-/* Copyright (C) 2002 by Universitaet Karlsruhe
-* All rights reserved.
-*
-* Authors: Goetz Lindenmaier
-*
-* irloops.h: Computes backedges in the control and data flow.
-* Only Block and Phi/Filter nodes can have incoming backedges.
-* Constructs loops data structure: indicates loop nesting.
-*/
-
-/* $Id$ */
-
-# ifndef _IRLOOP_H_
-# define _IRLOOP_H_
+/*
+ * Copyright (C) 1995-2007 University of Karlsruhe. All right reserved.
+ *
+ * This file is part of libFirm.
+ *
+ * This file may be distributed and/or modified under the terms of the
+ * GNU General Public License version 2 as published by the Free Software
+ * Foundation and appearing in the file LICENSE.GPL included in the
+ * packaging of this file.
+ *
+ * Licensees holding valid libFirm Professional Edition licenses may use
+ * this file in accordance with the libFirm Commercial License.
+ * Agreement provided with the Software.
+ *
+ * This file is provided AS IS with NO WARRANTY OF ANY KIND, INCLUDING THE
+ * WARRANTY OF DESIGN, MERCHANTABILITY AND FITNESS FOR A PARTICULAR
+ * PURPOSE.
+ */
+
+/**
+ * @file
+ * @brief Loop datastructure and access functions.
+ * @author Goetz Lindenmaier
+ * @date 7.2002
+ * @version $Id$
+ * @summary
+ * Computes backedges in the control and data flow.
+ *
+ * @note
+ * Only Block and Phi/Filter nodes can have incoming backedges.
+ * Constructs loops data structure: indicates loop nesting.
+ */
+# ifndef FIRM_ANA_IRLOOP_H
+# define FIRM_ANA_IRLOOP_H
# include "irgraph.h"
# include "irnode.h"
-
-/** @@@ Interprocedural backedges ... ???? **/
-
-/**********************************************************************/
-/** Backedge information. **/
-/** **/
-/** Predecessors of Block, Phi and interprocedural Filter nodes can **/
-/** have backedges. If loop information is computed, this **/
-/** information is computed, too. **/
-/** The backedge information can only be used if the graph is not in **/
-/** phase phase_building. **/
-/**********************************************************************/
-
-/* Returns true if the predesessor pos is a backedge. */
-bool is_backedge (ir_node *n, int pos);
-/* Remarks that edge pos is a backedge. */
+/* ------------------------------------------------------------------- */
+/*
+ * Backedge information.
+ *
+ * Predecessors of Block, Phi and interprocedural Filter nodes can
+ * have backedges. If loop information is computed, this
+ * information is computed, too.
+ * The backedge information can only be used if the graph is not in
+ * phase phase_building.
+ */
+/* ------------------------------------------------------------------- */
+
+/** Returns true if the predecessor pos is a backedge in the interprozeduralem view. */
+int is_inter_backedge(ir_node *n, int pos);
+/** Returns true if the predecessor pos is a backedge in the intraprocedural view. */
+int is_intra_backedge(ir_node *n, int pos);
+/** Returns non-zero if the predecessor pos is a backedge. */
+int is_backedge (ir_node *n, int pos);
+/** Marks edge pos as a backedge. */
void set_backedge (ir_node *n, int pos);
-/* Remarks that edge pos is not a backedge. */
+/** Marks edge pos as a non-backedge. */
void set_not_backedge (ir_node *n, int pos);
-/* Returns true if n has backedges. */
-bool has_backedges (ir_node *n);
-/* Sets backedge information to zero. */
+/** Returns non-zero if n has backedges. */
+int has_backedges (ir_node *n);
+/** Clears all backedge information. */
void clear_backedges (ir_node *n);
-/**********************************************************************/
-/** The loops datastructure **/
-/** **/
-/** The loops datastructure represents circles in the intermediate **/
-/** representation. It does not represent loops in the terms of a **/
-/** source program. **/
-/** Each ir_graph can contain one outermost loop datastructure. **/
-/** loop is the entry point to the nested loops. **/
-/** The loop datastructure contains a field indicating the depth of **/
-/** the loop within the nesting. Further it contains a list of the **/
-/** loops with nesting depth -1. Finally it contains a list of all **/
-/** nodes in the loop. **/
-/* @@@ We could add a field pointing from a node to the containing loop,
- this would cost a lot of memory, though. */
-/**********************************************************************/
-
+/* ------------------------------------------------------------------- */
+/**
+ * The loops data structure.
