Remove unused source files in lib/hipe/opt

Three of the removed source files don't even compile.

Uncompilable source files cause problems for tools such as
scripts/diffable that want to compile all found source files.

5 files changed, 0 insertions, 2154 deletions

diff --git a/lib/hipe/opt/hipe_schedule.erl b/lib/hipe/opt/hipe_schedule.erl
deleted file mode 100644
index 0f25940e3d..0000000000
--- a/lib/hipe/opt/hipe_schedule.erl
+++ /dev/null
@@ -1,1483 +0,0 @@
-%% Licensed under the Apache License, Version 2.0 (the "License");
-%% you may not use this file except in compliance with the License.
-%% You may obtain a copy of the License at
-%%
-%%     http://www.apache.org/licenses/LICENSE-2.0
-%%
-%% Unless required by applicable law or agreed to in writing, software
-%% distributed under the License is distributed on an "AS IS" BASIS,
-%% WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-%% See the License for the specific language governing permissions and
-%% limitations under the License.
-%%
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-%%
-%%			INSTRUCTION SCHEDULER
-%%
-%% This is a basic ILP cycle scheduler:
-%% * set cycle = 0
-%% * while ready[cycle] nonempty do
-%%   - take x with greatest priority from ready[cycle]
-%%   - try to schedule x;
-%%     * if scheduling x was possible, 
-%%       - reserve resources
-%%       - add x to schedule and delete x from dag
-%%       - update earliest-time for all successor nodes
-%%         as max[earliest[y],cycle+latency[x]]
-%%       - if some node y now has no predecessors,
-%%         add y to ready[earliest[y]]
-%%     * if it was impossible, put x in ready[cycle+1]
-%%       (= try again)
-%%
-%% We use the following data structures:
-%% 1. all nodes are numbered and indices used as array keys
-%% 2. priority per node can be computed statically or dynamically
-%%    * statically: before scheduling, each node gets a priority value
-%%    * dynamically: at each cycle, compute priorities for all ready nodes
-%% 3. earliest: earliest cycle of issue, starts at 0
-%%    and is updated as predecessors issue
-%% 4. predecessors: number of predecessors (0 = ready to issue)
-%% 5. successors: list of {Latency,NodeID}
-%% 6. ready: an array indexed by cycle-time (integer), where
-%%    ready nodes are kept.
-%% 7. resources: a resource representation (ADT) that answers
-%%    certain queries, e.g., "can x be scheduled this cycle"
-%%    and "reserve resources for x".
-%% 8. schedule: list of scheduled instructions {Instr,Cycle}
-%%    in the order of issue
-%% 9. instructions: maps IDs back to instructions
-%%
-%% Inputs:
-%% - a list of {ID,Node} pairs (where ID is a unique key)
-%% - a dependence list {ID0,Latency,ID1}, which is used to
-%%   build the DAG.
-%%
-%% Note that there is some leeway in how things are represented
-%% from here.
-%%
-%% MODIFICATIONS:
-%% - Some basic blocks are not worth scheduling (e.g., GC save/restore code)
-%%   yet are pretty voluminous. How do we skip them?
-%% - Scheduling should be done at finalization time: when basic block is
-%%   linearized and is definitely at Sparc assembly level, THEN reorder
-%%   stuff.
-
--module(hipe_schedule).
--export([cfg/1, est_cfg/1, delete_node/5]).
-
--include("../sparc/hipe_sparc.hrl").
-
-%%-define(debug1,true).
-
--define(debug2(Str,Args),ok).
-%%-define(debug2(Str,Args),io:format(Str,Args)).
-
--define(debug3(Str,Args),ok).
-%%-define(debug3(Str,Args),io:format(Str,Args)).
-
--define(debug4(Str,Args),ok).
-%%-define(debug4(Str,Args),io:format(Str,Args)).
-
--define(debug5(Str,Args),ok).
-%%-define(debug5(Str,Args),io:format(Str,Args)).
-
--define(debug(Str,Args),ok).
-%%-define(debug(Str,Args),io:format(Str,Args)).
-
-
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-%% Function    : cfg
-%% Argument    : CFG - the control flow graph 
-%% Returns     : CFG - A new cfg with scheduled blocks
-%% Description : Takes each basic block and schedules them one by one.
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-cfg(CFG) ->
-    ?debug3("CFG: ~n~p", [CFG]),
-    update_all( [ {L, 
-		   hipe_bb:mk_bb(
-		     block(L,hipe_bb:code(hipe_sparc_cfg:bb(CFG,L))) )}
-		 || L <- hipe_sparc_cfg:labels(CFG) ], CFG).
-
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-%% Function    : update_all
-%% Argument    : Blocks - [{Label, Block}] , a list with labels and new code
-%%                                           used for updating the old CFG.
-%%               CFG    - The old controlflow graph
-%% Returns     : An updated controlflow graph.
-%% Description : Just swappes the basic blocks in the CFG to the scheduled one.
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-update_all([],CFG) -> CFG;
-update_all([{L,NewB}|Ls],CFG) ->
-    update_all(Ls,hipe_sparc_cfg:bb_add(CFG,L,NewB)).
-
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-
-est_cfg(CFG) ->
-    update_all([ {L, hipe_bb:mk_bb(est_block(hipe_bb:code(hipe_sparc_cfg:bb(CFG,L))))}
-		 || L <- hipe_sparc_cfg:labels(CFG) ], CFG).
-
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-%%
-%% Provides an estimation of how quickly a block will execute.
-%% This is done by chaining all instructions in sequential order
-%% by 0-cycle dependences (which means they will never be reordered), 
-%% then scheduling the mess.
-
-est_block([]) -> [];
-est_block([I]) -> [I];
-est_block(Blk) ->
-    {IxBlk,DAG} = est_deps(Blk),
-    Sch = bb(IxBlk,DAG),
-    separate_block(Sch,IxBlk).
-
-est_deps(Blk) ->
-    IxBlk = indexed_bb(Blk),
-    DAG = deps(IxBlk),
-    {IxBlk, chain_instrs(IxBlk,DAG)}.
-
-chain_instrs([{N,_}|Xs],DAG) ->
-    chain_i(N,Xs,DAG).
-
-chain_i(_,[],DAG) -> DAG;
-chain_i(N,[{M,_}|Xs],DAG) ->
-    NewDAG = dep_arc(N,zero_latency(),M,DAG),
-    chain_i(M,Xs,NewDAG).
-
-zero_latency() -> 0.
-
-lookup_instr([{N,I}|_], N) -> I;
-lookup_instr([_|Xs], N) -> lookup_instr(Xs, N).
-
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-%% Function    : block
-%% Argument    : Instrs - [Instr], list of all the instructions in a basic
-%%                                 block.
-%% Returns     : A new scheduled block
-%% Description : Schedule a basic block
-%%
-%%               Note: does not consider delay slots!
-%%              (another argument for using only annulled delay slots?)
-%%               * how do we add delay slots? somewhat tricky to 
-%%                 reconcile with the sort of scheduling we consider. 
-%%                 (as-early-as-possible)
-%%                 => rewrite scheduler into as-late-as-possible?
-%%                (=> just reverse the dependence arcs??)
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-
-%% Don't fire up the scheduler if there's no work to do.
-block(_, []) ->
-    [];
-block(_L, [I]) -> 
-    case hipe_sparc:is_any_branch(I) of
-	true -> [hipe_sparc:nop_create(), I];
-	false -> [I]
-    end;
-block(_L, Blk) ->
-    IxBlk = indexed_bb(Blk),
-    case IxBlk of
-	[{_N, I}] -> % comments and nops may have been removed.
-	    case hipe_sparc:is_any_branch(I) of
-		true -> [hipe_sparc:nop_create(), I];
-		false -> [I]
-	    end;
-	_ ->
-	    Sch = bb(IxBlk, {DAG, _Preds} = deps(IxBlk)),
-	    {NewSch, NewIxBlk} = fill_delays(Sch, IxBlk, DAG),
-	    X = finalize_block(NewSch, NewIxBlk),
-	    debug1_stuff(Blk, DAG, IxBlk, Sch, X),
-	    X
-    end.
-
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-%% Function    : fill_delays
-%% Argument    : Sch - List of {{cycle, C}, {node, N}} : C = current cycle
-%%                                                       N = node index
-%%               IxBlk - Indexed block [{N, Instr}]
-%%               DAG   - Dependence graph 
-%% Returns     : {NewSch, NewIxBlk} - vector with new schedule and vector
-%%                                    with {N, Instr}
-%% Description : Goes through the schedule from back to front looking for
-%%               branches/jumps. If one is found fill_del tries to find
-%%               an instr to fill the delayslot.
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-
-fill_delays(Sch, IxBlk, DAG) ->
-    NewIxBlk =  hipe_vectors:list_to_vector(IxBlk),
-    %% NewSch = hipe_vectors:list_to_vector(Sch),
-    NewSch = fill_del(length(Sch), hipe_vectors:list_to_vector(Sch), 
-		      NewIxBlk, DAG),
-    {NewSch, NewIxBlk}.
-
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-%% Function    : fill_del
-%% Argument    : N     - current index in the schedule
-%%               Sch   - schedule
-%%               IxBlk - indexed block
-%%               DAG   - dependence graph
-%% Returns     : Sch   - New schedule with possibly a delay instr in the last 
-%%                       position.
-%% Description : If a call/jump is found fill_branch_delay/fill_call_delay
-%%                 is called to find a delay-filler.
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-
-fill_del(N, Sch, _IxBlk, _DAG) when N < 1 -> Sch;
-fill_del(N, Sch, IxBlk, DAG) ->
-    Index = get_index(Sch, N),
-    ?debug2("Index for ~p: ~p~nInstr: ~p~n",
-	    [N, Index, get_instr(IxBlk, Index)]),
-    NewSch = 
-	case get_instr(IxBlk, Index) of
-	    #call_link{} ->
-		fill_branch_delay(N - 1, N, Sch, IxBlk, DAG);
-	    #jmp_link{} ->
-		fill_call_delay(N - 1, N, Sch, IxBlk, DAG);
-	    #jmp{} ->
-		fill_call_delay(N - 1, N, Sch, IxBlk, DAG);
-	    #b{} ->
-		fill_branch_delay(N - 1, N, Sch, IxBlk, DAG);
-	    #br{} ->
-		fill_branch_delay(N - 1, N, Sch, IxBlk, DAG);
-	    #goto{} ->
-		fill_branch_delay(N - 1, N, Sch, IxBlk, DAG);
-	    _Other ->
-		Sch
-	end,
-  NewSch.
-  %% fill_del(N - 1, NewSch, IxBlk, DAG).
-
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-%% Function    : fill_call_delay
-%% Argument    : Cand  - index in schedule of delay-candidate
-%%               Call  - index in schedule of call
-%%               Sch   - schedule vector: < {{cycle,Ci},{node,Nj}}, ... >
-%%               IxBlk - block vector:    < {N, Instr1}, {N+1, Instr2} ... >
-%%               DAG   - dependence graph
-%% Returns     : Sch - new updated schedule.
-%% Description : Searches backwards through the schedule trying to find an 
-%%               instr without conflicts with the Call-instr.
