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mirror of https://github.com/janet-lang/janet synced 2024-11-25 17:57:17 +00:00
janet/src/core/specials.c
Calvin Rose 49954c7a30 Remove top-level unquote for comptime macro
True top level unquote currently requires basically double compilation
as it currently stands. Also, implementing such double compilation
looses all source mapping information. This is a compromise
implementation that makes it clear that this works differently than
a true top-level unquote.
2019-12-04 19:53:13 -06:00

836 lines
28 KiB
C

/*
* Copyright (c) 2019 Calvin Rose
*
* Permission is hereby granted, free of charge, to any person obtaining a copy
* of this software and associated documentation files (the "Software"), to
* deal in the Software without restriction, including without limitation the
* rights to use, copy, modify, merge, publish, distribute, sublicense, and/or
* sell copies of the Software, and to permit persons to whom the Software is
* furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in
* all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
* FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS
* IN THE SOFTWARE.
*/
#ifndef JANET_AMALG
#include <janet.h>
#include "compile.h"
#include "util.h"
#include "vector.h"
#include "emit.h"
#endif
static JanetSlot janetc_quote(JanetFopts opts, int32_t argn, const Janet *argv) {
if (argn != 1) {
janetc_cerror(opts.compiler, "expected 1 argument");
return janetc_cslot(janet_wrap_nil());
}
return janetc_cslot(argv[0]);
}
static JanetSlot janetc_splice(JanetFopts opts, int32_t argn, const Janet *argv) {
JanetSlot ret;
if (argn != 1) {
janetc_cerror(opts.compiler, "expected 1 argument");
return janetc_cslot(janet_wrap_nil());
}
ret = janetc_value(opts, argv[0]);
ret.flags |= JANET_SLOT_SPLICED;
return ret;
}
static JanetSlot qq_slots(JanetFopts opts, JanetSlot *slots, int makeop) {
JanetSlot target = janetc_gettarget(opts);
janetc_pushslots(opts.compiler, slots);
janetc_freeslots(opts.compiler, slots);
janetc_emit_s(opts.compiler, makeop, target, 1);
return target;
}
static JanetSlot quasiquote(JanetFopts opts, Janet x, int depth, int level) {
if (depth == 0) {
janetc_cerror(opts.compiler, "quasiquote too deeply nested");
return janetc_cslot(janet_wrap_nil());
}
JanetSlot *slots = NULL;
switch (janet_type(x)) {
default:
return janetc_cslot(x);
case JANET_TUPLE: {
int32_t i, len;
const Janet *tup = janet_unwrap_tuple(x);
len = janet_tuple_length(tup);
if (len > 1 && janet_checktype(tup[0], JANET_SYMBOL)) {
const uint8_t *head = janet_unwrap_symbol(tup[0]);
if (!janet_cstrcmp(head, "unquote")) {
if (level == 0) {
return janetc_value(janetc_fopts_default(opts.compiler), tup[1]);
} else {
level--;
}
} else if (!janet_cstrcmp(head, "quasiquote")) {
level++;
}
}
for (i = 0; i < len; i++)
janet_v_push(slots, quasiquote(opts, tup[i], depth - 1, level));
return qq_slots(opts, slots, (janet_tuple_flag(tup) & JANET_TUPLE_FLAG_BRACKETCTOR)
? JOP_MAKE_BRACKET_TUPLE
: JOP_MAKE_TUPLE);
}
case JANET_ARRAY: {
int32_t i;
JanetArray *array = janet_unwrap_array(x);
for (i = 0; i < array->count; i++)
janet_v_push(slots, quasiquote(opts, array->data[i], depth - 1, level));
return qq_slots(opts, slots, JOP_MAKE_ARRAY);
}
case JANET_TABLE:
case JANET_STRUCT: {
const JanetKV *kv = NULL, *kvs = NULL;
int32_t len, cap = 0;
janet_dictionary_view(x, &kvs, &len, &cap);
while ((kv = janet_dictionary_next(kvs, cap, kv))) {
JanetSlot key = quasiquote(opts, kv->key, depth - 1, level);
JanetSlot value = quasiquote(opts, kv->value, depth - 1, level);
key.flags &= ~JANET_SLOT_SPLICED;
value.flags &= ~JANET_SLOT_SPLICED;
janet_v_push(slots, key);
janet_v_push(slots, value);
}
return qq_slots(opts, slots,
janet_checktype(x, JANET_TABLE) ? JOP_MAKE_TABLE : JOP_MAKE_STRUCT);
}
}
}
static JanetSlot janetc_quasiquote(JanetFopts opts, int32_t argn, const Janet *argv) {
if (argn != 1) {
janetc_cerror(opts.compiler, "expected 1 argument");
return janetc_cslot(janet_wrap_nil());
}
return quasiquote(opts, argv[0], JANET_RECURSION_GUARD, 0);
}
static JanetSlot janetc_unquote(JanetFopts opts, int32_t argn, const Janet *argv) {
(void) argn;
(void) argv;
janetc_cerror(opts.compiler, "cannot use unquote here");
return janetc_cslot(janet_wrap_nil());
}
/* Perform destructuring. Be careful to
* keep the order registers are freed.
