/* --- Compatibility ------------------------------------------------------- */
+/* perl 5.23.8 onwards has a revamped context system */
+#define SU_HAS_NEW_CXT XSH_HAS_PERL(5, 23, 8)
+
#ifndef dVAR
# define dVAR dNOOP
#endif
I32 cxix;
- I32 target_depth;
- CV *target;
-
CV *callback;
CV *renamed;
+#if SU_HAS_NEW_CXT
+ U8 *cxtypes; /* array of saved context types */
+ I32 gap; /* how many contexts have temporarily CXt_NULLed out*/
+ AV* argarray; /* the PL_curpad[0] of the uplevel sub */
+#else
+ I32 target_depth;
+ CV *target;
PERL_SI *si;
PERL_SI *old_curstackinfo;
AV *old_mainstack;
+ OP *old_op;
+ bool old_catch;
+ bool died;
+#endif
COP *old_curcop;
- OP *old_op;
#if SU_UPLEVEL_HIJACKS_RUNOPS
runops_proc_t old_runops;
#endif
- bool old_catch;
-
- bool died;
} su_uplevel_ud;
+#if SU_HAS_NEW_CXT
+/* used to flag a context stack entry whose type has been temporarily
+ * set to CXt_NULL. It relies on perl not using this value for real
+ * CXt_NULL entries.
+ */
+# define CXp_SU_UPLEVEL_NULLED 0x20
+#endif
+
static su_uplevel_ud *su_uplevel_ud_new(pTHX) {
#define su_uplevel_ud_new() su_uplevel_ud_new(aTHX)
su_uplevel_ud *sud;
sud->tmp_uid_storage.used = 0;
sud->tmp_uid_storage.alloc = 0;
+#if !SU_HAS_NEW_CXT
Newx(si, 1, PERL_SI);
si->si_stack = newAV();
AvREAL_off(si->si_stack);
si->si_cxmax = -1;
sud->si = si;
+#endif
return sud;
}
static void su_uplevel_ud_delete(pTHX_ su_uplevel_ud *sud) {
#define su_uplevel_ud_delete(S) su_uplevel_ud_delete(aTHX_ (S))
+
+#if !SU_HAS_NEW_CXT
PERL_SI *si = sud->si;
Safefree(si->si_cxstack);
SvREFCNT_dec(si->si_stack);
Safefree(si);
+#endif
Safefree(sud->tmp_uid_storage.map);
/* --- Global data --------------------------------------------------------- */
typedef struct {
- char *stack_placeholder;
su_unwind_storage unwind_storage;
su_yield_storage yield_storage;
su_uplevel_storage uplevel_storage;
new_cxt->uplevel_storage.top = NULL;
new_cxt->uplevel_storage.root = NULL;
new_cxt->uplevel_storage.count = 0;
-
new_cxt->uid_storage.map = NULL;
new_cxt->uid_storage.used = 0;
new_cxt->uid_storage.alloc = 0;
/* --- Stack manipulations ------------------------------------------------- */
-#define SU_SAVE_PLACEHOLDER() save_pptr(&XSH_CXT.stack_placeholder)
+/* how many slots on the save stack various save types take up */
+
+#define SU_SAVE_DESTRUCTOR_SIZE 3 /* SAVEt_DESTRUCTOR_X */
+#define SU_SAVE_SCALAR_SIZE 3 /* SAVEt_SV */
+#define SU_SAVE_ARY_SIZE 3 /* SAVEt_AV */
+#define SU_SAVE_AELEM_SIZE 4 /* SAVEt_AELEM */
+#define SU_SAVE_HASH_SIZE 3 /* SAVEt_HV */
+#define SU_SAVE_HELEM_SIZE 4 /* SAVEt_HELEM */
+#define SU_SAVE_HDELETE_SIZE 4 /* SAVEt_DELETE */
-#define SU_SAVE_DESTRUCTOR_SIZE 3
-#define SU_SAVE_PLACEHOLDER_SIZE 3
+#define SU_SAVE_GVCV_SIZE SU_SAVE_DESTRUCTOR_SIZE
-#define SU_SAVE_SCALAR_SIZE 3
+/* the overhead of save_alloc() but not including any elements,
+ * of which there must be at least 1 */
+#if XSH_HAS_PERL(5, 14, 0)
+# define SU_SAVE_ALLOC_SIZE 1 /* SAVEt_ALLOC */
+#else
+# define SU_SAVE_ALLOC_SIZE 2 /* SAVEt_ALLOC */
+#endif
-#define SU_SAVE_ARY_SIZE 3
-#define SU_SAVE_AELEM_SIZE 4
#ifdef SAVEADELETE
-# define SU_SAVE_ADELETE_SIZE 3
+# define SU_SAVE_ADELETE_SIZE 3 /* SAVEt_ADELETE */
#else
-# define SU_SAVE_ADELETE_SIZE SU_SAVE_DESTRUCTOR_SIZE
+# define SU_SAVE_ADELETE_SIZE SU_SAVE_DESTRUCTOR_SIZE
#endif
+
+/* (NB: it was 4 between 5.13.1 and 5.13.7) */
+#if XSH_HAS_PERL(5, 8, 9)
+# define SU_SAVE_GP_SIZE 3 /* SAVEt_GP */
+# else
+# define SU_SAVE_GP_SIZE 6 /* SAVEt_GP */
+#endif
+
+/* sometimes we don't know in advance whether we're saving or deleting
+ * an array/hash element. So include enough room for a variable-sized
+ * save_alloc() to pad it to a fixed size.
