/* -*- mode: objc; coding: utf-8 -*- */
/* Toilet Lisp, a Common Lisp subset for the Étoilé runtime.
* Copyright (C) 2008 Matthias Andreas Benkard.
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or (at
* your option) any later version.
*
* This program is distributed in the hope that it will be useful, but
* WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see .
*/
#define _XOPEN_SOURCE 600
#define _GNU_SOURCE // for RTLD_DEFAULT
#define _ISOC99_SOURCE
#import "MLKInterpretedClosure.h"
#import "MLKCons.h"
#import "MLKDynamicContext.h"
#import "MLKEnvironment.h"
#import "MLKForeignProcedure.h"
#import "MLKFuncallable.h"
#import "MLKInterpreter.h"
#import "MLKLexicalContext.h"
#import "MLKLexicalEnvironment.h"
#import "MLKLLVMCompiler.h"
#import "MLKPackage.h"
#import "MLKReader.h"
#import "MLKRoot.h"
#import "MLKSymbol.h"
#import "NSObject-MLKPrinting.h"
#import "runtime-compatibility.h"
#import "special-symbols.h"
#import "util.h"
#import
#import
#import
#import
#import
#include
#ifdef _WIN32
#include
#else
#ifndef _BSD_SOURCE
#define _BSD_SOURCE
#endif
#undef _POSIX_C_SOURCE // needed at least on Mac OS X for RTLD_DEFAULT to be defined
#include
#endif
@implementation MLKInterpreter
+(void) initialize
{
ensure_symbols ();
}
+(NSArray*) eval:(id)program
inLexicalContext:(MLKLexicalContext *)context
withEnvironment:(MLKLexicalEnvironment *)lexenv
{
return (NSArray *)[self eval:program
inLexicalContext:context
withEnvironment:lexenv
expandOnly:NO];
}
+(NSArray*) eval:(id)program
inLexicalContext:(MLKLexicalContext *)context
withEnvironment:(MLKLexicalEnvironment *)lexenv
expandOnly:(BOOL)expandOnly
{
return [self eval:program
inLexicalContext:context
withEnvironment:lexenv
mode:(expandOnly ? expand_mode : eval_mode)];
}
#define RETURN_VALUE(thing) \
{ return [NSArray arrayWithObject:nullify(thing)]; }
+(NSArray*) eval:(id)program
inLexicalContext:(MLKLexicalContext *)context
withEnvironment:(MLKLexicalEnvironment *)lexenv
mode:(enum MLKProcessingMode)mode
{
MLKDynamicContext *dynamicContext = [MLKDynamicContext currentContext];
BOOL expandOnly = (mode != eval_mode);
#define TRACE_EVAL 0
#if TRACE_EVAL
BOOL trace = NO;
if ([dynamicContext valueForSymbol:V_INITP])
trace = YES;
if (trace)
NSLog (@"; EVAL: %@", MLKPrintToString(program));
#endif // TRACE_EVAL
if (MLKFixnumP (program))
{
// Fixnums evaluate to themselves.
//
// We need to get this case out of the way as early as possible,
// as we're going to repeatedly send messages to `program' after
// this point.
RETURN_VALUE (program);
}
else if (!program || [program isKindOfClass:[MLKSymbol class]])
{
if (mode == compile_time_too_mode)
{
if (![context symbolNamesSymbolMacro:program])
{
return [self eval:program
inLexicalContext:context
withEnvironment:lexenv
mode:expand_mode];
}
}
//NSLog (@"Processing symbol.");
if ([context symbolNamesSymbolMacro:program])
{
id macrofun, expansion;
macrofun = [context macroForSymbol:program];
expansion = [macrofun applyToArray:
[NSArray arrayWithObjects:
program, context, nil]];
return [self eval:expansion
inLexicalContext:context
withEnvironment:lexenv
mode:mode];
}
else if ([context variableIsLexical:program])
{
//NSLog (@"Processing lexical variable %@.", MLKPrintToString(program));
//NSLog (@"Lexical environment: %@.", lexenv);
//NSLog (@"Lexical variable value: %@.", [lexenv valueForSymbol:program]);
if (expandOnly)
RETURN_VALUE (program);
RETURN_VALUE ([lexenv valueForSymbol:program]);
}
else
{
//NSLog (@"Processing special variable %@.", MLKPrintToString(program));
//NSLog (@"Dynamic context: %@.", dynamicContext);
//NSLog (@"Special variable value: %@.", [dynamicContext valueForSymbol:program]);
if (expandOnly)
RETURN_VALUE (program);
RETURN_VALUE ([dynamicContext valueForSymbol:program]);
}
}
else if (![program isKindOfClass:[MLKCons class]])
{
// Everything that is not a list or a symbol evaluates to itself.