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-
-fill_call_delay(Cand, _Call, Sch, _IxBlk, _DAG) when Cand < 1 -> Sch;
-fill_call_delay(Cand, Call, Sch, IxBlk, DAG) ->
-    CandIndex = get_index(Sch, Cand),
-    CallIndex = get_index(Sch, Call),
-    CandI = get_instr(IxBlk, CandIndex),
-    case move_or_alu(CandI) of
-	true ->
-	    case single_depend(CandIndex, CallIndex, DAG) of
-		false -> % Other instrs depends on Cand ...
-		    fill_call_delay(Cand - 1, Call, Sch, IxBlk, DAG);
-		
-		true ->
-		    CallI = get_instr(IxBlk, CallIndex),
-		    
-		    CandDefs = ordsets:from_list(hipe_sparc:defines(CandI)),
-		    %% CandUses = ordsets:from_list(hipe_sparc:uses(CandI)),
-		    %% CallDefs = ordsets:from_list(hipe_sparc:defines(CallI)),
-		    CallUses = ordsets:from_list(hipe_sparc:uses(CallI)),
-		    
-		    Args = case CallI of
-			       #jmp_link{} ->
-				   ordsets:from_list(
-				     hipe_sparc:jmp_link_args(CallI));
-			       #jmp{} ->
-				   ordsets:from_list(hipe_sparc:jmp_args(CallI));
-			       #call_link{} ->
-				   ordsets:from_list(
-				     hipe_sparc:call_link_args(CallI))
-			   end,
-		    CallUses2 = ordsets:subtract(CallUses, Args),
-		    Conflict = ordsets:intersection(CandDefs, CallUses2),
-		    %% io:format("single_depend -> true:~n ~p~n, ~p~n,~p~n",[CandI,CallI,DAG]),
-		    %% io:format("Cand = ~p~nCall = ~p~n",[CandI,CallI]),
-		    %% io:format("CandDefs = ~p~nCallDefs = ~p~n",[CandDefs,CallDefs]),
-		    %% io:format("CandUses = ~p~nCallUses = ~p~n",[CandUses,CallUses]),
-		    %% io:format("Args = ~p~nCallUses2 = ~p~n",[Args,CallUses2]),
-		    %% io:format("Conflict = ~p~n",[Conflict]),
-		    
-		    case Conflict of 
-			[] -> % No conflicts ==> Cand can fill delayslot after Call
-			    update_schedule(Cand, Call, Sch);
-			_ -> % Conflict: try with preceeding instrs
-			    fill_call_delay(Cand - 1, Call, Sch, IxBlk, DAG)
-		    end
-	    end;
-	false ->
-	    fill_call_delay(Cand - 1, Call, Sch, IxBlk, DAG)
-    end.
-
-
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-%% Function    : fill_branch_delay
-%% Argument    : Cand   - index in schedule of delay-candidate
-%%               Branch - index in schedule of branch
-%%               Sch    - schedule
-%%               IxBlk  - indexed block
-%%               DAG    - dependence graph
-%% Returns     : Sch - new updated schedule.
-%% Description : Searches backwards through the schedule trying to find an 
-%%               instr without conflicts with the Branch-instr.
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-
-fill_branch_delay(Cand, _Br, Sch, _IxBlk, _DAG) when Cand < 1 -> Sch;
-fill_branch_delay(Cand, Br, Sch, IxBlk, DAG) -> 
-    CandIndex = get_index(Sch, Cand),
-    BrIndex   = get_index(Sch, Br),
-    CandI = get_instr(IxBlk, CandIndex),
-    case move_or_alu(CandI) of
-	true ->
-	    case single_depend(CandIndex, BrIndex, DAG) of
-		false -> % Other instrs depends on Cand ...
-		    fill_branch_delay(Cand - 1, Br, Sch, IxBlk, DAG);
-		
-		true ->
-		    BrI      = get_instr(IxBlk, BrIndex),
-		    CandDefs = ordsets:from_list(hipe_sparc:defines(CandI)),
-		    %% CandUses = ordsets:from_list(hipe_sparc:uses(CandI)),
-		    %% BrDefs   = ordsets:from_list(hipe_sparc:defines(BrI)),
-		    BrUses   = ordsets:from_list(hipe_sparc:uses(BrI)),
-		    
-		    Conflict = ordsets:intersection(CandDefs, BrUses),
-		    %% io:format("single_depend -> true: ~p~n, ~p~n,~p~n", [CandI, BrI, DAG]),
-		    %% io:format("Cand = ~p~nBr = ~p~n",[CandI,BrI]),
-		    %% io:format("CandDefs = ~p~nBrDefs = ~p~n",[CandDefs,BrDefs]),
-		    %% io:format("CandUses = ~p~nBrUses = ~p~n",[CandUses,BrUses]),
-		    %% io:format("Conflict = ~p~n",[Conflict]);
-		    
-		    case Conflict of 
-			[] -> % No conflicts ==> 
-                              % Cand can fill delayslot after Branch
-			    update_schedule(Cand, Br, Sch);
-			_ -> % Conflict: try with preceeding instrs
-			    fill_branch_delay(Cand - 1, Br, Sch, IxBlk, DAG)
-		    end
-	    end;
-	false ->
-	    fill_branch_delay(Cand - 1, Br, Sch, IxBlk, DAG)
-    end.
-    
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-%% Function    : update_schedule
-%% Argument    : From - the position from where to switch indexes in Sch
-%%               To   - the position to where to switch indexes in Sch
-%%               Sch  - schedule
-%% Returns     : Sch - an updated schedule
-%% Description : If From is the delay-filler and To is the Call/jump, the 
-%%               schedule is updated so From gets index To, To gets index 
-%%               To - 1, and the nodes between From and To gets old_index - 1.
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-update_schedule(To, To, Sch) -> 
-    {{cycle, C}, {node, _N} = Node} = hipe_vectors:get(Sch, To-1),
-    hipe_vectors:set(Sch, To-1, {{cycle, C+1}, Node});
-update_schedule(From, To, Sch) ->
-    Temp = hipe_vectors:get(Sch, From-1),
-    Sch1 = hipe_vectors:set(Sch, From-1, hipe_vectors:get(Sch, From)),
-    update_schedule(From + 1, To, hipe_vectors:set(Sch1, From, Temp)).
-
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-%% Function    : single_depend
-%% Argument    : N    - Index of the delayslot candidate
-%%               M    - Index of the node that N possibly has a single
-%%                      depend to.
-%%               DAG  - The dependence graph
-%% Returns     : true if no other nodes than N os depending on N
-%% Description : Checks that no other nodes than M depends on N and that the 
-%%               latency between them is zero or 1.
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-single_depend(N, M, DAG) ->
-    Deps = hipe_vectors:get(DAG, N-1),
-    single_depend(M, Deps).
-
-single_depend(_N, []) -> true;
-single_depend(N, [{0, N}]) -> true;
-single_depend(N, [{1, N}]) -> true;
-single_depend(_N, [{_Lat, _}|_]) -> false.
-
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-%% Function    : get_index
-%% Argument    : Sch - schedule
-%%               N   - index in schedule
-%% Returns     : Index - index of the node
-%% Description : Returns the index of the node on position N in the schedule.
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-get_index(Sch, N) ->
-    {{cycle, _C}, {node, Index}} = hipe_vectors:get(Sch,N-1),
-    Index.
-
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-%% Function    : get_instr
-%% Argument    : IxBlk - indexed block
-%%               N     - index in block
-%% Returns     : Instr
-%% Description : Returns the instr on position N in the indexed block.
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-get_instr(IxBlk, N) ->
-    {_, Instr} = hipe_vectors:get(IxBlk, N-1),
-    Instr.
-
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-%% Function    : get_instr
-%% Argument    : Sch   - schedule
-%%               IxBlk - indexed block
-%%               N     - index in schedule
-%% Returns     : Instr
-%% Description : Returns the instr on position N in the schedule.
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-get_instr(Sch, IxBlk, N) ->
-     {{cycle, _C}, {node, Index}} = hipe_vectors:get(Sch, N-1),
-     {_, Instr} = hipe_vectors:get(IxBlk, Index-1),
-     Instr.
-
-separate_block(Sch,IxBlk) ->
-    sep_comments([{C,lookup_instr(IxBlk,N)} || {{cycle,C},{node,N}} <- Sch]).
-
-sep_comments([]) -> [];
-sep_comments([{C,I}|Xs]) ->
-    [hipe_sparc:comment_create({cycle,C}), I | sep_comments(Xs,C)].
-
-sep_comments([], _) -> [];
-sep_comments([{C1,I}|Xs], C0) ->
-    if
-	C1 > C0 ->
-	    [hipe_sparc:comment_create({cycle,C1}),I|sep_comments(Xs,C1)];
-	true ->
-	    [I|sep_comments(Xs, C0)]
-    end.
-
-finalize_block(Sch, IxBlk) ->
-    ?debug5("Sch: ~p~nIxBlk: ~p~n",[Sch,IxBlk]),
-    finalize_block(1, hipe_vectors:size(Sch), 1, Sch, IxBlk, []).
-
-finalize_block(N, End, _C, Sch, IxBlk, _Instrs) when N =:= End - 1 ->
-    NextLast = get_instr(Sch, IxBlk, N),
-    Last     = get_instr(Sch, IxBlk, End),
-    ?debug5("NextLast: ~p~nLast: ~p~n",[NextLast,Last]),
-    case hipe_sparc:is_any_branch(Last) of
-	true -> % Couldn't fill delayslot ==> add NOP
-	    [NextLast , hipe_sparc:nop_create(), Last];
-	false ->  % Last is a delayslot-filler ==> change order...
-	    [Last, NextLast]
-    end;
-finalize_block(N, End, C0, Sch, IxBlk, Instrs) ->
-    {{cycle, _C1}, {node, _M}} = hipe_vectors:get(Sch, N-1),
-    Instr = get_instr(Sch, IxBlk, N),
-    ?debug5("Instr: ~p~n~n",[Instr]),
-    [Instr | finalize_block(N + 1, End, C0, Sch, IxBlk, Instrs)].
-
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-%% Function    : bb
-%% Argument    : IxBlk - indexed block
-%%               DAG   - {Dag, Preds} where Dag is dependence graph and 
-%%                       Preds is number of predecessors for each node.
-%% Returns     : Sch 
-%% Description : Initializes earliest-list, ready-list, priorities, resources
-%%               and so on, and calls the cycle_sched which does the scheduling
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-bb(IxBlk,DAG) ->
-    bb(length(IxBlk), IxBlk, DAG).
-
-bb(N,IxBlk,{DAG, Preds}) ->
-    Earliest = init_earliest(N),
-    BigArray = N*10,                     % "nothing" is this big :-)
-    Ready = hipe_schedule_prio:init_ready(BigArray,Preds),
-    I_res = init_instr_resources(N, IxBlk),
-    
-    Prio = hipe_schedule_prio:init_instr_prio(N,DAG),
-    Rsrc = init_resources(BigArray),
-    ?debug4("I_res: ~n~p~nPrio: ~n~p~nRsrc: ~n~p~n", [I_res,Prio,Rsrc]),
-    ?debug('cycle 1~n',[]),
-    Sch = empty_schedule(),
-    cycle_sched(1,Ready,DAG,Preds,Earliest,Rsrc,I_res,Prio,Sch,N,IxBlk).
-
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-%% Function    : cycle_sched
-%% Argument    :  - C is current cycle, 1 or more.