+ */
+
#if SU_SAVE_AELEM_SIZE < SU_SAVE_ADELETE_SIZE
-# define SU_SAVE_AELEM_OR_ADELETE_SIZE SU_SAVE_ADELETE_SIZE
+# define SU_SAVE_AELEM_OR_ADELETE_SIZE \
+ (SU_SAVE_ADELETE_SIZE + SU_SAVE_ALLOC_SIZE + 1)
+#elif SU_SAVE_AELEM_SIZE > SU_SAVE_ADELETE_SIZE
+# define SU_SAVE_AELEM_OR_ADELETE_SIZE \
+ (SU_SAVE_AELEM_SIZE + SU_SAVE_ALLOC_SIZE + 1)
#else
# define SU_SAVE_AELEM_OR_ADELETE_SIZE SU_SAVE_AELEM_SIZE
#endif
-#define SU_SAVE_HASH_SIZE 3
-#define SU_SAVE_HELEM_SIZE 4
-#define SU_SAVE_HDELETE_SIZE 4
#if SU_SAVE_HELEM_SIZE < SU_SAVE_HDELETE_SIZE
-# define SU_SAVE_HELEM_OR_HDELETE_SIZE SU_SAVE_HDELETE_SIZE
+# define SU_SAVE_HELEM_OR_HDELETE_SIZE \
+ (SU_SAVE_HDELETE_SIZE + SU_SAVE_ALLOC_SIZE + 1)
+#elif SU_SAVE_HELEM_SIZE > SU_SAVE_HDELETE_SIZE
+# define SU_SAVE_HELEM_OR_HDELETE_SIZE \
+ (SU_SAVE_HELEM_SIZE + SU_SAVE_ALLOC_SIZE + 1)
#else
# define SU_SAVE_HELEM_OR_HDELETE_SIZE SU_SAVE_HELEM_SIZE
#endif
-#define SU_SAVE_GVCV_SIZE SU_SAVE_DESTRUCTOR_SIZE
-
-#if !XSH_HAS_PERL(5, 8, 9)
-# define SU_SAVE_GP_SIZE 6
-#elif !XSH_HAS_PERL(5, 13, 0) || (SU_RELEASE && XSH_HAS_PERL_EXACT(5, 13, 0))
-# define SU_SAVE_GP_SIZE 3
-#elif !XSH_HAS_PERL(5, 13, 8)
-# define SU_SAVE_GP_SIZE 4
-#else
-# define SU_SAVE_GP_SIZE 3
-#endif
-
#ifndef SvCANEXISTDELETE
# define SvCANEXISTDELETE(sv) \
(!SvRMAGICAL(sv) \
return;
}
- if (preeminent)
+ if (preeminent) {
save_helem(hv, keysv, svp);
- else {
+ } else {
STRLEN keylen;
const char * const key = SvPV_const(keysv, keylen);
SAVEDELETE(hv, savepvn(key, keylen),
/* --- Actions ------------------------------------------------------------- */
typedef struct {
- U8 type;
- U8 private;
- U8 pad;
+ I32 orig_ix; /* original savestack_ix */
+ I32 offset; /* how much we bumped this savestack index */
+} su_ud_origin_elem;
+
+typedef struct {
+ U8 type;
+ U8 private;
/* spare */
- I32 depth;
- I32 *origin;
+ I32 depth;
+ su_ud_origin_elem *origin;
} su_ud_common;
#define SU_UD_TYPE(U) (((su_ud_common *) (U))->type)
#define SU_UD_PRIVATE(U) (((su_ud_common *) (U))->private)
-#define SU_UD_PAD(U) (((su_ud_common *) (U))->pad)
#define SU_UD_DEPTH(U) (((su_ud_common *) (U))->depth)
#define SU_UD_ORIGIN(U) (((su_ud_common *) (U))->origin)
dSP;
- XSH_D(su_debug_log("@@@ call scope_ix=%2d save_ix=%2d\n",
+ XSH_D(xsh_debug_log("@@@ call scope_ix=%2d save_ix=%2d\n",
PL_scopestack_ix, PL_savestack_ix));
ENTER;
static I32 su_ud_localize_init(pTHX_ su_ud_localize *ud, SV *sv, SV *val, SV *elem) {
#define su_ud_localize_init(UD, S, V, E) su_ud_localize_init(aTHX_ (UD), (S), (V), (E))
- UV deref = 0;
- svtype t = SVt_NULL;
- I32 size;
+ int take_ref = 0;
+ svtype t = SVt_NULL;
+ I32 size;
SvREFCNT_inc_simple_void(sv);
if (SvTYPE(sv) >= SVt_PVGV) {
+ if (SvFAKE(sv)) {
+ sv_force_normal(sv);
+ goto string_spec;
+ }
+
if (!val || !SvROK(val)) { /* local *x; or local *x = $val; */
t = SVt_PVGV;
} else { /* local *x = \$val; */
t = SvTYPE(SvRV(val));
- deref = 1;
}
} else if (SvROK(sv)) {
croak("Invalid %s reference as the localization target",
sv_reftype(SvRV(sv), 0));
} else {
STRLEN len, l;
- const char *p = SvPV_const(sv, len), *s;
+ const char *p, *s;
+string_spec:
+ p = SvPV_const(sv, len);
for (s = p, l = len; l > 0 && isSPACE(*s); ++s, --l) { }
if (!l) {
l = len;
if (t != SVt_NULL) {
++s;
--l;
+ if (t == SVt_PV)
+ take_ref = 1;
} else if (val) { /* t == SVt_NULL, type can't be inferred from the sigil */
if (SvROK(val) && !sv_isobject(val)) {
t = SvTYPE(SvRV(val));
- deref = 1;
} else {
t = SvTYPE(val);
+ take_ref = 1;
}
}
+
SvREFCNT_dec(sv);
sv = newSVpvn(s, l);
}
case SVt_PVAV:
size = elem ? SU_SAVE_AELEM_OR_ADELETE_SIZE
: SU_SAVE_ARY_SIZE;
- deref = 0;
break;
case SVt_PVHV:
size = elem ? SU_SAVE_HELEM_OR_HDELETE_SIZE
: SU_SAVE_HASH_SIZE;
- deref = 0;
break;
case SVt_PVGV:
size = SU_SAVE_GP_SIZE;
- deref = 0;
break;
case SVt_PVCV:
size = SU_SAVE_GVCV_SIZE;
- deref = 0;
break;
default:
size = SU_SAVE_SCALAR_SIZE;
break;
}
- /* When deref is set, val isn't NULL */
SU_UD_PRIVATE(ud) = t;
ud->sv = sv;
- ud->val = val ? newSVsv(deref ? SvRV(val) : val) : NULL;
+ if (val) {
+ val = newSVsv(val);
