-void remove_bad_predecessors(ir_graph *irg);
-
-/** Inlines a method at the given call site.
- *
- * Removes the call node and splits the basic block the call node
- * belongs to. Inserts a copy of the called graph between these nodes.
- * Assumes that call is a Call node in current_ir_graph and that
- * the type in the Call nodes type attribute is the same as the
- * type of the called graph.
- * Further it assumes that all Phi nodes in a block of current_ir_graph
- * are assembled in a "link" list in the link field of the corresponding
- * block nodes. Further assumes that all Proj nodes are in a "link" list
- * in the nodes producing the tuple. (This is only an optical feature
- * for the graph.) Conserves this feature for the old
- * nodes of the graph. This precondition can be established by a call to
- * collect_phisprojs(), see irgmod.h.
- * As dead_node_elimination this function reduces dead Block<->Jmp
- * self-cycles to Bad nodes.
- *
- * Called_graph must be unequal to current_ir_graph. Will not inline
- * if they are equal.
- * Sets visited masterflag in current_ir_graph to the max of the flag in
- * current and called graph.
- * Assumes that both, the called and the calling graph are in state
- * "op_pin_state_pinned".
- * It is recommended to call local_optimize_graph() after inlining as this
- * function leaves a set of obscure Tuple nodes, e.g. a Proj-Tuple-Jmp
- * combination as control flow operation.
- *
- * @param call the call node that should be inlined
- * @param called_graph the IR-graph that is called at call
- *
- * @return zero if method could not be inlined (recursion for instance),
- * non-zero if all went ok
- */
-int inline_method(ir_node *call, ir_graph *called_graph);
-
-/** Inlines all small methods at call sites where the called address comes
- * from a SymConst node that references the entity representing the called
- * method.
- *
- * The size argument is a rough measure for the code size of the method:
- * Methods where the obstack containing the firm graph is smaller than
- * size are inlined. Further only a limited number of calls are inlined.
- * If the method contains more than 1024 inlineable calls none will be
- * inlined.
- * Inlining is only performed if flags `optimize' and `inlineing' are set.
- * The graph may not be in state phase_building.
- * It is recommended to call local_optimize_graph() after inlining as this
- * function leaves a set of obscure Tuple nodes, e.g. a Proj-Tuple-Jmp
- * combination as control flow operation.
- */
-void inline_small_irgs(ir_graph *irg, int size);
-
-
-/** 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.
- * If the ignore_runtime flag is set, calls to functions marked with the
- * mtp_property_runtime property are ignored.
- *
- * @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.
- * @param ignore_runtime count a function only calling runtime functions as
- * leave
- */
-void inline_leave_functions(int maxsize, int leavesize, int size, int ignore_runtime);