/* Graphite 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
Tobias Grosser <grosser@fim.uni-passau.de>.
dimensions.
| i j k a 1
- | 0 0 0 -1 15 = 0 */
+ | 0 0 0 -1 15 = 0
+
+ The difference between the graphite internal format for access data and
+ the OpenSop format is in the order of columns.
+ Instead of having:
+
+ | i j k a s0 s1 1
+ | 0 0 0 1 0 0 -5 = 0
+ |-1 0 0 0 1 0 0 = 0
+ | 0 -1 -1 0 0 1 0 = 0
+ | 0 0 0 0 1 0 0 >= 0 # The last four lines describe the
+ | 0 0 0 0 0 1 0 >= 0 # array size.
+ | 0 0 0 0 -1 0 1335 >= 0
+ | 0 0 0 0 0 -1 123 >= 0
+
+ In OpenScop we have:
+
+ | a s0 s1 i j k 1
+ | 1 0 0 0 0 0 -5 = 0
+ | 0 1 0 -1 0 0 0 = 0
+ | 0 0 1 0 -1 -1 0 = 0
+ | 0 1 0 0 0 0 0 >= 0 # The last four lines describe the
+ | 0 0 1 0 0 0 0 >= 0 # array size.
+ | 0 -1 0 0 0 0 1335 >= 0
+ | 0 0 -1 0 0 0 123 >= 0
+
+ The OpenScop access function is printed as follows:
+
+ | 1 # The number of disjunct components in a union of access functions.
+ | R C O I L P # Described bellow.
+ | a s0 s1 i j k 1
+ | 1 0 0 0 0 0 -5 = 0
+ | 0 1 0 -1 0 0 0 = 0
+ | 0 0 1 0 -1 -1 0 = 0
+ | 0 1 0 0 0 0 0 >= 0 # The last four lines describe the
+ | 0 0 1 0 0 0 0 >= 0 # array size.
+ | 0 -1 0 0 0 0 1335 >= 0
+ | 0 0 -1 0 0 0 123 >= 0
+
+ Where:
+ - R: Number of rows.
+ - C: Number of columns.
+ - O: Number of output dimensions = alias set + number of subscripts.
+ - I: Number of input dimensions (iterators).
+ - L: Number of local (existentially quantified) dimensions.
+ - P: Number of parameters.
+
+ In the example, the vector "R C O I L P" is "7 7 3 2 0 1". */
ppl_Pointset_Powerset_C_Polyhedron_t accesses;
/* Data reference's base object set number, we must assure 2 pdrs are in the
void new_poly_dr (poly_bb_p, int, ppl_Pointset_Powerset_C_Polyhedron_t,
enum poly_dr_type, void *, graphite_dim_t);
void free_poly_dr (poly_dr_p);
-void debug_pdr (poly_dr_p);
-void print_pdr (FILE *, poly_dr_p);
+void debug_pdr (poly_dr_p, int);
+void print_pdr (FILE *, poly_dr_p, int);
static inline scop_p pdr_scop (poly_dr_p pdr);
/* The dimension of the PDR_ACCESSES polyhedron of PDR. */
return PDR_TYPE (pdr) == PDR_MAY_WRITE;
}
+/* Return true when PDR1 and PDR2 are similar data accesses: they have
+ the same base array, and the same access functions. */
+
+static inline bool
+same_pdr_p (poly_dr_p pdr1, poly_dr_p pdr2)
+{
+ return PDR_TYPE (pdr1) == PDR_TYPE (pdr2)
+ && PDR_NB_SUBSCRIPTS (pdr1) == PDR_NB_SUBSCRIPTS (pdr2)
+ && PDR_BASE_OBJECT_SET (pdr1) == PDR_BASE_OBJECT_SET (pdr2);
+}
+
typedef struct poly_scattering *poly_scattering_p;
struct poly_scattering
{
- /* The scattering function containing the transformations. */
+ /* The scattering function containing the transformations: the
+ layout of this polyhedron is: T|I|G with T the transform
+ scattering, I the iteration domain, G the context parameters. */
ppl_Polyhedron_t scattering;
/* The number of local variables. */
struct poly_bb
{
+ /* Pointer to a basic block or a statement in the compiler. */
void *black_box;
+ /* Pointer to the SCOP containing this PBB. */
scop_p scop;
- /* The iteration domain of this bb.
+ /* The iteration domain of this bb. The layout of this polyhedron
+ is I|G with I the iteration domain, G the context parameters.
