sparc: implement/fix remaining float<->int conversions

[libfirm] / ir / be / betranshlp.c

/*
 * Copyright (C) 1995-2010 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       be transform helper extracted from the ia32 backend.
 * @author      Matthias Braun, Michael Beck
 * @date        14.06.2007
 * @version     $Id$
 */
#include "config.h"

#include "pdeq.h"
#include "irop_t.h"
#include "iropt_t.h"
#include "irnode_t.h"
#include "irgraph_t.h"
#include "ircons_t.h"
#include "irhooks.h"
#include "iredges.h"
#include "irouts.h"
#include "trouts.h"
#include "cgana.h"
#include "debug.h"

#include "beirg.h"
#include "betranshlp.h"
#include "belive.h"
#include "benode.h"

typedef struct be_transform_env_t {
        ir_graph *irg;         /**< The irg, the node should be created in */
        waitq    *worklist;    /**< worklist of nodes that still need to be
                                    transformed */
        ir_node  *old_anchor;  /**< the old anchor node in the old irg */
} be_transform_env_t;


static be_transform_env_t env;

void be_set_transformed_node(ir_node *old_node, ir_node *new_node)
{
        set_irn_link(old_node, new_node);
        mark_irn_visited(old_node);
}

int be_is_transformed(const ir_node *node)
{
        return irn_visited(node);
}

static inline ir_node *be_get_transformed_node(ir_node *old_node)
{
        if (irn_visited(old_node)) {
                ir_node *new_node = get_irn_link(old_node);
                assert(new_node != NULL);
                return new_node;
        }
        return NULL;
}

void be_duplicate_deps(ir_node *old_node, ir_node *new_node)
{
        int i;
        int deps = get_irn_deps(old_node);

        for (i = 0; i < deps; ++i) {
                ir_node *dep     = get_irn_dep(old_node, i);
                ir_node *new_dep = be_transform_node(dep);

                add_irn_dep(new_node, new_dep);
        }
}

void be_dep_on_frame(ir_node* node)
{
        ir_graph *const irg = current_ir_graph;

        if (get_irg_start_block(irg) == get_nodes_block(node))
                add_irn_dep(node, get_irg_frame(irg));
}

void be_set_transform_function(ir_op *op, be_transform_func func)
{
        /* shouldn't be assigned twice (except for exchanging the default
         * be_duplicate_node entries) */
        assert(op->ops.generic == NULL
                        || op->ops.generic == (op_func) be_duplicate_node);
        op->ops.generic = (op_func) func;
}

void be_start_transform_setup(void)
{
        clear_irp_opcodes_generic_func();

        be_set_transform_function(op_Bad,         be_duplicate_node);
        be_set_transform_function(op_be_Barrier,  be_duplicate_node);
        be_set_transform_function(op_be_Copy,     be_duplicate_node);
        be_set_transform_function(op_be_CopyKeep, be_duplicate_node);
        be_set_transform_function(op_be_IncSP,    be_duplicate_node);
        be_set_transform_function(op_be_Keep,     be_duplicate_node);
        be_set_transform_function(op_be_Return,   be_duplicate_node);
        be_set_transform_function(op_be_Start,    be_duplicate_node);
        be_set_transform_function(op_NoMem,       be_duplicate_node);
        be_set_transform_function(op_Pin,         be_duplicate_node);
        be_set_transform_function(op_Start,       be_duplicate_node);
        be_set_transform_function(op_Sync,        be_duplicate_node);
}

ir_node *be_duplicate_node(ir_node *node)
{
        ir_node  *block = be_transform_node(get_nodes_block(node));
        ir_graph *irg   = env.irg;
        dbg_info *dbgi  = get_irn_dbg_info(node);
        ir_mode  *mode  = get_irn_mode(node);
        ir_op    *op    = get_irn_op(node);
        ir_node  *new_node;
        int      i, arity;

