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/* Classes for managing a directed graph of <point, state> pairs.
Copyright (C) 2019-2022 Free Software Foundation, Inc.
Contributed by David Malcolm <dmalcolm@redhat.com>.
This file is part of GCC.
GCC is free software; you can redistribute it and/or modify it
under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 3, or (at your option)
any later version.
GCC is distributed in the hope that it will be useful, but
WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
General Public License for more details.
You should have received a copy of the GNU General Public License
along with GCC; see the file COPYING3. If not see
<http://www.gnu.org/licenses/>. */
#ifndef GCC_ANALYZER_EXPLODED_GRAPH_H
#define GCC_ANALYZER_EXPLODED_GRAPH_H
namespace ana {
/* Concrete implementation of region_model_context, wiring it up to the
rest of the analysis engine. */
class impl_region_model_context : public region_model_context
{
public:
impl_region_model_context (exploded_graph &eg,
exploded_node *enode_for_diag,
/* TODO: should we be getting the ECs from the
old state, rather than the new? */
const program_state *old_state,
program_state *new_state,
uncertainty_t *uncertainty,
path_context *path_ctxt,
const gimple *stmt,
stmt_finder *stmt_finder = NULL);
impl_region_model_context (program_state *state,
const extrinsic_state &ext_state,
uncertainty_t *uncertainty,
logger *logger = NULL);
bool warn (pending_diagnostic *d) final override;
void add_note (pending_note *pn) final override;
void on_svalue_leak (const svalue *) override;
void on_liveness_change (const svalue_set &live_svalues,
const region_model *model) final override;
logger *get_logger () final override
{
return m_logger.get_logger ();
}
void on_state_leak (const state_machine &sm,
const svalue *sval,
state_machine::state_t state);
void on_condition (const svalue *lhs,
enum tree_code op,
const svalue *rhs) final override;
void on_bounded_ranges (const svalue &sval,
const bounded_ranges &ranges) final override;
void on_unknown_change (const svalue *sval, bool is_mutable) final override;
void on_phi (const gphi *phi, tree rhs) final override;
void on_unexpected_tree_code (tree t,
const dump_location_t &loc) final override;
void on_escaped_function (tree fndecl) final override;
uncertainty_t *get_uncertainty () final override;
void purge_state_involving (const svalue *sval) final override;
void bifurcate (custom_edge_info *info) final override;
void terminate_path () final override;
const extrinsic_state *get_ext_state () const final override
{
return &m_ext_state;
}
bool get_malloc_map (sm_state_map **out_smap,
const state_machine **out_sm,
unsigned *out_sm_idx) final override;
bool get_taint_map (sm_state_map **out_smap,
const state_machine **out_sm,
unsigned *out_sm_idx) final override;
const gimple *get_stmt () const override { return m_stmt; }
exploded_graph *m_eg;
log_user m_logger;
exploded_node *m_enode_for_diag;
const program_state *m_old_state;
program_state *m_new_state;
const gimple *m_stmt;
stmt_finder *m_stmt_finder;
const extrinsic_state &m_ext_state;
uncertainty_t *m_uncertainty;
path_context *m_path_ctxt;
};
/* A <program_point, program_state> pair, used internally by
exploded_node as its immutable data, and as a key for identifying
exploded_nodes we've already seen in the graph. */
class point_and_state
{
public:
point_and_state (const program_point &point,
const program_state &state)
: m_point (point),
m_state (state),
m_hash (m_point.hash () ^ m_state.hash ())
{
/* We shouldn't be building point_and_states and thus exploded_nodes
for states that aren't valid. */
gcc_assert (state.m_valid);
}
hashval_t hash () const
{
return m_hash;
}
bool operator== (const point_and_state &other) const
{
return m_point == other.m_point && m_state == other.m_state;
}
const program_point &get_point () const { return m_point; }
const program_state &get_state () const { return m_state; }
void set_state (const program_state &state)
{
m_state = state;
m_hash = m_point.hash () ^ m_state.hash ();
}
void validate (const extrinsic_state &ext_state) const;
private:
program_point m_point;
program_state m_state;
hashval_t m_hash;
};
/* A traits class for exploded graphs and their nodes and edges. */
struct eg_traits
{
typedef exploded_node node_t;
typedef exploded_edge edge_t;
typedef exploded_graph graph_t;
struct dump_args_t
{
dump_args_t (const exploded_graph &eg) : m_eg (eg) {}
bool show_enode_details_p (const exploded_node &enode) const;
virtual void
dump_extra_info (const exploded_node *, pretty_printer *) const {}
const exploded_graph &m_eg;
};
typedef exploded_cluster cluster_t;
};
/* An exploded_node is a unique, immutable <point, state> pair within the
exploded_graph.
