make some more optimisations independent of current_ir_graph

[libfirm] / ir / opt / tailrec.c

/*
 * Copyright (C) 1995-2008 University of Karlsruhe.  All right reserved.
 *
 * This file is part of libFirm.
 *
 * This file may be distributed and/or modified under the terms of the
 * GNU General Public License version 2 as published by the Free Software
 * Foundation and appearing in the file LICENSE.GPL included in the
 * packaging of this file.
 *
 * Licensees holding valid libFirm Professional Edition licenses may use
 * this file in accordance with the libFirm Commercial License.
 * Agreement provided with the Software.
 *
 * This file is provided AS IS with NO WARRANTY OF ANY KIND, INCLUDING THE
 * WARRANTY OF DESIGN, MERCHANTABILITY AND FITNESS FOR A PARTICULAR
 * PURPOSE.
 */

/**
 * @file
 * @brief   Tail-recursion call optimization.
 * @date    08.06.2004
 * @author  Michael Beck
 * @version $Id$
 */
#include "config.h"

#include <string.h>
#include <assert.h>

#include "debug.h"
#include "iroptimize.h"
#include "scalar_replace.h"
#include "array_t.h"
#include "irprog_t.h"
#include "irgwalk.h"
#include "irgmod.h"
#include "irop.h"
#include "irnode_t.h"
#include "irgraph_t.h"
#include "ircons.h"
#include "irflag.h"
#include "trouts.h"
#include "irouts.h"
#include "irhooks.h"
#include "ircons_t.h"
#include "irpass.h"

DEBUG_ONLY(static firm_dbg_module_t *dbg);

/**
 * the environment for collecting data
 */
typedef struct collect_t {
        ir_node *proj_X;      /**< initial exec proj */
        ir_node *block;       /**< old first block */
        int     blk_idx;      /**< cfgpred index of the initial exec in block */
        ir_node *proj_m;      /**< memory from start proj's */
        ir_node *proj_data;   /**< linked list of all parameter access proj's */
} collect_t;

/**
 * walker for collecting data, fills a collect_t environment
 */
static void collect_data(ir_node *node, void *env)
{
        collect_t *data = env;
        ir_node *pred;
        ir_op *op;

        switch (get_irn_opcode(node)) {
        case iro_Proj:
                pred = get_Proj_pred(node);

                op = get_irn_op(pred);
                if (op == op_Proj) {
                        ir_node *start = get_Proj_pred(pred);

                        if (is_Start(start)) {
                                if (get_Proj_proj(pred) == pn_Start_T_args) {
                                        /* found Proj(ProjT(Start)) */
                                        set_irn_link(node, data->proj_data);
                                        data->proj_data = node;
                                }
                        }
                } else if (op == op_Start) {
                        if (get_Proj_proj(node) == pn_Start_X_initial_exec) {
                                /* found ProjX(Start) */
                                data->proj_X = node;
                        }
                }
                break;
        case iro_Block: {
                int i, n_pred = get_Block_n_cfgpreds(node);

                /*
                 * the first block has the initial exec as cfg predecessor
                 */
                if (node != get_irg_start_block(get_irn_irg(node))) {
                        for (i = 0; i < n_pred; ++i) {
                                if (get_Block_cfgpred(node, i) == data->proj_X) {
                                        data->block   = node;
                                        data->blk_idx = i;
                                        break;
                                }
                        }
                }
                break;
        }
        default:
                break;
        }
}

typedef enum tail_rec_variants {
        TR_DIRECT,  /**< direct return value, i.e. return func(). */
        TR_ADD,     /**< additive return value, i.e. return x +/- func() */
        TR_MUL,     /**< multiplicative return value, i.e. return x * func() or return -func() */
        TR_BAD,     /**< any other transformation */
        TR_UNKNOWN  /**< during construction */
} tail_rec_variants;

typedef struct tr_env {
        int               n_tail_calls;  /**< number of tail calls found */
        int               n_ress;        /**< number of return values */
        tail_rec_variants *variants;     /**< return value variants */
        ir_node           *rets;         /**< list of returns that can be transformed */
} tr_env;


/**
 * do the graph reconstruction for tail-recursion elimination
 *
 * @param irg           the graph that will reconstructed
 * @param rets          linked list of all rets
 * @param n_tail_calls  number of tail-recursion calls
 */
static void do_opt_tail_rec(ir_graph *irg, tr_env *env)
{
        ir_node *end_block = get_irg_end_block(irg);
        ir_node *block, *jmp, *call, *calls;
        ir_node **in;
        ir_node **phis;
        ir_node ***call_params;
        ir_node *p, *n;
        int i, j, n_params, n_locs;
        collect_t data;
        int rem            = get_optimize();
        ir_entity *ent     = get_irg_entity(irg);
        ir_type *method_tp = get_entity_type(ent);

        assert(env->n_tail_calls > 0);