* Returns if the slot 'right' can be freed. */
static int destructure(JanetCompiler *c,
Janet left,
JanetSlot right,
int (*leaf)(JanetCompiler *c,
const uint8_t *sym,
JanetSlot s,
JanetTable *attr),
JanetTable *attr) {
switch (janet_type(left)) {
default:
janetc_cerror(c, "unexpected type in destructuring");
return 1;
case JANET_SYMBOL:
/* Leaf, assign right to left */
return leaf(c, janet_unwrap_symbol(left), right, attr);
case JANET_TUPLE:
case JANET_ARRAY: {
int32_t len = 0;
const Janet *values = NULL;
janet_indexed_view(left, &values, &len);
for (int32_t i = 0; i < len; i++) {
JanetSlot nextright = janetc_farslot(c);
Janet subval = values[i];
if (i < 0x100) {
janetc_emit_ssu(c, JOP_GET_INDEX, nextright, right, (uint8_t) i, 1);
} else {
JanetSlot k = janetc_cslot(janet_wrap_integer(i));
janetc_emit_sss(c, JOP_IN, nextright, right, k, 1);
}
if (destructure(c, subval, nextright, leaf, attr))
janetc_freeslot(c, nextright);
}
}
return 1;
case JANET_TABLE:
case JANET_STRUCT: {
const JanetKV *kvs = NULL;
int32_t cap = 0, len = 0;
janet_dictionary_view(left, &kvs, &len, &cap);
for (int32_t i = 0; i < cap; i++) {
if (janet_checktype(kvs[i].key, JANET_NIL)) continue;
JanetSlot nextright = janetc_farslot(c);
JanetSlot k = janetc_value(janetc_fopts_default(c), kvs[i].key);
janetc_emit_sss(c, JOP_IN, nextright, right, k, 1);
if (destructure(c, kvs[i].value, nextright, leaf, attr))
janetc_freeslot(c, nextright);
}
}
return 1;
}
}
/* Create a source map for definitions. */
static const Janet *janetc_make_sourcemap(JanetCompiler *c) {
Janet *tup = janet_tuple_begin(3);
tup[0] = c->source ? janet_wrap_string(c->source) : janet_wrap_nil();
tup[1] = janet_wrap_integer(c->current_mapping.line);
tup[2] = janet_wrap_integer(c->current_mapping.column);
return janet_tuple_end(tup);
}
static JanetSlot janetc_varset(JanetFopts opts, int32_t argn, const Janet *argv) {
if (argn != 2) {
janetc_cerror(opts.compiler, "expected 2 arguments");
return janetc_cslot(janet_wrap_nil());
}
JanetFopts subopts = janetc_fopts_default(opts.compiler);
if (janet_checktype(argv[0], JANET_SYMBOL)) {
/* Normal var - (set a 1) */
const uint8_t *sym = janet_unwrap_symbol(argv[0]);
JanetSlot dest = janetc_resolve(opts.compiler, sym);
if (!(dest.flags & JANET_SLOT_MUTABLE)) {
janetc_cerror(opts.compiler, "cannot set constant");
return janetc_cslot(janet_wrap_nil());
}
subopts.flags = JANET_FOPTS_HINT;
subopts.hint = dest;
JanetSlot ret = janetc_value(subopts, argv[1]);
janetc_copy(opts.compiler, dest, ret);
return ret;
} else if (janet_checktype(argv[0], JANET_TUPLE)) {
/* Set a field (setf behavior) - (set (tab :key) 2) */
const Janet *tup = janet_unwrap_tuple(argv[0]);
/* Tuple must have 2 elements */
if (janet_tuple_length(tup) != 2) {
janetc_cerror(opts.compiler, "expected 2 element tuple for l-value to set");
return janetc_cslot(janet_wrap_nil());
}
JanetSlot ds = janetc_value(subopts, tup[0]);
JanetSlot key = janetc_value(subopts, tup[1]);
/* Can't be tail position because we will emit a PUT instruction afterwards */
/* Also can't drop either */
opts.flags &= ~(JANET_FOPTS_TAIL | JANET_FOPTS_DROP);
JanetSlot rvalue = janetc_value(opts, argv[1]);
/* Emit the PUT instruction */
janetc_emit_sss(opts.compiler, JOP_PUT, ds, key, rvalue, 0);
return rvalue;
} else {
/* Error */
janetc_cerror(opts.compiler, "expected symbol or tuple for l-value to set");
return janetc_cslot(janet_wrap_nil());
}
}
/* Add attributes to a global def or var table */