+ ud->val = take_ref ? newRV_noinc(val) : val;
+ } else {
+ ud->val = NULL;
+ }
ud->elem = SvREFCNT_inc(elem);
return size;
if (SvTYPE(sv) >= SVt_PVGV) {
gv = (GV *) sv;
} else {
+/* new perl context implementation frees savestack *before* restoring
+ * PL_curcop. Temporarily restore it prematurely to make gv_fetch*
+ * looks up unqualified var names in the caller's package */
+#if SU_HAS_NEW_CXT
+ COP *old_cop = PL_curcop;
+ PL_curcop = CX_CUR()->blk_oldcop;
+#endif
+
#ifdef gv_fetchsv
gv = gv_fetchsv(sv, GV_ADDMULTI, t);
#else
- STRLEN len;
- const char *name = SvPV_const(sv, len);
- gv = gv_fetchpvn_flags(name, len, GV_ADDMULTI, t);
+ {
+ STRLEN len;
+ const char *name = SvPV_const(sv, len);
+ gv = gv_fetchpvn_flags(name, len, GV_ADDMULTI, t);
+ }
+#endif
+
+#if SU_HAS_NEW_CXT
+ CX_CUR()->blk_oldcop = old_cop;
#endif
}
XSH_D({
SV *z = newSV(0);
SvUPGRADE(z, t);
- su_debug_log("%p: === localize a %s\n",ud, sv_reftype(z, 0));
- su_debug_log("%p: depth=%2d scope_ix=%2d save_ix=%2d\n",
- ud, SU_UD_DEPTH(ud), PL_scopestack_ix, PL_savestack_ix);
+ xsh_debug_log("%p: === localize a %s\n", ud, sv_reftype(z, 0));
+ xsh_debug_log("%p: depth=%2d scope_ix=%2d save_ix=%2d\n",
+ ud, SU_UD_DEPTH(ud), PL_scopestack_ix, PL_savestack_ix);
SvREFCNT_dec(z);
});
if (elem) {
su_save_aelem(GvAV(gv), elem, val);
return;
- } else
+ } else {
save_ary(gv);
+ }
break;
case SVt_PVHV:
if (elem) {
su_save_helem(GvHV(gv), elem, val);
return;
- } else
+ } else {
save_hash(gv);
+ }
break;
case SVt_PVGV:
save_gp(gv, 1); /* hide previous entry in symtab */
su_save_gvcv(gv);
break;
default:
- gv = (GV *) save_scalar(gv);
+ save_scalar(gv);
break;
}
/* --- Pop a context back -------------------------------------------------- */
#ifdef DEBUGGING
-# define SU_CXNAME(C) PL_block_type[CxTYPE(C)]
+# define SU_CX_TYPENAME(T) PL_block_type[(T)]
#else
-# if XSH_HAS_PERL(5, 11, 0)
+# if XSH_HAS_PERL(5, 23, 8)
static const char *su_block_type[] = {
"NULL",
"WHEN",
"BLOCK",
"GIVEN",
- "LOOP_FOR",
- "LOOP_PLAIN",
+ "LOOP_ARY",
"LOOP_LAZYSV",
"LOOP_LAZYIV",
+ "LOOP_LIST",
+ "LOOP_PLAIN",
"SUB",
"FORMAT",
"EVAL",
"SUBST"
};
-# elif XSH_HAS_PERL(5, 9, 3)
+# elif XSH_HAS_PERL(5, 11, 0)
static const char *su_block_type[] = {
"NULL",
- "SUB",
- "EVAL",
"WHEN",
- "SUBST",
"BLOCK",
- "FORMAT",
"GIVEN",
"LOOP_FOR",
"LOOP_PLAIN",
"LOOP_LAZYSV",
- "LOOP_LAZYIV"
+ "LOOP_LAZYIV",
+ "SUB",
+ "FORMAT",
+ "EVAL",
+ "SUBST"
+};
+# elif XSH_HAS_PERL(5, 10, 0)
+static const char *su_block_type[] = {
+ "NULL",
+ "SUB",
+ "EVAL",
+ "LOOP",
+ "SUBST",
+ "BLOCK",
+ "FORMAT"
+ "WHEN",
+ "GIVEN"
};
# else
static const char *su_block_type[] = {
"EVAL",
"LOOP",
"SUBST",
- "BLOCK"
+ "BLOCK",
+ "FORMAT"
};
# endif
-# define SU_CXNAME(C) su_block_type[CxTYPE(C)]
+# define SU_CX_TYPENAME(T) su_block_type[(T)]
#endif
+#define SU_CXNAME(C) SU_CX_TYPENAME(CxTYPE(C))
+
+#if XSH_DEBUG
+
+/* for debugging. These indicate how many ENTERs each context type
+ * does before the PUSHBLOCK */
+
+static const int su_cxt_enter_count[] = {
+# if XSH_HAS_PERL(5, 23, 8)
+ 0 /* context pushes no longer do ENTERs */
+# elif XSH_HAS_PERL(5, 11, 0)
+ /* NULL WHEN BLOCK GIVEN LOOP_FOR LOOP_PLAIN LOOP_LAZYSV
+ * LOOP_LAZYIV SUB FORMAT EVAL SUBST */
+ 0, 1, 1, 1, 2, 2, 2, 2, 1, 1, 1, 0
+# elif XSH_HAS_PERL(5, 10, 0)
+ /* NULL SUB EVAL LOOP SUBST BLOCK FORMAT WHEN GIVEN */
+ 0, 1, 1, 2, 0, 1, 1, 1, 1
+# else
+ /* NULL SUB EVAL LOOP SUBST BLOCK FORMAT */
+ 0, 1, 1, 2, 0, 1, 1
+# endif
+};
+
+#endif /* XSH_DEBUG */
+
+/* push at least 'size' slots worth of padding onto the savestack */
+
+static void su_ss_push_padding(pTHX_ void *ud, I32 size) {
+#define su_ss_push_padding(U, S) su_ss_push_padding(aTHX_ (U), (S))
+ if (size <= 0)
+ return;
+
+ if (size < SU_SAVE_ALLOC_SIZE + 1) /* minimum possible SAVEt_ALLOC */
+ size = SU_SAVE_ALLOC_SIZE + 1;
+
+ XSH_D(xsh_debug_log(
+ "%p: push %2d padding at save_ix=%d\n",
+ ud, size, PL_savestack_ix));
+
+ save_alloc((size - SU_SAVE_ALLOC_SIZE) * sizeof(*PL_savestack), 0);
+
+ return;
+}
+
+static void su_pop(pTHX_ void *ud);
+
+/* push an su_pop destructor onto the savestack with suitable padding.