RETURN_VALUE (program);
}
else
{
id car = [program car];
if ([car isKindOfClass:[MLKSymbol class]] || !car)
{
if (mode == compile_time_too_mode)
{
if (!([context symbolNamesMacro:program]
|| car == _MACROLET || car == LOCALLY
|| car == SYMBOL_MACROLET || car == PROGN))
{
return [self eval:program
inLexicalContext:context
withEnvironment:lexenv
mode:expand_mode];
}
}
if (car == APPLY)
{
MLKCons *rest = denullify([[self eval:[[[program cdr] cdr] car]
inLexicalContext:context
withEnvironment:lexenv
expandOnly:expandOnly]
objectAtIndex:0]);
id function = denullify([[self eval:[[program cdr] car]
inLexicalContext:context
withEnvironment:lexenv
expandOnly:expandOnly]
objectAtIndex:0]);
if (expandOnly)
RETURN_VALUE ([MLKCons cons:APPLY
with:[MLKCons cons:function
with:[MLKCons cons:rest
with:nil]]]);
if ([function isKindOfClass:[MLKSymbol class]])
function = [lexenv functionForSymbol:function];
return [function applyToArray:(rest
? (id)[rest array]
: (id)[NSArray array])];
}
else if (car == CATCH)
{
id catchTag;
NSArray *values;
MLKDynamicContext *newctx;
catchTag = [[self eval:[[program cdr] car]
inLexicalContext:context
withEnvironment:lexenv
expandOnly:expandOnly]
objectAtIndex:0];
NS_DURING
{
if (!expandOnly)
{
newctx = [[MLKDynamicContext alloc]
initWithParent:dynamicContext
variables:nil
handlers:nil
restarts:nil
catchTags:[NSSet setWithObject:catchTag]
activeHandlerEnvironment:nil];
[newctx pushContext];
}
values = [self eval:[MLKCons cons:PROGN with:[[program cdr] cdr]]
inLexicalContext:context
withEnvironment:lexenv
expandOnly:expandOnly];
if (expandOnly)
NS_VALUERETURN ([NSArray arrayWithObject:
[MLKCons
cons:CATCH
with:[MLKCons
cons:catchTag
with:[[values
objectAtIndex:0]
cdr]]]],
NSArray *);
[MLKDynamicContext popContext];
LRELEASE (newctx);
NS_VALUERETURN (values, NSArray *);
}
NS_HANDLER
{
[MLKDynamicContext popContext];
LRELEASE (newctx);
if ([[localException name] isEqualToString:@"MLKThrow"])
{
id thrownTag = [[localException userInfo]
objectForKey:@"THROWN TAG"];
if (thrownTag == catchTag)
return [[localException userInfo]
objectForKey:@"THROWN OBJECTS"];
else
[localException raise];
}
else
[localException raise];
}
NS_ENDHANDLER;
return nil;
}
else if (car == EVAL)
{
NSArray *evaluand = denullify([[self eval:[[program cdr] car]
inLexicalContext:context
withEnvironment:lexenv
expandOnly:expandOnly]
objectAtIndex:0]);
if (expandOnly)
RETURN_VALUE ([MLKCons cons:EVAL with:[MLKCons cons:evaluand with:nil]]);
return [self eval:evaluand
inLexicalContext:[MLKLexicalContext globalContext]
withEnvironment:[MLKLexicalEnvironment
globalEnvironment]];
}
else if (car == EVAL_WHEN)
{
id situationList = [[program cdr] car];
id body = [[program cdr] cdr];
NSArray *situations;
BOOL ct, lt, e;
if (!situationList)
RETURN_VALUE (nil);
situations = [situationList array];
ct = ([situations containsObject:COMPILE_TOPLEVEL]
|| [situations containsObject:COMPILE]);
lt = ([situations containsObject:LOAD_TOPLEVEL]
|| [situations containsObject:LOAD]);
e = ([situations containsObject:EXECUTE]
|| [situations containsObject:EVAL]);
switch (mode)
{
case eval_mode:
case expand_mode:
if (e)
return [self eval:[MLKCons cons:PROGN with:body]
inLexicalContext:context