static JanetTable *handleattr(JanetCompiler *c, int32_t argn, const Janet *argv) {
int32_t i;
JanetTable *tab = janet_table(2);
for (i = 1; i < argn - 1; i++) {
Janet attr = argv[i];
switch (janet_type(attr)) {
default:
janetc_cerror(c, "could not add metadata to binding");
break;
case JANET_KEYWORD:
janet_table_put(tab, attr, janet_wrap_true());
break;
case JANET_STRING:
janet_table_put(tab, janet_ckeywordv("doc"), attr);
break;
}
}
return tab;
}
static JanetSlot dohead(JanetCompiler *c, JanetFopts opts, Janet *head, int32_t argn, const Janet *argv) {
JanetFopts subopts = janetc_fopts_default(c);
JanetSlot ret;
if (argn < 2) {
janetc_cerror(c, "expected at least 2 arguments");
return janetc_cslot(janet_wrap_nil());
}
*head = argv[0];
subopts.flags = opts.flags & ~(JANET_FOPTS_TAIL | JANET_FOPTS_DROP);
subopts.hint = opts.hint;
ret = janetc_value(subopts, argv[argn - 1]);
return ret;
}
/* Def or var a symbol in a local scope */
static int namelocal(JanetCompiler *c, const uint8_t *head, int32_t flags, JanetSlot ret) {
int isUnnamedRegister = !(ret.flags & JANET_SLOT_NAMED) &&
ret.index > 0 &&
ret.envindex >= 0;
if (!isUnnamedRegister) {
/* Slot is not able to be named */
JanetSlot localslot = janetc_farslot(c);
janetc_copy(c, localslot, ret);
ret = localslot;
}
ret.flags |= flags;
janetc_nameslot(c, head, ret);
return !isUnnamedRegister;
}
static int varleaf(
JanetCompiler *c,
const uint8_t *sym,
JanetSlot s,
JanetTable *reftab) {
if (c->scope->flags & JANET_SCOPE_TOP) {
/* Global var, generate var */
JanetSlot refslot;
JanetTable *entry = janet_table_clone(reftab);
JanetArray *ref = janet_array(1);
janet_array_push(ref, janet_wrap_nil());
janet_table_put(entry, janet_ckeywordv("ref"), janet_wrap_array(ref));
janet_table_put(entry, janet_ckeywordv("source-map"),
janet_wrap_tuple(janetc_make_sourcemap(c)));
janet_table_put(c->env, janet_wrap_symbol(sym), janet_wrap_table(entry));
refslot = janetc_cslot(janet_wrap_array(ref));
janetc_emit_ssu(c, JOP_PUT_INDEX, refslot, s, 0, 0);
return 1;
} else {
return namelocal(c, sym, JANET_SLOT_MUTABLE, s);
}
}
static JanetSlot janetc_var(JanetFopts opts, int32_t argn, const Janet *argv) {
JanetCompiler *c = opts.compiler;
Janet head;
JanetSlot ret = dohead(c, opts, &head, argn, argv);
if (c->result.status == JANET_COMPILE_ERROR)
return janetc_cslot(janet_wrap_nil());
destructure(c, argv[0], ret, varleaf, handleattr(c, argn, argv));
return ret;
}
static int defleaf(
JanetCompiler *c,
const uint8_t *sym,
JanetSlot s,
JanetTable *tab) {
if (c->scope->flags & JANET_SCOPE_TOP) {
JanetTable *entry = janet_table_clone(tab);
janet_table_put(entry, janet_ckeywordv("source-map"),
janet_wrap_tuple(janetc_make_sourcemap(c)));
JanetSlot valsym = janetc_cslot(janet_ckeywordv("value"));
JanetSlot tabslot = janetc_cslot(janet_wrap_table(entry));
/* Add env entry to env */
janet_table_put(c->env, janet_wrap_symbol(sym), janet_wrap_table(entry));
/* Put value in table when evaulated */
janetc_emit_sss(c, JOP_PUT, tabslot, valsym, s, 0);
return 1;
} else {
return namelocal(c, sym, 0, s);
}
}
static JanetSlot janetc_def(JanetFopts opts, int32_t argn, const Janet *argv) {
JanetCompiler *c = opts.compiler;
Janet head;
opts.flags &= ~JANET_FOPTS_HINT;
JanetSlot ret = dohead(c, opts, &head, argn, argv);
if (c->result.status == JANET_COMPILE_ERROR)
return janetc_cslot(janet_wrap_nil());
destructure(c, argv[0], ret, defleaf, handleattr(c, argn, argv));
return ret;
}
/*
* :condition
* ...
