add special constant to represent VA_START-address in a parameter_entity

[libfirm] / ir / lower / lower_dw.c

/*
 * Copyright (C) 1995-2011 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   Lower double word operations, i.e. 64bit -> 32bit, 32bit -> 16bit etc.
 * @date    8.10.2004
 * @author  Michael Beck
 * @version $Id$
 */
#include "config.h"

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

#include "error.h"
#include "lowering.h"
#include "irnode_t.h"
#include "irgraph_t.h"
#include "irmode_t.h"
#include "iropt_t.h"
#include "irgmod.h"
#include "tv_t.h"
#include "dbginfo_t.h"
#include "iropt_dbg.h"
#include "irflag_t.h"
#include "firmstat.h"
#include "irgwalk.h"
#include "ircons.h"
#include "irflag.h"
#include "irtools.h"
#include "debug.h"
#include "set.h"
#include "pmap.h"
#include "pdeq.h"
#include "irdump.h"
#include "array_t.h"
#include "irpass_t.h"
#include "lower_dw.h"

/** A map from (op, imode, omode) to Intrinsic functions entities. */
static set *intrinsic_fkt;

/** A map from (imode, omode) to conv function types. */
static set *conv_types;

/** A map from a method type to its lowered type. */
static pmap *lowered_type;

/** The types for the binop and unop intrinsics. */
static ir_type *binop_tp_u, *binop_tp_s, *unop_tp_u, *unop_tp_s, *tp_s, *tp_u;

/** the debug handle */
DEBUG_ONLY(static firm_dbg_module_t *dbg = NULL;)

/**
 * An entry in the (op, imode, omode) -> entity map.
 */
typedef struct op_mode_entry {
        const ir_op   *op;    /**< the op */
        const ir_mode *imode; /**< the input mode */
        const ir_mode *omode; /**< the output mode */
        ir_entity     *ent;   /**< the associated entity of this (op, imode, omode) triple */
} op_mode_entry_t;

/**
 * An entry in the (imode, omode) -> tp map.
 */
typedef struct conv_tp_entry {
        const ir_mode *imode; /**< the input mode */
        const ir_mode *omode; /**< the output mode */
        ir_type       *mtd;   /**< the associated method type of this (imode, omode) pair */
} conv_tp_entry_t;

enum lower_flags {
        MUST_BE_LOWERED = 1,  /**< graph must be lowered */
        CF_CHANGED      = 2,  /**< control flow was changed */
};

/**
 * The lower environment.
 */
typedef struct lower_dw_env_t {
        lower64_entry_t **entries;     /**< entries per node */
        ir_graph      *irg;
        struct obstack obst;           /**< an obstack holding the temporary data */
        ir_tarval *tv_mode_bytes;      /**< a tarval containing the number of bytes in the lowered modes */
        ir_tarval *tv_mode_bits;       /**< a tarval containing the number of bits in the lowered modes */
        pdeq      *waitq;              /**< a wait queue of all nodes that must be handled later */
        ir_node  **lowered_phis;       /**< list of lowered phis */
        ir_mode   *high_signed;        /**< doubleword signed type */
        ir_mode   *high_unsigned;      /**< doubleword unsigned type */
        ir_mode   *low_signed;         /**< word signed type */
        ir_mode   *low_unsigned;       /**< word unsigned type */
        ident     *first_id;           /**< .l for little and .h for big endian */
        ident     *next_id;            /**< .h for little and .l for big endian */
        const lwrdw_param_t *params;   /**< transformation parameter */
        unsigned flags;                /**< some flags */
        unsigned n_entries;            /**< number of entries */
} lower_dw_env_t;

static lower_dw_env_t *env;

static void lower_node(ir_node *node);

/**
 * Create a method type for a Conv emulation from imode to omode.
 */
static ir_type *get_conv_type(ir_mode *imode, ir_mode *omode)
{
        conv_tp_entry_t key, *entry;
        ir_type *mtd;

        key.imode = imode;
        key.omode = omode;
        key.mtd   = NULL;

        entry = (conv_tp_entry_t*)set_insert(conv_types, &key, sizeof(key), HASH_PTR(imode) ^ HASH_PTR(omode));
        if (! entry->mtd) {
                int n_param = 1, n_res = 1;

                if (imode == env->high_signed || imode == env->high_unsigned)
                        n_param = 2;
                if (omode == env->high_signed || omode == env->high_unsigned)
                        n_res = 2;

                /* create a new one */
                mtd = new_type_method(n_param, n_res);

                /* set param types and result types */
                n_param = 0;
                if (imode == env->high_signed) {
                        set_method_param_type(mtd, n_param++, tp_u);
                        set_method_param_type(mtd, n_param++, tp_s);
                } else if (imode == env->high_unsigned) {
                        set_method_param_type(mtd, n_param++, tp_u);
                        set_method_param_type(mtd, n_param++, tp_u);
                } else {
                        ir_type *tp = get_type_for_mode(imode);
                        set_method_param_type(mtd, n_param++, tp);
                }

                n_res = 0;
                if (omode == env->high_signed) {
                        set_method_res_type(mtd, n_res++, tp_u);
                        set_method_res_type(mtd, n_res++, tp_s);
                } else if (omode == env->high_unsigned) {
                        set_method_res_type(mtd, n_res++, tp_u);
                        set_method_res_type(mtd, n_res++, tp_u);
                } else {
                        ir_type *tp = get_type_for_mode(omode);
                        set_method_res_type(mtd, n_res++, tp);
                }
                entry->mtd = mtd;
        } else {
                mtd = entry->mtd;
        }
        return mtd;
}

/**
 * Add an additional control flow input to a block.
 * Patch all Phi nodes. The new Phi inputs are copied from
 * old input number nr.
 */
static void add_block_cf_input_nr(ir_node *block, int nr, ir_node *cf)
{
        int i, arity = get_irn_arity(block);
        ir_node **in;
        const ir_edge_t *edge;

        assert(nr < arity);

        NEW_ARR_A(ir_node *, in, arity + 1);
        for (i = 0; i < arity; ++i)
                in[i] = get_irn_n(block, i);
        in[i] = cf;

        set_irn_in(block, i + 1, in);

        foreach_out_edge(block, edge) {
                ir_node *phi = get_edge_src_irn(edge);
                if (!is_Phi(phi))
                        continue;

                for (i = 0; i < arity; ++i)
                        in[i] = get_irn_n(phi, i);
                in[i] = in[nr];
                set_irn_in(phi, i + 1, in);
        }
}

/**
 * Add an additional control flow input to a block.
 * Patch all Phi nodes. The new Phi inputs are copied from
 * old input from cf tmpl.
 */
static void add_block_cf_input(ir_node *block, ir_node *tmpl, ir_node *cf)
{
        int i, arity = get_irn_arity(block);
        int nr = 0;

        for (i = 0; i < arity; ++i) {
                if (get_irn_n(block, i) == tmpl) {
                        nr = i;
                        break;
                }
        }
        assert(i < arity);
        add_block_cf_input_nr(block, nr, cf);
}

/**
 * Return the "operational" mode of a Firm node.
 */
static ir_mode *get_irn_op_mode(ir_node *node)
{
        switch (get_irn_opcode(node)) {
        case iro_Load:
                return get_Load_mode(node);
        case iro_Store:
                return get_irn_mode(get_Store_value(node));
        case iro_Div:
                return get_irn_mode(get_Div_left(node));
        case iro_Mod:
                return get_irn_mode(get_Mod_left(node));
        case iro_Cmp:
                return get_irn_mode(get_Cmp_left(node));
        default:
                return get_irn_mode(node);
        }
}

/**
 * Walker, prepare the node links and determine which nodes need to be lowered
 * at all.
 */
static void prepare_links(ir_node *node)
{
        ir_mode         *mode = get_irn_op_mode(node);
        lower64_entry_t *link;

        if (mode == env->high_signed || mode == env->high_unsigned) {
                unsigned idx = get_irn_idx(node);
                /* ok, found a node that will be lowered */
                link = OALLOCZ(&env->obst, lower64_entry_t);

                if (idx >= env->n_entries) {
                        /* enlarge: this happens only for Rotl nodes which is RARELY */
                        unsigned old   = env->n_entries;
                        unsigned n_idx = idx + (idx >> 3);

                        ARR_RESIZE(lower64_entry_t *, env->entries, n_idx);
                        memset(&env->entries[old], 0, (n_idx - old) * sizeof(env->entries[0]));
                        env->n_entries = n_idx;
                }
                env->entries[idx] = link;
                env->flags |= MUST_BE_LOWERED;
        } else if (is_Conv(node)) {
                /* Conv nodes have two modes */
                ir_node *pred = get_Conv_op(node);
                mode = get_irn_mode(pred);

                if (mode == env->high_signed || mode == env->high_unsigned) {
                        /* must lower this node either but don't need a link */
                        env->flags |= MUST_BE_LOWERED;
                }
                return;
        }
}

lower64_entry_t *get_node_entry(ir_node *node)
{
        unsigned idx = get_irn_idx(node);
        assert(idx < env->n_entries);
        return env->entries[idx];
}

void ir_set_dw_lowered(ir_node *old, ir_node *new_low, ir_node *new_high)
{
        lower64_entry_t *entry = get_node_entry(old);
        entry->low_word  = new_low;
        entry->high_word = new_high;
}

ir_mode *ir_get_low_unsigned_mode(void)
{
        return env->low_unsigned;
}

/**
 * Translate a Constant: create two.
 */
static void lower_Const(ir_node *node, ir_mode *mode)
{
        ir_graph  *irg      = get_irn_irg(node);
        dbg_info  *dbg      = get_irn_dbg_info(node);
        ir_mode   *low_mode = env->low_unsigned;
        ir_tarval *tv       = get_Const_tarval(node);
        ir_tarval *tv_l     = tarval_convert_to(tv, low_mode);
        ir_node   *res_low  = new_rd_Const(dbg, irg, tv_l);
        ir_tarval *tv_shrs  = tarval_shrs(tv, env->tv_mode_bits);
        ir_tarval *tv_h     = tarval_convert_to(tv_shrs, mode);
        ir_node   *res_high = new_rd_Const(dbg, irg, tv_h);

        ir_set_dw_lowered(node, res_low, res_high);
}

/**
 * Translate a Load: create two.
 */
static void lower_Load(ir_node *node, ir_mode *mode)
{
        ir_mode    *low_mode = env->low_unsigned;
        ir_graph   *irg = get_irn_irg(node);
        ir_node    *adr = get_Load_ptr(node);
        ir_node    *mem = get_Load_mem(node);
        ir_node    *low;
        ir_node    *high;
        ir_node    *proj_m;
        dbg_info   *dbg;
        ir_node    *block = get_nodes_block(node);
        ir_cons_flags volatility = get_Load_volatility(node) == volatility_is_volatile
                                 ? cons_volatile : cons_none;
        const ir_edge_t *edge;
        const ir_edge_t *next;

        if (env->params->little_endian) {
                low  = adr;
                high = new_r_Add(block, adr, new_r_Const(irg, env->tv_mode_bytes), get_irn_mode(adr));
        } else {
                low  = new_r_Add(block, adr, new_r_Const(irg, env->tv_mode_bytes), get_irn_mode(adr));
                high = adr;
        }

        /* create two loads */
        dbg    = get_irn_dbg_info(node);
        low    = new_rd_Load(dbg, block, mem,  low,  low_mode, volatility);
        proj_m = new_r_Proj(low, mode_M, pn_Load_M);
        high   = new_rd_Load(dbg, block, proj_m, high, mode, volatility);

        foreach_out_edge_safe(node, edge, next) {
                ir_node *proj = get_edge_src_irn(edge);
                if (!is_Proj(proj))
                        continue;

                switch (get_Proj_proj(proj)) {
                case pn_Load_M:         /* Memory result. */
                        /* put it to the second one */
                        set_Proj_pred(proj, high);
                        break;
                case pn_Load_X_except:  /* Execution result if exception occurred. */
                        /* put it to the first one */
                        set_Proj_pred(proj, low);
                        break;
                case pn_Load_res: {       /* Result of load operation. */
                        ir_node *res_low  = new_r_Proj(low,  low_mode, pn_Load_res);
                        ir_node *res_high = new_r_Proj(high, mode,     pn_Load_res);
                        ir_set_dw_lowered(proj, res_low, res_high);
                        break;
                }
                default:
                        assert(0 && "unexpected Proj number");
                }
                /* mark this proj: we have handled it already, otherwise we might fall
                 * into out new nodes. */
                mark_irn_visited(proj);
        }
}