        /* we add new nodes, so the outs are inconsistent */
        set_irg_outs_inconsistent(irg);

        /* we add new blocks and change the control flow */
        set_irg_doms_inconsistent(irg);
        set_irg_extblk_inconsistent(irg);

        /* we add a new loop */
        set_irg_loopinfo_inconsistent(irg);

        /* calls are removed */
        set_trouts_inconsistent();

        /* we must build some new nodes WITHOUT CSE */
        set_optimize(0);

        /* collect needed data */
        data.proj_X    = NULL;
        data.block     = NULL;
        data.blk_idx   = -1;
        data.proj_m    = get_irg_initial_mem(irg);
        data.proj_data = NULL;
        irg_walk_graph(irg, NULL, collect_data, &data);

        /* check number of arguments */
        call = get_irn_link(end_block);
        n_params = get_Call_n_params(call);

        assert(data.proj_X && "Could not find initial exec from Start");
        assert(data.block  && "Could not find first block");
        assert(data.proj_m && "Could not find initial memory");
        assert((data.proj_data || n_params == 0) && "Could not find Proj(ProjT(Start)) of non-void function");

        /* allocate in's for phi and block construction */
        NEW_ARR_A(ir_node *, in, env->n_tail_calls + 1);

        in[0] = data.proj_X;

        /* turn Return's into Jmp's */
        for (i = 1, p = env->rets; p; p = n) {
                ir_node *block = get_nodes_block(p);

                n = get_irn_link(p);
                in[i++] = new_r_Jmp(block);

                // exchange(p, new_r_Bad(irg));

                /* we might generate an endless loop, so add
                 * the block to the keep-alive list */
                add_End_keepalive(get_irg_end(irg), block);
        }

        /* create a new block at start */
        block = new_r_Block(irg, env->n_tail_calls + 1, in);
        jmp   = new_r_Jmp(block);

        /* the old first block is now the second one */
        set_Block_cfgpred(data.block, data.blk_idx, jmp);

        /* allocate phi's, position 0 contains the memory phi */
        NEW_ARR_A(ir_node *, phis, n_params + 1);

        /* build the memory phi */
        i = 0;
        in[i] = new_r_Proj(get_irg_start(irg), mode_M, pn_Start_M);
        set_irg_initial_mem(irg, in[i]);
        ++i;

        for (calls = call; calls; calls = get_irn_link(calls)) {
                in[i] = get_Call_mem(calls);
                ++i;
        }
        assert(i == env->n_tail_calls + 1);

        phis[0] = new_r_Phi(block, env->n_tail_calls + 1, in, mode_M);

        /* build the data Phi's */
        if (n_params > 0) {
                ir_node *calls;
                ir_node *args;
                ir_node *args_bl;

                NEW_ARR_A(ir_node **, call_params, env->n_tail_calls);

                /* collect all parameters */
                for (i = 0, calls = call; calls; calls = get_irn_link(calls)) {
                        call_params[i] = get_Call_param_arr(calls);
                        ++i;
                }

                /* build new Proj's and Phi's */
                args    = get_irg_args(irg);
                args_bl = get_nodes_block(args);
                for (i = 0; i < n_params; ++i) {
                        ir_mode *mode = get_type_mode(get_method_param_type(method_tp, i));

                        in[0] = new_r_Proj(args, mode, i);
                        for (j = 0; j < env->n_tail_calls; ++j)
                                in[j + 1] = call_params[j][i];

                        phis[i + 1] = new_r_Phi(block, env->n_tail_calls + 1, in, mode);
                }
        }

        /*
         * ok, we are here, so we have build and collected all needed Phi's
         * now exchange all Projs into links to Phi
         */
        exchange(data.proj_m, phis[0]);
        for (p = data.proj_data; p; p = n) {
                long proj = get_Proj_proj(p);

                assert(0 <= proj && proj < n_params);
                n = get_irn_link(p);
                exchange(p, phis[proj + 1]);
        }

        /* tail recursion was done, all info is invalid */
        set_irg_doms_inconsistent(irg);
        set_irg_outs_inconsistent(irg);
        set_irg_extblk_inconsistent(irg);
        set_irg_loopinfo_state(irg, loopinfo_cf_inconsistent);
        set_trouts_inconsistent();
        set_irg_callee_info_state(irg, irg_callee_info_inconsistent);

        set_optimize(rem);