        arity = get_irn_arity(node);
        if (op->opar == oparity_dynamic) {
                new_node = new_ir_node(dbgi, irg, block, op, mode, -1, NULL);
                for (i = 0; i < arity; ++i) {
                        ir_node *in = get_irn_n(node, i);
                        in = be_transform_node(in);
                        add_irn_n(new_node, in);
                }
        } else {
                ir_node **ins = ALLOCAN(ir_node*, arity);
                for (i = 0; i < arity; ++i) {
                        ir_node *in = get_irn_n(node, i);
                        ins[i] = be_transform_node(in);
                }

                new_node = new_ir_node(dbgi, irg, block, op, mode, arity, ins);
        }

        copy_node_attr(irg, node, new_node);
        be_duplicate_deps(node, new_node);

        new_node->node_nr = node->node_nr;
        return new_node;
}

ir_node *be_transform_node(ir_node *node)
{
        ir_op             *op;
        ir_node           *new_node = be_get_transformed_node(node);
        be_transform_func *transform;

        if (new_node != NULL)
                return new_node;

        DEBUG_ONLY(be_set_transformed_node(node, NULL));

        op = get_irn_op(node);
        if (op->ops.generic == NULL) {
                panic("No transform function registered for node %+F.", node);
        }
        transform = (be_transform_func *)op->ops.generic;

        new_node = transform(node);
        assert(new_node != NULL);

        be_set_transformed_node(node, new_node);
        hook_dead_node_elim_subst(current_ir_graph, node, new_node);
        return new_node;
}

void be_enqueue_preds(ir_node *node)
{
        int i, arity;

        /* put the preds in the worklist */
        arity = get_irn_arity(node);
        for (i = 0; i < arity; ++i) {
                ir_node *pred = get_irn_n(node, i);
                pdeq_putr(env.worklist, pred);
        }
}

/**
 * Rewire nodes which are potential loops (like Phis) to avoid endless loops.
 */
static void fix_loops(ir_node *node)
{
        int i, arity;
        int changed;

        assert(node_is_in_irgs_storage(env.irg, node));

        if (irn_visited_else_mark(node))
                return;

        changed = 0;
        if (! is_Block(node)) {
                ir_node *block     = get_nodes_block(node);
                ir_node *new_block = get_irn_link(block);

                if (new_block != NULL) {
                        set_nodes_block(node, new_block);
                        block = new_block;
                        changed = 1;
                }

                fix_loops(block);
        }

        arity = get_irn_arity(node);
        for (i = 0; i < arity; ++i) {
                ir_node *in = get_irn_n(node, i);
                ir_node *nw = get_irn_link(in);

                if (nw != NULL && nw != in) {
                        set_irn_n(node, i, nw);
                        in = nw;
                        changed = 1;
                }

                fix_loops(in);
        }
        /* fix proj block */
        if (is_Proj(node)) {
                set_nodes_block(node, get_nodes_block(get_Proj_pred(node)));
                changed = 1;
        }

        arity = get_irn_deps(node);
        for (i = 0; i < arity; ++i) {
                ir_node *in = get_irn_dep(node, i);
                ir_node *nw = get_irn_link(in);

                if (nw != NULL && nw != in) {
                        set_irn_dep(node, i, nw);
                        in = nw;
                        changed = 1;
                }

                fix_loops(in);
        }

        if (changed) {
                identify_remember(node);
        }
}

ir_node *be_pre_transform_node(ir_node *place)
{
        if (place == NULL)
                return NULL;

        return be_transform_node(place);
}

static void pre_transform_anchor(int anchor)
{
        ir_node *old_anchor_node = get_irn_n(env.old_anchor, anchor);
        ir_node *transformed     = be_transform_node(old_anchor_node);
        set_irg_anchor(current_ir_graph, anchor, transformed);
}

static void kill_unused_anchor(int anchor)
{
        ir_node *old_anchor_node = get_irn_n(env.old_anchor, anchor);
        ir_node *old_bad         = get_irn_n(env.old_anchor, anchor_bad);
        if (old_anchor_node != NULL && get_irn_n_edges(old_anchor_node) <= 1) {
                set_irn_n(env.old_anchor, anchor, old_bad);
        }
}

static ir_node *new_be_Anchor(ir_graph *irg)
{
        struct obstack *obst = be_get_be_obst(irg);
        backend_info_t *info;
        ir_node        *new_anchor;

