mirror of
https://git.code.sf.net/p/quake/quakeforge
synced 2024-11-30 16:10:53 +00:00
345 lines
11 KiB
R
345 lines
11 KiB
R
#include "Compiler.h"
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#include "Instruction.h"
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#include "Nil.h"
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#include "Void.h"
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#include "Boolean.h"
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#include "Cons.h"
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#include "defs.h"
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Symbol *lambdaSym;
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Symbol *quoteSym;
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Symbol *defineSym;
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Symbol *ifSym;
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Symbol *letrecSym;
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Symbol *beginSym;
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@implementation Compiler
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+ (void) initialize
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{
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lambdaSym = [Symbol forString: "lambda"];
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[lambdaSym retain];
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quoteSym = [Symbol forString: "quote"];
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[quoteSym retain];
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defineSym = [Symbol forString: "define"];
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[defineSym retain];
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ifSym = [Symbol forString: "if"];
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[ifSym retain];
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letrecSym = symbol("letrec");
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[letrecSym retain];
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beginSym = symbol("begin");
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[beginSym retain];
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}
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+ (id) newWithLambda: (SchemeObject*) xp scope: (Scope*) sc
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{
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return [[self alloc] initWithLambda: xp scope: sc];
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}
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- (id) initWithLambda: (SchemeObject*) xp scope: (Scope*) sc
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{
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self = [super init];
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sexpr = xp;
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scope = sc;
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code = [CompiledCode new];
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err = nil;
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return self;
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}
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- (void) emitBuildEnvironment: (SchemeObject *) arguments
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{
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local int count, index;
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local SchemeObject *cur;
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scope = [Scope newWithOuter: scope];
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count = 0;
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for (cur = arguments; [cur isKindOfClass: [Cons class]]; cur = [(Cons*) cur cdr]) {
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count++;
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}
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[code minimumArguments: count];
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if (cur != [Nil nil]) {
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count++;
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}
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[code addInstruction: [Instruction opcode: MAKEENV operand: count]];
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[code addInstruction: [Instruction opcode: LOADENV]];
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cur = arguments;
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for (index = 0; index < count; cur = [(Cons*) cur cdr]) {
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if ([cur isKindOfClass: [Cons class]]) {
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[scope addName: (Symbol*) [(Cons*) cur car]];
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[code addInstruction: [Instruction opcode: SET operand: index]];
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} else if ([cur isKindOfClass: [Symbol class]]) {
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[scope addName: (Symbol*) cur];
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[code addInstruction:
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[Instruction opcode: SETREST operand: index]];
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break;
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} else {
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err = [Error type: "syntax"
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message: "Invalid entry in argument list"
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by: arguments];
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return;
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}
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index++;
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}
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}
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- (void) emitSequence: (SchemeObject*) expressions flags: (int) fl
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{
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local SchemeObject *cur;
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for (cur = expressions; cur != [Nil nil]; cur = [(Cons*) cur cdr]) {
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if ([(Cons*) cur cdr] == [Nil nil] && (fl & TAIL)) {
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[self emitExpression: [(Cons*) cur car] flags: fl];
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} else {
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[self emitExpression: [(Cons*) cur car] flags: fl & ~TAIL];
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}
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if (err) return;
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}
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}
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- (void) emitVariable: (Symbol*) sym
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{
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local int depth = [scope depthOf: sym];
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local int index = [scope indexOf: sym];
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[code addInstruction: [Instruction opcode: LOADENV]];
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if (depth != -1) {
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for (; depth; depth--) {
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[code addInstruction: [Instruction opcode: GETLINK]];
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}
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[code addInstruction: [Instruction opcode: GET operand: index]];
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} else {
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index = [code addConstant: sym];
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[code addInstruction: [Instruction opcode: LOADLITS]];
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[code addInstruction: [Instruction opcode: GET operand: index]];
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[code addInstruction: [Instruction opcode: GETGLOBAL]];
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}
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}
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- (void) emitDefine: (SchemeObject*) expression