Each exploded_node has a unique index within the graph
(for ease of debugging). */
class exploded_node : public dnode<eg_traits>
{
public:
/* Has this enode had exploded_graph::process_node called on it?
This allows us to distinguish enodes that were merged during
worklist-handling, and thus never had process_node called on them
(in favor of processing the merged node). */
enum status
{
/* Node is in the worklist. */
STATUS_WORKLIST,
/* Node has had exploded_graph::process_node called on it. */
STATUS_PROCESSED,
/* Node was left unprocessed due to merger; it won't have had
exploded_graph::process_node called on it. */
STATUS_MERGER,
/* Node was processed by maybe_process_run_of_before_supernode_enodes. */
STATUS_BULK_MERGED
};
static const char * status_to_str (enum status s);
exploded_node (const point_and_state &ps, int index);
hashval_t hash () const { return m_ps.hash (); }
const char * get_dot_fillcolor () const;
void dump_dot (graphviz_out *gv, const dump_args_t &args)
const final override;
void dump_dot_id (pretty_printer *pp) const;
void dump_to_pp (pretty_printer *pp, const extrinsic_state &ext_state) const;
void dump (FILE *fp, const extrinsic_state &ext_state) const;
void dump (const extrinsic_state &ext_state) const;
void dump_processed_stmts (pretty_printer *pp) const;
void dump_saved_diagnostics (pretty_printer *pp) const;
json::object *to_json (const extrinsic_state &ext_state) const;
/* The result of on_stmt. */
struct on_stmt_flags
{
on_stmt_flags () : m_terminate_path (false)
{}
static on_stmt_flags terminate_path ()
{
return on_stmt_flags (true);
}
/* Should we stop analyzing this path (on_stmt may have already
added nodes/edges, e.g. when handling longjmp). */
bool m_terminate_path : 1;
private:
on_stmt_flags (bool terminate_path)
: m_terminate_path (terminate_path)
{}
};
on_stmt_flags on_stmt (exploded_graph &eg,
const supernode *snode,
const gimple *stmt,
program_state *state,
uncertainty_t *uncertainty,
path_context *path_ctxt);
void on_stmt_pre (exploded_graph &eg,
const gimple *stmt,
program_state *state,
bool *out_terminate_path,
bool *out_unknown_side_effects,
region_model_context *ctxt);
void on_stmt_post (const gimple *stmt,
program_state *state,
bool unknown_side_effects,
region_model_context *ctxt);
bool on_edge (exploded_graph &eg,
const superedge *succ,
program_point *next_point,
program_state *next_state,
uncertainty_t *uncertainty);
void on_longjmp (exploded_graph &eg,
const gcall *call,
program_state *new_state,
region_model_context *ctxt);
void detect_leaks (exploded_graph &eg);
const program_point &get_point () const { return m_ps.get_point (); }
const supernode *get_supernode () const
{
return get_point ().get_supernode ();
}
function *get_function () const
{
return get_point ().get_function ();
}
int get_stack_depth () const
{
return get_point ().get_stack_depth ();
}
const gimple *get_stmt () const { return get_point ().get_stmt (); }
const gimple *get_processed_stmt (unsigned idx) const;
const program_state &get_state () const { return m_ps.get_state (); }
const point_and_state *get_ps_key () const { return &m_ps; }
const program_point *get_point_key () const { return &m_ps.get_point (); }
void dump_succs_and_preds (FILE *outf) const;
enum status get_status () const { return m_status; }
void set_status (enum status status)
{
gcc_assert (m_status == STATUS_WORKLIST);
m_status = status;
}
void add_diagnostic (const saved_diagnostic *sd)
{
m_saved_diagnostics.safe_push (sd);
}
unsigned get_num_diagnostics () const
{
return m_saved_diagnostics.length ();
}
const saved_diagnostic *get_saved_diagnostic (unsigned idx) const
{
return m_saved_diagnostics[idx];
}
private:
DISABLE_COPY_AND_ASSIGN (exploded_node);
/* The <program_point, program_state> pair. This is const, as it
is immutable once the exploded_node has been created. */
const point_and_state m_ps;
enum status m_status;
/* The saved_diagnostics at this enode, borrowed from the
diagnostic_manager. */
auto_vec <const saved_diagnostic *> m_saved_diagnostics;
public:
/* The index of this exploded_node. */
const int m_index;
/* The number of stmts that were processed when process_node was
called on this enode. */
unsigned m_num_processed_stmts;
};
/* An edge within the exploded graph.