withEnvironment:lexenv
mode:mode];
else
RETURN_VALUE (nil);
case compile_time_too_mode:
case not_compile_time_mode:
if ((ct && lt)
|| (lt && e && (mode == compile_time_too_mode)))
{
return [self eval:[MLKCons cons:PROGN with:body]
inLexicalContext:context
withEnvironment:lexenv
mode:compile_time_too_mode];
}
else if (lt)
{
return [self eval:[MLKCons cons:PROGN with:body]
inLexicalContext:context
withEnvironment:lexenv
mode:not_compile_time_mode];
}
else if (ct || (e && mode == compile_time_too_mode))
{
[self eval:[MLKCons cons:PROGN with:body]
inLexicalContext:context
withEnvironment:lexenv];
RETURN_VALUE (nil);
}
else
{
RETURN_VALUE (nil);
}
}
}
else if (car == _FOREIGN_LAMBDA)
{
int (*function)();
NSString *name = [[program cdr] car];
id libraryDesignator = [[[program cdr] cdr] car];
id argtypes = [[[[program cdr] cdr] cdr] car];
id returnType = [[[[[program cdr] cdr] cdr] cdr] car];
// FIXME: Support library designators.
#ifdef _WIN32
// FIXME
//EnumProcessModules (...);
//GetProcAddress (..., [name UTF8String]);
#else
function = dlsym (RTLD_DEFAULT, [name UTF8String]);
#endif
RETURN_VALUE (LAUTORELEASE ([[MLKForeignProcedure alloc]
initWithCode:function
argumentTypes:[argtypes array]
returnType:returnType]));
}
else if (car == FUNCTION)
{
id functionName = [[program cdr] car];
if ([functionName isKindOfClass:[MLKCons class]]
&& ([functionName car] == LAMBDA
|| [functionName car] == _LAMBDA))
{
return [self eval:functionName
inLexicalContext:context
withEnvironment:lexenv
expandOnly:expandOnly];
}
else if (expandOnly)
{
RETURN_VALUE (program);
}
else
{
// FIXME: Function names need not be symbols.
id function =
[lexenv functionForSymbol:functionName];
RETURN_VALUE (function);
}
}
else if (car == IF)
{
id condition = [[program cdr] car];
id consequent = [[[program cdr] cdr] car];
// Incidentally works for the two-clause case:
id alternative = [[[[program cdr] cdr] cdr] car];
id condition_value = denullify([[self eval:condition
inLexicalContext:context
withEnvironment:lexenv
expandOnly:expandOnly]
objectAtIndex:0]);
if (expandOnly)
{
id conseq_expansion = denullify([[self eval:consequent
inLexicalContext:context
withEnvironment:lexenv
expandOnly:expandOnly]
objectAtIndex:0]);
id alt_expansion = denullify([[self eval:alternative
inLexicalContext:context
withEnvironment:lexenv
expandOnly:expandOnly]
objectAtIndex:0]);
RETURN_VALUE ([MLKCons
cons:IF
with:[MLKCons
cons:condition_value
with:[MLKCons
cons:conseq_expansion
with:[MLKCons cons:alt_expansion
with:nil]]]]);
}
if (!condition_value)
return [self eval:alternative
inLexicalContext:context
withEnvironment:lexenv
expandOnly:expandOnly];
else
return [self eval:consequent
inLexicalContext:context
withEnvironment:lexenv
expandOnly:expandOnly];
}
else if (car == IN_PACKAGE)
{
if (expandOnly)
RETURN_VALUE (program);
id cadr = [[program cdr] car];
id package = [MLKPackage findPackage:stringify(cadr)];
[[MLKDynamicContext currentContext]
setValue:package
forSymbol:[[MLKPackage findPackage:@"COMMON-LISP"]
intern:@"*PACKAGE*"]];
RETURN_VALUE (package);
}
else if (car == _LAMBDA)
{
// A bare-bones LAMBDA without a real lambda list. What
// would be a lambda list in a real LAMBDA form must be a
// symbol here.
