*/ REBFLG Make_Function(REBCNT type, REBVAL *value, REBVAL *def)
/*
***********************************************************************/
{
REBVAL *spec;
REBVAL *body;
REBCNT len;
if (
!IS_BLOCK(def)
|| (len = VAL_LEN(def)) < 2
|| !IS_BLOCK(spec = VAL_BLK(def))
) return FALSE;
body = VAL_BLK_SKIP(def, 1);
VAL_FUNC_SPEC(value) = VAL_SERIES(spec);
VAL_FUNC_ARGS(value) = Check_Func_Spec(VAL_SERIES(spec));
if (type != REB_COMMAND) {
if (len != 2 || !IS_BLOCK(body)) return FALSE;
VAL_FUNC_BODY(value) = VAL_SERIES(body);
}
else
Make_Command(value, def);
VAL_SET(value, type);
if (type == REB_FUNCTION || type == REB_CLOSURE)
Bind_Relative(VAL_FUNC_ARGS(value), VAL_FUNC_ARGS(value), VAL_FUNC_BODY(value));
return TRUE;
}
*/ REBFLG Copy_Function(REBVAL *value, REBVAL *args)
/*
***********************************************************************/
{
REBVAL *spec = VAL_BLK(args);
REBVAL *body = VAL_BLK_SKIP(args, 1);
if (IS_END(spec)) body = 0;
else {
// Spec given, must be block or *
if (IS_BLOCK(spec)) {
VAL_FUNC_SPEC(value) = VAL_SERIES(spec);
VAL_FUNC_ARGS(value) = Check_Func_Spec(VAL_SERIES(spec));
} else
if (!IS_STAR(spec)) return FALSE;
}
if (body && !IS_END(body)) {
if (!IS_FUNCTION(value) && !IS_CLOSURE(value)) return FALSE;
// Body must be block:
if (!IS_BLOCK(body)) return FALSE;
VAL_FUNC_BODY(value) = VAL_SERIES(body);
}
// No body, use protytpe:
else if (IS_FUNCTION(value) || IS_CLOSURE(value))
VAL_FUNC_BODY(value) = Clone_Block(VAL_FUNC_BODY(value));
// Rebind function words:
if (IS_FUNCTION(value))
Bind_Relative(VAL_FUNC_ARGS(value), VAL_FUNC_BODY(value), VAL_FUNC_BODY(value));
return TRUE;
}
*/ void Do_Command(REBVAL *value)
/*
** Evaluates the arguments for a command function and creates
** a resulting stack frame (struct or object) for command processing.
**
** A command value consists of:
** args - same as other funcs
** spec - same as other funcs
** body - [ext-obj func-index]
**
***********************************************************************/
{
REBVAL *val = BLK_HEAD(VAL_FUNC_BODY(value));
REBEXT *ext;
REBCNT cmd;
REBCNT argc;
REBCNT n;
RXIFRM frm; // args stored here
// All of these were checked above on definition:
val = BLK_HEAD(VAL_FUNC_BODY(value));
cmd = (int)VAL_INT64(val+1);
ext = &Ext_List[VAL_I32(VAL_OBJ_VALUE(val, 1))]; // Handler
// Copy args to command frame (array of args):
RXA_COUNT(&frm) = argc = SERIES_TAIL(VAL_FUNC_ARGS(value))-1; // not self
if (argc > 7) Trap0(RE_BAD_COMMAND);
val = DS_ARG(1);
for (n = 1; n <= argc; n++, val++) {
RXA_TYPE(&frm, n) = Reb_To_RXT[VAL_TYPE(val)];
frm.args[n] = Value_To_RXI(val);
}
// Call the command:
n = ext->call(cmd, &frm, 0);
val = DS_RETURN;
switch (n) {
case RXR_VALUE:
RXI_To_Value(val, frm.args[1], RXA_TYPE(&frm, 1));
break;
case RXR_BLOCK:
RXI_To_Block(&frm, val);
break;
case RXR_UNSET:
SET_UNSET(val);
break;
case RXR_NONE:
SET_NONE(val);
break;
case RXR_TRUE:
SET_TRUE(val);
break;
case RXR_FALSE:
SET_FALSE(val);
break;
case RXR_ERROR:
default:
SET_UNSET(val);
}
}
*/ REBFLG Make_Function(REBCNT type, REBVAL *value, REBVAL *def)
/*
***********************************************************************/
{