/**
 * Translate a Store: create two.
 */
static void lower_Store(ir_node *node, ir_mode *mode)
{
        ir_graph              *irg;
        ir_node               *block, *adr, *mem;
        ir_node               *low, *high, *proj_m;
        dbg_info              *dbg;
        ir_node               *value = get_Store_value(node);
        const lower64_entry_t *entry = get_node_entry(value);
        ir_cons_flags volatility = get_Store_volatility(node) == volatility_is_volatile
                                   ? cons_volatile : cons_none;
        const ir_edge_t *edge;
        const ir_edge_t *next;
        (void) mode;

        assert(entry);

        if (! entry->low_word) {
                /* not ready yet, wait */
                pdeq_putr(env->waitq, node);
                return;
        }

        irg = get_irn_irg(node);
        adr = get_Store_ptr(node);
        mem = get_Store_mem(node);
        block = get_nodes_block(node);

        if (env->params->little_endian) {
                low  = adr;
                high = new_r_Add(block, adr, new_r_Const(irg, env->tv_mode_bytes), get_irn_mode(adr));
        } else {
                low  = new_r_Add(block, adr, new_r_Const(irg, env->tv_mode_bytes), get_irn_mode(adr));
                high = adr;
        }

        /* create two Stores */
        dbg    = get_irn_dbg_info(node);
        low    = new_rd_Store(dbg, block, mem, low,  entry->low_word, volatility);
        proj_m = new_r_Proj(low, mode_M, pn_Store_M);
        high   = new_rd_Store(dbg, block, proj_m, high, entry->high_word, volatility);

        foreach_out_edge_safe(node, edge, next) {
                ir_node *proj = get_edge_src_irn(edge);
                if (!is_Proj(proj))
                        continue;

                switch (get_Proj_proj(proj)) {
                case pn_Store_M:         /* Memory result. */
                        /* put it to the second one */
                        set_Proj_pred(proj, high);
                        break;
                case pn_Store_X_except:  /* Execution result if exception occurred. */
                        /* put it to the first one */
                        set_Proj_pred(proj, low);
                        break;
                default:
                        assert(0 && "unexpected Proj number");
                }
                /* mark this proj: we have handled it already, otherwise we might fall into
                 * out new nodes. */
                mark_irn_visited(proj);
        }
}

/**
 * Return a node containing the address of the intrinsic emulation function.
 *
 * @param method  the method type of the emulation function
 * @param op      the emulated ir_op
 * @param imode   the input mode of the emulated opcode
 * @param omode   the output mode of the emulated opcode
 * @param env     the lower environment
 */
static ir_node *get_intrinsic_address(ir_type *method, ir_op *op,
                                      ir_mode *imode, ir_mode *omode)
{
        symconst_symbol sym;
        ir_entity *ent;
        op_mode_entry_t key, *entry;

        key.op    = op;
        key.imode = imode;
        key.omode = omode;
        key.ent   = NULL;

        entry = (op_mode_entry_t*)set_insert(intrinsic_fkt, &key, sizeof(key),
                                HASH_PTR(op) ^ HASH_PTR(imode) ^ (HASH_PTR(omode) << 8));
        if (! entry->ent) {
                /* create a new one */
                ent = env->params->create_intrinsic(method, op, imode, omode, env->params->ctx);

                assert(ent && "Intrinsic creator must return an entity");
                entry->ent = ent;
        } else {
                ent = entry->ent;
        }
        sym.entity_p = ent;
        return new_r_SymConst(env->irg, mode_P_code, sym, symconst_addr_ent);
}

/**
 * Translate a Div.
 *
 * Create an intrinsic Call.
 */
static void lower_Div(ir_node *node, ir_mode *mode)
{
        ir_node         *left   = get_Div_left(node);
        ir_node         *right  = get_Div_right(node);
        ir_node         *block  = get_nodes_block(node);
        dbg_info        *dbgi   = get_irn_dbg_info(node);
        ir_type         *mtp    = mode_is_signed(mode) ? binop_tp_s : binop_tp_u;
        ir_mode         *opmode = get_irn_op_mode(node);
        ir_node         *addr
            = get_intrinsic_address(mtp, get_irn_op(node), opmode, opmode);
        ir_node         *in[4];
        ir_node         *call;
        ir_node         *resproj;
        const ir_edge_t *edge;
        const ir_edge_t *next;

        if (env->params->little_endian) {
                in[0] = get_lowered_low(left);
                in[1] = get_lowered_high(left);
                in[2] = get_lowered_low(right);
                in[3] = get_lowered_high(right);
        } else {
                in[0] = get_lowered_high(left);
                in[1] = get_lowered_low(left);
                in[2] = get_lowered_high(right);
                in[3] = get_lowered_low(right);
        }
        call    = new_rd_Call(dbgi, block, get_Div_mem(node), addr, 4, in, mtp);
        resproj = new_r_Proj(call, mode_T, pn_Call_T_result);
        set_irn_pinned(call, get_irn_pinned(node));

        foreach_out_edge_safe(node, edge, next) {
                ir_node *proj = get_edge_src_irn(edge);
                if (!is_Proj(proj))
                        continue;

                switch (get_Proj_proj(proj)) {
                case pn_Div_M:         /* Memory result. */
                        /* reroute to the call */
                        set_Proj_pred(proj, call);
                        set_Proj_proj(proj, pn_Call_M);
                        break;
                case pn_Div_X_regular:
                        set_Proj_pred(proj, call);
                        set_Proj_proj(proj, pn_Call_X_regular);
                        break;
                case pn_Div_X_except:
                        set_Proj_pred(proj, call);
                        set_Proj_proj(proj, pn_Call_X_except);
                        break;
                case pn_Div_res:
                        if (env->params->little_endian) {
                                ir_node *res_low  = new_r_Proj(resproj, env->low_unsigned, 0);
                                ir_node *res_high = new_r_Proj(resproj, mode,              1);
                                ir_set_dw_lowered(proj, res_low, res_high);
                        } else {
                                ir_node *res_low  = new_r_Proj(resproj, env->low_unsigned, 1);
                                ir_node *res_high = new_r_Proj(resproj, mode,              0);
                                ir_set_dw_lowered(proj, res_low, res_high);
                        }
                        break;
                default:
                        assert(0 && "unexpected Proj number");
                }
                /* mark this proj: we have handled it already, otherwise we might fall into
                 * out new nodes. */
                mark_irn_visited(proj);
        }
}

/**
 * Translate a Mod.
 *
 * Create an intrinsic Call.
 */
static void lower_Mod(ir_node *node, ir_mode *mode)
{
        ir_node         *left   = get_Mod_left(node);
        ir_node         *right  = get_Mod_right(node);
        dbg_info        *dbgi   = get_irn_dbg_info(node);
        ir_node         *block  = get_nodes_block(node);
        ir_type         *mtp    = mode_is_signed(mode) ? binop_tp_s : binop_tp_u;
        ir_mode         *opmode = get_irn_op_mode(node);
        ir_node         *addr
            = get_intrinsic_address(mtp, get_irn_op(node), opmode, opmode);
        ir_node         *in[4];
        ir_node         *call;
        ir_node         *resproj;
        const ir_edge_t *edge;
        const ir_edge_t *next;

        if (env->params->little_endian) {
                in[0] = get_lowered_low(left);
                in[1] = get_lowered_high(left);
                in[2] = get_lowered_low(right);
                in[3] = get_lowered_high(right);
        } else {
                in[0] = get_lowered_high(left);
                in[1] = get_lowered_low(left);
                in[2] = get_lowered_high(right);
                in[3] = get_lowered_low(right);
        }
        call    = new_rd_Call(dbgi, block, get_Mod_mem(node), addr, 4, in, mtp);
        resproj = new_r_Proj(call, mode_T, pn_Call_T_result);
        set_irn_pinned(call, get_irn_pinned(node));

        foreach_out_edge_safe(node, edge, next) {
                ir_node *proj = get_edge_src_irn(edge);
                if (!is_Proj(proj))
                        continue;

                switch (get_Proj_proj(proj)) {
                case pn_Mod_M:         /* Memory result. */
                        /* reroute to the call */
                        set_Proj_pred(proj, call);
                        set_Proj_proj(proj, pn_Call_M);
                        break;
                case pn_Div_X_regular:
                        set_Proj_pred(proj, call);
                        set_Proj_proj(proj, pn_Call_X_regular);
                        break;
                case pn_Mod_X_except:
                        set_Proj_pred(proj, call);
                        set_Proj_proj(proj, pn_Call_X_except);
                        break;
                case pn_Mod_res:
                        if (env->params->little_endian) {
                                ir_node *res_low  = new_r_Proj(resproj, env->low_unsigned, 0);
                                ir_node *res_high = new_r_Proj(resproj, mode,              1);
                                ir_set_dw_lowered(proj, res_low, res_high);
                        } else {
                                ir_node *res_low  = new_r_Proj(resproj, env->low_unsigned, 1);
                                ir_node *res_high = new_r_Proj(resproj, mode,              0);
                                ir_set_dw_lowered(proj, res_low, res_high);
                        }
                        break;
                default:
                        assert(0 && "unexpected Proj number");
                }
                /* mark this proj: we have handled it already, otherwise we might fall
                 * into out new nodes. */
                mark_irn_visited(proj);
        }
}

/**
 * Translate a binop.
 *
 * Create an intrinsic Call.
 */
static void lower_binop(ir_node *node, ir_mode *mode)
{
        ir_node  *left  = get_binop_left(node);
        ir_node  *right = get_binop_right(node);
        dbg_info *dbgi  = get_irn_dbg_info(node);
        ir_node  *block = get_nodes_block(node);
        ir_graph *irg   = get_irn_irg(block);
        ir_type  *mtp   = mode_is_signed(mode) ? binop_tp_s : binop_tp_u;
        ir_node  *addr  = get_intrinsic_address(mtp, get_irn_op(node), mode, mode);
        ir_node  *in[4];
        ir_node  *call;
        ir_node  *resproj;

        if (env->params->little_endian) {
                in[0] = get_lowered_low(left);
                in[1] = get_lowered_high(left);
                in[2] = get_lowered_low(right);
                in[3] = get_lowered_high(right);
        } else {
                in[0] = get_lowered_high(left);
                in[1] = get_lowered_low(left);
                in[2] = get_lowered_high(right);
                in[3] = get_lowered_low(right);
        }
        call    = new_rd_Call(dbgi, block, get_irg_no_mem(irg), addr, 4, in, mtp);
        resproj = new_r_Proj(call, mode_T, pn_Call_T_result);
        set_irn_pinned(call, get_irn_pinned(node));

        if (env->params->little_endian) {
                ir_node *res_low  = new_r_Proj(resproj, env->low_unsigned, 0);
                ir_node *res_high = new_r_Proj(resproj, mode,              1);
                ir_set_dw_lowered(node, res_low, res_high);
        } else {
                ir_node *res_low  = new_r_Proj(resproj, env->low_unsigned, 1);
                ir_node *res_high = new_r_Proj(resproj, mode,              0);
                ir_set_dw_lowered(node, res_low, res_high);
        }
}

static ir_node *create_conv(ir_node *block, ir_node *node, ir_mode *dest_mode)
{
        if (get_irn_mode(node) == dest_mode)
                return node;
        return new_r_Conv(block, node, dest_mode);
}

/**
 * Moves node and all predecessors of node from from_bl to to_bl.
 * Does not move predecessors of Phi nodes (or block nodes).
 */
static void move(ir_node *node, ir_node *from_bl, ir_node *to_bl)
{
        int i, arity;

        /* move this node */
        set_nodes_block(node, to_bl);

        /* move its Projs */
        if (get_irn_mode(node) == mode_T) {
                const ir_edge_t *edge;
                foreach_out_edge(node, edge) {
                        ir_node *proj = get_edge_src_irn(edge);
                        if (!is_Proj(proj))
                                continue;
                        move(proj, from_bl, to_bl);
                }
        }

        /* We must not move predecessors of Phi nodes, even if they are in
         * from_bl. (because these are values from an earlier loop iteration
         * which are not predecessors of node here)
         */
        if (is_Phi(node))
                return;

        /* recursion ... */
        arity = get_irn_arity(node);
        for (i = 0; i < arity; i++) {
                ir_node *pred      = get_irn_n(node, i);
                ir_mode *pred_mode = get_irn_mode(pred);
                if (get_nodes_block(pred) == from_bl)
                        move(pred, from_bl, to_bl);
                if (pred_mode == env->high_signed || pred_mode == env->high_unsigned) {
                        ir_node *pred_low  = get_lowered_low(pred);
                        ir_node *pred_high = get_lowered_high(pred);
                        if (get_nodes_block(pred_low) == from_bl)
                                move(pred_low, from_bl, to_bl);
                        if (pred_high != NULL && get_nodes_block(pred_high) == from_bl)
                                move(pred_high, from_bl, to_bl);
                }
        }
}