* jump-if-not condition :right
* :left
* ...
* jump done (only if not tail)
* :right
* ...
* :done
*/
static JanetSlot janetc_if(JanetFopts opts, int32_t argn, const Janet *argv) {
JanetCompiler *c = opts.compiler;
int32_t labelr, labeljr, labeld, labeljd;
JanetFopts condopts, bodyopts;
JanetSlot cond, left, right, target;
Janet truebody, falsebody;
JanetScope condscope, tempscope;
const int tail = opts.flags & JANET_FOPTS_TAIL;
const int drop = opts.flags & JANET_FOPTS_DROP;
if (argn < 2 || argn > 3) {
janetc_cerror(c, "expected 2 or 3 arguments to if");
return janetc_cslot(janet_wrap_nil());
}
/* Get the bodies of the if expression */
truebody = argv[1];
falsebody = argn > 2 ? argv[2] : janet_wrap_nil();
/* Get options */
condopts = janetc_fopts_default(c);
bodyopts = opts;
/* Set target for compilation */
target = (drop || tail)
? janetc_cslot(janet_wrap_nil())
: janetc_gettarget(opts);
/* Compile condition */
janetc_scope(&condscope, c, 0, "if");
cond = janetc_value(condopts, argv[0]);
/* Check constant condition. */
/* TODO: Use type info for more short circuits */
if (cond.flags & JANET_SLOT_CONSTANT) {
if (!janet_truthy(cond.constant)) {
/* Swap the true and false bodies */
Janet temp = falsebody;
falsebody = truebody;
truebody = temp;
}
janetc_scope(&tempscope, c, 0, "if-true");
right = janetc_value(bodyopts, truebody);
if (!drop && !tail) janetc_copy(c, target, right);
janetc_popscope(c);
janetc_throwaway(bodyopts, falsebody);
janetc_popscope(c);
return target;
}
/* Compile jump to right */
labeljr = janetc_emit_si(c, JOP_JUMP_IF_NOT, cond, 0, 0);
/* Condition left body */
janetc_scope(&tempscope, c, 0, "if-true");
left = janetc_value(bodyopts, truebody);
if (!drop && !tail) janetc_copy(c, target, left);
janetc_popscope(c);
/* Compile jump to done */
labeljd = janet_v_count(c->buffer);
if (!tail) janetc_emit(c, JOP_JUMP);
/* Compile right body */
labelr = janet_v_count(c->buffer);
janetc_scope(&tempscope, c, 0, "if-false");
right = janetc_value(bodyopts, falsebody);
if (!drop && !tail) janetc_copy(c, target, right);
janetc_popscope(c);
/* Pop main scope */
janetc_popscope(c);
/* Write jumps - only add jump lengths if jump actually emitted */
labeld = janet_v_count(c->buffer);
c->buffer[labeljr] |= (labelr - labeljr) << 16;
if (!tail) c->buffer[labeljd] |= (labeld - labeljd) << 8;
if (tail) target.flags |= JANET_SLOT_RETURNED;
return target;
}
/* Compile a do form. Do forms execute their body sequentially and
