[libfirm] / ir / be / bemain.c

/**
 * Backend driver.
 * @author Sebastian Hack
 * @date   25.11.2004
 * @cvsid  $Id$
 */
#ifdef HAVE_CONFIG_H
#include "config.h"
#endif

#include <stdarg.h>
#include <stdio.h>

#ifdef WITH_LIBCORE
#include <libcore/lc_opts.h>
#include <libcore/lc_opts_enum.h>
#include <libcore/lc_timing.h>
#endif /* WITH_LIBCORE */

#include "obst.h"
#include "bitset.h"

#include "irprog.h"
#include "irgopt.h"
#include "irgraph.h"
#include "irdump.h"
#include "phiclass.h"
#include "irdom_t.h"
#include "iredges_t.h"
#include "irloop_t.h"
#include "irtools.h"
#include "irvrfy.h"
#include "return.h"
#include "firmstat.h"
#include "cfopt.h"
#include "execfreq.h"

#include "bearch.h"
#include "firm/bearch_firm.h"
#include "ia32/bearch_ia32.h"
#include "arm/bearch_arm.h"
#include "ppc32/bearch_ppc32.h"
#include "mips/bearch_mips.h"

#include "be_t.h"
#include "benumb_t.h"
#include "beutil.h"
#include "benode_t.h"
#include "beirgmod.h"
#include "besched_t.h"
#include "belistsched.h"
#include "belive_t.h"
#include "bespillbelady.h"
#include "bera.h"
#include "beraextern.h"
#include "bechordal_t.h"
#include "beifg.h"
#include "beifg_impl.h"
#include "becopyopt.h"
#include "becopystat.h"
#include "bessadestr.h"
#include "beabi.h"
#include "belower.h"
#include "beschedmris.h"
#include "bestat.h"
#include "beverify.h"
#include "beprofile.h"
#include "be_dbgout.h"

/* options visible for anyone */
static be_options_t be_options = {
        DUMP_NONE,                         /* dump flags */
        BE_TIME_OFF,                       /* no timing */
        BE_SCHED_SELECT_HEUR,              /* mueller heuristic selector */
        0,                                 /* no opt profile */
        0,                                 /* disable mris */
        1,                                 /* try to omit frame pointer */
        1,                                 /* always stabs debugging output */
        BE_VRFY_WARN,                      /* verification level: warn */
        "i44pc52.info.uni-karlsruhe.de",   /* ilp server */
        "cplex"                            /* ilp solver */
};

/* config file. */
static char config_file[256] = { 0 };

/* register allocator to use. */
static const be_ra_t *ra = &be_ra_chordal_allocator;

/* back end instruction set architecture to use */
static const arch_isa_if_t *isa_if = &ia32_isa_if;

#ifdef WITH_LIBCORE

static lc_opt_entry_t *be_grp_root = NULL;

/* possible dumping options */
static const lc_opt_enum_mask_items_t dump_items[] = {
        { "none",       DUMP_NONE },
        { "initial",    DUMP_INITIAL },
        { "abi",        DUMP_ABI    },
        { "sched",      DUMP_SCHED  },
        { "prepared",   DUMP_PREPARED },
        { "regalloc",   DUMP_RA },
        { "final",      DUMP_FINAL },
        { "be",         DUMP_BE },
        { "all",        2 * DUMP_BE - 1 },
        { NULL,         0 }
};

/* register allocators */
static const lc_opt_enum_const_ptr_items_t ra_items[] = {
        { "chordal",  &be_ra_chordal_allocator },
        { "external", &be_ra_external_allocator },
        { NULL,      NULL }
};

/* instruction set architectures. */
static const lc_opt_enum_const_ptr_items_t isa_items[] = {
        { "ia32",    &ia32_isa_if },
#if 0
        { "arm",     &arm_isa_if },
        { "ppc32",   &ppc32_isa_if },
        { "mips",    &mips_isa_if },
#endif
        { NULL,      NULL }
};

/* verify options. */
static const lc_opt_enum_int_items_t vrfy_items[] = {
        { "off",    BE_VRFY_OFF    },
        { "warn",   BE_VRFY_WARN   },
        { "assert", BE_VRFY_ASSERT },
        { NULL,     0 }
};