Some exploded_edges have an underlying superedge; others don't. */
class exploded_edge : public dedge<eg_traits>
{
public:
exploded_edge (exploded_node *src, exploded_node *dest,
const superedge *sedge,
custom_edge_info *custom_info);
~exploded_edge ();
void dump_dot (graphviz_out *gv, const dump_args_t &args)
const final override;
void dump_dot_label (pretty_printer *pp) const;
json::object *to_json () const;
//private:
const superedge *const m_sedge;
/* NULL for most edges; will be non-NULL for special cases
such as an unwind from a longjmp to a setjmp, or when
a signal is delivered to a signal-handler.
Owned by this class. */
custom_edge_info *m_custom_info;
private:
DISABLE_COPY_AND_ASSIGN (exploded_edge);
};
/* Extra data for an exploded_edge that represents dynamic call info ( calls
that doesn't have an underlying superedge representing the call ). */
class dynamic_call_info_t : public custom_edge_info
{
public:
dynamic_call_info_t (const gcall *dynamic_call,
const bool is_returning_call = false)
: m_dynamic_call (dynamic_call),
m_is_returning_call (is_returning_call)
{}
void print (pretty_printer *pp) const final override
{
if (m_is_returning_call)
pp_string (pp, "dynamic_return");
else
pp_string (pp, "dynamic_call");
}
bool update_model (region_model *model,
const exploded_edge *eedge,
region_model_context *ctxt) const final override;
void add_events_to_path (checker_path *emission_path,
const exploded_edge &eedge) const final override;
private:
const gcall *m_dynamic_call;
const bool m_is_returning_call;
};
/* Extra data for an exploded_edge that represents a rewind from a
longjmp to a setjmp (or from a siglongjmp to a sigsetjmp). */
class rewind_info_t : public custom_edge_info
{
public:
rewind_info_t (const setjmp_record &setjmp_record,
const gcall *longjmp_call)
: m_setjmp_record (setjmp_record),
m_longjmp_call (longjmp_call)
{}
void print (pretty_printer *pp) const final override
{
pp_string (pp, "rewind");
}
bool update_model (region_model *model,
const exploded_edge *eedge,
region_model_context *ctxt) const final override;
void add_events_to_path (checker_path *emission_path,
const exploded_edge &eedge) const final override;
const program_point &get_setjmp_point () const
{
const program_point &origin_point = get_enode_origin ()->get_point ();
/* "origin_point" ought to be before the call to "setjmp". */
gcc_assert (origin_point.get_kind () == PK_BEFORE_STMT);
/* TODO: assert that it's the final stmt in its supernode. */
return origin_point;
}
const gcall *get_setjmp_call () const
{
return m_setjmp_record.m_setjmp_call;
}
const gcall *get_longjmp_call () const
{
return m_longjmp_call;
}
const exploded_node *get_enode_origin () const
{
return m_setjmp_record.m_enode;
}
private:
setjmp_record m_setjmp_record;
const gcall *m_longjmp_call;
};
/* Statistics about aspects of an exploded_graph. */
struct stats
{
stats (int num_supernodes);
void log (logger *logger) const;
void dump (FILE *out) const;
int get_total_enodes () const;
int m_num_nodes[NUM_POINT_KINDS];
int m_node_reuse_count;
int m_node_reuse_after_merge_count;
int m_num_supernodes;
};
/* Traits class for ensuring uniqueness of point_and_state data within
an exploded_graph. */
struct eg_hash_map_traits
{
typedef const point_and_state *key_type;
typedef exploded_node *value_type;
typedef exploded_node *compare_type;
static inline hashval_t hash (const key_type &k)
{
gcc_assert (k != NULL);
gcc_assert (k != reinterpret_cast<key_type> (1));
return k->hash ();
}
static inline bool equal_keys (const key_type &k1, const key_type &k2)
{
gcc_assert (k1 != NULL);
gcc_assert (k2 != NULL);
gcc_assert (k1 != reinterpret_cast<key_type> (1));
gcc_assert (k2 != reinterpret_cast<key_type> (1));
if (k1 && k2)
return *k1 == *k2;
else
/* Otherwise they must both be non-NULL. */