* evaluate to the last expression in the body. */
static JanetSlot janetc_do(JanetFopts opts, int32_t argn, const Janet *argv) {
int32_t i;
JanetSlot ret = janetc_cslot(janet_wrap_nil());
JanetCompiler *c = opts.compiler;
JanetFopts subopts = janetc_fopts_default(c);
JanetScope tempscope;
janetc_scope(&tempscope, c, 0, "do");
for (i = 0; i < argn; i++) {
if (i != argn - 1) {
subopts.flags = JANET_FOPTS_DROP;
} else {
subopts = opts;
}
ret = janetc_value(subopts, argv[i]);
if (i != argn - 1) {
janetc_freeslot(c, ret);
}
}
janetc_popscope_keepslot(c, ret);
return ret;
}
/* Add a funcdef to the top most function scope */
static int32_t janetc_addfuncdef(JanetCompiler *c, JanetFuncDef *def) {
JanetScope *scope = c->scope;
while (scope) {
if (scope->flags & JANET_SCOPE_FUNCTION)
break;
scope = scope->parent;
}
janet_assert(scope, "could not add funcdef");
janet_v_push(scope->defs, def);
return janet_v_count(scope->defs) - 1;
}
/*
* break
*
* jump :end or retn if in function
*/
static JanetSlot janetc_break(JanetFopts opts, int32_t argn, const Janet *argv) {
JanetCompiler *c = opts.compiler;
JanetScope *scope = c->scope;
if (argn > 1) {
janetc_cerror(c, "expected at most 1 argument");
return janetc_cslot(janet_wrap_nil());
}
/* Find scope to break from */
while (scope) {
if (scope->flags & (JANET_SCOPE_FUNCTION | JANET_SCOPE_WHILE))
break;
scope = scope->parent;
}
if (NULL == scope) {
janetc_cerror(c, "break must occur in while loop or closure");
return janetc_cslot(janet_wrap_nil());
}
/* Emit code to break from that scope */
JanetFopts subopts = janetc_fopts_default(c);
if (scope->flags & JANET_SCOPE_FUNCTION) {
if (!(scope->flags & JANET_SCOPE_WHILE) && argn) {
/* Closure body with return argument */
subopts.flags |= JANET_FOPTS_TAIL;
JanetSlot ret = janetc_value(subopts, argv[0]);
ret.flags |= JANET_SLOT_RETURNED;
return ret;
} else {
/* while loop IIFE or no argument */
if (argn) {
subopts.flags |= JANET_FOPTS_DROP;
janetc_value(subopts, argv[0]);
}
janetc_emit(c, JOP_RETURN_NIL);
JanetSlot s = janetc_cslot(janet_wrap_nil());
s.flags |= JANET_SLOT_RETURNED;
return s;
}
} else {
if (argn) {
subopts.flags |= JANET_FOPTS_DROP;
janetc_value(subopts, argv[0]);
}
/* Tag the instruction so the while special can turn it into a proper jump */
janetc_emit(c, 0x80 | JOP_JUMP);
return janetc_cslot(janet_wrap_nil());
}
}
/*
* :whiletop
* ...
* :condition
* jump-if-not cond :done
* ...