+ *
+ * The loops data structure represents circles in the intermediate
+ * representation. It does not represent loops in the terms of a
+ * source program.
+ * Each ir_graph can contain one outermost loop data structure.
+ * loop is the entry point to the nested loops.
+ * The loop data structure contains a field indicating the depth of
+ * the loop within the nesting. Further it contains a list of the
+ * loops with nesting depth -1. Finally it contains a list of all
+ * nodes in the loop.
+ *
+ * @todo We could add a field pointing from a node to the containing loop,
+ * this would cost a lot of memory, though.
+ */
+/* ------------------------------------------------------------------- */
+#ifndef _IR_LOOP_TYPEDEF_
+#define _IR_LOOP_TYPEDEF_
typedef struct ir_loop ir_loop;
+#endif
+
+/** Loop elements: loop nodes and ir nodes */
+typedef union {
+ firm_kind *kind; /**< is either k_ir_node or k_ir_loop */
+ ir_node *node; /**< Pointer to an ir_node element */
+ ir_loop *son; /**< Pointer to an ir_loop element */
+} loop_element;
+
+int is_ir_loop(const void *thing);
+/** Set the outermost loop in ir graph as basic access to loop tree. */
void set_irg_loop(ir_graph *irg, ir_loop *l);
+
+/* Returns the root loop info (if exists) for an irg. */
ir_loop *get_irg_loop(ir_graph *irg);
-/* Returns the loop n is contained in.
- assumes current_ir_graph set properly. */
-ir_loop *get_irn_loop(ir_node *n);
+/** Returns the loop n is contained in. NULL if node is in no loop. */
+ir_loop *get_irn_loop(const ir_node *n);
-/* Returns outer loop, itself if outermost. */
-ir_loop *get_loop_outer_loop (ir_loop *loop);
-/* Returns nesting depth of this loop */
-int get_loop_depth (ir_loop *loop);
+/** Returns outer loop, itself if outermost. */
+ir_loop *get_loop_outer_loop (const ir_loop *loop);
+/** Returns nesting depth of this loop */
+int get_loop_depth (const ir_loop *loop);
/* Sons are the inner loops contained in this loop. */
-/* Returns the number of inner loops */
-int get_loop_n_sons (ir_loop *loop);
-ir_loop *get_loop_son (ir_loop *loop, int pos);
-/* Returns the number of nodes contained in loop. */
-int get_loop_n_nodes (ir_loop *loop);
-ir_node *get_loop_node (ir_loop *loop, int pos);
-
+/** Returns the number of inner loops */
+int get_loop_n_sons (const ir_loop *loop);
-/**********************************************************************/
-/* Constructing and destructing the loop/backedge information. **/
-/**********************************************************************/
+/** Returns the pos`th son loop (inner loop) of a loop.
+ Returns NULL if there is not a pos`th loop_node. */
+ir_loop *get_loop_son (ir_loop *loop, int pos);
-/* Constructs backedge information for irg in intraprocedural view. */
-void construct_backedges(ir_graph *irg);
+/** Returns the number of nodes contained in loop. */
+int get_loop_n_nodes (ir_loop *loop);
-/* Constructs backedges for all irgs in interprocedural view. All
- loops in the graph will be marked as such, not only realizeable
- loops and recursions in the program. E.g., if the same funcion is
- called twice, there is a loop between the first funcion return and
- the second call. */
-void construct_ip_backedges();
+/** Returns the pos`th ir_node of a loop.