-%%                - Ready is an array (Cycle -> [Node])
-%%                    yielding the collection of nodes ready to be 
-%%                    scheduled in a cycle.
-%%                - DAG is an array (Instr -> [{Latency,Instr}])
-%%                    represents the dependence DAG.
-%%                - Preds is an array (Instr -> NumPreds)
-%%                    counts the number of predecessors 
-%%                    (0 preds = ready to be scheduled).
-%%                - Earl is an array (Instr -> EarliestCycle)
-%%                    holds the earliest cycle an instruction can be scheduled.
-%%                - Rsrc is a 'resource ADT' that handles scheduler resource 
-%%                    management checks whether instruction can be scheduled
-%%                    this cycle without a stall.
-%%                - I_res is an array (Instr -> Required_resources)
-%%                    holds the resources required to schedule an instruction.
-%%                - Sch is the representation of the schedule current schedule.
-%%                - N is the number of nodes remaining to be scheduled
-%%                    tells us when to stop the scheduler.
-%%                - IxBlk is the indexed block with instrs
-%% Returns     : present schedule
-%% Description : Scheduler main loop.
-%%               Pick next ready node in priority order for cycle C until 
-%%               none remain.
-%%                 * check each node if it can be scheduled w/o stalling
-%%                 * if so, schedule it
-%%                 * otherwise, bump the node to the next cycle
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-cycle_sched(C,Ready,DAG,Preds,Earl,Rsrc,I_res,Prio,Sch,N,IxBlk) ->
-    case hipe_schedule_prio:next_ready(C,Ready,Prio,IxBlk,DAG,Preds,Earl) of
-%  case hipe_schedule_prio:next_ready(C,Ready,Prio,IxBlk) of
-	{next,I,Ready1} ->  
-	    ?debug('try ~p~n==> ready = ~p~n',[I, Ready1]),
-	    case resources_available(C,I,Rsrc,I_res) of
-		{yes,NewRsrc} ->
-		    ?debug(' scheduled~n==> Rscrs = ~p~n',[NewRsrc]),
-		    NewSch = add_to_schedule(I,C,Sch),
-		    {ReadyNs,NewDAG,NewPreds,NewEarl} = 
-			delete_node(C,I,DAG,Preds,Earl),
-		    ?debug("NewPreds : ~p~n",[Preds]),
-		    ?debug(' ReadyNs: ~p~n',[ReadyNs]),
-		    NewReady = hipe_schedule_prio:add_ready_nodes(ReadyNs,
-								  Ready1),
-		    ?debug(' New ready: ~p~n',[NewReady]),
-		    cycle_sched(C,NewReady,NewDAG,NewPreds,NewEarl,
-				NewRsrc,I_res,Prio,NewSch,N-1, IxBlk);
-		no ->
-		    ?debug(' resource conflict~n',[]),
-		    NewReady = hipe_schedule_prio:insert_node(C+1,I,Ready1),
-		    cycle_sched(C,NewReady,DAG,Preds,Earl,Rsrc,
-				I_res,Prio,Sch,N,IxBlk)
-	    end;
-	none ->  % schedule next cycle if some node remains
-	    if
-		N > 0 ->
-		    ?debug('cycle ~p~n',[C+1]),
-		    cycle_sched(C+1,Ready,DAG,Preds,Earl,
-				advance_cycle(Rsrc),
-				I_res,Prio,Sch,N, IxBlk);
-		true ->
-		    present_schedule(Sch)
-	    end
-    end.
-
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-%% Function    : init_earliest
-%% Argument    : N - number of instrs
-%% Returns     : 
-%% Description : 
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-init_earliest(N) ->
-    hipe_vectors:new(N,1).
-
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-%%
-%% Schedule is kept reversed until the end.
-
--define(present_node(I,Cycle),{{cycle,Cycle},{node,I}}).
-
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-%% Function    : empty_schedule
-%% Description : Returns an empty schedule.
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-empty_schedule() -> [].
-
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-%% Function    : add_to_schedule
-%% Argument    : I     - instr
-%%               Cycle - cycle when I was placed
-%%               Sch   - schedule
-%% Description : Adds instr to schedule
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-add_to_schedule(I,Cycle,Sch) ->
-    [?present_node(I,Cycle)|Sch].
-
-present_schedule(Sch) -> lists:reverse(Sch).
-
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-%%
-%% Interface to resource manager:
-%%
-
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-%% Function    : init_resources
-%% Description : Yields a 'big enough' array mapping (Cycle -> Resources);
-%%                this array is called Rsrc below.
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-init_resources(S) ->
-    hipe_target_machine:init_resources(S).
-
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-%% Function    : init_instr_resources
-%% Argument    : Nodes - a list of the instructions
-%%               N     - is the number of nodes
-%% Description : return a vector (NodeID -> Resource_requirements)
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-init_instr_resources(N,Nodes) ->
-    hipe_target_machine:init_instr_resources(N,Nodes).
-
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-%% Function    : resources_available
-%% Argument    : Cycle - the current cycle
-%%               I     - the current instruction (index = NodeID)
-%%               Rsrc  - a map (Cycle -> Resources)
-%%               I_res - maps (NodeID -> Resource_requirements)
-%% Description : returns {yes,NewResTab} | no
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-resources_available(Cycle,I,Rsrc,I_res) ->
-    hipe_target_machine:resources_available(Cycle,I,Rsrc,I_res).
-
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-%% Function    : advance_cycle
-%% Argument    : Rsrc - resources
-%% Description : Returns an empty resources-state
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-advance_cycle(Rsrc) ->
-    hipe_target_machine:advance_cycle(Rsrc).
-
-
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-%% Function    : delete_node
-%% Argument    : Cycle - current cycle
-%%               I     - index of instr
-%%               DAG   - dependence dag
-%%               Preds - array with number of predecessors for nodes
-%%               Earl  - array with earliest-times for nodes
-%% Returns     : {ReadyNs,NewDAG,NewPreds,NewEarl}
-%% Description : Deletes node I and updates earliest times for the rest.
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-delete_node(Cycle,I,DAG,Preds,Earl) ->
-    Succ = hipe_vectors:get(DAG,I-1),
-    NewDAG = hipe_vectors:set(DAG,I-1,scheduled),  % provides debug 'support'
-    {ReadyNs,NewPreds,NewEarl} = update_earliest(Succ,Cycle,Preds,Earl,[]),
-    ?debug('earliest after ~p: ~p~n',[I,[{Ix+1,V} || {Ix,V} <- hipe_vectors:list(NewEarl)]]),
-    {ReadyNs,NewDAG,NewPreds,NewEarl}.
-
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-%% Function    : update_earliest
-%% Argument    : Succ - successor list
-%%               Cycle - current cycle
-%%               Preds - predecessors
-%%               Earl  - earliest times for nodes
-%%               Ready - array with readynodes for cycles
-%% Returns     : {Ready,Preds,Earl}
-%% Description : Updates the earliest times for nodes and updates number of 
-%%               predecessors for nodes
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-update_earliest([],_Cycle,Preds,Earl,Ready) ->
-    {Ready,Preds,Earl};
-update_earliest([{Lat,N}|Xs],Cycle,Preds,Earl,Ready) ->
-    Old_earl = hipe_vectors:get(Earl,N-1),
-    New_earl = erlang:max(Old_earl,Cycle+Lat),
-    NewEarl = hipe_vectors:set(Earl,N-1,New_earl),
-    Num_preds = hipe_vectors:get(Preds,N-1),
-    NewPreds = hipe_vectors:set(Preds,N-1,Num_preds-1),
-    if
-	Num_preds =:= 0 ->
-	    ?debug('inconsistent DAG~n',[]),
-	    exit({update_earliest,N});
-	Num_preds =:= 1 ->
-	    NewReady = [{New_earl,N}|Ready],
-	    NewPreds2 = hipe_vectors:set(NewPreds,N-1,0),
-	    update_earliest(Xs,Cycle,NewPreds2,NewEarl,NewReady);
-	is_integer(Num_preds), Num_preds > 1 ->
-	    update_earliest(Xs,Cycle,NewPreds,NewEarl,Ready)
-    end.
-
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-%%
-%% Collect instruction dependences.
-%%
-%% Three forms:
-%% - data/register
-%%   * insert RAW, WAR, WAW dependences
-%% - memory
-%%   * stores serialize memory references
-%%   * alias analysis may allow loads to bypass stores
-%% - control
-%%   * unsafe operations are 'trapped' between branches
-%%   * branches are ordered
-%%
-%% returns { [{Index,Instr}], DepDAG }
-%%   DepDAG is defined below.
-
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-%% Function    : deps
-%% Argument    : BB - Basic block 
-%% Returns     : {IxBB,DAG} - indexed block and dependence graph. DAG consists 
-%%                            of both Dag and Preds, where Preds is number
-%%                            of predecessors for nodes.
-%% Description : Collect instruction dependences.
-%%
-%%               Three forms:
-%%               - data/register
-%%                 * insert RAW, WAR, WAW dependences
-%%               - memory
-%%                 * stores serialize memory references
-%%                 * alias analysis may allow loads to bypass stores
-%%               - control
-%%                 * unsafe operations are 'trapped' between branches
-%%                 * branches are ordered
-%%
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-deps(IxBB) ->
-    N = length(IxBB),
-    DAG = empty_dag(N),  % The DAG contains both dependence-arcs and 
-                         % number of predeccessors...
-    {_DepTab,DAG1} = dd(IxBB, DAG),
-    DAG2 = md(IxBB, DAG1),
-    cd(IxBB, DAG2).
-
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-%% Function    : empty_dag
-%% Argument    : N - number of nodes
-%% Returns     : empty DAG
-%% Description : DAG consists of dependence graph and predeccessors
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-empty_dag(N) ->
-    {hipe_vectors:new(N, []), hipe_vectors:new(N, 0)}. 
-
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-%% Function    : indexed_bb
-%% Argument    : BB - basic block
-%% Returns     : [{N, Instr}]
-%% Description : Puts indexes to all instrs of a block, removes comments.
-%%               NOP's are also removed because if both sparc_schedule and
-%%               sparc_post_schedule options are used, the first pass will
-%%               add nop's before the branch if necessary, and these are
-%%               removed before scheduling the second pass.
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-indexed_bb(BB) ->
-    indexed_bb(BB,1).
-
-indexed_bb([],_N) -> [];
-indexed_bb([X|Xs],N) ->
-    case X of
-	#comment{} ->
-	    indexed_bb(Xs,N);
-	#nop{} ->
-	    indexed_bb(Xs,N);
-	_Other ->
-	    [{N,X}|indexed_bb(Xs,N+1)]
-    end.
-
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-%% Function    : dep_arc
-%% Argument    : N   - Current node 
-%%               Lat - Latency from current node to M
-%%               M   - The dependent node
-%%               DAG - The dependence graph. Consists of both DAG and 
-%%                     predeccessors
-%% Returns     : A new DAG with the arc added and number of predeccessors for
-%%                 M increased.
-%% Description : Adds a new arc to the graph, if an older arc goes from N to M
-%%               it will be replaced with a new arc {max(OldLat, NewLat), M}.
-%%               Number of predeccessors for node M is increased.
