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|
- #if !defined(_RX_H) || defined(RX_WANT_SE_DEFS)
- #define _RX_H
- /* Copyright (C) 1992, 1993 Free Software Foundation, Inc.
- This file is part of the librx library.
- Librx is free software; you can redistribute it and/or modify it under
- the terms of the GNU Library General Public License as published by
- the Free Software Foundation; either version 2, or (at your option)
- any later version.
- Librx 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 Library General Public
- License along with this software; see the file COPYING.LIB. If not,
- write to the Free Software Foundation, 675 Mass Ave, Cambridge, MA
- 02139, USA. */
- /* t. lord Wed Sep 23 18:20:57 1992 */
- #include <features.h>
- #define __need_size_t
- #include <stddef.h>
- #include <string.h>
- #if RX_WANT_SE_DEFS != 1
- __BEGIN_DECLS
- #endif
- #ifndef RX_WANT_SE_DEFS
- /* This page: Bitsets */
- #ifndef RX_subset
- typedef unsigned int RX_subset;
- #define RX_subset_bits (32)
- #define RX_subset_mask (RX_subset_bits - 1)
- #endif
- typedef RX_subset * rx_Bitset;
- #ifdef __STDC__
- typedef void (*rx_bitset_iterator) (void *, int member_index);
- #else
- typedef void (*rx_bitset_iterator) ();
- #endif
- #define rx_bitset_subset(N) ((N) / RX_subset_bits)
- #define rx_bitset_subset_val(B,N) ((B)[rx_bitset_subset(N)])
- #define RX_bitset_access(B,N,OP) \
- ((B)[rx_bitset_subset(N)] OP rx_subset_singletons[(N) & RX_subset_mask])
- #define RX_bitset_member(B,N) RX_bitset_access(B, N, &)
- #define RX_bitset_enjoin(B,N) RX_bitset_access(B, N, |=)
- #define RX_bitset_remove(B,N) RX_bitset_access(B, N, &= ~)
- #define RX_bitset_toggle(B,N) RX_bitset_access(B, N, ^= )
- #define rx_bitset_numb_subsets(N) (((N) + RX_subset_bits - 1) / RX_subset_bits)
- #define rx_sizeof_bitset(N) (rx_bitset_numb_subsets(N) * sizeof(RX_subset))
- /* This page: Splay trees. */
- #ifdef __STDC__
- typedef int (*rx_sp_comparer) (void * a, void * b);
- #else
- typedef int (*rx_sp_comparer) ();
- #endif
- struct rx_sp_node
- {
- void * key;
- void * data;
- struct rx_sp_node * kids[2];
- };
- #ifdef __STDC__
- typedef void (*rx_sp_key_data_freer) (struct rx_sp_node *);
- #else
- typedef void (*rx_sp_key_data_freer) ();
- #endif
- /* giant inflatable hash trees */
- struct rx_hash_item
- {
- struct rx_hash_item * next_same_hash;
- struct rx_hash * table;
- unsigned long hash;
- void * data;
- void * binding;
- };
- struct rx_hash
- {
- struct rx_hash * parent;
- int refs;
- struct rx_hash * children[13];
- struct rx_hash_item * buckets [13];
- int bucket_size [13];
- };
- struct rx_hash_rules;
- #ifdef __STDC__
- /* should return like == */
- typedef int (*rx_hash_eq)(void *, void *);
- typedef struct rx_hash * (*rx_alloc_hash)(struct rx_hash_rules *);
- typedef void (*rx_free_hash)(struct rx_hash *,
- struct rx_hash_rules *);
- typedef struct rx_hash_item * (*rx_alloc_hash_item)(struct rx_hash_rules *,
- void *);
- typedef void (*rx_free_hash_item)(struct rx_hash_item *,
- struct rx_hash_rules *);
- #else
- typedef int (*rx_hash_eq)();
- typedef struct rx_hash * (*rx_alloc_hash)();
- typedef void (*rx_free_hash)();
- typedef struct rx_hash_item * (*rx_alloc_hash_item)();
- typedef void (*rx_free_hash_item)();
- #endif
- struct rx_hash_rules
- {
- rx_hash_eq eq;
- rx_alloc_hash hash_alloc;
- rx_free_hash free_hash;
- rx_alloc_hash_item hash_item_alloc;
- rx_free_hash_item free_hash_item;
- };
- /* Forward declarations */
- struct rx_cache;
- struct rx_superset;
- struct rx;
- struct rx_se_list;
- /*
- * GLOSSARY
- *
- * regexp
- * regular expression
- * expression
- * pattern - a `regular' expression. The expression
- * need not be formally regular -- it can contain
- * constructs that don't correspond to purely regular
- * expressions.
- *
- * buffer
- * string - the string (or strings) being searched or matched.
- *
- * pattern buffer - a structure of type `struct re_pattern_buffer'
- * This in turn contains a `struct rx', which holds the
- * NFA compiled from a pattern, as well as some of the state
- * of a matcher using the pattern.
- *
- * NFA - nondeterministic finite automata. Some people
- * use this term to a member of the class of
- * regular automata (those corresponding to a regular
- * language). However, in this code, the meaning is
- * more general. The automata used by Rx are comperable
- * in power to what are usually called `push down automata'.
- *
- * Two NFA are built by rx for every pattern. One is built
- * by the compiler. The other is built from the first, on
- * the fly, by the matcher. The latter is called the `superstate
- * NFA' because its states correspond to sets of states from
- * the first NFA. (Joe Keane gets credit for the name
- * `superstate NFA').
- *
- * NFA edges
- * epsilon edges
- * side-effect edges - The NFA compiled from a pattern can have three
- * kinds of edges. Epsilon edges can be taken freely anytime
- * their source state is reached. Character set edges can be
- * taken when their source state is reached and when the next
- * character in the buffer is a member of the set. Side effect
- * edges imply a transition that can only be taken after the
- * indicated side effect has been successfully accomplished.
- * Some examples of side effects are:
- *
- * Storing the current match position to record the
- * location of a parentesized subexpression.
- *
- * Advancing the matcher over N characters if they
- * match the N characters previously matched by a
- * parentesized subexpression.
- *
- * Both of those kinds of edges occur in the NFA generated
- * by the pattern: \(.\)\1
- *
- * Epsilon and side effect edges are similar. Unfortunately,
- * some of the code uses the name `epsilon edge' to mean
- * both epsilon and side effect edges. For example, the
- * function has_non_idempotent_epsilon_path computes the existance
- * of a non-trivial path containing only a mix of epsilon and
- * side effect edges. In that case `nonidempotent epsilon' is being
- * used to mean `side effect'.
- */
- /* LOW LEVEL PATTERN BUFFERS */
- /* Suppose that from some NFA state, more than one path through
- * side-effect edges is possible. In what order should the paths
- * be tried? A function of type rx_se_list_order answers that
- * question. It compares two lists of side effects, and says
- * which list comes first.
- */
-
- #ifdef __STDC__
- typedef int (*rx_se_list_order) (struct rx *,
- struct rx_se_list *,
- struct rx_se_list *);
- #else
- typedef int (*rx_se_list_order) ();
- #endif
- /* Struct RX holds a compiled regular expression - that is, an nfa
- * ready to be converted on demand to a more efficient superstate nfa.
- * This is for the low level interface. The high-level interfaces enclose
- * this in a `struct re_pattern_buffer'.
- */
- struct rx
- {
- /* The compiler assigns a unique id to every pattern.
- * Like sequence numbers in X, there is a subtle bug here
- * if you use Rx in a system that runs for a long time.
- * But, because of the way the caches work out, it is almost
- * impossible to trigger the Rx version of this bug.
- *
- * The id is used to validate superstates found in a cache
- * of superstates. It isn't sufficient to let a superstate
- * point back to the rx for which it was compiled -- the caller
- * may be re-using a `struct rx' in which case the superstate
- * is not really valid. So instead, superstates are validated
- * by checking the sequence number of the pattern for which
- * they were built.
- */
- int rx_id;
- /* This is memory mgt. state for superstates. This may be
- * shared by more than one struct rx.
- */
- struct rx_cache * cache;
- /* Every regex defines the size of its own character set.
- * A superstate has an array of this size, with each element
- * a `struct rx_inx'. So, don't make this number too large.
- * In particular, don't make it 2^16.
- */
- int local_cset_size;
- /* After the NFA is built, it is copied into a contiguous region
- * of memory (mostly for compatability with GNU regex).
- * Here is that region, and it's size:
- */
- void * buffer;
- unsigned long allocated;
- /* Clients of RX can ask for some extra storage in the space pointed
- * to by BUFFER. The field RESERVED is an input parameter to the
- * compiler. After compilation, this much space will be available
- * at (buffer + allocated - reserved)
- */
- unsigned long reserved;
- /* --------- The remaining fields are for internal use only. --------- */
- /* --------- But! they must be initialized to 0. --------- */
- /* NODEC is the number of nodes in the NFA with non-epsilon
- * transitions.
- */
- int nodec;
- /* EPSNODEC is the number of nodes with only epsilon transitions. */
- int epsnodec;
- /* The sum (NODEC + EPSNODEC) is the total number of states in the
- * compiled NFA.
- */
- /* Lists of side effects as stored in the NFA are `hash consed'..meaning
- * that lists with the same elements are ==. During compilation,
- * this table facilitates hash-consing.
- */
- struct rx_hash se_list_memo;
- /* Lists of NFA states are also hashed.
- */
- struct rx_hash set_list_memo;
- /* The compiler and matcher must build a number of instruction frames.
- * The format of these frames is fixed (c.f. struct rx_inx). The values
- * of the instructions is not fixed.
- *
- * An enumerated type (enum rx_opcode) defines the set of instructions
- * that the compiler or matcher might generate. When filling an instruction
- * frame, the INX field is found by indexing this instruction table
- * with an opcode:
- */
- void ** instruction_table;
- /* The list of all states in an NFA.
- * During compilation, the NEXT field of NFA states links this list.
- * After compilation, all the states are compacted into an array,
- * ordered by state id numbers. At that time, this points to the base
- * of that array.
- */
- struct rx_nfa_state *nfa_states;
- /* Every nfa begins with one distinguished starting state:
- */
- struct rx_nfa_state *start;
- /* This orders the search through super-nfa paths.
- * See the comment near the typedef of rx_se_list_order.
- */
- rx_se_list_order se_list_cmp;
- struct rx_superset * start_set;
- };
- /* SYNTAX TREES */
- /* Compilation is in stages.
- *
- * In the first stage, a pattern specified by a string is
- * translated into a syntax tree. Later stages will convert
- * the syntax tree into an NFA optimized for conversion to a
- * superstate-NFA.
- *
- * This page is about syntax trees.
- */
- enum rexp_node_type
- {
- r_cset, /* Match from a character set. `a' or `[a-z]'*/
- r_concat, /* Concat two subexpressions. `ab' */
- r_alternate, /* Choose one of two subexpressions. `a\|b' */
- r_opt, /* Optional subexpression. `a?' */
- r_star, /* Repeated subexpression. `a*' */
- /* A 2phase-star is a variation on a repeated subexpression.
- * In this case, there are two subexpressions. The first, if matched,
- * begins a repitition (otherwise, the whole expression is matches the
- * empth string).
- *
- * After matching the first subexpression, a 2phase star either finishes,
- * or matches the second subexpression. If the second subexpression is
- * matched, then the whole construct repeats.
- *
- * 2phase stars are used in two circumstances. First, they
- * are used as part of the implementation of POSIX intervals (counted
- * repititions). Second, they are used to implement proper star
- * semantics when the repeated subexpression contains paths of
- * only side effects. See rx_compile for more information.
- */
- r_2phase_star,
- /* c.f. "typedef void * rx_side_effect" */
- r_side_effect,
- /* This is an extension type: It is for transient use in source->source
- * transformations (implemented over syntax trees).
- */
- r_data
- };
- /* A side effect is a matcher-specific action associated with
- * transitions in the NFA. The details of side effects are up
- * to the matcher. To the compiler and superstate constructors
- * side effects are opaque:
- */
- typedef void * rx_side_effect;
- /* Nodes in a syntax tree are of this type:
- */
- struct rexp_node
- {
- enum rexp_node_type type;
- union
- {
- rx_Bitset cset;
- rx_side_effect side_effect;
- struct
- {
- struct rexp_node *left;
- struct rexp_node *right;
- } pair;
- void * data;
- } params;
- };
- /* NFA
- *
- * A syntax tree is compiled into an NFA. This page defines the structure
- * of that NFA.
- */
- struct rx_nfa_state
- {
- /* These are kept in a list as the NFA is being built. */
- struct rx_nfa_state *next;
- /* After the NFA is built, states are given integer id's.
- * States whose outgoing transitions are all either epsilon or
- * side effect edges are given ids less than 0. Other states
- * are given successive non-negative ids starting from 0.
- */
- int id;
- /* The list of NFA edges that go from this state to some other. */
- struct rx_nfa_edge *edges;
- /* If you land in this state, then you implicitly land
- * in all other states reachable by only epsilon translations.
- * Call the set of maximal paths to such states the epsilon closure
- * of this state.
- *
- * There may be other states that are reachable by a mixture of
- * epsilon and side effect edges. Consider the set of maximal paths
- * of that sort from this state. Call it the epsilon-side-effect
- * closure of the state.
- *
- * The epsilon closure of the state is a subset of the epsilon-side-
- * effect closure. It consists of all the paths that contain
- * no side effects -- only epsilon edges.
- *
- * The paths in the epsilon-side-effect closure can be partitioned
- * into equivalance sets. Two paths are equivalant if they have the
- * same set of side effects, in the same order. The epsilon-closure
- * is one of these equivalance sets. Let's call these equivalance
- * sets: observably equivalant path sets. That name is chosen
- * because equivalance of two paths means they cause the same side
- * effects -- so they lead to the same subsequent observations other
- * than that they may wind up in different target states.
- *
- * The superstate nfa, which is derived from this nfa, is based on
- * the observation that all of the paths in an observably equivalant
- * path set can be explored at the same time, provided that the
- * matcher keeps track not of a single nfa state, but of a set of
- * states. In particular, after following all the paths in an
- * observably equivalant set, you wind up at a set of target states.
- * That set of target states corresponds to one state in the
- * superstate NFA.
- *
- * Staticly, before matching begins, it is convenient to analyze the
- * nfa. Each state is labeled with a list of the observably
- * equivalant path sets who's union covers all the
- * epsilon-side-effect paths beginning in this state. This list is
- * called the possible futures of the state.
- *
- * A trivial example is this NFA:
- * s1
- * A ---> B
- *
- * s2
- * ---> C
- *
- * epsilon s1
- * ---------> D ------> E
- *
- *
- * In this example, A has two possible futures.
- * One invokes the side effect `s1' and contains two paths,
- * one ending in state B, the other in state E.
- * The other invokes the side effect `s2' and contains only
- * one path, landing in state C.
- */
- struct rx_possible_future *futures;
- /* There are exactly two distinguished states in every NFA: */
- unsigned int is_final:1;
- unsigned int is_start:1;
- /* These are used during NFA construction... */
- unsigned int eclosure_needed:1;
- unsigned int mark:1;
- };
- /* An edge in an NFA is typed: */
- enum rx_nfa_etype
- {
- /* A cset edge is labled with a set of characters one of which
- * must be matched for the edge to be taken.
