From: Sebastian Pop Date: Thu, 21 Jul 2011 22:57:00 +0000 (+0000) Subject: Cleanup function params using a struct. X-Git-Url: https://git.libre-soc.org/?a=commitdiff_plain;h=cf7eab7da2842e739c95d0f2f0c65882ec908d0f;p=gcc.git Cleanup function params using a struct. 2011-07-21 Sebastian Pop * graphite-clast-to-gimple.c (struct ivs_params): New. (clast_name_to_gcc): Use ivs_params to pass around parameters. (clast_to_gcc_expression): Same. (clast_to_gcc_expression_red): Same. (gcc_type_for_clast_term): Same. (gcc_type_for_clast_expr): Same. (gcc_type_for_clast_red): Same. (gcc_type_for_clast_bin): Same. (gcc_type_for_clast_eq): Same. (graphite_translate_clast_equation): Same. (graphite_create_guard_cond_expr): Same. (graphite_create_new_guard): Same. (graphite_create_new_loop): Same. (build_iv_mapping): Same. (translate_clast_user): Same. (graphite_create_new_loop_guard): Same. (translate_clast): Same. (translate_clast_for_loop): Same. (translate_clast_for): Same. (translate_clast_guard): Same. (initialize_cloog_names): Fix typo. (gloog): Initialize an ivs_params struct, pass it to translate_clast. From-SVN: r176599 --- diff --git a/gcc/ChangeLog b/gcc/ChangeLog index 9877462d5fe..8a7a08fc654 100644 --- a/gcc/ChangeLog +++ b/gcc/ChangeLog @@ -1,3 +1,28 @@ +2011-07-21 Sebastian Pop + + * graphite-clast-to-gimple.c (struct ivs_params): New. + (clast_name_to_gcc): Use ivs_params to pass around parameters. + (clast_to_gcc_expression): Same. + (clast_to_gcc_expression_red): Same. + (gcc_type_for_clast_term): Same. + (gcc_type_for_clast_expr): Same. + (gcc_type_for_clast_red): Same. + (gcc_type_for_clast_bin): Same. + (gcc_type_for_clast_eq): Same. + (graphite_translate_clast_equation): Same. + (graphite_create_guard_cond_expr): Same. + (graphite_create_new_guard): Same. + (graphite_create_new_loop): Same. + (build_iv_mapping): Same. + (translate_clast_user): Same. + (graphite_create_new_loop_guard): Same. + (translate_clast): Same. + (translate_clast_for_loop): Same. + (translate_clast_for): Same. + (translate_clast_guard): Same. + (initialize_cloog_names): Fix typo. + (gloog): Initialize an ivs_params struct, pass it to translate_clast. + 2011-07-21 Sebastian Pop * graphite-clast-to-gimple.c (struct clast_name_index): Add level. diff --git a/gcc/graphite-clast-to-gimple.c b/gcc/graphite-clast-to-gimple.c index c442f1eb3d6..099109ab025 100644 --- a/gcc/graphite-clast-to-gimple.c +++ b/gcc/graphite-clast-to-gimple.c @@ -171,29 +171,39 @@ eq_clast_name_indexes (const void *e1, const void *e2) +/* NEWIVS_INDEX binds CLooG's scattering name to the index of the tree + induction variable in NEWIVS. + + PARAMS_INDEX binds CLooG's parameter name to the index of the tree + parameter in PARAMS. */ + +typedef struct ivs_params { + VEC (tree, heap) *params, **newivs; + htab_t newivs_index, params_index; + sese region; +} *ivs_params_p; + /* Returns the tree variable from the name NAME that was given in Cloog representation. */ static tree -clast_name_to_gcc (clast_name_p name, sese region, VEC (tree, heap) *newivs, - htab_t newivs_index, htab_t params_index) +clast_name_to_gcc (clast_name_p name, ivs_params_p ip) { int index; - VEC (tree, heap) *params = SESE_PARAMS (region); - if (params && params_index) + if (ip->params && ip->params_index) { - index = clast_name_to_index (name, params_index); + index = clast_name_to_index (name, ip->params_index); if (index >= 0) - return VEC_index (tree, params, index); + return VEC_index (tree, ip->params, index); } - gcc_assert (newivs && newivs_index); - index = clast_name_to_index (name, newivs_index); + gcc_assert (*(ip->newivs) && ip->newivs_index); + index = clast_name_to_index (name, ip->newivs_index); gcc_assert (index >= 0); - return