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-dep_arc(N, Lat, M, {Dag,Preds}) -> 
-    OldDeps = hipe_vectors:get(Dag, N-1),
-    %% io:format("{OldDeps} = {~p}~n",[OldDeps]),
-    {NewDeps, Status} = add_arc(Lat, M, OldDeps),
-    %% io:format("{NewDeps, Status} = {~p, ~p}~n",[NewDeps, Status]),
-    NewDag  = hipe_vectors:set(Dag, N-1, NewDeps),
-    NewPreds = case Status of
-		   added -> % just increase preds if new arc was added
-		       OldPreds = hipe_vectors:get(Preds, M-1),
-		       hipe_vectors:set(Preds, M-1, OldPreds + 1);
-		   non_added -> 
-		       Preds
-	       end,
-    {NewDag, NewPreds}.
-
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-%% Function    : add_arc
-%% Argument    : Lat  - The latency from current node to To.
-%%               To   - The instr-id of the node which the dependence goes to
-%%               Arcs - The dependecies that are already in the dep-graph
-%% Returns     : A dependence graph sorted by To. 
-%% Description : A new arc that is added is sorted in the right place, and if
-%%               there is already an arc between nodes A and B, the one with 
-%%               the greatest latency is chosen.
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-add_arc(Lat,To, []) -> {[{Lat, To}], added};
-add_arc(Lat1, To, [{Lat2, To} | Arcs]) ->
-    {[{erlang:max(Lat1, Lat2), To} | Arcs], non_added};
-add_arc(Lat1,To1, [{Lat2, To2} | Arcs]) when To1 < To2 ->
-    {[{Lat1, To1}, {Lat2, To2} | Arcs], added};
-add_arc(Lat1 ,To1, [{Lat2, To2} | Arcs]) ->
-    {Arcs1, Status} = add_arc(Lat1, To1, Arcs),
-    {[{Lat2, To2} | Arcs1], Status}.
-
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-%%
-%% The register/data dependence DAG of a block is represented
-%% as a mapping (Variable -> {NextWriter,NextReaders})
-%%  where NextWriter is a pair {Ix,Type}
-%%  and NextReaders is a list of pairs {Ix,Type}.
-%%
-%% Type is used to determine latencies of operations; on the UltraSparc,
-%% latencies of arcs (n -> m) are determined by both n and m. (E.g., if
-%% n is an integer op and m is a store, then latency is 0; if m is an
-%% integer op, it's 1.)
-
-dd([],DAG) -> { empty_deptab(), DAG };
-dd([{N,I}|Is],DAG0) ->
-    {DepTab,DAG1} = dd(Is,DAG0),
-    add_deps(N,I,DepTab,DAG1).
-
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-%% Function    : add_deps
-%% Argument    : N         - current node
-%%               Instr     - current instr
-%%               DepTab    - hashtable with {next-writer, next-readers} for reg
-%%               DAG       - dependence graph
-%% Returns     : {DepTab, BlockInfo, DAG} - with new values
-%% Description : Adds dependencies for node N to the graph. The registers that
-%%               node N defines and uses are used for computing the 
-%%               dependencies to the following nodes.
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-add_deps(N,Instr,DepTab,DAG) ->
-    {Ds,Us} = def_use(Instr),
-    Type = dd_type(Instr),
-    {DepTab1,DAG1} = add_write_deps(Ds,N,Type,DepTab,DAG),
-    add_read_deps(Us,N,Type,DepTab1,DAG1).
-
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-%% Instructions are classified into symbolic categories,
-%% which are subsequently used to determine operation latencies
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-dd_type(Instr) ->
-    case Instr of
-	#b{} -> branch;
-	%% #br{} -> branch;
-	#call_link{} -> branch;
-	#jmp_link{} -> branch;
-	#jmp{} -> branch;
-	#goto{} -> branch;
-	#load{} -> load;
-	#store{} -> store;
-	#alu{} -> alu;
-	#move{} -> alu;
-	#multimove{} -> 
-	    Src = hipe_sparc:multimove_src(Instr),
-	    Lat = round(length(Src)/2),
-	    {mmove,Lat};
-	#sethi{} -> alu;
-	#alu_cc{} -> alu_cc;
-	%% #cmov_cc{} -> cmov_cc;
-	%% #cmov_r{} -> alu;
-	#load_atom{} -> alu;
-	#load_address{} -> alu;
-	#pseudo_enter{} -> pseudo;
-	#pseudo_pop{} -> pseudo;
-	#pseudo_return{} -> pseudo;
-	#pseudo_spill{} -> pseudo;
-	#pseudo_unspill{} -> pseudo
-    end.
-
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-%% Function    : add_write_deps
-%% Argument    : Defs   - registers that node N defines.
-%%               N      - current node
-%%               Ty     - the type of current instr
-%%               DepTab - Dependence-table
-%%               DAG    - The dependence graph.
-%% Returns     : {DepTab,DAG} - with new values
-%% Description : Adds dependencies to the graph for nodes that depends on the
-%%               registers that N defines.
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-add_write_deps([],_N,_Ty,DepTab,DAG) -> {DepTab,DAG};
-add_write_deps([D|Ds],N,Ty,DepTab,DAG) ->
-    {NewDepTab,NewDAG} = add_write_dep(D,N,Ty,DepTab,DAG),
-    add_write_deps(Ds,N,Ty,NewDepTab,NewDAG).
-
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-%% Function    : add_write_dep
-%% Description : Updates the dependence table with N as next writer, and
-%%               updates the DAG with the dependencies from N to subsequent 
-%%               nodes.
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-add_write_dep(X,N,Ty,DepTab,DAG) ->
-    {NxtWriter,NxtReaders} = lookup(X,DepTab),
-    NewDepTab = writer(X,N,Ty,DepTab),
-    NewDAG = write_deps(N,Ty,NxtWriter,NxtReaders,DAG),
-    {NewDepTab, NewDAG}.
-
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-%% Function    : write_deps
-%% Argument    : Instr      - Current instr 
-%%               Ty         - Type of current instr
-%%               NxtWriter  - The node that is the next writer of the ragister
-%%                            that Instr defines.
-%%               NxtReaders - The nodes that are subsequent readers of the
-%%                            register that N defines.
-%%               DAG        - The dependence graph
-%% Returns     : Calls raw_deps that finally returns a new DAG with the new
-%%               dependence arcs added.
-%% Description : If a next writer exists a dependence arc for this node is 
-%%               added, and after this raw_deps is called to compute the 
-%%               arcs for read-after-write dependencies. 
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-write_deps(Instr,Ty,NxtWriter,NxtReaders,DAG) ->
-    DAG1 = case NxtWriter of
-	       none ->
-		   DAG;
-	       {Instr,_} ->
-		   DAG;
-	       {Wr,WrTy} ->
-		   dep_arc(Instr,
-			   hipe_target_machine:waw_latency(Ty,WrTy),
-			   Wr, DAG)
-	   end,
-    raw_deps(Instr,Ty,NxtReaders,DAG1).
-
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-%% Function    : raw_deps
-%% Argument    : Instr   - current instr
-%%               Type    - type of instr
-%%               Readers - subsequent readers 
-%%               DAG     - dependence graph
-%% Returns     : DAG - A new DAG with read-after-write dependencies added
-%% Description : Updates the DAG with the dependence-arcs from Instr to the
-%%               subsequent readers, with the appropriate latencies.
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-raw_deps(_Instr,_Type,[],DAG) -> DAG;
-raw_deps(Instr,Ty,[{Rd,RdTy}|Xs],DAG) ->
-    raw_deps(Instr,Ty,Xs,
-	     dep_arc(Instr,hipe_target_machine:raw_latency(Ty,RdTy),
-		     Rd,DAG)).
-
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-%% Function    : add_read_deps
-%% Argument    : Uses      - The registers that node N uses.
-%%               N         - Index of the current node.
-%%               Ty        - Type of current node.
-%%               DepTab    - Dependence table
-%%               DAG       - Dependence graph
-%% Returns     : {DepTab, DAG} - with updated values.
-%% Description : Adds the read dependencies from node N to subsequent ones, 
-%%               according to the registers that N uses. 
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-add_read_deps([],_N,_Ty,DepTab,DAG) -> {DepTab,DAG};
-add_read_deps([U|Us],N,Ty,DepTab,DAG) ->
-    {NewDepTab,NewDAG} = add_read_dep(U,N,Ty,DepTab,DAG),
-    add_read_deps(Us,N,Ty,NewDepTab,NewDAG).
-
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-%% Function    : add_read_dep
-%% Argument    : X      - Used register
-%%               N      - Index of checked instr
-%%               Ty     - Type of checked instr
-%%               DepTab - Hashtable with {next-writer, next-readers}
-%%               DAG    - Dependence graph
-%% Returns     : {DepTab, DAG} - with updated values
-%% Description : Looks up what the next-writer/next-readers are, and adjusts
-%%               the table with current node as new reader. Finally 
-%%               read-dependencies are added to the DAG.
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-add_read_dep(X,N,Ty,DepTab,DAG) ->
-    {NxtWriter,_NxtReaders} = lookup(X,DepTab),
-    NewDepTab = reader(X,N,Ty,DepTab),
-    NewDAG = read_deps(N,Ty,NxtWriter,DAG),
-    {NewDepTab, NewDAG}.
-
-% If NxtWriter is 'none', then this var is not written subsequently
-% Add WAR from Instr to NxtWriter (if it exists)
-% *** UNFINISHED ***
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-%% Function    : read_deps
-%% Argument    : N      - Index of current node
-%%               Ty     - Type of current node
-%%               Writer - tuple {NextWriter, WrType} where NextWriter is the
-%%                        subsequent instr that writes this register next time,
-%%                        and WrType is the type of that instr.
-%%               DAG    - The dependence graph
-%% Returns     : DAG 
-%% Description : Returns a new DAG if a next-writer exists, otherwise the old 
-%%               DAG is returned.
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-read_deps(_Instr,_Ty,none,DAG) ->
-    DAG;
-read_deps(_Instr,_Ty,{_Instr,_},DAG) ->
-    DAG;
-read_deps(Instr,Ty,{NxtWr,NxtWrTy},DAG) ->
-    dep_arc(Instr,hipe_target_machine:war_latency(Ty,NxtWrTy),NxtWr,
-	    DAG).
-
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-%% Function    : empty_deptab
-%% Description : Creates an empty dependence table (hash-table)
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-empty_deptab() ->
-    gb_trees:empty().
-
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-%% Function    : lookup
-%% Argument    : X      - key (register)
-%%               DepTab - dependence table
-%% Returns     : {NextWriter, NextReaders}
-%% Description : Returns next writer and a list of following readers on 
-%%               register X.
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-lookup(X, DepTab) ->
-    case gb_trees:lookup(X, DepTab) of
-	none ->
-	    {none, []};
-	{value, {W, Rs} = Val} ->
-	    Val
-    end.
-
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-%% Function    : writer
-%% Argument    : X      - key (register)
-%%               N      - index of writer
-%%               Ty     - type of writer
-%%               DepTab - dependence table to be updated
-%% Returns     : DepTab - new dependence table
-%% Description : Sets N tobe next writer on X
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-writer(X, N, Ty, DepTab) ->
-    gb_trees:enter(X, {{N, Ty}, []}, DepTab).