+ * first indicates that this is the first push of a destructor */
+
+static void su_ss_push_destructor(pTHX_ void *ud, I32 depth, bool first) {
+#define su_ss_push_destructor(U, D, F) su_ss_push_destructor(aTHX_ (U), (D), (F))
+ su_ud_origin_elem *origin = SU_UD_ORIGIN(ud);
+
+ assert(first || origin[depth+1].orig_ix == PL_savestack_ix);
+
+ su_ss_push_padding(ud,
+ (origin[depth].orig_ix + origin[depth].offset) - PL_savestack_ix);
+
+ XSH_D(xsh_debug_log(
+ "%p: push destructor at save_ix=%d depth=%d scope_ix=%d\n",
+ ud, PL_savestack_ix, depth, PL_scopestack_ix));
+
+ SAVEDESTRUCTOR_X(su_pop, ud);
+
+ assert(first ||
+ PL_savestack_ix <= origin[depth+1].orig_ix + origin[depth+1].offset);
+
+ return;
+}
+
+/* this is called during each leave_scope() via SAVEDESTRUCTOR_X */
+
static void su_pop(pTHX_ void *ud) {
#define su_pop(U) su_pop(aTHX_ (U))
- I32 depth, base, mark, *origin;
- depth = SU_UD_DEPTH(ud);
-
- XSH_D(su_debug_log(
- "%p: --- pop a %s\n"
- "%p: leave scope at depth=%2d scope_ix=%2d cur_top=%2d cur_base=%2d\n",
- ud, SU_CXNAME(cxstack + cxstack_ix),
- ud, depth, PL_scopestack_ix,PL_savestack_ix,PL_scopestack[PL_scopestack_ix]
- ));
+ I32 depth, base, mark;
+ su_ud_origin_elem *origin;
+ depth = SU_UD_DEPTH(ud);
origin = SU_UD_ORIGIN(ud);
- mark = origin[depth];
- base = origin[depth - 1];
- XSH_D(su_debug_log("%p: original scope was %*c top=%2d base=%2d\n",
- ud, 24, ' ', mark, base));
-
- if (base < mark) {
-#if XSH_HAS_PERL(5, 19, 4)
- I32 save = -1;
- PERL_CONTEXT *cx;
-#endif
+ XSH_D(xsh_debug_log("%p: ### su_pop: depth=%d\n", ud, depth));
- XSH_D(su_debug_log("%p: clear leftovers\n", ud));
+ depth--;
+ mark = PL_savestack_ix;
+ base = origin[depth].orig_ix;
-#if XSH_HAS_PERL(5, 19, 4)
- cx = cxstack + cxstack_ix;
- if (CxTYPE(cx) == CXt_SUB || CxTYPE(cx) == CXt_FORMAT)
- save = PL_scopestack[cx->blk_oldscopesp - 1];
-#endif
+ XSH_D(xsh_debug_log("%p: residual savestack frame is %d(+%d)..%d\n",
+ ud, base, origin[depth].offset, mark));
- PL_savestack_ix = mark;
+ if (base < mark) {
+ XSH_D(xsh_debug_log("%p: clear leftovers at %d..%d\n", ud, base, mark));
leave_scope(base);
-
-#if XSH_HAS_PERL(5, 19, 4)
- if (CxTYPE(cx) == CXt_SUB || CxTYPE(cx) == CXt_FORMAT)
- PL_scopestack[cx->blk_oldscopesp - 1] = save;
-#endif
}
- PL_savestack_ix = base;
+ assert(PL_savestack_ix == base);
- SU_UD_DEPTH(ud) = --depth;
+ SU_UD_DEPTH(ud) = depth;
if (depth > 0) {
- U8 pad;
-
- if ((pad = SU_UD_PAD(ud)) > 0) {
- dXSH_CXT;
- do {
- XSH_D(su_debug_log(
- "%p: push a pad slot at depth=%2d scope_ix=%2d save_ix=%2d\n",
- ud, depth, PL_scopestack_ix, PL_savestack_ix));
- SU_SAVE_PLACEHOLDER();
- } while (--pad);
- }
-
- XSH_D(su_debug_log(
- "%p: push destructor at depth=%2d scope_ix=%2d save_ix=%2d\n",
- ud, depth, PL_scopestack_ix, PL_savestack_ix));
- SAVEDESTRUCTOR_X(su_pop, ud);
+ su_ss_push_destructor(ud, depth-1, 0);
} else {
+ I32 offset = origin[0].offset; /* grab value before origin is freed */
switch (SU_UD_TYPE(ud)) {
case SU_UD_TYPE_REAP: {
- XSH_D(su_debug_log("%p: === reap\n%p: depth=%2d scope_ix=%2d save_ix=%2d\n",
- ud, ud, SU_UD_DEPTH(ud), PL_scopestack_ix, PL_savestack_ix));
+ XSH_D(
+ xsh_debug_log("%p: === reap\n%p: depth=%d scope_ix=%d save_ix=%d\n",
+ ud, ud, SU_UD_DEPTH(ud), PL_scopestack_ix, PL_savestack_ix)
+ );
SAVEDESTRUCTOR_X(su_call, SU_UD_REAP_CB(ud));
SU_UD_FREE(ud);
break;
SAVEDESTRUCTOR_X(su_uid_drop, ud);
break;
}
+ /* perl 5.23.8 onwards is very fussy about the return from leave_scope()
+ * leaving PL_savestack_ix where it expects it to be */
+ if (PL_savestack_ix < base + offset) {
+ I32 gap = (base + offset) - PL_savestack_ix;
+ assert(gap >= SU_SAVE_ALLOC_SIZE + 1);
+ su_ss_push_padding(ud, gap);
+ }
+ assert(PL_savestack_ix == base + offset);
}
- XSH_D(su_debug_log("%p: --- end pop: cur_top=%2d == cur_base=%2d\n",
- ud, PL_savestack_ix, PL_scopestack[PL_scopestack_ix]));
+ XSH_D(xsh_debug_log("%p: end pop: ss_ix=%d\n", ud, PL_savestack_ix));
}
/* --- Initialize the stack and the action userdata ------------------------ */
-static I32 su_init(pTHX_ void *ud, I32 cxix, I32 size) {
+static void su_init(pTHX_ void *ud, I32 cxix, I32 size) {
#define su_init(U, C, S) su_init(aTHX_ (U), (C), (S))
- I32 i, depth, offset, base, *origin;
- U8 pad;
-
- XSH_D(su_debug_log("%p: ### init for cx %d\n", ud, cxix));
-
- /* su_pop() is going to be called from leave_scope(), so before pushing the
- * next callback, we'll want to flush the current scope stack slice first.
- * However, if we want the next callback not to be processed immediately by
- * the current leave_scope(), we'll need to hide it by artificially
- * incrementing the scope stack marker before. For the intermediate bumps,
- * we will only need a bump of SU_SAVE_DESTRUCTOR_SIZE items, but for the
- * last one we will need a bump of size items. However, in order to preserve
- * the natural ordering between scope stack markers, we cannot bump lower
- * markers more than higher ones. This is why we bump the intermediate markers
- * by the smallest multiple of SU_SAVE_PLACEHOLDER_SIZE greater or equal to
- * max(SU_SAVE_DESTRUCTOR_SIZE, size). */
-
- if (size <= SU_SAVE_DESTRUCTOR_SIZE) {
- pad = 0;
- } else {
- I32 extra = size - SU_SAVE_DESTRUCTOR_SIZE;
- pad = extra / SU_SAVE_PLACEHOLDER_SIZE;
- if (extra % SU_SAVE_PLACEHOLDER_SIZE)
- ++pad;
- }
- offset = SU_SAVE_DESTRUCTOR_SIZE + SU_SAVE_PLACEHOLDER_SIZE * pad;
- XSH_D(su_debug_log("%p: size=%d pad=%d offset=%d\n", ud, size, pad, offset));
-
- depth = PL_scopestack_ix - cxstack[cxix].blk_oldscopesp;
- XSH_D(su_debug_log("%p: going down to depth %d\n", ud, depth));
-
- /* We need to bump all the intermediary stack markers just in case an
- * exception is thrown before the target scope is reached. Indeed, in this
- * case there might be arbitrary many scope frames flushed at the same time,
- * and since we cannot know in advance whether this will happen or not, we
- * have to make sure the final frame is protected for the actual action. But
- * of course, in order to do that, we also need to bump all the previous stack
- * markers. If not for this, it should have been possible to just bump the two
- * next frames in su_pop(). */
-
- Newx(origin, depth + 1, I32);
- base = PL_scopestack_ix - depth;
- origin[0] = PL_scopestack[base];
- PL_scopestack[base] += size;
- for (i = 1; i < depth; ++i) {
- I32 j = i + base;
- /* origin[depth - i] == PL_scopestack[PL_scopestack_ix - i] */
- origin[i] = PL_scopestack[j];
- PL_scopestack[j] += offset;
- }
- origin[depth] = PL_savestack_ix;
+ su_ud_origin_elem *origin;
+ I32 i, depth;
+ I32 cur_cx_ix, cur_scope_ix;
+
+ XSH_D(xsh_debug_log("%p: ### su_init(cxix=%d, size=%d)\n", ud, cxix, size));
+
+ depth = PL_scopestack_ix - cxstack[cxix].blk_oldscopesp;
+#if SU_HAS_NEW_CXT
+ depth += (cxstack_ix - cxix); /* each context frame holds 1 scope */
+#endif
+ XSH_D(xsh_debug_log(
+ "%p: going down by depth=%d with scope_ix=%d save_ix=%d\n",
+ ud, depth, PL_scopestack_ix, PL_savestack_ix));
+
+ /* Artificially increase the position of each savestack frame boundary
+ * to make space to squeeze in a 'size' sized entry (first one) or a
+ * SU_SAVE_DESTRUCTOR_SIZE sized entry (higher ones). In addition, make
+ * sure that each boundary is higher than the previous, so that *every*
+ * scope exit triggers a call to leave_scope(). Each scope exit will call
+ * the su_pop() destructor, which is responsible for: freeing any
+ * savestack entries below the artificially raised floor; then pushing a
+ * new destructor in that space. On the final pop, the "real" savestack
+ * action is pushed rather than another destructor.
