/* Interchange heuristics and transform for loop interchange on
polyhedral representation.
- Copyright (C) 2009 Free Software Foundation, Inc.
+ Copyright (C) 2009, 2010 Free Software Foundation, Inc.
Contributed by Sebastian Pop <sebastian.pop@amd.com> and
Harsha Jagasia <harsha.jagasia@amd.com>.
#include "config.h"
#include "system.h"
#include "coretypes.h"
-#include "tm.h"
-#include "ggc.h"
-#include "tree.h"
-#include "rtl.h"
-#include "output.h"
-#include "basic-block.h"
-#include "diagnostic.h"
#include "tree-flow.h"
-#include "toplev.h"
#include "tree-dump.h"
-#include "timevar.h"
#include "cfgloop.h"
#include "tree-chrec.h"
#include "tree-data-ref.h"
#include "tree-scalar-evolution.h"
-#include "tree-pass.h"
-#include "domwalk.h"
-#include "value-prof.h"
-#include "pointer-set.h"
-#include "gimple.h"
-#include "params.h"
+#include "sese.h"
#ifdef HAVE_cloog
-#include "cloog/cloog.h"
#include "ppl_c.h"
-#include "sese.h"
#include "graphite-ppl.h"
-#include "graphite.h"
#include "graphite-poly.h"
/* Builds a linear expression, of dimension DIM, representing PDR's
ppl_dimension_type i;
ppl_dimension_type first = pdr_subscript_dim (pdr, 0);
ppl_dimension_type last = pdr_subscript_dim (pdr, PDR_NB_SUBSCRIPTS (pdr));
- Value size, sub_size;
+ mpz_t size, sub_size;
graphite_dim_t dim = offset + pdr_dim (pdr);
ppl_new_Linear_Expression_with_dimension (&res, dim);
- value_init (size);
- value_set_si (size, 1);
- value_init (sub_size);
- value_set_si (sub_size, 1);
+ mpz_init (size);
+ mpz_set_si (size, 1);
+ mpz_init (sub_size);
+ mpz_set_si (sub_size, 1);
for (i = last - 1; i >= first; i--)
{
ppl_new_Linear_Expression_with_dimension (&le, dim - offset);
ppl_set_coef (le, i, 1);
ppl_max_for_le_pointset (PDR_ACCESSES (pdr), le, sub_size);
- value_multiply (size, size, sub_size);
+ mpz_mul (size, size, sub_size);
ppl_delete_Linear_Expression (le);
}
- value_clear (sub_size);
- value_clear (size);
+ mpz_clear (sub_size);
+ mpz_clear (size);
return res;
}
the loop at DEPTH. */
static void
-memory_stride_in_loop (Value stride, graphite_dim_t depth, poly_dr_p pdr)
+pdr_stride_in_loop (mpz_t stride, graphite_dim_t depth, poly_dr_p pdr)
{
ppl_dimension_type time_depth;
ppl_Linear_Expression_t le, lma;
if (dump_file && (dump_flags & TDF_DETAILS))
{
+ char *str;
+ void (*gmp_free) (void *, size_t);
+
fprintf (dump_file, "\nStride in BB_%d, DR_%d, depth %d:",
pbb_index (pbb), PDR_ID (pdr), (int) depth);
- value_print (dump_file, " %s ", stride);
+ str = mpz_get_str (0, 10, stride);
+ fprintf (dump_file, " %s ", str);
+ mp_get_memory_functions (NULL, NULL, &gmp_free);
+ (*gmp_free) (str, strlen (str) + 1);
}
ppl_delete_Pointset_Powerset_C_Polyhedron (p1);
ppl_delete_Linear_Expression (le);
}
+
/* Sets STRIDES to the sum of all the strides of the data references
accessed in LOOP at DEPTH. */
static void
-memory_strides_in_loop (lst_p loop, graphite_dim_t depth, Value strides)
+memory_strides_in_loop_1 (lst_p loop, graphite_dim_t depth, mpz_t strides)
{
int i, j;
lst_p l;
poly_dr_p pdr;
- Value s, n;
+ mpz_t s, n;
- value_init (s);
- value_init (n);
+ mpz_init (s);
+ mpz_init (n);
- for (j = 0; VEC_iterate (lst_p, LST_SEQ (loop), j, l); j++)
+ FOR_EACH_VEC_ELT (lst_p, LST_SEQ (loop), j, l)
if (LST_LOOP_P (l))
- memory_strides_in_loop (l, depth, strides);
+ memory_strides_in_loop_1 (l, depth, strides);
else
- for (i = 0; VEC_iterate (poly_dr_p, PBB_DRS (LST_PBB (l)), i, pdr); i++)
+ FOR_EACH_VEC_ELT (poly_dr_p, PBB_DRS (LST_PBB (l)), i, pdr)
{
- memory_stride_in_loop (s, depth, pdr);
- value_set_si (n, PDR_NB_REFS (pdr));
- value_multiply (s, s, n);
- value_addto (strides, strides, s);
+ pdr_stride_in_loop (s, depth, pdr);
+ mpz_set_si (n, PDR_NB_REFS (pdr));
+ mpz_mul (s, s, n);
+ mpz_add (strides, strides, s);
}
- value_clear (s);
- value_clear (n);
+ mpz_clear (s);
+ mpz_clear (n);