-
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-%% Function    : reader
-%% Argument    : X      - key (register)
-%%               N      - index of reader
-%%               Ty     - type of reader
-%%               DepTab - dependence table to be updated
-%% Returns     : DepTab - new dependence table
-%% Description : Adds N to the dependence table as a reader.
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-reader(X,N,Ty,DepTab) ->
-    {W,Rs} = lookup(X,DepTab),
-    gb_trees:enter(X,{W,[{N,Ty}|Rs]},DepTab).
-
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-%%
-%% The following version of md/2 separates heap- and stack operations,
-%% which allows for greater reordering.
-%%
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-%% Function    : md
-%% Argument    : IxBB - indexed block
-%%               DAG  - dependence graph
-%% Returns     : DAG  - new dependence graph
-%% Description : Adds arcs for load/store dependencies to the DAG.
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-md(IxBB, DAG) ->
-    md(IxBB,empty_md_state(),DAG).
-
-md([],_,DAG) -> DAG;
-md([{N,I}|Is],St,DAG) ->
-    case md_type(I) of
-	other ->
-	    md(Is,St,DAG);
-	{st,T} ->
-	    { WAW_nodes, WAR_nodes, NewSt } = st_overlap(N,T,St),
-	    md(Is,NewSt, 
-		md_war_deps(WAR_nodes,N,md_waw_deps(WAW_nodes,N,DAG)));
-	{ld,T} ->
-	    { RAW_nodes, NewSt } = ld_overlap(N,T,St),
-	    md(Is,NewSt,
-		md_raw_deps(RAW_nodes,N,DAG))
-    end.
-
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-%% Function    : md_war_deps
-%% Argument    : WAR_nodes - write-after-read nodes depending on N
-%%               N         - index of current instr
-%%               DAG       - dependence graph
-%% Returns     : DAG - updated DAG
-%% Description : Adds arcs for write-after-read dependencies for N
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-md_war_deps([],_,DAG) -> DAG;
-md_war_deps([M|Ms],N,DAG) ->
-    md_war_deps(Ms,N,dep_arc(M,hipe_target_machine:m_war_latency(),N,DAG)).
-
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-%% Function    : md_waw_deps
-%% Argument    : WAW_nodes - write-after-write nodes depending on N
-%%               N         - index of current instr
-%%               DAG       - dependence graph
-%% Returns     : DAG - updated DAG
-%% Description : Adds arcs for write-after-write dependencies for N
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-md_waw_deps([],_,DAG) -> DAG;
-md_waw_deps([M|Ms],N,DAG) ->
-    md_waw_deps(Ms,N,dep_arc(M,hipe_target_machine:m_waw_latency(),N,DAG)).
-
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-%% Function    : md_raw_deps
-%% Argument    : RAW_nodes - read-after-write nodes depending on N
-%%               N         - index of current instr
-%%               DAG       - dependence graph
-%% Returns     : DAG - updated DAG
-%% Description : Adds arcs for read-after-write dependencies for N
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-md_raw_deps([],_,DAG) -> DAG;
-md_raw_deps([M|Ms],N,DAG) ->
-    md_raw_deps(Ms,N,dep_arc(M,hipe_target_machine:m_raw_latency(),N,DAG)).
-
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-%% Function    : empty_md_state
-%% Description : Returns an empty memorydependence state, eg. 4 lists 
-%%               representing {StackStores, HeapStores, StackLoads, HeapLoads}
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-empty_md_state() -> {[], [], [], []}.
-
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-%% Function    : md_type
-%% Argument    : I - instr
-%% Description : Maps the instr-type to a simplified type, telling if it's
-%%               store/load resp. heap or stack.
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-md_type(I) ->
-    case I of
-	#load{} ->
-	    Sp = hipe_sparc_registers:stack_pointer(),
-	    Src = hipe_sparc:load_src(I),
-	    N = hipe_sparc:reg_nr(Src),
-	    Off = hipe_sparc:load_off(I),
-	    if
-		N =:= Sp -> % operation on stack
-		    {ld,{sp,Off}};
-		true ->
-		    {ld,{hp,Src,Off}}
-	    end;
-	#store{} ->
-	    Sp = hipe_sparc_registers:stack_pointer(),
-	    Dst = hipe_sparc:store_dest(I),
-	    N = hipe_sparc:reg_nr(Dst),
-	    Off = hipe_sparc:store_off(I),
-	    if
-		N =:= Sp ->
-		    {st,{sp,Off}};
-		true ->
-		    {st,{hp,Dst,Off}}
-	    end;
-	_ ->
-	    other
-    end.
-
-%% Given a memory operation and a 'memory op state',
-%% overlap(N,MemOp,State) returns { Preceding_Dependent_Ops, NewState }.
-%%  which are either a tuple { WAW_deps, WAR_deps } or a list RAW_deps.
-%%
-%% NOTES:
-%%  Note that Erlang's semantics ("heap stores never overwrite existing data")
-%% means we can be quite free in reordering stores to the heap.
-%%  Ld/St to the stack are simply handled by their offsets; since we do not
-%% rename the stack pointer, this is sufficient.
-%%  *** We assume all memory ops have uniform size = 4 ***
-%%
-%% NOTES:
-%%  The method mentioned above has now been changed because the assumption that
-%%  "heap stores never overwrite existing data" caused a bug when the
-%%   process-pointer was treated the same way as the heap. We were also told 
-%%   that the semantics can possibly change in the future, so it would be more 
-%%   safe to treat the heap store/loads as the stack.
-%%   A future improvement can be to do an alias analysis to give more freedom
-%%   in reordering stuff...
-%%
-%% Alias state:
-%%   { [StackOp], [HeapOp], [StackOp], [HeapOp] }
-%% where StackOp = {InstrID, Offset}
-%%       HeapOp = {InstrID, Reg, Offset}
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-%% Function    : st_overlap
-%% Argument    : N     - Index of current node
-%%               Type  - {sp,Off} or {hp,Dst,Off}, store on stack or heap
-%%               State - { [StackStrs], [HeapStrs], [StackLds], [HeapLds] }
-%%                       where StackStrs/StackLds = {InstrID, Offset}
-%%                       and    HeapStrs/HeapLds  = {InstrID, Reg, Offset}
-%% Returns     : { DepStrs, DepLds, State } -
-%%                   where DepStrs/DepLds = [NodeId]
-%%                   and State is the new state
-%% Description : Adds dependencies for overlapping stores.
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-st_overlap(N, {sp, Off}, {St_Sp, St_Hp, Ld_Sp, Ld_Hp}) ->
-    {DepSt, IndepSt_Sp} = st_sp_dep(St_Sp, Off),
-    {DepLd, IndepLd_Sp} = ld_sp_dep(Ld_Sp, Off),
-    {DepSt, DepLd, {[{N, Off}|IndepSt_Sp], St_Hp, IndepLd_Sp, Ld_Hp}};
-st_overlap(N, {hp, Dst, Off}, {St_Sp, St_Hp, Ld_Sp, Ld_Hp}) ->
-    DstOff = {Dst, Off},
-    {DepSt,_IndepSt_Hp} = st_hp_dep(St_Hp, DstOff),
-    {DepLd, IndepLd_Hp} = ld_hp_dep(Ld_Hp, DstOff),
-    {DepSt, DepLd, {St_Sp, [{N, Dst, Off}|St_Hp], Ld_Sp, IndepLd_Hp}}.
-
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-%% Function    : ld_overlap
-%% Argument    : N     - Index of current node
-%%               Type  - {sp,Off} or {hp,Dst,Off}, store on stack or heap
-%%               State - { [StackStrs], [HeapStrs], [StackLds], [HeapLds] }
-%%                       where StackStrs/StackLds = {InstrID, Offset}
-%%                       and    HeapStrs/HeapLds  = {InstrID, Reg, Offset}
-%% Returns     : { DepStrs, State } 
-%% Description : Adds dependencies for overlapping laods
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-ld_overlap(N, {sp, Off}, {St_Sp, St_Hp, Ld_Sp, Ld_Hp}) ->
-    DepSt = sp_dep_only(St_Sp, Off),
-    {DepSt, {St_Sp, St_Hp, [{N, Off}|Ld_Sp], Ld_Hp}};
-ld_overlap(N, {hp, Src, Off}, {St_Sp, St_Hp, Ld_Sp, Ld_Hp}) ->
-    DepSt = hp_dep_only(St_Hp, Src, Off),
-    {DepSt, {St_Sp, St_Hp, Ld_Sp, [{N, Src, Off}|Ld_Hp]}}.
-
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-%% Function    : st_sp_dep
-%% Description : Adds dependencies that are depending on a stack store
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-st_sp_dep(Stores, Off) ->
-    sp_dep(Stores, Off, [], []).
-
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-%% Function    : ld_sp_dep
-%% Description : Adds dependencies that are depending on a stack load
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-ld_sp_dep(Loads, Off) ->
-    sp_dep(Loads, Off, [], []).
-
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-%% Function    : st_hp_dep
-%% Description : Adds dependencies that are depending on a heap store
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-st_hp_dep(Stores, {_Reg, _Off} = RegOff) ->
-    hp_dep(Stores, RegOff, [], []).
-
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-%% Function    : ld_hp_dep
-%% Description : Adds dependencies that are depending on a heap load
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-ld_hp_dep(Loads, {_Reg, _Off} = RegOff) ->
-    hp_dep(Loads, RegOff, [], []).
-
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-%% Function    : sp_dep
-%% Description : Returns {Dependent, Independent} which are lists of nodes
-%%               that depends or not on a stack load/store
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-sp_dep([], _Off, Dep, Indep) -> {Dep, Indep};
-sp_dep([{N,Off}|Xs], Off, Dep, Indep) ->
-    sp_dep(Xs, Off, [N|Dep], Indep);
-sp_dep([X|Xs], Off, Dep, Indep) ->
-    sp_dep(Xs, Off, Dep, [X|Indep]).
-
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-%% Function    : hp_dep
-%% Description : Returns {Dependent, Independent} which are lists of nodes
-%%               that depends or not on a heap load/store
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-hp_dep([], {_Reg,_Off}, Dep, Indep) -> {Dep,Indep};
-hp_dep([{N,Reg,Off1}|Xs], {Reg,Off}, Dep, Indep) when Off1 =/= Off ->
-    hp_dep(Xs, {Reg,Off}, Dep, [{N,Reg,Off1}|Indep]);
-hp_dep([{N,_,_}|Xs], {Reg,Off}, Dep, Indep) ->
-    hp_dep(Xs, {Reg,Off}, [N|Dep], Indep).
-
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-%% Function    : sp_dep_only
-%% Description : Returns a list of nodes that are depending on a stack store
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-sp_dep_only(Stores, Off) ->
-    [N || {N,Off0} <- Stores, Off =:= Off0].
-
-%% Dependences from heap stores to heap loads.
-%% *** UNFINISHED ***
-%% - but works
-%% This is somewhat subtle:
-%% - a heap load can only bypass a heap store if we KNOW it won't
-%%   load the stored value
-%% - unfortunately, we do not know the relationships between registers
-%%   at this point, so we can't say that store(p+4) is independent of
-%%   load(q+0).
-%%    (OR CAN WE? A bit closer reasoning might show that it's possible?)
-%% - We can ONLY say that st(p+c) and ld(p+c') are independent when c /= c'
-%%
-%% (As said before, it might be possible to lighten this restriction?)
