picrin/extlib/benz/eval.c

919 lines
24 KiB
C

/**
* See Copyright Notice in picrin.h
*/
#include "picrin.h"
#include "picrin/extra.h"
#include "picrin/object.h"
#include "picrin/opcode.h"
#include "picrin/state.h"
static pic_value
optimize_beta(pic_state *pic, pic_value expr)
{
size_t ai = pic_enter(pic);
pic_value functor, formals, args, tmp, val, it, defs;
if (! pic_list_p(pic, expr))
return expr;
if (pic_nil_p(pic, expr))
return expr;
if (pic_sym_p(pic, pic_list_ref(pic, expr, 0))) {
pic_value sym = pic_list_ref(pic, expr, 0);
if (pic_eq_p(pic, sym, pic->sQUOTE)) {
return expr;
} else if (pic_eq_p(pic, sym, pic->sLAMBDA)) {
return pic_list(pic, 3, pic->sLAMBDA, pic_list_ref(pic, expr, 1), optimize_beta(pic, pic_list_ref(pic, expr, 2)));
}
}
tmp = pic_nil_value(pic);
pic_for_each (val, expr, it) {
pic_push(pic, optimize_beta(pic, val), tmp);
}
expr = pic_reverse(pic, tmp);
pic_leave(pic, ai);
pic_protect(pic, expr);
functor = pic_list_ref(pic, expr, 0);
if (pic_pair_p(pic, functor) && pic_eq_p(pic, pic_car(pic, functor), pic->sLAMBDA)) {
formals = pic_list_ref(pic, functor, 1);
if (! pic_list_p(pic, formals))
goto exit; /* TODO: support ((lambda args x) 1 2) */
args = pic_cdr(pic, expr);
if (pic_length(pic, formals) != pic_length(pic, args))
goto exit;
defs = pic_nil_value(pic);
pic_for_each (val, args, it) {
pic_push(pic, pic_list(pic, 3, pic->sDEFINE, pic_car(pic, formals), val), defs);
formals = pic_cdr(pic, formals);
}
expr = pic_list_ref(pic, functor, 2);
pic_for_each (val, defs, it) {
expr = pic_list(pic, 3, pic->sBEGIN, val, expr);
}
}
exit:
pic_leave(pic, ai);
pic_protect(pic, expr);
return expr;
}
static pic_value
pic_optimize(pic_state *pic, pic_value expr)
{
return optimize_beta(pic, expr);
}
/**
* TODO: don't use khash_t, use kvec_t instead
*/
typedef struct analyze_scope {
int depth;
pic_value rest; /* Nullable */
pic_value args, locals, captures; /* rest args variable is counted as a local */
pic_value defer;
struct analyze_scope *up;
} analyze_scope;
static void
analyzer_scope_init(pic_state *pic, analyze_scope *scope, pic_value formal, analyze_scope *up)
{
scope->args = pic_make_dict(pic);
scope->locals = pic_make_dict(pic);
scope->captures = pic_make_dict(pic);
/* analyze formal */
for (; pic_pair_p(pic, formal); formal = pic_cdr(pic, formal)) {
pic_dict_set(pic, scope->args, pic_car(pic, formal), pic_true_value(pic));
}
if (pic_nil_p(pic, formal)) {
scope->rest = pic_false_value(pic);
}
else {
scope->rest = formal;
pic_dict_set(pic, scope->locals, formal, pic_true_value(pic));
}
scope->up = up;
scope->depth = up ? up->depth + 1 : 0;
scope->defer = pic_list(pic, 1, pic_nil_value(pic));
}
static void
analyzer_scope_destroy(pic_state PIC_UNUSED(*pic), analyze_scope PIC_UNUSED(*scope))
{
/* nothing here */
}
static bool
search_scope(pic_state *pic, analyze_scope *scope, pic_value sym)
{
return pic_dict_has(pic, scope->args, sym) || pic_dict_has(pic, scope->locals, sym) || scope->depth == 0;
}
static int
find_var(pic_state *pic, analyze_scope *scope, pic_value sym)
{
int depth = 0;
while (scope) {
