perform custom abi construction in sparc as well to handle floatingpoint

[libfirm] / ir / be / sparc / sparc_emitter.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   emit assembler for a backend graph
 * @version $Id$
 */
#include "config.h"

#include <limits.h>

#include "xmalloc.h"
#include "tv.h"
#include "iredges.h"
#include "debug.h"
#include "irgwalk.h"
#include "irprintf.h"
#include "irop_t.h"
#include "irargs_t.h"
#include "irprog.h"
#include "irargs_t.h"
#include "error.h"
#include "raw_bitset.h"
#include "dbginfo.h"

#include "../besched.h"
#include "../beblocksched.h"
#include "../beirg.h"
#include "../begnuas.h"
#include "../be_dbgout.h"
#include "../benode.h"

#include "sparc_emitter.h"
#include "gen_sparc_emitter.h"
#include "sparc_nodes_attr.h"
#include "sparc_new_nodes.h"
#include "gen_sparc_regalloc_if.h"

DEBUG_ONLY(static firm_dbg_module_t *dbg = NULL;)

/**
 * Returns the register at in position pos.
 */
static const arch_register_t *get_in_reg(const ir_node *node, int pos)
{
        ir_node                *op;
        const arch_register_t  *reg = NULL;

        assert(get_irn_arity(node) > pos && "Invalid IN position");

        /* The out register of the operator at position pos is the
           in register we need. */
        op = get_irn_n(node, pos);

        reg = arch_get_irn_register(op);

        assert(reg && "no in register found");
        return reg;
}

/**
 * Returns the register at out position pos.
 */
static const arch_register_t *get_out_reg(const ir_node *node, int pos)
{
        ir_node                *proj;
        const arch_register_t  *reg = NULL;

        /* 1st case: irn is not of mode_T, so it has only                 */
        /*           one OUT register -> good                             */
        /* 2nd case: irn is of mode_T -> collect all Projs and ask the    */
        /*           Proj with the corresponding projnum for the register */

        if (get_irn_mode(node) != mode_T) {
                reg = arch_get_irn_register(node);
        } else if (is_sparc_irn(node)) {
                reg = arch_irn_get_register(node, pos);
        } else {
                const ir_edge_t *edge;

                foreach_out_edge(node, edge) {
                        proj = get_edge_src_irn(edge);
                        assert(is_Proj(proj) && "non-Proj from mode_T node");
                        if (get_Proj_proj(proj) == pos) {
                                reg = arch_get_irn_register(proj);
                                break;
                        }
                }
        }

        assert(reg && "no out register found");
        return reg;
}

void sparc_emit_immediate(const ir_node *node)
{
        int const val = get_sparc_attr_const(node)->immediate_value;
        assert(-4096 <= val && val < 4096);
        be_emit_irprintf("%d", val);
}

void sparc_emit_source_register(const ir_node *node, int pos)
{
        const arch_register_t *reg = get_in_reg(node, pos);
        be_emit_char('%');
        be_emit_string(arch_register_get_name(reg));
}

void sparc_emit_dest_register(const ir_node *node, int pos)
{
        const arch_register_t *reg = get_out_reg(node, pos);
        be_emit_char('%');
        be_emit_string(arch_register_get_name(reg));
}

/**
 * Emits either a imm or register depending on arity of node
 * @param node
 * @param register no (-1 if no register)
 */
void sparc_emit_reg_or_imm(const ir_node *node, int pos)
{
        if (get_irn_arity(node) > pos) {
                // we have reg input
                sparc_emit_source_register(node, pos);
        } else {
                // we have a imm input
                sparc_emit_immediate(node);
        }
}

static bool is_stack_pointer_relative(const ir_node *node)
{
        const arch_register_t *sp = &sparc_gp_regs[REG_SP];
        return (is_sparc_St(node) && get_in_reg(node, n_sparc_St_ptr) == sp)
            || (is_sparc_Ld(node) && get_in_reg(node, n_sparc_Ld_ptr) == sp);
}