-
-hp_dep_only([], _Reg, _Off) -> [];
-hp_dep_only([{_N,Reg,Off_1}|Xs], Reg, Off) when Off_1 =/= Off ->
-    hp_dep_only(Xs, Reg, Off);
-hp_dep_only([{N,_,_}|Xs], Reg, Off) ->
-    [N|hp_dep_only(Xs, Reg, Off)].
-    
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-%% Control dependences:
-%% - add dependences so that
-%%   * branches are performed in order
-%%   * unsafe operations are 'fenced in' by surrounding branches
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-%% Function    : cd
-%% Argument    : IxBB - indexed block
-%%               DAG  - dependence graph
-%% Returns     : DAG - new dependence graph
-%% Description : Adds conditional dependencies to the DAG
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-cd(IxBB,DAG) ->
-    cd(IxBB, DAG, none, [], []).
-
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-%% Function    : cd
-%% Argument    : IxBB - indexed block
-%%               DAG  - dependence graph
-%%               PrevBr - previous branch
-%%               PrevUnsafe - previous unsafe instr (mem-op)
-%%               PrevOthers - previous other instrs, used to "fix" preceeding
-%%                            instrs so they don't bypass a branch.
-%% Returns     : DAG - new dependence graph
-%% Description : Adds conditional dependencies  to the graph.
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-cd([], DAG, _PrevBr, _PrevUnsafe, _PrevOthers) ->
-    DAG;
-cd([{N,I}|Xs], DAG, PrevBr, PrevUnsafe, PrevOthers) ->
-    case cd_type(I) of
-	{branch,Ty} ->
-	    DAG1   = cd_branch_to_other_deps(N, PrevOthers, DAG),
-	    NewDAG = cd_branch_deps(PrevBr, PrevUnsafe, N, Ty, DAG1),
-	    cd(Xs,NewDAG,{N,Ty},[],[]);
-	{unsafe,Ty} ->
-	    NewDAG = cd_unsafe_deps(PrevBr,N,Ty,DAG),
-	    cd(Xs, NewDAG, PrevBr, [{N,Ty}|PrevUnsafe], PrevOthers);
-	{other,_Ty} ->
-	    cd(Xs, DAG, PrevBr, PrevUnsafe, [N|PrevOthers])
-   end.
-
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-%% Function    : cd_branch_to_other_deps
-%% Argument    : N   - index of branch
-%%               Ms  - list of indexes of "others" preceding instrs
-%%               DAG - dependence graph
-%% Returns     : DAG - new graph
-%% Description : Makes preceding instrs fixed so they don't bypass a branch
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-cd_branch_to_other_deps(_, [], DAG) ->
-    DAG;
-cd_branch_to_other_deps(N, [M | Ms], DAG) ->
-    cd_branch_to_other_deps(N, Ms, dep_arc(M, zero_latency(), N, DAG)).
-
-%% Is the operation a branch, an unspeculable op or something else?
-
-%% Returns
-%%   {branch,BranchType}
-%%   {unsafe,OpType}
-%%   {other,OpType}
-
-%% *** UNFINISHED ***
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-%% Function    : cd_type
-%% Argument    : I - instr
-%% Description : Maps instrs to a simpler type.
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-cd_type(I) ->
-   case I of
-	#goto{} ->
-	    {branch,uncond};
-	#br{} ->
-	    {branch,'cond'};
-	#b{} ->
-	    {branch,'cond'};
-	#call_link{} ->
-	    {branch,call};
-	#jmp_link{} ->
-	   {branch,call};
-	#jmp{} ->
-	    {branch,call};
-	#load{} ->
-	    {unsafe,load};
-	#store{} ->
-	    {unsafe,load};
-	T ->
-	    {other,T}
-   end.
-
-%% add dependences to keep order of branches + unspeculable ops:
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-%% Function    : cd_branch_deps
-%% Argument    : PrevBr     - preceeding branch
-%%               PrevUnsafe - preceeding unsafe ops, eg, mem-ops
-%%               N          - current id.
-%%               Ty         - type of current instr
-%%               DAG        - dependence graph 
-%% Returns     : DAG - new DAG
-%% Description : Adds arcs between branches and calls deps_to_unsafe that adds
-%%               arcs between branches and unsafe ops.
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-cd_branch_deps(PrevBr, PrevUnsafe, N, Ty, DAG) ->
-    DAG1 = case PrevBr of
-	       none ->
-		   DAG;
-	       {Br,BrTy} ->
-		   dep_arc(Br,
-			   hipe_target_machine:br_br_latency(BrTy,Ty),
-			   N, DAG)
-	   end,
-    deps_to_unsafe(PrevUnsafe, N, Ty, DAG1).
-
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-%% Function    : deps_to_unsafe
-%% Description : Adds dependencies between unsafe's and branches
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-deps_to_unsafe([], _, _, DAG) -> DAG;
-deps_to_unsafe([{M,UTy}|Us], N, Ty, DAG) ->
-    deps_to_unsafe(Us,N,Ty,
-		   dep_arc(M, hipe_target_machine:unsafe_to_br_latency(UTy,Ty),
-			   N, DAG)).
-
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-%% Function    : cd_unsafe_deps
-%% Description : Adds dependencies between branches and unsafe's
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-cd_unsafe_deps(none, _, _, DAG) ->
-    DAG;
-cd_unsafe_deps({Br,BrTy}, N, Ty, DAG) ->
-    dep_arc(Br, hipe_target_machine:br_to_unsafe_latency(BrTy, Ty), N, DAG).
-
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-%% Function    : def_use
-%% Argument    : Instr 
-%% Description : Returns the registers that Instr defines resp. uses as 2 lists
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-def_use(Instr) ->
-    {hipe_sparc:defines(Instr), hipe_sparc:uses(Instr)}.
-
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-%% Function    : move_or_alu
-%% Description : True if the instruction is a move or an alu; false otherwise
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-move_or_alu(#move{}) -> true;
-move_or_alu(#alu{}) -> true;
-move_or_alu(_) -> false.
-
-%% Debugging stuff below %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-
--ifdef(debug1).
-debug1_stuff(Blk, DAG, IxBlk, Sch, X) ->
-    io:format("Blk: ~p~n",[Blk]),
-    io:format("DAG: ~n~p~n~p",[DAG,IxBlk]),
-    io:format("~n"),
-    print_instrs(IxBlk),
-    print_sch(Sch, IxBlk),
-    print_instrs2(X).
-
-print_instrs([]) ->
-    io:format("~n");
-print_instrs([{N,Instr} | Instrs]) ->
-    io:format("(~p): ",[N]),
-    hipe_sparc_pp:pp_instr(Instr),
-    io:format("~p~n",[element(1,Instr)]),
-    print_instrs(Instrs).
-
-print_instrs2([]) ->
-    io:format("~n");
-print_instrs2([Instr | Instrs]) ->
-    hipe_sparc_pp:pp_instr(Instr),
-    print_instrs2(Instrs).
-
-print_sch([],_) -> io:format("~n");
-print_sch([{{cycle,Cycle},{node,I}} | Rest], IxBlk) ->
-    io:format("{C~p, N~p} ",[Cycle,I]),
-    print_node(I, IxBlk),
-    print_sch(Rest, IxBlk).
-
-print_node(_, []) ->
-    io:format("~n");
-print_node(I, [{I, Instr} | _]) ->
-    hipe_sparc_pp:pp_instr(Instr);
-print_node(I, [_ | IxBlk]) ->
-    print_node(I, IxBlk).
--else.
-debug1_stuff(_Blk, _DAG, _IxBlk, _Sch, _X) ->
-    ok.
--endif.
diff --git a/lib/hipe/opt/hipe_schedule_prio.erl b/lib/hipe/opt/hipe_schedule_prio.erl
deleted file mode 100644
index 339bb82aab..0000000000
--- a/lib/hipe/opt/hipe_schedule_prio.erl
+++ /dev/null
@@ -1,53 +0,0 @@
-%% -*- erlang-indent-level: 2 -*-
-%%
-%% Licensed under the Apache License, Version 2.0 (the "License");
-%% you may not use this file except in compliance with the License.
-%% You may obtain a copy of the License at
-%%
-%%     http://www.apache.org/licenses/LICENSE-2.0
-%%
-%% Unless required by applicable law or agreed to in writing, software
-%% distributed under the License is distributed on an "AS IS" BASIS,
-%% WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-%% See the License for the specific language governing permissions and
-%% limitations under the License.
-%%
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-%%
-%%	      PRIORITY HANDLING AND PRIORITY CALCULATION
-%%
-%% Handling of ready nodes and priorities.
-%% - at present, all nodes have the same priority and so on.
-%%
-%% *** UNFINISHED ***
-%% - should compute a static priority estimate
-%% - should dynamically modify priorities + possibly insert NOPs
-%%   (e.g., to separate branches, etc.)
-%% - thus, ought to be passed the current schedule and/or resources as well
-
--module(hipe_schedule_prio).
--export([init_ready/2,
-	 init_instr_prio/2,
-	 %% initial_ready_set/4,
-	 next_ready/7,
-	 add_ready_nodes/2,
-	 insert_node/3
-	]).
-
-init_ready(Size,Preds) ->
-  hipe_ultra_prio:init_ready(Size,Preds).
-
-init_instr_prio(N,DAG) ->
-  hipe_ultra_prio:init_instr_prio(N,DAG).
-
-%% initial_ready_set(M,N,Preds,Ready) ->
-%%   hipe_ultra_prio:initial_ready_set(M,N,Preds,Ready).
-
-next_ready(C,Ready,Prio,Nodes,DAG,Preds,Earl) ->
-  hipe_ultra_prio:next_ready(C,Ready,Prio,Nodes,DAG,Preds,Earl).
-
-add_ready_nodes(NodeLst,Ready) ->
-  hipe_ultra_prio:add_ready_nodes(NodeLst,Ready).
-
-insert_node(C,I,Ready) ->
-  hipe_ultra_prio:insert_node(C,I,Ready).
diff --git a/lib/hipe/opt/hipe_target_machine.erl b/lib/hipe/opt/hipe_target_machine.erl
deleted file mode 100644
index 75993cb95e..0000000000
--- a/lib/hipe/opt/hipe_target_machine.erl
+++ /dev/null
@@ -1,87 +0,0 @@
-%% Licensed under the Apache License, Version 2.0 (the "License");
-%% you may not use this file except in compliance with the License.
-%% You may obtain a copy of the License at
-%%
-%%     http://www.apache.org/licenses/LICENSE-2.0
-%%
-%% Unless required by applicable law or agreed to in writing, software
-%% distributed under the License is distributed on an "AS IS" BASIS,
-%% WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-%% See the License for the specific language governing permissions and
-%% limitations under the License.
-%%
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-%%
-%%		  INTERFACE TO TARGET MACHINE MODEL
-%%
-%% Interfaces the instruction scheduler to the (resource) machine model.
-
--module(hipe_target_machine).
--export([init_resources/1,
-	 init_instr_resources/2,
-	 resources_available/4,
-	 advance_cycle/1
-	]).
--export([raw_latency/2,
-	 war_latency/2,
-	 waw_latency/2,
-	 %% m_raw_latency/2,
-	 %% m_war_latency/2,
-	 %% m_waw_latency/2,
-	 m_raw_latency/0,
-	 m_war_latency/0,
-	 m_waw_latency/0,
-	 br_to_unsafe_latency/2,
-	 unsafe_to_br_latency/2,
-	 br_br_latency/2
-	]).