id lambdaList = [[program cdr] car];
id body = [[program cdr] cdr];
MLKInterpretedClosure *closure;
if (expandOnly)
{
id body_expansion = denullify([[self eval:[MLKCons cons:PROGN
with:body]
inLexicalContext:context
withEnvironment:lexenv
expandOnly:expandOnly]
objectAtIndex:0]);
RETURN_VALUE ([MLKCons
cons:_LAMBDA
with:[MLKCons cons:lambdaList
with:[MLKCons cons:body_expansion
with:nil]]]);
}
closure = LAUTORELEASE ([[MLKInterpretedClosure alloc]
initWithBodyForms:body
lambdaListName:lambdaList
context:context
environment:lexenv]);
return [NSArray arrayWithObject:nullify(closure)];
}
else if (car == _MACROLET)
{
id declarations, doc;
id clauses;
id body;
NSArray *result;
MLKLexicalContext *ctx;
MLKSplitDeclarationsDocAndForms (&declarations, &doc, &body,
[[program cdr] cdr], NO);
ctx = LAUTORELEASE ([[MLKLexicalContext alloc]
initWithParent:context
variables:nil
functions:nil
goTags:nil
macros:nil
compilerMacros:nil
symbolMacros:nil
declarations:declarations]);
clauses = [[program cdr] car];
while (clauses)
{
id clause = [clauses car];
id name, value;
name = [clause car];
value = denullify([[self eval:[MLKCons cons:_LAMBDA
with:[clause cdr]]
inLexicalContext:context
withEnvironment:lexenv
expandOnly:NO] //!
objectAtIndex:0]);
[ctx addMacro:value forSymbol:name];
clauses = [clauses cdr];
}
result = [self eval:[MLKCons cons:PROGN with:body]
inLexicalContext:ctx
withEnvironment:lexenv
mode:mode];
if (expandOnly)
{
RETURN_VALUE ([MLKCons
cons:LET
with:[MLKCons
cons:nil
with:[MLKCons
cons:[MLKCons cons:DECLARE
with:declarations]
with:[[result objectAtIndex:0] cdr]]]]);
}
else
{
return result;
}
}
else if (car == _FLET)
{
id declarations, doc;
id clauses;
NSMutableArray *new_clauses;
id body;
NSArray *result;
MLKLexicalContext *ctx;
MLKLexicalEnvironment *env;
MLKSplitDeclarationsDocAndForms (&declarations, &doc, &body,
[[program cdr] cdr], NO);
ctx = LAUTORELEASE ([[MLKLexicalContext alloc]
initWithParent:context
variables:nil
functions:nil
goTags:nil
macros:nil
compilerMacros:nil
symbolMacros:nil
declarations:declarations]);
if (!expandOnly)
env = LAUTORELEASE ([[MLKLexicalEnvironment alloc]
initWithParent:lexenv
variables:nil
functions:nil]);
clauses = [[program cdr] car];
new_clauses = [NSMutableArray array];
while (clauses)
{
id clause = [clauses car];
id name, value;
name = [clause car];
value = denullify([[self eval:[MLKCons cons:_LAMBDA
with:[clause cdr]]
inLexicalContext:context
withEnvironment:lexenv
expandOnly:expandOnly]
objectAtIndex:0]);
[ctx addFunction:name];
if (!expandOnly)
[env addFunction:value forSymbol:name];
else
[new_clauses addObject:[MLKCons cons:name with:[value cdr]]];
clauses = [clauses cdr];
}
result = [self eval:[MLKCons cons:PROGN with:body]
inLexicalContext:ctx
withEnvironment:(expandOnly ? lexenv : env)
expandOnly:expandOnly];
if (expandOnly)
{
RETURN_VALUE ([MLKCons
cons:_FLET
with:[MLKCons
cons:[MLKCons listWithArray:new_clauses]
with:[MLKCons
cons:[MLKCons cons:DECLARE
with:declarations]
with:[[result objectAtIndex:0] cdr]]]]);
}
else
{
return result;
}