if (search_scope(pic, scope, sym)) {
if (depth > 0) {
pic_dict_set(pic, scope->captures, sym, pic_true_value(pic)); /* capture! */
}
return depth;
}
depth++;
scope = scope->up;
}
PIC_UNREACHABLE();
}
static void
define_var(pic_state *pic, analyze_scope *scope, pic_value sym)
{
if (scope->depth > 0) {
/* local */
if (search_scope(pic, scope, sym)) {
pic_warnf(pic, "redefining variable: ~s", sym);
return;
}
pic_dict_set(pic, scope->locals, sym, pic_true_value(pic));
} else {
/* global */
if (pic_weak_has(pic, pic->globals, sym)) {
pic_warnf(pic, "redefining variable: ~s", sym);
return;
}
pic_weak_set(pic, pic->globals, sym, pic_invalid_value(pic));
}
}
static pic_value analyze(pic_state *, analyze_scope *, pic_value);
static pic_value analyze_lambda(pic_state *, analyze_scope *, pic_value);
#define GREF pic_intern_lit(pic, "gref")
#define LREF pic_intern_lit(pic, "lref")
#define CREF pic_intern_lit(pic, "cref")
#define CALL pic_intern_lit(pic, "call")
static pic_value
analyze_var(pic_state *pic, analyze_scope *scope, pic_value sym)
{
int depth;
depth = find_var(pic, scope, sym);
if (depth == scope->depth) {
return pic_list(pic, 2, GREF, sym);
} else if (depth == 0) {
return pic_list(pic, 2, LREF, sym);
} else {
return pic_list(pic, 3, CREF, pic_int_value(pic, depth), sym);
}
}
static pic_value
analyze_defer(pic_state *pic, analyze_scope *scope, pic_value form)
{
pic_value skel = pic_cons(pic, pic_invalid_value(pic), pic_invalid_value(pic));
pic_set_car(pic, scope->defer, pic_cons(pic, pic_cons(pic, form, skel), pic_car(pic, scope->defer)));
return skel;
}
static void
analyze_deferred(pic_state *pic, analyze_scope *scope)
{
pic_value defer, val, src, dst, it;
scope->defer = pic_car(pic, scope->defer);
pic_for_each (defer, pic_reverse(pic, scope->defer), it) {
src = pic_car(pic, defer);
dst = pic_cdr(pic, defer);
val = analyze_lambda(pic, scope, src);
/* copy */
pic_set_car(pic, dst, pic_car(pic, val));
pic_set_cdr(pic, dst, pic_cdr(pic, val));
}
}
static pic_value
analyze_lambda(pic_state *pic, analyze_scope *up, pic_value form)
{
analyze_scope s, *scope = &s;
pic_value formals, body;
pic_value rest;
pic_value args, locals, captures, key;
int i, j, it;
formals = pic_list_ref(pic, form, 1);
body = pic_list_ref(pic, form, 2);
analyzer_scope_init(pic, scope, formals, up);
/* analyze body */
body = analyze(pic, scope, body);
analyze_deferred(pic, scope);
args = pic_make_vec(pic, pic_dict_size(pic, scope->args), NULL);
for (i = 0; pic_pair_p(pic, formals); formals = pic_cdr(pic, formals), i++) {
pic_vec_set(pic, args, i, pic_car(pic, formals));
}
rest = scope->rest;
locals = pic_make_vec(pic, pic_dict_size(pic, scope->locals), NULL);
j = 0;
if (pic_sym_p(pic, scope->rest)) {
pic_vec_set(pic, locals, j++, scope->rest);
}
it = 0;
while (pic_dict_next(pic, scope->locals, &it, &key, NULL)) {
if (pic_eq_p(pic, key, rest))
continue;
pic_vec_set(pic, locals, j++, key);
}
captures = pic_make_vec(pic, pic_dict_size(pic, scope->captures), NULL);
it = 0;
j = 0;
while (pic_dict_next(pic, scope->captures, &it, &key, NULL)) {
pic_vec_set(pic, captures, j++, key);