/**
 * emit SP offset
 */
void sparc_emit_offset(const ir_node *node)
{
        const sparc_load_store_attr_t *attr = get_sparc_load_store_attr_const(node);
        long                           offset = attr->offset;

        /* bad hack: the real stack stuff is behind the always-there spill
         * space for the register window and stack */
        if (is_stack_pointer_relative(node))
                offset += SPARC_MIN_STACKSIZE;
        if (offset != 0) {
                be_emit_irprintf("%+ld", offset);
        }
}


/**
 *  Emit load mode char
 */
void sparc_emit_load_mode(const ir_node *node)
{
        const sparc_load_store_attr_t *attr = get_sparc_load_store_attr_const(node);
        ir_mode *mode      = attr->load_store_mode;
        int      bits      = get_mode_size_bits(mode);
        bool     is_signed = mode_is_signed(mode);

        if (bits == 16) {
                be_emit_string(is_signed ? "sh" : "uh");
        } else if (bits == 8) {
                be_emit_string(is_signed ? "sb" : "ub");
        } else if (bits == 64) {
                be_emit_string("d");
        } else {
                assert(bits == 32);
        }
}

/**
 * Emit store mode char
 */
void sparc_emit_store_mode(const ir_node *node)
{
        const sparc_load_store_attr_t *attr = get_sparc_load_store_attr_const(node);
        ir_mode *mode      = attr->load_store_mode;
        int      bits      = get_mode_size_bits(mode);

        if (bits == 16) {
                be_emit_string("h");
        } else if (bits == 8) {
                be_emit_string("b");
        } else if (bits == 64) {
                be_emit_string("d");
        } else {
                assert(bits == 32);
        }
}

/**
 * emit integer signed/unsigned prefix char
 */
void sparc_emit_mode_sign_prefix(const ir_node *node)
{
        ir_mode *mode      = get_irn_mode(node);
        bool     is_signed = mode_is_signed(mode);
        be_emit_string(is_signed ? "s" : "u");
}

/**
 * emit FP load mode char
 */
void sparc_emit_fp_load_mode(const ir_node *node)
{
        const sparc_load_store_attr_t *attr = get_sparc_load_store_attr_const(node);
        ir_mode *mode      = attr->load_store_mode;
        int      bits      = get_mode_size_bits(mode);

        assert(mode_is_float(mode));

        if (bits == 32) {
                be_emit_string("f");
        } else if (bits == 64) {
                be_emit_string("df");
        } else {
                panic("FP load mode > 64bits not implemented yet");
        }
}

/**
 * emit FP store mode char
 */
void sparc_emit_fp_store_mode(const ir_node *node)
{
        const sparc_load_store_attr_t *attr = get_sparc_load_store_attr_const(node);
        ir_mode *mode      = attr->load_store_mode;
        int      bits      = get_mode_size_bits(mode);

        assert(mode_is_float(mode));

        if (bits == 32) {
                be_emit_string("f");
        } else if (bits == 64) {
                be_emit_string("df");
        } else {
                panic("FP store mode > 64bits not implemented yet");
        }
}

/**
 * emits the FP mode suffix char
 */
void sparc_emit_fp_mode_suffix(const ir_node *node)
{
        ir_mode *mode      = get_irn_mode(node);
        int      bits      = get_mode_size_bits(mode);

        assert(mode_is_float(mode));

        if (bits == 32) {
                be_emit_string("s");
        } else if (bits == 64) {
                be_emit_string("d");
        } else {
                panic("FP mode > 64bits not implemented yet");
        }
}

/**
 * Returns the target label for a control flow node.
 */
static void sparc_emit_cfop_target(const ir_node *node)
{
        ir_node *block = get_irn_link(node);
        be_gas_emit_block_name(block);
}

/**
 * Emit single entity
 */
static void sparc_emit_entity(ir_entity *entity)
{
        be_gas_emit_entity(entity);
}

/**
 * Emits code for stack space management
 */
static void emit_be_IncSP(const ir_node *irn)
{
        int offs = -be_get_IncSP_offset(irn);

        if (offs == 0)
                        return;