- */
- ne_cset,
- /* An epsilon edge is taken whenever its starting state is
- * reached.
- */
- ne_epsilon,
- /* A side effect edge is taken whenever its starting state is
- * reached. Side effects may cause the match to fail or the
- * position of the matcher to advance.
- */
- ne_side_effect /* A special kind of epsilon. */
- };
- struct rx_nfa_edge
- {
- struct rx_nfa_edge *next;
- enum rx_nfa_etype type;
- struct rx_nfa_state *dest;
- union
- {
- rx_Bitset cset;
- rx_side_effect side_effect;
- } params;
- };
- /* A possible future consists of a list of side effects
- * and a set of destination states. Below are their
- * representations. These structures are hash-consed which
- * means that lists with the same elements share a representation
- * (their addresses are ==).
- */
- struct rx_nfa_state_set
- {
- struct rx_nfa_state * car;
- struct rx_nfa_state_set * cdr;
- };
- struct rx_se_list
- {
- rx_side_effect car;
- struct rx_se_list * cdr;
- };
- struct rx_possible_future
- {
- struct rx_possible_future *next;
- struct rx_se_list * effects;
- struct rx_nfa_state_set * destset;
- };
- /* This begins the description of the superstate NFA.
- *
- * The superstate NFA corresponds to the NFA in these ways:
- *
- * Every superstate NFA states SUPER correspond to sets of NFA states,
- * nfa_states(SUPER).
- *
- * Superstate edges correspond to NFA paths.
- *
- * The superstate has no epsilon transitions;
- * every edge has a character label, and a (possibly empty) side
- * effect label. The side effect label corresponds to a list of
- * side effects that occur in the NFA. These parts are referred
- * to as: superedge_character(EDGE) and superedge_sides(EDGE).
- *
- * For a superstate edge EDGE starting in some superstate SUPER,
- * the following is true (in pseudo-notation :-):
- *
- * exists DEST in nfa_states s.t.
- * exists nfaEDGE in nfa_edges s.t.
- * origin (nfaEDGE) == DEST
- * && origin (nfaEDGE) is a member of nfa_states(SUPER)
- * && exists PF in possible_futures(dest(nfaEDGE)) s.t.
- * sides_of_possible_future (PF) == superedge_sides (EDGE)
- *
- * also:
- *
- * let SUPER2 := superedge_destination(EDGE)
- * nfa_states(SUPER2)
- * == union of all nfa state sets S s.t.
- * exists PF in possible_futures(dest(nfaEDGE)) s.t.
- * sides_of_possible_future (PF) == superedge_sides (EDGE)
- * && S == dests_of_possible_future (PF) }
- *
- * Or in english, every superstate is a set of nfa states. A given
- * character and a superstate implies many transitions in the NFA --
- * those that begin with an edge labeled with that character from a
- * state in the set corresponding to the superstate.
- *
- * The destinations of those transitions each have a set of possible
- * futures. A possible future is a list of side effects and a set of
- * destination NFA states. Two sets of possible futures can be
- * `merged' by combining all pairs of possible futures that have the
- * same side effects. A pair is combined by creating a new future
- * with the same side effect but the union of the two destination sets.
- * In this way, all the possible futures suggested by a superstate
- * and a character can be merged into a set of possible futures where
- * no two elements of the set have the same set of side effects.
- *
- * The destination of a possible future, being a set of NFA states,
- * corresponds to a supernfa state. So, the merged set of possible
- * futures we just created can serve as a set of edges in the
- * supernfa.
- *
- * The representation of the superstate nfa and the nfa is critical.
- * The nfa has to be compact, but has to facilitate the rapid
- * computation of missing superstates. The superstate nfa has to
- * be fast to interpret, lazilly constructed, and bounded in space.
- *
- * To facilitate interpretation, the superstate data structures are
- * peppered with `instruction frames'. There is an instruction set
- * defined below which matchers using the supernfa must be able to
- * interpret.
- *
- * We'd like to make it possible but not mandatory to use code
- * addresses to represent instructions (c.f. gcc's computed goto).
- * Therefore, we define an enumerated type of opcodes, and when
- * writing one of these instructions into a data structure, use
- * the opcode as an index into a table of instruction values.
- *
- * Here are the opcodes that occur in the superstate nfa:
- */
-
- /* Every superstate contains a table of instruction frames indexed
- * by characters. A normal `move' in a matcher is to fetch the next
- * character and use it as an index into a superstates transition
- * table.
- *
- * In the fasted case, only one edge follows from that character.
- * In other cases there is more work to do.
- *
- * The descriptions of the opcodes refer to data structures that are
- * described further below.
- */
- enum rx_opcode
- {
- /*
- * BACKTRACK_POINT is invoked when a character transition in
- * a superstate leads to more than one edge. In that case,
- * the edges have to be explored independently using a backtracking
- * strategy.
- *
- * A BACKTRACK_POINT instruction is stored in a superstate's
- * transition table for some character when it is known that that
- * character crosses more than one edge. On encountering this
- * instruction, the matcher saves enough state to backtrack to this
- * point in the match later.
- */
- rx_backtrack_point = 0, /* data is (struct transition_class *) */
- /*
- * RX_DO_SIDE_EFFECTS evaluates the side effects of an epsilon path.
- * There is one occurence of this instruction per rx_distinct_future.
- * This instruction is skipped if a rx_distinct_future has no side effects.
- */
- rx_do_side_effects = rx_backtrack_point + 1,
- /* data is (struct rx_distinct_future *) */
- /*
- * RX_CACHE_MISS instructions are stored in rx_distinct_futures whose
- * destination superstate has been reclaimed (or was never built).
- * It recomputes the destination superstate.
- * RX_CACHE_MISS is also stored in a superstate transition table before
- * any of its edges have been built.
- */
- rx_cache_miss = rx_do_side_effects + 1,
- /* data is (struct rx_distinct_future *) */
- /*
- * RX_NEXT_CHAR is called to consume the next character and take the
- * corresponding transition. This is the only instruction that uses
- * the DATA field of the instruction frame instead of DATA_2.
- * (see EXPLORE_FUTURE in regex.c).
- */
- rx_next_char = rx_cache_miss + 1, /* data is (struct superstate *) */
- /* RX_BACKTRACK indicates that a transition fails.
- */
- rx_backtrack = rx_next_char + 1, /* no data */
- /*
- * RX_ERROR_INX is stored only in places that should never be executed.
- */
- rx_error_inx = rx_backtrack + 1, /* Not supposed to occur. */
- rx_num_instructions = rx_error_inx + 1
- };
- /* An id_instruction_table holds the values stored in instruction
- * frames. The table is indexed by the enums declared above.
- */
- extern void * rx_id_instruction_table[rx_num_instructions];
- /* The heart of the matcher is a `word-code-interpreter'
- * (like a byte-code interpreter, except that instructions
- * are a full word wide).
- *
- * Instructions are not stored in a vector of code, instead,
- * they are scattered throughout the data structures built
- * by the regexp compiler and the matcher. One word-code instruction,
- * together with the arguments to that instruction, constitute
- * an instruction frame (struct rx_inx).
- *
- * This structure type is padded by hand to a power of 2 because
- * in one of the dominant cases, we dispatch by indexing a table
- * of instruction frames. If that indexing can be accomplished
- * by just a shift of the index, we're happy.
- *
- * Instructions take at most one argument, but there are two
- * slots in an instruction frame that might hold that argument.
- * These are called data and data_2. The data slot is only
- * used for one instruction (RX_NEXT_CHAR). For all other
- * instructions, data should be set to 0.
- *
- * RX_NEXT_CHAR is the most important instruction by far.
- * By reserving the data field for its exclusive use,
- * instruction dispatch is sped up in that case. There is
- * no need to fetch both the instruction and the data,
- * only the data is needed. In other words, a `cycle' begins
- * by fetching the field data. If that is non-0, then it must
- * be the destination state of a next_char transition, so
- * make that value the current state, advance the match position
- * by one character, and start a new cycle. On the other hand,
- * if data is 0, fetch the instruction and do a more complicated
- * dispatch on that.
- */
- struct rx_inx
- {
- void * data;
- void * data_2;
- void * inx;
- void * fnord;
- };
- #ifndef RX_TAIL_ARRAY
- #define RX_TAIL_ARRAY 1
- #endif
- /* A superstate corresponds to a set of nfa states. Those sets are
- * represented by STRUCT RX_SUPERSET. The constructors
- * guarantee that only one (shared) structure is created for a given set.
- */
- struct rx_superset
- {
- int refs; /* This is a reference counted structure. */
- /* We keep these sets in a cache because (in an unpredictable way),
- * the same set is often created again and again. But that is also
- * problematic -- compatibility with POSIX and GNU regex requires
- * that we not be able to tell when a program discards a particular
- * NFA (thus invalidating the supersets created from it).
- *
- * But when a cache hit appears to occur, we will have in hand the
- * nfa for which it may have happened. That is why every nfa is given
- * its own sequence number. On a cache hit, the cache is validated
- * by comparing the nfa sequence number to this field:
- */
- int id;
- struct rx_nfa_state * car; /* May or may not be a valid addr. */
- struct rx_superset * cdr;
- /* If the corresponding superstate exists: */
- struct rx_superstate * superstate;
- /* There is another bookkeeping problem. It is expensive to
- * compute the starting nfa state set for an nfa. So, once computed,
- * it is cached in the `struct rx'.
- *
- * But, the state set can be flushed from the superstate cache.
- * When that happens, we can't know if the corresponding `struct rx'
- * is still alive or if it has been freed or re-used by the program.
- * So, the cached pointer to this set in a struct rx might be invalid
- * and we need a way to validate it.
- *
- * Fortunately, even if this set is flushed from the cache, it is
- * not freed. It just goes on the free-list of supersets.
- * So we can still examine it.
- *
- * So to validate a starting set memo, check to see if the
- * starts_for field still points back to the struct rx in question,
- * and if the ID matches the rx sequence number.
- */
- struct rx * starts_for;
- /* This is used to link into a hash bucket so these objects can
- * be `hash-consed'.
- */
- struct rx_hash_item hash_item;
- };
- #define rx_protect_superset(RX,CON) (++(CON)->refs)
- /* The terminology may be confusing (rename this structure?).
- * Every character occurs in at most one rx_super_edge per super-state.
- * But, that structure might have more than one option, indicating a point
- * of non-determinism.
- *
- * In other words, this structure holds a list of superstate edges
- * sharing a common starting state and character label. The edges
- * are in the field OPTIONS. All superstate edges sharing the same
- * starting state and character are in this list.
- */
- struct rx_super_edge
- {
- struct rx_super_edge *next;
- struct rx_inx rx_backtrack_frame;
- int cset_size;
- rx_Bitset cset;
- struct rx_distinct_future *options;
- };
- /* A superstate is a set of nfa states (RX_SUPERSET) along
- * with a transition table. Superstates are built on demand and reclaimed
- * without warning. To protect a superstate from this ghastly fate,
- * use LOCK_SUPERSTATE.
- */
- struct rx_superstate
- {
- int rx_id; /* c.f. the id field of rx_superset */
- int locks; /* protection from reclamation */
- /* Within a superstate cache, all the superstates are kept in a big
- * queue. The tail of the queue is the state most likely to be
- * reclaimed. The *recyclable fields hold the queue position of
- * this state.
- */
- struct rx_superstate * next_recyclable;
- struct rx_superstate * prev_recyclable;
- /* The supernfa edges that exist in the cache and that have
- * this state as their destination are kept in this list:
- */
- struct rx_distinct_future * transition_refs;
- /* The list of nfa states corresponding to this superstate: */
- struct rx_superset * contents;
- /* The list of edges in the cache beginning from this state. */
- struct rx_super_edge * edges;
- /* A tail of the recyclable queue is marked as semifree. A semifree
- * state has no incoming next_char transitions -- any transition
- * into a semifree state causes a complex dispatch with the side
- * effect of rescuing the state from its semifree state.
- *
- * An alternative to this might be to make next_char more expensive,
- * and to move a state to the head of the recyclable queue whenever
- * it is entered. That way, popular states would never be recycled.
- *
- * But unilaterally making next_char more expensive actually loses.
- * So, incoming transitions are only made expensive for states near
- * the tail of the recyclable queue. The more cache contention
- * there is, the more frequently a state will have to prove itself
- * and be moved back to the front of the queue. If there is less
- * contention, then popular states just aggregate in the front of
- * the queue and stay there.
- */
- int is_semifree;
- /* This keeps track of the size of the transition table for this
- * state. There is a half-hearted attempt to support variable sized
- * superstates.
- */
- int trans_size;
- /* Indexed by characters... */
- struct rx_inx transitions[RX_TAIL_ARRAY];
- };
- /* A list of distinct futures define the edges that leave from a
- * given superstate on a given character. c.f. rx_super_edge.
- */
- struct rx_distinct_future
- {
- struct rx_distinct_future * next_same_super_edge[2];
- struct rx_distinct_future * next_same_dest;
- struct rx_distinct_future * prev_same_dest;
- struct rx_superstate * present; /* source state */
- struct rx_superstate * future; /* destination state */
- struct rx_super_edge * edge;
- /* The future_frame holds the instruction that should be executed
- * after all the side effects are done, when it is time to complete
- * the transition to the next state.
- *
- * Normally this is a next_char instruction, but it may be a
- * cache_miss instruction as well, depending on whether or not
- * the superstate is in the cache and semifree.
- *
- * If this is the only future for a given superstate/char, and
- * if there are no side effects to be performed, this frame is
- * not used (directly) at all. Instead, its contents are copied
- * into the transition table of the starting state of this dist. future.
- */
- struct rx_inx future_frame;
- struct rx_inx side_effects_frame;
- struct rx_se_list * effects;
- };
- #define rx_lock_superstate(R,S) ((S)->locks++)
- #define rx_unlock_superstate(R,S) (--(S)->locks)
- /* This page destined for rx.h */
- struct rx_blocklist
- {
- struct rx_blocklist * next;
- int bytes;
- };
- struct rx_freelist
- {
- struct rx_freelist * next;
- };
- struct rx_cache;
- #ifdef __STDC__
- typedef void (*rx_morecore_fn)(struct rx_cache *);
- #else
- typedef void (*rx_morecore_fn)();
- #endif
- /* You use this to control the allocation of superstate data
- * during matching. Most of it should be initialized to 0.
- *
- * A MORECORE function is necessary. It should allocate
- * a new block of memory or return 0.
- * A default that uses malloc is called `rx_morecore'.
- *
- * The number of SUPERSTATES_ALLOWED indirectly limits how much memory
- * the system will try to allocate. The default is 128. Batch style
- * applications that are very regexp intensive should use as high a number
- * as possible without thrashing.
- *
- * The LOCAL_CSET_SIZE is the number of characters in a character set.
- * It is therefore the number of entries in a superstate transition table.
- * Generally, it should be 256. If your character set has 16 bits,
- * it is better to translate your regexps into equivalent 8 bit patterns.
- */
- struct rx_cache
- {
- struct rx_hash_rules superset_hash_rules;
- /* Objects are allocated by incrementing a pointer that
- * scans across rx_blocklists.
