446 lines
19 KiB
C
446 lines
19 KiB
C
/****************************************************************
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* *
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* Copyright 2001, 2011 Fidelity Information Services, Inc *
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* *
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* This source code contains the intellectual property *
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* of its copyright holder(s), and is made available *
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* under a license. If you do not know the terms of *
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* the license, please stop and do not read further. *
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* *
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****************************************************************/
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#ifndef LVVAL_H_INCLUDED
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#define LVVAL_H_INCLUDED
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#include <stddef.h> /* for OFFSETOF macro used in the IS_OFFSET_AND_SIZE_MATCH macro */
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#include "hashtab_mname.h"
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#include "lv_tree.h"
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/* Define a few generic LV related macros. These macros work irrespective of whether the input is an unsubscripted
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* local variable (aka base variable) which is of type (lv_val *) or a subscripted local variable which is of type
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* (lvTreeNode *). All of these assume the layout of the two structures is very similar (asserted in "LV_TREE_CREATE"
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* macro). These macros will be used extensively for code centralization and to avoid code duplication.
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*
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* The macros that are only passed an LV_PTR need to ensure that it is indeed a "lv_val *" or a "lvTreeNode *".
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* The macros that are also passed an IS_BASE_VAR parameter can safely assume this to be the case since the IS_BASE_VAR
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* parameter would have been computed using the LV_IS_BAS_VAR macro which already does the ensure.
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* So we avoid the duplicate assert in these cases.
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*/
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#define SYM_IS_SYMVAL(SYM) (MV_SYM == (SYM)->ident)
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#define IS_LV_TREE(LVT) (MV_LV_TREE == ((lvTree *)LVT)->ident)
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#define LV_PARENT(LV) LV_AVLNODE_PARENT(LV)
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#define LV_AVLNODE_PARENT(PTR) (((lvTreeNode *)PTR)->tree_parent)
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#define LVT_PARENT(LVT) (((lvTree *)LVT)->sbs_parent)
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#define IS_LVAVLTREENODE(PTR) (IS_LV_TREE(LV_AVLNODE_PARENT((lv_val *)PTR)))
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#define IS_PARENT_MV_SYM(LV_PTR) (SYM_IS_SYMVAL(LV_SYMVAL((lv_val *)LV_PTR)))
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#define DBG_ASSERT_LVT(LVT) DBG_ASSERT(IS_LV_TREE(LVT)) /* is "lvTree *" */
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#define DBG_ASSERT_LV_OR_TREENODE(LV_PTR) DBG_ASSERT(IS_PARENT_MV_SYM(LV_PTR) /* is "lv_val *" */ \
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|| IS_LVAVLTREENODE(LV_PTR)) /* is "lvTreeNode *" or "lvTreeNodeFlt *" */
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#define LV_IS_BASE_VAR(LV_PTR) (DBG_ASSERT_LV_OR_TREENODE(LV_PTR) \
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IS_PARENT_MV_SYM(LV_PTR))
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/* Input to macro is LV_PTR which is guaranteed to be a non-base lv. Return value is the corresponding base_lv */
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#define LV_GET_BASE_VAR(LV_PTR) (DBG_ASSERT(!LV_IS_BASE_VAR(LV_PTR)) \
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DBG_ASSERT(NULL != LV_AVLNODE_PARENT(LV_PTR)) \
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LV_AVLNODE_PARENT(LV_PTR)->base_lv)
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#define LVT_GET_BASE_VAR(LVT) (DBG_ASSERT_LVT(LVT) \
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LVT->base_lv)
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#define LVT_GET_SYMVAL(LVT) (DBG_ASSERT_LVT(LVT) \
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LV_GET_SYMVAL(LVT_GET_BASE_VAR(LVT)))
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#define LV_GET_PARENT_TREE(LV_PTR) (DBG_ASSERT(!LV_IS_BASE_VAR(LV_PTR)) \
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DBG_ASSERT(NULL != LV_AVLNODE_PARENT(LV_PTR)) \
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LV_AVLNODE_PARENT(LV_PTR))
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/* The following 3 macros operate on the ptrs.val_ent.children field.