        /* SPARC stack grows downwards */
        if (offs < 0) {
                be_emit_cstring("\tsub ");
                offs = -offs;
        } else {
                be_emit_cstring("\tadd ");
        }

        sparc_emit_source_register(irn, 0);
        be_emit_irprintf(", %d", offs);
        be_emit_cstring(", ");
        sparc_emit_dest_register(irn, 0);
        be_emit_finish_line_gas(irn);
}

/**
 * emits code for save instruction with min. required stack space
 */
static void emit_sparc_Save(const ir_node *irn)
{
        const sparc_save_attr_t *save_attr = get_sparc_save_attr_const(irn);
        be_emit_cstring("\tsave ");
        sparc_emit_source_register(irn, 0);
        be_emit_irprintf(", %d, ", -save_attr->initial_stacksize);
        sparc_emit_dest_register(irn, 0);
        be_emit_finish_line_gas(irn);
}

/**
 * emits code to load hi 22 bit of a constant
 */
static void emit_sparc_HiImm(const ir_node *irn)
{
        const sparc_attr_t *attr = get_sparc_attr_const(irn);
        be_emit_cstring("\tsethi ");
        be_emit_irprintf("%%hi(%d), ", attr->immediate_value);
        sparc_emit_dest_register(irn, 0);
        be_emit_finish_line_gas(irn);
}

/**
 * emits code to load lo 10bits of a constant
 */
static void emit_sparc_LoImm(const ir_node *irn)
{
        const sparc_attr_t *attr = get_sparc_attr_const(irn);
        be_emit_cstring("\tor ");
        sparc_emit_source_register(irn, 0);
        be_emit_irprintf(", %%lo(%d), ", attr->immediate_value);
        sparc_emit_dest_register(irn, 0);
        be_emit_finish_line_gas(irn);
}

/**
 * emit code for div with the correct sign prefix
 */
static void emit_sparc_Div(const ir_node *irn)
{
        be_emit_cstring("\t");
        sparc_emit_mode_sign_prefix(irn);
        be_emit_cstring("div ");

        sparc_emit_source_register(irn, 0);
        be_emit_cstring(", ");
        sparc_emit_reg_or_imm(irn, 1);
        be_emit_cstring(", ");
        sparc_emit_dest_register(irn, 0);
        be_emit_finish_line_gas(irn);
}

/**
 * emit code for mul with the correct sign prefix
 */
static void emit_sparc_Mul(const ir_node *irn)
{
        be_emit_cstring("\t");
        sparc_emit_mode_sign_prefix(irn);
        be_emit_cstring("mul ");

        sparc_emit_source_register(irn, 0);
        be_emit_cstring(", ");
        sparc_emit_reg_or_imm(irn, 1);
        be_emit_cstring(", ");
        sparc_emit_dest_register(irn, 0);
        be_emit_finish_line_gas(irn);
}

/**
 * emits code for mulh
 */
static void emit_sparc_Mulh(const ir_node *irn)
{
        be_emit_cstring("\t");
        sparc_emit_mode_sign_prefix(irn);
        be_emit_cstring("mul ");

        sparc_emit_source_register(irn, 0);
        be_emit_cstring(", ");
        sparc_emit_reg_or_imm(irn, 1);
        be_emit_cstring(", ");
        sparc_emit_dest_register(irn, 0);
        be_emit_finish_line_gas(irn);

        // our result is in the y register now
        // we just copy it to the assigned target reg
        be_emit_cstring("\tmov ");
        be_emit_char('%');
        be_emit_string(arch_register_get_name(&sparc_flags_regs[REG_Y]));
        be_emit_cstring(", ");
        sparc_emit_dest_register(irn, 0);
        be_emit_finish_line_gas(irn);
}

/**
 * Emits code for return node
 */
static void emit_be_Return(const ir_node *irn)
{
        be_emit_cstring("\tret");
        //be_emit_cstring("\tjmp %i7+8");
        be_emit_finish_line_gas(irn);
        be_emit_cstring("\trestore");
        be_emit_finish_line_gas(irn);
}