+ *
+ * On older perls, savestack frame boundaries are specified by a range of
+ * scopestack entries (one per ENTER). Each scope entry typically does
+ * one or two ENTERs followed by a PUSHBLOCK. Thus the
+ * cx->blku_oldscopesp field set by the PUSHBLOCK points to the next free
+ * slot, which is one above the last of the ENTERs. In the debugging
+ * output we indicate that by bracketing the ENTERs directly preceding
+ * that context push with dashes, e.g.:
+ *
+ * 13b98d8: ------------------
+ * 13b98d8: ENTER origin[0] scope[3] savestack=3+3
+ * 13b98d8: ENTER origin[1] scope[4] savestack=9+3
+ * 13b98d8: cx=1 LOOP_LAZYIV
+ * 13b98d8: ------------------
+ *
+ * In addition to context stack pushes, other activities can push ENTERs
+ * too, such as grep expr and XS sub calls.
+ *
+ * For newer perls (SU_HAS_NEW_CXT), a context push no longer does any
+ * ENTERs; instead the old savestack position is stored in the new
+ * cx->blk_oldsaveix field; thus this field specifies an additional
+ * savestack frame boundary point in addition to the scopestack entries,
+ * and will also need adjusting.
+ *
+ * We record the original and modified position of each boundary in the
+ * origin array.
+ *
+ * The passed cxix argument represents the scope we wish to inject into;
+ * we have to adjust all the savestack frame boundaries above (but not
+ * including) that context.
+ */
+
+ Newx(origin, depth, su_ud_origin_elem);
+
+ cur_cx_ix = cxix;
+ cur_scope_ix = cxstack[cxix].blk_oldscopesp;
+
+#if SU_HAS_NEW_CXT
+ XSH_D(xsh_debug_log("%p: cx=%-2d %-11s\n",
+ ud, cur_cx_ix, SU_CXNAME(cxstack+cur_cx_ix)));
+ cur_cx_ix++;
+#endif
+
+ for (i = 0; cur_scope_ix < PL_scopestack_ix; i++) {
+ I32 *ixp;
+ I32 offset;
+
+#if SU_HAS_NEW_CXT
+
+ if (cur_cx_ix <= cxstack_ix
+ && cur_scope_ix == cxstack[cur_cx_ix].blk_oldscopesp)
+ ixp = &(cxstack[cur_cx_ix++].blk_oldsaveix);
+ else
+ ixp = &PL_scopestack[cur_scope_ix++]; /* an ENTER pushed after cur context */
- SU_UD_PAD(ud) = pad;
- SU_UD_DEPTH(ud) = depth;
- SU_UD_ORIGIN(ud) = origin;
+#else
- /* Make sure the first destructor fires by pushing enough fake slots on the
- * stack. */
- if (PL_savestack_ix + SU_SAVE_DESTRUCTOR_SIZE
- <= PL_scopestack[PL_scopestack_ix - 1]) {
- dXSH_CXT;
- do {
- XSH_D(su_debug_log("%p: push a fake slot at scope_ix=%2d save_ix=%2d\n",
- ud, PL_scopestack_ix, PL_savestack_ix));
- SU_SAVE_PLACEHOLDER();
- } while (PL_savestack_ix + SU_SAVE_DESTRUCTOR_SIZE
- <= PL_scopestack[PL_scopestack_ix - 1]);
- }
- XSH_D(su_debug_log("%p: push first destructor at scope_ix=%2d save_ix=%2d\n",
- ud, PL_scopestack_ix, PL_savestack_ix));
- SAVEDESTRUCTOR_X(su_pop, ud);
+ XSH_D({
+ if (cur_cx_ix <= cxstack_ix) {
+ if (cur_scope_ix == cxstack[cur_cx_ix].blk_oldscopesp) {
+ xsh_debug_log("%p: cx=%-2d %s\n%p: ------------------\n",
+ ud, cur_cx_ix, SU_CXNAME(cxstack+cur_cx_ix), ud);
+ cur_cx_ix++;
+ }
+ else if (cur_scope_ix + su_cxt_enter_count[CxTYPE(cxstack+cur_cx_ix)]
+ == cxstack[cur_cx_ix].blk_oldscopesp)
+ xsh_debug_log("%p: ------------------\n", ud);
+ }
+ });
- XSH_D({
- for (i = 0; i <= depth; ++i) {
- I32 j = PL_scopestack_ix - i;
- su_debug_log("%p: depth=%2d scope_ix=%2d saved_floor=%2d new_floor=%2d\n",
- ud, i, j, origin[depth - i],
- i == 0 ? PL_savestack_ix : PL_scopestack[j]);
+ ixp = &PL_scopestack[cur_scope_ix++];
+
+#endif
+
+ if (i == 0) {
+ offset = size;
+ } else {
+ /* we have three constraints to satisfy:
+ * 1) Each adjusted offset must be at least SU_SAVE_DESTRUCTOR_SIZE
+ * above its unadjusted boundary, so that there is space to inject a
+ * destructor into the outer scope.
+ * 2) Each adjusted boundary must be at least SU_SAVE_DESTRUCTOR_SIZE
+ * higher than the previous adjusted boundary, so that a new
+ * destructor can be added below the Nth adjusted frame boundary,
+ * but be within the (N-1)th adjusted frame and so be triggered on
+ * the next scope exit;
+ * 3) If the adjustment needs to be greater than SU_SAVE_DESTRUCTOR_SIZE,
+ * then it should be greater by an amount of at least the minimum
+ * pad side, so a destructor and padding can be pushed.