- */
- struct rx_blocklist * memory;
- struct rx_blocklist * memory_pos;
- int bytes_left;
- char * memory_addr;
- rx_morecore_fn morecore;
- /* Freelists. */
- struct rx_freelist * free_superstates;
- struct rx_freelist * free_transition_classes;
- struct rx_freelist * free_discernable_futures;
- struct rx_freelist * free_supersets;
- struct rx_freelist * free_hash;
- /* Two sets of superstates -- those that are semifreed, and those
- * that are being used.
- */
- struct rx_superstate * lru_superstate;
- struct rx_superstate * semifree_superstate;
- struct rx_superset * empty_superset;
- int superstates;
- int semifree_superstates;
- int hits;
- int misses;
- int superstates_allowed;
- int local_cset_size;
- void ** instruction_table;
- struct rx_hash superset_table;
- };
- /* The lowest-level search function supports arbitrarily fragmented
- * strings and (optionally) suspendable/resumable searches.
- *
- * Callers have to provide a few hooks.
- */
- #ifndef __GNUC__
- #ifdef __STDC__
- #define __const__ const
- #else
- #define __const__
- #endif
- #endif
- /* This holds a matcher position */
- struct rx_string_position
- {
- __const__ unsigned char * pos; /* The current pos. */
- __const__ unsigned char * string; /* The current string burst. */
- __const__ unsigned char * end; /* First invalid position >= POS. */
- int offset; /* Integer address of the current burst. */
- int size; /* Current string's size. */
- int search_direction; /* 1 or -1 */
- int search_end; /* First position to not try. */
- };
- enum rx_get_burst_return
- {
- rx_get_burst_continuation,
- rx_get_burst_error,
- rx_get_burst_ok,
- rx_get_burst_no_more
- };
- /* A call to get burst should make POS valid. It might be invalid
- * if the STRING field doesn't point to a burst that actually
- * contains POS.
- *
- * GET_BURST should take a clue from SEARCH_DIRECTION (1 or -1) as to
- * whether or not to pad to the left. Padding to the right is always
- * appropriate, but need not go past the point indicated by STOP.
- *
- * If a continuation is returned, then the reentering call to
- * a search function will retry the get_burst.
- */
- #ifdef __STDC__
- typedef enum rx_get_burst_return
- (*rx_get_burst_fn) (struct rx_string_position * pos,
- void * app_closure,
- int stop);
-
- #else
- typedef enum rx_get_burst_return (*rx_get_burst_fn) ();
- #endif
- enum rx_back_check_return
- {
- rx_back_check_continuation,
- rx_back_check_error,
- rx_back_check_pass,
- rx_back_check_fail
- };
- /* Back_check should advance the position it is passed
- * over rparen - lparen characters and return pass iff
- * the characters starting at POS match those indexed
- * by [LPAREN..RPAREN].
- *
- * If a continuation is returned, then the reentering call to
- * a search function will retry the back_check.
- */
- #ifdef __STDC__
- typedef enum rx_back_check_return
- (*rx_back_check_fn) (struct rx_string_position * pos,
- int lparen,
- int rparen,
- unsigned char * translate,
- void * app_closure,
- int stop);
-
- #else
- typedef enum rx_back_check_return (*rx_back_check_fn) ();
- #endif
- /* A call to fetch_char should return the character at POS or POS + 1.
- * Returning continuations here isn't supported. OFFSET is either 0 or 1
- * and indicates which characters is desired.
- */
- #ifdef __STDC__
- typedef int (*rx_fetch_char_fn) (struct rx_string_position * pos,
- int offset,
- void * app_closure,
- int stop);
- #else
- typedef int (*rx_fetch_char_fn) ();
- #endif
- enum rx_search_return
- {
- rx_search_continuation = -4,
- rx_search_error = -3,
- rx_search_soft_fail = -2, /* failed by running out of string */
- rx_search_fail = -1 /* failed only by reaching failure states */
- /* return values >= 0 indicate the position of a successful match */
- };
- /* regex.h
- *
- * The remaining declarations replace regex.h.
- */
- /* This is an array of error messages corresponding to the error codes.
- */
- extern __const__ char *re_error_msg[];
- /* If any error codes are removed, changed, or added, update the
- `re_error_msg' table in regex.c. */
- typedef enum
- {
- REG_NOERROR = 0, /* Success. */
- REG_NOMATCH, /* Didn't find a match (for regexec). */
- /* POSIX regcomp return error codes. (In the order listed in the
- standard.) */
- REG_BADPAT, /* Invalid pattern. */
- REG_ECOLLATE, /* Not implemented. */
- REG_ECTYPE, /* Invalid character class name. */
- REG_EESCAPE, /* Trailing backslash. */
- REG_ESUBREG, /* Invalid back reference. */
- REG_EBRACK, /* Unmatched left bracket. */
- REG_EPAREN, /* Parenthesis imbalance. */
- REG_EBRACE, /* Unmatched \{. */
- REG_BADBR, /* Invalid contents of \{\}. */
- REG_ERANGE, /* Invalid range end. */
- REG_ESPACE, /* Ran out of memory. */
- REG_BADRPT, /* No preceding re for repetition op. */
- /* Error codes we've added. */
- REG_EEND, /* Premature end. */
- REG_ESIZE, /* Compiled pattern bigger than 2^16 bytes. */
- REG_ERPAREN /* Unmatched ) or \); not returned from regcomp. */
- } reg_errcode_t;
- /* The regex.c support, as a client of rx, defines a set of possible
- * side effects that can be added to the edge lables of nfa edges.
- * Here is the list of sidef effects in use.
- */
- enum re_side_effects
- {
- #define RX_WANT_SE_DEFS 1
- #undef RX_DEF_SE
- #undef RX_DEF_CPLX_SE
- #define RX_DEF_SE(IDEM, NAME, VALUE) NAME VALUE,
- #define RX_DEF_CPLX_SE(IDEM, NAME, VALUE) NAME VALUE,
- #include <regex.h>
- #undef RX_DEF_SE
- #undef RX_DEF_CPLX_SE
- #undef RX_WANT_SE_DEFS
- re_floogle_flap = 65533
- };
- /* These hold paramaters for the kinds of side effects that are possible
- * in the supported pattern languages. These include things like the
- * numeric bounds of {} operators and the index of paren registers for
- * subexpression measurement or backreferencing.
- */
- struct re_se_params
- {
- enum re_side_effects se;
- int op1;
- int op2;
- };
- typedef unsigned reg_syntax_t;
- struct re_pattern_buffer
- {
- struct rx rx;
- reg_syntax_t syntax; /* See below for syntax bit definitions. */
- unsigned int no_sub:1; /* If set, don't return register offsets. */
- unsigned int not_bol:1; /* If set, the anchors ('^' and '$') don't */
- unsigned int not_eol:1; /* match at the ends of the string. */
- unsigned int newline_anchor:1;/* If true, an anchor at a newline matches.*/
- unsigned int least_subs:1; /* If set, and returning registers, return
- * as few values as possible. Only
- * backreferenced groups and group 0 (the whole
- * match) will be returned.
- */
- /* If true, this says that the matcher should keep registers on its
- * backtracking stack. For many patterns, we can easily determine that
- * this isn't necessary.
- */
- unsigned int match_regs_on_stack:1;
- unsigned int search_regs_on_stack:1;
- /* is_anchored and begbuf_only are filled in by rx_compile. */
- unsigned int is_anchored:1; /* Anchorded by ^? */
- unsigned int begbuf_only:1; /* Anchored to char position 0? */
-
- /* If REGS_UNALLOCATED, allocate space in the `regs' structure
- * for `max (RE_NREGS, re_nsub + 1)' groups.
- * If REGS_REALLOCATE, reallocate space if necessary.
- * If REGS_FIXED, use what's there.
- */
- #define REGS_UNALLOCATED 0
- #define REGS_REALLOCATE 1
- #define REGS_FIXED 2
- unsigned int regs_allocated:2;
-
- /* Either a translate table to apply to all characters before
- * comparing them, or zero for no translation. The translation
- * is applied to a pattern when it is compiled and to a string
- * when it is matched.
- */
- unsigned char * translate;
- /* If this is a valid pointer, it tells rx not to store the extents of
- * certain subexpressions (those corresponding to non-zero entries).
- * Passing 0x1 is the same as passing an array of all ones. Passing 0x0
- * is the same as passing an array of all zeros.
- * The array should contain as many entries as their are subexps in the
- * regexp.
- *
- * For POSIX compatability, when using regcomp and regexec this field
- * is zeroed and ignored.
- */
- char * syntax_parens;
- /* Number of subexpressions found by the compiler. */
- size_t re_nsub;
- void * buffer; /* Malloced memory for the nfa. */
- unsigned long allocated; /* Size of that memory. */
- /* Pointer to a fastmap, if any, otherwise zero. re_search uses
- * the fastmap, if there is one, to skip over impossible
- * starting points for matches. */
- char *fastmap;
- unsigned int fastmap_accurate:1; /* These three are internal. */
- unsigned int can_match_empty:1;
- struct rx_nfa_state * start; /* The nfa starting state. */
- /* This is the list of iterator bounds for {lo,hi} constructs.
- * The memory pointed to is part of the rx->buffer.
- */
- struct re_se_params *se_params;
- /* This is a bitset representation of the fastmap.
- * This is a true fastmap that already takes the translate
- * table into account.
- */
- rx_Bitset fastset;
- };
- /* Type for byte offsets within the string. POSIX mandates this. */
- typedef int regoff_t;
- /* This is the structure we store register match data in. See
- regex.texinfo for a full description of what registers match. */
- struct re_registers
- {
- unsigned num_regs;
- regoff_t *start;
- regoff_t *end;
- };
- typedef struct re_pattern_buffer regex_t;
- /* POSIX specification for registers. Aside from the different names than
- `re_registers', POSIX uses an array of structures, instead of a
- structure of arrays. */
- typedef struct
- {
- regoff_t rm_so; /* Byte offset from string's start to substring's start. */
- regoff_t rm_eo; /* Byte offset from string's start to substring's end. */
- } regmatch_t;
- /* The following bits are used to determine the regexp syntax we
- recognize. The set/not-set meanings are chosen so that Emacs syntax
- remains the value 0. The bits are given in alphabetical order, and
- the definitions shifted by one from the previous bit; thus, when we
- add or remove a bit, only one other definition need change. */
- /* If this bit is not set, then \ inside a bracket expression is literal.
- If set, then such a \ quotes the following character. */
- #define RE_BACKSLASH_ESCAPE_IN_LISTS (1)
- /* If this bit is not set, then + and ? are operators, and \+ and \? are
- literals.
- If set, then \+ and \? are operators and + and ? are literals. */
- #define RE_BK_PLUS_QM (RE_BACKSLASH_ESCAPE_IN_LISTS << 1)
- /* If this bit is set, then character classes are supported. They are:
- [:alpha:], [:upper:], [:lower:], [:digit:], [:alnum:], [:xdigit:],
- [:space:], [:print:], [:punct:], [:graph:], and [:cntrl:].
- If not set, then character classes are not supported. */
- #define RE_CHAR_CLASSES (RE_BK_PLUS_QM << 1)
- /* If this bit is set, then ^ and $ are always anchors (outside bracket
- expressions, of course).
- If this bit is not set, then it depends:
- ^ is an anchor if it is at the beginning of a regular
- expression or after an open-group or an alternation operator;
- $ is an anchor if it is at the end of a regular expression, or
- before a close-group or an alternation operator.
- This bit could be (re)combined with RE_CONTEXT_INDEP_OPS, because
- POSIX draft 11.2 says that * etc. in leading positions is undefined.
- We already implemented a previous draft which made those constructs
- invalid, though, so we haven't changed the code back. */
- #define RE_CONTEXT_INDEP_ANCHORS (RE_CHAR_CLASSES << 1)
- /* If this bit is set, then special characters are always special
- regardless of where they are in the pattern.
- If this bit is not set, then special characters are special only in
- some contexts; otherwise they are ordinary. Specifically,
- * + ? and intervals are only special when not after the beginning,
- open-group, or alternation operator. */
- #define RE_CONTEXT_INDEP_OPS (RE_CONTEXT_INDEP_ANCHORS << 1)
- /* If this bit is set, then *, +, ?, and { cannot be first in an re or
- immediately after an alternation or begin-group operator. */
- #define RE_CONTEXT_INVALID_OPS (RE_CONTEXT_INDEP_OPS << 1)
- /* If this bit is set, then . matches newline.
- If not set, then it doesn't. */
- #define RE_DOT_NEWLINE (RE_CONTEXT_INVALID_OPS << 1)
- /* If this bit is set, then . doesn't match NUL.
- If not set, then it does. */
- #define RE_DOT_NOT_NULL (RE_DOT_NEWLINE << 1)
- /* If this bit is set, nonmatching lists [^...] do not match newline.
- If not set, they do. */
- #define RE_HAT_LISTS_NOT_NEWLINE (RE_DOT_NOT_NULL << 1)
- /* If this bit is set, either \{...\} or {...} defines an
- interval, depending on RE_NO_BK_BRACES.
- If not set, \{, \}, {, and } are literals. */
- #define RE_INTERVALS (RE_HAT_LISTS_NOT_NEWLINE << 1)
- /* If this bit is set, +, ? and | aren't recognized as operators.
- If not set, they are. */
- #define RE_LIMITED_OPS (RE_INTERVALS << 1)
- /* If this bit is set, newline is an alternation operator.
- If not set, newline is literal. */
- #define RE_NEWLINE_ALT (RE_LIMITED_OPS << 1)
- /* If this bit is set, then `{...}' defines an interval, and \{ and \}
- are literals.
- If not set, then `\{...\}' defines an interval. */
- #define RE_NO_BK_BRACES (RE_NEWLINE_ALT << 1)
- /* If this bit is set, (...) defines a group, and \( and \) are literals.
- If not set, \(...\) defines a group, and ( and ) are literals. */
- #define RE_NO_BK_PARENS (RE_NO_BK_BRACES << 1)
- /* If this bit is set, then \<digit> matches <digit>.
- If not set, then \<digit> is a back-reference. */
- #define RE_NO_BK_REFS (RE_NO_BK_PARENS << 1)
- /* If this bit is set, then | is an alternation operator, and \| is literal.
- If not set, then \| is an alternation operator, and | is literal. */
- #define RE_NO_BK_VBAR (RE_NO_BK_REFS << 1)
- /* If this bit is set, then an ending range point collating higher
- than the starting range point, as in [z-a], is invalid.
- If not set, then when ending range point collates higher than the
- starting range point, the range is ignored. */
- #define RE_NO_EMPTY_RANGES (RE_NO_BK_VBAR << 1)
- /* If this bit is set, then an unmatched ) is ordinary.
- If not set, then an unmatched ) is invalid. */
- #define RE_UNMATCHED_RIGHT_PAREN_ORD (RE_NO_EMPTY_RANGES << 1)
- /* If this bit is set, do not process the GNU regex operators.
- IF not set, then the GNU regex operators are recognized. */
- #define RE_NO_GNU_OPS (RE_UNMATCHED_RIGHT_PAREN_ORD << 1)
- /* This global variable defines the particular regexp syntax to use (for
- some interfaces). When a regexp is compiled, the syntax used is
- stored in the pattern buffer, so changing this does not affect
- already-compiled regexps. */
- extern reg_syntax_t re_syntax_options;
- /* Define combinations of the above bits for the standard possibilities.