REBVAL *spec;
REBVAL *body;
REBCNT len;
if (
!IS_BLOCK(def)
//// || type < REB_CLOSURE // for now
|| (len = VAL_LEN(def)) < 2
|| !IS_BLOCK(spec = VAL_BLK(def))
) return FALSE;
body = VAL_BLK_SKIP(def, 1);
// Print("Make_Func"); //: %s spec %d", Get_Sym_Name(type+1), SERIES_TAIL(spec));
VAL_FUNC_SPEC(value) = VAL_SERIES(spec);
VAL_FUNC_ARGS(value) = Check_Func_Spec(VAL_SERIES(spec));
if (type != REB_COMMAND) {
if (len != 2 || !IS_BLOCK(body)) return FALSE;
VAL_FUNC_BODY(value) = VAL_SERIES(body);
}
else
Make_Command(value, def);
VAL_SET(value, type);
if (type == REB_FUNCTION)
Bind_Relative(VAL_FUNC_ARGS(value), VAL_FUNC_BODY(value), VAL_FUNC_BODY(value));
return TRUE;
}
*/ void Clone_Function(REBVAL *value, REBVAL *func)
/*
***********************************************************************/
{
VAL_FUNC_SPEC(value) = VAL_FUNC_SPEC(func);
VAL_FUNC_ARGS(value) = VAL_FUNC_ARGS(func);
VAL_FUNC_BODY(value) = Clone_Block(VAL_FUNC_BODY(func));
}
*/ void Do_Function(REBVAL *func)
/*
***********************************************************************/
{
REBVAL *result;
REBVAL *ds;
#if !defined(NDEBUG)
const REBYTE *name = Get_Word_Name(DSF_LABEL(DSF));
#endif
Eval_Functions++;
//Dump_Block(VAL_FUNC_BODY(func));
result = Do_Blk(VAL_FUNC_BODY(func), 0);
ds = DS_OUT;
if (IS_ERROR(result) && IS_RETURN(result)) {
// Value below is kept safe from GC because no-allocation is
// done between point of SET_THROW and here.
if (VAL_ERR_VALUE(result))
*ds = *VAL_ERR_VALUE(result);
else
SET_UNSET(ds);
}
else *ds = *result; // Set return value (atomic)
}
static REBOOL Same_Func(const RELVAL *val, const RELVAL *arg)
{
assert(IS_FUNCTION(val) && IS_FUNCTION(arg));
if (VAL_FUNC_PARAMLIST(val) == VAL_FUNC_PARAMLIST(arg)) {
assert(VAL_FUNC_DISPATCHER(val) == VAL_FUNC_DISPATCHER(arg));
assert(VAL_FUNC_BODY(val) == VAL_FUNC_BODY(arg));
// All functions that have the same paramlist are not necessarily the
// "same function". For instance, every RETURN shares a common
// paramlist, but the binding is different in the REBVAL instances
// in order to know where to "exit from".
return LOGICAL(VAL_BINDING(val) == VAL_BINDING(arg));
}
return FALSE;
}
*/ void Bind_Frame(REBSER *obj)
/*
** Clone a frame, knowing which types of values need to be
** copied, deep copied, and rebound.
**
***********************************************************************/
{
REBVAL *val;
REBOOL funcs = FALSE;
//DISABLE_GC;
// Copy functions:
for (val = BLK_SKIP(obj, 1); NOT_END(val); val++) {
if (IS_FUNCTION(val)) {
Clone_Function(val, val);
funcs = TRUE;
}
else if (IS_CLOSURE(val)) {
funcs = TRUE;
}
}
// Rebind all values:
Bind_Block(obj, BLK_SKIP(obj, 1), BIND_DEEP | BIND_FUNC);
if (funcs) {
// Rebind functions:
for (val = BLK_SKIP(obj, 1); NOT_END(val); val++) {
if (IS_FUNCTION(val)) {
Bind_Relative(VAL_FUNC_ARGS(val), VAL_FUNC_BODY(val), VAL_FUNC_BODY(val));
}
else if (IS_CLOSURE(val)) {
}
}
}
//ENABLE_GC;
}
STOID Mold_Function(REBVAL *value, REB_MOLD *mold)
{
Pre_Mold(value, mold);
Append_Byte(mold->series, '[');
Mold_Block_Series(mold, VAL_FUNC_SPEC(value), 0, 0); //// & ~(1<<MOPT_MOLD_ALL)); // Never literalize it (/all).