+ */
+ I32 pad;
+ offset = SU_SAVE_DESTRUCTOR_SIZE; /* rule 1 */
+ pad = (origin[i-1].orig_ix + origin[i-1].offset) + offset
+ - (*ixp + offset);
+ if (pad > 0) { /* rule 2 */
+ if (pad < SU_SAVE_ALLOC_SIZE + 1) /* rule 3 */
+ pad = SU_SAVE_ALLOC_SIZE + 1;
+ offset += pad;
+ }
}
- });
- return depth;
+ origin[i].offset = offset;
+ origin[i].orig_ix = *ixp;
+ *ixp += offset;
+
+#if SU_HAS_NEW_CXT
+ XSH_D({
+ if (ixp == &PL_scopestack[cur_scope_ix-1])
+ xsh_debug_log(
+ "%p: ENTER origin[%d] scope[%d] savestack=%d+%d\n",
+ ud, i, cur_scope_ix, origin[i].orig_ix, origin[i].offset);
+ else
+ xsh_debug_log(
+ "%p: cx=%-2d %-11s origin[%d] scope[%d] savestack=%d+%d\n",
+ ud, cur_cx_ix-1, SU_CXNAME(cxstack+cur_cx_ix-1),
+ i, cur_scope_ix, origin[i].orig_ix, origin[i].offset);
+ });
+#else
+ XSH_D(xsh_debug_log(
+ "%p: ENTER origin[%d] scope[%d] savestack=%d+%d\n",
+ ud, i, cur_scope_ix, origin[i].orig_ix, origin[i].offset));
+#endif
+
+ }
+
+ assert(i == depth);
+
+ SU_UD_DEPTH(ud) = depth;
+ SU_UD_ORIGIN(ud) = origin;
+
+ su_ss_push_destructor(ud, depth-1, 1);
}
/* --- Unwind stack -------------------------------------------------------- */
dounwind(cxix);
mark = PL_markstack[cxstack[cxix].blk_oldmarksp];
- *PL_markstack_ptr = PL_stack_sp - PL_stack_base - items;
+ PUSHMARK(PL_stack_sp - items);
XSH_D({
I32 gimme = GIMME_V;
- su_debug_log("%p: cx=%d gimme=%s items=%d sp=%d oldmark=%d mark=%d\n",
+ xsh_debug_log("%p: cx=%d gimme=%s items=%d sp=%d oldmark=%d mark=%d\n",
&XSH_CXT, cxix,
gimme == G_VOID ? "void" : gimme == G_ARRAY ? "list" : "scalar",
items, PL_stack_sp - PL_stack_base, *PL_markstack_ptr, mark);
U8 flags = 0;
OP *next;
- PERL_UNUSED_VAR(ud_);
-
cx = cxstack + cxix;
switch (CxTYPE(cx)) {
case CXt_BLOCK: {
o = SU_RETOP_EVAL(cx2);
break;
#if XSH_HAS_PERL(5, 11, 0)
+# if XSH_HAS_PERL(5, 23, 8)
+ case CXt_LOOP_ARY:
+ case CXt_LOOP_LIST:
+# else
case CXt_LOOP_FOR:
+# endif
case CXt_LOOP_PLAIN:
case CXt_LOOP_LAZYSV:
case CXt_LOOP_LAZYIV:
next = SU_RETOP_EVAL(cx);
break;
#if XSH_HAS_PERL(5, 11, 0)
+# if XSH_HAS_PERL(5, 23, 8)
+ case CXt_LOOP_ARY:
+ case CXt_LOOP_LIST:
+# else
case CXt_LOOP_FOR:
+# endif
case CXt_LOOP_PLAIN:
case CXt_LOOP_LAZYSV:
case CXt_LOOP_LAZYIV:
return 0;
}
-#if SU_UPLEVEL_HIJACKS_RUNOPS
+#if !SU_HAS_NEW_CXT && SU_UPLEVEL_HIJACKS_RUNOPS
static int su_uplevel_goto_runops(pTHX) {
#define su_uplevel_goto_runops() su_uplevel_goto_runops(aTHX)
#define su_at_underscore(C) PadARRAY(PadlistARRAY(CvPADLIST(C))[CvDEPTH(C)])[0]
-static void su_uplevel_restore(pTHX_ void *sus_) {
+#if SU_HAS_NEW_CXT
+
+static void su_uplevel_restore_new(pTHX_ void *sus_) {
+ su_uplevel_ud *sud = sus_;
+ PERL_CONTEXT *cx;
+ I32 i;
+ U8 *saved_cxtypes = sud->cxtypes;
+
+ for (i = 0; i < sud->gap; i++) {
+ PERL_CONTEXT *cx = cxstack + sud->cxix + i;
+ XSH_D(xsh_debug_log("su_uplevel_restore: i=%d cxix=%d type %s => %s\n",
+ i, cx-cxstack, SU_CX_TYPENAME(CxTYPE(cx)),
+ SU_CX_TYPENAME(saved_cxtypes[i] & CXTYPEMASK)));
+ cx->cx_type = saved_cxtypes[i];
+ }
+ Safefree(saved_cxtypes);
+
+ /* renamed is a copy of callback, but they share the same CvPADLIST.
+ * At this point any calls to renamed should have exited so that its
+ * depth is back to that of of callback. At this point its safe to free
+ * renamed, then undo the extra ref count that was ensuring that callback
+ * remains alive
+ */
+ assert(sud->renamed);
+ assert(sud->callback);
+
+ CvDEPTH(sud->callback)--;
+ assert(CvDEPTH(sud->callback) == CvDEPTH(sud->renamed));
+ if (!CvISXSUB(sud->renamed)) {
+ CvDEPTH(sud->renamed) = 0;
+ CvPADLIST(sud->renamed) = NULL;
+ }
+ SvREFCNT_dec(sud->renamed);
+ SvREFCNT_dec(sud->callback);
+
+ SU_UPLEVEL_RESTORE(curcop);
+
+ su_uplevel_storage_delete(sud);
+
+ return;
+}
+
+#else
+
+/* 5.23.7 and earlier */
+
+static void su_uplevel_restore_old(pTHX_ void *sus_) {
su_uplevel_ud *sud = sus_;
PERL_SI *cur = sud->old_curstackinfo;
PERL_SI *si = sud->si;
return;
}
+#endif
+
static CV *su_cv_clone(pTHX_ CV *proto, GV *gv) {
#define su_cv_clone(P, G) su_cv_clone(aTHX_ (P), (G))
dVAR;
return cv;
}
-static I32 su_uplevel(pTHX_ CV *callback, I32 cxix, I32 args) {
-#define su_uplevel(C, I, A) su_uplevel(aTHX_ (C), (I), (A))
+#if SU_HAS_NEW_CXT
+
+/* this one-shot runops "loop" is designed to be called just before
+ * execution of the first op following an uplevel()'s entersub. It gets a
+ * chance to fix up the args as seen by caller(), before immediately
+ * falling through to the previous runops loop. Note that pp_entersub is
+ * called directly by call_sv() rather than being called from a runops
+ * loop.