        /* Hack: some places in the code ask the Anchor for its register
           requirements */
        new_anchor = new_Anchor(irg);
        info = be_get_info(new_anchor);
        info->out_infos = NEW_ARR_D(reg_out_info_t, obst, 1);
        memset(info->out_infos, 0, 1 * sizeof(info->out_infos[0]));
        info->out_infos[0].req = arch_no_register_req;

        return new_anchor;
}

/**
 * Transforms all nodes. Deletes the old obstack and creates a new one.
 */
static void transform_nodes(ir_graph *irg, arch_pretrans_nodes *pre_transform)
{
        int       i;
        ir_node  *old_end, *new_anchor;

        hook_dead_node_elim(irg, 1);

        inc_irg_visited(irg);

        env.irg         = irg;
        env.worklist    = new_waitq();
        env.old_anchor  = irg->anchor;

        old_end = get_irg_end(irg);

        /* put all anchor nodes in the worklist */
        for (i = get_irg_n_anchors(irg) - 1; i >= 0; --i) {
                ir_node *anchor = get_irg_anchor(irg, i);

                if (anchor == NULL)
                        continue;
                waitq_put(env.worklist, anchor);
        }

        new_anchor  = new_be_Anchor(irg);
        irg->anchor = new_anchor;

        /* pre transform some anchors (so they are available in the other transform
         * functions) */
        pre_transform_anchor(anchor_bad);
        pre_transform_anchor(anchor_no_mem);
        pre_transform_anchor(anchor_start_block);
        pre_transform_anchor(anchor_start);
        pre_transform_anchor(anchor_frame);
        kill_unused_anchor(anchor_tls);

        if (pre_transform)
                pre_transform();

        /* process worklist (this should transform all nodes in the graph) */
        while (! waitq_empty(env.worklist)) {
                ir_node *node = waitq_get(env.worklist);
                be_transform_node(node);
        }

        /* fix loops and set new anchors*/
        inc_irg_visited(irg);
        for (i = get_irg_n_anchors(irg) - 1; i >= 0; --i) {
                ir_node *anchor = get_irn_n(env.old_anchor, i);

                if (anchor == NULL)
                        continue;

                anchor = get_irn_link(anchor);
                fix_loops(anchor);
                set_irn_n(new_anchor, i, anchor);
        }

        del_waitq(env.worklist);
        free_End(old_end);
        hook_dead_node_elim(irg, 0);
}

/**
 * Transform helper for blocks.
 */
static ir_node *gen_Block(ir_node *node)
{
        ir_graph *irg             = current_ir_graph;
        dbg_info *dbgi            = get_irn_dbg_info(node);
        ir_node  *macroblock      = get_Block_MacroBlock(node);
        ir_node  *block;

        block = new_ir_node(dbgi, irg, NULL, get_irn_op(node), get_irn_mode(node),
                            get_irn_arity(node), get_irn_in(node) + 1);
        copy_node_attr(irg, node, block);
        block->node_nr = node->node_nr;

        if (node == macroblock) {
                /* this node is a macroblock header */
                set_Block_MacroBlock(block, block);
        } else {
                macroblock = be_transform_node(macroblock);
                set_Block_MacroBlock(block, macroblock);
        }

        /* put the preds in the worklist */
        be_enqueue_preds(node);

        return block;
}

static ir_node *gen_End(ir_node *node)
{
        /* end has to be duplicated manually because we need a dynamic in array */
        ir_graph *irg   = current_ir_graph;
        dbg_info *dbgi  = get_irn_dbg_info(node);
        ir_node  *block = be_transform_node(get_nodes_block(node));
        int      i, arity;
        ir_node  *new_end;

        new_end = new_ir_node(dbgi, irg, block, op_End, mode_X, -1, NULL);
        copy_node_attr(irg, node, new_end);
        be_duplicate_deps(node, new_end);

        set_irg_end(irg, new_end);