if (IS_FUNCTION(value) || IS_CLOSURE(value))
Mold_Block_Series(mold, VAL_FUNC_BODY(value), 0, 0);
Append_Byte(mold->series, ']');
End_Mold(mold);
}
*/ static void Bind_Block_Words(REBSER *frame, REBVAL *value, REBCNT mode)
/*
** Inner loop of bind block. Modes are:
**
** BIND_ONLY Only bind the words found in the frame.
** BIND_SET Add set-words to the frame during the bind.
** BIND_ALL Add words to the frame during the bind.
** BIND_DEEP Recurse into sub-blocks.
**
** NOTE: BIND_SET must be used carefully, because it does not
** bind prior instances of the word before the set-word. That is
** forward references are not allowed.
**
***********************************************************************/
{
REBINT *binds = WORDS_HEAD(Bind_Table); // GC safe to do here
REBCNT n;
REBFLG selfish = !IS_SELFLESS(frame);
for (; NOT_END(value); value++) {
if (ANY_WORD(value)) {
//Print("Word: %s", Get_Sym_Name(VAL_WORD_CANON(value)));
// Is the word found in this frame?
if (NZ(n = binds[VAL_WORD_CANON(value)])) {
if (n == NO_RESULT) n = 0; // SELF word
ASSERT1(n < SERIES_TAIL(frame), RP_BIND_BOUNDS);
// Word is in frame, bind it:
VAL_WORD_INDEX(value) = n;
VAL_WORD_FRAME(value) = frame;
}
else if (selfish && VAL_WORD_CANON(value) == SYM_SELF) {
VAL_WORD_INDEX(value) = 0;
VAL_WORD_FRAME(value) = frame;
}
else {
// Word is not in frame. Add it if option is specified:
if ((mode & BIND_ALL) || ((mode & BIND_SET) && (IS_SET_WORD(value)))) {
Append_Frame(frame, value, 0);
binds[VAL_WORD_CANON(value)] = VAL_WORD_INDEX(value);
}
}
}
else if (ANY_BLOCK(value) && (mode & BIND_DEEP))
Bind_Block_Words(frame, VAL_BLK_DATA(value), mode);
else if ((IS_FUNCTION(value) || IS_CLOSURE(value)) && (mode & BIND_FUNC))
Bind_Block_Words(frame, BLK_HEAD(VAL_FUNC_BODY(value)), mode);
}
}
*/ static void Bind_Values_Inner_Loop(REBINT *binds, REBVAL value[], REBSER *frame, REBCNT mode)
/*
** Bind_Values_Core() sets up the binding table and then calls
** this recursive routine to do the actual binding.
**
***********************************************************************/
{
REBFLG selfish = !IS_SELFLESS(frame);
for (; NOT_END(value); value++) {
if (ANY_WORD(value)) {
//Print("Word: %s", Get_Sym_Name(VAL_WORD_CANON(value)));
// Is the word found in this frame?