- (The [[[ comments delimit what gets put into the Texinfo file, so
- don't delete them!) */
- /* [[[begin syntaxes]]] */
- #define RE_SYNTAX_EMACS 0
- #define RE_SYNTAX_AWK \
- (RE_BACKSLASH_ESCAPE_IN_LISTS | RE_DOT_NOT_NULL \
- | RE_NO_BK_PARENS | RE_NO_BK_REFS \
- | RE_NO_BK_VBAR | RE_NO_EMPTY_RANGES \
- | RE_DOT_NEWLINE \
- | RE_UNMATCHED_RIGHT_PAREN_ORD | RE_NO_GNU_OPS)
- #define RE_SYNTAX_GNU_AWK \
- ((RE_SYNTAX_POSIX_EXTENDED | RE_BACKSLASH_ESCAPE_IN_LISTS) \
- & ~(RE_DOT_NOT_NULL|RE_INTERVALS))
- #define RE_SYNTAX_POSIX_AWK \
- (RE_SYNTAX_POSIX_EXTENDED | RE_BACKSLASH_ESCAPE_IN_LISTS | RE_NO_GNU_OPS)
- #define RE_SYNTAX_GREP \
- (RE_BK_PLUS_QM | RE_CHAR_CLASSES \
- | RE_HAT_LISTS_NOT_NEWLINE | RE_INTERVALS \
- | RE_NEWLINE_ALT)
- #define RE_SYNTAX_EGREP \
- (RE_CHAR_CLASSES | RE_CONTEXT_INDEP_ANCHORS \
- | RE_CONTEXT_INDEP_OPS | RE_HAT_LISTS_NOT_NEWLINE \
- | RE_NEWLINE_ALT | RE_NO_BK_PARENS \
- | RE_NO_BK_VBAR)
- #define RE_SYNTAX_POSIX_EGREP \
- (RE_SYNTAX_EGREP | RE_INTERVALS | RE_NO_BK_BRACES)
- /* P1003.2/D11.2, section 4.20.7.1, lines 5078ff. */
- #define RE_SYNTAX_ED RE_SYNTAX_POSIX_BASIC
- #define RE_SYNTAX_SED RE_SYNTAX_POSIX_BASIC
- /* Syntax bits common to both basic and extended POSIX regex syntax. */
- #define _RE_SYNTAX_POSIX_COMMON \
- (RE_CHAR_CLASSES | RE_DOT_NEWLINE | RE_DOT_NOT_NULL \
- | RE_INTERVALS | RE_NO_EMPTY_RANGES)
- #define RE_SYNTAX_POSIX_BASIC \
- (_RE_SYNTAX_POSIX_COMMON | RE_BK_PLUS_QM)
- /* Differs from ..._POSIX_BASIC only in that RE_BK_PLUS_QM becomes
- RE_LIMITED_OPS, i.e., \? \+ \| are not recognized. Actually, this
- isn't minimal, since other operators, such as \`, aren't disabled. */
- #define RE_SYNTAX_POSIX_MINIMAL_BASIC \
- (_RE_SYNTAX_POSIX_COMMON | RE_LIMITED_OPS)
- #define RE_SYNTAX_POSIX_EXTENDED \
- (_RE_SYNTAX_POSIX_COMMON | RE_CONTEXT_INDEP_ANCHORS \
- | RE_CONTEXT_INDEP_OPS | RE_NO_BK_BRACES \
- | RE_NO_BK_PARENS | RE_NO_BK_VBAR \
- | RE_UNMATCHED_RIGHT_PAREN_ORD)
- /* Differs from ..._POSIX_EXTENDED in that RE_CONTEXT_INVALID_OPS
- replaces RE_CONTEXT_INDEP_OPS and RE_NO_BK_REFS is added. */
- #define RE_SYNTAX_POSIX_MINIMAL_EXTENDED \
- (_RE_SYNTAX_POSIX_COMMON | RE_CONTEXT_INDEP_ANCHORS \
- | RE_CONTEXT_INVALID_OPS | RE_NO_BK_BRACES \
- | RE_NO_BK_PARENS | RE_NO_BK_REFS \
- | RE_NO_BK_VBAR | RE_UNMATCHED_RIGHT_PAREN_ORD)
- /* [[[end syntaxes]]] */
- /* Maximum number of duplicates an interval can allow. Some systems
- (erroneously) define this in other header files, but we want our
- value, so remove any previous define. */
- #ifdef RE_DUP_MAX
- #undef RE_DUP_MAX
- #endif
- /* if sizeof(int) == 2, then ((1 << 15) - 1) overflows */
- #define RE_DUP_MAX (0x7fff)
- /* POSIX `cflags' bits (i.e., information for `regcomp'). */
- /* If this bit is set, then use extended regular expression syntax.
- If not set, then use basic regular expression syntax. */
- #define REG_EXTENDED 1
- /* If this bit is set, then ignore case when matching.
- If not set, then case is significant. */
- #define REG_ICASE (REG_EXTENDED << 1)
-
- /* If this bit is set, then anchors do not match at newline
- characters in the string.
- If not set, then anchors do match at newlines. */
- #define REG_NEWLINE (REG_ICASE << 1)
- /* If this bit is set, then report only success or fail in regexec.
- If not set, then returns differ between not matching and errors. */
- #define REG_NOSUB (REG_NEWLINE << 1)
- /* POSIX `eflags' bits (i.e., information for regexec). */
- /* If this bit is set, then the beginning-of-line operator doesn't match
- the beginning of the string (presumably because it's not the
- beginning of a line).
- If not set, then the beginning-of-line operator does match the
- beginning of the string. */
- #define REG_NOTBOL 1
- /* Like REG_NOTBOL, except for the end-of-line. */
- #define REG_NOTEOL (1 << 1)
- /* If `regs_allocated' is REGS_UNALLOCATED in the pattern buffer,
- * `re_match_2' returns information about at least this many registers
- * the first time a `regs' structure is passed.
- *
- * Also, this is the greatest number of backreferenced subexpressions
- * allowed in a pattern being matched without caller-supplied registers.
- */
- #ifndef RE_NREGS
- #define RE_NREGS 30
- #endif
- extern int rx_cache_bound;
- extern char rx_version_string[];
- #ifdef RX_WANT_RX_DEFS
- /* This is decls to the interesting subsystems and lower layers
- * of rx. Everything which doesn't have a public counterpart in
- * regex.c is declared here.
- */
- #ifdef __STDC__
- typedef void (*rx_hash_freefn) (struct rx_hash_item * it);
- #else /* ndef __STDC__ */
- typedef void (*rx_hash_freefn) ();
- #endif /* ndef __STDC__ */
- #ifdef __STDC__
- //RX_DECL int rx_bitset_is_equal (int size, rx_Bitset a, rx_Bitset b);
- RX_DECL int rx_bitset_is_subset (int size, rx_Bitset a, rx_Bitset b);
- //RX_DECL int rx_bitset_empty (int size, rx_Bitset set);
- RX_DECL void rx_bitset_null (int size, rx_Bitset b);
- RX_DECL void rx_bitset_universe (int size, rx_Bitset b);
- RX_DECL void rx_bitset_complement (int size, rx_Bitset b);
- RX_DECL void rx_bitset_assign (int size, rx_Bitset a, rx_Bitset b);
- RX_DECL void rx_bitset_union (int size, rx_Bitset a, rx_Bitset b);
- RX_DECL void rx_bitset_intersection (int size,
- rx_Bitset a, rx_Bitset b);
- RX_DECL void rx_bitset_difference (int size, rx_Bitset a, rx_Bitset b);
- //RX_DECL void rx_bitset_revdifference (int size,
- // rx_Bitset a, rx_Bitset b);
- //RX_DECL void rx_bitset_xor (int size, rx_Bitset a, rx_Bitset b);
- RX_DECL unsigned long rx_bitset_hash (int size, rx_Bitset b);
- RX_DECL struct rx_hash_item * rx_hash_find (struct rx_hash * table,
- unsigned long hash,
- void * value,
- struct rx_hash_rules * rules);
- RX_DECL struct rx_hash_item * rx_hash_store (struct rx_hash * table,
- unsigned long hash,
- void * value,
- struct rx_hash_rules * rules);
- RX_DECL void rx_hash_free (struct rx_hash_item * it, struct rx_hash_rules * rules);
- RX_DECL void rx_free_hash_table (struct rx_hash * tab, rx_hash_freefn freefn,
- struct rx_hash_rules * rules);
- RX_DECL rx_Bitset rx_cset (struct rx *rx);
- RX_DECL rx_Bitset rx_copy_cset (struct rx *rx, rx_Bitset a);
- RX_DECL void rx_free_cset (struct rx * rx, rx_Bitset c);
- RX_DECL struct rexp_node * rexp_node (struct rx *rx,
- enum rexp_node_type type);
- RX_DECL struct rexp_node * rx_mk_r_cset (struct rx * rx,
- rx_Bitset b);
- RX_DECL struct rexp_node * rx_mk_r_concat (struct rx * rx,
- struct rexp_node * a,
- struct rexp_node * b);
- RX_DECL struct rexp_node * rx_mk_r_alternate (struct rx * rx,
- struct rexp_node * a,
- struct rexp_node * b);
- RX_DECL struct rexp_node * rx_mk_r_opt (struct rx * rx,
- struct rexp_node * a);
- RX_DECL struct rexp_node * rx_mk_r_star (struct rx * rx,
- struct rexp_node * a);
- RX_DECL struct rexp_node * rx_mk_r_2phase_star (struct rx * rx,
- struct rexp_node * a,
- struct rexp_node * b);
- RX_DECL struct rexp_node * rx_mk_r_side_effect (struct rx * rx,
- rx_side_effect a);
- //RX_DECL struct rexp_node * rx_mk_r_data (struct rx * rx,
- // void * a);
- RX_DECL void rx_free_rexp (struct rx * rx, struct rexp_node * node);
- RX_DECL struct rexp_node * rx_copy_rexp (struct rx *rx,
- struct rexp_node *node);
- RX_DECL struct rx_nfa_state * rx_nfa_state (struct rx *rx);
- RX_DECL void rx_free_nfa_state (struct rx_nfa_state * n);
- RX_DECL struct rx_nfa_state * rx_id_to_nfa_state (struct rx * rx,
- int id);
- RX_DECL struct rx_nfa_edge * rx_nfa_edge (struct rx *rx,
- enum rx_nfa_etype type,
- struct rx_nfa_state *start,
- struct rx_nfa_state *dest);
- RX_DECL void rx_free_nfa_edge (struct rx_nfa_edge * e);
- RX_DECL void rx_free_nfa (struct rx *rx);
- RX_DECL int rx_build_nfa (struct rx *rx,
- struct rexp_node *rexp,
- struct rx_nfa_state **start,
- struct rx_nfa_state **end);
- RX_DECL void rx_name_nfa_states (struct rx *rx);
- RX_DECL int rx_eclose_nfa (struct rx *rx);
- RX_DECL void rx_delete_epsilon_transitions (struct rx *rx);
- RX_DECL int rx_compactify_nfa (struct rx *rx,
- void **mem, unsigned long *size);
- RX_DECL void rx_release_superset (struct rx *rx,
- struct rx_superset *set);
- RX_DECL struct rx_superset * rx_superset_cons (struct rx * rx,
- struct rx_nfa_state *car, struct rx_superset *cdr);
- RX_DECL struct rx_superset * rx_superstate_eclosure_union
- (struct rx * rx, struct rx_superset *set, struct rx_nfa_state_set *ecl);
- RX_DECL struct rx_superstate * rx_superstate (struct rx *rx,
- struct rx_superset *set);
- RX_DECL struct rx_inx * rx_handle_cache_miss
- (struct rx *rx, struct rx_superstate *super, unsigned char chr, void *data);
- RX_DECL reg_errcode_t rx_compile (__const__ char *pattern, int size,
- reg_syntax_t syntax,
- struct re_pattern_buffer * rxb);
- RX_DECL void rx_blow_up_fastmap (struct re_pattern_buffer * rxb);
- #else /* STDC */
- RX_DECL int rx_bitset_is_equal ();
- RX_DECL int rx_bitset_is_subset ();
- RX_DECL int rx_bitset_empty ();
- RX_DECL void rx_bitset_null ();
- RX_DECL void rx_bitset_universe ();
- RX_DECL void rx_bitset_complement ();
- RX_DECL void rx_bitset_assign ();
- RX_DECL void rx_bitset_union ();
- RX_DECL void rx_bitset_intersection ();
- RX_DECL void rx_bitset_difference ();
- RX_DECL void rx_bitset_revdifference ();
- RX_DECL void rx_bitset_xor ();
- RX_DECL unsigned long rx_bitset_hash ();
- RX_DECL struct rx_hash_item * rx_hash_find ();
- RX_DECL struct rx_hash_item * rx_hash_store ();
- RX_DECL void rx_hash_free ();
- RX_DECL void rx_free_hash_table ();
- RX_DECL rx_Bitset rx_cset ();
- RX_DECL rx_Bitset rx_copy_cset ();
- RX_DECL void rx_free_cset ();
- RX_DECL struct rexp_node * rexp_node ();
- RX_DECL struct rexp_node * rx_mk_r_cset ();
- RX_DECL struct rexp_node * rx_mk_r_concat ();
- RX_DECL struct rexp_node * rx_mk_r_alternate ();
- RX_DECL struct rexp_node * rx_mk_r_opt ();
- RX_DECL struct rexp_node * rx_mk_r_star ();
- RX_DECL struct rexp_node * rx_mk_r_2phase_star ();
- RX_DECL struct rexp_node * rx_mk_r_side_effect ();
- RX_DECL struct rexp_node * rx_mk_r_data ();
- RX_DECL void rx_free_rexp ();
- RX_DECL struct rexp_node * rx_copy_rexp ();
- RX_DECL struct rx_nfa_state * rx_nfa_state ();
- RX_DECL void rx_free_nfa_state ();
- RX_DECL struct rx_nfa_state * rx_id_to_nfa_state ();
- RX_DECL struct rx_nfa_edge * rx_nfa_edge ();
- RX_DECL void rx_free_nfa_edge ();
- RX_DECL void rx_free_nfa ();
- RX_DECL int rx_build_nfa ();
- RX_DECL void rx_name_nfa_states ();
- RX_DECL int rx_eclose_nfa ();
- RX_DECL void rx_delete_epsilon_transitions ();
- RX_DECL int rx_compactify_nfa ();
- RX_DECL void rx_release_superset ();
- RX_DECL struct rx_superset * rx_superset_cons ();
- RX_DECL struct rx_superset * rx_superstate_eclosure_union ();
- RX_DECL struct rx_superstate * rx_superstate ();
- RX_DECL struct rx_inx * rx_handle_cache_miss ();
- RX_DECL reg_errcode_t rx_compile ();
- RX_DECL void rx_blow_up_fastmap ();
- #endif /* STDC */
- #endif /* RX_WANT_RX_DEFS */
- #ifdef __STDC__
- extern int re_search_2 (struct re_pattern_buffer *rxb,
- __const__ char * string1, int size1,
- __const__ char * string2, int size2,
- int startpos, int range,
- struct re_registers *regs,
- int stop);
- extern int re_search (struct re_pattern_buffer * rxb, __const__ char *string,
- int size, int startpos, int range,
- struct re_registers *regs);
- extern int re_match_2 (struct re_pattern_buffer * rxb,
- __const__ char * string1, int size1,
- __const__ char * string2, int size2,
- int pos, struct re_registers *regs, int stop);
- extern int re_match (struct re_pattern_buffer * rxb,
- __const__ char * string,
- int size, int pos,
- struct re_registers *regs);
- extern reg_syntax_t re_set_syntax (reg_syntax_t syntax);
- extern void re_set_registers (struct re_pattern_buffer *bufp,
- struct re_registers *regs,
- unsigned num_regs,
- regoff_t * starts, regoff_t * ends);
- extern __const__ char * re_compile_pattern (__const__ char *pattern,
- int length,
- struct re_pattern_buffer * rxb);
- extern int re_compile_fastmap (struct re_pattern_buffer * rxb);
- extern char * re_comp (__const__ char *s);
- extern int re_exec (__const__ char *s);
- extern int regcomp (regex_t * preg, __const__ char * pattern, int cflags);
- extern int regexec (__const__ regex_t *preg, __const__ char *string,
- size_t nmatch, regmatch_t pmatch[],
- int eflags);
- extern size_t regerror (int errcode, __const__ regex_t *preg,
- char *errbuf, size_t errbuf_size);
- extern void regfree (regex_t *preg);
- #else /* STDC */
- extern int re_search_2 ();
- extern int re_search ();
- extern int re_match_2 ();
- extern int re_match ();
- extern reg_syntax_t re_set_syntax ();
- extern void re_set_registers ();
- extern __const__ char * re_compile_pattern ();
- extern int re_compile_fastmap ();
- extern char * re_comp ();
- extern int re_exec ();
- extern int regcomp ();
- extern int regexec ();
- extern size_t regerror ();
- extern void regfree ();
- #endif /* STDC */
- #ifdef RX_WANT_RX_DEFS
- struct rx_counter_frame
- {
- int tag;
- int val;
- struct rx_counter_frame * inherited_from; /* If this is a copy. */
- struct rx_counter_frame * cdr;
- };
- struct rx_backtrack_frame
- {
- char * counter_stack_sp;
- /* A frame is used to save the matchers state when it crosses a
- * backtracking point. The `stk_' fields correspond to variables
- * in re_search_2 (just strip off thes `stk_'). They are documented
- * tere.