}
else if (car == LET)
{
id declarations, doc;
id clauses;
id body;
NSArray *result;
NSMutableArray *new_clauses;
MLKLexicalContext *ctx;
MLKLexicalEnvironment *env;
MLKDynamicContext *dynctx;
MLKSplitDeclarationsDocAndForms (&declarations, &doc, &body,
[[program cdr] cdr], NO);
ctx = LAUTORELEASE ([[MLKLexicalContext alloc]
initWithParent:context
variables:nil
functions:nil
goTags:nil
macros:nil
compilerMacros:nil
symbolMacros:nil
declarations:declarations]);
if (!expandOnly)
{
env = LAUTORELEASE ([[MLKLexicalEnvironment alloc]
initWithParent:lexenv
variables:nil
functions:nil]);
dynctx = [[MLKDynamicContext alloc]
initWithParent:dynamicContext
variables:nil
handlers:nil
restarts:nil
catchTags:nil
activeHandlerEnvironment:nil];
}
clauses = [[program cdr] car];
new_clauses = [NSMutableArray array];
while (clauses)
{
id clause = [clauses car];
id variable, value;
if (!clause || [clause isKindOfClass:[MLKSymbol class]])
{
variable = clause;
value = nil;
}
else if ([clause cdr] == nil)
{
variable = [clause car];
value = nil;
}
else
{
variable = [clause car];
value = denullify([[self eval:[[clause cdr] car]
inLexicalContext:context
withEnvironment:lexenv
expandOnly:expandOnly]
objectAtIndex:0]);
}
if (expandOnly)
{
[new_clauses addObject:[MLKCons cons:variable
with:[MLKCons cons:value
with:nil]]];
}
else
{
[ctx addVariable:variable];
if ([ctx variableIsLexical:variable])
{
[env addValue:value forSymbol:variable];
}
else
{
[dynctx addValue:value forSymbol:variable];
}
}
clauses = [clauses cdr];
}
if (expandOnly)
{
result = [self eval:[MLKCons cons:PROGN with:body]
inLexicalContext:ctx
withEnvironment:lexenv
expandOnly:YES];
RETURN_VALUE ([MLKCons
cons:LET
with:[MLKCons
cons:[MLKCons listWithArray:new_clauses]
with:[MLKCons
cons:[MLKCons cons:DECLARE
with:declarations]
with:[[result objectAtIndex:0] cdr]]]]);
}
else
{
[dynctx pushContext];
NS_DURING
{
result = [self eval:[MLKCons cons:PROGN with:body]
inLexicalContext:ctx
withEnvironment:env
expandOnly:NO];
}
NS_HANDLER
{
[MLKDynamicContext popContext];
[localException raise];
}
NS_ENDHANDLER;
[MLKDynamicContext popContext];
LRELEASE (dynctx);
return result;
}
}
else if (car == _LOOP)
{
id rest;
if (expandOnly)
{
RETURN_VALUE ([MLKCons cons:_LOOP
with:[[[self eval:[MLKCons cons:PROGN
with:[program cdr]]
inLexicalContext:context
withEnvironment:lexenv
expandOnly:YES]
objectAtIndex:0]
cdr]]);
}
while (YES)
{
rest = program;
while ((rest = [rest cdr]))
{
[self eval:[rest car]
inLexicalContext:context
withEnvironment:lexenv
expandOnly:expandOnly];
}
}
RETURN_VALUE (nil); // never reached
}
else if (car == MULTIPLE_VALUE_CALL)
{
NSMutableArray *results = [NSMutableArray array];
id rest = [program cdr];
id function = [[self eval:[rest car]
inLexicalContext:context
withEnvironment:lexenv
mode:mode]
objectAtIndex:0];
while ((rest = [rest cdr]))
{
id values = [self eval:[rest car]
inLexicalContext:context
withEnvironment:lexenv
mode:mode];
[results addObjectsFromArray:values];
}
if (expandOnly)
{
RETURN_VALUE ([MLKCons
cons:MULTIPLE_VALUE_CALL
with:[MLKCons