return k1 == k2;
}
template <typename T>
static inline void remove (T &)
{
/* empty; the nodes are handled elsewhere. */
}
template <typename T>
static inline void mark_deleted (T &entry)
{
entry.m_key = reinterpret_cast<key_type> (1);
}
template <typename T>
static inline void mark_empty (T &entry)
{
entry.m_key = NULL;
}
template <typename T>
static inline bool is_deleted (const T &entry)
{
return entry.m_key == reinterpret_cast<key_type> (1);
}
template <typename T>
static inline bool is_empty (const T &entry)
{
return entry.m_key == NULL;
}
static const bool empty_zero_p = false;
};
/* Per-program_point data for an exploded_graph. */
struct per_program_point_data
{
per_program_point_data (const program_point &key)
: m_key (key), m_excess_enodes (0)
{}
const program_point m_key;
auto_vec<exploded_node *> m_enodes;
/* The number of attempts to create an enode for this point
after exceeding --param=analyzer-max-enodes-per-program-point. */
int m_excess_enodes;
};
/* Traits class for storing per-program_point data within
an exploded_graph. */
struct eg_point_hash_map_traits
{
typedef const program_point *key_type;
typedef per_program_point_data *value_type;
typedef per_program_point_data *compare_type;
static inline hashval_t hash (const key_type &k)
{
gcc_assert (k != NULL);
gcc_assert (k != reinterpret_cast<key_type> (1));
return k->hash ();
}
static inline bool equal_keys (const key_type &k1, const key_type &k2)
{
gcc_assert (k1 != NULL);
gcc_assert (k2 != NULL);
gcc_assert (k1 != reinterpret_cast<key_type> (1));
gcc_assert (k2 != reinterpret_cast<key_type> (1));
if (k1 && k2)
return *k1 == *k2;
else
/* Otherwise they must both be non-NULL. */
return k1 == k2;
}
template <typename T>
static inline void remove (T &)
{
/* empty; the nodes are handled elsewhere. */
}
template <typename T>
static inline void mark_deleted (T &entry)
{
entry.m_key = reinterpret_cast<key_type> (1);
}
template <typename T>
static inline void mark_empty (T &entry)
{
entry.m_key = NULL;
}
template <typename T>
static inline bool is_deleted (const T &entry)
{
return entry.m_key == reinterpret_cast<key_type> (1);
}
template <typename T>
static inline bool is_empty (const T &entry)
{
return entry.m_key == NULL;
}
static const bool empty_zero_p = false;
};
/* Data about a particular call_string within an exploded_graph. */
struct per_call_string_data
{
per_call_string_data (const call_string &key, int num_supernodes)
: m_key (key), m_stats (num_supernodes)
{}
const call_string &m_key;
stats m_stats;
};
/* Data about a particular function within an exploded_graph. */
struct per_function_data
{
per_function_data () {}
void add_call_summary (exploded_node *node)
{
m_summaries.safe_push (node);
}
auto_vec<exploded_node *> m_summaries;
};
/* The strongly connected components of a supergraph.
In particular, this allows us to compute a partial ordering
of supernodes. */
class strongly_connected_components
{
public:
strongly_connected_components (const supergraph &sg, logger *logger);
int get_scc_id (int node_index) const
{
return m_per_node[node_index].m_lowlink;
}
void dump () const;
json::array *to_json () const;
private:
struct per_node_data
{
per_node_data ()
: m_index (-1), m_lowlink (-1), m_on_stack (false)
{}
int m_index;
int m_lowlink;
bool m_on_stack;
};
void strong_connect (unsigned index);
const supergraph &m_sg;
auto_vec<unsigned> m_stack;
auto_vec<per_node_data> m_per_node;
};
/* The worklist of exploded_node instances that have been added to
an exploded_graph, but that haven't yet been processed to find
their successors (or warnings).
The enodes are stored in a priority queue, ordered by a topological
sort of the SCCs in the supergraph, so that enodes for the same
program_point should appear at the front of the queue together.