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* If the situation demands returning the children ptr, then use LV_GET_CHILD or LV_CHILD macros in that order of preference.
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* If the situation demands checking if any children exist, then use LV_HAS_CHILD macro.
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*/
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#define LV_CHILD(LV_PTR) (((lv_val *)LV_PTR)->ptrs.val_ent.children)
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/* The following macro is an enhanced version of LV_CHILD that can be used wherever you would prefer or dont mind additional
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* assert checking. In some cases, this cannot be used (e.g. in the left hand side of an assignment operation). But otherwise
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* it is preferrable to use this macro as opposed to LV_CHILD.
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*/
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#define LV_GET_CHILD(LV_PTR) (DBG_ASSERT_LV_OR_TREENODE(LV_PTR) \
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LV_CHILD(LV_PTR)) \
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/* if an lv_ptr's chlidren tree pointer is non-NULL, we should be guaranteed (by lv_kill)
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* that there is at least one child node in that subscript tree (currently only an avl tree).
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* assert that as well.
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*/
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#define LV_HAS_CHILD(LV_PTR) (DBG_ASSERT_LV_OR_TREENODE(LV_PTR) \
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(NULL != LV_CHILD(LV_PTR)) \
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DEBUG_ONLY(&& assert(MV_LV_TREE == (LV_CHILD(LV_PTR))->ident)) \
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DEBUG_ONLY(&& assert((LV_CHILD(LV_PTR))->avl_height)))
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/* Like the LV_CHILD and LV_GET_CHILD macro variants, the below macros need to be used with preference to LV_GET_SYMVAL
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* unless it is needed in the left hand side of an assignment in which case use the LV_SYMVAL macro.
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*/
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#define LV_SYMVAL(BASE_VAR) ((BASE_VAR)->ptrs.val_ent.parent.sym)
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#define LV_GET_SYMVAL(BASE_VAR) (DBG_ASSERT(LV_IS_BASE_VAR(BASE_VAR)) \
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LV_SYMVAL(BASE_VAR))
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/* The below macro relies on the fact that the parent field is at the same offset in an "lv_val" as it is in a "lvTreeNode".
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* This is asserted in "LV_TREE_CREATE" macro.
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*/
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#define LV_GET_PARENT(LV_PTR) (DBG_ASSERT_LV_OR_TREENODE(LV_PTR) \
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LV_AVLNODE_PARENT(LV_PTR))
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#define LVT_GET_PARENT(LVT) (DBG_ASSERT_LVT(LVT) \
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LVT_PARENT(LVT))
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#define LV_IS_VAL_DEFINED(LV_PTR) (DBG_ASSERT_LV_OR_TREENODE(LV_PTR) \
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MV_DEFINED(&((lv_val *)LV_PTR)->v))
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#define LV_SBS_DEPTH(LV_PTR, IS_BASE_VAR, DEPTH) \
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{ \
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assert(IS_OFFSET_AND_SIZE_MATCH(lvTree, sbs_depth, symval, sbs_depth)); \
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assert(!IS_BASE_VAR || (0 == LV_PTR->ptrs.val_ent.parent.sbs_tree->sbs_depth)); \
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assert(IS_BASE_VAR || (0 < LV_PTR->ptrs.val_ent.parent.sbs_tree->sbs_depth)); \
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DEPTH = LV_PTR->ptrs.val_ent.parent.sbs_tree->sbs_depth; \
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}
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/* Mark mval held by lv_ptr to be undefined. Also lets stp_gcol and lv_gcol know to NOT protect
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* (from garbage collection) any strings this lv_val was pointing to at the time of the free.
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*/
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#define LV_VAL_CLEAR_MVTYPE(LVPTR) (LVPTR)->v.mvtype = 0; /* note: also clears any use as MV_ALIASCONT */
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/* Queue an lv_val block back on the lv_val free list at the given anchor.
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* Operations:
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* 1) Debugging aids in debug builds.
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* 2) Do the queueing.
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* 3) Clear the mv_type so it is definitely a deleted value.
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*
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* Callers should use LV_FREESLOT instead of directly invoking LV_FLIST_ENQUEUE.