-
--define(target,hipe_ultra_mod2).
-
-init_resources(X) ->
-    ?target:init_resources(X).
-
-init_instr_resources(X,Y) ->
-    ?target:init_instr_resources(X,Y).
-
-resources_available(X,Y,Z,W) ->
-    ?target:resources_available(X,Y,Z,W).
-
-advance_cycle(X) ->
-    ?target:advance_cycle(X).
-
-raw_latency(From,To) ->
-    ?target:raw_latency(From,To).
-
-war_latency(From,To) ->
-    ?target:war_latency(From,To).
-
-waw_latency(From,To) ->
-    ?target:waw_latency(From,To).
-
-%% m_raw_latency(From,To) ->
-%%     ?target:m_raw_latency(From,To).
-
-%% m_war_latency(From,To) ->
-%%     ?target:m_war_latency(From,To).
-
-%% m_waw_latency(From,To) ->
-%%     ?target:m_waw_latency(From,To).
-
-m_raw_latency() ->
-    ?target:m_raw_latency().
-
-m_war_latency() ->
-    ?target:m_war_latency().
-
-m_waw_latency() ->
-    ?target:m_waw_latency().
-
-br_to_unsafe_latency(Br,U) ->
-    ?target:br_to_unsafe_latency(Br,U).
-
-unsafe_to_br_latency(U,Br) ->
-    ?target:unsafe_to_br_latency(U,Br).
-
-br_br_latency(Br1,Br2) ->
-    ?target:br_br_latency(Br1,Br2).
diff --git a/lib/hipe/opt/hipe_ultra_mod2.erl b/lib/hipe/opt/hipe_ultra_mod2.erl
deleted file mode 100644
index cec9c56a1e..0000000000
--- a/lib/hipe/opt/hipe_ultra_mod2.erl
+++ /dev/null
@@ -1,233 +0,0 @@
-%% Licensed under the Apache License, Version 2.0 (the "License");
-%% you may not use this file except in compliance with the License.
-%% You may obtain a copy of the License at
-%%
-%%     http://www.apache.org/licenses/LICENSE-2.0
-%%
-%% Unless required by applicable law or agreed to in writing, software
-%% distributed under the License is distributed on an "AS IS" BASIS,
-%% WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-%% See the License for the specific language governing permissions and
-%% limitations under the License.
-%%
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-%%
-%%		       ULTRASPARC MACHINE MODEL
-%%
-%% This module is used by the scheduler.
-%% The following interface is used:
-%%   ...
-%%
-%% NOTES:
-%% - the machine model is simple (on the verge of simplistic)
-%%   * all FUs are pipelined => model only one cycle at a time
-%%   * instruction latencies are mostly 1
-%%   * floating point is left for later (I _think_ it works, but ...)
-%% - conservative: instructions that require multiple resources are
-%%   modelled as 'single'; instead, they could reserve IEU+BR or whatever
-%% - possibly inefficient: I think machine state model could be turned into
-%%   a bitvector.
-
--module(hipe_ultra_mod2).
--export([init_resources/1,
-	 init_instr_resources/2,
-	 resources_available/4,
-	 advance_cycle/1
-	]).
--export([raw_latency/2,
-	 war_latency/2,
-	 waw_latency/2,
-	 %% m_raw_latency/2,
-	 %% m_war_latency/2,
-	 %% m_waw_latency/2,
-	 m_raw_latency/0,
-	 m_war_latency/0,
-	 m_waw_latency/0,
-	 br_to_unsafe_latency/2,
-	 unsafe_to_br_latency/2,
-	 br_br_latency/2
-	]).
-
--include("../sparc/hipe_sparc.hrl").
-
--define(debug(Str,Args),ok).
-%-define(debug(Str,Args),io:format(Str,Args)).
-
--define(debug_ultra(Str,Args),ok).
-%-define(debug_ultra(Str,Args),io:format(Str,Args)).
-
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-%%
-%% Straightforward and somewhat simplistic model for UltraSparc:
-%% - only one cycle at a time is modelled
-%% - resources are simplified:
-%%   * ieu0, ieu1, ieu, mem, br, single
-%%   * per-cycle state = done | { I0, I1, NumI, X, Mem, Br }
-%%   * unoptimized representation (could be bit vector)
-
-init_resources(_Size) ->
-    ?debug_ultra('init res ~p~n',[_Size]),
-    empty_state().
-
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-
-init_instr_resources(N,Nodes) ->
-    ultra_instr_rsrcs(Nodes,hipe_vectors:new(N, '')).
-
-ultra_instr_rsrcs([],I_res) -> I_res;
-ultra_instr_rsrcs([N|Ns],I_res) ->
-    ultra_instr_rsrcs(Ns,ultra_instr_type(N,I_res)).
-
-ultra_instr_type({N,I},I_res) ->
-    hipe_vectors:set(I_res,N-1,instr_type(I)).
-
-instr_type(I) ->
-    case I of
-	#move{} ->
-	    ieu;
-	#multimove{} -> %% TODO: expand multimoves before scheduling
-	    ieu;
-	#alu{} ->
-	    case hipe_sparc:alu_operator(I) of
-		'>>' -> ieu0;
-		'<<' -> ieu0;
-		_ -> ieu
-	    end;
-	#alu_cc{} ->
-	    ieu1;
-	#sethi{} ->
-	    ieu;
-	#load{} ->
-	    mem;
-	#store{} ->
-	    mem;
-	#b{} ->
-	    br;
-	#br{} ->
-	    br;
-	#goto{} ->
-	    br;
-	#jmp_link{} ->         % imprecise; should be mem+br?
-	    single;
-	#jmp{} ->              % imprecise
-	    br;
-	#call_link{} ->        % imprecise; should be mem+br?
-	    single;
-	#cmov_cc{} ->          % imprecise
-	    single;
-	#cmov_r{} ->           % imprecise
-	    single;
-	#load_atom{} ->        % should be resolved to sethi/or
-	    single;
-	#load_address{} ->     % should be resolved to sethi/or
-	    single;
-	#load_word_index{} ->  % should be resolved to sethi/or
-	    single;
-	%% uncommon types:
-	#label{} ->
-	    none;
-	#nop{} ->
-	    none;
-	#comment{} ->
-	    none;
-	_ ->
-	    exit({ultrasparc_instr_type,{cant_schedule,I}})
-    end.
-
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-
-resources_available(_Cycle, I, Rsrc, I_res) ->
-    res_avail(instruction_resource(I_res, I), Rsrc).
-
-instruction_resource(I_res, I) ->
-    hipe_vectors:get(I_res, I-1).
-
-%% The following function checks resource availability.
-%% * all function units are assumed to be fully pipelined, so only
-%%   one cycle at a time is modelled.
-%% * for IEU0 and IEU1, these must precede all generic IEU instructions
-%%   (handled by X bit)
-%% * at most 2 integer instructions can issue in a cycle
-%% * mem is straightforward
-%% * br closes the cycle (= returns done).
-%% * single requires an entirely empty state and closes the cycle
-
-res_avail(ieu0, { free, I1, NumI, free, Mem, Br })
-  when is_integer(NumI), NumI < 2 ->
-    { yes, { occ, I1, NumI+1, free, Mem, Br }};
-res_avail(ieu1, { _I0, free, NumI, free, Mem, Br })
-  when is_integer(NumI), NumI < 2 ->
-    { yes, { free, occ, NumI+1, free, Mem, Br }};
-res_avail(ieu, { I0, I1, NumI, _X, Mem, Br })
-  when is_integer(NumI), NumI < 2 ->
-    { yes, { I0, I1, NumI+1, occ, Mem, Br }};
-res_avail(mem, { I0, I1, NumI, X, free, Br }) ->
-    { yes, { I0, I1, NumI, X, occ, Br }};
-res_avail(br, { _I0, _I1, _NumI, _X, _Mem, free }) ->
-    { yes, done };
-res_avail(single, { free, free, 0, free, free, free }) ->
-    { yes, done };
-res_avail(_, _) ->
-    no.
-
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-
-advance_cycle(_Rsrc) ->
-    empty_state().
-
-empty_state() -> { free, free, 0, free, free, free }.
-
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-%% Latencies are taken from UltraSparc hardware manual
-%%
-%% *** UNFINISHED ***
-%% more precisely, they are taken from my memory of the US-manual
-%% at the moment.
-%%
-%% Note: all ld/st are assumed to hit in the L1 cache (D-cache),
-%%   which is sort of imprecise.
-
-raw_latency(alu, store) -> 0;
-raw_latency(load, _) -> 2;            % only if load is L1 hit
-raw_latency(alu_cc, b) -> 0;
-raw_latency(_I0, _I1) ->
-    1.
-
-war_latency(_I0, _I1) ->
-    0.
-
-waw_latency(_I0, _I1) ->
-    1.
-
-%% *** UNFINISHED ***
-%% At present, all load/stores are assumed to hit in the L1 cache,
-%% which isn't really satisfying.
-
-%% m_raw_latency(_St, _Ld) ->
-%%     1.
-%% 
-%% m_war_latency(_Ld, _St) ->
-%%     1.
-%% 
-%% m_waw_latency(_St1, _St2) ->
-%%     1.
-
-%% Use these for 'default latencies' = do not permit reordering.
-
-m_raw_latency() ->
-    1.
-
-m_war_latency() ->
-    1.
-
-m_waw_latency() ->
-    1.
-
-br_to_unsafe_latency(_BrTy, _UTy) ->
-    0.
-
-unsafe_to_br_latency(_UTy, _BrTy) ->
-    0.
-
-br_br_latency(_BrTy1, _BrTy2) ->
-    0.
diff --git a/lib/hipe/opt/hipe_ultra_prio.erl b/lib/hipe/opt/hipe_ultra_prio.erl
deleted file mode 100644
index 6dd240a33a..0000000000
--- a/lib/hipe/opt/hipe_ultra_prio.erl
+++ /dev/null
@@ -1,298 +0,0 @@
-%% Licensed under the Apache License, Version 2.0 (the "License");
-%% you may not use this file except in compliance with the License.
-%% You may obtain a copy of the License at
-%%
-%%     http://www.apache.org/licenses/LICENSE-2.0
-%%
-%% Unless required by applicable law or agreed to in writing, software
-%% distributed under the License is distributed on an "AS IS" BASIS,
-%% WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
-%% See the License for the specific language governing permissions and
-%% limitations under the License.
-%%
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-%%
-%%	      PRIORITY HANDLING AND PRIORITY CALCULATION
-%%
-%% Handling of ready nodes and priorities.
-%% Priorities are mainly from the critical path. More priorities are added.
-%%  * One version is adding priorities just depending on the instr, so
-%%    for example loads get higher priority than stores, and ordered
-%%    after reg's and offset for better cache performance.
-%%  * The other version gives higher priority to a node that adds more new
-%%    nodes to the ready list. This one is maybe not so effectively
-%%    implemented, but was added too late for smarter solutions.
-%% One version is commented away
-
--module(hipe_ultra_prio).
--export([init_ready/2,
-	 init_instr_prio/2,
-	 %% initial_ready_set/4,
-	 next_ready/7,
-	 add_ready_nodes/2,
-	 insert_node/3
-	]).