+
Example:
for (i = a - 7*b + 8; i <= 3*a + 13*b + 20; i++)
/* True when the PDR duplicates have already been removed. */
bool pdr_duplicates_removed;
+
+ /* True when this PBB contains only a reduction statement. */
+ bool is_reduction;
};
#define PBB_BLACK_BOX(PBB) ((gimple_bb_p) PBB->black_box)
#define PBB_NB_LOCAL_VARIABLES(PBB) (PBB->transformed->nb_local_variables)
#define PBB_NB_SCATTERING_TRANSFORM(PBB) (PBB->transformed->nb_scattering)
#define PBB_PDR_DUPLICATES_REMOVED(PBB) (PBB->pdr_duplicates_removed)
+#define PBB_IS_REDUCTION(PBB) (PBB->is_reduction)
-extern void new_poly_bb (scop_p, void *);
+extern void new_poly_bb (scop_p, void *, bool);
extern void free_poly_bb (poly_bb_p);
extern void debug_loop_vec (poly_bb_p);
extern void schedule_to_scattering (poly_bb_p, int);
-extern void print_pbb_domain (FILE *, poly_bb_p);
-extern void print_pbb (FILE *, poly_bb_p);
-extern void print_scop_context (FILE *, scop_p);
-extern void print_scop (FILE *, scop_p);
-extern void debug_pbb_domain (poly_bb_p);
-extern void debug_pbb (poly_bb_p);
-extern void print_pdrs (FILE *, poly_bb_p);
-extern void debug_pdrs (poly_bb_p);
-extern void debug_scop_context (scop_p);
-extern void debug_scop (scop_p);
-extern void print_scop_params (FILE *, scop_p);
-extern void debug_scop_params (scop_p);
-extern void print_iteration_domain (FILE *, poly_bb_p);
-extern void print_iteration_domains (FILE *, scop_p);
-extern void debug_iteration_domain (poly_bb_p);
-extern void debug_iteration_domains (scop_p);
+extern void print_pbb_domain (FILE *, poly_bb_p, int);
+extern void print_pbb (FILE *, poly_bb_p, int);
+extern void print_scop_context (FILE *, scop_p, int);
+extern void print_scop (FILE *, scop_p, int);
+extern void print_cloog (FILE *, scop_p, int);
+extern void debug_pbb_domain (poly_bb_p, int);
+extern void debug_pbb (poly_bb_p, int);
+extern void print_pdrs (FILE *, poly_bb_p, int);
+extern void debug_pdrs (poly_bb_p, int);
+extern void debug_scop_context (scop_p, int);
+extern void debug_scop (scop_p, int);
+extern void debug_cloog (scop_p, int);
+extern void print_scop_params (FILE *, scop_p, int);
+extern void debug_scop_params (scop_p, int);
+extern void print_iteration_domain (FILE *, poly_bb_p, int);
+extern void print_iteration_domains (FILE *, scop_p, int);
+extern void debug_iteration_domain (poly_bb_p, int);
+extern void debug_iteration_domains (scop_p, int);
extern bool scop_do_interchange (scop_p);
-extern bool scop_do_strip_mine (scop_p);
-extern void pbb_number_of_iterations (poly_bb_p, graphite_dim_t, Value);
-extern void pbb_number_of_iterations_at_time (poly_bb_p, graphite_dim_t, Value);
+extern bool scop_do_strip_mine (scop_p, int);
+extern bool scop_do_block (scop_p);
+extern bool flatten_all_loops (scop_p);
+extern void pbb_number_of_iterations_at_time (poly_bb_p, graphite_dim_t, mpz_t);
extern void pbb_remove_duplicate_pdrs (poly_bb_p);
+/* Return the number of write data references in PBB. */
+
+static inline int
+number_of_write_pdrs (poly_bb_p pbb)
+{
+ int res = 0;
+ int i;
+ poly_dr_p pdr;
+
+ for (i = 0; VEC_iterate (poly_dr_p, PBB_DRS (pbb), i, pdr); i++)
+ if (PDR_TYPE (pdr) == PDR_WRITE)
+ res++;
+
+ return res;