REBCNT n = binds[VAL_WORD_CANON(value)];
if (n != 0) {
if (n == NO_RESULT) n = 0; // SELF word
assert(n < SERIES_TAIL(frame));
// Word is in frame, bind it:
VAL_WORD_INDEX(value) = n;
VAL_WORD_FRAME(value) = frame;
}
else if (selfish && VAL_WORD_CANON(value) == SYM_SELF) {
VAL_WORD_INDEX(value) = 0;
VAL_WORD_FRAME(value) = frame;
}
else {
// Word is not in frame. Add it if option is specified:
if ((mode & BIND_ALL) || ((mode & BIND_SET) && (IS_SET_WORD(value)))) {
Expand_Frame(frame, 1, 1);
Append_Frame(frame, value, 0);
binds[VAL_WORD_CANON(value)] = VAL_WORD_INDEX(value);
}
}
}
else if (ANY_BLOCK(value) && (mode & BIND_DEEP))
Bind_Values_Inner_Loop(
binds, VAL_BLK_DATA(value), frame, mode
);
else if ((IS_FUNCTION(value) || IS_CLOSURE(value)) && (mode & BIND_FUNC))
Bind_Values_Inner_Loop(
binds, BLK_HEAD(VAL_FUNC_BODY(value)), frame, mode
);
}
}
*/ void Do_Closure(REBVAL *func)
/*
** Do a closure by cloning its body and binding it to
** a new frame of words/values.
**
** This could be made faster by pre-binding the body,
** then using Rebind_Block to rebind the words in it.
**
***********************************************************************/
{
REBSER *body;
REBSER *frame;
REBVAL *result;
REBVAL *ds;
Eval_Functions++;
//DISABLE_GC;
// Clone the body of the function to allow rebinding to it:
body = Clone_Block(VAL_FUNC_BODY(func));
// Copy stack frame args as the closure object (one extra at head)
frame = Copy_Values(BLK_SKIP(DS_Series, DS_ARG_BASE), SERIES_TAIL(VAL_FUNC_ARGS(func)));
SET_FRAME(BLK_HEAD(frame), 0, VAL_FUNC_ARGS(func));
// Rebind the body to the new context (deeply):
//Rebind_Block(VAL_FUNC_ARGS(func), frame, body);
Bind_Block(frame, BLK_HEAD(body), BIND_DEEP); // | BIND_NO_SELF);
ds = DS_RETURN;
SET_OBJECT(ds, body); // keep it GC safe
result = Do_Blk(body, 0); // GC-OK - also, result returned on DS stack
ds = DS_RETURN;
if (IS_ERROR(result) && IS_RETURN(result)) {
// Value below is kept safe from GC because no-allocation is
// done between point of SET_THROW and here.
if (VAL_ERR_VALUE(result))
*ds = *VAL_ERR_VALUE(result);
else
SET_UNSET(ds);
}
else *ds = *result; // Set return value (atomic)
}
*/ void Clone_Function(REBVAL *value, REBVAL *func)
/*
***********************************************************************/
{
REBSER *src_frame = VAL_FUNC_ARGS(func);
VAL_FUNC_SPEC(value) = VAL_FUNC_SPEC(func);
VAL_FUNC_BODY(value) = Clone_Block(VAL_FUNC_BODY(func));
VAL_FUNC_ARGS(value) = Copy_Block(src_frame, 0);
// VAL_FUNC_BODY(value) = Clone_Block(VAL_FUNC_BODY(func));
VAL_FUNC_BODY(value) = Copy_Block_Values(VAL_FUNC_BODY(func), 0, SERIES_TAIL(VAL_FUNC_BODY(func)), TS_CLONE);
Rebind_Block(src_frame, VAL_FUNC_ARGS(value), BLK_HEAD(VAL_FUNC_BODY(value)), 0);
}
//
// Rebind_Values_Deep: C
//
// Rebind all words that reference src target to dst target.
// Rebind is always deep.
//
void Rebind_Values_Deep(
REBCTX *src,
REBCTX *dst,
RELVAL *head,
struct Reb_Binder *opt_binder
) {
RELVAL *value = head;
for (; NOT_END(value); value++) {
if (ANY_ARRAY(value)) {
Rebind_Values_Deep(src, dst, VAL_ARRAY_AT(value), opt_binder);
}
else if (
ANY_WORD(value)
&& GET_VAL_FLAG(value, WORD_FLAG_BOUND)
&& !GET_VAL_FLAG(value, VALUE_FLAG_RELATIVE)
&& VAL_WORD_CONTEXT(KNOWN(value)) == src
) {
INIT_WORD_CONTEXT(value, dst);
if (opt_binder != NULL) {
INIT_WORD_INDEX(
value,
Try_Get_Binder_Index(opt_binder, VAL_WORD_CANON(value))
);
}
}
else if (IS_FUNCTION(value) && IS_FUNCTION_INTERPRETED(value)) {
//
// !!! Extremely questionable feature--walking into function
// bodies and changing them. This R3-Alpha concept was largely
// broken (didn't work for closures) and created a lot of extra
// garbage (inheriting an object's methods meant making deep
// copies of all that object's method bodies...each time).