+ */
+
+static int su_uplevel_runops_hook_entersub(pTHX) {
+ OP *op = PL_op;
+ dXSH_CXT;
+ su_uplevel_ud *sud = XSH_CXT.uplevel_storage.top;
+
+ /* Create a new array containing a copy of the original sub's call args,
+ * then stick it in PL_curpad[0] of the current running sub so that
+ * thay will be seen by caller().
+ */
+ assert(sud);
+ if (sud->argarray) {
+ I32 fill;
+ AV *av = newAV();
+ AvREAL_off(av);
+ AvREIFY_on(av);
+
+ fill = AvFILLp(sud->argarray);
+ if (fill >= 0) {
+ av_extend(av, fill);
+ Copy(AvARRAY(sud->argarray), AvARRAY(av), fill + 1, SV *);
+ AvFILLp(av) = fill;
+ }
+
+ /* should be referenced by PL_curpad[0] and *_ */
+ assert(SvREFCNT(PL_curpad[0]) > 1);
+ SvREFCNT_dec(PL_curpad[0]);
+
+ PL_curpad[0] = (SV *) av;
+ }
+
+ /* undo the temporary runops hook and fall through to a real runops loop. */
+ assert(sud->old_runops != su_uplevel_runops_hook_entersub);
+ PL_runops = sud->old_runops;
+
+ CALLRUNOPS(aTHX);
+
+ return 0;
+}
+
+static I32 su_uplevel_new(pTHX_ CV *callback, I32 cxix, I32 args) {
+#define su_uplevel_new(CB, CX, A) su_uplevel_new(aTHX_ (CB), (CX), (A))
+ su_uplevel_ud *sud;
+ U8 *saved_cxtypes;
+ I32 i, ret;
+ I32 gimme;
+ CV *base_cv = cxstack[cxix].blk_sub.cv;
+ dSP;
+
+ assert(CxTYPE(&cxstack[cxix]) == CXt_SUB);
+
+ ENTER;
+
+ gimme = GIMME_V;
+
+ /* At this point SP points to the top arg.
+ * Shuffle the args down by one, eliminating the CV slot */
+ Move(SP - args + 1, SP - args, args, SV *);
+ SP--;
+ PUSHMARK(SP - args);
+ PUTBACK;
+
+ sud = su_uplevel_storage_new(cxix);
+
+ sud->cxix = cxix;
+ sud->callback = (CV *) SvREFCNT_inc_simple(callback);
+ sud->renamed = NULL;
+ sud->gap = cxstack_ix - cxix + 1;
+ sud->argarray = NULL;
+
+ Newx(saved_cxtypes, sud->gap, U8);
+ sud->cxtypes = saved_cxtypes;
+
+ SAVEDESTRUCTOR_X(su_uplevel_restore_new, sud);
+ SU_UPLEVEL_SAVE(curcop, cxstack[cxix].blk_oldcop);
+
+/* temporarily change the type of any contexts to NULL, so they're
+ * invisible to caller() etc. */
+ for (i = 0; i < sud->gap; i++) {
+ PERL_CONTEXT *cx = cxstack + cxix + i;
+ saved_cxtypes[i] = cx->cx_type; /* save type and flags */
+ XSH_D(xsh_debug_log("su_uplevel: i=%d cxix=%d type %-11s => %s\n",
+ i, cx-cxstack, SU_CX_TYPENAME(CxTYPE(cx)), SU_CX_TYPENAME(CXt_NULL)));
+ cx->cx_type = (CXt_NULL | CXp_SU_UPLEVEL_NULLED);
+ }
+
+ /* create a copy of the callback with a doctored name (as seen by
+ * caller). It shares the padlist with callback */
+ sud->renamed = su_cv_clone(callback, CvGV(base_cv));
+ sud->old_runops = PL_runops;
+
+ if (!CvISXSUB(sud->renamed) && CxHASARGS(&cxstack[cxix])) {
+ sud->argarray = (AV *) su_at_underscore(base_cv);
+ assert(PL_runops != su_uplevel_runops_hook_entersub);
+ /* set up a one-shot runops hook so that we can fake up the
+ * args as seen by caller() on return from pp_entersub */
+ PL_runops = su_uplevel_runops_hook_entersub;
+ }
+
+ CvDEPTH(callback)++; /* match what CvDEPTH(sud->renamed) is about to become */
+
+ ret = call_sv((SV *) sud->renamed, gimme);
+
+ LEAVE;
+
+ return ret;
+}
+
+#else
+
+static I32 su_uplevel_old(pTHX_ CV *callback, I32 cxix, I32 args) {
+#define su_uplevel_old(CB, CX, A) su_uplevel_old(aTHX_ (CB), (CX), (A))
su_uplevel_ud *sud;
const PERL_CONTEXT *cx = cxstack + cxix;
PERL_SI *si;
sud->died = 1;
sud->callback = NULL;
sud->renamed = NULL;
- SAVEDESTRUCTOR_X(su_uplevel_restore, sud);
+ SAVEDESTRUCTOR_X(su_uplevel_restore_old, sud);
si = sud->si;
* target context, plus the forthcoming arguments. */
new_mark = cx->blk_oldsp;
av_extend(si->si_stack, new_mark + 1 + args + 1);
- Copy(PL_curstack, AvARRAY(si->si_stack), new_mark + 1, SV *);
+ Copy(AvARRAY(PL_curstack), AvARRAY(si->si_stack), new_mark + 1, SV *);
AvFILLp(si->si_stack) = new_mark;
SU_POISON(AvARRAY(si->si_stack) + new_mark + 1, args + 1, SV *);
if ((PL_op = PL_ppaddr[OP_ENTERSUB](aTHX))) {
PERL_CONTEXT *sub_cx = cxstack + cxstack_ix;
+ AV *argarray = cx->blk_sub.argarray;
/* If pp_entersub() returns a non-null OP, it means that the callback is not
* an XSUB. */
sud->callback = MUTABLE_CV(SvREFCNT_inc(callback));
CvDEPTH(callback)++;
- if (CxHASARGS(cx) && cx->blk_sub.argarray) {
+ if (CxHASARGS(cx) && argarray) {
/* The call to pp_entersub() has saved the current @_ (in XS terms,
* GvAV(PL_defgv)) in the savearray member, and has created a new argarray
* with what we put on the stack. But we want to fake up the same arguments
AV *av = newAV();
AvREAL_off(av);
AvREIFY_on(av);
- av_extend(av, AvMAX(cx->blk_sub.argarray));
- AvFILLp(av) = AvFILLp(cx->blk_sub.argarray);
- Copy(AvARRAY(cx->blk_sub.argarray), AvARRAY(av), AvFILLp(av) + 1, SV *);
+ av_extend(av, AvMAX(argarray));
+ AvFILLp(av) = AvFILLp(argarray);
+ Copy(AvARRAY(argarray), AvARRAY(av), AvFILLp(av) + 1, SV *);
sub_cx->blk_sub.argarray = av;
} else {
SvREFCNT_inc_simple_void(sub_cx->blk_sub.argarray);
return ret;
}
+#endif
+
/* --- Unique context ID --------------------------------------------------- */
static su_uid *su_uid_storage_fetch(pTHX_ UV depth) {
return cxix;
}
+#if SU_HAS_NEW_CXT
+
+/* convert a physical context stack index into the logical equivalent:
+ * one that ignores all the context frames hidden by uplevel().