+}
+
+/* The basic block of the PBB. */
+
+static inline basic_block
+pbb_bb (poly_bb_p pbb)
+{
+ return GBB_BB (PBB_BLACK_BOX (pbb));
+}
+
/* The index of the PBB. */
static inline int
pbb_index (poly_bb_p pbb)
{
- return GBB_BB (PBB_BLACK_BOX (pbb))->index;
+ return pbb_bb (pbb)->index;
+}
+
+/* The loop of the PBB. */
+
+static inline loop_p
+pbb_loop (poly_bb_p pbb)
+{
+ return gbb_loop (PBB_BLACK_BOX (pbb));
}
/* The scop that contains the PDR. */
static inline ppl_dimension_type
psct_dynamic_dim (poly_bb_p pbb, graphite_dim_t level)
{
- graphite_dim_t result;
- result = 1 + 2 * level;
+ graphite_dim_t result = 1 + 2 * level;
+
+ gcc_assert (result < pbb_nb_scattering_transform (pbb));
+ return result;
+}
+
+/* The scattering dimension of PBB corresponding to the static
+ sequence of the loop level LEVEL. */
+
+static inline ppl_dimension_type
+psct_static_dim (poly_bb_p pbb, graphite_dim_t level)
+{
+ graphite_dim_t result = 2 * level;
gcc_assert (result < pbb_nb_scattering_transform (pbb));
return result;
PBB_NB_SCATTERING_TRANSFORM (pbb) += 1;
}
+typedef struct lst *lst_p;
+DEF_VEC_P(lst_p);
+DEF_VEC_ALLOC_P (lst_p, heap);
+
+/* Loops and Statements Tree. */
+struct lst {
+
+ /* LOOP_P is true when an LST node is a loop. */
+ bool loop_p;
+
+ /* A pointer to the loop that contains this node. */
+ lst_p loop_father;
+
+ /* The sum of all the memory strides for an LST loop. */
+ mpz_t memory_strides;
+
+ /* Loop nodes contain a sequence SEQ of LST nodes, statements
+ contain a pointer to their polyhedral representation PBB. */
+ union {
+ poly_bb_p pbb;
+ VEC (lst_p, heap) *seq;
+ } node;
+};
+
+#define LST_LOOP_P(LST) ((LST)->loop_p)
+#define LST_LOOP_FATHER(LST) ((LST)->loop_father)
+#define LST_PBB(LST) ((LST)->node.pbb)
+#define LST_SEQ(LST) ((LST)->node.seq)
+#define LST_LOOP_MEMORY_STRIDES(LST) ((LST)->memory_strides)
+
+void scop_to_lst (scop_p);
+void print_lst (FILE *, lst_p, int);
+void debug_lst (lst_p);
+void dot_lst (lst_p);
+
+/* Creates a new LST loop with SEQ. */
+
+static inline lst_p
+new_lst_loop (VEC (lst_p, heap) *seq)
+{
+ lst_p lst = XNEW (struct lst);
+ int i;
+ lst_p l;
+
+ LST_LOOP_P (lst) = true;
+ LST_SEQ (lst) = seq;
+ LST_LOOP_FATHER (lst) = NULL;
+ mpz_init (LST_LOOP_MEMORY_STRIDES (lst));
+ mpz_set_si (LST_LOOP_MEMORY_STRIDES (lst), -1);
+
+ for (i = 0; VEC_iterate (lst_p, seq, i, l); i++)
+ LST_LOOP_FATHER (l) = lst;
+
+ return lst;
+}
+
+/* Creates a new LST statement with PBB. */
+
+static inline lst_p
+new_lst_stmt (poly_bb_p pbb)
+{
+ lst_p lst = XNEW (struct lst);
+
+ LST_LOOP_P (lst) = false;
+ LST_PBB (lst) = pbb;
+ LST_LOOP_FATHER (lst) = NULL;
+ return lst;
+}
+
+/* Frees the memory used by LST. */
+
+static inline void
+free_lst (lst_p lst)
+{
+ if (!lst)
+ return;
+
+ if (LST_LOOP_P (lst))
+ {
+ int i;
+ lst_p l;
+
+ for (i = 0; VEC_iterate (lst_p, LST_SEQ (lst), i, l); i++)
+ free_lst (l);
+
+ mpz_clear (LST_LOOP_MEMORY_STRIDES (lst));
+ VEC_free (lst_p, heap, LST_SEQ (lst));
+ }
+
+ free (lst);
+}
+
+/* Returns a copy of LST. */
+
+static inline lst_p
+copy_lst (lst_p lst)
+{
+ if (!lst)
+ return NULL;
+
+ if (LST_LOOP_P (lst))
+ {
+ int i;
+ lst_p l;
+ VEC (lst_p, heap) *seq = VEC_alloc (lst_p, heap, 5);