VEC_index (tree, newivs, index); + return VEC_index (tree, *(ip->newivs), index); } /* Returns the signed maximal precision type for expressions TYPE1 and TYPE2. */ @@ -250,27 +260,22 @@ max_precision_type (tree type1, tree type2) } static tree -clast_to_gcc_expression (tree, struct clast_expr *, sese, VEC (tree, heap) *, - htab_t, htab_t); +clast_to_gcc_expression (tree, struct clast_expr *, ivs_params_p); /* Converts a Cloog reduction expression R with reduction operation OP to a GCC expression tree of type TYPE. */ static tree clast_to_gcc_expression_red (tree type, enum tree_code op, - struct clast_reduction *r, - sese region, VEC (tree, heap) *newivs, - htab_t newivs_index, htab_t params_index) + struct clast_reduction *r, ivs_params_p ip) { int i; - tree res = clast_to_gcc_expression (type, r->elts[0], region, newivs, - newivs_index, params_index); + tree res = clast_to_gcc_expression (type, r->elts[0], ip); tree operand_type = (op == POINTER_PLUS_EXPR) ? sizetype : type; for (i = 1; i < r->n; i++) { - tree t = clast_to_gcc_expression (operand_type, r->elts[i], region, - newivs, newivs_index, params_index); + tree t = clast_to_gcc_expression (operand_type, r->elts[i], ip); res = fold_build2 (op, type, res, t); } @@ -281,9 +286,7 @@ clast_to_gcc_expression_red (tree type, enum tree_code op, type TYPE. */ static tree -clast_to_gcc_expression (tree type, struct clast_expr *e, - sese region, VEC (tree, heap) *newivs, - htab_t newivs_index, htab_t params_index) +clast_to_gcc_expression (tree type, struct clast_expr *e, ivs_params_p ip) { switch (e->type) { @@ -295,8 +298,7 @@ clast_to_gcc_expression (tree type, struct clast_expr *e, { if (mpz_cmp_si (t->val, 1) == 0) { - tree name = clast_name_to_gcc (t->var, region, newivs, - newivs_index, params_index); + tree name = clast_name_to_gcc (t->var, ip); if (POINTER_TYPE_P (TREE_TYPE (name)) != POINTER_TYPE_P (type)) name = fold_convert (sizetype, name); @@ -307,8 +309,7 @@ clast_to_gcc_expression (tree type, struct clast_expr *e, else if (mpz_cmp_si (t->val, -1) == 0) { - tree name = clast_name_to_gcc (t->var, region, newivs, - newivs_index, params_index); + tree name = clast_name_to_gcc (t->var, ip); if (POINTER_TYPE_P (TREE_TYPE (name)) != POINTER_TYPE_P (type)) name = fold_convert (sizetype, name); @@ -319,8 +320,7 @@ clast_to_gcc_expression (tree type, struct clast_expr *e, } else { - tree name = clast_name_to_gcc (t->var, region, newivs, - newivs_index, params_index); + tree name = clast_name_to_gcc (t->var, ip); tree cst = gmp_cst_to_tree (type, t->val); if (POINTER_TYPE_P (TREE_TYPE (name)) != POINTER_TYPE_P (type)) @@ -348,17 +348,13 @@ clast_to_gcc_expression (tree type, struct clast_expr *e, case clast_red_sum: return clast_to_gcc_expression_red (type, POINTER_TYPE_P (type) ? POINTER_PLUS_EXPR : PLUS_EXPR, - r, region, newivs, newivs_index, params_index); + r, ip); case clast_red_min: - return clast_to_gcc_expression_red (type, MIN_EXPR, r, region, - newivs, newivs_index, - params_index); + return clast_to_gcc_expression_red (type, MIN_EXPR, r, ip); case clast_red_max: - return clast_to_gcc_expression_red (type, MAX_EXPR, r, region, - newivs, newivs_index, - params_index); + return clast_to_gcc_expression_red (type, MAX_EXPR, r, ip); default: gcc_unreachable (); @@ -370,8 +366,7 @@ clast_to_gcc_expression (tree type, struct clast_expr *e, { struct clast_binary *b = (struct clast_binary *) e; struct clast_expr *lhs = (struct clast_expr *) b->LHS; - tree tl = clast_to_gcc_expression (type, lhs, region, newivs, - newivs_index, params_index); + tree tl = clast_to_gcc_expression (type, lhs, ip); tree tr = gmp_cst_to_tree (type, b->RHS); switch (b->type) @@ -448,47 +443,40 @@ gcc_type_for_value (mpz_t val) static