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|
-- Copyright (c) 1991-2002, The Numerical Algorithms Group Ltd.
-- All rights reserved.
-- Copyright (C) 2007-2010, 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.
import i_-analy
namespace BOOT
--% Top Level Interpreter Code
$intCoerceFailure ==
"coerceFailure"
$intRestart ==
"restart"
-- When $QuiteCommand is true Spad will not produce any output from
-- a top level command
$QuietCommand := NIL
-- When $ProcessInteractiveValue is true, we don't want the value printed
-- or recorded.
$ProcessInteractiveValue := NIL
$HTCompanionWindowID := NIL
++ initialize the garbage collection timer
statisticsInitialization() ==
)if %hasFeature KEYWORD::GCL
SYSTEM::GBC_-TIME 0
)else
nil
)endif
--% Starting the interpreter from LISP
spadpo() ==
-- starts the interpreter but only displays parsed input
$PrintOnly: local:= true
spad()
start(:l) ==
-- The function start begins the interpreter process, reading in
-- the profile and printing start-up messages.
$inLispVM : local := nil
if $displayStartMsgs then sayKeyedMsg("S2IZ0053",['"interpreter"])
initializeTimedNames($interpreterTimedNames,$interpreterTimedClasses)
statisticsInitialization()
$InteractiveFrame := makeInitialModemapFrame()
initializeSystemCommands()
initializeInterpreterFrameRing()
SETQ($ErrorStream,
DEFIOSTREAM('((DEVICE . CONSOLE)(MODE . OUTPUT)),80,0))
setOutputAlgebra "%initialize%"
loadExposureGroupData()
if $displayStartMsgs then sayKeyedMsg("S2IZ0053",['"database"])
mkLowerCaseConTable()
if not $ruleSetsInitialized then initializeRuleSets()
if $displayStartMsgs then sayKeyedMsg("S2IZ0053",['"constructors"])
makeConstructorsAutoLoad()
GCMSG(NIL)
SETQ($IOindex,1)
if $displayStartMsgs then sayKeyedMsg("S2IZ0053",['"history"])
initHist()
if functionp 'addtopath then addtopath strconc(systemRootDirectory(),'"bin")
if null(l) then
if $displayStartMsgs then
sayKeyedMsg("S2IZ0053",[namestring ['_.axiom,'input]])
readSpadProfileIfThere()
if $displayStartMsgs then spadStartUpMsgs()
if $OLDLINE then
SAY fillerSpaces($LINELENGTH,'"=")
sayKeyedMsg("S2IZ0050",[namestring ['axiom,'input]])
if $OLDLINE ~= 'END__UNIT
then
centerAndHighlight($OLDLINE,$LINELENGTH,'" ")
sayKeyedMsg("S2IZ0051",NIL)
else sayKeyedMsg("S2IZ0052",NIL)
SAY fillerSpaces($LINELENGTH,'"=")
TERPRI()
$OLDLINE := NIL
$superHash := hashTable 'EQUAL
if null l then runspad()
'EndOfSpad
readSpadProfileIfThere() ==
-- reads SPADPROF INPUT if it exists
file := ['_.axiom,'input]
MAKE_-INPUT_-FILENAME file =>
SETQ(_/EDITFILE,file)
_/RQ ()
NIL
--% Parser Output --> Interpreter
processInteractive(form, posnForm) ==
-- Top-level dispatcher for the interpreter. It sets local variables
-- and then calls processInteractive1 to do most of the work.
-- This function receives the output from the parser.