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{
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local int index = 0;
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if (![expression isKindOfClass: [Cons class]] ||
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![[(Cons*) expression cdr] isKindOfClass: [Cons class]]) {
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err = [Error type: "syntax"
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message: "Malformed define statement"
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by: expression];
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return;
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}
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if ([[(Cons*) expression car] isKindOfClass: [Cons class]]) {
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index = [code addConstant: [(Cons*) [(Cons*) expression car] car]];
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[self emitLambda: cons(lambdaSym,
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cons([(Cons*) [(Cons*) expression car] cdr],
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[(Cons*) expression cdr]))];
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if (err) return;
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} else if ([[(Cons*) expression car] isKindOfClass: [Symbol class]]) {
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index = [code addConstant: [(Cons*) expression car]];
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[self emitExpression: [(Cons*) [(Cons*) expression cdr] car] flags: 0];
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if (err) return;
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} else {
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err = [Error type: "syntax"
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message: "Malformed define statement"
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by: expression];
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return;
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}
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[code addInstruction: [Instruction opcode: PUSH]];
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[code addInstruction: [Instruction opcode: LOADLITS]];
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[code addInstruction: [Instruction opcode: GET operand: index]];
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[code addInstruction: [Instruction opcode: SETGLOBAL]];
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}
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- (void) emitIf: (SchemeObject*) expression flags: (int) fl
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{
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local Instruction *falseLabel, *endLabel;
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local int index;
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if (![expression isKindOfClass: [Cons class]] ||
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![[(Cons*) expression cdr] isKindOfClass: [Cons class]]) {
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err = [Error type: "syntax"
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message: "Malformed if expression"
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by: expression];
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}
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falseLabel = [Instruction opcode: LABEL];
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endLabel = [Instruction opcode: LABEL];
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[self emitExpression: [(Cons*) expression car] flags: fl & ~TAIL];
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if (err) return;
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[code addInstruction: [Instruction opcode: IFFALSE label: falseLabel]];
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[self emitExpression: [(Cons*) [(Cons*) expression cdr] car] flags: fl];
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if (err) return;
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[code addInstruction: [Instruction opcode: GOTO label: endLabel]];
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[code addInstruction: falseLabel];
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if ([(Cons*) [(Cons*) expression cdr] cdr] == [Nil nil]) {
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index = [code addConstant: [Void voidConstant]];
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[code addInstruction: [Instruction opcode: LOADLITS]];
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[code addInstruction: [Instruction opcode: GET operand: index]];
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} else {
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[self emitExpression: [(Cons*) [(Cons*) [(Cons*) expression cdr] cdr] car] flags: fl];
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if (err) return;
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}
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[code addInstruction: endLabel];
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}
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- (void) emitLetrec: (SchemeObject*) expression flags: (int) fl
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{
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local SchemeObject *bindings;
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local int count;
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if (!isList(expression) ||
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!isList([(Cons*) expression car]) ||
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![[(Cons*) expression cdr] isKindOfClass: [Cons class]]) {
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err = [Error type: "syntax"
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message: "Malformed letrec expression"
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by: expression];
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}
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scope = [Scope newWithOuter: scope];
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count = 0;
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for (bindings = [(Cons*) expression car]; bindings != [Nil nil]; bindings = [(Cons*) bindings cdr]) {
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[scope addName: (Symbol*) [(Cons*) [(Cons*) bindings car] car]];
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count++;
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}
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[code addInstruction: [Instruction opcode: MAKEENV operand: count]];
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count = 0;
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for (bindings = [(Cons*) expression car]; bindings != [Nil nil]; bindings = [(Cons*) bindings cdr]) {
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[self emitSequence: [(Cons*) [(Cons*) bindings car] cdr] flags: fl & ~TAIL];
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[code addInstruction: [Instruction opcode: PUSH]];
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[code addInstruction: [Instruction opcode: LOADENV]];
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[code addInstruction: [Instruction opcode: SET operand: count]];
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count++;
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}
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[self emitSequence: [(Cons*) expression cdr] flags: fl];
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[code addInstruction: [Instruction opcode: POPENV]];
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scope = [scope outer];
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}
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- (void) emitExpression: (SchemeObject*) expression flags: (int) fl
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{
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if ([expression isKindOfClass: [Cons class]]) {
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[code source: [expression source]];
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[code line: [expression line]];
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if ([(Cons*) expression car] == lambdaSym) {