+
+ for (i = 0; VEC_iterate (lst_p, LST_SEQ (lst), i, l); i++)
+ VEC_safe_push (lst_p, heap, seq, copy_lst (l));
+
+ return new_lst_loop (seq);
+ }
+
+ return new_lst_stmt (LST_PBB (lst));
+}
+
+/* Adds a new loop under the loop LST. */
+
+static inline void
+lst_add_loop_under_loop (lst_p lst)
+{
+ VEC (lst_p, heap) *seq = VEC_alloc (lst_p, heap, 1);
+ lst_p l = new_lst_loop (LST_SEQ (lst));
+
+ gcc_assert (LST_LOOP_P (lst));
+
+ LST_LOOP_FATHER (l) = lst;
+ VEC_quick_push (lst_p, seq, l);
+ LST_SEQ (lst) = seq;
+}
+
+/* Returns the loop depth of LST. */
+
+static inline int
+lst_depth (lst_p lst)
+{
+ if (!lst)
+ return -2;
+
+ /* The depth of the outermost "fake" loop is -1. This outermost
+ loop does not have a loop father and it is just a container, as
+ in the loop representation of GCC. */
+ if (!LST_LOOP_FATHER (lst))
+ return -1;
+
+ return lst_depth (LST_LOOP_FATHER (lst)) + 1;
+}
+
+/* Returns the Dewey number for LST. */
+
+static inline int
+lst_dewey_number (lst_p lst)
+{
+ int i;
+ lst_p l;
+
+ if (!lst)
+ return -1;
+
+ if (!LST_LOOP_FATHER (lst))
+ return 0;
+
+ FOR_EACH_VEC_ELT (lst_p, LST_SEQ (LST_LOOP_FATHER (lst)), i, l)
+ if (l == lst)
+ return i;
+
+ return -1;
+}
+
+/* Returns the Dewey number of LST at depth DEPTH. */
+
+static inline int
+lst_dewey_number_at_depth (lst_p lst, int depth)
+{
+ gcc_assert (lst && depth >= 0 && lst_depth (lst) <= depth);
+
+ if (lst_depth (lst) == depth)
+ return lst_dewey_number (lst);
+
+ return lst_dewey_number_at_depth (LST_LOOP_FATHER (lst), depth);
+}
+
+/* Returns the predecessor of LST in the sequence of its loop father.
+ Returns NULL if LST is the first statement in the sequence. */
+
+static inline lst_p
+lst_pred (lst_p lst)
+{
+ int dewey;
+ lst_p father;
+
+ if (!lst || !LST_LOOP_FATHER (lst))
+ return NULL;
+
+ dewey = lst_dewey_number (lst);
+ if (dewey == 0)
+ return NULL;
+
+ father = LST_LOOP_FATHER (lst);
+ return VEC_index (lst_p, LST_SEQ (father), dewey - 1);
+}
+
+/* Returns the successor of LST in the sequence of its loop father.
+ Returns NULL if there is none. */
+
+static inline lst_p
+lst_succ (lst_p lst)
+{
+ int dewey;
+ lst_p father;
+
+ if (!lst || !LST_LOOP_FATHER (lst))
+ return NULL;
+
+ dewey = lst_dewey_number (lst);
+ father = LST_LOOP_FATHER (lst);
+
+ if (VEC_length (lst_p, LST_SEQ (father)) == (unsigned) dewey + 1)
+ return NULL;
+
+ return VEC_index (lst_p, LST_SEQ (father), dewey + 1);
+}
+
+
+/* Return the LST node corresponding to PBB. */
+
+static inline lst_p
+lst_find_pbb (lst_p lst, poly_bb_p pbb)
+{
+ int i;
+ lst_p l;
+
+ if (!lst)
+ return NULL;
+
+ if (!LST_LOOP_P (lst))
+ return (pbb == LST_PBB (lst)) ? lst : NULL;
+
+ for (i = 0; VEC_iterate (lst_p, LST_SEQ (lst), i, l); i++)
+ {
+ lst_p res = lst_find_pbb (l, pbb);
+ if (res)
+ return res;
+ }
+
+ return NULL;
+}
+
+/* Return the LST node corresponding to the loop around STMT at depth
+ LOOP_DEPTH. */
+
+static inline lst_p
+find_lst_loop (lst_p stmt, int loop_depth)
+{
+ lst_p loop = LST_LOOP_FATHER (stmt);
+
+ gcc_assert (loop_depth >= 0);
+
+ while (loop_depth < lst_depth (loop))
+ loop = LST_LOOP_FATHER (loop);
+
+ return loop;
+}
+