}
analyzer_scope_destroy(pic, scope);
return pic_list(pic, 6, pic->sLAMBDA, rest, args, locals, captures, body);
}
static pic_value
analyze_list(pic_state *pic, analyze_scope *scope, pic_value obj)
{
pic_value seq = pic_nil_value(pic), val, it;
pic_for_each (val, obj, it) {
pic_push(pic, analyze(pic, scope, val), seq);
}
return pic_reverse(pic, seq);
}
static pic_value
analyze_define(pic_state *pic, analyze_scope *scope, pic_value obj)
{
define_var(pic, scope, pic_list_ref(pic, obj, 1));
return pic_cons(pic, pic_car(pic, obj), analyze_list(pic, scope, pic_cdr(pic, obj)));
}
static pic_value
analyze_call(pic_state *pic, analyze_scope *scope, pic_value obj)
{
return pic_cons(pic, CALL, analyze_list(pic, scope, obj));
}
static pic_value
analyze_node(pic_state *pic, analyze_scope *scope, pic_value obj)
{
switch (pic_type(pic, obj)) {
case PIC_TYPE_SYMBOL: {
return analyze_var(pic, scope, obj);
}
case PIC_TYPE_PAIR: {
pic_value proc;
if (! pic_list_p(pic, obj)) {
pic_errorf(pic, "invalid expression given: ~s", obj);
}
proc = pic_list_ref(pic, obj, 0);
if (pic_sym_p(pic, proc)) {
pic_value sym = proc;
if (pic_eq_p(pic, sym, pic->sDEFINE)) {
return analyze_define(pic, scope, obj);
}
else if (pic_eq_p(pic, sym, pic->sLAMBDA)) {
return analyze_defer(pic, scope, obj);
}
else if (pic_eq_p(pic, sym, pic->sQUOTE)) {
return obj;
}
else if (pic_eq_p(pic, sym, pic->sBEGIN) || pic_eq_p(pic, sym, pic->sSETBANG) || pic_eq_p(pic, sym, pic->sIF)) {
return pic_cons(pic, pic_car(pic, obj), analyze_list(pic, scope, pic_cdr(pic, obj)));
}
}
return analyze_call(pic, scope, obj);
}
default:
return pic_list(pic, 2, pic->sQUOTE, obj);
}
}
static pic_value
analyze(pic_state *pic, analyze_scope *scope, pic_value obj)
{
size_t ai = pic_enter(pic);
pic_value res;
res = analyze_node(pic, scope, obj);
pic_leave(pic, ai);
pic_protect(pic, res);
return res;
}
static pic_value
pic_analyze(pic_state *pic, pic_value obj)
{
analyze_scope s, *scope = &s;
analyzer_scope_init(pic, scope, pic_nil_value(pic), NULL);
obj = analyze(pic, scope, obj);
analyze_deferred(pic, scope);
analyzer_scope_destroy(pic, scope);
return obj;
}
typedef struct codegen_context {
/* rest args variable is counted as a local */
pic_value rest;
pic_value args, locals, captures;
/* actual bit code sequence */
pic_code *code;
size_t clen, ccapa;
/* child ireps */
struct pic_irep **irep;
size_t ilen, icapa;
/* constant object pool */
int *ints;
size_t klen, kcapa;
double *nums;
size_t flen, fcapa;
struct pic_object **pool;
size_t plen, pcapa;
struct codegen_context *up;
} codegen_context;
static void create_activation(pic_state *, codegen_context *);
static void
codegen_context_init(pic_state *pic, codegen_context *cxt, codegen_context *up, pic_value rest, pic_value args, pic_value locals, pic_value captures)
{
cxt->up = up;
cxt->rest = rest;
cxt->args = args;
cxt->locals = locals;
cxt->captures = captures;
cxt->code = pic_calloc(pic, PIC_ISEQ_SIZE, sizeof(pic_code));
cxt->clen = 0;
cxt->ccapa = PIC_ISEQ_SIZE;
cxt->irep = pic_calloc(pic, PIC_IREP_SIZE, sizeof(struct pic_irep *));
cxt->ilen = 0;
