*/ void Modify_Blockx(REBCNT action, REBVAL *block, REBVAL *arg)
/*
** Actions: INSERT, APPEND, CHANGE
**
** block [block!] {Series at point to insert}
** value [any-type!] {The value to insert}
** /part {Limits to a given length or position.}
** length [number! series! pair!]
** /only {Inserts a series as a series.}
** /dup {Duplicates the insert a specified number of times.}
** count [number! pair!]
**
** Add:
** Handle insert [] () case
** What does insert () [] do?
** /deep option for cloning subcontents?
**
***********************************************************************/
{
REBSER *series = VAL_SERIES(block);
REBCNT index = VAL_INDEX(block);
REBCNT tail = VAL_TAIL(block);
REBFLG only = DS_REF(AN_ONLY);
REBINT rlen; // length to be removed
REBINT ilen = 1; // length to be inserted
REBINT cnt = 1; // DUP count
REBINT size;
REBFLG is_blk = FALSE; // arg is a block not a value
// Length of target (may modify index): (arg can be anything)
rlen = Partial1((action == A_CHANGE) ? block : arg, DS_ARG(AN_LENGTH));
index = VAL_INDEX(block);
if (action == A_APPEND || index > tail) index = tail;
// Check /PART, compute LEN:
if (!only && ANY_BLOCK(arg)) {
is_blk = TRUE; // arg is a block
// Are we modifying ourselves? If so, copy arg block first:
if (series == VAL_SERIES(arg)) {
VAL_SERIES(arg) = Copy_Block(VAL_SERIES(arg), VAL_INDEX(arg));
VAL_INDEX(arg) = 0;
}
// Length of insertion:
ilen = (action != A_CHANGE && DS_REF(AN_PART)) ? rlen : VAL_LEN(arg);
}
// Get /DUP count:
if (DS_REF(AN_DUP)) {
cnt = Int32(DS_ARG(AN_COUNT));
if (cnt <= 0) return; // no changes
}
// Total to insert:
size = cnt * ilen;
if (action != A_CHANGE) {
// Always expand series for INSERT and APPEND actions:
Expand_Series(series, index, size);
} else {
if (size > rlen)
Expand_Series(series, index, size-rlen);
else if (size < rlen && DS_REF(AN_PART))
Remove_Series(series, index, rlen-size);
else if (size + index > tail) {
EXPAND_SERIES_TAIL(series, size - (tail - index));
}
}
if (is_blk) arg = VAL_BLK_DATA(arg);
// For dup count:
VAL_INDEX(block) = (action == A_APPEND) ? 0 : size + index;
index *= SERIES_WIDE(series); // loop invariant
ilen *= SERIES_WIDE(series); // loop invariant
for (; cnt > 0; cnt--) {
memcpy(series->data + index, (REBYTE *)arg, ilen);
index += ilen;
}
BLK_TERM(series);
}
x*/ void Modify_StringX(REBCNT action, REBVAL *string, REBVAL *arg)
/*
** Actions: INSERT, APPEND, CHANGE
**
** string [string!] {Series at point to insert}
** value [any-type!] {The value to insert}
** /part {Limits to a given length or position.}
** length [number! series! pair!]
** /only {Inserts a series as a series.}
** /dup {Duplicates the insert a specified number of times.}
** count [number! pair!]
**
***********************************************************************/
{
REBSER *series = VAL_SERIES(string);
REBCNT index = VAL_INDEX(string);
REBCNT tail = VAL_TAIL(string);
REBINT rlen; // length to be removed
REBINT ilen = 1; // length to be inserted
REBINT cnt = 1; // DUP count
REBINT size;
REBVAL *val;
REBSER *arg_ser = 0; // argument series
// Length of target (may modify index): (arg can be anything)
rlen = Partial1((action == A_CHANGE) ? string : arg, DS_ARG(AN_LENGTH));
index = VAL_INDEX(string);
if (action == A_APPEND || index > tail) index = tail;
// If the arg is not a string, then we need to create a string:
if (IS_BINARY(string)) {
if (IS_INTEGER(arg)) {
if (VAL_INT64(arg) > 255 || VAL_INT64(arg) < 0)
Trap_Range(arg);
arg_ser = Make_Binary(1);
Append_Byte(arg_ser, VAL_CHAR(arg)); // check for size!!!
}
else if (!ANY_BINSTR(arg)) Trap_Arg(arg);
}
else if (IS_BLOCK(arg)) {
// MOVE!