+}
+
+/* Sets STRIDES to the sum of all the strides of the data references
+ accessed in LOOP at DEPTH. */
+
+static void
+memory_strides_in_loop (lst_p loop, graphite_dim_t depth, mpz_t strides)
+{
+ if (mpz_cmp_si (loop->memory_strides, -1) == 0)
+ {
+ mpz_set_si (strides, 0);
+ memory_strides_in_loop_1 (loop, depth, strides);
+ }
+ else
+ mpz_set (strides, loop->memory_strides);
}
/* Return true when the interchange of loops LOOP1 and LOOP2 is
profitable to interchange the loops at DEPTH1 and DEPTH2. */
static bool
-lst_interchange_profitable_p (lst_p loop1, lst_p loop2)
+lst_interchange_profitable_p (lst_p nest, int depth1, int depth2)
{
- Value d1, d2;
+ mpz_t d1, d2;
bool res;
- gcc_assert (loop1 && loop2
- && LST_LOOP_P (loop1) && LST_LOOP_P (loop2)
- && lst_depth (loop1) < lst_depth (loop2));
+ gcc_assert (depth1 < depth2);
- value_init (d1);
- value_init (d2);
- value_set_si (d1, 0);
- value_set_si (d2, 0);
+ mpz_init (d1);
+ mpz_init (d2);
- memory_strides_in_loop (loop1, lst_depth (loop1), d1);
- memory_strides_in_loop (loop2, lst_depth (loop2), d2);
+ memory_strides_in_loop (nest, depth1, d1);
+ memory_strides_in_loop (nest, depth2, d2);
- res = value_lt (d1, d2);
+ res = mpz_cmp (d1, d2) < 0;
- value_clear (d1);
- value_clear (d2);
+ mpz_clear (d1);
+ mpz_clear (d2);
return res;
}
int i;
lst_p l;
- for (i = 0; VEC_iterate (lst_p, LST_SEQ (lst), i, l); i++)
+ FOR_EACH_VEC_ELT (lst_p, LST_SEQ (lst), i, l)
lst_apply_interchange (l, depth1, depth2);
}
else
lst_p before = NULL, nest = NULL, after = NULL;
- if (!lst_interchange_profitable_p (loop1, loop2))
- return false;
-
if (!lst_perfectly_nested_p (loop1, loop2))
lst_perfect_nestify (loop1, loop2, &before, &nest, &after);
+ if (!lst_interchange_profitable_p (loop2, depth1, depth2))
+ return false;
+
lst_apply_interchange (loop2, depth1, depth2);
/* Sync the transformed LST information and the PBB scatterings
loop1 = VEC_index (lst_p, LST_SEQ (outer_father), outer);
- for (inner = 0; VEC_iterate (lst_p, LST_SEQ (inner_father), inner, loop2); inner++)
+ FOR_EACH_VEC_ELT (lst_p, LST_SEQ (inner_father), inner, loop2)
if (LST_LOOP_P (loop2)
&& (lst_try_interchange_loops (scop, loop1, loop2)
|| lst_interchange_select_inner (scop, outer_father, outer, loop2)))
}
/* Interchanges all the loops of LOOP and the loops of its body that
- are considered profitable to interchange. Return true if it did
- interchanged some loops. OUTER is the index in LST_SEQ (LOOP) that
+ are considered profitable to interchange. Return the number of
+ interchanged loops. OUTER is the index in LST_SEQ (LOOP) that
points to the next outer loop to be considered for interchange. */
-static bool
+static int
lst_interchange_select_outer (scop_p scop, lst_p loop, int outer)
{
lst_p l;
- bool res = false;
+ int res = 0;
int i = 0;
lst_p father;
if (!loop || !LST_LOOP_P (loop))
- return false;
+ return 0;
father = LST_LOOP_FATHER (loop);
if (father)
{
while (lst_interchange_select_inner (scop, father, outer, loop))
{
- res = true;
+ res++;
loop = VEC_index (lst_p, LST_SEQ (father), outer);
}
}
if (LST_LOOP_P (loop))
- for (i = 0; VEC_iterate (lst_p, LST_SEQ (loop), i, l); i++)
+ FOR_EACH_VEC_ELT (lst_p, LST_SEQ (loop), i, l)
if (LST_LOOP_P (l))
- res |= lst_interchange_select_outer (scop, l, i);
+ res += lst_interchange_select_outer (scop, l, i);
return res;
}
-/* Interchanges all the loop depths that are considered profitable for SCOP. */
+/* Interchanges all the loop depths that are considered profitable for
+ SCOP. Return the number of interchanged loops. */
-bool
+int
scop_do_interchange (scop_p scop)
{
- bool res = lst_interchange_select_outer
+ int res = lst_interchange_select_outer
(scop, SCOP_TRANSFORMED_SCHEDULE (scop), 0);
lst_update_scattering (SCOP_TRANSFORMED_SCHEDULE (scop));
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