+
+/** Inlineing with a different heuristic than inline_small_irgs().
+ *
+ * Inlines leave functions. If inlinening creates new leave
+ * function inlines these, too. (If g calls f, and f calls leave h,
+ * h is first inlined in f and then f in g.)
+ *
+ * Then inlines all small functions (this is not recursive).
+ *
+ * For a heuristic this inlineing uses firm node counts. It does
+ * not count auxiliary nodes as Proj, Tuple, End, Start, Id, Sync.
+ *
+ * @param maxsize Do not inline any calls if a method has more than
+ * maxsize firm nodes. It may reach this limit by
+ * inlineing.
+ * @param leavesize Inline leave functions if they have less than leavesize
+ * nodes.
+ * @param size Inline all function smaller than size.
+ */
+void inline_leave_functions(int maxsize, int leavesize, int size);
+
+/** Code Placement.
+ *
+ * Pinns all floating nodes to a block where they
+ * will be executed only if needed. Depends on the flag opt_global_cse.
+ * Graph may not be in phase_building. Does not schedule control dead
+ * code. Uses dominator information which it computes if the irg is not
+ * in state dom_consistent. Destroys the out information as it moves nodes
+ * to other blocks. Optimizes Tuples in Control edges.
+ * @todo This is not tested!
+ *
+ * Call remove_critical_cf_edges() before place_code(). This normalizes
+ * the control flow graph so that for all operations a basic block exists
+ * where they can be optimally placed.
+ *
+ * @todo A more powerful code placement would move operations past Phi nodes
+ * out of loops.
+ */
+void place_code(ir_graph *irg);
+
+/** Places an empty basic block on critical control flow edges thereby
+ * removing them.
+ *
+ * A critical control flow edge is an edge from a block with several
+ * control exits to a block with several control entries (See Muchnic
+ * p. 407).
+ * Is only executed if flag set_opt_critical_edges() is set.
+ *
+ * @param irg IR Graph
+ */
+void remove_critical_cf_edges(ir_graph *irg);
+
+/**
+ * Copies a node to the current_ir_graph. The Ins of the new node point to
+ * the predecessors on the graph of the old node. For block/phi nodes not all
+ * predecessors might be copied.
+ * For Phi and Block nodes the function allocates in-arrays with an arity
+ * only for useful predecessors. The arity is determined by counting
+ * the non-bad predecessors of the block.
+ * Does NOT copy Bad nodes, as these are "local" to the graph.
+ * Use get_irg_bad() instead.
+ *
+ * @param n The node to be copied
+ * @param copy_node_nr if non-NULL, the node number attribute will be copied to the new node
+ */
+ir_node *copy_irn(ir_node *n, int copy_node_nr);
+