/**
 * We need a custom version of part_block_edges because during transformation
 * not all data-dependencies are explicit yet if a lowered nodes users are not
 * lowered yet.
 * We can fix this by modifying move to look for such implicit dependencies.
 * Additionally we have to keep the proj_2_block map updated
 */
static ir_node *part_block_dw(ir_node *node)
{
        ir_graph *irg        = get_irn_irg(node);
        ir_node  *old_block  = get_nodes_block(node);
        int       n_cfgpreds = get_Block_n_cfgpreds(old_block);
        ir_node **cfgpreds   = get_Block_cfgpred_arr(old_block);
        ir_node  *new_block  = new_r_Block(irg, n_cfgpreds, cfgpreds);
        const ir_edge_t *edge;
        const ir_edge_t *next;

        /* old_block has no predecessors anymore for now */
        set_irn_in(old_block, 0, NULL);

        /* move node and its predecessors to new_block */
        move(node, old_block, new_block);

        /* move Phi nodes to new_block */
        foreach_out_edge_safe(old_block, edge, next) {
                ir_node *phi = get_edge_src_irn(edge);
                if (!is_Phi(phi))
                        continue;
                set_nodes_block(phi, new_block);
        }
        return old_block;
}

typedef ir_node* (*new_rd_shr_func)(dbg_info *dbgi, ir_node *block,
                                    ir_node *left, ir_node *right,
                                    ir_mode *mode);

static void lower_shr_helper(ir_node *node, ir_mode *mode,
                             new_rd_shr_func new_rd_shrs)
{
        ir_node  *right         = get_binop_right(node);
        ir_node  *left          = get_binop_left(node);
        ir_mode  *shr_mode      = get_irn_mode(node);
        unsigned  modulo_shift  = get_mode_modulo_shift(shr_mode);
        ir_mode  *low_unsigned  = env->low_unsigned;
        unsigned  modulo_shift2 = get_mode_modulo_shift(mode);
        ir_graph *irg           = get_irn_irg(node);
        ir_node  *left_low      = get_lowered_low(left);
        ir_node  *left_high     = get_lowered_high(left);
        dbg_info *dbgi          = get_irn_dbg_info(node);
        ir_node  *lower_block;
        ir_node  *block;
        ir_node  *cnst;
        ir_node  *and;
        ir_node  *cmp;
        ir_node  *cond;
        ir_node  *proj_true;
        ir_node  *proj_false;
        ir_node  *phi_low;
        ir_node  *phi_high;
        ir_node  *lower_in[2];
        ir_node  *phi_low_in[2];
        ir_node  *phi_high_in[2];

        /* this version is optimized for modulo shift architectures
         * (and can't handle anything else) */
        if (modulo_shift != get_mode_size_bits(shr_mode)
                        || modulo_shift2<<1 != modulo_shift) {
                panic("Shr lowering only implemented for modulo shift shr operations");
        }
        if (!is_po2(modulo_shift) || !is_po2(modulo_shift2)) {
                panic("Shr lowering only implemented for power-of-2 modes");
        }
        /* without 2-complement the -x instead of (bit_width-x) trick won't work */
        if (get_mode_arithmetic(shr_mode) != irma_twos_complement) {
                panic("Shr lowering only implemented for two-complement modes");
        }

        block = get_nodes_block(node);

        /* if the right operand is a 64bit value, we're only interested in the
         * lower word */
        if (get_irn_mode(right) == env->high_unsigned) {
                right = get_lowered_low(right);
        } else {
                /* shift should never have signed mode on the right */
                assert(get_irn_mode(right) != env->high_signed);
                right = create_conv(block, right, low_unsigned);
        }

        lower_block = part_block_dw(node);
        env->flags |= CF_CHANGED;
        block = get_nodes_block(node);

        /* add a Cmp to test if highest bit is set <=> whether we shift more
         * than half the word width */
        cnst       = new_r_Const_long(irg, low_unsigned, modulo_shift2);
        and        = new_r_And(block, right, cnst, low_unsigned);
        cnst       = new_r_Const(irg, get_mode_null(low_unsigned));
        cmp        = new_rd_Cmp(dbgi, block, and, cnst, ir_relation_equal);
        cond       = new_rd_Cond(dbgi, block, cmp);
        proj_true  = new_r_Proj(cond, mode_X, pn_Cond_true);
        proj_false = new_r_Proj(cond, mode_X, pn_Cond_false);

        /* the true block => shift_width < 1word */
        {
                /* In theory the low value (for 64bit shifts) is:
                 *    Or(High << (32-x)), Low >> x)
                 * In practice High << 32-x will fail when x is zero (since we have
                 * modulo shift and 32 will be 0). So instead we use:
                 *    Or(High<<1<<~x, Low >> x)
                 */
                ir_node *in[1]        = { proj_true };
                ir_node *block_true   = new_r_Block(irg, ARRAY_SIZE(in), in);
                ir_node *res_high     = new_rd_shrs(dbgi, block_true, left_high,
                                                    right, mode);
                ir_node *shift_low    = new_rd_Shr(dbgi, block_true, left_low, right,
                                                   low_unsigned);
                ir_node *not_shiftval = new_rd_Not(dbgi, block_true, right,
                                                   low_unsigned);
                ir_node *conv         = create_conv(block_true, left_high,
                                                    low_unsigned);
                ir_node *one          = new_r_Const(irg, get_mode_one(low_unsigned));
                ir_node *carry0       = new_rd_Shl(dbgi, block_true, conv, one,
                                                   low_unsigned);
                ir_node *carry1       = new_rd_Shl(dbgi, block_true, carry0,
                                                   not_shiftval, low_unsigned);
                ir_node *res_low      = new_rd_Or(dbgi, block_true, shift_low, carry1,
                                                  low_unsigned);
                lower_in[0]           = new_r_Jmp(block_true);
                phi_low_in[0]         = res_low;
                phi_high_in[0]        = res_high;
        }

        /* false block => shift_width > 1word */
        {
                ir_node *in[1]       = { proj_false };
                ir_node *block_false = new_r_Block(irg, ARRAY_SIZE(in), in);
                ir_node *conv        = create_conv(block_false, left_high, low_unsigned);
                ir_node *res_low     = new_rd_shrs(dbgi, block_false, conv, right,
                                                   low_unsigned);
                int      cnsti       = modulo_shift2-1;
                ir_node *cnst2       = new_r_Const_long(irg, low_unsigned, cnsti);
                ir_node *res_high;
                if (new_rd_shrs == new_rd_Shrs) {
                        res_high = new_rd_shrs(dbgi, block_false, left_high, cnst2, mode);
                } else {
                        res_high = new_r_Const(irg, get_mode_null(mode));
                }
                lower_in[1]          = new_r_Jmp(block_false);
                phi_low_in[1]        = res_low;
                phi_high_in[1]       = res_high;
        }

        /* patch lower block */
        set_irn_in(lower_block, ARRAY_SIZE(lower_in), lower_in);
        phi_low  = new_r_Phi(lower_block, ARRAY_SIZE(phi_low_in), phi_low_in,
                             low_unsigned);
        phi_high = new_r_Phi(lower_block, ARRAY_SIZE(phi_high_in), phi_high_in,
                             mode);
        ir_set_dw_lowered(node, phi_low, phi_high);
}

static void lower_Shr(ir_node *node, ir_mode *mode)
{
        lower_shr_helper(node, mode, new_rd_Shr);
}

static void lower_Shrs(ir_node *node, ir_mode *mode)
{
        lower_shr_helper(node, mode, new_rd_Shrs);
}

static void lower_Shl(ir_node *node, ir_mode *mode)
{
        ir_node  *right         = get_binop_right(node);
        ir_node  *left          = get_binop_left(node);
        ir_mode  *shr_mode      = get_irn_mode(node);
        unsigned  modulo_shift  = get_mode_modulo_shift(shr_mode);
        ir_mode  *low_unsigned  = env->low_unsigned;
        unsigned  modulo_shift2 = get_mode_modulo_shift(mode);
        ir_graph *irg           = get_irn_irg(node);
        ir_node  *left_low      = get_lowered_low(left);
        ir_node  *left_high     = get_lowered_high(left);
        dbg_info *dbgi          = get_irn_dbg_info(node);
        ir_node  *lower_block   = get_nodes_block(node);
        ir_node  *block;
        ir_node  *cnst;
        ir_node  *and;
        ir_node  *cmp;
        ir_node  *cond;
        ir_node  *proj_true;
        ir_node  *proj_false;
        ir_node  *phi_low;
        ir_node  *phi_high;
        ir_node  *lower_in[2];
        ir_node  *phi_low_in[2];
        ir_node  *phi_high_in[2];

        /* this version is optimized for modulo shift architectures
         * (and can't handle anything else) */
        if (modulo_shift != get_mode_size_bits(shr_mode)
                        || modulo_shift2<<1 != modulo_shift) {
                panic("Shr lowering only implemented for modulo shift shr operations");
        }
        if (!is_po2(modulo_shift) || !is_po2(modulo_shift2)) {
                panic("Shr lowering only implemented for power-of-2 modes");
        }
        /* without 2-complement the -x instead of (bit_width-x) trick won't work */
        if (get_mode_arithmetic(shr_mode) != irma_twos_complement) {
                panic("Shr lowering only implemented for two-complement modes");
        }

        /* if the right operand is a 64bit value, we're only interested in the
         * lower word */
        if (get_irn_mode(right) == env->high_unsigned) {
                right = get_lowered_low(right);
        } else {
                /* shift should never have signed mode on the right */
                assert(get_irn_mode(right) != env->high_signed);
                right = create_conv(lower_block, right, low_unsigned);
        }

        part_block_dw(node);
        env->flags |= CF_CHANGED;
        block = get_nodes_block(node);

        /* add a Cmp to test if highest bit is set <=> whether we shift more
         * than half the word width */
        cnst       = new_r_Const_long(irg, low_unsigned, modulo_shift2);
        and        = new_r_And(block, right, cnst, low_unsigned);
        cnst       = new_r_Const(irg, get_mode_null(low_unsigned));
        cmp        = new_rd_Cmp(dbgi, block, and, cnst, ir_relation_equal);
        cond       = new_rd_Cond(dbgi, block, cmp);
        proj_true  = new_r_Proj(cond, mode_X, pn_Cond_true);
        proj_false = new_r_Proj(cond, mode_X, pn_Cond_false);

        /* the true block => shift_width < 1word */
        {
                ir_node *in[1]        = { proj_true };
                ir_node *block_true   = new_r_Block(irg, ARRAY_SIZE(in), in);

                ir_node *res_low      = new_rd_Shl(dbgi, block_true, left_low,
                                                   right, low_unsigned);
                ir_node *shift_high   = new_rd_Shl(dbgi, block_true, left_high, right,
                                                   mode);
                ir_node *not_shiftval = new_rd_Not(dbgi, block_true, right,
                                                   low_unsigned);
                ir_node *conv         = create_conv(block_true, left_low, mode);
                ir_node *one          = new_r_Const(irg, get_mode_one(low_unsigned));
                ir_node *carry0       = new_rd_Shr(dbgi, block_true, conv, one, mode);
                ir_node *carry1       = new_rd_Shr(dbgi, block_true, carry0,
                                                   not_shiftval, mode);
                ir_node *res_high     = new_rd_Or(dbgi, block_true, shift_high, carry1,
                                                  mode);
                lower_in[0]           = new_r_Jmp(block_true);
                phi_low_in[0]         = res_low;
                phi_high_in[0]        = res_high;
        }

        /* false block => shift_width > 1word */
        {
                ir_node *in[1]       = { proj_false };
                ir_node *block_false = new_r_Block(irg, ARRAY_SIZE(in), in);
                ir_node *res_low     = new_r_Const(irg, get_mode_null(low_unsigned));
                ir_node *conv        = create_conv(block_false, left_low, mode);
                ir_node *res_high    = new_rd_Shl(dbgi, block_false, conv, right, mode);
                lower_in[1]          = new_r_Jmp(block_false);
                phi_low_in[1]        = res_low;
                phi_high_in[1]       = res_high;
        }