- */
- struct rx_superstate * stk_super;
- unsigned int stk_c;
- struct rx_string_position stk_test_pos;
- int stk_last_l;
- int stk_last_r;
- int stk_test_ret;
- /* This is the list of options left to explore at the backtrack
- * point for which this frame was created.
- */
- struct rx_distinct_future * df;
- struct rx_distinct_future * first_df;
- #ifdef RX_DEBUG
- int stk_line_no;
- #endif
- };
- struct rx_stack_chunk
- {
- struct rx_stack_chunk * next_chunk;
- int bytes_left;
- char * sp;
- };
- enum rx_outer_entry
- {
- rx_outer_start,
- rx_outer_fastmap,
- rx_outer_test,
- rx_outer_restore_pos
- };
- enum rx_fastmap_return
- {
- rx_fastmap_continuation,
- rx_fastmap_error,
- rx_fastmap_ok,
- rx_fastmap_fail
- };
- enum rx_fastmap_entry
- {
- rx_fastmap_start,
- rx_fastmap_string_break
- };
- enum rx_test_return
- {
- rx_test_continuation,
- rx_test_error,
- rx_test_fail,
- rx_test_ok
- };
- enum rx_test_internal_return
- {
- rx_test_internal_error,
- rx_test_found_first,
- rx_test_line_finished
- };
- enum rx_test_match_entry
- {
- rx_test_start,
- rx_test_cache_hit_loop,
- rx_test_backreference_check,
- rx_test_backtrack_return
- };
- struct rx_search_state
- {
- /* Two groups of registers are kept. The group with the register state
- * of the current test match, and the group that holds the state at the end
- * of the best known match, if any.
- *
- * For some patterns, there may also be registers saved on the stack.
- */
- unsigned num_regs; /* Includes an element for register zero. */
- regoff_t * lparen; /* scratch space for register returns */
- regoff_t * rparen;
- regoff_t * best_lpspace; /* in case the user doesn't want these */
- regoff_t * best_rpspace; /* values, we still need space to store
- * them. Normally, this memoryis unused
- * and the space pointed to by REGS is
- * used instead.
- */
-
- int last_l; /* Highest index of a valid lparen. */
- int last_r; /* It's dual. */
-
- int * best_lparen; /* This contains the best known register */
- int * best_rparen; /* assignments.
- * This may point to the same mem as
- * best_lpspace, or it might point to memory
- * passed by the caller.
- */
- int best_last_l; /* best_last_l:best_lparen::last_l:lparen */
- int best_last_r;
- unsigned char * translate;
- struct rx_string_position outer_pos;
- struct rx_superstate * start_super;
- int nfa_choice;
- int first_found; /* If true, return after finding any match. */
- int ret_val;
- /* For continuations... */
- enum rx_outer_entry outer_search_resume_pt;
- struct re_pattern_buffer * saved_rxb;
- int saved_startpos;
- int saved_range;
- int saved_stop;
- int saved_total_size;
- rx_get_burst_fn saved_get_burst;
- rx_back_check_fn saved_back_check;
- struct re_registers * saved_regs;
-
- /**
- ** state for fastmap
- **/
- char * fastmap;
- int fastmap_chr;
- int fastmap_val;
- /* for continuations in the fastmap procedure: */
- enum rx_fastmap_entry fastmap_resume_pt;
- /**
- ** state for test_match
- **/
- /* The current superNFA position of the matcher. */
- struct rx_superstate * super;
-
- /* The matcher interprets a series of instruction frames.
- * This is the `instruction counter' for the interpretation.
- */
- struct rx_inx * ifr;
-
- /* We insert a ghost character in the string to prime
- * the nfa. test_pos.pos, test_pos.str_half, and test_pos.end_half
- * keep track of the test-match position and string-half.
- */
- unsigned char c;
-
- /* Position within the string. */
- struct rx_string_position test_pos;
- struct rx_stack_chunk * counter_stack;
- struct rx_stack_chunk * backtrack_stack;
- int backtrack_frame_bytes;
- int chunk_bytes;
- struct rx_stack_chunk * free_chunks;
- /* To return from this function, set test_ret and
- * `goto test_do_return'.
- *
- * Possible return values are:
- * 1 --- end of string while the superNFA is still going
- * 0 --- internal error (out of memory)
- * -1 --- search completed by reaching the superNFA fail state
- * -2 --- a match was found, maybe not the longest.
- *
- * When the search is complete (-1), best_last_r indicates whether
- * a match was found.
- *
- * -2 is return only if search_state.first_found is non-zero.
- *
- * if search_state.first_found is non-zero, a return of -1 indicates no match,
- * otherwise, best_last_r has to be checked.
- */
- int test_ret;
- int could_have_continued;
-
- #ifdef RX_DEBUG
- int backtrack_depth;
- /* There is a search tree with every node as set of deterministic
- * transitions in the super nfa. For every branch of a
- * backtrack point is an edge in the tree.
- * This counts up a pre-order of nodes in that tree.
- * It's saved on the search stack and printed when debugging.
- */
- int line_no;
- int lines_found;
- #endif
- /* For continuations within the match tester */
- enum rx_test_match_entry test_match_resume_pt;
- struct rx_inx * saved_next_tr_table;
- struct rx_inx * saved_this_tr_table;
- int saved_reg;
- struct rx_backtrack_frame * saved_bf;
-
- };
- static __inline__ void init_fastmap( struct re_pattern_buffer *,
- struct rx_search_state * );
- extern char rx_slowmap[];
- extern unsigned char rx_id_translation[];
- static __inline__ void
- init_fastmap( struct re_pattern_buffer * rxb,
- struct rx_search_state * search_state )
- {
- search_state->fastmap = (rxb->fastmap
- ? (char *)rxb->fastmap
- : (char *)rx_slowmap);
- /* Update the fastmap now if not correct already.
- * When the regexp was compiled, the fastmap was computed
- * and stored in a bitset. This expands the bitset into a
- * character array containing 1s and 0s.
- */
- if ((search_state->fastmap == rxb->fastmap) && !rxb->fastmap_accurate)
- rx_blow_up_fastmap (rxb);
- search_state->fastmap_chr = -1;
- search_state->fastmap_val = 0;
- search_state->fastmap_resume_pt = rx_fastmap_start;
- }
- static __inline__ void
- uninit_fastmap ( struct re_pattern_buffer * rxb,
- struct rx_search_state * search_state )
- {
- /* Unset the fastmap sentinel */
- if (search_state->fastmap_chr >= 0)
- search_state->fastmap[search_state->fastmap_chr]
- = search_state->fastmap_val;
- }
- static __inline__ int
- fastmap_search ( struct re_pattern_buffer * rxb, int stop,
- rx_get_burst_fn get_burst, void * app_closure,
- struct rx_search_state * search_state )
- {
- enum rx_fastmap_entry pc;
- if (0)
- {
- return_continuation:
- search_state->fastmap_resume_pt = pc;
- return rx_fastmap_continuation;
- }
- pc = search_state->fastmap_resume_pt;
- switch (pc)
- {
- default:
- return rx_fastmap_error;
- case rx_fastmap_start:
- init_fastmap_sentinal:
- /* For the sake of fast fastmapping, set a sentinal in the fastmap.
- * This sentinal will trap the fastmap loop when it reaches the last
- * valid character in a string half.
- *
- * This must be reset when the fastmap/search loop crosses a string
- * boundry, and before returning to the caller. So sometimes,
- * the fastmap loop is restarted with `continue', othertimes by
- * `goto init_fastmap_sentinal'.
- */
- if (search_state->outer_pos.size)
- {
- search_state->fastmap_chr = ((search_state->outer_pos.search_direction == 1)
- ? *(search_state->outer_pos.end - 1)
- : *search_state->outer_pos.string);
- search_state->fastmap_val
- = search_state->fastmap[search_state->fastmap_chr];
- search_state->fastmap[search_state->fastmap_chr] = 1;
- }
- else
- {
- search_state->fastmap_chr = -1;
- search_state->fastmap_val = 0;
- }
-
- if (search_state->outer_pos.pos >= search_state->outer_pos.end)
- goto fastmap_hit_bound;
- else
- {
- if (search_state->outer_pos.search_direction == 1)
- {
- if (search_state->fastmap_val)
- {
- for (;;)
- {
- while (!search_state->fastmap[*search_state->outer_pos.pos])
- ++search_state->outer_pos.pos;
- return rx_fastmap_ok;
- }
- }
- else
- {
- for (;;)
- {
- while (!search_state->fastmap[*search_state->outer_pos.pos])
- ++search_state->outer_pos.pos;
- if (*search_state->outer_pos.pos != search_state->fastmap_chr)
- return rx_fastmap_ok;
- else
- {
- ++search_state->outer_pos.pos;
- if (search_state->outer_pos.pos == search_state->outer_pos.end)
- goto fastmap_hit_bound;
- }
- }
- }
- }
- else
- {
- __const__ unsigned char * bound;
- bound = search_state->outer_pos.string - 1;
- if (search_state->fastmap_val)
- {
- for (;;)
- {
- while (!search_state->fastmap[*search_state->outer_pos.pos])
- --search_state->outer_pos.pos;
- return rx_fastmap_ok;
- }
- }
- else
- {
- for (;;)
- {
- while (!search_state->fastmap[*search_state->outer_pos.pos])
- --search_state->outer_pos.pos;
- if ((*search_state->outer_pos.pos != search_state->fastmap_chr) || search_state->fastmap_val)
- return rx_fastmap_ok;
- else
- {
- --search_state->outer_pos.pos;
- if (search_state->outer_pos.pos == bound)
- goto fastmap_hit_bound;
- }
- }
- }
- }
- }
-
- case rx_fastmap_string_break:
- fastmap_hit_bound:
- {
- /* If we hit a bound, it may be time to fetch another burst
- * of string, or it may be time to return a continuation to
- * the caller, or it might be time to fail.
- */
- int burst_state;
- burst_state = get_burst (&search_state->outer_pos, app_closure, stop);
- switch (burst_state)
- {
- default:
- case rx_get_burst_error:
- return rx_fastmap_error;
- case rx_get_burst_continuation:
- {
- pc = rx_fastmap_string_break;
- goto return_continuation;
- }
- case rx_get_burst_ok:
- goto init_fastmap_sentinal;
- case rx_get_burst_no_more:
- /* ...not a string split, simply no more string.
- *
- * When searching backward, running out of string
- * is reason to quit.
- *
- * When searching forward, we allow the possibility
- * of an (empty) match after the last character in the
- * virtual string. So, fall through to the matcher
- */
- return ( (search_state->outer_pos.search_direction == 1)
- ? rx_fastmap_ok
- : rx_fastmap_fail);
- }
- }
- }
- }
- #ifdef emacs
- /* The `emacs' switch turns on certain matching commands
- * that make sense only in Emacs.
- */
- #include "config.h"
- #include "lisp.h"
- #include "buffer.h"
- #include "syntax.h"
- #endif /* emacs */
- /* Setting RX_MEMDBUG is useful if you have dbmalloc. Maybe with similar
- * packages too.
- */
- #ifdef RX_MEMDBUG
- #include <malloc.h>
- #endif /* RX_RX_MEMDBUG */
- /* We used to test for `BSTRING' here, but only GCC and Emacs define
- * `BSTRING', as far as I know, and neither of them use this code.
- */
- #if HAVE_STRING_H || __STDC__
- #include <string.h>
- #ifndef bcmp
- #define bcmp(s1, s2, n) memcmp ((s1), (s2), (n))
- #endif
- #ifndef bcopy
- #define bcopy(s, d, n) memcpy ((d), (s), (n))
- #endif
- #ifndef bzero
- #define bzero(s, n) memset ((s), 0, (n))
- #endif
- #else /* HAVE_STRING_H || __STDC__ */
- #include <strings.h>
- #endif /* not (HAVE_STRING_H || __STDC__) */
- #ifdef __STDC__
- #include <stdlib.h>
- #else /* not __STDC__ */
- char *malloc ();
- char *realloc ();
- #endif /* not __STDC__ */
- /* How many characters in the character set. */
- #define CHAR_SET_SIZE (1 << CHARBITS)
- #ifndef emacs
- /* Define the syntax basics for \<, \>, etc.
- * This must be nonzero for the wordchar and notwordchar pattern
- * commands in re_match_2.
- */
- #ifndef Sword
- #define Sword 1
- #endif
- #define SYNTAX(c) re_syntax_table[c]
- RX_DECL char re_syntax_table[CHAR_SET_SIZE];
- #endif /* not emacs */
- /* Test if at very beginning or at very end of the virtual concatenation
- * of `string1' and `string2'. If only one string, it's `string2'.
- */
- #define AT_STRINGS_BEG() \
- ( -1 \
- == ((search_state.test_pos.pos - search_state.test_pos.string) \
- + search_state.test_pos.offset))
- #define AT_STRINGS_END() \
- ( (total_size - 1) \
- == ((search_state.test_pos.pos - search_state.test_pos.string) \
- + search_state.test_pos.offset))
- /* Test if POS + 1 points to a character which is word-constituent. We have
- * two special cases to check for: if past the end of string1, look at
- * the first character in string2; and if before the beginning of
- * string2, look at the last character in string1.
- *
- * Assumes `string1' exists, so use in conjunction with AT_STRINGS_BEG ().