+/* Return the first LST representing a PBB statement in LST. */
+
+static inline lst_p
+lst_find_first_pbb (lst_p lst)
+{
+ int i;
+ lst_p l;
+
+ if (!lst)
+ return NULL;
+
+ if (!LST_LOOP_P (lst))
+ return lst;
+
+ for (i = 0; VEC_iterate (lst_p, LST_SEQ (lst), i, l); i++)
+ {
+ lst_p res = lst_find_first_pbb (l);
+ if (res)
+ return res;
+ }
+
+ return NULL;
+}
+
+/* Returns true when LST is a loop that does not contain
+ statements. */
+
+static inline bool
+lst_empty_p (lst_p lst)
+{
+ return !lst_find_first_pbb (lst);
+}
+
+/* Return the last LST representing a PBB statement in LST. */
+
+static inline lst_p
+lst_find_last_pbb (lst_p lst)
+{
+ int i;
+ lst_p l, res = NULL;
+
+ if (!lst)
+ return NULL;
+
+ if (!LST_LOOP_P (lst))
+ return lst;
+
+ for (i = 0; VEC_iterate (lst_p, LST_SEQ (lst), i, l); i++)
+ {
+ lst_p last = lst_find_last_pbb (l);
+
+ if (last)
+ res = last;
+ }
+
+ gcc_assert (res);
+ return res;
+}
+
+/* Returns true if LOOP contains LST, in other words, if LST is nested
+ in LOOP. */
+
+static inline bool
+lst_contains_p (lst_p loop, lst_p lst)
+{
+ if (!loop || !lst || !LST_LOOP_P (loop))
+ return false;
+
+ if (loop == lst)
+ return true;
+
+ return lst_contains_p (loop, LST_LOOP_FATHER (lst));
+}
+
+/* Returns true if LOOP contains PBB, in other words, if PBB is nested
+ in LOOP. */
+
+static inline bool
+lst_contains_pbb (lst_p loop, poly_bb_p pbb)
+{
+ return lst_find_pbb (loop, pbb) ? true : false;
+}
+
+/* Creates a loop nest of depth NB_LOOPS containing LST. */
+
+static inline lst_p
+lst_create_nest (int nb_loops, lst_p lst)
+{
+ lst_p res, loop;
+ VEC (lst_p, heap) *seq;
+
+ if (nb_loops == 0)
+ return lst;
+
+ seq = VEC_alloc (lst_p, heap, 1);
+ loop = lst_create_nest (nb_loops - 1, lst);
+ VEC_quick_push (lst_p, seq, loop);
+ res = new_lst_loop (seq);
+ LST_LOOP_FATHER (loop) = res;
+
+ return res;
+}
+
+/* Removes LST from the sequence of statements of its loop father. */
+
+static inline void
+lst_remove_from_sequence (lst_p lst)
+{
+ lst_p father = LST_LOOP_FATHER (lst);
+ int dewey = lst_dewey_number (lst);
+
+ gcc_assert (lst && father && dewey >= 0);
+
+ VEC_ordered_remove (lst_p, LST_SEQ (father), dewey);
+ LST_LOOP_FATHER (lst) = NULL;
+}
+
+/* Removes the loop LST and inline its body in the father loop. */
+
+static inline void
+lst_remove_loop_and_inline_stmts_in_loop_father (lst_p lst)
+{
+ lst_p l, father = LST_LOOP_FATHER (lst);
+ int i, dewey = lst_dewey_number (lst);
+
+ gcc_assert (lst && father && dewey >= 0);
+
+ VEC_ordered_remove (lst_p, LST_SEQ (father), dewey);
+ LST_LOOP_FATHER (lst) = NULL;
+
+ FOR_EACH_VEC_ELT (lst_p, LST_SEQ (lst), i, l)
+ {
+ VEC_safe_insert (lst_p, heap, LST_SEQ (father), dewey + i, l);
+ LST_LOOP_FATHER (l) = father;
+ }
+}
+
+/* Sets NITER to the upper bound approximation of the number of
+ iterations of loop LST. */
+
+static inline void
+lst_niter_for_loop (lst_p lst, mpz_t niter)
+{
+ int depth = lst_depth (lst);
+ poly_bb_p pbb = LST_PBB (lst_find_first_pbb (lst));
+
+ gcc_assert (LST_LOOP_P (lst));
+ pbb_number_of_iterations_at_time (pbb, psct_dynamic_dim (pbb, depth), niter);
+}
+
+/* Updates the scattering of PBB to be at the DEWEY number in the loop
+ at depth LEVEL. */