        /* patch lower block */
        set_irn_in(lower_block, ARRAY_SIZE(lower_in), lower_in);
        phi_low  = new_r_Phi(lower_block, ARRAY_SIZE(phi_low_in), phi_low_in,
                             low_unsigned);
        phi_high = new_r_Phi(lower_block, ARRAY_SIZE(phi_high_in), phi_high_in,
                             mode);
        ir_set_dw_lowered(node, phi_low, phi_high);
}

/**
 * Rebuild Rotl nodes into Or(Shl, Shr) and prepare all nodes.
 */
static void prepare_links_and_handle_rotl(ir_node *node, void *data)
{
        (void) data;
        if (is_Rotl(node)) {
                ir_mode  *mode = get_irn_op_mode(node);
                ir_node  *right;
                ir_node  *left, *shl, *shr, *ornode, *block, *sub, *c;
                ir_mode  *omode, *rmode;
                ir_graph *irg;
                dbg_info *dbg;
                optimization_state_t state;

                if (mode != env->high_signed && mode != env->high_unsigned) {
                        prepare_links(node);
                        return;
                }

                /* replace the Rotl(x,y) by an Or(Shl(x,y), Shr(x,64-y)) */
                right = get_Rotl_right(node);
                irg   = get_irn_irg(node);
                dbg   = get_irn_dbg_info(node);
                omode = get_irn_mode(node);
                left  = get_Rotl_left(node);
                block = get_nodes_block(node);
                shl   = new_rd_Shl(dbg, block, left, right, omode);
                rmode = get_irn_mode(right);
                c     = new_r_Const_long(irg, rmode, get_mode_size_bits(omode));
                sub   = new_rd_Sub(dbg, block, c, right, rmode);
                shr   = new_rd_Shr(dbg, block, left, sub, omode);

                /* switch optimization off here, or we will get the Rotl back */
                save_optimization_state(&state);
                set_opt_algebraic_simplification(0);
                ornode = new_rd_Or(dbg, block, shl, shr, omode);
                restore_optimization_state(&state);

                exchange(node, ornode);

                /* do lowering on the new nodes */
                prepare_links(shl);
                prepare_links(c);
                prepare_links(sub);
                prepare_links(shr);
                prepare_links(ornode);
                return;
        }

        prepare_links(node);
}

/**
 * Translate an Unop.
 *
 * Create an intrinsic Call.
 */
static void lower_unop(ir_node *node, ir_mode *mode)
{
        ir_node  *op       = get_unop_op(node);
        dbg_info *dbgi     = get_irn_dbg_info(node);
        ir_node  *block    = get_nodes_block(node);
        ir_graph *irg      = get_irn_irg(block);
        ir_type  *mtp      = mode_is_signed(mode) ? unop_tp_s : unop_tp_u;
        ir_op    *irop     = get_irn_op(node);
        ir_node  *addr     = get_intrinsic_address(mtp, irop, mode, mode);
        ir_node  *nomem    = get_irg_no_mem(irg);
        ir_node  *in[2];
        ir_node  *call;
        ir_node  *resproj;

        if (env->params->little_endian) {
                in[0] = get_lowered_low(op);
                in[1] = get_lowered_high(op);
        } else {
                in[0] = get_lowered_high(op);
                in[1] = get_lowered_low(op);
        }
        call    = new_rd_Call(dbgi, block, nomem, addr, 2, in, mtp);
        resproj = new_r_Proj(call, mode_T, pn_Call_T_result);
        set_irn_pinned(call, get_irn_pinned(node));

        if (env->params->little_endian) {
                ir_node *res_low  = new_r_Proj(resproj, env->low_unsigned, 0);
                ir_node *res_high = new_r_Proj(resproj, mode,              1);
                ir_set_dw_lowered(node, res_low, res_high);
        } else {
                ir_node *res_low  = new_r_Proj(resproj, env->low_unsigned, 1);
                ir_node *res_high = new_r_Proj(resproj, mode,              0);
                ir_set_dw_lowered(node, res_low, res_high);
        }
}

/**
 * Translate a logical binop.
 *
 * Create two logical binops.
 */
static void lower_binop_logical(ir_node *node, ir_mode *mode,
                                                                ir_node *(*constr_rd)(dbg_info *db, ir_node *block, ir_node *op1, ir_node *op2, ir_mode *mode) )
{
        ir_node               *left        = get_binop_left(node);
        ir_node               *right       = get_binop_right(node);
        const lower64_entry_t *left_entry  = get_node_entry(left);
        const lower64_entry_t *right_entry = get_node_entry(right);
        dbg_info              *dbgi        = get_irn_dbg_info(node);
        ir_node               *block       = get_nodes_block(node);
        ir_node               *res_low
                = constr_rd(dbgi, block, left_entry->low_word, right_entry->low_word,
                            env->low_unsigned);
        ir_node               *res_high
                = constr_rd(dbgi, block, left_entry->high_word, right_entry->high_word,
                            mode);
        ir_set_dw_lowered(node, res_low, res_high);
}

static void lower_And(ir_node *node, ir_mode *mode)
{
        lower_binop_logical(node, mode, new_rd_And);
}

static void lower_Or(ir_node *node, ir_mode *mode)
{
        lower_binop_logical(node, mode, new_rd_Or);
}

static void lower_Eor(ir_node *node, ir_mode *mode)
{
        lower_binop_logical(node, mode, new_rd_Eor);
}

/**
 * Translate a Not.
 *
 * Create two logical Nots.
 */
static void lower_Not(ir_node *node, ir_mode *mode)
{
        ir_node               *op       = get_Not_op(node);
        const lower64_entry_t *op_entry = get_node_entry(op);
        dbg_info              *dbgi     = get_irn_dbg_info(node);
        ir_node               *block    = get_nodes_block(node);
        ir_node               *res_low
                = new_rd_Not(dbgi, block, op_entry->low_word, env->low_unsigned);
        ir_node               *res_high
                = new_rd_Not(dbgi, block, op_entry->high_word, mode);
        ir_set_dw_lowered(node, res_low, res_high);
}

static bool is_equality_cmp(const ir_node *node)
{
        ir_relation relation = get_Cmp_relation(node);
        ir_node    *left     = get_Cmp_left(node);
        ir_node    *right    = get_Cmp_right(node);
        ir_mode    *mode     = get_irn_mode(left);

        /* this probably makes no sense if unordered is involved */
        assert(!mode_is_float(mode));

        if (relation == ir_relation_equal || relation == ir_relation_less_greater)
                return true;

        if (!is_Const(right) || !is_Const_null(right))
                return false;
        if (mode_is_signed(mode)) {
                return relation == ir_relation_less_greater;
        } else {
                return relation == ir_relation_greater;
        }
}

static ir_node *get_cfop_destination(const ir_node *cfop)
{
        const ir_edge_t *first = get_irn_out_edge_first(cfop);
        /* we should only have 1 destination */
        assert(get_irn_n_edges(cfop) == 1);
        return get_edge_src_irn(first);
}

/**
 * Translate a Cond.
 */
static void lower_Cond(ir_node *node, ir_mode *high_mode)
{
        ir_node *left, *right, *block;
        ir_node *sel = get_Cond_selector(node);
        ir_mode *m = get_irn_mode(sel);
        ir_mode *cmp_mode;
        const lower64_entry_t *lentry, *rentry;
        ir_node  *projT = NULL, *projF = NULL;
        ir_node  *new_bl, *irn;
        ir_node  *projHF, *projHT;
        ir_node  *dst_blk;
        ir_relation relation;
        ir_graph *irg;
        dbg_info *dbg;
        const ir_edge_t *edge;
        const ir_edge_t *next;

        (void) high_mode;

        if (m != mode_b) {
                if (m == env->high_signed || m == env->high_unsigned) {
                        /* bad we can't really handle Switch with 64bit offsets */
                        panic("Cond with 64bit jumptable not supported");
                }
                lower_node(sel);
                return;
        }

        if (!is_Cmp(sel)) {
                lower_node(sel);
                return;
        }

        left     = get_Cmp_left(sel);
        cmp_mode = get_irn_mode(left);
        if (cmp_mode != env->high_signed && cmp_mode != env->high_unsigned) {
                lower_node(sel);
                return;
        }

        right  = get_Cmp_right(sel);
        lower_node(left);
        lower_node(right);
        lentry = get_node_entry(left);
        rentry = get_node_entry(right);

        /* all right, build the code */
        foreach_out_edge_safe(node, edge, next) {
                ir_node *proj    = get_edge_src_irn(edge);
                long     proj_nr;
                if (!is_Proj(proj))
                        continue;
                proj_nr = get_Proj_proj(proj);

                if (proj_nr == pn_Cond_true) {
                        assert(projT == NULL && "more than one Proj(true)");
                        projT = proj;
                } else {
                        assert(proj_nr == pn_Cond_false);
                        assert(projF == NULL && "more than one Proj(false)");
                        projF = proj;
                }
                mark_irn_visited(proj);
        }
        assert(projT && projF);

        /* create a new high compare */
        block    = get_nodes_block(node);
        irg      = get_Block_irg(block);
        dbg      = get_irn_dbg_info(sel);
        relation = get_Cmp_relation(sel);

        if (is_equality_cmp(sel)) {
                /* x ==/!= y ==> or(x_low^y_low,x_high^y_high) ==/!= 0 */
                ir_mode *mode       = env->low_unsigned;
                ir_node *low_left   = new_rd_Conv(dbg, block, lentry->low_word, mode);
                ir_node *high_left  = new_rd_Conv(dbg, block, lentry->high_word, mode);
                ir_node *low_right  = new_rd_Conv(dbg, block, rentry->low_word, mode);
                ir_node *high_right = new_rd_Conv(dbg, block, rentry->high_word, mode);
                ir_node *xor_low    = new_rd_Eor(dbg, block, low_left, low_right, mode);
                ir_node *xor_high   = new_rd_Eor(dbg, block, high_left, high_right, mode);
                ir_node *ornode = new_rd_Or(dbg, block, xor_low, xor_high, mode);
                ir_node *cmp    = new_rd_Cmp(dbg, block, ornode, new_r_Const(irg, get_mode_null(mode)), relation);
                set_Cond_selector(node, cmp);
                return;
        }

        if (relation == ir_relation_equal) {
                ir_node *proj;
                /* simple case:a == b <==> a_h == b_h && a_l == b_l */
                dst_blk = get_cfop_destination(projF);

                irn = new_rd_Cmp(dbg, block, lentry->high_word, rentry->high_word,
                                 ir_relation_equal);
                dbg = get_irn_dbg_info(node);
                irn = new_rd_Cond(dbg, block, irn);

                projHF = new_r_Proj(irn, mode_X, pn_Cond_false);
                mark_irn_visited(projHF);
                exchange(projF, projHF);

                projHT = new_r_Proj(irn, mode_X, pn_Cond_true);
                mark_irn_visited(projHT);

                new_bl = new_r_Block(irg, 1, &projHT);

                dbg = get_irn_dbg_info(sel);
                irn = new_rd_Cmp(dbg, new_bl, lentry->low_word, rentry->low_word,
                                  ir_relation_equal);
                dbg = get_irn_dbg_info(node);
                irn = new_rd_Cond(dbg, new_bl, irn);

                proj = new_r_Proj(irn, mode_X, pn_Cond_false);
                mark_irn_visited(proj);
                add_block_cf_input(dst_blk, projHF, proj);

                proj = new_r_Proj(irn, mode_X, pn_Cond_true);
                mark_irn_visited(proj);
                exchange(projT, proj);
        } else if (relation == ir_relation_less_greater) {
                ir_node *proj;
                /* simple case:a != b <==> a_h != b_h || a_l != b_l */
                dst_blk = get_cfop_destination(projT);

                irn = new_rd_Cmp(dbg, block, lentry->high_word, rentry->high_word,
                                 ir_relation_less_greater);
                dbg = get_irn_dbg_info(node);
                irn = new_rd_Cond(dbg, block, irn);

                projHT = new_r_Proj(irn, mode_X, pn_Cond_true);
                mark_irn_visited(projHT);
                exchange(projT, projHT);

                projHF = new_r_Proj(irn, mode_X, pn_Cond_false);
                mark_irn_visited(projHF);

                new_bl = new_r_Block(irg, 1, &projHF);

                dbg = get_irn_dbg_info(sel);
                irn = new_rd_Cmp(dbg, new_bl, lentry->low_word, rentry->low_word,
                                 ir_relation_less_greater);
                dbg = get_irn_dbg_info(node);
                irn = new_rd_Cond(dbg, new_bl, irn);

                proj = new_r_Proj(irn, mode_X, pn_Cond_true);
                mark_irn_visited(proj);
                add_block_cf_input(dst_blk, projHT, proj);