- */
- #define LETTER_P(POS,OFF) \
- ( SYNTAX (fetch_char(POS, OFF, app_closure, stop)) \
- == Sword)
- /* Test if the character at D and the one after D differ with respect
- * to being word-constituent.
- */
- #define AT_WORD_BOUNDARY(d) \
- (AT_STRINGS_BEG () || AT_STRINGS_END () || LETTER_P (d,0) != LETTER_P (d, 1))
- #ifdef RX_SUPPORT_CONTINUATIONS
- #define RX_STACK_ALLOC(BYTES) malloc(BYTES)
- #define RX_STACK_FREE(MEM) free(MEM)
- #else
- #define RX_STACK_ALLOC(BYTES) alloca(BYTES)
- #define RX_STACK_FREE(MEM) \
- ((struct rx_stack_chunk *)MEM)->next_chunk = search_state.free_chunks; \
- search_state.free_chunks = ((struct rx_stack_chunk *)MEM);
- #endif
- #define PUSH(CHUNK_VAR,BYTES) \
- if (!CHUNK_VAR || (CHUNK_VAR->bytes_left < (BYTES))) \
- { \
- struct rx_stack_chunk * new_chunk; \
- if (search_state.free_chunks) \
- { \
- new_chunk = search_state.free_chunks; \
- search_state.free_chunks = search_state.free_chunks->next_chunk; \
- } \
- else \
- { \
- new_chunk = (struct rx_stack_chunk *)RX_STACK_ALLOC(search_state.chunk_bytes); \
- if (!new_chunk) \
- { \
- search_state.ret_val = 0; \
- goto test_do_return; \
- } \
- } \
- new_chunk->sp = (char *)new_chunk + sizeof (struct rx_stack_chunk); \
- new_chunk->bytes_left = (search_state.chunk_bytes \
- - (BYTES) \
- - sizeof (struct rx_stack_chunk)); \
- new_chunk->next_chunk = CHUNK_VAR; \
- CHUNK_VAR = new_chunk; \
- } \
- else \
- (CHUNK_VAR->sp += (BYTES)), (CHUNK_VAR->bytes_left -= (BYTES))
- #define POP(CHUNK_VAR,BYTES) \
- if (CHUNK_VAR->sp == ((char *)CHUNK_VAR + sizeof(*CHUNK_VAR))) \
- { \
- struct rx_stack_chunk * new_chunk = CHUNK_VAR->next_chunk; \
- RX_STACK_FREE(CHUNK_VAR); \
- CHUNK_VAR = new_chunk; \
- } \
- else \
- (CHUNK_VAR->sp -= BYTES), (CHUNK_VAR->bytes_left += BYTES)
- #define SRCH_TRANSLATE(C) search_state.translate[(unsigned char) (C)]
- #ifdef __STDC__
- RX_DECL __inline__ int
- rx_search (struct re_pattern_buffer * rxb,
- int startpos,
- int range,
- int stop,
- int total_size,
- rx_get_burst_fn get_burst,
- rx_back_check_fn back_check,
- rx_fetch_char_fn fetch_char,
- void * app_closure,
- struct re_registers * regs,
- struct rx_search_state * resume_state,
- struct rx_search_state * save_state)
- #else
- RX_DECL __inline__ int
- rx_search (rxb, startpos, range, stop, total_size,
- get_burst, back_check, fetch_char,
- app_closure, regs, resume_state, save_state)
- struct re_pattern_buffer * rxb;
- int startpos;
- int range;
- int stop;
- int total_size;
- rx_get_burst_fn get_burst;
- rx_back_check_fn back_check;
- rx_fetch_char_fn fetch_char;
- void * app_closure;
- struct re_registers * regs;
- struct rx_search_state * resume_state;
- struct rx_search_state * save_state;
- #endif
- {
- int pc;
- int test_state;
- struct rx_search_state search_state;
- search_state.free_chunks = 0;
- if (!resume_state)
- pc = rx_outer_start;
- else
- {
- search_state = *resume_state;
- regs = search_state.saved_regs;
- rxb = search_state.saved_rxb;
- startpos = search_state.saved_startpos;
- range = search_state.saved_range;
- stop = search_state.saved_stop;
- total_size = search_state.saved_total_size;
- get_burst = search_state.saved_get_burst;
- back_check = search_state.saved_back_check;
- pc = search_state.outer_search_resume_pt;
- if (0)
- {
- return_continuation:
- if (save_state)
- {
- *save_state = search_state;
- save_state->saved_regs = regs;
- save_state->saved_rxb = rxb;
- save_state->saved_startpos = startpos;
- save_state->saved_range = range;
- save_state->saved_stop = stop;
- save_state->saved_total_size = total_size;
- save_state->saved_get_burst = get_burst;
- save_state->saved_back_check = back_check;
- save_state->outer_search_resume_pt = pc;
- }
- return rx_search_continuation;
- }
- }
- switch (pc)
- {
- case rx_outer_start:
- search_state.ret_val = rx_search_fail;
- ( search_state.lparen
- = search_state.rparen
- = search_state.best_lpspace
- = search_state.best_rpspace
- = 0);
-
- /* figure the number of registers we may need for use in backreferences.
- * the number here includes an element for register zero.
- */
- search_state.num_regs = rxb->re_nsub + 1;
-
-
- /* check for out-of-range startpos. */
- if ((startpos < 0) || (startpos > total_size))
- return rx_search_fail;
-
- /* fix up range if it might eventually take us outside the string. */
- {
- int endpos;
- endpos = startpos + range;
- if (endpos < -1)
- range = (-1 - startpos);
- else if (endpos > (total_size + 1))
- range = total_size - startpos;
- }
-
- /* if the search isn't to be a backwards one, don't waste time in a
- * long search for a pattern that says it is anchored.
- */
- if (rxb->begbuf_only && (range > 0))
- {
- if (startpos > 0)
- return rx_search_fail;
- else
- range = 1;
- }
-
- /* decide whether to use internal or user-provided reg buffers. */
- if (!regs || rxb->no_sub)
- {
- search_state.best_lpspace =
- (regoff_t *)REGEX_ALLOCATE (search_state.num_regs * sizeof(regoff_t));
- search_state.best_rpspace =
- (regoff_t *)REGEX_ALLOCATE (search_state.num_regs * sizeof(regoff_t));
- search_state.best_lparen = search_state.best_lpspace;
- search_state.best_rparen = search_state.best_rpspace;
- }
- else
- {
- /* have the register data arrays been allocated? */
- if (rxb->regs_allocated == REGS_UNALLOCATED)
- { /* no. so allocate them with malloc. we need one
- extra element beyond `search_state.num_regs' for the `-1' marker
- gnu code uses. */
- regs->num_regs = MAX (RE_NREGS, rxb->re_nsub + 1);
- regs->start = ((regoff_t *)
- malloc (regs->num_regs * sizeof ( regoff_t)));
- regs->end = ((regoff_t *)
- malloc (regs->num_regs * sizeof ( regoff_t)));
- if (regs->start == 0 || regs->end == 0)
- return rx_search_error;
- rxb->regs_allocated = REGS_REALLOCATE;
- }
- else if (rxb->regs_allocated == REGS_REALLOCATE)
- { /* yes. if we need more elements than were already
- allocated, reallocate them. if we need fewer, just
- leave it alone. */
- if (regs->num_regs < search_state.num_regs + 1)
- {
- regs->num_regs = search_state.num_regs + 1;
- regs->start = ((regoff_t *)
- realloc (regs->start,
- regs->num_regs * sizeof (regoff_t)));
- regs->end = ((regoff_t *)
- realloc (regs->end,
- regs->num_regs * sizeof ( regoff_t)));
- if (regs->start == 0 || regs->end == 0)
- return rx_search_error;
- }
- }
- else if (rxb->regs_allocated != REGS_FIXED)
- return rx_search_error;
-
- if (regs->num_regs < search_state.num_regs + 1)
- {
- search_state.best_lpspace =
- ((regoff_t *)
- REGEX_ALLOCATE (search_state.num_regs * sizeof(regoff_t)));
- search_state.best_rpspace =
- ((regoff_t *)
- REGEX_ALLOCATE (search_state.num_regs * sizeof(regoff_t)));
- search_state.best_lparen = search_state.best_lpspace;
- search_state.best_rparen = search_state.best_rpspace;
- }
- else
- {
- search_state.best_lparen = regs->start;
- search_state.best_rparen = regs->end;
- }
- }
-
- search_state.lparen =
- (regoff_t *) REGEX_ALLOCATE (search_state.num_regs * sizeof(regoff_t));
- search_state.rparen =
- (regoff_t *) REGEX_ALLOCATE (search_state.num_regs * sizeof(regoff_t));
-
- if (! ( search_state.best_rparen
- && search_state.best_lparen
- && search_state.lparen && search_state.rparen))
- return rx_search_error;
-
- search_state.best_last_l = search_state.best_last_r = -1;
-
- search_state.translate = (rxb->translate
- ? rxb->translate
- : rx_id_translation);
-
-
-
- /*
- * two nfa's were compiled.
- * `0' is complete.
- * `1' faster but gets registers wrong and ends too soon.
- */
- search_state.nfa_choice = (regs && !rxb->least_subs) ? '\0' : '\1';
-
- /* we have the option to look for the best match or the first
- * one we can find. if the user isn't asking for register information,
- * we don't need to find the best match.
- */
- search_state.first_found = !regs;
-
- if (range >= 0)
- {
- search_state.outer_pos.search_end = startpos + range;
- search_state.outer_pos.search_direction = 1;
- }
- else
- {
- search_state.outer_pos.search_end = startpos + range;
- search_state.outer_pos.search_direction = -1;
- }
-
- /* the vacuous search always turns up nothing. */
- if ((search_state.outer_pos.search_direction == 1)
- ? (startpos > search_state.outer_pos.search_end)
- : (startpos < search_state.outer_pos.search_end))
- return rx_search_fail;
-
- /* now we build the starting state of the supernfa. */
- {
- struct rx_superset * start_contents;
- struct rx_nfa_state_set * start_nfa_set;
-
- /* we presume here that the nfa start state has only one
- * possible future with no side effects.
- */
- start_nfa_set = rxb->start->futures->destset;
- if ( rxb->rx.start_set
- && (rxb->rx.start_set->starts_for == &rxb->rx))
- start_contents = rxb->rx.start_set;
- else
- {
- start_contents =
- rx_superstate_eclosure_union (&rxb->rx,
- rx_superset_cons (&rxb->rx, 0, 0),
- start_nfa_set);
-
- if (!start_contents)
- return rx_search_fail;
-
- start_contents->starts_for = &rxb->rx;
- rxb->rx.start_set = start_contents;
- }
- if ( start_contents->superstate
- && (start_contents->superstate->rx_id == rxb->rx.rx_id))
- {
- search_state.start_super = start_contents->superstate;
- rx_lock_superstate (&rxb->rx, search_state.start_super);
- }
- else
- {
- rx_protect_superset (&rxb->rx, start_contents);
-
- search_state.start_super = rx_superstate (&rxb->rx, start_contents);
- if (!search_state.start_super)
- return rx_search_fail;
- rx_lock_superstate (&rxb->rx, search_state.start_super);
- rx_release_superset (&rxb->rx, start_contents);
- }
- }
-
-
- /* The outer_pos tracks the position within the strings
- * as seen by loop that calls fastmap_search.
- *
- * The caller supplied get_burst function actually
- * gives us pointers to chars.
- *
- * Communication with the get_burst function is through an
- * rx_string_position structure. Here, the structure for
- * outer_pos is initialized. It is set to point to the
- * NULL string, at an offset of STARTPOS. STARTPOS is out
- * of range of the NULL string, so the first call to
- * getburst will patch up the rx_string_position to point
- * to valid characters.
- */
- ( search_state.outer_pos.string
- = search_state.outer_pos.end
- = 0);
- search_state.outer_pos.offset = 0;
- search_state.outer_pos.size = 0;
- search_state.outer_pos.pos = (unsigned char *)startpos;
- init_fastmap (rxb, &search_state);
- search_state.fastmap_resume_pt = rx_fastmap_start;
- case rx_outer_fastmap:
- /* do { */
- pseudo_do:
- {
- {
- int fastmap_state;
- fastmap_state = fastmap_search (rxb, stop, get_burst, app_closure,
- &search_state);
- switch (fastmap_state)
- {
- case rx_fastmap_continuation:
- pc = rx_outer_fastmap;
- goto return_continuation;
- case rx_fastmap_fail:
- goto finish;
- case rx_fastmap_ok:
- break;
- }
- }
-
- /* now the fastmap loop has brought us to a plausible
- * starting point for a match. so, it's time to run the
- * nfa and see if a match occured.
- */
- startpos = ( search_state.outer_pos.pos
- - search_state.outer_pos.string
- + search_state.outer_pos.offset);
- #if 0
- /*|*/ if ((range > 0) && (startpos == search_state.outer_pos.search_end))
- /*|*/ goto finish;
- #endif
- }
- search_state.test_match_resume_pt = rx_test_start;
- /* do interrupted for entry point... */
- case rx_outer_test:
- /* ...do continued */
- {
- goto test_match;
- test_returns_to_search:
- switch (test_state)
- {
- case rx_test_continuation:
- pc = rx_outer_test;
- goto return_continuation;
- case rx_test_error:
- search_state.ret_val = rx_search_error;
- goto finish;
- case rx_test_fail:
- break;
- case rx_test_ok:
- goto finish;
- }
- search_state.outer_pos.pos += search_state.outer_pos.search_direction;
- startpos += search_state.outer_pos.search_direction;
- #if 0
- /*|*/ if (search_state.test_pos.pos < search_state.test_pos.end)
- /*|*/ break;
- #endif
- }
- /* do interrupted for entry point... */
- case rx_outer_restore_pos:
- {
- int x;
- x = get_burst (&search_state.outer_pos, app_closure, stop);
- switch (x)
- {
- case rx_get_burst_continuation:
- pc = rx_outer_restore_pos;
- goto return_continuation;
- case rx_get_burst_error:
- search_state.ret_val = rx_search_error;
- goto finish;
- case rx_get_burst_no_more:
- if (rxb->can_match_empty)
- break;
- goto finish;
- case rx_get_burst_ok:
- break;
- }
- } /* } while (...see below...) */
- if ((search_state.outer_pos.search_direction == 1)
- ? (startpos <= search_state.outer_pos.search_end)
- : (startpos > search_state.outer_pos.search_end))
- goto pseudo_do;
-
- finish:
- uninit_fastmap (rxb, &search_state);
- if (search_state.start_super)
- rx_unlock_superstate (&rxb->rx, search_state.start_super);
-
- #ifdef regex_malloc
- if (search_state.lparen) free (search_state.lparen);
- if (search_state.rparen) free (search_state.rparen);
- if (search_state.best_lpspace) free (search_state.best_lpspace);
- if (search_state.best_rpspace) free (search_state.best_rpspace);
- #endif
- return search_state.ret_val;
- }
- test_match:
- {
- enum rx_test_match_entry test_pc;
- int inx;
- test_pc = search_state.test_match_resume_pt;
- if (test_pc == rx_test_start)
- {
- #ifdef RX_DEBUG
- search_state.backtrack_depth = 0;
- #endif
- search_state.last_l = search_state.last_r = 0;
- search_state.lparen[0] = startpos;
- search_state.super = search_state.start_super;
- search_state.c = search_state.nfa_choice;
- search_state.test_pos.pos = search_state.outer_pos.pos - 1;
- search_state.test_pos.string = search_state.outer_pos.string;
- search_state.test_pos.end = search_state.outer_pos.end;
- search_state.test_pos.offset = search_state.outer_pos.offset;
- search_state.test_pos.size = search_state.outer_pos.size;
- search_state.test_pos.search_direction = 1;
- search_state.counter_stack = 0;
- search_state.backtrack_stack = 0;
- search_state.backtrack_frame_bytes =
- (sizeof (struct rx_backtrack_frame)
- + (rxb->match_regs_on_stack
- ? sizeof (regoff_t) * (search_state.num_regs + 1) * 2
- : 0));
- search_state.chunk_bytes = search_state.backtrack_frame_bytes * 64;
- search_state.test_ret = rx_test_line_finished;
- search_state.could_have_continued = 0;
- }
- /* This is while (1)...except that the body of the loop is interrupted
- * by some alternative entry points.