REB_MOLD mo = {0};
arg_ser = mo.series = Make_Unicode(VAL_BLK_LEN(arg) * 10); // GC!?
for (val = VAL_BLK_DATA(arg); NOT_END(val); val++)
Mold_Value(&mo, val, 0);
}
else if (IS_CHAR(arg)) {
// Optimize this case !!!
arg_ser = Make_Unicode(1);
Append_Byte(arg_ser, VAL_CHAR(arg));
}
else if (!ANY_STR(arg) || IS_TAG(arg)) {
arg_ser = Copy_Form_Value(arg, 0);
}
if (arg_ser) Set_String(arg, arg_ser);
else arg_ser = VAL_SERIES(arg);
// Length of insertion:
ilen = (action != A_CHANGE && DS_REF(AN_PART)) ? rlen : VAL_LEN(arg);
// If Source == Destination we need to prevent possible conflicts.
// Clone the argument just to be safe.
// (Note: It may be possible to optimize special cases like append !!)
if (series == VAL_SERIES(arg)) {
arg_ser = Copy_Series_Part(arg_ser, VAL_INDEX(arg), ilen); // GC!?
}
// Get /DUP count:
if (DS_REF(AN_DUP)) {
cnt = Int32(DS_ARG(AN_COUNT));
if (cnt <= 0) return; // no changes
}
// Total to insert:
size = cnt * ilen;
if (action != A_CHANGE) {
// Always expand series for INSERT and APPEND actions:
Expand_Series(series, index, size);
} else {
if (size > rlen)
Expand_Series(series, index, size-rlen);
else if (size < rlen && DS_REF(AN_PART))
Remove_Series(series, index, rlen-size);
else if (size + index > tail) {
EXPAND_SERIES_TAIL(series, size - (tail - index));
}
}
// For dup count:
for (; cnt > 0; cnt--) {
Insert_String(series, index, arg_ser, VAL_INDEX(arg), ilen, TRUE);
index += ilen;
}
TERM_SERIES(series);
VAL_INDEX(string) = (action == A_APPEND) ? 0 : index;
}
*/ REBINT Do_Series_Action(REBCNT action, REBVAL *value, REBVAL *arg)
/*
** Common series functions.
**
***********************************************************************/
{
REBINT index;
REBINT tail;
REBINT len = 0;
// Common setup code for all actions:
if (action != A_MAKE && action != A_TO) {
index = (REBINT)VAL_INDEX(value);
tail = (REBINT)VAL_TAIL(value);
} else return -1;
switch (action) {
//-- Navigation:
case A_HEAD:
VAL_INDEX(value) = 0;
break;
case A_TAIL:
VAL_INDEX(value) = (REBCNT)tail;
break;
case A_HEADQ:
DECIDE(index == 0);
case A_TAILQ:
DECIDE(index >= tail);
case A_PASTQ:
DECIDE(index > tail);
case A_NEXT:
if (index < tail) VAL_INDEX(value)++;
break;
case A_BACK:
if (index > 0) VAL_INDEX(value)--;
break;
case A_SKIP:
case A_AT:
len = Get_Num_Arg(arg);
{
REBI64 i = (REBI64)index + (REBI64)len;
if (action == A_SKIP) {
if (IS_LOGIC(arg)) i--;
} else { // A_AT
if (len > 0) i--;
}
if (i > (REBI64)tail) i = (REBI64)tail;
else if (i < 0) i = 0;
VAL_INDEX(value) = (REBCNT)i;
}
break;
/*
case A_ATZ:
len = Get_Num_Arg(arg);
{
REBI64 idx = Add_Max(0, index, len, MAX_I32);
if (idx < 0) idx = 0;
VAL_INDEX(value) = (REBCNT)idx;
}
break;
*/
case A_INDEXQ:
SET_INTEGER(DS_RETURN, ((REBI64)index) + 1);
return R_RET;
case A_LENGTHQ:
SET_INTEGER(DS_RETURN, tail > index ? tail - index : 0);
return R_RET;
case A_REMOVE:
// /PART length
TRAP_PROTECT(VAL_SERIES(value));
len = DS_REF(2) ? Partial(value, 0, DS_ARG(3), 0) : 1;
index = (REBINT)VAL_INDEX(value);
if (index < tail && len != 0)
Remove_Series(VAL_SERIES(value), VAL_INDEX(value), len);
break;
case A_ADD: // Join_Strings(value, arg);
case A_SUBTRACT: // "test this" - 10
case A_MULTIPLY: // "t" * 4 = "tttt"
case A_DIVIDE:
case A_REMAINDER:
case A_POWER:
case A_ODDQ:
case A_EVENQ:
case A_ABSOLUTE:
Trap_Action(VAL_TYPE(value), action);
default:
return -1;
}
DS_RET_VALUE(value);
return R_RET;
is_false:
return R_FALSE;
is_true:
return R_TRUE;
}