// Ren-C has a different idea in the works.
//
Rebind_Values_Deep(
src, dst, VAL_FUNC_BODY(value), opt_binder
);
}
}
}
*/ void Make_Command(REBVAL *value, REBVAL *def)
/*
** Assumes prior function has already stored the spec and args
** series. This function validates the body.
**
***********************************************************************/
{
REBVAL *args = BLK_HEAD(VAL_FUNC_ARGS(value));
REBCNT n;
REBVAL *val = VAL_BLK_SKIP(def, 1);
REBEXT *ext;
if (
VAL_LEN(def) != 3
|| !(IS_MODULE(val) || IS_OBJECT(val))
|| !IS_HANDLE(VAL_OBJ_VALUE(val, 1))
|| !IS_INTEGER(val+1)
|| VAL_INT64(val+1) > 0xffff
) Trap1(RE_BAD_FUNC_DEF, def);
val = VAL_OBJ_VALUE(val, 1);
if (
!(ext = &Ext_List[VAL_I32(val)])
|| !(ext->call)
) Trap1(RE_BAD_EXTENSION, def);
// make command! [[arg-spec] handle cmd-index]
VAL_FUNC_BODY(value) = Copy_Block_Len(VAL_SERIES(def), 1, 2);
// Check for valid command arg datatypes:
args++; // skip self
n = 1;
for (; NOT_END(args); args++, n++) {
// If the typeset contains args that are not valid:
// (3 is the default when no args given, for not END and UNSET)
if (3 != ~VAL_TYPESET(args) && (VAL_TYPESET(args) & ~RXT_ALLOWED_TYPES))
Trap1(RE_BAD_FUNC_ARG, args);
}
VAL_SET(value, REB_COMMAND);
}
*/ void Rebind_Block(REBSER *src_frame, REBSER *dst_frame, REBVAL *data, REBFLG modes)
/*
** Rebind all words that reference src frame to dst frame.
** Rebind is always deep.
**
** There are two types of frames: relative frames and normal frames.
** When frame_src type and frame_dst type differ,
** modes must have REBIND_TYPE.
**
***********************************************************************/
{
REBINT *binds = WORDS_HEAD(Bind_Table);
for (; NOT_END(data); data++) {
if (ANY_BLOCK(data))
Rebind_Block(src_frame, dst_frame, VAL_BLK_DATA(data), modes);
else if (ANY_WORD(data) && VAL_WORD_FRAME(data) == src_frame) {
VAL_WORD_FRAME(data) = dst_frame;
if (modes & REBIND_TABLE) VAL_WORD_INDEX(data) = binds[VAL_WORD_CANON(data)];
if (modes & REBIND_TYPE) VAL_WORD_INDEX(data) = - VAL_WORD_INDEX(data);
} else if ((modes & REBIND_FUNC) && (IS_FUNCTION(data) || IS_CLOSURE(data)))
Rebind_Block(src_frame, dst_frame, BLK_HEAD(VAL_FUNC_BODY(data)), modes);
}
}
*/ REBINT Cmp_Value(REBVAL *s, REBVAL *t, REBFLG is_case)