- */
- pseudo_while_1:
- switch (test_pc)
- {
- case rx_test_cache_hit_loop:
- goto resume_continuation_1;
- case rx_test_backreference_check:
- goto resume_continuation_2;
- case rx_test_backtrack_return:
- goto resume_continuation_3;
- case rx_test_start:
- #ifdef RX_DEBUG
- /* There is a search tree with every node as set of deterministic
- * transitions in the super nfa. For every branch of a
- * backtrack point is an edge in the tree.
- * This counts up a pre-order of nodes in that tree.
- * It's saved on the search stack and printed when debugging.
- */
- search_state.line_no = 0;
- search_state.lines_found = 0;
- #endif
-
- top_of_cycle:
- /* A superstate is basicly a transition table, indexed by
- * characters from the string being tested, and containing
- * RX_INX (`instruction frame') structures.
- */
- search_state.ifr = &search_state.super->transitions [search_state.c];
-
- recurse_test_match:
- /* This is the point to which control is sent when the
- * test matcher `recurses'. Before jumping here, some variables
- * need to be saved on the stack and the next instruction frame
- * has to be computed.
- */
-
- restart:
- /* Some instructions don't advance the matcher, but just
- * carry out some side effects and fetch a new instruction.
- * To dispatch that new instruction, `goto restart'.
- */
-
- {
- struct rx_inx * next_tr_table = NULL;
- struct rx_inx * this_tr_table = NULL;
- /* The fastest route through the loop is when the instruction
- * is RX_NEXT_CHAR. This case is detected when SEARCH_STATE.IFR->DATA
- * is non-zero. In that case, it points to the next
- * superstate.
- *
- * This allows us to not bother fetching the bytecode.
- */
- next_tr_table = (struct rx_inx *)search_state.ifr->data;
- this_tr_table = search_state.super->transitions;
- while (next_tr_table)
- {
- #ifdef RX_DEBUG_0
- if (rx_debug_trace)
- {
- struct rx_superset * setp;
-
- fprintf (stderr, "%d %d>> re_next_char @ %d (%d)",
- search_state.line_no,
- search_state.backtrack_depth,
- (search_state.test_pos.pos - search_state.test_pos.string
- + search_state.test_pos.offset), search_state.c);
-
- search_state.super =
- ((struct rx_superstate *)
- ((char *)this_tr_table
- - ((unsigned long)
- ((struct rx_superstate *)0)->transitions)));
-
- setp = search_state.super->contents;
- fprintf (stderr, " superstet (rx=%d, &=%x: ",
- rxb->rx.rx_id, setp);
- while (setp)
- {
- fprintf (stderr, "%d ", setp->id);
- setp = setp->cdr;
- }
- fprintf (stderr, "\n");
- }
- #endif
- this_tr_table = next_tr_table;
- ++search_state.test_pos.pos;
- if (search_state.test_pos.pos == search_state.test_pos.end)
- {
- int burst_state;
- try_burst_1:
- burst_state = get_burst (&search_state.test_pos,
- app_closure, stop);
- switch (burst_state)
- {
- case rx_get_burst_continuation:
- search_state.saved_this_tr_table = this_tr_table;
- search_state.saved_next_tr_table = next_tr_table;
- test_pc = rx_test_cache_hit_loop;
- goto test_return_continuation;
-
- resume_continuation_1:
- /* Continuation one jumps here to do its work: */
- search_state.saved_this_tr_table = this_tr_table;
- search_state.saved_next_tr_table = next_tr_table;
- goto try_burst_1;
-
- case rx_get_burst_ok:
- /* get_burst succeeded...keep going */
- break;
-
- case rx_get_burst_no_more:
- search_state.test_ret = rx_test_line_finished;
- search_state.could_have_continued = 1;
- goto test_do_return;
-
- case rx_get_burst_error:
- /* An error... */
- search_state.test_ret = rx_test_internal_error;
- goto test_do_return;
- }
- }
- search_state.c = *search_state.test_pos.pos;
- search_state.ifr = this_tr_table + search_state.c;
- next_tr_table = (struct rx_inx *)search_state.ifr->data;
- } /* Fast loop through cached transition tables */
-
- /* Here when we ran out of cached next-char transitions.
- * So, it will be necessary to do a more expensive
- * dispatch on the current instruction. The superstate
- * pointer is allowed to become invalid during next-char
- * transitions -- now we must bring it up to date.
- */
- search_state.super =
- ((struct rx_superstate *)
- ((char *)this_tr_table
- - ((unsigned long)
- ((struct rx_superstate *)0)->transitions)));
- }
-
- /* We've encountered an instruction other than next-char.
- * Dispatch that instruction:
- */
- inx = (int)search_state.ifr->inx;
- #ifdef RX_DEBUG_0
- if (rx_debug_trace)
- {
- struct rx_superset * setp = search_state.super->contents;
-
- fprintf (stderr, "%d %d>> %s @ %d (%d)", search_state.line_no,
- search_state.backtrack_depth,
- inx_names[inx],
- (search_state.test_pos.pos - search_state.test_pos.string
- + (test_pos.half == 0 ? 0 : size1)), search_state.c);
-
- fprintf (stderr, " superstet (rx=%d, &=%x: ",
- rxb->rx.rx_id, setp);
- while (setp)
- {
- fprintf (stderr, "%d ", setp->id);
- setp = setp->cdr;
- }
- fprintf (stderr, "\n");
- }
- #endif
- switch ((enum rx_opcode)inx)
- {
- case rx_do_side_effects:
-
- /* RX_DO_SIDE_EFFECTS occurs when we cross epsilon
- * edges associated with parentheses, backreferencing, etc.
- */
- {
- struct rx_distinct_future * df =
- (struct rx_distinct_future *)search_state.ifr->data_2;
- struct rx_se_list * el = df->effects;
- /* Side effects come in lists. This walks down
- * a list, dispatching.
- */
- while (el)
- {
- long effect;
- effect = (long)el->car;
- if (effect < 0)
- {
- #ifdef RX_DEBUG_0
- if (rx_debug_trace)
- {
- struct rx_superset * setp = search_state.super->contents;
-
- fprintf (stderr, "....%d %d>> %s\n", search_state.line_no,
- search_state.backtrack_depth,
- efnames[-effect]);
- }
- #endif
- switch ((enum re_side_effects) effect)
- {
- case re_se_pushback:
- search_state.ifr = &df->future_frame;
- if (!search_state.ifr->data)
- {
- struct rx_superstate * sup;
- sup = search_state.super;
- rx_lock_superstate (rx, sup);
- if (!rx_handle_cache_miss (&rxb->rx,
- search_state.super,
- search_state.c,
- (search_state.ifr
- ->data_2)))
- {
- rx_unlock_superstate (rx, sup);
- search_state.test_ret = rx_test_internal_error;
- goto test_do_return;
- }
- rx_unlock_superstate (rx, sup);
- }
- /* --search_state.test_pos.pos; */
- search_state.c = 't';
- search_state.super
- = ((struct rx_superstate *)
- ((char *)search_state.ifr->data
- - (long)(((struct rx_superstate *)0)
- ->transitions)));
- goto top_of_cycle;
- break;
- case re_se_push0:
- {
- struct rx_counter_frame * old_cf
- = (search_state.counter_stack
- ? ((struct rx_counter_frame *)
- search_state.counter_stack->sp)
- : 0);
- struct rx_counter_frame * cf;
- PUSH (search_state.counter_stack,
- sizeof (struct rx_counter_frame));
- cf = ((struct rx_counter_frame *)
- search_state.counter_stack->sp);
- cf->tag = re_se_iter;
- cf->val = 0;
- cf->inherited_from = 0;
- cf->cdr = old_cf;
- break;
- }
- case re_se_fail:
- goto test_do_return;
- case re_se_begbuf:
- if (!AT_STRINGS_BEG ())
- goto test_do_return;
- break;
- case re_se_endbuf:
- if (!AT_STRINGS_END ())
- goto test_do_return;
- break;
- case re_se_wordbeg:
- if ( LETTER_P (&search_state.test_pos, 1)
- && ( AT_STRINGS_BEG()
- || !LETTER_P (&search_state.test_pos, 0)))
- break;
- else
- goto test_do_return;
- case re_se_wordend:
- if ( !AT_STRINGS_BEG ()
- && LETTER_P (&search_state.test_pos, 0)
- && (AT_STRINGS_END ()
- || !LETTER_P (&search_state.test_pos, 1)))
- break;
- else
- goto test_do_return;
- case re_se_wordbound:
- if (AT_WORD_BOUNDARY (&search_state.test_pos))
- break;
- else
- goto test_do_return;
- case re_se_notwordbound:
- if (!AT_WORD_BOUNDARY (&search_state.test_pos))
- break;
- else
- goto test_do_return;
- case re_se_hat:
- if (AT_STRINGS_BEG ())
- {
- if (rxb->not_bol)
- goto test_do_return;
- else
- break;
- }
- else
- {
- char pos_c = *search_state.test_pos.pos;
- if ( (SRCH_TRANSLATE (pos_c)
- == SRCH_TRANSLATE('\n'))
- && rxb->newline_anchor)
- break;
- else
- goto test_do_return;
- }
- case re_se_dollar:
- if (AT_STRINGS_END ())
- {
- if (rxb->not_eol)
- goto test_do_return;
- else
- break;
- }
- else
- {
- if ( ( SRCH_TRANSLATE (fetch_char
- (&search_state.test_pos, 1,
- app_closure, stop))
- == SRCH_TRANSLATE ('\n'))
- && rxb->newline_anchor)
- break;
- else
- goto test_do_return;
- }
-
- case re_se_try:
- /* This is the first side effect in every
- * expression.
- *
- * FOR NO GOOD REASON...get rid of it...
- */
- break;
-
- case re_se_pushpos:
- {
- int urhere =
- ((int)(search_state.test_pos.pos
- - search_state.test_pos.string)
- + search_state.test_pos.offset);
- struct rx_counter_frame * old_cf
- = (search_state.counter_stack
- ? ((struct rx_counter_frame *)
- search_state.counter_stack->sp)
- : 0);
- struct rx_counter_frame * cf;
- PUSH(search_state.counter_stack,
- sizeof (struct rx_counter_frame));
- cf = ((struct rx_counter_frame *)
- search_state.counter_stack->sp);
- cf->tag = re_se_pushpos;
- cf->val = urhere;
- cf->inherited_from = 0;
- cf->cdr = old_cf;
- break;
- }
-
- case re_se_chkpos:
- {
- int urhere =
- ((int)(search_state.test_pos.pos
- - search_state.test_pos.string)
- + search_state.test_pos.offset);
- struct rx_counter_frame * cf
- = ((struct rx_counter_frame *)
- search_state.counter_stack->sp);
- if (cf->val == urhere)
- goto test_do_return;
- cf->val = urhere;
- break;
- }
- break;
-
- case re_se_poppos:
- POP(search_state.counter_stack,
- sizeof (struct rx_counter_frame));
- break;
-
-
- case re_se_at_dot:
- case re_se_syntax:
- case re_se_not_syntax:
- #ifdef emacs
- /*
- * this release lacks emacs support
- */
- #endif
- break;
- case re_se_win:
- case re_se_lparen:
- case re_se_rparen:
- case re_se_backref:
- case re_se_iter:
- case re_se_end_iter:
- case re_se_tv:
- case re_floogle_flap:
- search_state.ret_val = 0;
- goto test_do_return;
- }
- }
- else
- {
- #ifdef RX_DEBUG_0
- if (rx_debug_trace)
- fprintf (stderr, "....%d %d>> %s %d %d\n", search_state.line_no,
- search_state.backtrack_depth,
- efnames2[rxb->se_params [effect].se],
- rxb->se_params [effect].op1,
- rxb->se_params [effect].op2);
- #endif
- switch (rxb->se_params [effect].se)
- {
- case re_se_win:
- /* This side effect indicates that we've
- * found a match, though not necessarily the
- * best match. This is a fancy assignment to
- * register 0 unless the caller didn't
- * care about registers. In which case,
- * this stops the match.
- */
- {
- int urhere =
- ((int)(search_state.test_pos.pos
- - search_state.test_pos.string)
- + search_state.test_pos.offset);
-
- if ( (search_state.best_last_r < 0)
- || (urhere + 1 > search_state.best_rparen[0]))
- {
- /* Record the best known and keep
- * looking.
- */
- int x;
- for (x = 0; x <= search_state.last_l; ++x)
- search_state.best_lparen[x] = search_state.lparen[x];
- search_state.best_last_l = search_state.last_l;
- for (x = 0; x <= search_state.last_r; ++x)
- search_state.best_rparen[x] = search_state.rparen[x];
- search_state.best_rparen[0] = urhere + 1;
- search_state.best_last_r = search_state.last_r;
- }
- /* If we're not reporting the match-length
- * or other register info, we need look no
- * further.
- */
- if (search_state.first_found)
- {
- search_state.test_ret = rx_test_found_first;
- goto test_do_return;
- }
- }
- break;
- case re_se_lparen:
- {
- int urhere =
- ((int)(search_state.test_pos.pos
- - search_state.test_pos.string)
- + search_state.test_pos.offset);
-
- int reg = rxb->se_params [effect].op1;
- #if 0
- if (reg > search_state.last_l)
- #endif
- {
- search_state.lparen[reg] = urhere + 1;
- /* In addition to making this assignment,
- * we now know that lower numbered regs
- * that haven't already been assigned,
- * won't be. We make sure they're
- * filled with -1, so they can be
- * recognized as unassigned.