initializeTimedNames($interpreterTimedNames,$interpreterTimedClasses)
$op: local:= (form is [op,:.] => op; form) --name of operator
$Coerce: local := NIL
$compErrorMessageStack: local := nil
$freeVars : local := NIL
$mapList:local := NIL --list of maps being type analyzed
$compilingMap:local:= NIL --true when compiling a map
$compilingLoop:local:= NIL --true when compiling a loop body
$interpOnly: local := NIL --true when in interpret only mode
$whereCacheList: local := NIL --maps compiled because of where
$StreamFrame: local := nil --used in printing streams
$declaredMode: local := NIL --Weak type propagation for symbols
$localVars:local := NIL --list of local variables in function
$analyzingMapList:local := NIL --names of maps currently being
--analyzed
$lastLineInSEQ: local := true --see evalIF and friends
$instantCoerceCount: local := 0
$instantCanCoerceCount: local := 0
$instantMmCondCount: local := 0
$defaultFortVar:= 'X --default FORTRAN variable name
$fortVar : local := --variable name for FORTRAN output
$defaultFortVar
$minivector: local := NIL
$domPvar: local := NIL
$inRetract: local := NIL
object := processInteractive1(form, posnForm)
--object := ERRORSET(['processInteractive1,LIST('QUOTE,form),['QUOTE,posnForm]],'t,'t)
if not($ProcessInteractiveValue) then
if $reportInstantiations = true then
reportInstantiations()
CLRHASH $instantRecord
writeHistModesAndValues()
updateHist()
object
processInteractive1(form, posnForm) ==
-- calls the analysis and output printing routines
$e : local := $InteractiveFrame
recordFrame 'system
startTimingProcess 'analysis
object := interpretTopLevel(form, posnForm)
stopTimingProcess 'analysis
startTimingProcess 'print
if not($ProcessInteractiveValue) then
recordAndPrint(objValUnwrap object,objMode object)
recordFrame 'normal
stopTimingProcess 'print
--spadtestValueHook(objValUnwrap object, objMode object)
object
--% Result Output Printing
recordAndPrint(x,md) ==
-- Prints out the value x which is of type m, and records the changes
-- in environment $e into $InteractiveFrame
-- $printAnyIfTrue is documented in setvart.boot. controlled with )se me any
if md = '(Any) and $printAnyIfTrue then
md' := first x
x' := rest x
else
x' := x
md' := md
$outputMode: local := md --used by DEMO BOOT
mode:= (md=$EmptyMode => quadSch(); md)
if (md ~= $Void) or $printVoidIfTrue then
if null $collectOutput then TERPRI $algebraOutputStream
if $QuietCommand = false then
output(x',md')
putHist('%,'value,objNewWrap(x,md),$e)
if $printTimeIfTrue or $printTypeIfTrue then printTypeAndTime(x',md')
if $printStorageIfTrue then printStorage()
if $printStatisticsSummaryIfTrue then printStatisticsSummary()
if FIXP $HTCompanionWindowID then mkCompanionPage md
$mkTestFlag = true => recordAndPrintTest md
$runTestFlag =>
$mkTestOutputType := md
'done
'done
printTypeAndTime(x,m) == --m is the mode/type of the result
$saturn => printTypeAndTimeSaturn(x, m)
printTypeAndTimeNormal(x, m)
printTypeAndTimeNormal(x,m) ==
-- called only if either type or time is to be displayed
if m is ['Union, :argl] then
x' := retract(objNewWrap(x,m))
m' := objMode x'
m := ['Union, :[arg for arg in argl | sameUnionBranch(arg, m')], '"..."]
if $printTimeIfTrue then
timeString := makeLongTimeString($interpreterTimedNames,
$interpreterTimedClasses)
$printTimeIfTrue and $printTypeIfTrue =>
$collectOutput =>
$outputLines := [msgText("S2GL0012", [m]), :$outputLines]
sayKeyedMsg("S2GL0014",[m,timeString])
$printTimeIfTrue =>
$collectOutput => nil
sayKeyedMsg("S2GL0013",[timeString])
$printTypeIfTrue =>
$collectOutput =>
$outputLines := [justifyMyType msgText("S2GL0012", [m]), :$outputLines]
sayKeyedMsg("S2GL0012",[m])
printTypeAndTimeSaturn(x, m) ==
-- header
if $printTimeIfTrue then
timeString := makeLongTimeString($interpreterTimedNames,