+ Returns NULL if there is not a pos`th ir_node. */
+ir_node *get_loop_node (ir_loop *loop, int pos);
-#endif /* _IRLOOP_H_ */
+/** Returns the number of elements contained in loop. */
+int get_loop_n_elements (const ir_loop *loop);
+
+/** Returns a loop element. A loop element can be interpreted as a
+ kind pointer, an ir_node* or an ir_loop*. */
+loop_element get_loop_element (const ir_loop *loop, int pos);
+
+/** Returns the element number of the loop son in loop.
+ * Returns -1 if not found. O(|elements|). */
+int get_loop_element_pos(const ir_loop *loop, void *le);
+
+/** Returns a unique node number for the loop node to make output
+ readable. If libfirm_debug is not set it returns the loop cast to
+ int. */
+int get_loop_loop_nr(const ir_loop *loop);
+
+/** A field to connect additional information to a loop. Only valid
+ if libfirm_debug is set, else returns NULL. */
+void set_loop_link (ir_loop *loop, void *link);
+void *get_loop_link (const ir_loop *loop);
+
+/* ------------------------------------------------------------------- */
+/* Constructing and destructing the loop/backedge information. */
+/* ------------------------------------------------------------------- */
+
+/** Constructs backedge information and loop tree for a graph in intraprocedural view.
+ *
+ * The algorithm views the program representation as a pure graph.
+ * It assumes that only block and phi nodes may be loop headers.
+ * The resulting loop tree is a possible visiting order for dataflow
+ * analysis.
+ *
+ * This algorithm destoyes the link field of block nodes.
+ *
+ * @returns Maximal depth of loop tree.
+ *
+ * @remark
+ * One assumes, the Phi nodes in a block with a backedge have backedges
+ * at the same positions as the block. This is not the case, as
+ * the scc algorithms does not respect the program semantics in this case.
+ * Take a swap in a loop (t = i; i = j; j = t;) This results in two Phi
+ * nodes. They form a cycle. Once the scc algorithm deleted one of the
+ * edges, the cycle is removed. The second Phi node does not get a
+ * backedge!
+ */
+/* @@@ Well, maybe construct_loop_information or analyze_loops ? */
+int construct_backedges(ir_graph *irg);
+
+/** Constructs backedges for all irgs in interprocedural view.
+ *
+ * @see As construct_backedges(), but for interprocedural view.
+ *
+ * @remark
+ * All loops in the graph will be marked as such, not only
+ * realizeable loops and recursions in the program. E.g., if the
+ * same funcion is called twice, there is a loop between the first
+ * function return and the second call.
+ *
+ * @returns Maximal depth of loop tree.
+*/
+int construct_ip_backedges(void);
+
+/** Construct loop tree only for control flow.
+ *
+ * This constructs loop information resembling the program structure.
+ * It is useful for loop optimizations and analyses, as, e.g., finding
+ * iteration variables or loop invariant code motion.
+ *
+ * This algorithm computes only back edge information for Block nodes, not
+ * for Phi nodes.
+ *
+ * This algorithm destoyes the link field of block nodes.
+ *
+ * @returns Maximal depth of loop tree.
+ */
+int construct_cf_backedges(ir_graph *irg);
+
+/** Construct interprocedural loop tree for control flow.
+ *
+ * @see construct_cf_backedges() and construct_ip_backedges().
+ */
+int construct_ip_cf_backedges (void);
+
+/** Removes all loop information.
+ * Resets all backedges. Works for any construction algorithm.
+ */
+void free_loop_information(ir_graph *irg);
+void free_all_loop_information (void);
+
+
+
+
+/* ------------------------------------------------------------------- */
+/* Simple analyses based on the loop information */
+/* ------------------------------------------------------------------- */
+
+/** Test whether a value is loop invariant.
+ *
+ * @param n The node to be tested.
+ * @param block A block node.
+ *
+ * Returns non-zero, if the node n is not changed in the loop block
+ * belongs to or in inner loops of this block. */
+int is_loop_invariant(ir_node *n, ir_node *block);
+
+#endif