- */
- if (search_state.last_l < reg)
- while (++search_state.last_l < reg)
- search_state.lparen[search_state.last_l] = -1;
- }
- break;
- }
-
- case re_se_rparen:
- {
- int urhere =
- ((int)(search_state.test_pos.pos
- - search_state.test_pos.string)
- + search_state.test_pos.offset);
- int reg = rxb->se_params [effect].op1;
- search_state.rparen[reg] = urhere + 1;
- if (search_state.last_r < reg)
- {
- while (++search_state.last_r < reg)
- search_state.rparen[search_state.last_r]
- = -1;
- }
- break;
- }
-
- case re_se_backref:
- {
- int reg = rxb->se_params [effect].op1;
- if ( reg > search_state.last_r
- || search_state.rparen[reg] < 0)
- goto test_do_return;
-
- {
- int backref_status;
- check_backreference:
- backref_status
- = back_check (&search_state.test_pos,
- search_state.lparen[reg],
- search_state.rparen[reg],
- search_state.translate,
- app_closure,
- stop);
- switch (backref_status)
- {
- case rx_back_check_continuation:
- search_state.saved_reg = reg;
- test_pc = rx_test_backreference_check;
- goto test_return_continuation;
- resume_continuation_2:
- reg = search_state.saved_reg;
- goto check_backreference;
- case rx_back_check_fail:
- /* Fail */
- goto test_do_return;
- case rx_back_check_pass:
- /* pass --
- * test_pos now advanced to last
- * char matched by backref
- */
- break;
- }
- }
- break;
- }
- case re_se_iter:
- {
- struct rx_counter_frame * csp
- = ((struct rx_counter_frame *)
- search_state.counter_stack->sp);
- if (csp->val == rxb->se_params[effect].op2)
- goto test_do_return;
- else
- ++csp->val;
- break;
- }
- case re_se_end_iter:
- {
- struct rx_counter_frame * csp
- = ((struct rx_counter_frame *)
- search_state.counter_stack->sp);
- if (csp->val < rxb->se_params[effect].op1)
- goto test_do_return;
- else
- {
- struct rx_counter_frame * source = csp;
- while (source->inherited_from)
- source = source->inherited_from;
- if (!source || !source->cdr)
- {
- POP(search_state.counter_stack,
- sizeof(struct rx_counter_frame));
- }
- else
- {
- source = source->cdr;
- csp->val = source->val;
- csp->tag = source->tag;
- csp->cdr = 0;
- csp->inherited_from = source;
- }
- }
- break;
- }
- case re_se_tv:
- /* is a noop */
- break;
- case re_se_try:
- case re_se_pushback:
- case re_se_push0:
- case re_se_pushpos:
- case re_se_chkpos:
- case re_se_poppos:
- case re_se_at_dot:
- case re_se_syntax:
- case re_se_not_syntax:
- case re_se_begbuf:
- case re_se_hat:
- case re_se_wordbeg:
- case re_se_wordbound:
- case re_se_notwordbound:
- case re_se_wordend:
- case re_se_endbuf:
- case re_se_dollar:
- case re_se_fail:
- case re_floogle_flap:
- search_state.ret_val = 0;
- goto test_do_return;
- }
- }
- el = el->cdr;
- }
- /* Now the side effects are done,
- * so get the next instruction.
- * and move on.
- */
- search_state.ifr = &df->future_frame;
- goto restart;
- }
-
- case rx_backtrack_point:
- {
- /* A backtrack point indicates that we've reached a
- * non-determinism in the superstate NFA. This is a
- * loop that exhaustively searches the possibilities.
- *
- * A backtracking strategy is used. We keep track of what
- * registers are valid so we can erase side effects.
- *
- * First, make sure there is some stack space to hold
- * our state.
- */
-
- struct rx_backtrack_frame * bf;
-
- PUSH(search_state.backtrack_stack,
- search_state.backtrack_frame_bytes);
- #ifdef RX_DEBUG_0
- ++search_state.backtrack_depth;
- #endif
-
- bf = ((struct rx_backtrack_frame *)
- search_state.backtrack_stack->sp);
- {
- bf->stk_super = search_state.super;
- /* We prevent the current superstate from being
- * deleted from the superstate cache.
- */
- rx_lock_superstate (&rxb->rx, search_state.super);
- #ifdef RX_DEBUG_0
- bf->stk_search_state.line_no = search_state.line_no;
- #endif
- bf->stk_c = search_state.c;
- bf->stk_test_pos = search_state.test_pos;
- bf->stk_last_l = search_state.last_l;
- bf->stk_last_r = search_state.last_r;
- bf->df = ((struct rx_super_edge *)
- search_state.ifr->data_2)->options;
- bf->first_df = bf->df;
- bf->counter_stack_sp = (search_state.counter_stack
- ? search_state.counter_stack->sp
- : 0);
- bf->stk_test_ret = search_state.test_ret;
- if (rxb->match_regs_on_stack)
- {
- int x;
- regoff_t * stk =
- (regoff_t *)((char *)bf + sizeof (*bf));
- for (x = 0; x <= search_state.last_l; ++x)
- stk[x] = search_state.lparen[x];
- stk += x;
- for (x = 0; x <= search_state.last_r; ++x)
- stk[x] = search_state.rparen[x];
- }
- }
-
- /* Here is a while loop whose body is mainly a function
- * call and some code to handle a return from that
- * function.
- *
- * From here on for the rest of `case backtrack_point' it
- * is unsafe to assume that the search_state copies of
- * variables saved on the backtracking stack are valid
- * -- so read their values from the backtracking stack.
- *
- * This lets us use one generation fewer stack saves in
- * the call-graph of a search.
- */
-
- while_non_det_options:
- #ifdef RX_DEBUG_0
- ++search_state.lines_found;
- if (rx_debug_trace)
- fprintf (stderr, "@@@ %d calls %d @@@\n",
- search_state.line_no, search_state.lines_found);
-
- search_state.line_no = search_state.lines_found;
- #endif
-
- if (bf->df->next_same_super_edge[0] == bf->first_df)
- {
- /* This is a tail-call optimization -- we don't recurse
- * for the last of the possible futures.
- */
- search_state.ifr = (bf->df->effects
- ? &bf->df->side_effects_frame
- : &bf->df->future_frame);
-
- rx_unlock_superstate (&rxb->rx, search_state.super);
- POP(search_state.backtrack_stack,
- search_state.backtrack_frame_bytes);
- #ifdef RX_DEBUG
- --search_state.backtrack_depth;
- #endif
- goto restart;
- }
- else
- {
- if (search_state.counter_stack)
- {
- struct rx_counter_frame * old_cf
- = ((struct rx_counter_frame *)search_state.counter_stack->sp);
- struct rx_counter_frame * cf;
- PUSH(search_state.counter_stack, sizeof (struct rx_counter_frame));
- cf = ((struct rx_counter_frame *)search_state.counter_stack->sp);
- cf->tag = old_cf->tag;
- cf->val = old_cf->val;
- cf->inherited_from = old_cf;
- cf->cdr = 0;
- }
- /* `Call' this test-match block */
- search_state.ifr = (bf->df->effects
- ? &bf->df->side_effects_frame
- : &bf->df->future_frame);
- goto recurse_test_match;
- }
-
- /* Returns in this block are accomplished by
- * goto test_do_return. There are two cases.
- * If there is some search-stack left,
- * then it is a return from a `recursive' call.
- * If there is no search-stack left, then
- * we should return to the fastmap/search loop.
- */
-
- test_do_return:
-
- if (!search_state.backtrack_stack)
- {
- #ifdef RX_DEBUG_0
- if (rx_debug_trace)
- fprintf (stderr, "!!! %d bails returning %d !!!\n",
- search_state.line_no, search_state.test_ret);
- #endif
-
- /* No more search-stack -- this test is done. */
- if (search_state.test_ret != rx_test_internal_error)
- goto return_from_test_match;
- else
- goto error_in_testing_match;
- }
-
- /* Returning from a recursive call to
- * the test match block:
- */
-
- bf = ((struct rx_backtrack_frame *)
- search_state.backtrack_stack->sp);
- #ifdef RX_DEBUG_0
- if (rx_debug_trace)
- fprintf (stderr, "+++ %d returns %d (to %d)+++\n",
- search_state.line_no,
- search_state.test_ret,
- bf->stk_search_state.line_no);
- #endif
-
- while (search_state.counter_stack
- && (!bf->counter_stack_sp
- || (bf->counter_stack_sp
- != search_state.counter_stack->sp)))
- {
- POP(search_state.counter_stack,
- sizeof (struct rx_counter_frame));
- }
-
- if (search_state.test_ret == rx_test_internal_error)
- {
- POP (search_state.backtrack_stack,
- search_state.backtrack_frame_bytes);
- goto test_do_return;
- }
-
- /* If a non-longest match was found and that is good
- * enough, return immediately.
- */
- if ( (search_state.test_ret == rx_test_found_first)
- && search_state.first_found)
- {
- rx_unlock_superstate (&rxb->rx, bf->stk_super);
- POP (search_state.backtrack_stack,
- search_state.backtrack_frame_bytes);
- goto test_do_return;
- }
-
- search_state.test_ret = bf->stk_test_ret;
- search_state.last_l = bf->stk_last_l;
- search_state.last_r = bf->stk_last_r;
- bf->df = bf->df->next_same_super_edge[0];
- search_state.super = bf->stk_super;
- search_state.c = bf->stk_c;
- #ifdef RX_DEBUG_0
- search_state.line_no = bf->stk_search_state.line_no;
- #endif
-
- if (rxb->match_regs_on_stack)
- {
- int x;
- regoff_t * stk =
- (regoff_t *)((char *)bf + sizeof (*bf));
- for (x = 0; x <= search_state.last_l; ++x)
- search_state.lparen[x] = stk[x];
- stk += x;
- for (x = 0; x <= search_state.last_r; ++x)
- search_state.rparen[x] = stk[x];
- }
-
- if ((search_state.test_ret != rx_test_line_finished) &&
- (search_state.test_ret != rx_test_internal_error))
- {
- int x;
- try_burst_2:
- x = get_burst (&bf->stk_test_pos, app_closure, stop);
- switch (x)
- {
- case rx_get_burst_continuation:
- search_state.saved_bf = bf;
- test_pc = rx_test_backtrack_return;
- goto test_return_continuation;
- resume_continuation_3:
- bf = search_state.saved_bf;
- goto try_burst_2;
- case rx_get_burst_no_more:
- /* Since we've been here before, it is some kind of
- * error that we can't return.
- */
- case rx_get_burst_error:
- search_state.test_ret = rx_test_internal_error;
- goto test_do_return;
- case rx_get_burst_ok:
- break;
- }
- }
- search_state.test_pos = bf->stk_test_pos;
- goto while_non_det_options;
- }
-
-
- case rx_cache_miss:
- /* Because the superstate NFA is lazily constructed,
- * and in fact may erode from underneath us, we sometimes
- * have to construct the next instruction from the hard way.
- * This invokes one step in the lazy-conversion.
- */
- search_state.ifr = rx_handle_cache_miss (&rxb->rx,
- search_state.super,
- search_state.c,
- search_state.ifr->data_2);
- if (!search_state.ifr)
- {
- search_state.test_ret = rx_test_internal_error;
- goto test_do_return;
- }
- goto restart;
-
- case rx_backtrack:
- /* RX_BACKTRACK means that we've reached the empty
- * superstate, indicating that match can't succeed
- * from this point.
- */
- goto test_do_return;
-
- case rx_next_char:
- case rx_error_inx:
- case rx_num_instructions:
- search_state.ret_val = 0;
- goto test_do_return;
- }
- goto pseudo_while_1;
- }
-
- /* Healthy exits from the test-match loop do a
- * `goto return_from_test_match' On the other hand,
- * we might end up here.
- */
- error_in_testing_match:
- test_state = rx_test_error;
- goto test_returns_to_search;
-
- /***** fastmap/search loop body
- * considering the results testing for a match
- */
-
- return_from_test_match:
-
- if (search_state.best_last_l >= 0)
- {
- if (regs && (regs->start != search_state.best_lparen))
- {
- bcopy (search_state.best_lparen, regs->start,
- regs->num_regs * sizeof (int));
- bcopy (search_state.best_rparen, regs->end,
- regs->num_regs * sizeof (int));
- }
- if (regs && !rxb->no_sub)
- {
- int q;
- int bound = (regs->num_regs < search_state.num_regs
- ? regs->num_regs
- : search_state.num_regs);
- regoff_t * s = regs->start;
- regoff_t * e = regs->end;
- for (q = search_state.best_last_l + 1; q < bound; ++q)
- s[q] = e[q] = -1;
- }
- search_state.ret_val = search_state.best_lparen[0];
- test_state = rx_test_ok;
- goto test_returns_to_search;
- }
- else
- {
- test_state = rx_test_fail;
- goto test_returns_to_search;
- }
-
- test_return_continuation:
- search_state.test_match_resume_pt = test_pc;
- test_state = rx_test_continuation;
- goto test_returns_to_search;
- }
- }
- #endif /* RX_WANT_RX_DEFS */
- #else /* RX_WANT_SE_DEFS */
- /* Integers are used to represent side effects.
- *
- * Simple side effects are given negative integer names by these enums.
- *
- * Non-negative names are reserved for complex effects.
- *
- * Complex effects are those that take arguments. For example,
- * a register assignment associated with a group is complex because
- * it requires an argument to tell which group is being matched.
- *
- * The integer name of a complex effect is an index into rxb->se_params.
- */
-
- RX_DEF_SE(1, re_se_try, = -1) /* Epsilon from start state */
- RX_DEF_SE(0, re_se_pushback, = re_se_try - 1)
- RX_DEF_SE(0, re_se_push0, = re_se_pushback -1)
- RX_DEF_SE(0, re_se_pushpos, = re_se_push0 - 1)
- RX_DEF_SE(0, re_se_chkpos, = re_se_pushpos -1)
- RX_DEF_SE(0, re_se_poppos, = re_se_chkpos - 1)
- RX_DEF_SE(1, re_se_at_dot, = re_se_poppos - 1) /* Emacs only */
- RX_DEF_SE(0, re_se_syntax, = re_se_at_dot - 1) /* Emacs only */
- RX_DEF_SE(0, re_se_not_syntax, = re_se_syntax - 1) /* Emacs only */
- RX_DEF_SE(1, re_se_begbuf, = re_se_not_syntax - 1) /* match beginning of buffer */
- RX_DEF_SE(1, re_se_hat, = re_se_begbuf - 1) /* match beginning of line */
- RX_DEF_SE(1, re_se_wordbeg, = re_se_hat - 1)
- RX_DEF_SE(1, re_se_wordbound, = re_se_wordbeg - 1)
- RX_DEF_SE(1, re_se_notwordbound, = re_se_wordbound - 1)
- RX_DEF_SE(1, re_se_wordend, = re_se_notwordbound - 1)
- RX_DEF_SE(1, re_se_endbuf, = re_se_wordend - 1)
- /* This fails except at the end of a line.
- * It deserves to go here since it is typicly one of the last steps
- * in a match.
- */
- RX_DEF_SE(1, re_se_dollar, = re_se_endbuf - 1)
- /* Simple effects: */
- RX_DEF_SE(1, re_se_fail, = re_se_dollar - 1)
- /* Complex effects. These are used in the 'se' field of
- * a struct re_se_params. Indexes into the se array
- * are stored as instructions on nfa edges.
- */
- RX_DEF_CPLX_SE(1, re_se_win, = 0)
- RX_DEF_CPLX_SE(1, re_se_lparen, = re_se_win + 1)
- RX_DEF_CPLX_SE(1, re_se_rparen, = re_se_lparen + 1)
- RX_DEF_CPLX_SE(0, re_se_backref, = re_se_rparen + 1)
- RX_DEF_CPLX_SE(0, re_se_iter, = re_se_backref + 1)
- RX_DEF_CPLX_SE(0, re_se_end_iter, = re_se_iter + 1)
- RX_DEF_CPLX_SE(0, re_se_tv, = re_se_end_iter + 1)
- #endif
- #if RX_WANT_SE_DEFS != 1
- __END_DECLS
- #endif
- #endif
|