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* There are few exceptions like unw_mv_ent.c.
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*/
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#define LV_FLIST_ENQUEUE(flist_ptr, lv_ptr) \
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{ \
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lv_val **savflist_ptr = (flist_ptr); \
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DBGRFCT((stderr, "\n<< Free list queueing of lv_val at 0x"lvaddr" by %s line %d\n", \
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(lv_ptr), __FILE__, __LINE__)); \
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assert(LV_IS_BASE_VAR(lv_ptr)); \
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/* assert that any subtree underneath this lv_ptr has already been freed up */ \
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assert(NULL == LV_CHILD(lv_ptr)); \
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LV_VAL_CLEAR_MVTYPE(lv_ptr); \
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DEBUG_ONLY(memset((lv_ptr), 0xfd, SIZEOF(lv_val))); \
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(lv_ptr)->ptrs.free_ent.next_free = *savflist_ptr; \
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*savflist_ptr = (lv_ptr); \
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LV_SYMVAL(lv_ptr) = NULL; \
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DBGALS_ONLY((lv_ptr)->lvmon_mark = FALSE); \
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}
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/* Increment the cycle for tstarts. Field is compared to same name field in lv_val to signify an lv_val has been seen
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during a given transaction so reference counts are kept correct. If counter wraps, clear all the counters in all
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accessible lv_vals.
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*/
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#define INCR_TSTARTCYCLE \
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{ \
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symval *lvlsymtab; \
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lv_blk *lvbp; \
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lv_val *lvp, *lvp_top; \
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\
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if (0 == ++tstartcycle) \
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{ /* Set tstart cycle in all active lv_vals to 0 */ \
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for (lvlsymtab = curr_symval; lvlsymtab; lvlsymtab = lvlsymtab->last_tab) \
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for (lvbp = curr_symval->lv_first_block; lvbp; lvbp = lvbp->next) \
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for (lvp = (lv_val *)LV_BLK_GET_BASE(lvbp), lvp_top = LV_BLK_GET_FREE(lvbp, lvp); \
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lvp < lvp_top; lvp++) \
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lvp->stats.tstartcycle = 0; \
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tstartcycle = 1; \
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} \
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}
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/* Increment the cycle for misc lv tasks. Field is compared to same name field in lv_val to signify an lv_val has been seen
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during a given transaction so reference counts are kept correct. If counter wraps, clear all the counters in all
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accessible lv_vals.
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*/
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#define INCR_LVTASKCYCLE \
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{ \
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symval *lvlsymtab; \
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lv_blk *lvbp; \
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lv_val *lvp, *lvp_top; \
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\
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if (0 == ++lvtaskcycle) \
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{ /* Set tstart cycle in all active lv_vals to 0 */ \
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for (lvlsymtab = curr_symval; lvlsymtab; lvlsymtab = lvlsymtab->last_tab) \
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for (lvbp = curr_symval->lv_first_block; lvbp; lvbp = lvbp->next) \
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for (lvp = (lv_val *)LV_BLK_GET_BASE(lvbp), lvp_top = LV_BLK_GET_FREE(lvbp, lvp); \
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lvp < lvp_top; lvp++) \
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lvp->stats.lvtaskcycle = 0; \
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lvtaskcycle = 1; \
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} \
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}
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/* Initialize given lv_val (should be of type "lv_val *" and not "lvTreeNode *") */
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#define LVVAL_INIT(lv, symvalarg) \
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{ \
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DBGALS_ONLY(GBLREF boolean_t lvmon_enabled;) \
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assert(MV_SYM == symvalarg->ident); /* ensure above macro is never used to initialize a "lvTreeNode *" */ \
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(lv)->v.mvtype = 0; \
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(lv)->stats.trefcnt = 1; \
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(lv)->stats.crefcnt = 0; \
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(lv)->stats.tstartcycle = 0; \
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(lv)->stats.lvtaskcycle = 0; \
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(lv)->has_aliascont = FALSE; \
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DBGALS_ONLY(if (lvmon_enabled) (lv)->lvmon_mark = TRUE; else (lv)->lvmon_mark = FALSE); \
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(lv)->tp_var = NULL; \
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LV_CHILD(lv) = NULL; \
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LV_SYMVAL(lv) = symvalarg; \
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}
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/* Macro to call lv_var_clone and set the cloned status in the tp_var structure.