cons:function
with:[MLKCons
listWithArray:results]]]);
}
else
{
return [function applyToArray:results];
}
}
else if (car == PROGN)
{
id result = nil;
id rest = program;
NSMutableArray *results = [NSMutableArray array];
while ((rest = [rest cdr]))
{
result = [self eval:[rest car]
inLexicalContext:context
withEnvironment:lexenv
mode:mode];
if (expandOnly)
[results addObjectsFromArray:result];
}
if (expandOnly)
{
RETURN_VALUE ([MLKCons cons:PROGN
with:[MLKCons listWithArray:results]]);
}
else
return result;
}
else if (car == PROGV)
{
id variables, values, body, result;
MLKDynamicContext *dynctx;
if (expandOnly)
{
RETURN_VALUE ([MLKCons
cons:PROGV
with:[denullify([[self eval:[MLKCons
cons:PROGN
with:[program cdr]]
inLexicalContext:context
withEnvironment:lexenv
mode:mode]
objectAtIndex:0]) cdr]]);
}
dynctx = [[MLKDynamicContext alloc]
initWithParent:dynamicContext
variables:nil
handlers:nil
restarts:nil
catchTags:nil
activeHandlerEnvironment:nil];
body = [[[program cdr] cdr] cdr];
variables = denullify ([[self eval:[[program cdr] car]
inLexicalContext:context
withEnvironment:lexenv]
objectAtIndex:0]);
values = denullify ([[self eval:[[[program cdr] cdr] car]
inLexicalContext:context
withEnvironment:lexenv]
objectAtIndex:0]);
for (; variables; (variables = [variables cdr], values = [values cdr]))
{
id var = [variables car];
id value = [values car];
[dynctx addValue:value forSymbol:var];
}
[dynctx pushContext];
NS_DURING
{
result = [self eval:[MLKCons cons:PROGN with:body]
inLexicalContext:context
withEnvironment:lexenv];
}
NS_HANDLER
{
[MLKDynamicContext popContext];
[localException raise];
}
NS_ENDHANDLER;
[MLKDynamicContext popContext];
LRELEASE (dynctx);
return result;
}
else if (car == QUOTE)
{
if (expandOnly)
RETURN_VALUE (program);
RETURN_VALUE ([[program cdr] car]);
}
else if (car == SETQ || car == _FSETQ)
{
id symbol = [[program cdr] car];
id value = [[self eval:[[[program cdr] cdr] car]
inLexicalContext:context
withEnvironment:lexenv
expandOnly:expandOnly]
objectAtIndex:0];
id rest = [[[program cdr] cdr] cdr];
if (![program cdr])
RETURN_VALUE (nil);
if (car == SETQ && [context symbolNamesSymbolMacro:symbol])
{
id macrofun = [context symbolMacroForSymbol:symbol];
id expansion = [macrofun applyToArray:
[NSArray arrayWithObjects:
program, context, nil]];
return [self eval:
[MLKCons cons:SETF
with:
[MLKCons cons:expansion
with:
[[program cdr] cdr]]]
inLexicalContext:context
withEnvironment:lexenv
expandOnly:expandOnly];
}
if (expandOnly)
{
id thisSETQ = [MLKCons
cons:car
with:[MLKCons
cons:symbol
with:[MLKCons
cons:value
with:nil]]];
id more = denullify([[self eval:[MLKCons cons:car with:rest]
inLexicalContext:context
withEnvironment:lexenv
expandOnly:expandOnly]
objectAtIndex:0]);
if (!more)
{
RETURN_VALUE (thisSETQ);
}
else
{
RETURN_VALUE ([MLKCons cons:PROGN
with:[MLKCons
cons:thisSETQ
with:[MLKCons
cons:more
with:nil]]]);
}
}
if (car == _FSETQ)
{
if ([context symbolNamesFunction:symbol])
{
[lexenv setFunction:value forSymbol:symbol];
}
else
{
// FIXME: Maybe print a warning.
