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/* IELR's inadequacy annotation list.
Copyright (C) 2009-2015, 2018 Free Software Foundation, Inc.
This file is part of Bison, the GNU Compiler Compiler.
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>. */
#ifndef ANNOTATION_LIST_H_
# define ANNOTATION_LIST_H_
# include <bitsetv.h>
# include "Sbitset.h"
# include "InadequacyList.h"
# include "state.h"
typedef unsigned AnnotationIndex;
/**
* A node in a list of annotations on a particular LR(0) state. Each
* annotation records how isocores of that LR(0) state might contribute to an
* individual inadequacy, which might manifest in a different state. Don't
* break encapsulation by modifying the fields directly. Use the provided
* interface functions.
*/
typedef struct AnnotationList
{
/** The next node in the list or \c NULL if none. */
struct AnnotationList *next;
/** The \c InadequacyList node describing how this inadequacy manifests. */
InadequacyList *inadequacyNode;
/**
* List of how the "always", "never", and potential contributions of the
* inadequacy might be made by isocores of the annotated LR(0) state:
* - The number of rows is the number of contributions. That is,
* <tt>AnnotationList::inadequacyNode->contributionCount</tt>.
* - The token associated with contribution \c i is
* <tt>InadequacyList__getContributionToken (AnnotationList::inadequacyNode, i)</tt>.
* - Iff <tt>AnnotationList::contributions[i] = NULL</tt>, contribution
* \c i is an "always" contribution. That is, for every isocore of the
* annotated LR(0) state, its core or the core of one its eventual
* successors will definitely make this contribution to the inadequacy.
* It may contribute by either:
* - Creating a shift of contribution <tt>i</tt>'s token in the state
* that can manifest the inadequacy.
* - Propagating that token to the lookahead set of contribution
* <tt>i</tt>'s reduction in the state that can manifest the
* inadequacy.
* - Otherwise:
* - The number of columns in <tt>AnnotationList::contributions[i]</tt>
* is the number of kernel items in any isocore of the annotated LR(0)
* state.
* - Iff <tt>AnnotationList::contributions[i]</tt> is empty, contribution
* \c i is a "never" contribution. That is, no isocore of the
* annotated LR(0) state can make this contribution to the inadequacy.
* - Otherwise, for each bit \c j that is set in
* <tt>AnnotationList::contributions[i]</tt>, if the token associated
* with contribution \c i is present in the lookahead set of kernel
* item \c j of an isocore of the annotated LR(0) state, that isocore
* will make contribution \c i to the inadequacy by propagating the
* contribution's token to the lookahead set of the contribution's
* reduction in the state that can manifest the inadequacy.
*/
Sbitset contributions[1];
} AnnotationList;
/**
* \pre
* - <tt>s != NULL</tt>.
* - \c follow_kernel_items, \c always_follows, and \c predecessors were
* computed by \c ielr_compute_auxiliary_tables.
* - The size of each of \c annotation_lists and \c annotation_counts is
* \c ::nstates.
* - If no \c InadequacyList nodes are currently allocated for the
* parser tables to which \c s belongs, then it is best if
* <tt>*inadequacy_list_node_count</tt> is zero to avoid overflow.
* Otherwise, <tt>*inadequacy_list_node_count</tt> has not been
* modified by any function except
* \c AnnotationList__compute_from_inadequacies since the invocation
* of \c AnnotationList__compute_from_inadequacies that constructed
* the first of the \c InadequacyList nodes currently allocated for
* those parser tables.
* \post
* - <tt>inadequacy_lists[s->number]</tt> now describes all inadequacies that
* manifest in \c s.
* - For every state <tt>states[i]</tt>, <tt>annotation_lists[i]</tt> now
* contains all annotations associated with all inadequacies that manifest
* in \c s.
* - <tt>annotation_counts[i]</tt> was incremented by the number of new
* annotations added to <tt>states[i]</tt>.
* - <tt>*max_contributionsp</tt> is the higher of:
* - The maximum number of contributions computed per annotation.
* - <tt>*max_contributionsp \@pre</tt>.
* - All memory for all new annotations was allocated on
* \c annotations_obstackp.
*/
void
AnnotationList__compute_from_inadequacies (
state *s, bitsetv follow_kernel_items, bitsetv always_follows,
state ***predecessors, bitset **item_lookahead_sets,
InadequacyList **inadequacy_lists, AnnotationList **annotation_lists,
AnnotationIndex *annotation_counts,
ContributionIndex *max_contributionsp,
struct obstack *annotations_obstackp,
InadequacyListNodeCount *inadequacy_list_node_count);
/**
* \pre
* - <tt>self != NULL</tt>.
* - \c nitems is the number of kernel items in the LR(0) state that every
* node in the list \c self annotates.
* \post
* - A textual representation of all nodes in the list \c self was printed to
* stderr. \c spaces spaces were printed before each line of the text.
*/
void AnnotationList__debug (AnnotationList const *self, size_t nitems,
int spaces);
/**
* \pre
* - <tt>self != NULL</tt>.
* - \c nitems is the number of kernel items in the LR(0) state that \c self
* annotates.
* - The number of rows in \c lookahead_filter is at least \c nitems, and the
* number of columns is \c ::ntokens.
* \post
* - <tt>lookahead_filter[i][j]</tt> is set iff some annotation in the list
* \c self lists token \c j in kernel item \c i as a contributor.
*/
void AnnotationList__computeLookaheadFilter (AnnotationList const *self,
size_t nitems,
bitsetv lookahead_filter);
/**
* \pre
* - <tt>self != NULL</tt>.
* - \c nitems is the number of kernel items in the LR(0) state that \c self
* annotates.
* - \c lookaheads describes the lookahead sets on the kernel items of some
* isocore of the LR(0) state that \c self annotates. Either:
* - <tt>lookaheads = NULL</tt> only if the lookahead set on every kernel
* item is empty.
* - For any <tt>0 <= i < nitems</tt>, <tt>lookaheads[i]</tt> is either:
* - \c NULL only if the lookahead set on kernel item \c i is empty.
* - The (possibly empty) lookahead set on kernel item \c i.
* \post
* - If <tt>require_split_stable = false</tt>, \c result = either:
* - \c ContributionIndex__none iff the state described by \c lookaheads
* makes none of the contributions in \c self.
* - The index of the dominating contribution in \c self that is made by
* that state.
* - \c ContributionIndex__error_action to indicate that the inadequacy
* manifests as a conflict and that a syntax error action (because of a
* %nonassoc) dominates instead.
* - Otherwise, \c result is the same as if <tt>require_split_stable =
* false</tt> except that it is also \c ContributionIndex__none if there
* are contributions made by the state but the dominating contribution is
* not split-stable. By split-stable, we mean that the dominating
* contribution cannot change due to loss of one or more potential
* contributions due to loss of lookaheads due to splitting of the state.
* - After determining which contributions are actually made by the state,
* the algorithm for determining which contribution dominates in the
* conflict is intended to choose exactly the same action as conflicts.c
* would choose... no matter how crazy conflicts.c's choice is.
*/
ContributionIndex
AnnotationList__computeDominantContribution (AnnotationList const *self,
size_t nitems, bitset *lookaheads,
bool require_split_stable);
#endif /* !ANNOTATION_LIST_H_ */
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