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* Note that we want the cloned tree to have its base_lv point back to "lv" and not the cloned lv.
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* This is because in case we want to restore the lv, we can then safely move the saved tree
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* back to "lv" without then having to readjust the base_lv linked in the "lvTree *" structures beneath
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*/
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#define TP_VAR_CLONE(lv) \
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{ \
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lv_val *lcl_savelv; \
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tp_var *lcl_tp_var; \
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\
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assert(LV_IS_BASE_VAR(lv)); \
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lcl_tp_var = (lv)->tp_var; \
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assert(lcl_tp_var); \
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assert(!lcl_tp_var->var_cloned); \
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lcl_savelv = lcl_tp_var->save_value; \
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assert(NULL != lcl_savelv); \
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assert(NULL == LV_CHILD(lcl_savelv)); \
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LV_CHILD(lcl_savelv) = LV_CHILD(lv); \
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lv_var_clone(lcl_savelv, lv); \
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lcl_tp_var->var_cloned = TRUE; \
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}
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/* Macro to indicate if a given lv_val is an alias or not */
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#define IS_ALIASLV(lv) (DBG_ASSERT(LV_IS_BASE_VAR(lv)) ((1 < (lv)->stats.trefcnt) || (0 < (lv)->stats.crefcnt)) \
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DEBUG_ONLY(&& assert(IS_PARENT_MV_SYM(lv))))
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#define LV_NEWBLOCK_INIT_ALLOC 16
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#define LV_BLK_GET_BASE(LV_BLK) (((sm_uc_ptr_t)LV_BLK) + SIZEOF(lv_blk))
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#define LV_BLK_GET_FREE(LV_BLK, LVBLK_BASE) (&LVBLK_BASE[LV_BLK->numUsed])
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typedef struct lv_val_struct
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{
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mval v; /* Value associated with this lv_val */
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/* Note: The offsets of "ptrs.val_ent.children" and "ptrs.val_ent.parent.sym" are relied upon by
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* other modules (e.g. lv_tree.h) and asserted in LV_TREE_CREATE macro. */
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union
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{
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struct
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{
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lvTree *children;
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union
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{ /* Note these two fields are still available when mvtype == MV_LVCOPIED
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* and there is code in "als_check_xnew_var_aliases" that depends on this
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*/
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struct symval_struct *sym;
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lvTree *sbs_tree;
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} parent;
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} val_ent;
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struct
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{
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struct lv_val_struct *next_free;
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} free_ent;
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struct
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{ /* When xnew'd lv's are copied to previous symtab, their new root is
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* set here so multiple references can be resolved properly (mvtype == MV_LVCOPIED)
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*/
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struct lv_val_struct *newtablv;
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} copy_loc;
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} ptrs;
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struct
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{ /* Note these flags are irrelevant for other than base (unsubscripted) local vars */
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int4 trefcnt; /* Total refcnt (includes container vars) */
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int4 crefcnt; /* Container reference count */
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uint4 tstartcycle; /* Cycle of level 0 tstart command */
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uint4 lvtaskcycle; /* Cycle of various lv related tasks */
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} stats;
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boolean_t has_aliascont; /* This base var has or had an alias container in it */
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boolean_t lvmon_mark; /* This lv_val is being monitored; Used only #ifdef DEBUG_ALIAS */
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struct tp_var_struct *tp_var;
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} lv_val;
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typedef struct lv_blk_struct
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{
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struct lv_blk_struct *next;
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uint4 numAlloc;
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uint4 numUsed;
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} lv_blk;
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/* When op_xnew creates a symtab, these blocks will describe the vars that were passed through from the
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previous symtab. They need special alias processing. Note we keep our own copy of the key (rather than
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pointing to the hash table entry) since op_xnew processing can cause a hash table expansion and we have
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no good way to update pointers so save the hash values as part of the key to eliminate another lookup.