[[MLKLexicalContext globalContext] addFunction:symbol];
[[MLKLexicalEnvironment globalEnvironment]
addFunction:value
forSymbol:symbol];
}
}
else if ([context variableIsLexical:symbol])
[lexenv setValue:value forSymbol:symbol];
else if ([dynamicContext bindingForSymbol:symbol])
[dynamicContext setValue:value forSymbol:symbol];
else
// FIXME: Maybe print a warning.
[[MLKDynamicContext globalContext] addValue:value
forSymbol:symbol];
if (rest)
return [self eval:[MLKCons cons:car with:rest]
inLexicalContext:context
withEnvironment:lexenv];
else
RETURN_VALUE (value);
}
else if (car == THROW)
{
id catchTag;
NSArray *values;
NSDictionary *userInfo;
catchTag = [[self eval:[[program cdr] car]
inLexicalContext:context
withEnvironment:lexenv
expandOnly:expandOnly]
objectAtIndex:0];
values = [self eval:[[[program cdr] cdr] car]
inLexicalContext:context
withEnvironment:lexenv
expandOnly:expandOnly];
if (expandOnly)
RETURN_VALUE ([MLKCons cons:THROW
with:[MLKCons cons:denullify(catchTag)
with:[MLKCons cons:denullify([values objectAtIndex:0])
with:nil]]]);
userInfo = [NSDictionary dictionaryWithObjectsAndKeys:
catchTag, @"THROWN TAG",
values, @"THROWN OBJECTS", nil];
if ([dynamicContext catchTagIsEstablished:denullify (catchTag)])
[[NSException exceptionWithName:@"MLKThrow"
reason:[NSString stringWithFormat:
@"THROW: tag %@, values %@.",
MLKPrintToString(catchTag),
MLKPrintToString(values)]
userInfo:userInfo] raise];
else
// FIXME: This should really be a condition rather than
// an exception. See CLHS THROW.
[[NSException exceptionWithName:@"MLKControlError"
reason:[NSString stringWithFormat:
@"THROW without a corresponding CATCH: tag %@, values %@.",
MLKPrintToString(catchTag),
MLKPrintToString(values)]
userInfo:userInfo] raise];
return nil;
}
else if (car == UNWIND_PROTECT)
{
NSArray *results;
if (expandOnly)
{
id protectee = [self eval:[[program cdr] car]
inLexicalContext:context
withEnvironment:lexenv
expandOnly:expandOnly];
id protection = [self eval:[MLKCons cons:PROGN
with:[[program cdr] cdr]]
inLexicalContext:context
withEnvironment:lexenv
expandOnly:expandOnly];
RETURN_VALUE ([MLKCons cons:UNWIND_PROTECT
with:[MLKCons cons:protectee
with:[MLKCons cons:protection
with:nil]]]);
}
NS_DURING
{
results = [self eval:[[program cdr] car]
inLexicalContext:context
withEnvironment:lexenv];
}
NS_HANDLER
{
[self eval:[MLKCons cons:PROGN with:[[program cdr] cdr]]
inLexicalContext:context
withEnvironment:lexenv
expandOnly:expandOnly];
[localException raise];
}
NS_ENDHANDLER;
[self eval:[MLKCons cons:PROGN with:[[program cdr] cdr]]
inLexicalContext:context
withEnvironment:lexenv];
return results;
}
else
{
if ([context symbolNamesFunction:car])
{
id function;
MLKCons *rest = [program cdr];
NSMutableArray *args = [NSMutableArray array];
while (rest)
{
id result = [[self eval:[rest car]
inLexicalContext:context
withEnvironment:lexenv
expandOnly:expandOnly]
objectAtIndex:0];
[args addObject:result];
rest = [rest cdr];
}
if (expandOnly)
{
RETURN_VALUE ([MLKCons cons:[program car]
with:[MLKCons listWithArray:args]]);
}
else
{
function = [lexenv functionForSymbol:car];
return [function applyToArray:args];
}
}
else if ([context symbolNamesMacro:car])
{
id macrofun = [context macroForSymbol:car];