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[self emitLambda: expression];
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} else if ([(Cons*) expression car] == quoteSym) {
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[self emitConstant: [(Cons*) [(Cons*) expression cdr] car]];
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} else if ([(Cons*) expression car] == defineSym) {
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[self emitDefine: [(Cons*) expression cdr]];
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} else if ([(Cons*) expression car] == ifSym) {
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[self emitIf: [(Cons*) expression cdr] flags: fl];
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} else if ([(Cons*) expression car] == letrecSym) {
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[self emitLetrec: [(Cons*) expression cdr] flags: fl];
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} else if ([(Cons*) expression car] == beginSym) {
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[self emitSequence: [(Cons*) expression cdr] flags: fl];
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} else {
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[self emitApply: expression flags: fl];
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}
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} else if ([expression isKindOfClass: [Symbol class]]) {
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[self emitVariable: (Symbol*) expression];
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} else {
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[self emitConstant: expression];
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}
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}
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- (void) emitArguments: (SchemeObject*) expression
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{
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if (expression == [Nil nil]) {
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return;
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} else {
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[self emitArguments: [(Cons*) expression cdr]];
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if (err) return;
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[self emitExpression: [(Cons*) expression car] flags: 0];
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if (err) return;
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[code addInstruction: [Instruction opcode: PUSH]];
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}
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}
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- (void) emitApply: (SchemeObject*) expression flags: (int) fl
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{
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local Instruction *label = [Instruction opcode: LABEL];
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if (!(fl & TAIL)) {
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[code addInstruction: [Instruction opcode: MAKECONT label: label]];
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}
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[self emitArguments: [(Cons*) expression cdr]];
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if (err) return;
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[self emitExpression: [(Cons*) expression car] flags: fl & ~TAIL];
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if (err) return;
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[code addInstruction: [Instruction opcode: CALL]];
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[code addInstruction: label];
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}
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- (void) emitLambda: (SchemeObject*) expression
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{
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local Compiler *compiler = [Compiler newWithLambda: expression
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scope: scope];
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local SchemeObject *res;
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local int index;
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res = [compiler compile];
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if ([res isError]) {
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err = (Error *) res;
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return;
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}
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index = [code addConstant: res];
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[code addInstruction: [Instruction opcode: LOADLITS]];
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[code addInstruction: [Instruction opcode: GET operand: index]];
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[code addInstruction: [Instruction opcode: MAKECLOSURE]];
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}
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- (void) emitConstant: (SchemeObject*) expression
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{
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local int index;
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index = [code addConstant: expression];
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[code addInstruction: [Instruction opcode: LOADLITS]];
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[code addInstruction: [Instruction opcode: GET operand: index]];
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}
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- (void) checkLambdaSyntax: (SchemeObject*) expression
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{
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if (![expression isKindOfClass: [Cons class]] ||
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[(Cons*) expression car] != lambdaSym ||
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[(Cons*) expression cdr] == [Nil nil] ||
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[(Cons*) [(Cons*) expression cdr] cdr] == [Nil nil]) {
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err = [Error type: "syntax"
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message: "malformed lambda expression"
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by: expression];
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}
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}
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- (SchemeObject*) compile
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{
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[self checkLambdaSyntax: sexpr];
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if (err) {
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return err;
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}
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[self emitBuildEnvironment: [(Cons*) [(Cons*) sexpr cdr] car]];
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if (err) {
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return err;
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}
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[self emitSequence: [(Cons*) [(Cons*) sexpr cdr] cdr] flags: TAIL];
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if (err) {
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return err;
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}
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[code addInstruction: [Instruction opcode: RETURN]];
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[code compile];
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return code;
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}
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- (void) markReachable
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{
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[code mark];
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[sexpr mark];
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[scope mark];
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}
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@end
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