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*/
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typedef struct lv_xnew_var_struct
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{
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struct lv_xnew_var_struct *next;
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mname_entry key;
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lv_val *lvval; /* There are two uses for this field. In op_new, it is used to
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hold the previous lvval addr for the 2nd pass. In unwind
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processing (als_check_xnew_var_aliases) it holds the lvval
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in the symtab being popped since it cannot be obtained once the
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symtab entry is deleted in the first pass (step 2).
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*/
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} lv_xnew_var;
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/* While lv_xnew_var_struct are the structures that were explicitly passed through, this is a list of the structures
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that are pointed to by any container vars in any of the passed through vars and any of the vars those point to, etc.
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The objective is to come up with a definitive list of structures to search to see if containers got created in them
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that point to the structure being torn down.
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*/
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typedef struct lv_xnewref_struct
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{
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struct lv_xnewref_struct *next;
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lv_val *lvval; /* This structure can be addressed through the passed thru vars
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but is not itself one of them */
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} lv_xnew_ref;
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typedef struct symval_struct
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{
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unsigned short ident;
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unsigned short sbs_depth; /* is always 0. Defined to match offset & size of lvTree->sbs_depth.
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* This way callers can avoid an if check depending on whether
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* the input pointer is a "symval *" or a "lvTree *" type.
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* This is also asserted in "LV_TREE_CREATE" macro. */
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boolean_t tp_save_all;
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lv_xnew_var *xnew_var_list;
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lv_xnew_ref *xnew_ref_list;
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hash_table_mname h_symtab;
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lv_blk *lv_first_block;
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lv_blk *lvtree_first_block;
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lv_blk *lvtreenode_first_block;
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lv_val *lv_flist;
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lvTree *lvtree_flist;
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lvTreeNode *lvtreenode_flist;
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struct symval_struct *last_tab;
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int4 symvlvl; /* Level of symval struct (nesting) */
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boolean_t trigr_symval; /* Symval is owned by a trigger */
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boolean_t alias_activity;
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} symval;
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/* Structure to describe the block allocated to describe a var specified on a TSTART to be restored
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on a TP restart. Block moved here from tpframe.h due to the structure references it [now] makes.
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Block can take two forms: (1) the standard tp_data form which marks vars to be modified or (2) the
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tp_change form where a new symbol table was stacked.
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*/
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typedef struct tp_var_struct
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{
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struct tp_var_struct *next;
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struct lv_val_struct *current_value;
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struct lv_val_struct *save_value;
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mname_entry key;
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boolean_t var_cloned;
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GTM64_ONLY(int4 filler;)
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} tp_var;
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typedef struct lvname_info_struct
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{
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intszofptr_t total_lv_subs; /* Total subscripts + 1 for name itself */
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lv_val *start_lvp;
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mval *lv_subs[MAX_LVSUBSCRIPTS];
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lv_val *end_lvp;
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} lvname_info;
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typedef lvname_info *lvname_info_ptr;
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#define DOTPSAVE_FALSE FALSE /* macro to indicate parameter by name "dotpsave" is passed a value of "FALSE" */
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#define DOTPSAVE_TRUE TRUE /* macro to indicate parameter by name "dotpsave" is passed a value of "TRUE" */
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#define DO_SUBTREE_FALSE FALSE /* macro to indicate parameter by name "do_subtree" is passed a value of "FALSE" */
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#define DO_SUBTREE_TRUE TRUE /* macro to indicate parameter by name "do_subtree" is passed a value of "TRUE" */