/**
 * Emits code for Call node
 */
static void emit_sparc_Call(const ir_node *node)
{
        const sparc_attr_t *attr   = get_sparc_attr_const(node);
        ir_entity          *entity = attr->immediate_value_entity;

        be_emit_cstring("\tcall ");
        if (entity != NULL) {
            sparc_emit_entity(entity);
                be_emit_cstring(", 0");
        } else {
                int last = get_irn_arity(node);
                sparc_emit_source_register(node, last-1);
        }
        be_emit_finish_line_gas(node);

        /* fill delay slot */
        be_emit_cstring("\tnop");
        be_emit_finish_line_gas(node);
}

/**
 * Emit code for Perm node
 */
static void emit_be_Perm(const ir_node *irn)
{
        be_emit_cstring("\txor ");
        sparc_emit_source_register(irn, 1);
        be_emit_cstring(", ");
        sparc_emit_source_register(irn, 0);
        be_emit_cstring(", ");
        sparc_emit_source_register(irn, 0);
        be_emit_finish_line_gas(NULL);

        be_emit_cstring("\txor ");
        sparc_emit_source_register(irn, 1);
        be_emit_cstring(", ");
        sparc_emit_source_register(irn, 0);
        be_emit_cstring(", ");
        sparc_emit_source_register(irn, 1);
        be_emit_finish_line_gas(NULL);

        be_emit_cstring("\txor ");
        sparc_emit_source_register(irn, 1);
        be_emit_cstring(", ");
        sparc_emit_source_register(irn, 0);
        be_emit_cstring(", ");
        sparc_emit_source_register(irn, 0);
        be_emit_finish_line_gas(irn);
}

/**
 * TODO: not really tested but seems to work with memperm_arity == 1
 */
static void emit_be_MemPerm(const ir_node *node)
{
        int i;
        int memperm_arity;
        int sp_change = 0;

        /* TODO: this implementation is slower than necessary.
           The longterm goal is however to avoid the memperm node completely */

        memperm_arity = be_get_MemPerm_entity_arity(node);
        // we use our local registers - so this is limited to 8 inputs !
        if (memperm_arity > 8)
                panic("memperm with more than 8 inputs not supported yet");

        for (i = 0; i < memperm_arity; ++i) {
                int offset;
                ir_entity *entity = be_get_MemPerm_in_entity(node, i);

                /* spill register */
                sp_change += 4;
                be_emit_irprintf("\tst %%l%d, [%%sp-%d]", i, sp_change);
                be_emit_finish_line_gas(node);

                /* load from entity */
                offset = get_entity_offset(entity) + sp_change;
                be_emit_irprintf("\tld [%%sp+%d], %%l%d", offset, i);
                be_emit_finish_line_gas(node);
        }

        for (i = memperm_arity-1; i >= 0; --i) {
                int        offset;
                ir_entity *entity = be_get_MemPerm_out_entity(node, i);

                /* store to new entity */
                offset = get_entity_offset(entity) + sp_change;
                be_emit_irprintf("\tst %%l%d, [%%sp+%d]", i, offset);
                be_emit_finish_line_gas(node);
                /* restore register */
                be_emit_irprintf("\tld [%%sp-%d], %%l%d", sp_change, i);
                sp_change -= 4;
                be_emit_finish_line_gas(node);
        }
        assert(sp_change == 0);
}

/**
 * Emit a SymConst.
 */
static void emit_sparc_SymConst(const ir_node *irn)
{
        const sparc_symconst_attr_t *attr = get_sparc_symconst_attr_const(irn);

        //sethi %hi(const32),%reg
        //or    %reg,%lo(const32),%reg

        be_emit_cstring("\tsethi %hi(");
        be_gas_emit_entity(attr->entity);
        be_emit_cstring("), ");
        sparc_emit_dest_register(irn, 0);
        be_emit_cstring("\n ");