                proj = new_r_Proj(irn, mode_X, pn_Cond_false);
                mark_irn_visited(proj);
                exchange(projF, proj);
        } else {
                ir_node *proj;
                /* a rel b <==> a_h REL b_h || (a_h == b_h && a_l rel b_l) */
                ir_node *dstT, *dstF, *newbl_eq, *newbl_l;
                ir_node *projEqF;

                dstT = get_cfop_destination(projT);
                dstF = get_cfop_destination(projF);

                irn = new_rd_Cmp(dbg, block, lentry->high_word, rentry->high_word,
                                 relation & ~ir_relation_equal);
                dbg = get_irn_dbg_info(node);
                irn = new_rd_Cond(dbg, block, irn);

                projHT = new_r_Proj(irn, mode_X, pn_Cond_true);
                mark_irn_visited(projHT);

                projHF = new_r_Proj(irn, mode_X, pn_Cond_false);
                mark_irn_visited(projHF);

                newbl_eq = new_r_Block(irg, 1, &projHF);

                irn = new_rd_Cmp(dbg, block, lentry->high_word, rentry->high_word,
                                 ir_relation_equal);
                irn = new_rd_Cond(dbg, newbl_eq, irn);

                projEqF = new_r_Proj(irn, mode_X, pn_Cond_false);
                mark_irn_visited(projEqF);

                proj = new_r_Proj(irn, mode_X, pn_Cond_true);
                mark_irn_visited(proj);

                newbl_l = new_r_Block(irg, 1, &proj);

                dbg = get_irn_dbg_info(sel);
                irn = new_rd_Cmp(dbg, newbl_l, lentry->low_word, rentry->low_word,
                                 relation);
                dbg = get_irn_dbg_info(node);
                irn = new_rd_Cond(dbg, newbl_l, irn);

                proj = new_r_Proj(irn, mode_X, pn_Cond_true);
                mark_irn_visited(proj);
                add_block_cf_input(dstT, projT, proj);

                proj = new_r_Proj(irn, mode_X, pn_Cond_false);
                mark_irn_visited(proj);
                add_block_cf_input(dstF, projF, proj);

                exchange(projT, projHT);
                exchange(projF, projEqF);
        }

        /* we have changed the control flow */
        env->flags |= CF_CHANGED;
}

/**
 * Translate a Conv to higher_signed
 */
static void lower_Conv_to_Ll(ir_node *node)
{
        ir_mode  *omode        = get_irn_mode(node);
        ir_node  *op           = get_Conv_op(node);
        ir_mode  *imode        = get_irn_mode(op);
        ir_graph *irg          = get_irn_irg(node);
        ir_node  *block        = get_nodes_block(node);
        dbg_info *dbg          = get_irn_dbg_info(node);
        ir_node  *res_low;
        ir_node  *res_high;

        ir_mode  *low_unsigned = env->low_unsigned;
        ir_mode  *low_signed
                = mode_is_signed(omode) ? env->low_signed : low_unsigned;

        if (mode_is_int(imode) || mode_is_reference(imode)) {
                if (imode == env->high_signed || imode == env->high_unsigned) {
                        /* a Conv from Lu to Ls or Ls to Lu */
                        const lower64_entry_t *op_entry = get_node_entry(op);
                        res_low  = op_entry->low_word;
                        res_high = new_rd_Conv(dbg, block, op_entry->high_word, low_signed);
                } else {
                        /* simple case: create a high word */
                        if (imode != low_unsigned)
                                op = new_rd_Conv(dbg, block, op, low_unsigned);

                        res_low = op;

                        if (mode_is_signed(imode)) {
                                int      c       = get_mode_size_bits(low_signed) - 1;
                                ir_node *cnst    = new_r_Const_long(irg, low_unsigned, c);
                                if (get_irn_mode(op) != low_signed)
                                        op = new_rd_Conv(dbg, block, op, low_signed);
                                res_high = new_rd_Shrs(dbg, block, op, cnst, low_signed);
                        } else {
                                res_high = new_r_Const(irg, get_mode_null(low_signed));
                        }
                }
        } else if (imode == mode_b) {
                res_low  = new_rd_Conv(dbg, block, op, low_unsigned);
                res_high = new_r_Const(irg, get_mode_null(low_signed));
        } else {
                ir_node *irn, *call;
                ir_type *mtp = get_conv_type(imode, omode);

                irn = get_intrinsic_address(mtp, get_irn_op(node), imode, omode);
                call = new_rd_Call(dbg, block, get_irg_no_mem(irg), irn, 1, &op, mtp);
                set_irn_pinned(call, get_irn_pinned(node));
                irn = new_r_Proj(call, mode_T, pn_Call_T_result);

                res_low  = new_r_Proj(irn, low_unsigned, 0);
                res_high = new_r_Proj(irn, low_signed, 1);
        }
        ir_set_dw_lowered(node, res_low, res_high);
}

/**
 * Translate a Conv from higher_unsigned
 */
static void lower_Conv_from_Ll(ir_node *node)
{
        ir_node               *op    = get_Conv_op(node);
        ir_mode               *omode = get_irn_mode(node);
        ir_node               *block = get_nodes_block(node);
        dbg_info              *dbg   = get_irn_dbg_info(node);
        ir_graph              *irg   = get_irn_irg(node);
        const lower64_entry_t *entry = get_node_entry(op);

        if (mode_is_int(omode) || mode_is_reference(omode)) {
                op = entry->low_word;

                /* simple case: create a high word */
                if (omode != env->low_unsigned)
                        op = new_rd_Conv(dbg, block, op, omode);

                set_Conv_op(node, op);
        } else if (omode == mode_b) {
                /* llu ? true : false  <=> (low|high) ? true : false */
                ir_mode *mode   = env->low_unsigned;
                ir_node *ornode = new_rd_Or(dbg, block, entry->low_word,
                                            entry->high_word, mode);
                set_Conv_op(node, ornode);
        } else {
                ir_node *irn, *call, *in[2];
                ir_mode *imode = get_irn_mode(op);
                ir_type *mtp   = get_conv_type(imode, omode);
                ir_node *res;

                irn   = get_intrinsic_address(mtp, get_irn_op(node), imode, omode);
                in[0] = entry->low_word;
                in[1] = entry->high_word;

                call = new_rd_Call(dbg, block, get_irg_no_mem(irg), irn, 2, in, mtp);
                set_irn_pinned(call, get_irn_pinned(node));
                irn = new_r_Proj(call, mode_T, pn_Call_T_result);
                res = new_r_Proj(irn, omode, 0);

                exchange(node, res);
        }
}

/**
 * lower Cmp
 */
static void lower_Cmp(ir_node *cmp, ir_mode *m)
{
        ir_node  *l        = get_Cmp_left(cmp);
        ir_mode  *cmp_mode = get_irn_mode(l);
        ir_node  *r, *low, *high, *t, *res;
        ir_relation relation;
        ir_node  *block;
        dbg_info *dbg;
        const lower64_entry_t *lentry;
        const lower64_entry_t *rentry;
        (void) m;

        if (cmp_mode != env->high_signed && cmp_mode != env->high_unsigned)
                return;

        r        = get_Cmp_right(cmp);
        lentry   = get_node_entry(l);
        rentry   = get_node_entry(r);
        relation = get_Cmp_relation(cmp);
        block    = get_nodes_block(cmp);
        dbg      = get_irn_dbg_info(cmp);

        /* easy case for x ==/!= 0 (see lower_Cond for details) */
        if (is_equality_cmp(cmp)) {
                ir_graph *irg        = get_irn_irg(cmp);
                ir_mode  *mode       = env->low_unsigned;
                ir_node  *low_left   = new_rd_Conv(dbg, block, lentry->low_word, mode);
                ir_node  *high_left  = new_rd_Conv(dbg, block, lentry->high_word, mode);
                ir_node  *low_right  = new_rd_Conv(dbg, block, rentry->low_word, mode);
                ir_node  *high_right = new_rd_Conv(dbg, block, rentry->high_word, mode);
                ir_node  *xor_low    = new_rd_Eor(dbg, block, low_left, low_right, mode);
                ir_node  *xor_high   = new_rd_Eor(dbg, block, high_left, high_right, mode);
                ir_node  *ornode     = new_rd_Or(dbg, block, xor_low, xor_high, mode);
                ir_node  *new_cmp    = new_rd_Cmp(dbg, block, ornode, new_r_Const(irg, get_mode_null(mode)), relation);
                exchange(cmp, new_cmp);
                return;
        }

        if (relation == ir_relation_equal) {
                /* simple case:a == b <==> a_h == b_h && a_l == b_l */
                low  = new_rd_Cmp(dbg, block, lentry->low_word, rentry->low_word,
                                  relation);
                high = new_rd_Cmp(dbg, block, lentry->high_word, rentry->high_word,
                                  relation);
                res  = new_rd_And(dbg, block, low, high, mode_b);
        } else if (relation == ir_relation_less_greater) {
                /* simple case:a != b <==> a_h != b_h || a_l != b_l */
                low  = new_rd_Cmp(dbg, block, lentry->low_word, rentry->low_word,
                                  relation);
                high = new_rd_Cmp(dbg, block, lentry->high_word, rentry->high_word,
                                  relation);
                res = new_rd_Or(dbg, block, low, high, mode_b);
        } else {
                /* a rel b <==> a_h REL b_h || (a_h == b_h && a_l rel b_l) */
                ir_node *high1 = new_rd_Cmp(dbg, block, lentry->high_word,
                        rentry->high_word, relation & ~ir_relation_equal);
                low  = new_rd_Cmp(dbg, block, lentry->low_word, rentry->low_word,
                                  relation);
                high = new_rd_Cmp(dbg, block, lentry->high_word, rentry->high_word,
                                  ir_relation_equal);
                t = new_rd_And(dbg, block, low, high, mode_b);
                res = new_rd_Or(dbg, block, high1, t, mode_b);
        }
        exchange(cmp, res);
}

/**
 * Translate a Conv.
 */
static void lower_Conv(ir_node *node, ir_mode *mode)
{
        mode = get_irn_mode(node);

        if (mode == env->high_signed || mode == env->high_unsigned) {
                lower_Conv_to_Ll(node);
        } else {
                ir_mode *op_mode = get_irn_mode(get_Conv_op(node));

                if (op_mode == env->high_signed || op_mode == env->high_unsigned) {
                        lower_Conv_from_Ll(node);
                }
        }
}

static void fix_parameter_entities(ir_graph *irg)
{
        ir_entity *entity   = get_irg_entity(irg);
        ir_type   *mtp      = get_entity_type(entity);
        ir_type   *orig_mtp = get_type_link(mtp);

        size_t      orig_n_params      = get_method_n_params(orig_mtp);
        ir_entity **parameter_entities;

        parameter_entities = ALLOCANZ(ir_entity*, orig_n_params);

        ir_type *frame_type = get_irg_frame_type(irg);
        size_t   n          = get_compound_n_members(frame_type);
        size_t   i;
        size_t   n_param;

        /* collect parameter entities */
        for (i = 0; i < n; ++i) {
                ir_entity *entity = get_compound_member(frame_type, i);
                size_t     p;
                if (!is_parameter_entity(entity))
                        continue;
                p = get_entity_parameter_number(entity);
                if (p == IR_VA_START_PARAMETER_NUMBER)
                        continue;
                assert(p < orig_n_params);
                assert(parameter_entities[p] == NULL);
                parameter_entities[p] = entity;
        }

        /* adjust indices */
        n_param = 0;
        for (i = 0; i < orig_n_params; ++i, ++n_param) {
                ir_entity *entity = parameter_entities[i];
                ir_type   *tp;

                if (entity != NULL)
                        set_entity_parameter_number(entity, n_param);

                tp = get_method_param_type(orig_mtp, i);
                if (is_Primitive_type(tp)) {
                        ir_mode *mode = get_type_mode(tp);
                        if (mode == env->high_signed || mode == env->high_unsigned) {
                                ++n_param;
                                /* note that we do not change the type of the parameter
                                 * entities, as calling convention fixup later still needs to
                                 * know which is/was a lowered doubleword.
                                 * So we just mark/remember it for later */
                                if (entity != NULL) {
                                        assert(entity->attr.parameter.doubleword_low_mode == NULL);
                                        entity->attr.parameter.doubleword_low_mode
                                                = env->low_unsigned;
                                }
                        }
                }
        }
}