        /* check if we need new values */
        n_locs = 0;
        for (i = 0; i < env->n_ress; ++i) {
                if (env->variants[i] != TR_DIRECT)
                        ++n_locs;
        }

        if (n_locs > 0) {
                ir_node *bad, *start_block;
                ir_node **in;
                ir_mode **modes;

                NEW_ARR_A(ir_node *, in, n_locs);
                NEW_ARR_A(ir_mode *, modes, n_locs);
                ssa_cons_start(irg, n_locs);

                start_block = get_irg_start_block(irg);
                set_cur_block(start_block);

                for (i = 0; i < env->n_ress; ++i) {
                        ir_type *tp = get_method_res_type(method_tp, i);
                        ir_mode *mode = get_type_mode(tp);

                        modes[i] = mode;
                        if (env->variants[i] == TR_ADD) {
                                set_value(i, new_r_Const(irg, get_mode_null(mode)));
                        } else if (env->variants[i] == TR_MUL) {
                                set_value(i, new_r_Const(irg, get_mode_one(mode)));
                        }
                }
                mature_immBlock(start_block);

                /* no: we can kill all returns */
                bad = get_irg_bad(irg);

                for (p = env->rets; p; p = n) {
                        ir_node *block = get_nodes_block(p);
                        ir_node *call, *mem, *jmp, *tuple;

                        set_cur_block(block);
                        n = get_irn_link(p);

                        call = skip_Proj(get_Return_mem(p));
                        assert(is_Call(call));

                        mem = get_Call_mem(call);

                        /* create a new jump, free of CSE */
                        set_optimize(0);
                        jmp = new_r_Jmp(block);
                        set_optimize(rem);

                        for (i = 0; i < env->n_ress; ++i) {
                                if (env->variants[i] != TR_DIRECT) {
                                        in[i] = get_value(i, modes[i]);
                                } else {
                                        in[i] = bad;
                                }
                        }
                        /* create a new tuple for the return values */
                        tuple = new_r_Tuple(block, env->n_ress, in);

                        turn_into_tuple(call, pn_Call_max);
                        set_Tuple_pred(call, pn_Call_M,                mem);
                        set_Tuple_pred(call, pn_Call_X_regular,        jmp);
                        set_Tuple_pred(call, pn_Call_X_except,         bad);
                        set_Tuple_pred(call, pn_Call_T_result,         tuple);
                        set_Tuple_pred(call, pn_Call_P_value_res_base, bad);

                        for (i = 0; i < env->n_ress; ++i) {
                                ir_node *res = get_Return_res(p, i);
                                if (env->variants[i] != TR_DIRECT) {
                                        set_value(i, res);
                                }
                        }

                        exchange(p, bad);
                }

                /* finally fix all other returns */
                end_block = get_irg_end_block(irg);
                for (i = get_Block_n_cfgpreds(end_block) - 1; i >= 0; --i) {
                        ir_node *ret = get_Block_cfgpred(end_block, i);
                        ir_node *block;

                        /* search all Returns of a block */
                        if (! is_Return(ret))
                                continue;

                        block = get_nodes_block(ret);
                        set_cur_block(block);
                        for (j = 0; j < env->n_ress; ++j) {
                                ir_node *pred = get_Return_res(ret, j);
                                ir_node *n;

                                switch (env->variants[j]) {
                                case TR_DIRECT:
                                        continue;

                                case TR_ADD:
                                        n = get_value(j, modes[j]);
                                        n = new_r_Add(block, n, pred, modes[j]);
                                        set_Return_res(ret, j, n);
                                        break;

                                case TR_MUL:
                                        n = get_value(j, modes[j]);
                                        n = new_r_Mul(block, n, pred, modes[j]);
                                        set_Return_res(ret, j, n);
                                        break;

                                default:
                                        assert(!"unexpected tail recursion variant");
                                }
                        }
                }
                ssa_cons_finish(irg);
        } else {
                ir_node *bad = get_irg_bad(irg);

                /* no: we can kill all returns */
                for (p = env->rets; p; p = n) {
                        n = get_irn_link(p);
                        exchange(p, bad);
                }
        }
}

/**
 * Check the lifetime of locals in the given graph.
 * Tail recursion can only be done, if we can prove that
 * the lifetime of locals end with the recursive call.
 * We do this by checking that no address of a local variable is
 * stored or transmitted as an argument to a call.
 *
 * @return non-zero if it's ok to do tail recursion
 */
static int check_lifetime_of_locals(ir_graph *irg)
{
        ir_node *irg_frame;
        int i;
        ir_type *frame_tp = get_irg_frame_type(irg);

        irg_frame = get_irg_frame(irg);
        for (i = get_irn_n_outs(irg_frame) - 1; i >= 0; --i) {
                ir_node *succ = get_irn_out(irg_frame, i);

                if (is_Sel(succ)) {
                        /* Check if we have compound arguments.
                           For now, we cannot handle them, */
                        if (get_entity_owner(get_Sel_entity(succ)) != frame_tp)
                                return 0;