cxt->icapa = PIC_IREP_SIZE;
cxt->pool = pic_calloc(pic, PIC_POOL_SIZE, sizeof(struct pic_object *));
cxt->plen = 0;
cxt->pcapa = PIC_POOL_SIZE;
cxt->ints = pic_calloc(pic, PIC_POOL_SIZE, sizeof(int));
cxt->klen = 0;
cxt->kcapa = PIC_POOL_SIZE;
cxt->nums = pic_calloc(pic, PIC_POOL_SIZE, sizeof(double));
cxt->flen = 0;
cxt->fcapa = PIC_POOL_SIZE;
create_activation(pic, cxt);
}
static struct pic_irep *
codegen_context_destroy(pic_state *pic, codegen_context *cxt)
{
struct pic_irep *irep;
/* create irep */
irep = pic_malloc(pic, sizeof(struct pic_irep));
irep->refc = 1;
irep->varg = pic_sym_p(pic, cxt->rest);
irep->argc = pic_vec_len(pic, cxt->args) + 1;
irep->localc = pic_vec_len(pic, cxt->locals);
irep->capturec = pic_vec_len(pic, cxt->captures);
irep->code = pic_realloc(pic, cxt->code, sizeof(pic_code) * cxt->clen);
irep->irep = pic_realloc(pic, cxt->irep, sizeof(struct pic_irep *) * cxt->ilen);
irep->ints = pic_realloc(pic, cxt->ints, sizeof(int) * cxt->klen);
irep->nums = pic_realloc(pic, cxt->nums, sizeof(double) * cxt->flen);
irep->pool = pic_realloc(pic, cxt->pool, sizeof(struct pic_object *) * cxt->plen);
irep->ncode = cxt->clen;
irep->nirep = cxt->ilen;
irep->nints = cxt->klen;
irep->nnums = cxt->flen;
irep->npool = cxt->plen;
irep->list.next = pic->ireps.next;
irep->list.prev = &pic->ireps;
irep->list.next->prev = &irep->list;
irep->list.prev->next = &irep->list;
return irep;
}
#define check_size(pic, cxt, x, name, type) do { \
if (cxt->x##len >= cxt->x##capa) { \
cxt->x##capa *= 2; \
cxt->name = pic_realloc(pic, cxt->name, sizeof(type) * cxt->x##capa); \
} \
} while (0)
#define check_code_size(pic, cxt) check_size(pic, cxt, c, code, pic_code)
#define check_irep_size(pic, cxt) check_size(pic, cxt, i, irep, struct pic_irep *)
#define check_pool_size(pic, cxt) check_size(pic, cxt, p, pool, struct pic_object *)
#define check_ints_size(pic, cxt) check_size(pic, cxt, k, ints, int)
#define check_nums_size(pic, cxt) check_size(pic, cxt, f, nums, double)
#define emit_n(pic, cxt, ins) do { \
check_code_size(pic, cxt); \
cxt->code[cxt->clen].insn = ins; \
cxt->clen++; \
} while (0) \
#define emit_i(pic, cxt, ins, I) do { \
check_code_size(pic, cxt); \
cxt->code[cxt->clen].insn = ins; \
cxt->code[cxt->clen].a = I; \
cxt->clen++; \
} while (0) \
#define emit_r(pic, cxt, ins, D, I) do { \
check_code_size(pic, cxt); \
cxt->code[cxt->clen].insn = ins; \
cxt->code[cxt->clen].a = D; \
cxt->code[cxt->clen].b = I; \
cxt->clen++; \
} while (0) \
#define emit_ret(pic, cxt, tailpos) if (tailpos) emit_n(pic, cxt, OP_RET)
static int
index_capture(pic_state *pic, codegen_context *cxt, pic_value sym, int depth)
{
int i;
while (depth-- > 0) {
cxt = cxt->up;
}
for (i = 0; i < pic_vec_len(pic, cxt->captures); ++i) {
if (pic_eq_p(pic, sym, pic_vec_ref(pic, cxt->captures, i)))
return i;
}
return -1;
}
static int
index_local(pic_state *pic, codegen_context *cxt, pic_value sym)
{
int i, offset;
offset = 1;
for (i = 0; i < pic_vec_len(pic, cxt->args); ++i) {
if (pic_eq_p(pic, sym, pic_vec_ref(pic, cxt->args, i)))
return i + offset;
}
offset += i;