/**
 * Lower the method type.
 *
 * @param env  the lower environment
 * @param mtp  the method type to lower
 *
 * @return the lowered type
 */
static ir_type *lower_mtp(ir_type *mtp)
{
        ir_type *res;
        size_t   i;
        size_t   orig_n_params;
        size_t   orig_n_res;
        size_t   n_param;
        size_t   n_res;
        bool     must_be_lowered;

        res = (ir_type*)pmap_get(lowered_type, mtp);
        if (res != NULL)
                return res;

        orig_n_params   = get_method_n_params(mtp);
        orig_n_res      = get_method_n_ress(mtp);
        n_param         = orig_n_params;
        n_res           = orig_n_res;
        must_be_lowered = false;

        /* count new number of params */
        for (i = orig_n_params; i > 0;) {
                ir_type *tp = get_method_param_type(mtp, --i);

                if (is_Primitive_type(tp)) {
                        ir_mode *mode = get_type_mode(tp);

                        if (mode == env->high_signed || mode == env->high_unsigned) {
                                ++n_param;
                                must_be_lowered = true;
                        }
                }
        }

        /* count new number of results */
        for (i = orig_n_res; i > 0;) {
                ir_type *tp = get_method_res_type(mtp, --i);

                if (is_Primitive_type(tp)) {
                        ir_mode *mode = get_type_mode(tp);

                        if (mode == env->high_signed || mode == env->high_unsigned) {
                                ++n_res;
                                must_be_lowered = true;
                        }
                }
        }
        if (!must_be_lowered) {
                set_type_link(mtp, NULL);
                return mtp;
        }

        res = new_d_type_method(n_param, n_res, get_type_dbg_info(mtp));

        /* set param types and result types */
        for (i = n_param = 0; i < orig_n_params; ++i) {
                ir_type *tp = get_method_param_type(mtp, i);

                if (is_Primitive_type(tp)) {
                        ir_mode *mode = get_type_mode(tp);

                        if (mode == env->high_signed) {
                                if (env->params->little_endian) {
                                        set_method_param_type(res, n_param++, tp_u);
                                        set_method_param_type(res, n_param++, tp_s);
                                } else {
                                        set_method_param_type(res, n_param++, tp_s);
                                        set_method_param_type(res, n_param++, tp_u);
                                }
                        } else if (mode == env->high_unsigned) {
                                set_method_param_type(res, n_param++, tp_u);
                                set_method_param_type(res, n_param++, tp_u);
                        } else {
                                set_method_param_type(res, n_param, tp);
                                ++n_param;
                        }
                } else {
                        set_method_param_type(res, n_param, tp);
                        ++n_param;
                }
        }
        for (i = n_res = 0; i < orig_n_res; ++i) {
                ir_type *tp = get_method_res_type(mtp, i);

                if (is_Primitive_type(tp)) {
                        ir_mode *mode = get_type_mode(tp);

                        if (mode == env->high_signed) {
                                if (env->params->little_endian) {
                                        set_method_res_type(res, n_res++, tp_u);
                                        set_method_res_type(res, n_res++, tp_s);
                                } else {
                                        set_method_res_type(res, n_res++, tp_s);
                                        set_method_res_type(res, n_res++, tp_u);
                                }
                        } else if (mode == env->high_unsigned) {
                                set_method_res_type(res, n_res++, tp_u);
                                set_method_res_type(res, n_res++, tp_u);
                        } else {
                                set_method_res_type(res, n_res++, tp);
                        }
                } else {
                        set_method_res_type(res, n_res++, tp);
                }
        }

        set_method_variadicity(res, get_method_variadicity(mtp));
        set_method_calling_convention(res, get_method_calling_convention(mtp));
        set_method_additional_properties(res, get_method_additional_properties(mtp));

        set_lowered_type(mtp, res);
        set_type_link(res, mtp);

        pmap_insert(lowered_type, mtp, res);
        return res;
}

/**
 * Translate a Return.
 */
static void lower_Return(ir_node *node, ir_mode *mode)
{
        ir_graph  *irg = get_irn_irg(node);
        ir_entity *ent = get_irg_entity(irg);
        ir_type   *mtp = get_entity_type(ent);
        ir_node  **in;
        size_t     i, j, n;
        int        need_conv = 0;
        (void) mode;

        /* check if this return must be lowered */
        for (i = 0, n = get_Return_n_ress(node); i < n; ++i) {
                ir_node *pred  = get_Return_res(node, i);
                ir_mode *rmode = get_irn_op_mode(pred);

                if (rmode == env->high_signed || rmode == env->high_unsigned)
                        need_conv = 1;
        }
        if (! need_conv)
                return;

        ent = get_irg_entity(irg);
        mtp = get_entity_type(ent);

        /* create a new in array */
        NEW_ARR_A(ir_node *, in, get_method_n_ress(mtp) + 1);
        j = 0;
        in[j++] = get_Return_mem(node);

        for (i = 0, n = get_Return_n_ress(node); i < n; ++i) {
                ir_node *pred      = get_Return_res(node, i);
                ir_mode *pred_mode = get_irn_mode(pred);

                if (pred_mode == env->high_signed || pred_mode == env->high_unsigned) {
                        const lower64_entry_t *entry = get_node_entry(pred);
                        if (env->params->little_endian) {
                                in[j++] = entry->low_word;
                                in[j++] = entry->high_word;
                        } else {
                                in[j++] = entry->high_word;
                                in[j++] = entry->low_word;
                        }
                } else {
                        in[j++] = pred;
                }
        }
        assert(j == get_method_n_ress(mtp)+1);

        set_irn_in(node, j, in);
}

/**
 * Translate the parameters.
 */
static void lower_Start(ir_node *node, ir_mode *high_mode)
{
        ir_graph  *irg      = get_irn_irg(node);
        ir_entity *ent      = get_irg_entity(irg);
        ir_type   *mtp      = get_entity_type(ent);
        ir_type   *orig_mtp = get_type_link(mtp);
        ir_node   *args;
        long      *new_projs;
        size_t    i, j, n_params;
        const ir_edge_t *edge;
        const ir_edge_t *next;
        (void) high_mode;

        /* if type link is NULL then the type was not lowered, hence no changes
         * at Start necessary */
        if (orig_mtp == NULL)
                return;

        n_params = get_method_n_params(orig_mtp);

        NEW_ARR_A(long, new_projs, n_params);

        /* Calculate mapping of proj numbers in new_projs */
        for (i = j = 0; i < n_params; ++i, ++j) {
                ir_type *ptp = get_method_param_type(orig_mtp, i);

                new_projs[i] = j;
                if (is_Primitive_type(ptp)) {
                        ir_mode *amode = get_type_mode(ptp);
                        if (amode == env->high_signed || amode == env->high_unsigned)
                                ++j;
                }
        }

        /* lower method type */
        args = NULL;
        foreach_out_edge(node, edge) {
                ir_node *proj = get_edge_src_irn(edge);
                if (!is_Proj(proj))
                        continue;
                if (get_Proj_proj(proj) == pn_Start_T_args) {
                        args = proj;
                        break;
                }
        }
        if (args == NULL)
                return;

        /* fix all Proj's and create new ones */
        foreach_out_edge_safe(args, edge, next) {
                ir_node *proj   = get_edge_src_irn(edge);
                ir_mode *mode   = get_irn_mode(proj);
                ir_mode *mode_l = env->low_unsigned;
                ir_node *pred;
                long     proj_nr;
                ir_mode *mode_h;
                ir_node *res_low;
                ir_node *res_high;
                dbg_info *dbg;

                if (!is_Proj(proj))
                        continue;
                pred    = get_Proj_pred(proj);
                proj_nr = get_Proj_proj(proj);

                if (mode == env->high_signed) {
                        mode_h = env->low_signed;
                } else if (mode == env->high_unsigned) {
                        mode_h = env->low_unsigned;
                } else {
                        long new_pn = new_projs[proj_nr];
                        set_Proj_proj(proj, new_pn);
                        continue;
                }

                dbg = get_irn_dbg_info(proj);
                if (env->params->little_endian) {
                        res_low  = new_rd_Proj(dbg, pred, mode_l, new_projs[proj_nr]);
                        res_high = new_rd_Proj(dbg, pred, mode_h, new_projs[proj_nr] + 1);
                } else {
                        res_high = new_rd_Proj(dbg, pred, mode_h, new_projs[proj_nr]);
                        res_low  = new_rd_Proj(dbg, pred, mode_l, new_projs[proj_nr] + 1);
                }
                ir_set_dw_lowered(proj, res_low, res_high);
        }
}

/**
 * Translate a Call.
 */
static void lower_Call(ir_node *node, ir_mode *mode)
{
        ir_type  *tp = get_Call_type(node);
        ir_node  **in;
        size_t   n_params, n_res;
        bool     need_lower = false;
        size_t   i, j;
        size_t   p;
        long     *res_numbers = NULL;
        ir_node  *resproj;
        const ir_edge_t *edge;
        const ir_edge_t *next;
        (void) mode;

        n_params = get_method_n_params(tp);
        for (p = 0; p < n_params; ++p) {
                ir_type *ptp = get_method_param_type(tp, p);

                if (is_Primitive_type(ptp)) {
                        ir_mode *pmode = get_type_mode(ptp);
                        if (pmode == env->high_signed || pmode == env->high_unsigned) {
                                need_lower = true;
                                break;
                        }
                }
        }
        n_res = get_method_n_ress(tp);
        if (n_res > 0) {
                NEW_ARR_A(long, res_numbers, n_res);

                for (i = j = 0; i < n_res; ++i, ++j) {
                        ir_type *ptp = get_method_res_type(tp, i);

                        res_numbers[i] = j;
                        if (is_Primitive_type(ptp)) {
                                ir_mode *rmode = get_type_mode(ptp);
                                if (rmode == env->high_signed || rmode == env->high_unsigned) {
                                        need_lower = true;
                                        ++j;
                                }
                        }
                }
        }

        if (! need_lower)
                return;

        /* let's lower it */
        tp = lower_mtp(tp);
        set_Call_type(node, tp);

        NEW_ARR_A(ir_node *, in, get_method_n_params(tp) + 2);

        in[0] = get_Call_mem(node);
        in[1] = get_Call_ptr(node);

        for (j = 2, i = 0; i < n_params; ++i) {
                ir_node *pred      = get_Call_param(node, i);
                ir_mode *pred_mode = get_irn_mode(pred);

                if (pred_mode == env->high_signed || pred_mode == env->high_unsigned) {
                        const lower64_entry_t *pred_entry = get_node_entry(pred);
                        if (env->params->little_endian) {
                                in[j++] = pred_entry->low_word;
                                in[j++] = pred_entry->high_word;
                        } else {
                                in[j++] = pred_entry->high_word;
                                in[j++] = pred_entry->low_word;
                        }
                } else {
                        in[j++] = pred;
                }
        }

        set_irn_in(node, j, in);

        /* find results T */
        resproj = NULL;
        foreach_out_edge(node, edge) {
                ir_node *proj = get_edge_src_irn(edge);
                if (!is_Proj(proj))
                        continue;
                if (get_Proj_proj(proj) == pn_Call_T_result) {
                        resproj = proj;
                        break;
                }
        }
        if (resproj == NULL)
                return;

        /* fix the results */
        foreach_out_edge_safe(resproj, edge, next) {
                ir_node  *proj      = get_edge_src_irn(edge);
                ir_mode  *proj_mode = get_irn_mode(proj);
                ir_mode  *mode_l    = env->low_unsigned;
                ir_node  *pred;
                long      proj_nr;
                ir_mode  *mode_h;
                ir_node  *res_low;
                ir_node  *res_high;
                dbg_info *dbg;

                if (!is_Proj(proj))
                        continue;
                pred    = get_Proj_pred(proj);
                proj_nr = get_Proj_proj(proj);

                if (proj_mode == env->high_signed) {
                        mode_h = env->low_signed;
                } else if (proj_mode == env->high_unsigned) {
                        mode_h = env->low_unsigned;
                } else {
                        long new_nr = res_numbers[proj_nr];
                        set_Proj_proj(proj, new_nr);
                        continue;
                }

                dbg = get_irn_dbg_info(proj);
                if (env->params->little_endian) {
                        res_low  = new_rd_Proj(dbg, pred, mode_l, res_numbers[proj_nr]);
                        res_high = new_rd_Proj(dbg, pred, mode_h, res_numbers[proj_nr] + 1);
                } else {
                        res_high = new_rd_Proj(dbg, pred, mode_h, res_numbers[proj_nr]);
                        res_low  = new_rd_Proj(dbg, pred, mode_l, res_numbers[proj_nr] + 1);
                }
                ir_set_dw_lowered(proj, res_low, res_high);
        }
}