        // TODO: could be combined with the following load/store instruction
        be_emit_cstring("\tor ");
        sparc_emit_dest_register(irn, 0);
        be_emit_cstring(", %lo(");
        be_gas_emit_entity(attr->entity);
        be_emit_cstring("), ");
        sparc_emit_dest_register(irn, 0);
        be_emit_finish_line_gas(irn);
}

/**
 * Emits code for FrameAddr fix
 */
static void emit_sparc_FrameAddr(const ir_node *irn)
{
        const sparc_symconst_attr_t *attr = get_irn_generic_attr_const(irn);

        // no need to fix offset as we are adressing via the framepointer
        if (attr->fp_offset >= 0) {
                be_emit_cstring("\tadd ");
                sparc_emit_source_register(irn, 0);
                be_emit_cstring(", ");
                be_emit_irprintf("%ld", attr->fp_offset);
        } else {
                be_emit_cstring("\tsub ");
                sparc_emit_source_register(irn, 0);
                be_emit_cstring(", ");
                be_emit_irprintf("%ld", -attr->fp_offset);
        }

        be_emit_cstring(", ");
        sparc_emit_dest_register(irn, 0);
        be_emit_finish_line_gas(irn);
}


/**
 * Emits code for Branch
 */
static void emit_sparc_BXX(const ir_node *node)
{
        const sparc_jmp_cond_attr_t *attr = get_sparc_jmp_cond_attr_const(node);
        int              proj_num    = attr->proj_num;
        bool             is_unsigned = attr->is_unsigned;
        const ir_node   *proj_true   = NULL;
        const ir_node   *proj_false  = NULL;
        const ir_edge_t *edge;
        const ir_node   *block;
        const ir_node   *next_block;
        const char      *suffix;

        foreach_out_edge(node, edge) {
                ir_node *proj = get_edge_src_irn(edge);
                long nr = get_Proj_proj(proj);
                if (nr == pn_Cond_true) {
                        proj_true = proj;
                } else {
                        proj_false = proj;
                }
        }

        /* for now, the code works for scheduled and non-schedules blocks */
        block = get_nodes_block(node);

        /* we have a block schedule */
        next_block = get_irn_link(block);

        assert(proj_num != pn_Cmp_False);
        assert(proj_num != pn_Cmp_True);

        if (get_irn_link(proj_true) == next_block) {
                /* exchange both proj's so the second one can be omitted */
                const ir_node *t = proj_true;

                proj_true  = proj_false;
                proj_false = t;
                proj_num   = get_negated_pnc(proj_num, mode_Iu);
        }

        if (is_unsigned) {
                switch (proj_num) {
                        case pn_Cmp_Eq:  suffix = "e"; break;
                        case pn_Cmp_Lt:  suffix = "lu"; break;
                        case pn_Cmp_Le:  suffix = "leu"; break;
                        case pn_Cmp_Gt:  suffix = "gu"; break;
                        case pn_Cmp_Ge:  suffix = "geu"; break;
                        case pn_Cmp_Lg:  suffix = "ne"; break;
                        default: panic("Cmp has unsupported pnc");
                }
        } else {
                switch (proj_num) {
                        case pn_Cmp_Eq:  suffix = "e"; break;
                        case pn_Cmp_Lt:  suffix = "l"; break;
                        case pn_Cmp_Le:  suffix = "le"; break;
                        case pn_Cmp_Gt:  suffix = "g"; break;
                        case pn_Cmp_Ge:  suffix = "ge"; break;
                        case pn_Cmp_Lg:  suffix = "ne"; break;
                        default: panic("Cmp has unsupported pnc");
                }
        }