        /* transform preds */
        arity = get_irn_arity(node);
        for (i = 0; i < arity; ++i) {
                ir_node *in     = get_irn_n(node, i);
                ir_node *new_in = be_transform_node(in);

                add_End_keepalive(new_end, new_in);
        }

        return new_end;
}

void be_transform_graph(ir_graph *irg, arch_pretrans_nodes *func)
{
        ir_graph *old_current_ir_graph = current_ir_graph;
        struct obstack *old_obst = NULL;
        struct obstack *new_obst = NULL;

        current_ir_graph = irg;

        /* create a new obstack */
        old_obst = irg->obst;
        new_obst = XMALLOC(struct obstack);
        obstack_init(new_obst);
        irg->obst = new_obst;
        irg->last_node_idx = 0;

        /* invalidate phase info as (at least vrp info) is used inside the
         * equivalent/compute_value functions and might replace our newly
         * created nodes with middleend nodes */
        irg_invalidate_phases(irg);

        /* create new value table for CSE */
        new_identities(irg);

        /* enter special helper */
        op_Block->ops.generic = (op_func)gen_Block;
        op_End->ops.generic   = (op_func)gen_End;

        /* do the main transformation */
        transform_nodes(irg, func);

        /* free the old obstack */
        obstack_free(old_obst, 0);
        xfree(old_obst);

        /* restore state */
        current_ir_graph = old_current_ir_graph;

        /* most analysis info is wrong after transformation */
        free_callee_info(irg);
        free_irg_outs(irg);
        free_trouts();
        free_loop_information(irg);
        set_irg_doms_inconsistent(irg);

        be_liveness_invalidate(be_get_irg_liveness(irg));
        /* Hack for now, something is buggy with invalidate liveness... */
        be_birg_from_irg(irg)->lv = NULL;
        be_invalidate_dom_front(irg);

        /* recalculate edges */
        edges_deactivate(irg);
        edges_activate(irg);
}

int be_mux_is_abs(ir_node *sel, ir_node *mux_true, ir_node *mux_false)
{
        ir_node *cmp_left;
        ir_node *cmp_right;
        ir_node *cmp;
        ir_mode *mode;
        pn_Cmp   pnc;

        if (!is_Proj(sel))
                return 0;
        cmp = get_Proj_pred(sel);
        if (!is_Cmp(cmp))
                return 0;

        /**
         * Note further that these optimization work even for floating point
         * with NaN's because -NaN == NaN.
         * However, if +0 and -0 is handled differently, we cannot use the Abs/-Abs
         * transformations.
         */
        mode = get_irn_mode(mux_true);
        if (mode_honor_signed_zeros(mode))
                return 0;

        /* must be <, <=, >=, > */
        pnc = get_Proj_proj(sel);
        switch (pnc) {
        case pn_Cmp_Ge:
        case pn_Cmp_Gt:
        case pn_Cmp_Le:
        case pn_Cmp_Lt:
        case pn_Cmp_Uge:
        case pn_Cmp_Ug:
        case pn_Cmp_Ul:
        case pn_Cmp_Ule:
                break;
        default:
                return 0;
        }

        if (!is_negated_value(mux_true, mux_false))
                return 0;

        /* must be x cmp 0 */
        cmp_right = get_Cmp_right(cmp);
        if (!is_Const(cmp_right) || !is_Const_null(cmp_right))
                return 0;

        cmp_left = get_Cmp_left(cmp);
        if (cmp_left == mux_false) {
                if (pnc & pn_Cmp_Lt) {
                        return 1;
                } else {
                        assert(pnc & pn_Cmp_Gt);
                        return -1;
                }
        } else if (cmp_left == mux_true) {
                if (pnc & pn_Cmp_Lt) {
                        return -1;
                } else {
                        assert(pnc & pn_Cmp_Gt);
                        return 1;
                }
        }

        return 0;
}

ir_node *be_get_abs_op(ir_node *sel)
{
        ir_node *cmp      = get_Proj_pred(sel);
        ir_node *cmp_left = get_Cmp_left(cmp);
        return cmp_left;
}