+
+static inline void
+pbb_update_scattering (poly_bb_p pbb, graphite_dim_t level, int dewey)
+{
+ ppl_Polyhedron_t ph = PBB_TRANSFORMED_SCATTERING (pbb);
+ ppl_dimension_type sched = psct_static_dim (pbb, level);
+ ppl_dimension_type ds[1];
+ ppl_Constraint_t new_cstr;
+ ppl_Linear_Expression_t expr;
+ ppl_dimension_type dim;
+
+ ppl_Polyhedron_space_dimension (ph, &dim);
+ ds[0] = sched;
+ ppl_Polyhedron_remove_space_dimensions (ph, ds, 1);
+ ppl_insert_dimensions (ph, sched, 1);
+
+ ppl_new_Linear_Expression_with_dimension (&expr, dim);
+ ppl_set_coef (expr, sched, -1);
+ ppl_set_inhomogeneous (expr, dewey);
+ ppl_new_Constraint (&new_cstr, expr, PPL_CONSTRAINT_TYPE_EQUAL);
+ ppl_delete_Linear_Expression (expr);
+ ppl_Polyhedron_add_constraint (ph, new_cstr);
+ ppl_delete_Constraint (new_cstr);
+}
+
+/* Updates the scattering of all the PBBs under LST to be at the DEWEY
+ number in the loop at depth LEVEL. */
+
+static inline void
+lst_update_scattering_under (lst_p lst, int level, int dewey)
+{
+ int i;
+ lst_p l;
+
+ gcc_assert (lst && level >= 0 && dewey >= 0);
+
+ if (LST_LOOP_P (lst))
+ for (i = 0; VEC_iterate (lst_p, LST_SEQ (lst), i, l); i++)
+ lst_update_scattering_under (l, level, dewey);
+ else
+ pbb_update_scattering (LST_PBB (lst), level, dewey);
+}
+
+/* Updates the all the scattering levels of all the PBBs under
+ LST. */
+
+static inline void
+lst_update_scattering (lst_p lst)
+{
+ int i;
+ lst_p l;
+
+ if (!lst)
+ return;
+
+ if (LST_LOOP_FATHER (lst))
+ {
+ lst_p father = LST_LOOP_FATHER (lst);
+ int dewey = lst_dewey_number (lst);
+ int level = lst_depth (lst);
+
+ gcc_assert (lst && father && dewey >= 0 && level >= 0);
+
+ for (i = dewey; VEC_iterate (lst_p, LST_SEQ (father), i, l); i++)
+ lst_update_scattering_under (l, level, i);
+ }
+
+ if (LST_LOOP_P (lst))
+ for (i = 0; VEC_iterate (lst_p, LST_SEQ (lst), i, l); i++)
+ lst_update_scattering (l);
+}
+
+/* Inserts LST1 before LST2 if BEFORE is true; inserts LST1 after LST2
+ if BEFORE is false. */
+
+static inline void
+lst_insert_in_sequence (lst_p lst1, lst_p lst2, bool before)
+{
+ lst_p father;
+ int dewey;
+
+ /* Do not insert empty loops. */
+ if (!lst1 || lst_empty_p (lst1))
+ return;
+
+ father = LST_LOOP_FATHER (lst2);
+ dewey = lst_dewey_number (lst2);
+
+ gcc_assert (lst2 && father && dewey >= 0);
+
+ VEC_safe_insert (lst_p, heap, LST_SEQ (father), before ? dewey : dewey + 1,
+ lst1);
+ LST_LOOP_FATHER (lst1) = father;
+}
+
+/* Replaces LST1 with LST2. */
+
+static inline void
+lst_replace (lst_p lst1, lst_p lst2)
+{
+ lst_p father;
+ int dewey;
+
+ if (!lst2 || lst_empty_p (lst2))
+ return;
+
+ father = LST_LOOP_FATHER (lst1);
+ dewey = lst_dewey_number (lst1);
+ LST_LOOP_FATHER (lst2) = father;
+ VEC_replace (lst_p, LST_SEQ (father), dewey, lst2);
+}
+
+/* Returns a copy of ROOT where LST has been replaced by a copy of the
+ LSTs A B C in this sequence. */
+
+static inline lst_p
+lst_substitute_3 (lst_p root, lst_p lst, lst_p a, lst_p b, lst_p c)
+{
+ int i;
+ lst_p l;
+ VEC (lst_p, heap) *seq;
+
+ if (!root)
+ return NULL;
+
+ gcc_assert (lst && root != lst);
+
+ if (!LST_LOOP_P (root))
+ return new_lst_stmt (LST_PBB (root));
+