This allows for state-merging at CFG join-points, so that
sufficiently-similar enodes can be merged into one. */
class worklist
{
public:
worklist (const exploded_graph &eg, const analysis_plan &plan);
unsigned length () const;
exploded_node *take_next ();
exploded_node *peek_next ();
void add_node (exploded_node *enode);
int get_scc_id (const supernode &snode) const
{
return m_scc.get_scc_id (snode.m_index);
}
json::object *to_json () const;
private:
class key_t
{
public:
key_t (const worklist &w, exploded_node *enode)
: m_worklist (w), m_enode (enode)
{}
bool operator< (const key_t &other) const
{
return cmp (*this, other) < 0;
}
bool operator== (const key_t &other) const
{
return cmp (*this, other) == 0;
}
bool operator> (const key_t &other) const
{
return !(*this == other || *this < other);
}
private:
static int cmp (const key_t &ka, const key_t &kb);
int get_scc_id (const exploded_node *enode) const
{
const supernode *snode = enode->get_supernode ();
if (snode == NULL)
return 0;
return m_worklist.m_scc.get_scc_id (snode->m_index);
}
const worklist &m_worklist;
exploded_node *m_enode;
};
/* The order is important here: m_scc needs to stick around
until after m_queue has finished being cleaned up (the dtor
calls the ordering fns). */
strongly_connected_components m_scc;
const analysis_plan &m_plan;
/* Priority queue, backed by a fibonacci_heap. */
typedef fibonacci_heap<key_t, exploded_node> queue_t;
queue_t m_queue;
};
/* An exploded_graph is a directed graph of unique <point, state> pairs.
It also has a worklist of nodes that are waiting for their successors
to be added to the graph. */
class exploded_graph : public digraph<eg_traits>
{
public:
typedef hash_map <const call_string *,
per_call_string_data *> call_string_data_map_t;
exploded_graph (const supergraph &sg, logger *logger,
const extrinsic_state &ext_state,
const state_purge_map *purge_map,
const analysis_plan &plan,
int verbosity);
~exploded_graph ();
logger *get_logger () const { return m_logger.get_logger (); }
const supergraph &get_supergraph () const { return m_sg; }
const extrinsic_state &get_ext_state () const { return m_ext_state; }
engine *get_engine () const { return m_ext_state.get_engine (); }
const state_purge_map *get_purge_map () const { return m_purge_map; }
const analysis_plan &get_analysis_plan () const { return m_plan; }
exploded_node *get_origin () const { return m_origin; }
exploded_node *add_function_entry (function *fun);
void build_initial_worklist ();
void process_worklist ();
bool maybe_process_run_of_before_supernode_enodes (exploded_node *node);
void process_node (exploded_node *node);
bool maybe_create_dynamic_call (const gcall *call,
tree fn_decl,
exploded_node *node,
program_state next_state,
program_point &next_point,
uncertainty_t *uncertainty,
logger *logger);
exploded_node *get_or_create_node (const program_point &point,
const program_state &state,
exploded_node *enode_for_diag);
exploded_edge *add_edge (exploded_node *src, exploded_node *dest,
const superedge *sedge,
custom_edge_info *custom = NULL);
per_program_point_data *
get_or_create_per_program_point_data (const program_point &);
per_program_point_data *
get_per_program_point_data (const program_point &) const;
per_call_string_data *
get_or_create_per_call_string_data (const call_string &);
per_function_data *
get_or_create_per_function_data (function *);
per_function_data *get_per_function_data (function *) const;
void save_diagnostic (const state_machine &sm,
const exploded_node *enode,
const supernode *node, const gimple *stmt,
stmt_finder *finder,
tree var, state_machine::state_t state,
pending_diagnostic *d);
diagnostic_manager &get_diagnostic_manager ()
{
return m_diagnostic_manager;
}
const diagnostic_manager &get_diagnostic_manager () const
{
return m_diagnostic_manager;
}
stats *get_global_stats () { return &m_global_stats; }
stats *get_or_create_function_stats (function *fn);
void log_stats () const;
void dump_stats (FILE *) const;
void dump_states_for_supernode (FILE *, const supernode *snode) const;
void dump_exploded_nodes () const;
json::object *to_json () const;
exploded_node *get_node_by_index (int idx) const;
const call_string_data_map_t *get_per_call_string_data () const
{ return &m_per_call_string_data; }
int get_scc_id (const supernode &node) const
{
return m_worklist.get_scc_id (node);
}
void on_escaped_function (tree fndecl);
private:
void print_bar_charts (pretty_printer *pp) const;
DISABLE_COPY_AND_ASSIGN (exploded_graph);
const supergraph &m_sg;
log_user m_logger;
/* Map from point/state to exploded node.