/*
** Compare two values and return the difference.
**
** is_case TRUE for case sensitive compare
**
***********************************************************************/
{
REBDEC d1, d2;
if (VAL_TYPE(t) != VAL_TYPE(s) && !(IS_NUMBER(s) && IS_NUMBER(t)))
return VAL_TYPE(s) - VAL_TYPE(t);
switch(VAL_TYPE(s)) {
case REB_INTEGER:
if (IS_DECIMAL(t)) {
d1 = (REBDEC)VAL_INT64(s);
d2 = VAL_DECIMAL(t);
goto chkDecimal;
}
return THE_SIGN(VAL_INT64(s) - VAL_INT64(t));
case REB_LOGIC:
return VAL_LOGIC(s) - VAL_LOGIC(t);
case REB_CHAR:
if (is_case) return THE_SIGN(VAL_CHAR(s) - VAL_CHAR(t));
return THE_SIGN((REBINT)(UP_CASE(VAL_CHAR(s)) - UP_CASE(VAL_CHAR(t))));
case REB_DECIMAL:
case REB_MONEY:
d1 = VAL_DECIMAL(s);
if (IS_INTEGER(t))
d2 = (REBDEC)VAL_INT64(t);
else
d2 = VAL_DECIMAL(t);
chkDecimal:
if (Eq_Decimal(d1, d2))
return 0;
if (d1 < d2)
return -1;
return 1;
case REB_PAIR:
return Cmp_Pair(s, t);
case REB_EVENT:
return Cmp_Event(s, t);
case REB_GOB:
return Cmp_Gob(s, t);
case REB_TUPLE:
return Cmp_Tuple(s, t);
case REB_TIME:
return Cmp_Time(s, t);
case REB_DATE:
return Cmp_Date(s, t);
case REB_BLOCK:
case REB_PAREN:
case REB_MAP:
case REB_PATH:
case REB_SET_PATH:
case REB_GET_PATH:
case REB_LIT_PATH:
return Cmp_Block(s, t, is_case);
case REB_STRING:
case REB_FILE:
case REB_EMAIL:
case REB_URL:
case REB_TAG:
return Compare_String_Vals(s, t, (REBOOL)!is_case);
case REB_BITSET:
case REB_BINARY:
case REB_IMAGE:
return Compare_Binary_Vals(s, t);
case REB_VECTOR:
return Compare_Vector(s, t);
case REB_DATATYPE:
return VAL_DATATYPE(s) - VAL_DATATYPE(t);
case REB_WORD:
case REB_SET_WORD:
case REB_GET_WORD:
case REB_LIT_WORD:
case REB_REFINEMENT:
case REB_ISSUE:
return Compare_Word(s,t,is_case);
case REB_ERROR:
return VAL_ERR_NUM(s) - VAL_ERR_NUM(s);
case REB_OBJECT:
case REB_MODULE:
case REB_PORT:
return VAL_OBJ_FRAME(s) - VAL_OBJ_FRAME(t);
case REB_NATIVE:
return &VAL_FUNC_CODE(s) - &VAL_FUNC_CODE(t);
case REB_ACTION:
case REB_COMMAND:
case REB_OP:
case REB_FUNCTION:
return VAL_FUNC_BODY(s) - VAL_FUNC_BODY(t);
case REB_NONE:
case REB_UNSET:
case REB_END:
default:
break;
}
return 0;
}
//
// Bind_Values_Inner_Loop: C
//
// Bind_Values_Core() sets up the binding table and then calls
// this recursive routine to do the actual binding.
//
static void Bind_Values_Inner_Loop(
struct Reb_Binder *binder,
RELVAL *head,
REBCTX *context,
REBU64 bind_types, // !!! REVIEW: force word types low enough for 32-bit?
REBU64 add_midstream_types,
REBFLGS flags
) {
RELVAL *value = head;
for (; NOT_END(value); value++) {
REBU64 type_bit = FLAGIT_KIND(VAL_TYPE(value));
if (type_bit & bind_types) {
REBSTR *canon = VAL_WORD_CANON(value);
REBCNT n = Try_Get_Binder_Index(binder, canon);
if (n != 0) {
assert(n <= CTX_LEN(context));
// We're overwriting any previous binding, which may have
// been relative.
//
CLEAR_VAL_FLAG(value, VALUE_FLAG_RELATIVE);
SET_VAL_FLAG(value, WORD_FLAG_BOUND);
INIT_WORD_CONTEXT(value, context);
INIT_WORD_INDEX(value, n);
}
else if (type_bit & add_midstream_types) {
//
// Word is not in context, so add it if option is specified
//
Expand_Context(context, 1);
Append_Context(context, value, 0);
Add_Binder_Index(binder, canon, VAL_WORD_INDEX(value));
}
}
else if (ANY_ARRAY(value) && (flags & BIND_DEEP)) {
Bind_Values_Inner_Loop(
binder,
VAL_ARRAY_AT(value),
context,
bind_types,
add_midstream_types,
flags
);
}
else if (
IS_FUNCTION(value)
&& IS_FUNCTION_INTERPRETED(value)
&& (flags & BIND_FUNC)
) {
// !!! Likely-to-be deprecated functionality--rebinding inside the
// content of an already formed function. :-/
//
Bind_Values_Inner_Loop(
binder,
VAL_FUNC_BODY(value),
context,
bind_types,
add_midstream_types,
flags
);
}
}
}
*/ void Do_Commands(REBSER *cmds, void *context)