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#define LV_FREESLOT(LV) \
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{ \
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symval *sym; \
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\
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assert(LV_IS_BASE_VAR(LV)); \
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sym = LV_GET_SYMVAL(LV); \
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LV_FLIST_ENQUEUE(&sym->lv_flist, LV); \
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}
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#define LVTREE_FREESLOT(LVT) \
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{ \
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symval *sym; \
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\
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sym = LVT_GET_SYMVAL(LVT); \
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assert(NULL != LVT_GET_PARENT(LVT)); \
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LVT_PARENT(LVT) = NULL; /* indicates this is free */ \
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/* avl_root is overloaded to store linked list in free state */ \
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LVT->avl_root = (lvTreeNode *)sym->lvtree_flist; \
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sym->lvtree_flist = LVT; \
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}
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#define LVTREENODE_FREESLOT(LV) \
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{ \
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symval *sym; \
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lv_val *base_lv; \
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\
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assert(!LV_IS_BASE_VAR(LV)); \
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base_lv = LV_GET_BASE_VAR(LV); \
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sym = LV_GET_SYMVAL(base_lv); \
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LV_AVLNODE_PARENT(LV) = NULL; /* indicates to stp_gcol this is free */ \
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/* sbs_child is overloaded to store linked list in free state */ \
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(LV)->sbs_child = (lvTree *)sym->lvtreenode_flist; \
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sym->lvtreenode_flist = LV; \
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}
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unsigned char *format_lvname(lv_val *start, unsigned char *buff, int size);
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lv_val *lv_getslot(symval *sym);
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lvTree *lvtree_getslot(symval *sym);
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lvTreeNode *lvtreenode_getslot(symval *sym);
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void lv_kill(lv_val *lv, boolean_t dotpsave, boolean_t do_subtree);
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void lv_killarray(lvTree *lvt, boolean_t dotpsave);
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void lv_newblock(symval *sym, int numElems);
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void lv_newname(ht_ent_mname *hte, symval *sym);
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void lvtree_newblock(symval *sym, int numElems);
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void lvtreenode_newblock(symval *sym, int numElems);
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void lv_var_clone(lv_val *clone_var, lv_val *base_lv);
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void lvzwr_var(lv_val *lv, int4 n);
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|
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void op_clralsvars(lv_val *dst);
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void op_forfreeindx(void);
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void op_fornestlvl(uint4 level);
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void op_fndata(lv_val *x, mval *y);
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void op_fnzdata(lv_val *x, mval *y);
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void op_fnincr(lv_val *local_var, mval *increment, mval *result);
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void op_fnnext(lv_val *src,mval *key,mval *dst);
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void op_fno2(lv_val *src,mval *key,mval *dst,mval *direct);
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void op_fnorder(lv_val *src, mval *key, mval *dst);
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void op_fnzahandle(lv_val *src, mval *dst);
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void op_fnzprevious(lv_val *src, mval *key, mval *dst);
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|
void op_kill(lv_val *lv);
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|
void op_killalias(int srcindx);
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void op_lvzwithdraw(lv_val *lv);
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void op_setals2als(lv_val *src, int dstindx);
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void op_setalsin2alsct(lv_val *src, lv_val *dst);
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void op_setalsctin2als(lv_val *src, int dstindx);
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void op_setalsct2alsct(lv_val *src, lv_val *dst);
|
|
void op_setfnretin2als(mval *srcmv, int destindx); /* no an lv_val ref but kept here with its friends so it not lonely */
|
|
void op_setfnretin2alsct(mval *srcmv, lv_val *dstlv);
|
|
void op_zshow(mval *func, int type, lv_val *lvn);
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|
|
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lv_val *op_getindx(UNIX_ONLY_COMMA(int argcnt) lv_val *start, ...);
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|
lv_val *op_putindx(UNIX_ONLY_COMMA(int argcnt) lv_val *start, ...);
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|
lv_val *op_rfrshindx(uint4 level, boolean_t put);
|
|
lv_val *op_savputindx(UNIX_ONLY_COMMA(int argcnt) lv_val *start, ...);
|
|
lv_val *op_srchindx(UNIX_ONLY_COMMA(int argcnt_arg) lv_val *lv, ...);
|
|
lv_val *op_m_srchindx(UNIX_ONLY_COMMA(int4 count) lv_val *lvarg, ...);
|
|
|
|
/* Function Prototypes for local variables functions of merge */
|
|
boolean_t lcl_arg1_is_desc_of_arg2(lv_val *cur, lv_val *ref);
|
|
unsigned char *format_key_mvals(unsigned char *buff, int size, lvname_info *lvnp);
|
|
unsigned char *format_key_lv_val(lv_val *lvpin, unsigned char *buff, int size);
|
|
#endif
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