        /* emit the true proj */
        be_emit_cstring("\tb");
        be_emit_string(suffix);
        be_emit_char(' ');
        sparc_emit_cfop_target(proj_true);
        be_emit_finish_line_gas(proj_true);

        be_emit_cstring("\tnop");
        be_emit_pad_comment();
        be_emit_cstring("/* TODO: use delay slot */\n");

        if (get_irn_link(proj_false) == next_block) {
                be_emit_cstring("\t/* false-fallthrough to ");
                sparc_emit_cfop_target(proj_false);
                be_emit_cstring(" */");
                be_emit_finish_line_gas(proj_false);
        } else {
                be_emit_cstring("\tba ");
                sparc_emit_cfop_target(proj_false);
                be_emit_finish_line_gas(proj_false);
                be_emit_cstring("\tnop\t\t/* TODO: use delay slot */\n");
                be_emit_finish_line_gas(proj_false);
        }
}

/**
 * emit Jmp (which actually is a branch always (ba) instruction)
 */
static void emit_sparc_Ba(const ir_node *node)
{
        ir_node *block, *next_block;

        /* for now, the code works for scheduled and non-schedules blocks */
        block = get_nodes_block(node);

        /* we have a block schedule */
        next_block = get_irn_link(block);
        if (get_irn_link(node) != next_block) {
                be_emit_cstring("\tba ");
                sparc_emit_cfop_target(node);
                be_emit_finish_line_gas(node);
                be_emit_cstring("\tnop\t\t/* TODO: use delay slot */\n");
        } else {
                be_emit_cstring("\t/* fallthrough to ");
                sparc_emit_cfop_target(node);
                be_emit_cstring(" */");
        }
        be_emit_finish_line_gas(node);
}

/**
 * emit copy node
 */
static void emit_be_Copy(const ir_node *irn)
{
        ir_mode *mode = get_irn_mode(irn);

        if (get_in_reg(irn, 0) == get_out_reg(irn, 0)) {
                /* omitted Copy */
                return;
        }

        if (mode_is_float(mode)) {
                panic("emit_be_Copy: move not supported for FP");
        } else if (mode_is_data(mode)) {
                be_emit_cstring("\tmov ");
                sparc_emit_source_register(irn, 0);
                be_emit_cstring(", ");
                sparc_emit_dest_register(irn, 0);
                be_emit_finish_line_gas(irn);
        } else {
                panic("emit_be_Copy: move not supported for this mode");
        }
}


/**
 * dummy emitter for ignored nodes
 */
static void emit_nothing(const ir_node *irn)
{
        (void) irn;
}



/**
 * type of emitter function
 */
typedef void (*emit_func) (const ir_node *);

/**
 * Set a node emitter. Make it a bit more type safe.
 */
static inline void set_emitter(ir_op *op, emit_func sparc_emit_node)
{
        op->ops.generic = (op_func)sparc_emit_node;
}

/**
 * Enters the emitter functions for handled nodes into the generic
 * pointer of an opcode.
 */
static void sparc_register_emitters(void)
{
        /* first clear the generic function pointer for all ops */
        clear_irp_opcodes_generic_func();
        /* register all emitter functions defined in spec */
        sparc_register_spec_emitters();

        /* custom emitter */
        set_emitter(op_be_Copy,         emit_be_Copy);
        set_emitter(op_be_CopyKeep,     emit_be_Copy);
        set_emitter(op_be_IncSP,        emit_be_IncSP);
        set_emitter(op_be_MemPerm,      emit_be_MemPerm);
        set_emitter(op_be_Perm,         emit_be_Perm);
        set_emitter(op_be_Return,       emit_be_Return);
        set_emitter(op_sparc_BXX,       emit_sparc_BXX);
        set_emitter(op_sparc_Call,      emit_sparc_Call);
        set_emitter(op_sparc_Div,       emit_sparc_Div);
        set_emitter(op_sparc_FrameAddr, emit_sparc_FrameAddr);
        set_emitter(op_sparc_HiImm,     emit_sparc_HiImm);
        set_emitter(op_sparc_Ba,        emit_sparc_Ba);
        set_emitter(op_sparc_LoImm,     emit_sparc_LoImm);
        set_emitter(op_sparc_Mul,       emit_sparc_Mul);
        set_emitter(op_sparc_Mulh,      emit_sparc_Mulh);
        set_emitter(op_sparc_Save,      emit_sparc_Save);
        set_emitter(op_sparc_SymConst,  emit_sparc_SymConst);