id expansion = denullify([[macrofun
applyToArray:
[NSArray arrayWithObjects:
program, context, nil]]
objectAtIndex:0]);
return [self eval:expansion
inLexicalContext:context
withEnvironment:lexenv
mode:mode];
}
else
{
NSMutableArray *args = [NSMutableArray array];
MLKCons *rest = [program cdr];
NSArray *results;
while (rest)
{
id result = [[self eval:[rest car]
inLexicalContext:context
withEnvironment:lexenv
expandOnly:expandOnly]
objectAtIndex:0];
[args addObject:result];
rest = [rest cdr];
}
if (expandOnly)
{
RETURN_VALUE ([MLKCons cons:[program car]
with:[MLKCons listWithArray:args]]);
}
results = [MLKRoot dispatch:car withArguments:args];
if (results)
{
return results;
}
else
{
[NSException raise:@"MLKNoSuchOperatorException"
format:@"%@ does not name a known operator.",
MLKPrintToString(car)];
return nil;
}
}
}
}
else if ([car isKindOfClass:[MLKCons class]] && [car car] == LAMBDA)
{
return [self eval:[MLKCons cons:FUNCALL with:program]
inLexicalContext:context
withEnvironment:lexenv
expandOnly:expandOnly];
}
else
{
[NSException raise:@"MLKInvalidExpressionException"
format:@"%@ is not a valid operator name.",
MLKPrintToString(car)];
return nil;
}
}
}
+(BOOL) load:(MLKStream *)stream verbose:(BOOL)verbose print:(BOOL)print
{
id eofValue = [[NSObject alloc] init];
int level = MLKIntWithInteger ([[MLKDynamicContext currentContext]
valueForSymbol:[sys intern:@"*LOAD-LEVEL*"]]);
int i;
while (YES)
{
id result;
id expansion;
//NSLog (@"; LOAD: Reding a form.");
id code;
//NSLog (@"; LOAD: Reading finished.");
NSString *formdesc;
NSAutoreleasePool *pool;
//NSLog (@"%@", MLKPrintToString(code));
//NSLog (@"%@", stream);
//NSLog (@"...");
pool = [[NSAutoreleasePool alloc] init];
code = [MLKReader readFromStream:stream
eofError:NO
eofValue:eofValue
recursive:NO
preserveWhitespace:NO];
if (code == eofValue)
break;
if (MLKInstanceP(code)
&& [code isKindOfClass:[MLKCons class]] && [code cdr])
formdesc = [NSString stringWithFormat:@"(%@ %@ ...)",
MLKPrintToString([code car]),
MLKPrintToString([[code cdr] car])];
else
formdesc = MLKPrintToString(code);
//fprintf (stderr, "; COMPILE-MINIMALLY: %s\n", [formdesc UTF8String]);
fprintf (stderr, "; ");
for (i = 0; i < level; i++)
fprintf (stderr, "| ");
fprintf (stderr, "LOAD: %s\n", [formdesc UTF8String]);
#ifdef USE_LLVM
expansion = code;
result = [MLKLLVMCompiler eval:code];
#else // !USE_LLVM
expansion = denullify([[MLKInterpreter
eval:code
inLexicalContext:[MLKLexicalContext
globalContext]
withEnvironment:[MLKLexicalEnvironment
globalEnvironment]
mode:not_compile_time_mode]
objectAtIndex:0]);
if ([code isKindOfClass:[MLKCons class]] && [code cdr])
formdesc = [NSString stringWithFormat:@"(%@ %@ ...)",
MLKPrintToString([expansion car]),
MLKPrintToString([[expansion cdr] car])];
else
formdesc = MLKPrintToString(expansion);
//fprintf (stderr, "; LOAD: %s\n", [formdesc UTF8String]);
result = [MLKInterpreter
eval:expansion
inLexicalContext:[MLKLexicalContext globalContext]
withEnvironment:[MLKLexicalEnvironment globalEnvironment]
expandOnly:NO];
//NSLog (@"; LOAD: Top-level form evaluated.");
#endif //!USE_LLVM
LRELEASE (pool);
if (print)
{
//FIXME
//NSLog (@"; LOAD: Fnord. Primary value: %@",
// MLKPrintToString([result objectAtIndex:0]));
}
}
return YES;
}
@end