+ seq = VEC_alloc (lst_p, heap, 5);
+
+ for (i = 0; VEC_iterate (lst_p, LST_SEQ (root), i, l); i++)
+ if (l != lst)
+ VEC_safe_push (lst_p, heap, seq, lst_substitute_3 (l, lst, a, b, c));
+ else
+ {
+ if (!lst_empty_p (a))
+ VEC_safe_push (lst_p, heap, seq, copy_lst (a));
+ if (!lst_empty_p (b))
+ VEC_safe_push (lst_p, heap, seq, copy_lst (b));
+ if (!lst_empty_p (c))
+ VEC_safe_push (lst_p, heap, seq, copy_lst (c));
+ }
+
+ return new_lst_loop (seq);
+}
+
+/* Moves LST before LOOP if BEFORE is true, and after the LOOP if
+ BEFORE is false. */
+
+static inline void
+lst_distribute_lst (lst_p loop, lst_p lst, bool before)
+{
+ int loop_depth = lst_depth (loop);
+ int depth = lst_depth (lst);
+ int nb_loops = depth - loop_depth;
+
+ gcc_assert (lst && loop && LST_LOOP_P (loop) && nb_loops > 0);
+
+ lst_remove_from_sequence (lst);
+ lst_insert_in_sequence (lst_create_nest (nb_loops, lst), loop, before);
+}
+
+/* Removes from LOOP all the statements before/after and including PBB
+ if BEFORE is true/false. Returns the negation of BEFORE when the
+ statement PBB has been found. */
+
+static inline bool
+lst_remove_all_before_including_pbb (lst_p loop, poly_bb_p pbb, bool before)
+{
+ int i;
+ lst_p l;
+
+ if (!loop || !LST_LOOP_P (loop))
+ return before;
+
+ for (i = 0; VEC_iterate (lst_p, LST_SEQ (loop), i, l);)
+ if (LST_LOOP_P (l))
+ {
+ before = lst_remove_all_before_including_pbb (l, pbb, before);
+
+ if (VEC_length (lst_p, LST_SEQ (l)) == 0)
+ {
+ VEC_ordered_remove (lst_p, LST_SEQ (loop), i);
+ free_lst (l);
+ }
+ else
+ i++;
+ }
+ else
+ {
+ if (before)
+ {
+ if (LST_PBB (l) == pbb)
+ before = false;
+
+ VEC_ordered_remove (lst_p, LST_SEQ (loop), i);
+ free_lst (l);
+ }
+ else if (LST_PBB (l) == pbb)
+ {
+ before = true;
+ VEC_ordered_remove (lst_p, LST_SEQ (loop), i);
+ free_lst (l);
+ }
+ else
+ i++;
+ }
+
+ return before;
+}
+
+/* Removes from LOOP all the statements before/after and excluding PBB
+ if BEFORE is true/false; Returns the negation of BEFORE when the
+ statement PBB has been found. */
+
+static inline bool
+lst_remove_all_before_excluding_pbb (lst_p loop, poly_bb_p pbb, bool before)
+{
+ int i;
+ lst_p l;
+
+ if (!loop || !LST_LOOP_P (loop))
+ return before;
+
+ for (i = 0; VEC_iterate (lst_p, LST_SEQ (loop), i, l);)
+ if (LST_LOOP_P (l))
+ {
+ before = lst_remove_all_before_excluding_pbb (l, pbb, before);
+
+ if (VEC_length (lst_p, LST_SEQ (l)) == 0)
+ {
+ VEC_ordered_remove (lst_p, LST_SEQ (loop), i);
+ free_lst (l);
+ continue;
+ }
+
+ i++;
+ }
+ else
+ {
+ if (before && LST_PBB (l) != pbb)
+ {
+ VEC_ordered_remove (lst_p, LST_SEQ (loop), i);
+ free_lst (l);
+ continue;
+ }
+
+ i++;
+
+ if (LST_PBB (l) == pbb)
+ before = before ? false : true;
+ }
+
+ return before;
+}
+
/* A SCOP is a Static Control Part of the program, simple enough to be
represented in polyhedral form. */
struct scop
representation. */
VEC (poly_bb_p, heap) *bbs;
- /* Data dependence graph for this SCoP. */
- struct graph *dep_graph;
+ /* Original, transformed and saved schedules. */
+ lst_p original_schedule, transformed_schedule, saved_schedule;
/* The context describes known restrictions concerning the parameters
and relations in between the parameters.
