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#include <stdlib.h>
#include <string.h>
#include <stdio.h>
#include "com.h"
#include "mem.h"
#include "chunk.h"
#include "ast.h"
#include "read.h"
#include "util.h"
#define BYTECODE(C) (C->ch->bc)
static size_t placeholder(Compiler *C) {
size_t old_ix = BYTECODE(C).len;
chunk_wbc(C, 0x00);
chunk_wbc(C, 0x00);
return old_ix;
}
static void patch(Compiler *C, size_t addr, uint16_t val) {
BYTECODE(C).d[addr] = val & 0xff;
BYTECODE(C).d[addr+1] = (val & 0xff00) >> 8;
}
Chunk chunk_new(State *S) {
return (Chunk){ 0 };
}
Compiler compiler_new(Compiler *outer, Chunk *ch) {
return (Compiler){
.S = outer->S,
.ch = ch,
};
}
size_t chunk_wbc(Compiler *C, uint8_t byte) {
Chunk *ch = C->ch;
if (ch->bc.len == ch->bc.cap) {
size_t newsz = (ch->bc.cap == 0 ? 8 : ch->bc.cap * 2);
ch->bc.d = RENEW_ARR(C->S, ch->bc.d, uint8_t, ch->bc.cap, newsz);
ch->bc.cap = newsz;
}
size_t ix = ch->bc.len;
ch->bc.d[ix] = byte;
ch->bc.len ++;
return ix;
}
size_t chunk_wconst(Compiler *C, Val v) {
Chunk *ch = C->ch;
for (int i = 0; i < ch->consts.len; i ++)
if (val_equal(v, ch->consts.d[i])) return i;
if (ch->consts.len == ch->consts.cap) {
size_t newsz = (ch->consts.cap == 0 ? 8 : ch->consts.cap *2);
ch->consts.d = RENEW_ARR(C->S, ch->consts.d, Val, ch->consts.cap, newsz);
ch->consts.cap = newsz;
}
size_t ix = ch->consts.len;
ch->consts.d[ix] = v;
ch->consts.len ++;
return ix;
}
static void compile_node(Compiler *C, AstNode a);
typedef void (*form_compiler)(Compiler *C, AstVec l, Op op);
typedef struct {
char *name;
int min_params;
bool ellipsis;
form_compiler action;
Op op;
} BuiltinForm;
void single_form(Compiler *C, AstVec l, Op op) {
compile_node(C, l.vals[1]);
chunk_wbc(C, op);
}
void set_form(Compiler *C, AstVec l, Op _) {
AstNode ident = l.vals[1];
CHECK(ident.ty == AST_IDENT, "set's first argument must be identifier");
ObjString *o = objstring_copy_cstr(C->S, ident.as.str);
compile_node(C, l.vals[2]);
chunk_wbc(C, OP_SETGLOBAL);
chunk_wbc(C, chunk_wconst(C, VAL_OBJ(o)));
}
void do_form(Compiler *C, AstVec l, Op _) {
for (int i = 1; i < l.len - 1; i++) {
compile_node(C, l.vals[i]);
chunk_wbc(C, OP_DROP);
}
compile_node(C, l.vals[l.len - 1]);
}
void if_form(Compiler *C, AstVec l, Op _) {
// (if cond if-true if-false)
// cond
// 0branch ->A
// if-true
// skip ->B
// A: if-false
// B:
compile_node(C, l.vals[1]);
chunk_wbc(C, OP_0BRANCH);
size_t ph_a = placeholder(C);
compile_node(C, l.vals[2]);
chunk_wbc(C, OP_SKIP);
size_t ph_b = placeholder(C);
size_t dest_a = BYTECODE(C).len;
compile_node(C, l.vals[3]);
size_t dest_b = BYTECODE(C).len;
patch(C, ph_a, dest_a - ph_a - 2);
patch(C, ph_b, dest_b - ph_b - 2);
}
void while_form(Compiler *C, AstVec l, Op _) {
// (while cond body ...)
// A:
// cond
// 0branch ->B
// body ....
// redo ->A
// B:
// nil (while loop always returns nil)
size_t dest_a = BYTECODE(C).len;
compile_node(C, l.vals[1]);
chunk_wbc(C, OP_0BRANCH);
size_t ph_b = placeholder(C);
for (int i = 2; i < l.len; i++) {
compile_node(C, l.vals[i]);
chunk_wbc(C, OP_DROP);
}
chunk_wbc(C, OP_REDO);
size_t ph_a = placeholder(C);
size_t dest_b = BYTECODE(C).len;
chunk_wbc(C, OP_NIL);
patch(C, ph_a, ph_a - dest_a + 2);
patch(C, ph_b, dest_b - ph_b - 2);
}
void arith_form(Compiler *C, AstVec l, Op op) {
compile_node(C, l.vals[1]);
compile_node(C, l.vals[2]);
chunk_wbc(C, op);
}
void fn_form(Compiler *C, AstVec l, Op op) {
// (fn (arg arg arg) body ...)