/**
 * Translate an Unknown into two.
 */
static void lower_Unknown(ir_node *node, ir_mode *mode)
{
        ir_mode  *low_mode = env->low_unsigned;
        ir_graph *irg      = get_irn_irg(node);
        ir_node  *res_low  = new_r_Unknown(irg, low_mode);
        ir_node  *res_high = new_r_Unknown(irg, mode);
        ir_set_dw_lowered(node, res_low, res_high);
}

/**
 * Translate a Bad into two.
 */
static void lower_Bad(ir_node *node, ir_mode *mode)
{
        ir_mode  *low_mode = env->low_unsigned;
        ir_graph *irg      = get_irn_irg(node);
        ir_node  *res_low  = new_r_Bad(irg, low_mode);
        ir_node  *res_high = new_r_Bad(irg, mode);
        ir_set_dw_lowered(node, res_low, res_high);
}

/**
 * Translate a Phi.
 *
 * First step: just create two templates
 */
static void lower_Phi(ir_node *phi)
{
        ir_mode  *mode = get_irn_mode(phi);
        int       i;
        int       arity;
        ir_node **in_l;
        ir_node **in_h;
        ir_node  *unk_l;
        ir_node  *unk_h;
        ir_node  *phi_l;
        ir_node  *phi_h;
        dbg_info *dbg;
        ir_node  *block;
        ir_graph *irg;
        ir_mode  *mode_l;
        ir_mode  *mode_h;

        /* enqueue predecessors */
        arity = get_Phi_n_preds(phi);
        for (i = 0; i < arity; ++i) {
                ir_node *pred = get_Phi_pred(phi, i);
                pdeq_putr(env->waitq, pred);
        }

        if (mode != env->high_signed && mode != env->high_unsigned)
                return;

        /* first create a new in array */
        NEW_ARR_A(ir_node *, in_l, arity);
        NEW_ARR_A(ir_node *, in_h, arity);
        irg    = get_irn_irg(phi);
        mode_l = env->low_unsigned;
        mode_h = mode == env->high_signed ? env->low_signed : env->low_unsigned;
        unk_l  = new_r_Dummy(irg, mode_l);
        unk_h  = new_r_Dummy(irg, mode_h);
        for (i = 0; i < arity; ++i) {
                in_l[i] = unk_l;
                in_h[i] = unk_h;
        }

        dbg   = get_irn_dbg_info(phi);
        block = get_nodes_block(phi);
        phi_l = new_rd_Phi(dbg, block, arity, in_l, mode_l);
        phi_h = new_rd_Phi(dbg, block, arity, in_h, mode_h);

        ir_set_dw_lowered(phi, phi_l, phi_h);

        /* remember that we need to fixup the predecessors later */
        ARR_APP1(ir_node*, env->lowered_phis, phi);
}

static void fixup_phi(ir_node *phi)
{
        const lower64_entry_t *entry = get_node_entry(phi);
        ir_node               *phi_l = entry->low_word;
        ir_node               *phi_h = entry->high_word;
        int                    arity = get_Phi_n_preds(phi);
        int                    i;

        /* exchange phi predecessors which are lowered by now */
        for (i = 0; i < arity; ++i) {
                ir_node               *pred       = get_Phi_pred(phi, i);
                const lower64_entry_t *pred_entry = get_node_entry(pred);

                set_Phi_pred(phi_l, i, pred_entry->low_word);
                set_Phi_pred(phi_h, i, pred_entry->high_word);
        }
}

/**
 * Translate a Mux.
 */
static void lower_Mux(ir_node *mux, ir_mode *mode)
{
        ir_node               *truen       = get_Mux_true(mux);
        ir_node               *falsen      = get_Mux_false(mux);
        ir_node               *sel         = get_Mux_sel(mux);
        const lower64_entry_t *true_entry  = get_node_entry(truen);
        const lower64_entry_t *false_entry = get_node_entry(falsen);
        ir_node               *true_l      = true_entry->low_word;
        ir_node               *true_h      = true_entry->high_word;
        ir_node               *false_l     = false_entry->low_word;
        ir_node               *false_h     = false_entry->high_word;
        dbg_info              *dbgi        = get_irn_dbg_info(mux);
        ir_node               *block       = get_nodes_block(mux);
        ir_node               *res_low
                = new_rd_Mux(dbgi, block, sel, false_l, true_l, env->low_unsigned);
        ir_node               *res_high
                = new_rd_Mux(dbgi, block, sel, false_h, true_h, mode);
        ir_set_dw_lowered(mux, res_low, res_high);
}

/**
 * Translate an ASM node.
 */
static void lower_ASM(ir_node *asmn, ir_mode *mode)
{
        ir_mode           *high_signed        = env->high_signed;
        ir_mode           *high_unsigned      = env->high_unsigned;
        int                n_outs             = get_ASM_n_output_constraints(asmn);
        ir_asm_constraint *output_constraints = get_ASM_output_constraints(asmn);
        ir_asm_constraint *input_constraints  = get_ASM_input_constraints(asmn);
        unsigned           n_64bit_outs       = 0;
        int      i;

        (void)mode;

        for (i = get_irn_arity(asmn) - 1; i >= 0; --i) {
                ir_node *op      = get_irn_n(asmn, i);
                ir_mode *op_mode = get_irn_mode(op);
                if (op_mode == high_signed || op_mode == high_unsigned) {
                        panic("lowering ASM 64bit input unimplemented");
                }
        }

        for (i = 0; i < n_outs; ++i) {
                const ir_asm_constraint *constraint = &output_constraints[i];
                if (constraint->mode == high_signed || constraint->mode == high_unsigned) {
                        const char *constr = get_id_str(constraint->constraint);
                        ++n_64bit_outs;
                        /* TODO: How to do this architecture neutral? This is very
                         * i386 specific... */
                        if (constr[0] != '=' || constr[1] != 'A') {
                                panic("lowering ASM 64bit output only supports '=A' currently");
                        }
                }
        }

        if (n_64bit_outs == 0)
                return;

        {
                dbg_info          *dbgi       = get_irn_dbg_info(asmn);
                ir_node           *block      = get_nodes_block(asmn);
                int                arity      = get_irn_arity(asmn);
                ir_node          **in         = get_irn_in(asmn) + 1;
                int                new_n_outs = 0;
                int                n_clobber  = get_ASM_n_clobbers(asmn);
                long              *proj_map   = ALLOCAN(long, n_outs);
                ident            **clobbers   = get_ASM_clobbers(asmn);
                ident             *asm_text   = get_ASM_text(asmn);
                ir_asm_constraint *new_outputs
                        = ALLOCAN(ir_asm_constraint, n_outs+n_64bit_outs);
                ir_node           *new_asm;
                const ir_edge_t   *edge;
                const ir_edge_t   *next;

                for (i = 0; i < n_outs; ++i) {
                        const ir_asm_constraint *constraint = &output_constraints[i];
                        if (constraint->mode == high_signed || constraint->mode == high_unsigned) {
                                new_outputs[new_n_outs].pos        = constraint->pos;
                                new_outputs[new_n_outs].constraint = new_id_from_str("=a");
                                new_outputs[new_n_outs].mode       = env->low_unsigned;
                                proj_map[i] = new_n_outs;
                                ++new_n_outs;
                                new_outputs[new_n_outs].pos        = constraint->pos;
                                new_outputs[new_n_outs].constraint = new_id_from_str("=d");
                                if (constraint->mode == high_signed)
                                        new_outputs[new_n_outs].mode = env->low_signed;
                                else
                                        new_outputs[new_n_outs].mode = env->low_unsigned;
                                ++new_n_outs;
                        } else {
                                new_outputs[new_n_outs] = *constraint;
                                proj_map[i] = new_n_outs;
                                ++new_n_outs;
                        }
                }
                assert(new_n_outs == n_outs+(int)n_64bit_outs);

                new_asm = new_rd_ASM(dbgi, block, arity, in, input_constraints,
                                     new_n_outs, new_outputs, n_clobber, clobbers,
                                     asm_text);

                foreach_out_edge_safe(asmn, edge, next) {
                        ir_node *proj      = get_edge_src_irn(edge);
                        ir_mode *proj_mode = get_irn_mode(proj);
                        long     pn;

                        if (!is_Proj(proj))
                                continue;
                        pn = get_Proj_proj(proj);

                        if (pn < n_outs)
                                pn = proj_map[pn];
                        else
                                pn = new_n_outs + pn - n_outs;

                        if (proj_mode == high_signed || proj_mode == high_unsigned) {
                                ir_mode *high_mode
                                        = proj_mode == high_signed ? env->low_signed : env->low_unsigned;
                                ir_node *np_low  = new_r_Proj(new_asm, env->low_unsigned, pn);
                                ir_node *np_high = new_r_Proj(new_asm, high_mode, pn+1);
                                ir_set_dw_lowered(proj, np_low, np_high);
                        } else {
                                ir_node *np = new_r_Proj(new_asm, proj_mode, pn);
                                exchange(proj, np);
                        }
                }
        }
}

/**
 * check for opcodes that must always be lowered.
 */
static bool always_lower(unsigned code)
{
        switch (code) {
        case iro_ASM:
        case iro_Proj:
        case iro_Start:
        case iro_Call:
        case iro_Return:
        case iro_Cond:
        case iro_Conv:
        case iro_Sel:
                return true;
        default:
                return false;
        }
}

/**
 * Compare two op_mode_entry_t's.
 */
static int cmp_op_mode(const void *elt, const void *key, size_t size)
{
        const op_mode_entry_t *e1 = (const op_mode_entry_t*)elt;
        const op_mode_entry_t *e2 = (const op_mode_entry_t*)key;
        (void) size;

        return (e1->op != e2->op) | (e1->imode != e2->imode) | (e1->omode != e2->omode);
}

/**
 * Compare two conv_tp_entry_t's.
 */
static int cmp_conv_tp(const void *elt, const void *key, size_t size)
{
        const conv_tp_entry_t *e1 = (const conv_tp_entry_t*)elt;
        const conv_tp_entry_t *e2 = (const conv_tp_entry_t*)key;
        (void) size;

        return (e1->imode != e2->imode) | (e1->omode != e2->omode);
}

/**
 * Enter a lowering function into an ir_op.
 */
void ir_register_dw_lower_function(ir_op *op, lower_dw_func func)
{
        op->ops.generic = (op_func)func;
}

/* Determine which modes need to be lowered */
static void setup_modes(void)
{
        unsigned           size_bits           = env->params->doubleword_size;
        ir_mode           *doubleword_signed   = NULL;
        ir_mode           *doubleword_unsigned = NULL;
        size_t             n_modes             = get_irp_n_modes();
        ir_mode_arithmetic arithmetic;
        unsigned           modulo_shift;
        size_t             i;

        /* search for doubleword modes... */
        for (i = 0; i < n_modes; ++i) {
                ir_mode *mode = get_irp_mode(i);
                if (!mode_is_int(mode))
                        continue;
                if (get_mode_size_bits(mode) != size_bits)
                        continue;
                if (mode_is_signed(mode)) {
                        if (doubleword_signed != NULL) {
                                /* sigh - the lowerer should really just lower all mode with
                                 * size_bits it finds. Unfortunately this required a bigger
                                 * rewrite. */
                                panic("multiple double word signed modes found");
                        }
                        doubleword_signed = mode;
                } else {
                        if (doubleword_unsigned != NULL) {
                                /* sigh - the lowerer should really just lower all mode with
                                 * size_bits it finds. Unfortunately this required a bigger
                                 * rewrite. */
                                panic("multiple double word unsigned modes found");
                        }
                        doubleword_unsigned = mode;
                }
        }
        if (doubleword_signed == NULL || doubleword_unsigned == NULL) {
                panic("Couldn't find doubleword modes");
        }

        arithmetic   = get_mode_arithmetic(doubleword_signed);
        modulo_shift = get_mode_modulo_shift(doubleword_signed);

        assert(get_mode_size_bits(doubleword_unsigned) == size_bits);
        assert(size_bits % 2 == 0);
        assert(get_mode_sign(doubleword_signed) == 1);
        assert(get_mode_sign(doubleword_unsigned) == 0);
        assert(get_mode_sort(doubleword_signed) == irms_int_number);
        assert(get_mode_sort(doubleword_unsigned) == irms_int_number);
        assert(get_mode_arithmetic(doubleword_unsigned) == arithmetic);
        assert(get_mode_modulo_shift(doubleword_unsigned) == modulo_shift);