/*
** Evaluate a block of commands as efficiently as possible.
** The arguments to each command must already be reduced or
** use only variable lookup.
**
** Returns the last evaluated value, if provided.
**
***********************************************************************/
{
REBVAL *blk;
REBCNT index = 0;
REBVAL *set_word = 0;
REBVAL *cmd_word;
REBSER *words;
REBVAL *args;
REBVAL *val;
REBVAL *func;
RXIFRM frm; // args stored here
REBCNT n;
REBEXT *ext;
REBCEC *ctx;
if ((ctx = context)) ctx->block = cmds;
blk = BLK_HEAD(cmds);
while (NOT_END(blk)) {
// var: command result
if IS_SET_WORD(blk) {
set_word = blk++;
index++;
};
// get command function
if (IS_WORD(cmd_word = blk)) {
// Optimized var fetch:
n = VAL_WORD_INDEX(blk);
if (n > 0) func = FRM_VALUES(VAL_WORD_FRAME(blk)) + n;
else func = Get_Var(blk); // fallback
} else func = blk;
if (!IS_COMMAND(func)) Trap2(RE_EXPECT_VAL, Get_Type_Word(REB_COMMAND), blk);
// Advance to next value
blk++;
if (ctx) ctx->index = index; // position of function
index++;
// get command arguments and body
words = VAL_FUNC_WORDS(func);
RXA_COUNT(&frm) = SERIES_TAIL(VAL_FUNC_ARGS(func))-1; // not self
// collect each argument (arg list already validated on MAKE)
n = 0;
for (args = BLK_SKIP(words, 1); NOT_END(args); args++) {
//Debug_Type(args);
val = blk++;
index++;
if (IS_END(val)) Trap2(RE_NO_ARG, cmd_word, args);
//Debug_Type(val);
// actual arg is a word, lookup?
if (VAL_TYPE(val) >= REB_WORD) {
if (IS_WORD(val)) {
if (IS_WORD(args)) val = Get_Var(val);
}
else if (IS_PATH(val)) {
if (IS_WORD(args)) val = Get_Any_Var(val); // volatile value!
}
else if (IS_PAREN(val)) {
val = Do_Blk(VAL_SERIES(val), 0); // volatile value!
}
// all others fall through
}
// check datatype
if (!TYPE_CHECK(args, VAL_TYPE(val)))
Trap3(RE_EXPECT_ARG, cmd_word, args, Of_Type(val));
// put arg into command frame
n++;
RXA_TYPE(&frm, n) = Reb_To_RXT[VAL_TYPE(val)];
frm.args[n] = Value_To_RXI(val);
}
// Call the command (also supports different extension modules):
func = BLK_HEAD(VAL_FUNC_BODY(func));
n = (REBCNT)VAL_INT64(func + 1);
ext = &Ext_List[VAL_I32(VAL_OBJ_VALUE(func, 1))]; // Handler
n = ext->call(n, &frm, context);
val = DS_RETURN;
switch (n) {
case RXR_VALUE:
RXI_To_Value(val, frm.args[1], RXA_TYPE(&frm, 1));
break;
case RXR_BLOCK:
RXI_To_Block(&frm, val);
break;
case RXR_UNSET:
SET_UNSET(val);
break;
case RXR_NONE:
SET_NONE(val);
break;
case RXR_TRUE:
SET_TRUE(val);
break;
case RXR_FALSE:
SET_FALSE(val);
break;
case RXR_ERROR:
default:
SET_UNSET(val);
}
if (set_word) {
Set_Var(set_word, val);
set_word = 0;
}
}
}