for (i = 0; i < pic_vec_len(pic, cxt->locals); ++i) {
if (pic_eq_p(pic, sym, pic_vec_ref(pic, cxt->locals, i)))
return i + offset;
}
return -1;
}
static int
index_global(pic_state *pic, codegen_context *cxt, pic_value name)
{
int pidx;
check_pool_size(pic, cxt);
pidx = (int)cxt->plen++;
cxt->pool[pidx] = (struct pic_object *)pic_sym_ptr(pic, name);
return pidx;
}
static void
create_activation(pic_state *pic, codegen_context *cxt)
{
int i, n;
for (i = 0; i < pic_vec_len(pic, cxt->captures); ++i) {
pic_value sym = pic_vec_ref(pic, cxt->captures, i);
n = index_local(pic, cxt, sym);
assert(n != -1);
if (n <= pic_vec_len(pic, cxt->args) || pic_eq_p(pic, sym, cxt->rest)) {
/* copy arguments to capture variable area */
emit_i(pic, cxt, OP_LREF, n);
} else {
/* otherwise, just extend the stack */
emit_n(pic, cxt, OP_PUSHUNDEF);
}
}
}
static void codegen(pic_state *, codegen_context *, pic_value, bool);
static void
codegen_ref(pic_state *pic, codegen_context *cxt, pic_value obj, bool tailpos)
{
pic_value sym;
sym = pic_car(pic, obj);
if (pic_eq_p(pic, sym, GREF)) {
pic_value name;
name = pic_list_ref(pic, obj, 1);
emit_i(pic, cxt, OP_GREF, index_global(pic, cxt, name));
emit_ret(pic, cxt, tailpos);
}
else if (pic_eq_p(pic, sym, CREF)) {
pic_value name;
int depth;
depth = pic_int(pic, pic_list_ref(pic, obj, 1));
name = pic_list_ref(pic, obj, 2);
emit_r(pic, cxt, OP_CREF, depth, index_capture(pic, cxt, name, depth));
emit_ret(pic, cxt, tailpos);
}
else if (pic_eq_p(pic, sym, LREF)) {
pic_value name;
int i;
name = pic_list_ref(pic, obj, 1);
if ((i = index_capture(pic, cxt, name, 0)) != -1) {
emit_i(pic, cxt, OP_LREF, i + pic_vec_len(pic, cxt->args) + pic_vec_len(pic, cxt->locals) + 1);
emit_ret(pic, cxt, tailpos);
} else {
emit_i(pic, cxt, OP_LREF, index_local(pic, cxt, name));
emit_ret(pic, cxt, tailpos);
}
}
}
static void
codegen_set(pic_state *pic, codegen_context *cxt, pic_value obj, bool tailpos)
{
pic_value var, val;
pic_value type;
val = pic_list_ref(pic, obj, 2);
codegen(pic, cxt, val, false);
var = pic_list_ref(pic, obj, 1);
type = pic_list_ref(pic, var, 0);
if (pic_eq_p(pic, type, GREF)) {
pic_value name;
name = pic_list_ref(pic, var, 1);
emit_i(pic, cxt, OP_GSET, index_global(pic, cxt, name));
emit_ret(pic, cxt, tailpos);
}
else if (pic_eq_p(pic, type, CREF)) {
pic_value name;
int depth;
depth = pic_int(pic, pic_list_ref(pic, var, 1));
name = pic_list_ref(pic, var, 2);
emit_r(pic, cxt, OP_CSET, depth, index_capture(pic, cxt, name, depth));
emit_ret(pic, cxt, tailpos);
}
else if (pic_eq_p(pic, type, LREF)) {
pic_value name;
int i;
name = pic_list_ref(pic, var, 1);
if ((i = index_capture(pic, cxt, name, 0)) != -1) {
emit_i(pic, cxt, OP_LSET, i + pic_vec_len(pic, cxt->args) + pic_vec_len(pic, cxt->locals) + 1);
emit_ret(pic, cxt, tailpos);
} else {
emit_i(pic, cxt, OP_LSET, index_local(pic, cxt, name));
emit_ret(pic, cxt, tailpos);
}
}
}
static void
codegen_lambda(pic_state *pic, codegen_context *cxt, pic_value obj, bool tailpos)
{
codegen_context c, *inner_cxt = &c;
pic_value rest, body;
pic_value args, locals, captures;
check_irep_size(pic, cxt);