* jump :whiletop
* :done
*/
static JanetSlot janetc_while(JanetFopts opts, int32_t argn, const Janet *argv) {
JanetCompiler *c = opts.compiler;
JanetSlot cond;
JanetFopts subopts = janetc_fopts_default(c);
JanetScope tempscope;
int32_t labelwt, labeld, labeljt, labelc, i;
int infinite = 0;
if (argn < 2) {
janetc_cerror(c, "expected at least 2 arguments");
return janetc_cslot(janet_wrap_nil());
}
labelwt = janet_v_count(c->buffer);
janetc_scope(&tempscope, c, JANET_SCOPE_WHILE, "while");
/* Compile condition */
cond = janetc_value(subopts, argv[0]);
/* Check for constant condition */
if (cond.flags & JANET_SLOT_CONSTANT) {
/* Loop never executes */
if (!janet_truthy(cond.constant)) {
janetc_popscope(c);
return janetc_cslot(janet_wrap_nil());
}
/* Infinite loop */
infinite = 1;
}
/* Infinite loop does not need to check condition */
labelc = infinite
? 0
: janetc_emit_si(c, JOP_JUMP_IF_NOT, cond, 0, 0);
/* Compile body */
for (i = 1; i < argn; i++) {
subopts.flags = JANET_FOPTS_DROP;
janetc_freeslot(c, janetc_value(subopts, argv[i]));
}
/* Check if closure created in while scope. If so,
* recompile in a function scope. */
if (tempscope.flags & JANET_SCOPE_CLOSURE) {
tempscope.flags |= JANET_SCOPE_UNUSED;
janetc_popscope(c);
janet_v__cnt(c->buffer) = labelwt;
janet_v__cnt(c->mapbuffer) = labelwt;
janetc_scope(&tempscope, c, JANET_SCOPE_FUNCTION, "while-iife");
/* Recompile in the function scope */
cond = janetc_value(subopts, argv[0]);
if (!(cond.flags & JANET_SLOT_CONSTANT)) {
/* If not an infinite loop, return nil when condition false */
janetc_emit_si(c, JOP_JUMP_IF, cond, 2, 0);
janetc_emit(c, JOP_RETURN_NIL);
}
for (i = 1; i < argn; i++) {
subopts.flags = JANET_FOPTS_DROP;
janetc_freeslot(c, janetc_value(subopts, argv[i]));
}
/* But now add tail recursion */
int32_t tempself = janetc_regalloc_temp(&tempscope.ra, JANETC_REGTEMP_0);
janetc_emit(c, JOP_LOAD_SELF | (tempself << 8));
janetc_emit(c, JOP_TAILCALL | (tempself << 8));
janetc_regalloc_freetemp(&c->scope->ra, tempself, JANETC_REGTEMP_0);
/* Compile function */
JanetFuncDef *def = janetc_pop_funcdef(c);
def->name = janet_cstring("_while");
int32_t defindex = janetc_addfuncdef(c, def);
/* And then load the closure and call it. */
int32_t cloreg = janetc_regalloc_temp(&c->scope->ra, JANETC_REGTEMP_0);
janetc_emit(c, JOP_CLOSURE | (cloreg << 8) | (defindex << 16));
janetc_emit(c, JOP_CALL | (cloreg << 8) | (cloreg << 16));
janetc_regalloc_freetemp(&c->scope->ra, cloreg, JANETC_REGTEMP_0);
c->scope->flags |= JANET_SCOPE_CLOSURE;
return janetc_cslot(janet_wrap_nil());
}
/* Compile jump to :whiletop */
labeljt = janet_v_count(c->buffer);
janetc_emit(c, JOP_JUMP);
/* Calculate jumps */
labeld = janet_v_count(c->buffer);
if (!infinite) c->buffer[labelc] |= (uint32_t)(labeld - labelc) << 16;
c->buffer[labeljt] |= (uint32_t)(labelwt - labeljt) << 8;
/* Calculate breaks */
for (int32_t i = labelwt; i < labeld; i++) {
if (c->buffer[i] == (0x80 | JOP_JUMP)) {
c->buffer[i] = JOP_JUMP | ((labeld - i) << 8);
}
}
/* Pop scope and return nil slot */
janetc_popscope(c);
return janetc_cslot(janet_wrap_nil());
}
static JanetSlot janetc_fn(JanetFopts opts, int32_t argn, const Janet *argv) {
JanetCompiler *c = opts.compiler;
JanetFuncDef *def;
JanetSlot ret;
Janet head;
JanetScope fnscope;
int32_t paramcount, argi, parami, arity, min_arity, max_arity, defindex, i;
JanetFopts subopts = janetc_fopts_default(c);
const Janet *params;
const char *errmsg = NULL;
/* Function flags */
int vararg = 0;
int structarg = 0;
int allow_extra = 0;
int selfref = 0;
int seenamp = 0;
int seenopt = 0;
/* Begin function */
c->scope->flags |= JANET_SCOPE_CLOSURE;
janetc_scope(&fnscope, c, JANET_SCOPE_FUNCTION, "function");
if (argn == 0) {
errmsg = "expected at least 1 argument to function literal";
goto error;
