@@ -676,27 +676,11 @@ bool function_info::group_line_p (unsigned n, unsigned src_idx)
typedef vector<arc_info *> arc_vector_t;
typedef vector<const block_info *> block_vector_t;
-/* Enum with types of loop in CFG. */
-
-enum loop_type
-{
- NO_LOOP = 0,
- LOOP = 1,
- NEGATIVE_LOOP = 3
-};
-
-/* Loop_type operator that merges two values: A and B. */
-
-inline loop_type& operator |= (loop_type& a, loop_type b)
-{
- return a = static_cast<loop_type> (a | b);
-}
-
/* Handle cycle identified by EDGES, where the function finds minimum cs_count
and subtract the value from all counts. The subtracted value is added
to COUNT. Returns type of loop. */
-static loop_type
+static void
handle_cycle (const arc_vector_t &edges, int64_t &count)
{
/* Find the minimum edge of the cycle, and reduce all nodes in the cycle by
@@ -712,7 +696,7 @@ handle_cycle (const arc_vector_t &edges, int64_t &count)
for (unsigned i = 0; i < edges.size (); i++)
edges[i]->cs_count -= cycle_count;
- return cycle_count < 0 ? NEGATIVE_LOOP : LOOP;
+ gcc_assert (cycle_count >= 0);
}
/* Unblock a block U from BLOCKED. Apart from that, iterate all blocks
@@ -743,12 +727,12 @@ unblock (const block_info *u, block_vector_t &blocked,
blocked by a block. COUNT is accumulated count of the current LINE.
Returns what type of loop it contains. */
-static loop_type
+static bool
circuit (block_info *v, arc_vector_t &path, block_info *start,
block_vector_t &blocked, vector<block_vector_t> &block_lists,
line_info &linfo, int64_t &count)
{
- loop_type result = NO_LOOP;
+ bool loop_found = false;
/* Add v to the block list. */
gcc_assert (find (blocked.begin (), blocked.end (), v) == blocked.end ());
@@ -763,15 +747,19 @@ circuit (block_info *v, arc_vector_t &path, block_info *start,
path.push_back (arc);
if (w == start)
- /* Cycle has been found. */
- result |= handle_cycle (path, count);
+ {
+ /* Cycle has been found. */
+ handle_cycle (path, count);
+ loop_found = true;
+ }
else if (find (blocked.begin (), blocked.end (), w) == blocked.end ())
- result |= circuit (w, path, start, blocked, block_lists, linfo, count);
+ loop_found |= circuit (w, path, start, blocked, block_lists, linfo,
+ count);
path.pop_back ();
}
- if (result != NO_LOOP)
+ if (loop_found)
unblock (v, blocked, block_lists);
else
for (arc_info *arc = v->succ; arc; arc = arc->succ_next)
@@ -788,14 +776,13 @@ circuit (block_info *v, arc_vector_t &path, block_info *start,
list.push_back (v);
}
- return result;
+ return loop_found;
}
-/* Find cycles for a LINFO. If HANDLE_NEGATIVE_CYCLES is set and the line
- contains a negative loop, then perform the same function once again. */
+/* Find cycles for a LINFO. */
static gcov_type
-get_cycles_count (line_info &linfo, bool handle_negative_cycles = true)
+get_cycles_count (line_info &linfo)
{
/* Note that this algorithm works even if blocks aren't in sorted order.
Each iteration of the circuit detection is completely independent
@@ -803,7 +790,7 @@ get_cycles_count (line_info &linfo, bool handle_negative_cycles = true)
Therefore, operating on a permuted order (i.e., non-sorted) only
has the effect of permuting the output cycles. */
- loop_type result = NO_LOOP;
+ bool loop_found = false;
gcov_type count = 0;
for (vector<block_info *>::iterator it = linfo.blocks.begin ();
it != linfo.blocks.end (); it++)
@@ -811,14 +798,10 @@ get_cycles_count (line_info &linfo, bool handle_negative_cycles = true)
arc_vector_t path;
block_vector_t blocked;
vector<block_vector_t > block_lists;
- result |= circuit (*it, path, *it, blocked, block_lists, linfo,
- count);
+ loop_found |= circuit (*it, path, *it, blocked, block_lists, linfo,
+ count);
}
- /* If we have a negative cycle, repeat the find_cycles routine. */
- if (result == NEGATIVE_LOOP && handle_negative_cycles)
- count += get_cycles_count (linfo, false);
-
return count;
}