        /* no need to emit anything for the following nodes */
        set_emitter(op_be_Barrier, emit_nothing);
        set_emitter(op_be_Keep,    emit_nothing);
        set_emitter(op_be_Start,   emit_nothing);
        set_emitter(op_Phi,        emit_nothing);
}

/**
 * Emits code for a node.
 */
static void sparc_emit_node(const ir_node *node)
{
        ir_op               *op       = get_irn_op(node);

        if (op->ops.generic) {
                emit_func func = (emit_func) op->ops.generic;
                be_dbg_set_dbg_info(get_irn_dbg_info(node));
                (*func) (node);
        } else {
                panic("Error: No emit handler for node %+F (graph %+F)\n",
                        node, current_ir_graph);
        }
}

/**
 * Walks over the nodes in a block connected by scheduling edges
 * and emits code for each node.
 */
static void sparc_gen_block(ir_node *block, void *data)
{
        ir_node *node;
        (void) data;

        if (! is_Block(block))
                return;

        be_gas_emit_block_name(block);
        be_emit_cstring(":\n");
        be_emit_write_line();

        sched_foreach(block, node) {
                sparc_emit_node(node);
        }
}


/**
 * Emits code for function start.
 */
static void sparc_emit_func_prolog(ir_graph *irg)
{
        ir_entity *ent = get_irg_entity(irg);
        be_gas_emit_function_prolog(ent, 4);
        be_emit_write_line();
}

/**
 * Emits code for function end
 */
static void sparc_emit_func_epilog(ir_graph *irg)
{
        ir_entity *ent = get_irg_entity(irg);
        const char *irg_name = get_entity_ld_name(ent);
        be_emit_write_line();
        be_emit_irprintf("\t.size  %s, .-%s\n", irg_name, irg_name);
        be_emit_cstring("# -- End ");
        be_emit_string(irg_name);
        be_emit_cstring("\n");
        be_emit_write_line();
}

/**
 * Block-walker:
 * TODO: Sets labels for control flow nodes (jump target).
 * Links control predecessors to there destination blocks.
 */
static void sparc_gen_labels(ir_node *block, void *env)
{
        ir_node *pred;
        int n = get_Block_n_cfgpreds(block);
        (void) env;

        for (n--; n >= 0; n--) {
                pred = get_Block_cfgpred(block, n);
                set_irn_link(pred, block); // link the pred of a block (which is a jmp)
        }
}


/**
 * Main driver
 */
void sparc_gen_routine(const sparc_code_gen_t *cg, ir_graph *irg)
{
        ir_node **blk_sched;
        ir_node *last_block = NULL;
        ir_entity *entity     = get_irg_entity(irg);
        int i, n;
        (void) cg;

        be_gas_elf_type_char = '#';
        be_gas_object_file_format = OBJECT_FILE_FORMAT_ELF_SPARC;

        /* register all emitter functions */
        sparc_register_emitters();
        be_dbg_method_begin(entity);

        /* create the block schedule. For now, we don't need it earlier. */
        blk_sched = be_create_block_schedule(irg);

        // emit function prolog
        sparc_emit_func_prolog(irg);

        // generate BLOCK labels
        irg_block_walk_graph(irg, sparc_gen_labels, NULL, NULL);

        // inject block scheduling links & emit code of each block
        n = ARR_LEN(blk_sched);
        for (i = 0; i < n;) {
                ir_node *block, *next_bl;

                block = blk_sched[i];
                ++i;
                next_bl = i < n ? blk_sched[i] : NULL;

                /* set here the link. the emitter expects to find the next block here */
                set_irn_link(block, next_bl);
                sparc_gen_block(block, last_block);
                last_block = block;
        }

        // emit function epilog
        sparc_emit_func_epilog(irg);
}

void sparc_init_emitter(void)
{
        FIRM_DBG_REGISTER(dbg, "firm.be.sparc.emit");
}