/* A hashtable of the data dependence relations for the original
scattering. */
htab_t original_pddrs;
+
+ /* True when the scop has been converted to its polyhedral
+ representation. */
+ bool poly_scop_p;
};
#define SCOP_BBS(S) (S->bbs)
#define SCOP_REGION(S) ((sese) S->region)
-#define SCOP_DEP_GRAPH(S) (S->dep_graph)
#define SCOP_CONTEXT(S) (S->context)
#define SCOP_ORIGINAL_PDDRS(S) (S->original_pddrs)
+#define SCOP_ORIGINAL_SCHEDULE(S) (S->original_schedule)
+#define SCOP_TRANSFORMED_SCHEDULE(S) (S->transformed_schedule)
+#define SCOP_SAVED_SCHEDULE(S) (S->saved_schedule)
+#define POLY_SCOP_P(S) (S->poly_scop_p)
extern scop_p new_scop (void *);
extern void free_scop (scop_p);
extern void free_scops (VEC (scop_p, heap) *);
extern void print_generated_program (FILE *, scop_p);
extern void debug_generated_program (scop_p);
-extern void print_scattering_function (FILE *, poly_bb_p);
-extern void print_scattering_functions (FILE *, scop_p);
-extern void debug_scattering_function (poly_bb_p);
-extern void debug_scattering_functions (scop_p);
+extern void print_scattering_function (FILE *, poly_bb_p, int);
+extern void print_scattering_functions (FILE *, scop_p, int);
+extern void debug_scattering_function (poly_bb_p, int);
+extern void debug_scattering_functions (scop_p, int);
extern int scop_max_loop_depth (scop_p);
extern int unify_scattering_dimensions (scop_p);
extern bool apply_poly_transforms (scop_p);
extern bool graphite_legal_transform (scop_p);
+extern void cloog_checksum (scop_p);
/* Set the region of SCOP to REGION. */
PBB_SAVED (pbb) = poly_scattering_copy (PBB_TRANSFORMED (pbb));
}
+/* Stores the SCOP_TRANSFORMED_SCHEDULE to SCOP_SAVED_SCHEDULE. */
+
+static inline void
+store_lst_schedule (scop_p scop)
+{
+ if (SCOP_SAVED_SCHEDULE (scop))
+ free_lst (SCOP_SAVED_SCHEDULE (scop));
+
+ SCOP_SAVED_SCHEDULE (scop) = copy_lst (SCOP_TRANSFORMED_SCHEDULE (scop));
+}
+
+/* Restores the SCOP_TRANSFORMED_SCHEDULE from SCOP_SAVED_SCHEDULE. */
+
+static inline void
+restore_lst_schedule (scop_p scop)
+{
+ if (SCOP_TRANSFORMED_SCHEDULE (scop))
+ free_lst (SCOP_TRANSFORMED_SCHEDULE (scop));
+
+ SCOP_TRANSFORMED_SCHEDULE (scop) = copy_lst (SCOP_SAVED_SCHEDULE (scop));
+}
+
/* Saves the scattering for all the pbbs in the SCOP. */
static inline void
for (i = 0; VEC_iterate (poly_bb_p, SCOP_BBS (scop), i, pbb); i++)
store_scattering_pbb (pbb);
+
+ store_lst_schedule (scop);
}
/* Restores the scattering of PBB. */
for (i = 0; VEC_iterate (poly_bb_p, SCOP_BBS (scop), i, pbb); i++)
restore_scattering_pbb (pbb);
+
+ restore_lst_schedule (scop);
+}
+
+/* For a given PBB, add to RES the scop context, the iteration domain,
+ the original scattering when ORIGINAL_P is true, otherwise add the
+ transformed scattering. */
+
+static inline void
+combine_context_id_scat (ppl_Pointset_Powerset_C_Polyhedron_t *res,
+ poly_bb_p pbb, bool original_p)
+{
+ ppl_Pointset_Powerset_C_Polyhedron_t context;
+ ppl_Pointset_Powerset_C_Polyhedron_t id;
+
+ ppl_new_Pointset_Powerset_C_Polyhedron_from_C_Polyhedron
+ (res, original_p ?
+ PBB_ORIGINAL_SCATTERING (pbb) : PBB_TRANSFORMED_SCATTERING (pbb));
+
+ ppl_new_Pointset_Powerset_C_Polyhedron_from_Pointset_Powerset_C_Polyhedron
+ (&context, SCOP_CONTEXT (PBB_SCOP (pbb)));
+
+ ppl_new_Pointset_Powerset_C_Polyhedron_from_Pointset_Powerset_C_Polyhedron
+ (&id, PBB_DOMAIN (pbb));
+
+ /* Extend the context and the iteration domain to the dimension of
+ the scattering: T|I|G. */
+ {
+ ppl_dimension_type gdim, tdim, idim;
+
+ ppl_Pointset_Powerset_C_Polyhedron_space_dimension (*res, &tdim);
+ ppl_Pointset_Powerset_C_Polyhedron_space_dimension (context, &gdim);
+ ppl_Pointset_Powerset_C_Polyhedron_space_dimension (id, &idim);
+
+ if (tdim > gdim)
+ ppl_insert_dimensions_pointset (context, 0, tdim - gdim);
+
+ if (tdim > idim)
+ ppl_insert_dimensions_pointset (id, 0, tdim - idim);
+ }
+
+ /* Add the context and the iteration domain to the result. */
+ ppl_Pointset_Powerset_C_Polyhedron_intersection_assign (*res, context);
+ ppl_Pointset_Powerset_C_Polyhedron_intersection_assign (*res, id);
+
+ ppl_delete_Pointset_Powerset_C_Polyhedron (context);
+ ppl_delete_Pointset_Powerset_C_Polyhedron (id);
}
#endif
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