEYWORD::IO
$ClosedIOMode == KEYWORD::CLOSED
++ return a binary stream open for `file' in mode `mode'; nil
++ if something went wrong. This function is used by the Algebra.
openBinaryFile(file,mode) ==
mode = $InputIOMode =>
OPEN(file,direction <- mode,
if_-does_-not_-exist <- nil,element_-type <- "%Byte")
OPEN(file,direction <- mode,
if_-exists <- KEYWORD::SUPERSEDE,element_-type <- "%Byte")
++ Write byte `b' to output binary file `ofile'.
writeByteToFile(ofile,b) ==
writeByte(b,ofile)
--%
stringImage x ==
symbol? x => symbolName x
string? x => strconc('"_"",x,'"_"")
toString x
--% Socket I/O
++ Attempt to establish a client TCP/IP socket connection. The IP numeric
++ address is specified by the first argument; second argument is the
++ version of IP used (4 or 6); third argument is the desired port.
++ Return %nothing on failure, otherwise the file descriptor corresponding
++ to the obtained client socket.
connectToHostAndPort(addr,prot,port) ==
(socket := doConnectToHostAndPort(addr,prot,port)) < 0 => %nothing
socket
++ Attempt to read a byte from the socket `s'. If unsuccessful,
++ return %nothing.
readByteFromStreamSocket s ==
(byte := doReadByteFromStreamSocket s) < 0 => %nothing
COERCE(byte,"%Byte")
writeByteToStreamSocket(s,b) ==
(byte := doWriteByteToStreamSocket(s,b)) < 0 => %nothing
COERCE(byte,"%Byte")
--%
makeByteBuffer(n,b == 0) ==
MAKE_-ARRAY(n,element_-type <- "%Byte",initial_-element <- b)
++ Return the position of the symbol `s' in the list `l', if present.
++ Otherwise return nil.
symbolPosition(s,l) ==
or/[i for i in 0.. for x in l | symbolEq?(s,x)]
valuePosition(s,l) ==
or/[i for i in 0.. for x in l | valueEq?(s,x)]
--% assoc
scalarAssoc(c,l) ==
or/[scalarEq?(c,first x) and leave x for x in l | cons? x] or nil
stringAssoc(s,l) ==
or/[stringEq?(s,first x) and leave x for x in l | cons? x] or nil
--% lassoc
symbolTarget(s,l) ==
p := symbolAssoc(s,l) => rest p
nil
scalarTarget(s,l) ==
p := scalarAssoc(s,l) => rest p
nil
--%
remove!(l,x) ==
l = nil => nil
valueEq?(first l,x) => rest l
p := l
repeat
p isnt [.,.,:.] => return l
valueEq?(second p,x) =>
p.rest := p.rest.rest
return l
p := rest p
sortBy(k,l) ==
SORT(copyList l,function GGREATERP,key <- k)
++ Return the list of objects that follow x in l, including x itself.
++ Otherwise return nil.
upwardCut(x,l) ==
repeat
l isnt [.,:.] => return nil
sameObject?(x,first l) => return l
l := rest l
--%
displayTextFile f ==
try
stream := inputTextFile f
while (line := readLine stream) ~= %nothing repeat
writeLine(line,$OutputStream)
finally
stream ~= nil => closeStream stream
--%
macro last x ==
lastNode(x).first
--%
macro loopBody x ==
take(-2,x).first
--%
macro constructorDB ctor ==
property(ctor,'DATABASE)
--%
structure %Libstream ==
Record(mode: %IOMode, dir: %Pathname,tbl: %Thing, idxst: %Stream,
cdst: %Stream,insnst: %Stream,tmpdir: %Pathname) with
libIOMode == (.mode)
libDirname == (.dir)
libIndexTable == (.tbl)
libIndexStream == (.idxst)
libCodeStream == (.cdst)
libInsnStream == (.insnst)
libStationaryDirname == (.tmpdir)
makeLibstream(m,p,idx==nil,st==nil) ==
mk%Libstream(m,p,idx,st,nil,nil,nil)
makeFilename(filearg,filetype==nil) ==
if ident? filetype then
filetype := symbolName filetype
filePath? filearg => filePathString
filePathType filearg ~= nil => filearg
makeFilePath(directory <- filePathDirectory filearg,
name <- filePathName filearg, type <- filetype)
string? filearg and filePathType filearg ~= nil and filetype = nil => filearg
string? filearg and string? filetype and filePathType filearg ~= nil
and stringEq?(filePathType filearg,filetype) => filearg
filearg is [.,:.] =>
makeFilename(first filearg,second filearg or filetype)
if string? filetype then
filetype := makeSymbol filetype
ft := rest symbolAssoc(filetype,$FILETYPE_-TABLE) or filetype
ft = nil =>
string? filearg => filearg
ident? filearg => symbolName filearg
toString filearg
strconc(toString filearg,'".",toString ft)
makeFullFilePath(filearg,filetype==nil) ==
filePathString mergeFilePaths makeFilename(filearg,filetype)
getDirectoryList ft ==
here := getWorkingDirectory()
ft in '("NRLIB" "DAASE" "EXPOSED") =>
$UserLevel = 'development => [here,:$LIBRARY_-DIRECTORY_-LIST]
$LIBRARY_-DIRECTORY_-LIST
home := filePathString userHomeDirectory()
dirs :=
stringMember?(home,$DIRECTORY_-LIST) => $DIRECTORY_-LIST
[home,:$DIRECTORY_-LIST]
stringMember?(here,dirs) => dirs
[here,:dirs]
makeInputFilename(filearg,filetype == nil) ==
filename := makeFilename(filearg,filetype)
dirname := filePathDirectory filename
dirname = nil or dirname is [KEYWORD::RELATIVE,:.] =>
or/[probeReadableFile strconc(dir,filename)
for dir in getDirectoryList filePathType filename]
or probeReadableFile filename
probeReadableFile filename
findFile(spec,exts) ==
name :=
spec is [.,:.] => first spec
spec
if spec is [.,:.] then
exts := [second spec,:exts]
or/[makeInputFilename(name,ext) for ext in exts]
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