        /* try to guess a sensible modulo shift for the new mode.
         * (This is IMO another indication that this should really be a node
         *  attribute instead of a mode thing) */
        if (modulo_shift == size_bits) {
                modulo_shift = modulo_shift / 2;
        } else if (modulo_shift == 0) {
                /* fine */
        } else {
                panic("Don't know what new modulo shift to use for lowered doubleword mode");
        }
        size_bits /= 2;

        /* produce lowered modes */
        env->high_signed   = doubleword_signed;
        env->high_unsigned = doubleword_unsigned;
        env->low_signed    = new_ir_mode("WS", irms_int_number, size_bits, 1,
                                         arithmetic, modulo_shift);
        env->low_unsigned  = new_ir_mode("WU", irms_int_number, size_bits, 0,
                                         arithmetic, modulo_shift);
}

static void enqueue_preds(ir_node *node)
{
        int arity = get_irn_arity(node);
        int i;

        for (i = 0; i < arity; ++i) {
                ir_node *pred = get_irn_n(node, i);
                pdeq_putr(env->waitq, pred);
        }
}

static void lower_node(ir_node *node)
{
        int              arity;
        int              i;
        lower_dw_func    func;
        ir_op           *op;
        ir_mode         *mode;
        unsigned         idx;
        lower64_entry_t *entry;

        if (irn_visited_else_mark(node))
                return;

        /* cycles are always broken at Phi and Block nodes. So we don't need special
         * magic in all the other lower functions */
        if (is_Block(node)) {
                enqueue_preds(node);
                return;
        } else if (is_Phi(node)) {
                lower_Phi(node);
                return;
        }

        /* depth-first: descend into operands */
        if (!is_Block(node)) {
                ir_node *block = get_nodes_block(node);
                lower_node(block);
        }

        if (!is_Cond(node)) {
                arity = get_irn_arity(node);
                for (i = 0; i < arity; ++i) {
                        ir_node *pred = get_irn_n(node, i);
                        lower_node(pred);
                }
        }

        op   = get_irn_op(node);
        func = (lower_dw_func) op->ops.generic;
        if (func == NULL)
                return;

        idx   = get_irn_idx(node);
        entry = idx < env->n_entries ? env->entries[idx] : NULL;
        if (entry != NULL || always_lower(get_irn_opcode(node))) {
                mode = get_irn_op_mode(node);
                if (mode == env->high_signed) {
                        mode = env->low_signed;
                } else {
                        mode = env->low_unsigned;
                }
                DB((dbg, LEVEL_1, "  %+F\n", node));
                func(node, mode);
        }
}

static void clear_node_and_phi_links(ir_node *node, void *data)
{
        (void) data;
        if (get_irn_mode(node) == mode_T) {
                set_irn_link(node, node);
        } else {
                set_irn_link(node, NULL);
        }
        if (is_Block(node))
                set_Block_phis(node, NULL);
        else if (is_Phi(node))
                set_Phi_next(node, NULL);
}

static void lower_irg(ir_graph *irg)
{
        ir_entity *ent;
        ir_type   *mtp;
        ir_type   *lowered_mtp;
        unsigned   n_idx;

        obstack_init(&env->obst);

        /* just here for debugging */
        current_ir_graph = irg;
        edges_assure(irg);

        n_idx = get_irg_last_idx(irg);
        n_idx = n_idx + (n_idx >> 2);  /* add 25% */
        env->n_entries = n_idx;
        env->entries   = NEW_ARR_F(lower64_entry_t*, n_idx);
        memset(env->entries, 0, sizeof(env->entries[0]) * n_idx);

        env->irg            = irg;
        env->flags          = 0;

        ent = get_irg_entity(irg);
        mtp = get_entity_type(ent);
        lowered_mtp = lower_mtp(mtp);

        if (lowered_mtp != mtp) {
                set_entity_type(ent, lowered_mtp);
                env->flags |= MUST_BE_LOWERED;

                fix_parameter_entities(irg);
        }

        /* first step: link all nodes and allocate data */
        ir_reserve_resources(irg, IR_RESOURCE_PHI_LIST | IR_RESOURCE_IRN_LINK);
        visit_all_identities(irg, clear_node_and_phi_links, NULL);
        irg_walk_graph(irg, NULL, prepare_links_and_handle_rotl, env);

        if (env->flags & MUST_BE_LOWERED) {
                size_t i;
                ir_reserve_resources(irg, IR_RESOURCE_IRN_VISITED);
                inc_irg_visited(irg);

                assert(pdeq_empty(env->waitq));
                pdeq_putr(env->waitq, get_irg_end(irg));

                env->lowered_phis = NEW_ARR_F(ir_node*, 0);
                while (!pdeq_empty(env->waitq)) {
                        ir_node *node = (ir_node*)pdeq_getl(env->waitq);
                        lower_node(node);
                }

                /* we need to fixup phis */
                for (i = 0; i < ARR_LEN(env->lowered_phis); ++i) {
                        ir_node *phi = env->lowered_phis[i];
                        fixup_phi(phi);
                }
                DEL_ARR_F(env->lowered_phis);


                ir_free_resources(irg, IR_RESOURCE_IRN_VISITED);

                if (env->flags & CF_CHANGED) {
                        /* control flow changed, dominance info is invalid */
                        set_irg_doms_inconsistent(irg);
                        set_irg_extblk_inconsistent(irg);
                }
                edges_deactivate(irg);
        }

        ir_free_resources(irg, IR_RESOURCE_PHI_LIST | IR_RESOURCE_IRN_LINK);

        DEL_ARR_F(env->entries);
        obstack_free(&env->obst, NULL);
}

static const lwrdw_param_t *param;

void ir_prepare_dw_lowering(const lwrdw_param_t *new_param)
{
        assert(new_param != NULL);
        FIRM_DBG_REGISTER(dbg, "firm.lower.dw");

        param = new_param;

        clear_irp_opcodes_generic_func();
        ir_register_dw_lower_function(op_ASM,     lower_ASM);
        ir_register_dw_lower_function(op_Add,     lower_binop);
        ir_register_dw_lower_function(op_And,     lower_And);
        ir_register_dw_lower_function(op_Bad,     lower_Bad);
        ir_register_dw_lower_function(op_Call,    lower_Call);
        ir_register_dw_lower_function(op_Cmp,     lower_Cmp);
        ir_register_dw_lower_function(op_Cond,    lower_Cond);
        ir_register_dw_lower_function(op_Const,   lower_Const);
        ir_register_dw_lower_function(op_Conv,    lower_Conv);
        ir_register_dw_lower_function(op_Div,     lower_Div);
        ir_register_dw_lower_function(op_Eor,     lower_Eor);
        ir_register_dw_lower_function(op_Load,    lower_Load);
        ir_register_dw_lower_function(op_Minus,   lower_unop);
        ir_register_dw_lower_function(op_Mod,     lower_Mod);
        ir_register_dw_lower_function(op_Mul,     lower_binop);
        ir_register_dw_lower_function(op_Mux,     lower_Mux);
        ir_register_dw_lower_function(op_Not,     lower_Not);
        ir_register_dw_lower_function(op_Or,      lower_Or);
        ir_register_dw_lower_function(op_Return,  lower_Return);
        ir_register_dw_lower_function(op_Shl,     lower_Shl);
        ir_register_dw_lower_function(op_Shr,     lower_Shr);
        ir_register_dw_lower_function(op_Shrs,    lower_Shrs);
        ir_register_dw_lower_function(op_Start,   lower_Start);
        ir_register_dw_lower_function(op_Store,   lower_Store);
        ir_register_dw_lower_function(op_Sub,     lower_binop);
        ir_register_dw_lower_function(op_Unknown, lower_Unknown);
}

/*
 * Do the lowering.
 */
void ir_lower_dw_ops(void)
{
        lower_dw_env_t lenv;
        size_t      i, n;

        memset(&lenv, 0, sizeof(lenv));
        lenv.params = param;
        env = &lenv;

        setup_modes();

        /* create the necessary maps */
        if (! intrinsic_fkt)
                intrinsic_fkt = new_set(cmp_op_mode, iro_Last + 1);
        if (! conv_types)
                conv_types = new_set(cmp_conv_tp, 16);
        if (! lowered_type)
                lowered_type = pmap_create();

        /* create a primitive unsigned and signed type */
        if (! tp_u)
                tp_u = get_type_for_mode(lenv.low_unsigned);
        if (! tp_s)
                tp_s = get_type_for_mode(lenv.low_signed);

        /* create method types for the created binop calls */
        if (! binop_tp_u) {
                binop_tp_u = new_type_method(4, 2);
                set_method_param_type(binop_tp_u, 0, tp_u);
                set_method_param_type(binop_tp_u, 1, tp_u);
                set_method_param_type(binop_tp_u, 2, tp_u);
                set_method_param_type(binop_tp_u, 3, tp_u);
                set_method_res_type(binop_tp_u, 0, tp_u);
                set_method_res_type(binop_tp_u, 1, tp_u);
        }
        if (! binop_tp_s) {
                binop_tp_s = new_type_method(4, 2);
                if (env->params->little_endian) {
                        set_method_param_type(binop_tp_s, 0, tp_u);
                        set_method_param_type(binop_tp_s, 1, tp_s);
                        set_method_param_type(binop_tp_s, 2, tp_u);
                        set_method_param_type(binop_tp_s, 3, tp_s);
                        set_method_res_type(binop_tp_s, 0, tp_u);
                        set_method_res_type(binop_tp_s, 1, tp_s);
                } else {
                        set_method_param_type(binop_tp_s, 0, tp_s);
                        set_method_param_type(binop_tp_s, 1, tp_u);
                        set_method_param_type(binop_tp_s, 2, tp_s);
                        set_method_param_type(binop_tp_s, 3, tp_u);
                        set_method_res_type(binop_tp_s, 0, tp_s);
                        set_method_res_type(binop_tp_s, 1, tp_u);
                }
        }
        if (! unop_tp_u) {
                unop_tp_u = new_type_method(2, 2);
                set_method_param_type(unop_tp_u, 0, tp_u);
                set_method_param_type(unop_tp_u, 1, tp_u);
                set_method_res_type(unop_tp_u, 0, tp_u);
                set_method_res_type(unop_tp_u, 1, tp_u);
        }
        if (! unop_tp_s) {
                unop_tp_s = new_type_method(2, 2);
                if (env->params->little_endian) {
                        set_method_param_type(unop_tp_s, 0, tp_u);
                        set_method_param_type(unop_tp_s, 1, tp_s);
                        set_method_res_type(unop_tp_s, 0, tp_u);
                        set_method_res_type(unop_tp_s, 1, tp_s);
                } else {
                        set_method_param_type(unop_tp_s, 0, tp_s);
                        set_method_param_type(unop_tp_s, 1, tp_u);
                        set_method_res_type(unop_tp_s, 0, tp_s);
                        set_method_res_type(unop_tp_s, 1, tp_u);
                }
        }

        lenv.tv_mode_bytes = new_tarval_from_long(param->doubleword_size/(2*8), lenv.low_unsigned);
        lenv.tv_mode_bits  = new_tarval_from_long(param->doubleword_size/2, lenv.low_unsigned);
        lenv.waitq         = new_pdeq();
        lenv.first_id      = new_id_from_chars(param->little_endian ? ".l" : ".h", 2);
        lenv.next_id       = new_id_from_chars(param->little_endian ? ".h" : ".l", 2);

        irp_reserve_resources(irp, IRP_RESOURCE_TYPE_LINK);
        /* transform all graphs */
        for (i = 0, n = get_irp_n_irgs(); i < n; ++i) {
                ir_graph *irg = get_irp_irg(i);
                lower_irg(irg);
        }
        irp_free_resources(irp, IRP_RESOURCE_TYPE_LINK);
        del_pdeq(lenv.waitq);

        env = NULL;
}

/* Default implementation. */
ir_entity *def_create_intrinsic_fkt(ir_type *method, const ir_op *op,
                                    const ir_mode *imode, const ir_mode *omode,
                                    void *context)
{
        char buf[64];
        ident *id;
        ir_entity *ent;
        (void) context;

        if (imode == omode) {
                snprintf(buf, sizeof(buf), "__l%s%s", get_op_name(op), get_mode_name(imode));
        } else {
                snprintf(buf, sizeof(buf), "__l%s%s%s", get_op_name(op),
                        get_mode_name(imode), get_mode_name(omode));
        }
        id = new_id_from_str(buf);

        ent = new_entity(get_glob_type(), id, method);
        set_entity_ld_ident(ent, get_entity_ident(ent));
        set_entity_visibility(ent, ir_visibility_external);
        return ent;
}