To avoid duplication we store point_and_state
*pointers* as keys, rather than point_and_state, using the
instance from within the exploded_node, with a custom hasher. */
typedef hash_map <const point_and_state *, exploded_node *,
eg_hash_map_traits> map_t;
map_t m_point_and_state_to_node;
/* Map from program_point to per-program_point data. */
typedef hash_map <const program_point *, per_program_point_data *,
eg_point_hash_map_traits> point_map_t;
point_map_t m_per_point_data;
worklist m_worklist;
exploded_node *m_origin;
const extrinsic_state &m_ext_state;
const state_purge_map *const m_purge_map;
const analysis_plan &m_plan;
typedef hash_map<function *, per_function_data *> per_function_data_t;
per_function_data_t m_per_function_data;
diagnostic_manager m_diagnostic_manager;
/* Stats. */
stats m_global_stats;
typedef ordered_hash_map<function *, stats *> function_stat_map_t;
function_stat_map_t m_per_function_stats;
stats m_functionless_stats;
call_string_data_map_t m_per_call_string_data;
auto_vec<int> m_PK_AFTER_SUPERNODE_per_snode;
/* Functions with a top-level enode, to make add_function_entry
be idempotent, for use in handling callbacks. */
hash_set<function *> m_functions_with_enodes;
};
/* A path within an exploded_graph: a sequence of edges. */
class exploded_path
{
public:
exploded_path () : m_edges () {}
exploded_path (const exploded_path &other);
unsigned length () const { return m_edges.length (); }
bool find_stmt_backwards (const gimple *search_stmt,
int *out_idx) const;
exploded_node *get_final_enode () const;
void dump_to_pp (pretty_printer *pp,
const extrinsic_state *ext_state) const;
void dump (FILE *fp, const extrinsic_state *ext_state) const;
void dump (const extrinsic_state *ext_state = NULL) const;
void dump_to_file (const char *filename,
const extrinsic_state &ext_state) const;
bool feasible_p (logger *logger, feasibility_problem **out,
engine *eng, const exploded_graph *eg) const;
auto_vec<const exploded_edge *> m_edges;
};
/* A reason why a particular exploded_path is infeasible. */
class feasibility_problem
{
public:
feasibility_problem (unsigned eedge_idx,
const exploded_edge &eedge,
const gimple *last_stmt,
rejected_constraint *rc)
: m_eedge_idx (eedge_idx), m_eedge (eedge),
m_last_stmt (last_stmt), m_rc (rc)
{}
~feasibility_problem () { delete m_rc; }
void dump_to_pp (pretty_printer *pp) const;
unsigned m_eedge_idx;
const exploded_edge &m_eedge;
const gimple *m_last_stmt;
rejected_constraint *m_rc;
};
/* A class for capturing the state of a node when checking a path
through the exploded_graph for feasibility. */
class feasibility_state
{
public:
feasibility_state (region_model_manager *manager,
const supergraph &sg);
feasibility_state (const feasibility_state &other);
bool maybe_update_for_edge (logger *logger,
const exploded_edge *eedge,
rejected_constraint **out_rc);
const region_model &get_model () const { return m_model; }
const auto_sbitmap &get_snodes_visited () const { return m_snodes_visited; }
void dump_to_pp (pretty_printer *pp, bool simple, bool multiline) const;
private:
region_model m_model;
auto_sbitmap m_snodes_visited;
};
/* Finding the shortest exploded_path within an exploded_graph. */
typedef shortest_paths<eg_traits, exploded_path> shortest_exploded_paths;
/* Abstract base class for use when passing NULL as the stmt for
a possible warning, allowing the choice of stmt to be deferred
until after we have an emission path (and know we're emitting a
warning). */
class stmt_finder
{
public:
virtual ~stmt_finder () {}
virtual stmt_finder *clone () const = 0;
virtual const gimple *find_stmt (const exploded_path &epath) = 0;
};
// TODO: split the above up?
} // namespace ana
#endif /* GCC_ANALYZER_EXPLODED_GRAPH_H */
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