+ * Perl-level functions use logical args (e.g. UP takes an optional logical
+ * value and returns a logical value), while we use and store *real*
+ * values internally.
+ */
+
+static I32 su_context_real2logical(pTHX_ I32 cxix) {
+# define su_context_real2logical(C) su_context_real2logical(aTHX_ (C))
+ PERL_CONTEXT *cx;
+ I32 i, gaps = 0;
+
+ for (i = 0; i <= cxix; i++) {
+ cx = cxstack + i;
+ if (cx->cx_type == (CXt_NULL | CXp_SU_UPLEVEL_NULLED))
+ gaps++;
+ }
+
+ XSH_D(xsh_debug_log("su_context_real2logical: %d => %d\n", cxix, cxix - gaps));
+
+ return cxix - gaps;
+}
+
+/* convert a logical context stack index (one that ignores all the context
+ * frames hidden by uplevel) into the physical equivalent
+ */
+
+static I32 su_context_logical2real(pTHX_ I32 cxix) {
+# define su_context_logical2real(C) su_context_logical2real(aTHX_ (C))
+ PERL_CONTEXT *cx;
+ I32 i, seen = -1;
+
+ for (i = 0; i <= cxstack_ix; i++) {
+ PERL_CONTEXT *cx = cxstack + i;
+ if (cx->cx_type != (CXt_NULL | CXp_SU_UPLEVEL_NULLED))
+ seen++;
+ if (seen >= cxix)
+ break;
+ }
+
+ XSH_D(xsh_debug_log("su_context_logical2real: %d => %d\n", cxix, i));
+
+ if (i > cxstack_ix)
+ i = cxstack_ix;
+
+ return i;
+}
+
+#else
+# define su_context_real2logical(C) (C)
+# define su_context_logical2real(C) (C)
+#endif
static I32 su_context_normalize_up(pTHX_ I32 cxix) {
#define su_context_normalize_up(C) su_context_normalize_up(aTHX_ (C))
switch (CxTYPE(cx)) {
/* gimme is always G_ARRAY for loop contexts. */
#if XSH_HAS_PERL(5, 11, 0)
+# if XSH_HAS_PERL(5, 23, 8)
+ case CXt_LOOP_ARY:
+ case CXt_LOOP_LIST:
+# else
case CXt_LOOP_FOR:
+# endif
case CXt_LOOP_PLAIN:
case CXt_LOOP_LAZYSV:
case CXt_LOOP_LAZYIV:
}
static void xsh_user_local_setup(pTHX_ xsh_user_cxt_t *cxt) {
- cxt->stack_placeholder = NULL;
/* NewOp() calls calloc() which just zeroes the memory with memset(). */
Zero(&(cxt->unwind_storage.return_op), 1, LISTOP);
/* --- XS ------------------------------------------------------------------ */
+/* D is real; B is logical. Returns real. */
+
#define SU_GET_CONTEXT(A, B, D) \
STMT_START { \
if (items > A) { \
cxix = 0; \
else if (cxix > cxstack_ix) \
goto default_cx; \
+ cxix = su_context_logical2real(cxix); \
} else { \
default_cx: \
cxix = (D); \
/* See XS_Scope__Upper_unwind */
if (GIMME_V == G_SCALAR)
PL_stack_sp = PL_stack_base + PL_markstack_ptr[1] + 1;
+
SAVEDESTRUCTOR_X(su_yield, su_leave_name);
+
return;
}
PREINIT:
I32 cxix;
PPCODE:
- cxix = su_context_here();
+ cxix = su_context_real2logical(su_context_here());
EXTEND(SP, 1);
mPUSHi(cxix);
XSRETURN(1);
--cxix;
cxix = su_context_skip_db(cxix);
cxix = su_context_normalize_up(cxix);
+ cxix = su_context_real2logical(cxix);
} else {
warn(su_stack_smash);
}
case CXt_SUB:
if (PL_DBsub && cx->blk_sub.cv == GvCV(PL_DBsub))
continue;
+ cxix = su_context_real2logical(cxix);
mPUSHi(cxix);
XSRETURN(1);
}
default:
continue;
case CXt_EVAL:
+ cxix = su_context_real2logical(cxix);
mPUSHi(cxix);
XSRETURN(1);
}
--cxix;
cxix = su_context_skip_db(cxix);
cxix = su_context_normalize_up(cxix);
+ cxix = su_context_real2logical(cxix);
}
EXTEND(SP, 1);
mPUSHi(cxix);
if (level >= 0)
warn(su_stack_smash);
EXTEND(SP, 1);
+ cxix = su_context_real2logical(cxix);
mPUSHi(cxix);
XSRETURN(1);
/* warnings (9) */
{
SV *mask = NULL;
-#if XSH_HAS_PERL(5, 9, 4)
+#if XSH_HAS_PERL(5, 37, 6)
+ char *old_warnings = cop->cop_warnings;
+#elif XSH_HAS_PERL(5, 9, 4)
STRLEN *old_warnings = cop->cop_warnings;
#else
SV *old_warnings = cop->cop_warnings;
if (!mask)
mask = su_newmortal_pvn(WARN_ALLstring, WARNsize);
} else {
-#if XSH_HAS_PERL(5, 9, 4)
+#if XSH_HAS_PERL(5, 37, 6)
+ mask = su_newmortal_pvn((char *) old_warnings, RCPV_LEN(old_warnings));
+#elif XSH_HAS_PERL(5, 9, 4)
mask = su_newmortal_pvn((char *) (old_warnings + 1), old_warnings[0]);
#else
mask = sv_mortalcopy(old_warnings);
args = items - 2;
}
/* su_uplevel() takes care of extending the stack if needed. */
- ret = su_uplevel((CV *) code, cxix, args);
+#if SU_HAS_NEW_CXT
+ ret = su_uplevel_new((CV *) code, cxix, args);
+#else
+ ret = su_uplevel_old((CV *) code, cxix, args);
+#endif
XSRETURN(ret);
default:
break;