/* extract arguments */
rest = pic_list_ref(pic, obj, 1);
args = pic_list_ref(pic, obj, 2);
locals = pic_list_ref(pic, obj, 3);
captures = pic_list_ref(pic, obj, 4);
body = pic_list_ref(pic, obj, 5);
/* emit irep */
codegen_context_init(pic, inner_cxt, cxt, rest, args, locals, captures);
codegen(pic, inner_cxt, body, true);
cxt->irep[cxt->ilen] = codegen_context_destroy(pic, inner_cxt);
/* emit OP_LAMBDA */
emit_i(pic, cxt, OP_LAMBDA, cxt->ilen++);
emit_ret(pic, cxt, tailpos);
}
static void
codegen_if(pic_state *pic, codegen_context *cxt, pic_value obj, bool tailpos)
{
int s, t;
codegen(pic, cxt, pic_list_ref(pic, obj, 1), false);
s = (int)cxt->clen;
emit_n(pic, cxt, OP_JMPIF);
/* if false branch */
codegen(pic, cxt, pic_list_ref(pic, obj, 3), tailpos);
t = (int)cxt->clen;
emit_n(pic, cxt, OP_JMP);
cxt->code[s].a = (int)cxt->clen - s;
/* if true branch */
codegen(pic, cxt, pic_list_ref(pic, obj, 2), tailpos);
cxt->code[t].a = (int)cxt->clen - t;
}
static void
codegen_begin(pic_state *pic, codegen_context *cxt, pic_value obj, bool tailpos)
{
codegen(pic, cxt, pic_list_ref(pic, obj, 1), false);
emit_n(pic, cxt, OP_POP);
codegen(pic, cxt, pic_list_ref(pic, obj, 2), tailpos);
}
static void
codegen_quote(pic_state *pic, codegen_context *cxt, pic_value obj, bool tailpos)
{
int pidx;
obj = pic_list_ref(pic, obj, 1);
switch (pic_type(pic, obj)) {
case PIC_TYPE_UNDEF:
emit_n(pic, cxt, OP_PUSHUNDEF);
break;
case PIC_TYPE_TRUE:
emit_n(pic, cxt, OP_PUSHTRUE);
break;
case PIC_TYPE_FALSE:
emit_n(pic, cxt, OP_PUSHFALSE);
break;
case PIC_TYPE_INT:
check_ints_size(pic, cxt);
pidx = (int)cxt->klen++;
cxt->ints[pidx] = pic_int(pic, obj);
emit_i(pic, cxt, OP_PUSHINT, pidx);
break;
case PIC_TYPE_FLOAT:
check_nums_size(pic, cxt);
pidx = (int)cxt->flen++;
cxt->nums[pidx] = pic_float(pic, obj);
emit_i(pic, cxt, OP_PUSHFLOAT, pidx);
break;
case PIC_TYPE_NIL:
emit_n(pic, cxt, OP_PUSHNIL);
break;
case PIC_TYPE_EOF:
emit_n(pic, cxt, OP_PUSHEOF);
break;
case PIC_TYPE_CHAR:
check_ints_size(pic, cxt);
pidx = (int)cxt->klen++;
cxt->ints[pidx] = pic_char(pic, obj);
emit_i(pic, cxt, OP_PUSHCHAR, pidx);
break;
default:
assert(pic_obj_p(pic,obj));
check_pool_size(pic, cxt);
pidx = (int)cxt->plen++;
cxt->pool[pidx] = pic_obj_ptr(obj);
emit_i(pic, cxt, OP_PUSHCONST, pidx);
break;
}
emit_ret(pic, cxt, tailpos);
}
#define VM(uid, op) \
if (pic_eq_p(pic, sym, uid)) { \
emit_i(pic, cxt, op, len - 1); \
emit_ret(pic, cxt, tailpos); \
return; \
}
static void
codegen_call(pic_state *pic, codegen_context *cxt, pic_value obj, bool tailpos)
{
int len = (int)pic_length(pic, obj);
pic_value elt, it, functor;
pic_for_each (elt, pic_cdr(pic, obj), it) {
codegen(pic, cxt, elt, false);
}
functor = pic_list_ref(pic, obj, 1);
if (pic_eq_p(pic, pic_list_ref(pic, functor, 0), GREF)) {
pic_value sym;
sym = pic_list_ref(pic, functor, 1);
VM(pic->sCONS, OP_CONS)
VM(pic->sCAR, OP_CAR)
VM(pic->sCDR, OP_CDR)
VM(pic->sNILP, OP_NILP)
VM(pic->sSYMBOLP, OP_SYMBOLP)
VM(pic->sPAIRP, OP_PAIRP)
VM(pic->sNOT, OP_NOT)
VM(pic->sEQ, OP_EQ)
VM(pic->sLT, OP_LT)
VM(pic->sLE, OP_LE)
VM(pic->sGT, OP_GT)