tree gcc_type_for_clast_term (struct clast_term *t, - sese region, VEC (tree, heap) *newivs, - htab_t newivs_index, htab_t params_index) + ivs_params_p ip) { gcc_assert (t->expr.type == clast_expr_term); if (!t->var) return gcc_type_for_value (t->val); - return TREE_TYPE (clast_name_to_gcc (t->var, region, newivs, - newivs_index, params_index)); + return TREE_TYPE (clast_name_to_gcc (t->var, ip)); } static tree -gcc_type_for_clast_expr (struct clast_expr *, sese, - VEC (tree, heap) *, htab_t, htab_t); +gcc_type_for_clast_expr (struct clast_expr *, ivs_params_p); /* Return the type for the clast_reduction R used in STMT. */ static tree -gcc_type_for_clast_red (struct clast_reduction *r, sese region, - VEC (tree, heap) *newivs, - htab_t newivs_index, htab_t params_index) +gcc_type_for_clast_red (struct clast_reduction *r, + ivs_params_p ip) { int i; tree type = NULL_TREE; if (r->n == 1) - return gcc_type_for_clast_expr (r->elts[0], region, newivs, - newivs_index, params_index); + return gcc_type_for_clast_expr (r->elts[0], ip); switch (r->type) { case clast_red_sum: case clast_red_min: case clast_red_max: - type = gcc_type_for_clast_expr (r->elts[0], region, newivs, - newivs_index, params_index); + type = gcc_type_for_clast_expr (r->elts[0], ip); for (i = 1; i < r->n; i++) type = max_precision_type (type, gcc_type_for_clast_expr - (r->elts[i], region, newivs, - newivs_index, params_index)); + (r->elts[i], ip)); return type; @@ -503,12 +491,9 @@ gcc_type_for_clast_red (struct clast_reduction *r, sese region, /* Return the type for the clast_binary B used in STMT. */ static tree -gcc_type_for_clast_bin (struct clast_binary *b, - sese region, VEC (tree, heap) *newivs, - htab_t newivs_index, htab_t params_index) +gcc_type_for_clast_bin (struct clast_binary *b, ivs_params_p ip) { - tree l = gcc_type_for_clast_expr ((struct clast_expr *) b->LHS, region, - newivs, newivs_index, params_index); + tree l = gcc_type_for_clast_expr ((struct clast_expr *) b->LHS, ip); tree r = gcc_type_for_value (b->RHS); return max_signed_precision_type (l, r); } @@ -518,22 +503,18 @@ gcc_type_for_clast_bin (struct clast_binary *b, static tree gcc_type_for_clast_expr (struct clast_expr *e, - sese region, VEC (tree, heap) *newivs, - htab_t newivs_index, htab_t params_index) + ivs_params_p ip) { switch (e->type) { case clast_expr_term: - return gcc_type_for_clast_term ((struct clast_term *) e, region, - newivs, newivs_index, params_index); + return gcc_type_for_clast_term ((struct clast_term *) e, ip); case clast_expr_red: - return gcc_type_for_clast_red ((struct clast_reduction *) e, region, - newivs, newivs_index, params_index); + return gcc_type_for_clast_red ((struct clast_reduction *) e, ip); case clast_expr_bin: - return gcc_type_for_clast_bin ((struct clast_binary *) e, region, - newivs, newivs_index, params_index); + return gcc_type_for_clast_bin ((struct clast_binary *) e, ip); default: gcc_unreachable (); @@ -546,31 +527,23 @@ gcc_type_for_clast_expr (struct clast_expr *e, static tree gcc_type_for_clast_eq (struct clast_equation *cleq, - sese region, VEC (tree, heap) *newivs, - htab_t newivs_index, htab_t params_index) + ivs_params_p ip) { - tree l = gcc_type_for_clast_expr (cleq->LHS, region, newivs, - newivs_index, params_index); - tree r = gcc_type_for_clast_expr (cleq->RHS, region, newivs, - newivs_index, params_index); + tree l = gcc_type_for_clast_expr (cleq->LHS, ip); + tree r = gcc_type_for_clast_expr (cleq->RHS, ip); return max_precision_type (l, r); } /* Translates a clast equation CLEQ to a tree. */ static tree -graphite_translate_clast_equation (sese region, - struct clast_equation *cleq, - VEC (tree, heap) *newivs, - htab_t newivs_index, htab_t params_index) +graphite_translate_clast_equation (struct clast_equation *cleq, + ivs_params_p ip) { enum tree_code comp; - tree type = gcc_type_for_clast_eq (cleq, region, newivs, newivs_index, - params_index); - tree lhs = clast_to_gcc_expression (type, cleq->LHS, region, newivs, - newivs_index, params_index); - tree rhs = clast_to_gcc_expression (type, cleq->RHS, region, newivs, - newivs_index, params_index); + tree type = gcc_type_for_clast_eq (cleq, ip); + tree lhs = clast_to_gcc_expression (type, cleq->LHS, ip); + tree rhs = clast_to_gcc_expression (type, cleq->RHS, ip); if (cleq->sign == 0) comp = EQ_EXPR; @@ -587,18 +560,15 @@ graphite_translate_clast_equation (sese region, /* Creates the test for the condition in STMT. */ static tree -graphite_create_guard_cond_expr (sese region, struct clast_guard *stmt, - VEC (tree, heap) *newivs, - htab_t newivs_index, htab_t params_index) +graphite_create_guard_cond_expr (struct clast_guard *stmt, + ivs_params_p ip) { tree cond = NULL; int i; for (i = 0; i < stmt->n; i++) { - tree eq = graphite_translate_clast_equation (region, &stmt->eq[i], - newivs, newivs_index, - params_index); + tree eq = graphite_translate_clast_equation (&stmt->eq[i], ip); if (cond) cond = fold_build2 (TRUTH_AND_EXPR, TREE_TYPE (eq), cond, eq); @@ -612,13 +582,10 @@ graphite_create_guard_cond_expr (sese region, struct clast_guard *stmt, /* Creates a new if region corresponding to Cloog's guard. */ static edge -graphite_create_new_guard (sese region, edge entry_edge, - struct clast_guard *stmt, - VEC (tree, heap) *newivs, - htab_t newivs_index, htab_t params_index) +graphite_create_new_guard (edge entry_edge, struct clast_guard *stmt, + ivs_params_p ip) { - tree cond_expr = graphite_create_guard_cond_expr (region, stmt, newivs, - newivs_index, params_index); + tree cond_expr = graphite_create_guard_cond_expr (stmt, ip); edge exit_edge = create_empty_if_region_on_edge (entry_edge, cond_expr); return exit_edge; } @@ -720,11 +687,9 @@ gcc_type_for_iv_of_clast_loop (struct clast_for *stmt_for, int level, vector and is of type TYPE. */ static struct loop * -graphite_create_new_loop (edge entry_edge, - struct clast_for *stmt, - loop_p outer, VEC (tree, heap) **newivs, - htab_t newivs_index, - tree type, tree lb, tree ub, int level) +graphite_create_new_loop (edge entry_edge, struct clast_for *stmt, + loop_p outer, tree type, tree lb, tree ub, + int level, ivs_params_p ip) { tree stride = gmp_cst_to_tree (type, stmt->stride); tree ivvar = create_tmp_var (type, "graphite_IV"); @@ -735,9 +700,9 @@ graphite_create_new_loop (edge entry_edge, add_referenced_var (ivvar); - save_clast_name_index (newivs_index, stmt->iterator, - VEC_length (tree, *newivs), level); - VEC_safe_push (tree, heap, *newivs, iv); + save_clast_name_index (ip->newivs_index, stmt->iterator, + VEC_length (tree, *(ip->newivs)), level); + VEC_safe_push (tree, heap, *(ip->newivs), iv); return loop; } @@ -745,10 +710,8 @@ graphite_create_new_loop (edge entry_edge, induction variables of the loops around GBB in SESE. */ static void -build_iv_mapping (VEC (tree, heap) *iv_map, sese region, - VEC (tree, heap) *newivs, htab_t newivs_index, - struct clast_user_stmt *user_stmt, - htab_t params_index) +build_iv_mapping (VEC (tree, heap) *iv_map, struct clast_user_stmt *user_stmt, + ivs_params_p ip) { struct clast_stmt *t; int depth = 0; @@ -760,11 +723,9 @@ build_iv_mapping (VEC (tree, heap) *iv_map, sese region, { struct clast_expr *expr = (struct clast_expr *) ((struct clast_assignment *)t)->RHS; - tree type = gcc_type_for_clast_expr (expr, region, newivs, - newivs_index, params_index); - tree new_name = clast_to_gcc_expression (type, expr, region, newivs, - newivs_index, params_index); - loop_p old_loop = gbb_loop_at_index (gbb, region, depth); + tree type = gcc_type_for_clast_expr (expr, ip); + tree new_name = clast_to_gcc_expression (type, expr, ip); + loop_p old_loop = gbb_loop_at_index (gbb, ip->region, depth); VEC_replace (tree, iv_map, old_loop->num, new_name); } @@ -855,17 +816,13 @@ dependency_in_loop_p (loop_p loop, htab_t bb_pbb_mapping, int level) /* Translates a clast user statement STMT to gimple. - - REGION is the sese region we used to generate the scop. - NEXT_E is the edge where new generated code should be attached. - CONTEXT_LOOP is the loop in which the generated code will be placed - - BB_PBB_MAPPING is is a basic_block and it's related poly_bb_p mapping. - - PARAMS_INDEX connects the cloog parameters with the gimple parameters in - the sese region. */ + - BB_PBB_MAPPING is is a basic_block and it's related poly_bb_p mapping. */ + static edge -translate_clast_user (sese region, struct clast_user_stmt *stmt, edge next_e, - VEC (tree, heap) **newivs, - htab_t newivs_index, htab_t bb_pbb_mapping, - htab_t params_index) +translate_clast_user (struct clast_user_stmt *stmt, edge next_e, + htab_t bb_pbb_mapping, ivs_params_p ip) { int i, nb_loops; basic_block new_bb; @@ -881,8 +838,8 @@ translate_clast_user (sese region, struct clast_user_stmt *stmt, edge next_e, for (i = 0; i < nb_loops; i++) VEC_quick_push (tree, iv_map, NULL_TREE); - build_iv_mapping (iv_map, region, *newivs, newivs_index, stmt, params_index); - next_e = copy_bb_and_scalar_dependences (GBB_BB (gbb), region, + build_iv_mapping (iv_map, stmt, ip); + next_e = copy_bb_and_scalar_dependences (GBB_BB (gbb), ip->region, next_e, iv_map); VEC_free (tree, heap, iv_map); @@ -897,24 +854,18 @@ translate_clast_user (sese region, struct clast_user_stmt *stmt, edge next_e, count is zero (lb > ub). */ static edge -graphite_create_new_loop_guard (sese region, edge entry_edge, - struct clast_for *stmt, - VEC (tree, heap) *newivs, - htab_t newivs_index, htab_t params_index, - int level, tree *type, tree *lb, tree *ub) +graphite_create_new_loop_guard (edge entry_edge, struct clast_for *stmt, + int level, tree *type, tree *lb, tree *ub, + ivs_params_p ip) { tree cond_expr; edge exit_edge; - tree lb_type = gcc_type_for_clast_expr (stmt->LB, region, newivs, - newivs_index, params_index); - tree ub_type = gcc_type_for_clast_expr (stmt->UB, region, newivs, - newivs_index, params_index); + tree lb_type = gcc_type_for_clast_expr (stmt->LB, ip); + tree ub_type = gcc_type_for_clast_expr (stmt->UB, ip); *type = gcc_type_for_iv_of_clast_loop (stmt, level, lb_type, ub_type); - *lb = clast_to_gcc_expression (*type, stmt->LB, region, newivs, - newivs_index, params_index); - *ub = clast_to_gcc_expression (*type, stmt->UB, region, newivs, - newivs_index, params_index); + *lb = clast_to_gcc_expression (*type, stmt->LB, ip); + *ub = clast_to_gcc_expression (*type, stmt->UB, ip); /* When ub is simply a constant or a parameter, use lb <= ub. */ if (TREE_CODE (*ub) == INTEGER_CST || TREE_CODE (*ub) == SSA_NAME) @@ -941,29 +892,20 @@ graphite_create_new_loop_guard (sese region, edge entry_edge, } static edge -translate_clast (sese, loop_p, struct clast_stmt *, edge, - VEC (tree, heap) **, htab_t, htab_t, int, htab_t); +translate_clast (loop_p, struct clast_stmt *, edge, htab_t, int, ivs_params_p); /* Create the loop for a clast for statement. - - REGION is the sese region we used to generate the scop. - NEXT_E is the edge where new generated code should be attached. - - BB_PBB_MAPPING is is a basic_block and it's related poly_bb_p mapping. - - PARAMS_INDEX connects the cloog parameters with the gimple parameters in - the sese region. */ + - BB_PBB_MAPPING is is a basic_block and it's related poly_bb_p mapping. */ static edge -translate_clast_for_loop (sese region, loop_p context_loop, - struct clast_for *stmt, edge next_e, - VEC (tree, heap) **newivs, - htab_t newivs_index, htab_t bb_pbb_mapping, - int level, htab_t params_index, tree type, - tree lb, tree ub) +translate_clast_for_loop (loop_p context_loop, struct clast_for *stmt, + edge next_e, htab_t bb_pbb_mapping, int level, + tree type, tree lb, tree ub, ivs_params_p ip) { - struct loop *loop = graphite_create_new_loop (next_e, stmt, - context_loop, newivs, - newivs_index, - type, lb, ub, level); + struct loop *loop = graphite_create_new_loop (next_e, stmt, context_loop, + type, lb, ub, level, ip); edge last_e = single_exit (loop); edge to_body = single_succ_edge (loop->header); basic_block after = to_body->dest; @@ -972,9 +914,8 @@ translate_clast_for_loop (sese region, loop_p context_loop, last_e = single_succ_edge (split_edge (last_e)); /* Translate the body of the loop. */ - next_e = translate_clast (region, loop, stmt->body, to_body, - newivs, newivs_index, bb_pbb_mapping, level + 1, - params_index); + next_e = translate_clast (loop, stmt->body, to_body, bb_pbb_mapping, + level + 1, ip); redirect_edge_succ_nodup (next_e, after); set_immediate_dominator (CDI_DOMINATORS, next_e->dest, next_e->src); @@ -989,51 +930,38 @@ translate_clast_for_loop (sese region, loop_p context_loop, protecting the loop, if it is executed zero times. In this guard we create the real loop structure. - - REGION is the sese region we used to generate the scop. - NEXT_E is the edge where new generated code should be attached. - - BB_PBB_MAPPING is is a basic_block and it's related poly_bb_p mapping. - - PARAMS_INDEX connects the cloog parameters with the gimple parameters in - the sese region. */ + - BB_PBB_MAPPING is is a basic_block and it's related poly_bb_p mapping. */ + static edge -translate_clast_for (sese region, loop_p context_loop, struct clast_for *stmt, - edge next_e, VEC (tree, heap) **newivs, - htab_t newivs_index, htab_t bb_pbb_mapping, int level, - htab_t params_index) +translate_clast_for (loop_p context_loop, struct clast_for *stmt, edge next_e, + htab_t bb_pbb_mapping, int level, ivs_params_p ip) { tree type, lb, ub; - edge last_e = graphite_create_new_loop_guard (region, next_e, stmt, *newivs, - newivs_index, params_index, - level, &type, &lb, &ub); + edge last_e = graphite_create_new_loop_guard (next_e, stmt, level, &type, + &lb, &ub, ip); edge true_e = get_true_edge_from_guard_bb (next_e->dest); - translate_clast_for_loop (region, context_loop, stmt, true_e, newivs, - newivs_index, bb_pbb_mapping, level, - params_index, type, lb, ub); + translate_clast_for_loop (context_loop, stmt, true_e, bb_pbb_mapping, level, + type, lb, ub, ip); return last_e; } /* Translates a clast guard statement STMT to gimple. - - REGION is the sese region we used to generate the scop. - NEXT_E is the edge where new generated code should be attached. - CONTEXT_LOOP is the loop in which the generated code will be placed - - BB_PBB_MAPPING is is a basic_block and it's related poly_bb_p mapping. - - PARAMS_INDEX connects the cloog parameters with the gimple parameters in - the sese region. */ + - BB_PBB_MAPPING is is a basic_block and it's related poly_bb_p mapping. */ + static edge -translate_clast_guard (sese region, loop_p context_loop, - struct clast_guard *stmt, edge next_e, - VEC (tree, heap) **newivs, - htab_t newivs_index, htab_t bb_pbb_mapping, int level, - htab_t params_index) +translate_clast_guard (loop_p context_loop, struct clast_guard *stmt, + edge next_e, htab_t bb_pbb_mapping, int level, + ivs_params_p ip) { - edge last_e = graphite_create_new_guard (region, next_e, stmt, *newivs, - newivs_index, params_index); + edge last_e = graphite_create_new_guard (next_e, stmt, ip); edge true_e = get_true_edge_from_guard_bb (next_e->dest); - translate_clast (region, context_loop, stmt->then, true_e, - newivs, newivs_index, bb_pbb_mapping, - level, params_index); + translate_clast (context_loop, stmt->then, true_e, bb_pbb_mapping, level, ip); return last_e; } @@ -1043,11 +971,10 @@ translate_clast_guard (sese region, loop_p context_loop, - NEXT_E is the edge where new generated code should be attached. - CONTEXT_LOOP is the loop in which the generated code will be placed - BB_PBB_MAPPING is is a basic_block and it's related poly_bb_p mapping. */ + static edge -translate_clast (sese region, loop_p context_loop, struct clast_stmt *stmt, - edge next_e, VEC (tree, heap) **newivs, - htab_t newivs_index, htab_t bb_pbb_mapping, int level, - htab_t params_index) +translate_clast (loop_p context_loop, struct clast_stmt *stmt, edge next_e, + htab_t bb_pbb_mapping, int level, ivs_params_p ip) { if (!stmt) return next_e; @@ -1056,36 +983,28 @@ translate_clast (sese region, loop_p context_loop, struct clast_stmt *stmt, ; /* Do nothing. */ else if (CLAST_STMT_IS_A (stmt, stmt_user)) - next_e = translate_clast_user (region, (struct clast_user_stmt *) stmt, - next_e, newivs, newivs_index, - bb_pbb_mapping, params_index); + next_e = translate_clast_user ((struct clast_user_stmt *) stmt, + next_e, bb_pbb_mapping, ip); else if (CLAST_STMT_IS_A (stmt, stmt_for)) - next_e = translate_clast_for (region, context_loop, - (struct clast_for *) stmt, next_e, - newivs, newivs_index, - bb_pbb_mapping, level, params_index); + next_e = translate_clast_for (context_loop, (struct clast_for *) stmt, + next_e, bb_pbb_mapping, level, ip); else if (CLAST_STMT_IS_A (stmt, stmt_guard)) - next_e = translate_clast_guard (region, context_loop, - (struct clast_guard *) stmt, next_e, - newivs, newivs_index, - bb_pbb_mapping, level, params_index); + next_e = translate_clast_guard (context_loop, (struct clast_guard *) stmt, + next_e, bb_pbb_mapping, level, ip); else if (CLAST_STMT_IS_A (stmt, stmt_block)) - next_e = translate_clast (region, context_loop, - ((struct clast_block *) stmt)->body, - next_e, newivs, newivs_index, - bb_pbb_mapping, level, params_index); + next_e = translate_clast (context_loop, ((struct clast_block *) stmt)->body, + next_e, bb_pbb_mapping, level, ip); else gcc_unreachable(); recompute_all_dominators (); graphite_verify (); - return translate_clast (region, context_loop, stmt->next, next_e, - newivs, newivs_index, - bb_pbb_mapping, level, params_index); + return translate_clast (context_loop, stmt->next, next_e, bb_pbb_mapping, + level, ip); } /* Free the SCATTERING domain list. */ @@ -1124,7 +1043,7 @@ initialize_cloog_names (scop_p scop, CloogProgram *prog) for (i = 0; i < nb_parameters; i++) { - tree param = VEC_index (tree, SESE_PARAMS(region), i); + tree param = VEC_index (tree, SESE_PARAMS (region), i); const char *name = get_name (param); int len; @@ -1461,6 +1380,7 @@ gloog (scop_p scop, htab_t bb_pbb_mapping) ifsese if_region = NULL; htab_t newivs_index, params_index; cloog_prog_clast pc; + struct ivs_params ip; timevar_push (TV_GRAPHITE_CODE_GEN); gloog_error = false; @@ -1493,10 +1413,14 @@ gloog (scop_p scop, htab_t bb_pbb_mapping) create_params_index (params_index, pc.prog); - translate_clast (region, context_loop, pc.stmt, - if_region->true_region->entry, - &newivs, newivs_index, - bb_pbb_mapping, 0, params_index); + ip.newivs = &newivs; + ip.newivs_index = newivs_index; + ip.params = SESE_PARAMS (region); + ip.params_index = params_index; + ip.region = region; + + translate_clast (context_loop, pc.stmt, if_region->true_region->entry, + bb_pbb_mapping, 0, &ip); graphite_verify (); scev_reset (); recompute_all_dominators ();