                        if (is_address_taken(succ))
                                return 0;
                }
        }
        return 1;
}

/**
 * Examine irn and detect the recursion variant.
 */
static tail_rec_variants find_variant(ir_node *irn, ir_node *call)
{
        ir_node           *a, *b;
        tail_rec_variants va, vb, res;

        if (skip_Proj(skip_Proj(irn)) == call) {
                /* found it */
                return TR_DIRECT;
        }
        switch (get_irn_opcode(irn)) {
        case iro_Add:
                /* try additive */
                a = get_Add_left(irn);
                if (get_nodes_block(a) != get_nodes_block(call)) {
                        /* we are outside, ignore */
                        va = TR_UNKNOWN;
                } else {
                        va = find_variant(a, call);
                        if (va == TR_BAD)
                                return TR_BAD;
                }
                b = get_Add_right(irn);
                if (get_nodes_block(b) != get_nodes_block(call)) {
                        /* we are outside, ignore */
                        vb = TR_UNKNOWN;
                } else {
                        vb = find_variant(b, call);
                        if (vb == TR_BAD)
                                return TR_BAD;
                }
                if (va == vb) {
                        res = va;
                }
                else if (va == TR_UNKNOWN)
                        res = vb;
                else if (vb == TR_UNKNOWN)
                        res = va;
                else {
                        /* they are different but none is TR_UNKNOWN -> incompatible */
                        return TR_BAD;
                }
                if (res == TR_DIRECT || res == TR_ADD)
                        return TR_ADD;
                /* not compatible */
                return TR_BAD;

        case iro_Sub:
                /* try additive, but return value must be left */
                a = get_Sub_left(irn);
                if (get_nodes_block(a) != get_nodes_block(call)) {
                        /* we are outside, ignore */
                        va = TR_UNKNOWN;
                } else {
                        va = find_variant(a, call);
                        if (va == TR_BAD)
                                return TR_BAD;
                }
                b = get_Sub_right(irn);
                if (get_nodes_block(b) != get_nodes_block(call)) {
                        /* we are outside, ignore */
                        vb = TR_UNKNOWN;
                } else {
                        vb = find_variant(b, call);
                        if (vb != TR_UNKNOWN)
                                return TR_BAD;
                }
                res = va;
                if (res == TR_DIRECT || res == TR_ADD)
                        return res;
                /* not compatible */
                return TR_BAD;

        case iro_Mul:
                /* try multiplicative */
                a = get_Mul_left(irn);
                if (get_nodes_block(a) != get_nodes_block(call)) {
                        /* we are outside, ignore */
                        va = TR_UNKNOWN;
                } else {
                        va = find_variant(a, call);
                        if (va == TR_BAD)
                                return TR_BAD;
                }
                b = get_Mul_right(irn);
                if (get_nodes_block(b) != get_nodes_block(call)) {
                        /* we are outside, ignore */
                        vb = TR_UNKNOWN;
                } else {
                        vb = find_variant(b, call);
                        if (vb == TR_BAD)
                                return TR_BAD;
                }
                if (va == vb) {
                        res = va;
                }
                else if (va == TR_UNKNOWN)
                        res = vb;
                else if (vb == TR_UNKNOWN)
                        res = va;
                else {
                        /* they are different but none is TR_UNKNOWN -> incompatible */
                        return TR_BAD;
                }
                if (res == TR_DIRECT || res == TR_MUL)
                        return TR_MUL;
                /* not compatible */
                return TR_BAD;

        case iro_Minus:
                /* try multiplicative */
                a = get_Minus_op(irn);
                res =  find_variant(a, call);
                if (res == TR_DIRECT)
                        return TR_MUL;
                if (res == TR_MUL || res == TR_UNKNOWN)
                        return res;
                /* not compatible */
                return TR_BAD;

        default:
                return TR_UNKNOWN;
        }
}


/*
 * convert simple tail-calls into loops
 */
int opt_tail_rec_irg(ir_graph *irg)
{
        tr_env            env;
        ir_node           *end_block;
        int               i, n_ress, n_tail_calls = 0;
        ir_node           *rets = NULL;
        ir_type           *mtd_type, *call_type;
        ir_entity         *ent;