$interpreterTimedClasses)
else
timeString := '""
if $printTypeIfTrue then
typeString := form2StringAsTeX devaluate m
else
typeString := '""
if $printTypeIfTrue then
printAsTeX('"\axPrintType{")
if cons? typeString then
MAPC(FUNCTION printAsTeX, typeString)
else
printAsTeX(typeString)
printAsTeX('"}")
if $printTimeIfTrue then
printAsTeX('"\axPrintTime{")
printAsTeX(timeString)
printAsTeX('"}")
printAsTeX(x) == PRINC(x, $texOutputStream)
sameUnionBranch(uArg, m) ==
uArg is [":", ., t] => t = m
uArg = m
msgText(key, args) ==
msg := segmentKeyedMsg getKeyedMsg key
msg := substituteSegmentedMsg(msg,args)
msg := flowSegmentedMsg(msg,$LINELENGTH,$MARGIN)
apply(function strconc, [STRINGIMAGE x for x in CDAR msg])
justifyMyType(t) ==
len := #t
len > $LINELENGTH => t
strconc(fillerSpaces($LINELENGTH-len), t)
typeTimePrin x ==
$highlightDelta: local:= 0
maprinSpecial(x,0,79)
printStorage() ==
$collectOutput => nil
storeString :=
makeLongSpaceString($interpreterTimedNames, $interpreterTimedClasses)
sayKeyedMsg("S2GL0016",[storeString])
printStatisticsSummary() ==
$collectOutput => nil
summary := statisticsSummary()
sayKeyedMsg("S2GL0017",[summary])
--% Interpreter Middle-Level Driver + Utilities
interpretTopLevel(x, posnForm) ==
-- Top level entry point from processInteractive1. Sets up catch
-- for a thrown result
savedTimerStack := COPY $timedNameStack
c := CATCH('interpreter,interpret(x, posnForm))
while savedTimerStack ~= $timedNameStack repeat
stopTimingProcess peekTimedName()
c = 'tryAgain => interpretTopLevel(x, posnForm)
c
interpret(x, :restargs) ==
posnForm := if cons? restargs then first restargs else restargs
--type analyzes and evaluates expression x, returns object
$env:local := [[nil]]
$eval:local := true --generate code-- don't just type analyze
$genValue:local := true --evaluate all generated code
interpret1(x,nil,posnForm)
interpret1(x,rootMode,posnForm) ==
-- dispatcher for the type analysis routines. type analyzes and
-- evaluates the expression x in the rootMode (if non-nil)
-- which may be $EmptyMode. returns an object if evaluating, and a
-- modeset otherwise
-- create the attributed tree
node := mkAtreeWithSrcPos(x, posnForm)
if rootMode then putTarget(node,rootMode)
-- do type analysis and evaluation of expression. The real guts
modeSet:= bottomUp node
not $eval => modeSet
newRootMode := (null rootMode => first modeSet ; rootMode)
argVal := getArgValue(node, newRootMode)
argVal and not $genValue => objNew(argVal, newRootMode)
argVal and (val:=getValue node) => interpret2(val,newRootMode,posnForm)
keyedSystemError("S2IS0053",[x])
interpret2(object,m1,posnForm) ==
-- this is the late interpretCoerce. I removed the call to
-- coerceInteractive, so it only does the JENKS cases ALBI
m1=$ThrowAwayMode => object
x := objVal object
m := objMode object
m=$EmptyMode =>
x is [op,:.] and op in '(%Map STREAM) => objNew(x,m1)
m1 = $EmptyMode => objNew(x,m)
systemErrorHere ["interpret2",x]
m1 =>
if (ans := coerceInteractive(object,m1)) then ans
else throwKeyedMsgCannotCoerceWithValue(x,m,m1)
object
--%
intSayKeyedMsg(key, args) ==
sayKeyedMsg(packageTran key, packageTran args)
intProcessSynonyms str ==
LINE: fluid := str
processSynonyms
LINE
intInterpretPform pf ==
processInteractive(zeroOneTran packageTran pf2Sex pf, pf)
SpadInterpretFile fn ==
SpadInterpretStream(1, fn, nil)
intNewFloat() ==
["Float"]
intSetNeedToSignalSessionManager() ==
$NeedToSignalSessionManager := true
setCurrentLine s ==
$currentLine :=
null $currentLine => s
string? $currentLine =>
[$currentLine, :(string? s => [s]; s)]
lastNode($currentLine).rest := (string? s => [s]; s)
$currentLine
intnplisp s ==
$currentLine := s
nplisp $currentLine
intSetQuiet() ==
$QuietCommand := true
intUnsetQuiet() ==
$QuietCommand := false
|