-
--include("../sparc/hipe_sparc.hrl").
-
-% At first, only nodes with no predecessors are selected.
-% - if R is empty, there is an error (unless BB itself is empty)
-
-%% Arguments : Size  - size of ready-array
-%%             Preds - array with number of predecessors for each node
-%% Returns   : An array with list of ready-nodes for each cycle.
-
-init_ready(Size, Preds) ->
-    P = hipe_vectors:size(Preds),
-    Ready = hipe_vectors:new(Size, []),
-    R = initial_ready_set(1, P, Preds, []),
-    hipe_vectors:set(Ready, 0, R).
-
-init_instr_prio(N, DAG) ->
-    critical_path(N, DAG).
-
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-%% Function    : initial_ready_set
-%% Argument    : M     - current node-index
-%%               N     - where to stop
-%%               Preds - array with number of predecessors for each node
-%%               Ready - list with ready-nodes
-%% Returns     : Ready - list with ready-nodes
-%% Description : Finds all nodes with no predecessors and adds them to ready.
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-
-initial_ready_set(M, N, Preds, Ready) ->
-    if
-	M > N ->
-	    Ready;
-	true ->
-	    case hipe_vectors:get(Preds, M-1) of
-		0 ->
-		    initial_ready_set(M+1, N, Preds, [M|Ready]);
-		V when is_integer(V), V > 0 ->
-		    initial_ready_set(M+1, N, Preds, Ready)
-	    end
-    end.
-
-%% The following handles the nodes ready to schedule:
-%% 1. select the ready queue of given cycle
-%% 2. if queue empty, return none
-%% 3. otherwise, remove entry with highest priority
-%%    and return {next,Highest_Prio,NewReady}
-
-
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-%% Function    : next_ready
-%% Argument    : C     - current cycle
-%%               Ready - array with ready nodes
-%%               Prio  - array with cpath-priorities for all nodes
-%%               Nodes - indexed list [{N, Instr}]
-%% Returns     : none / {next,Highest_Prio,NewReady}
-%% Description :  1. select the ready queue of given cycle
-%%                2. if queue empty, return none
-%%                3. otherwise, remove entry with highest priority
-%%                   and return {next,Highest_Prio,NewReady} where Highest_Prio
-%%                   = Id of instr and NewReady = updated ready-array.
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-
-next_ready(C, Ready, Prio, Nodes, DAG, Preds, Earl) ->
-    Curr = hipe_vectors:get(Ready, C-1),
-    case Curr of
-	[] -> 
-	    none;
-	Instrs ->
-	    {BestI,RestIs} = 
-		get_best_instr(Instrs, Prio, Nodes, DAG, Preds, Earl, C),
-	    {next,BestI,hipe_vectors:set(Ready,C-1,RestIs)}
-    end.
-
-% next_ready(C,Ready,Prio,Nodes) ->
-%     Curr = hipe_vectors:get(Ready,C-1),
-%     case Curr of
-% 	[] ->   
-% 	    none;
-% 	Instrs ->
-% 	    {BestInstr,RestInstrs} = get_best_instr(Instrs, Prio, Nodes),
-% 	    {next,BestInstr,hipe_vectors:set(Ready,C-1,RestInstrs)}
-%     end.
-
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-%% Function    : get_best_instr
-%% Argument    : Instrs - list of node-id's
-%%               Prio   - array with cpath-priorities for the nodes
-%%               Nodes  - indexed list [{Id, Instr}]
-%% Returns     : {BestSoFar, Rest} - Id of best instr and the rest of id's
-%% Description : Returns the id of the instr that is the best choice.
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-
-get_best_instr([Instr|Instrs], Prio, Nodes, DAG, Preds, Earl, C) ->
-    get_best_instr(Instrs, [], Instr, Prio, Nodes, DAG, Preds, Earl, C).
-
-get_best_instr([], Rest, BestSoFar, _Prio, _Nodes, _DAG, _Preds, _Earl, _C) -> 
-    {BestSoFar, Rest};
-get_best_instr([Instr|Instrs], PassedInstrs, BestSoFar, Prio, Nodes,
-	       DAG, Preds, Earl, C) ->
-    case better(Instr, BestSoFar, Prio, Nodes, DAG, Preds, Earl, C) of
-        true ->
-	    get_best_instr(Instrs, [BestSoFar|PassedInstrs],
-			   Instr, Prio, Nodes, DAG, Preds, Earl, C);
-	false -> 
-	    get_best_instr(Instrs, [Instr|PassedInstrs], BestSoFar, Prio, 
-			   Nodes, DAG, Preds, Earl, C)
-    end.
-
-% get_best_instr([Instr|Instrs], Prio, Nodes) ->
-%     get_best_instr(Instrs, [], Instr, Prio, Nodes).
-
-% get_best_instr([], Rest, BestSoFar, Prio, Nodes) -> {BestSoFar, Rest};
-% get_best_instr([Instr|Instrs], PassedInstrs, BestSoFar, Prio, Nodes) ->
-%     case better(Instr, BestSoFar, Prio, Nodes) of
-%         true ->
-% 	    get_best_instr(Instrs, [BestSoFar|PassedInstrs], 
-% 			   Instr, Prio, Nodes);
-% 	false -> 
-% 	    get_best_instr(Instrs, [Instr|PassedInstrs],BestSoFar, Prio, Nodes)
-%     end.
-    
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-%% Function    : better
-%% Argument    : Instr1 - Id of instr 1
-%%               Instr2 - Id of instr 2
-%%               Prio   - array with cpath-priorities for the nodes
-%%               Nodes  - indexed list [{Id, Instr}]
-%% Returns     : true if Instr1 has higher priority than Instr2
-%% Description : Checks if Instr1 is a better choice than Instr2 for scheduling
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-
-better(Instr1, Instr2, Prio, Nodes, DAG, Preds, Earl, C) ->
-    better_hlp(priority(Instr1, Prio, Nodes, DAG, Preds, Earl, C), 
-	       priority(Instr2, Prio, Nodes, DAG, Preds, Earl, C)).
-
-better_hlp([], []) -> false;
-better_hlp([], [_|_]) -> false;
-better_hlp([_|_], []) -> true;
-better_hlp([X|Xs], [Y|Ys]) -> (X > Y) or ((X =:= Y) and better_hlp(Xs,Ys)).
-
-%%
-%% Returns the instr corresponding to id
-%%
-get_instr(InstrId, [{InstrId,Instr}|_]) -> Instr;
-get_instr(InstrId, [_|Xs]) -> get_instr(InstrId, Xs).
-				      
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-%% Function    : priority
-%% Argument    : InstrId - Id
-%%               Prio    - array with cpath-priorities for the nodes
-%%               Nodes   - indexed list [{Id, Instr}]
-%% Returns     : PrioList - list of priorities [MostSignificant, LessSign, ...]
-%% Description : Returns a list of priorities where the first element is the
-%%               cpath-priority and the rest are added depending on what kind
-%%               of instr it is. Used to order loads/stores sequentially and
-%%               there is possibility to add whatever stuff...  
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-
-priority(InstrId, Prio, Nodes, DAG, Preds, Earl, C) ->
-    {ReadyNodes,_,_,_} = hipe_schedule:delete_node(C,InstrId,DAG,Preds,Earl),
-    Instr = get_instr(InstrId, Nodes),
-    Prio1 = hipe_vectors:get(Prio, InstrId-1),
-    Prio2 = length(ReadyNodes),
-    PrioRest =
-	case Instr of
-	 #load_atom{} ->
-	    [3];
-	 #move{} ->
-	    [3];
-	 #load{} -> 
-  	    Src = hipe_sparc:load_src(Instr),
-  	    Off = hipe_sparc:load_off(Instr),
-	    case hipe_sparc:is_reg(Off) of
-		false -> [3, 
-			  -(hipe_sparc:reg_nr(Src)), 
-			  -(hipe_sparc:imm_value(Off))];
-		true -> [1]
-	    end;
-	 #store{} -> 
-	     Src = hipe_sparc:store_dest(Instr),
-	     Off = hipe_sparc:store_off(Instr),
-	     case hipe_sparc:is_reg(Off) of
-		 false -> [2, 
-			   -(hipe_sparc:reg_nr(Src)), 
-			   -(hipe_sparc:imm_value(Off))];
-		 true -> [1]
-	     end;
-	 _ -> [0]
-	end,
-    [Prio1,Prio2|PrioRest].
-
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-%% Function    : add_ready_nodes
-%% Argument    : Nodes - list of [{Cycle,Id}]
-%%               Ready - array of ready nodes for all cycles
-%% Returns     : NewReady - updated ready-array
-%% Description : Gets a list of instrs and adds them to the ready-array
-%%               to the corresponding cycle.
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-
-add_ready_nodes([], Ready) -> Ready;
-add_ready_nodes([{C,I}|Xs], Ready) ->
-    add_ready_nodes(Xs, insert_node(C, I, Ready)).
-
-insert_node(C, I, Ready) ->
-    Old = hipe_vectors:get(Ready, C-1),
-    hipe_vectors:set(Ready, C-1, [I|Old]).
-
-%%
-%% Computes the latency for the "most expensive" way through the graph
-%% for all nodes.  Returns an array of priorities for all nodes.
-%%
-critical_path(N, DAG) ->
-    critical_path(1, N, DAG, hipe_vectors:new(N, -1)).
-
-critical_path(M, N, DAG, Prio) ->
-    if
-	M > N ->
-	    Prio;
-	true ->
-	    critical_path(M+1, N, DAG, cpath(M, DAG, Prio))
-    end.
-
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-%% Function    : cpath
-%% Argument    : M    - current node id
-%%               DAG  - the dependence graph
-%%               Prio - array of priorities for all nodes
-%% Returns     : Prio - updated prio array
-%% Description : If node has prio -1, it has not been visited
-%%                - otherwise, compute priority as max of priorities of 
-%%                  successors (+ latency)
-%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
-
-cpath(M, DAG, Prio) ->
-    InitPrio = hipe_vectors:get(Prio, M-1),
-    if
-	InitPrio =:= -1 ->
-	    cpath_node(M, DAG, Prio);
-	true ->
-	    Prio
-    end.
-
-cpath_node(N, DAG, Prio) ->
-    SuccL = dag_succ(DAG, N),
-    {Max, NewPrio} = cpath_succ(SuccL, DAG, Prio),
-    hipe_vectors:set(NewPrio, N-1, Max).
-
-cpath_succ(SuccL, DAG, Prio) ->
-    cpath_succ(SuccL, DAG, Prio, 0).
-
-%% performs an unnecessary lookup of priority of Succ, but that might
-%% not be such a big deal
-
-cpath_succ([], _DAG, Prio, NodePrio) -> {NodePrio,Prio};
-cpath_succ([{Lat,Succ}|Xs], DAG, Prio, NodePrio) ->
-    NewPrio = cpath(Succ, DAG, Prio),
-    NewNodePrio = erlang:max(hipe_vectors:get(NewPrio, Succ - 1) + Lat, NodePrio),
-    cpath_succ(Xs, DAG, NewPrio, NewNodePrio).
-
-dag_succ(DAG, N) when is_integer(N) ->
-    hipe_vectors:get(DAG, N-1).
-