VM(pic->sGE, OP_GE)
VM(pic->sADD, OP_ADD)
VM(pic->sSUB, OP_SUB)
VM(pic->sMUL, OP_MUL)
VM(pic->sDIV, OP_DIV)
}
emit_i(pic, cxt, (tailpos ? OP_TAILCALL : OP_CALL), len - 1);
}
static void
codegen(pic_state *pic, codegen_context *cxt, pic_value obj, bool tailpos)
{
pic_value sym;
sym = pic_car(pic, obj);
if (pic_eq_p(pic, sym, GREF) || pic_eq_p(pic, sym, CREF) || pic_eq_p(pic, sym, LREF)) {
codegen_ref(pic, cxt, obj, tailpos);
}
else if (pic_eq_p(pic, sym, pic->sSETBANG) || pic_eq_p(pic, sym, pic->sDEFINE)) {
codegen_set(pic, cxt, obj, tailpos);
}
else if (pic_eq_p(pic, sym, pic->sLAMBDA)) {
codegen_lambda(pic, cxt, obj, tailpos);
}
else if (pic_eq_p(pic, sym, pic->sIF)) {
codegen_if(pic, cxt, obj, tailpos);
}
else if (pic_eq_p(pic, sym, pic->sBEGIN)) {
codegen_begin(pic, cxt, obj, tailpos);
}
else if (pic_eq_p(pic, sym, pic->sQUOTE)) {
codegen_quote(pic, cxt, obj, tailpos);
}
else if (pic_eq_p(pic, sym, CALL)) {
codegen_call(pic, cxt, obj, tailpos);
}
else {
pic_errorf(pic, "codegen: unknown AST type ~s", obj);
}
}
static struct pic_irep *
pic_codegen(pic_state *pic, pic_value obj)
{
pic_value empty = pic_make_vec(pic, 0, NULL);
codegen_context c, *cxt = &c;
codegen_context_init(pic, cxt, NULL, pic_false_value(pic), empty, empty, empty);
codegen(pic, cxt, obj, true);
return codegen_context_destroy(pic, cxt);
}
#define SAVE(pic, ai, obj) pic_leave(pic, ai); pic_protect(pic, obj)
pic_value
pic_compile(pic_state *pic, pic_value obj)
{
struct pic_irep *irep;
pic_value proc;
size_t ai = pic_enter(pic);
#if DEBUG
fprintf(stdout, "ai = %zu\n", pic_enter(pic));
fprintf(stdout, "# input expression\n");
pic_write(pic, obj);
fprintf(stdout, "\n");
fprintf(stdout, "ai = %zu\n", pic_enter(pic));
#endif
/* optimize */
obj = pic_optimize(pic, obj);
#if DEBUG
fprintf(stdout, "## optimize completed\n");
pic_write(pic, obj);
fprintf(stdout, "\n");
fprintf(stdout, "ai = %zu\n", pic_enter(pic));
#endif
SAVE(pic, ai, obj);
/* analyze */
obj = pic_analyze(pic, obj);
#if DEBUG
fprintf(stdout, "## analyzer completed\n");
pic_write(pic, obj);
fprintf(stdout, "\n");
fprintf(stdout, "ai = %zu\n", pic_enter(pic));
#endif
SAVE(pic, ai, obj);
/* codegen */
irep = pic_codegen(pic, obj);
#if DEBUG
fprintf(stdout, "## codegen completed\n");
pic_dump_irep(irep);
#endif
#if DEBUG
fprintf(stdout, "# compilation finished\n");
puts("");
#endif
proc = pic_make_proc_irep(pic, irep, NULL);
pic_irep_decref(pic, irep);
return proc;
}
pic_value
pic_eval(pic_state *pic, pic_value program, const char *lib)
{
const char *prev_lib = pic_current_library(pic);
pic_value env, r;
env = pic_library_environment(pic, lib);
pic_in_library(pic, lib);
pic_try {
r = pic_call(pic, pic_compile(pic, pic_expand(pic, program, env)), 0);
}
pic_catch {
pic_in_library(pic, prev_lib);
pic_raise(pic, pic_err(pic));
}
pic_in_library(pic, prev_lib);
return r;
}
static pic_value
pic_eval_eval(pic_state *pic)
{
pic_value program;
const char *str;
pic_get_args(pic, "oz", &program, &str);
return pic_eval(pic, program, str);
}
void
pic_init_eval(pic_state *pic)
{
pic_defun(pic, "eval", pic_eval_eval);
}