        FIRM_DBG_REGISTER(dbg, "firm.opt.tailrec");

        assure_irg_outs(irg);

        if (! check_lifetime_of_locals(irg))
                return 0;

        ent      = get_irg_entity(irg);
        mtd_type = get_entity_type(ent);
    n_ress   = get_method_n_ress(mtd_type);

        env.variants = NULL;
        env.n_ress   = n_ress;

        if (n_ress > 0) {
                NEW_ARR_A(tail_rec_variants, env.variants, n_ress);

                for (i = 0; i < n_ress; ++i)
                        env.variants[i] = TR_DIRECT;
        }

        /*
         * This tail recursion optimization works best
         * if the Returns are normalized.
         */
        normalize_n_returns(irg);

        end_block = get_irg_end_block(irg);
        set_irn_link(end_block, NULL);

        for (i = get_Block_n_cfgpreds(end_block) - 1; i >= 0; --i) {
                ir_node *ret = get_Block_cfgpred(end_block, i);
                ir_node *call, *call_ptr;
                int j;
                ir_node **ress;

                /* search all Returns of a block */
                if (! is_Return(ret))
                        continue;

                /* check, if it's a Return self() */
                call = skip_Proj(get_Return_mem(ret));
                if (! is_Call(call))
                        continue;

                /* the call must be in the same block as the return */
                if (get_nodes_block(call) != get_nodes_block(ret))
                        continue;

                /* check if it's a recursive call */
                call_ptr = get_Call_ptr(call);

                if (! is_Global(call_ptr))
                        continue;

                ent = get_Global_entity(call_ptr);
                if (!ent || get_entity_irg(ent) != irg)
                        continue;

                /*
                 * Check, that the types match. At least in C
                 * this might fail.
                 */
                mtd_type  = get_entity_type(ent);
                call_type = get_Call_type(call);

                if (mtd_type != call_type) {
                        /*
                         * Hmm, the types did not match, bad.
                         * This can happen in C when no prototype is given
                         * or K&R style is used.
                         */
#if 0
                        printf("Warning: Tail recursion fails because of different method and call types:\n");
                        dump_type(mtd_type);
                        dump_type(call_type);
#endif
                        continue;
                }

                /* ok, mem is routed to a recursive call, check return args */
                ress = get_Return_res_arr(ret);
                for (j = get_Return_n_ress(ret) - 1; j >= 0; --j) {
                        tail_rec_variants var = find_variant(ress[j], call);

                        if (var >= TR_BAD) {
                                /* cannot be transformed */
                                break;
                        }
                        if (var == TR_DIRECT)
                                var = env.variants[j];
                        else if (env.variants[j] == TR_DIRECT)
                                env.variants[j] = var;
                        if (env.variants[j] != var) {
                                /* not compatible */
                                break;
                        }
                }
                if (j >= 0)
                        continue;

                /* here, we have found a call */
                set_irn_link(call, get_irn_link(end_block));
                set_irn_link(end_block, call);
                ++n_tail_calls;

                /* link all returns, we will need this */
                set_irn_link(ret, rets);
                rets = ret;
        }

        /* now, end_block->link contains the list of all tail calls */
        if (n_tail_calls <= 0)
                return 0;

        DB((dbg, LEVEL_2, "  Performing tail recursion for graph %s and %d Calls\n",
            get_entity_ld_name(get_irg_entity(irg)), n_tail_calls));

        hook_tail_rec(irg, n_tail_calls);

        env.n_tail_calls = n_tail_calls;
        env.rets         = rets;
        do_opt_tail_rec(irg, &env);

        return n_tail_calls;
}

ir_graph_pass_t *opt_tail_rec_irg_pass(const char *name)
{
        return def_graph_pass_ret(name ? name : "tailrec", opt_tail_rec_irg);
}

/*
 * optimize tail recursion away
 */
void opt_tail_recursion(void)
{
        int i;
        int n_opt_applications = 0;
        ir_graph *irg;

        FIRM_DBG_REGISTER(dbg, "firm.opt.tailrec");

        for (i = get_irp_n_irgs() - 1; i >= 0; --i) {
                irg = get_irp_irg(i);

                ir_reserve_resources(irg, IR_RESOURCE_IRN_LINK);
                if (opt_tail_rec_irg(irg))
                        ++n_opt_applications;

                ir_free_resources(irg, IR_RESOURCE_IRN_LINK);
        }

        DB((dbg, LEVEL_1, "Performed tail recursion for %d of %d graphs\n",
            n_opt_applications, get_irp_n_irgs()));
}

ir_prog_pass_t *opt_tail_recursion_pass(const char *name)
{
        return def_prog_pass(name ? name : "tailrec", opt_tail_recursion);
}