}
/* Read function parameters */
parami = 0;
head = argv[0];
if (janet_checktype(head, JANET_SYMBOL)) {
selfref = 1;
parami = 1;
}
if (parami >= argn || !janet_checktype(argv[parami], JANET_TUPLE)) {
errmsg = "expected function parameters";
goto error;
}
/* Keep track of destructured parameters */
JanetSlot *destructed_params = NULL;
/* Compile function parameters */
params = janet_unwrap_tuple(argv[parami]);
paramcount = janet_tuple_length(params);
arity = paramcount;
for (i = 0; i < paramcount; i++) {
Janet param = params[i];
if (janet_checktype(param, JANET_SYMBOL)) {
/* Check for varargs and unfixed arity */
if (!janet_cstrcmp(janet_unwrap_symbol(param), "&")) {
if (seenamp) {
errmsg = "& in unexpected location";
goto error;
} else if (i == paramcount - 1) {
allow_extra = 1;
arity--;
} else if (i == paramcount - 2) {
vararg = 1;
arity -= 2;
} else {
errmsg = "& in unexpected location";
goto error;
}
seenamp = 1;
} else if (!janet_cstrcmp(janet_unwrap_symbol(param), "&opt")) {
if (seenopt) {
errmsg = "only one &opt allowed";
goto error;
} else if (i == paramcount - 1) {
errmsg = "&opt cannot be last item in parameter list";
goto error;
}
min_arity = i;
arity--;
seenopt = 1;
} else if (!janet_cstrcmp(janet_unwrap_symbol(param), "&keys")) {
if (seenamp) {
errmsg = "&keys in unexpected location";
goto error;
} else if (i == paramcount - 2) {
vararg = 1;
structarg = 1;
arity -= 2;
} else {
errmsg = "&keys in unexpected location";
goto error;
}
seenamp = 1;
} else {
janetc_nameslot(c, janet_unwrap_symbol(param), janetc_farslot(c));
}
} else {
janet_v_push(destructed_params, janetc_farslot(c));
}
}
/* Compile destructed params */
int32_t j = 0;
for (i = 0; i < paramcount; i++) {
Janet param = params[i];
if (!janet_checktype(param, JANET_SYMBOL)) {
JanetSlot reg = destructed_params[j++];
destructure(c, param, reg, defleaf, NULL);
janetc_freeslot(c, reg);
}
}
janet_v_free(destructed_params);
max_arity = (vararg || allow_extra) ? INT32_MAX : arity;
if (!seenopt) min_arity = arity;
/* Check for self ref */
if (selfref) {
JanetSlot slot = janetc_farslot(c);
slot.flags = JANET_SLOT_NAMED | JANET_FUNCTION;
janetc_emit_s(c, JOP_LOAD_SELF, slot, 1);
janetc_nameslot(c, janet_unwrap_symbol(head), slot);
}
/* Compile function body */
if (parami + 1 == argn) {
janetc_emit(c, JOP_RETURN_NIL);
} else {
for (argi = parami + 1; argi < argn; argi++) {
subopts.flags = (argi == (argn - 1)) ? JANET_FOPTS_TAIL : JANET_FOPTS_DROP;
janetc_value(subopts, argv[argi]);
if (c->result.status == JANET_COMPILE_ERROR)
goto error2;
}
}
/* Build function */
def = janetc_pop_funcdef(c);
def->arity = arity;
def->min_arity = min_arity;
def->max_arity = max_arity;
if (vararg) def->flags |= JANET_FUNCDEF_FLAG_VARARG;
if (structarg) def->flags |= JANET_FUNCDEF_FLAG_STRUCTARG;
if (selfref) def->name = janet_unwrap_symbol(head);
defindex = janetc_addfuncdef(c, def);
/* Ensure enough slots for vararg function. */
if (arity + vararg > def->slotcount) def->slotcount = arity + vararg;
/* Instantiate closure */
ret = janetc_gettarget(opts);
janetc_emit_su(c, JOP_CLOSURE, ret, defindex, 1);
return ret;
error:
janetc_cerror(c, errmsg);
error2:
janetc_popscope(c);
return janetc_cslot(janet_wrap_nil());
}
/* Keep in lexicographic order */
static const JanetSpecial janetc_specials[] = {
{"break", janetc_break},
{"def", janetc_def},
{"do", janetc_do},
{"fn", janetc_fn},
{"if", janetc_if},
{"quasiquote", janetc_quasiquote},
{"quote", janetc_quote},
{"set", janetc_varset},
{"splice", janetc_splice},
{"unquote", janetc_unquote},
{"var", janetc_var},
{"while", janetc_while}
};
/* Find a special */
const JanetSpecial *janetc_special(const uint8_t *name) {
return janet_strbinsearch(
&janetc_specials,
sizeof(janetc_specials) / sizeof(JanetSpecial),
sizeof(JanetSpecial),
name);
}