CHECK(l.vals[1].ty == AST_LIST, "fn's first argument must be list");
AstVec arglist = l.vals[1].as.list;
CHECK(arglist.len <= 255, "maximum 255 args for function");
uint8_t arity = arglist.len;
ObjFunc *func = objfunc_new(C->S, arity);
Compiler subcompiler = compiler_new(C, &func->ch);
for (int i = 2; i < l.len - 1; i++) {
compile_node(&subcompiler, l.vals[i]);
chunk_wbc(&subcompiler, OP_DROP);
}
compile_node(&subcompiler, l.vals[l.len-1]);
chunk_wbc(&subcompiler, OP_RET);
chunk_wbc(C, OP_LOADK);
chunk_wbc(C, chunk_wconst(C, VAL_OBJ(func)));
}
static BuiltinForm builtin_forms[] = {
{ "puts", 1, false, single_form, OP_PUTS },
{ "print", 1, false, single_form, OP_PRINT },
{ "set", 2, false, set_form, 0 },
{ "do", 1, true, do_form, 0 },
{ "if", 3, false, if_form, 0 },
{ "while", 2, true, while_form, 0 },
{ "fn", 2, true, fn_form, 0 },
#define ARITH_OP(str, op) \
{ str, 2, false, arith_form, op },
ARITH_OP("+", OP_ADD)
ARITH_OP("-", OP_SUB)
ARITH_OP("*", OP_MUL)
ARITH_OP("/", OP_DIV)
ARITH_OP("=", OP_EQU)
ARITH_OP("<", OP_CMP)
ARITH_OP("%", OP_MOD)
#undef ARITH_OP
{ 0 },
};
typedef struct {
char *name;
Op op;
} BuiltinIdent;
static BuiltinIdent builtin_idents[] = {
{ "true", OP_TRUE },
{ "false", OP_FALSE },
{ "nil", OP_NIL },
{ 0 },
};
static void compile_node(Compiler *C, AstNode a) {
switch (a.ty) {
case AST_IDENT:;
char *ident = a.as.str;
bool found_builtin = false;
for (BuiltinIdent *b = builtin_idents; b->name != NULL; b++) {
if (0 == strcmp(b->name, ident)) {
chunk_wbc(C, b->op);
found_builtin = true;
break;
}
}
if (!found_builtin) {
// read global variable
ObjString *o = objstring_copy_cstr(C->S, a.as.str);
chunk_wbc(C, OP_GETGLOBAL);
chunk_wbc(C, chunk_wconst(C, VAL_OBJ(o)));
}
break;
case AST_NUM:
chunk_wbc(C, OP_LOADK);
chunk_wbc(C, chunk_wconst(C, VAL_NUM(a.as.num)));
break;
case AST_STRING: {
ObjString *o = objstring_copy_cstr(C->S, a.as.str);
chunk_wbc(C, OP_LOADK);
chunk_wbc(C, chunk_wconst(C, VAL_OBJ(o)));
break;
}
case AST_LIST: {
AstVec l = a.as.list;
CHECK(l.len > 0, "can't handle empty list");
BuiltinForm *form = NULL;
if (l.vals[0].ty == AST_IDENT) {
char *head = l.vals[0].as.str;
for (BuiltinForm *b = builtin_forms; b->name != NULL; b++) {
if (0 == strcmp(b->name, head)) {
form = b;
break;
}
}
}
if (form != NULL) {
size_t nparams = l.len - 1;
if (form->ellipsis)
CHECK(nparams >= form->min_params, "%s requires at least %d parameters",
form->name, form->min_params);
else
CHECK(nparams == form->min_params, "%s requires exactly %d parameters",
form->name, form->min_params);
form->action(C, l, form->op);
} else {
// function call
// (f a b c )
if (l.len > 255) {
fprintf(stderr, "can't have more than 255 args in a function call\n");
exit(1);
}
for (int i = 0; i < l.len; i++) {
compile_node(C, l.vals[i]);
}
chunk_wbc(C, OP_CALL);
chunk_wbc(C, l.len);
}
break;
}
}
}
int main(int argc, char **argv) {
State st = state_new();
State *S = &st;
Chunk ch = chunk_new(S);
S->do_disasm = false;
S->do_trace = false;
for (int i = 1; i < argc; i++) {
if (argv[i][0] != '-') break;
switch (argv[i][1]) {
case 'D':
CHECK(strlen(argv[i]) > 1, "unknown option a");
switch (argv[i][2]) {
case 'l': S->do_disasm = true; break;
case 't': S->do_trace = true; break;
default: ERROR("unknown option b");
}
break;
default: ERROR("unknown option c");
}
}
AstNode an = read();
Compiler com = (Compiler){
.S = S,
.ch = &ch,
};
Compiler *C = &com;
compile_node(C, an);
chunk_wbc(C, OP_PUTS);
chunk_wbc(C, OP_HALT);
Thread th = thread_new(S);
th.ch = &ch;
S->th = &th;
return runvm(S);
}
#undef CHECK
#undef ER
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