/* schedule selector options. */
static const lc_opt_enum_int_items_t sched_select_items[] = {
        { "trivial",  BE_SCHED_SELECT_TRIVIAL  },
        { "random",   BE_SCHED_SELECT_RANDOM },
        { "regpress", BE_SCHED_SELECT_REGPRESS },
        { "muchnik",  BE_SCHED_SELECT_MUCHNIK  },
        { "heur",     BE_SCHED_SELECT_HEUR     },
        { "hmuchnik", BE_SCHED_SELECT_HMUCHNIK },
        { NULL,     0 }
};

static lc_opt_enum_mask_var_t dump_var = {
        &be_options.dump_flags, dump_items
};

static lc_opt_enum_const_ptr_var_t ra_var = {
        (const void **) &ra, ra_items
};

static lc_opt_enum_const_ptr_var_t isa_var = {
        (const void **) &isa_if, isa_items
};

static lc_opt_enum_int_var_t vrfy_var = {
        &be_options.vrfy_option, vrfy_items
};

static lc_opt_enum_int_var_t sched_select_var = {
        &be_options.sched_select, sched_select_items
};

static const lc_opt_table_entry_t be_main_options[] = {
        LC_OPT_ENT_STR      ("config",       "read another config file containing backend options",                 config_file, sizeof(config_file)),
        LC_OPT_ENT_ENUM_MASK("dump",         "dump irg on several occasions",                                       &dump_var),
        LC_OPT_ENT_ENUM_PTR ("ra",           "register allocator",                                                  &ra_var),
        LC_OPT_ENT_ENUM_PTR ("isa",          "the instruction set architecture",                                    &isa_var),
        LC_OPT_ENT_NEGBOOL  ("noomitfp",     "do not omit frame pointer",                                           &be_options.omit_fp),
        LC_OPT_ENT_BOOL     ("stabs",        "enable stabs debug support",                                          &be_options.stabs_debug_support),
        LC_OPT_ENT_ENUM_PTR ("vrfy",         "verify the backend irg (off, warn, assert)",                          &vrfy_var),
        LC_OPT_ENT_BOOL     ("time",         "get backend timing statistics",                                       &be_options.timing),
        LC_OPT_ENT_BOOL     ("profile",      "instrument the code for execution count profiling",                   &be_options.opt_profile),
        LC_OPT_ENT_BOOL     ("sched.mris",   "enable mris schedule preparation",                                    &be_options.mris),
        LC_OPT_ENT_ENUM_PTR ("sched.select", "schedule node selector (trivial, regpress, muchnik, heur, hmuchnik)", &sched_select_var),

#ifdef WITH_ILP
        LC_OPT_ENT_STR ("ilp.server", "the ilp server name", be_options.ilp_server, sizeof(be_options.ilp_server)),
        LC_OPT_ENT_STR ("ilp.solver", "the ilp solver name", be_options.ilp_solver, sizeof(be_options.ilp_solver)),
#endif /* WITH_ILP */
        { NULL }
};

#endif /* WITH_LIBCORE */

void be_opt_register(void)
{
#ifdef WITH_LIBCORE
        int i;
        lc_opt_entry_t *be_grp_ra;
        static int run_once = 0;

        if (! run_once) {
                run_once    = 1;
                be_grp_root = lc_opt_get_grp(firm_opt_get_root(), "be");
                be_grp_ra   = lc_opt_get_grp(be_grp_root, "ra");

                lc_opt_add_table(be_grp_root, be_main_options);

                /* register allocator options */
                for(i = 0; ra_items[i].name != NULL; ++i) {
                        const be_ra_t *ra = ra_items[i].value;
                        ra->register_options(be_grp_ra);
                }

                /* register isa options */
                for(i = 0; isa_items[i].name != NULL; ++i) {
                        const arch_isa_if_t *isa = isa_items[i].value;
                        isa->register_options(be_grp_root);
                }
        }
#endif /* WITH_LIBCORE */
}

/* Parse one argument. */
int be_parse_arg(const char *arg) {
#ifdef WITH_LIBCORE
        if (strcmp(arg, "help") == 0 || (arg[0] == '?' && arg[1] == '\0')) {
                lc_opt_print_help(be_grp_root, stdout);
                return -1;
        }
        return lc_opt_from_single_arg(be_grp_root, NULL, arg, NULL);
#else
        return 0;
#endif /* WITH_LIBCORE */
}

/** The be parameters returned by default, all off. */
const static backend_params be_params = {
        NULL,
        NULL,
        0,
        NULL,
};

/* Perform schedule verification if requested. */
static void be_sched_vrfy(ir_graph *irg, int vrfy_opt) {
        if (vrfy_opt == BE_VRFY_WARN) {
                be_verify_schedule(irg);
        }
        else if (vrfy_opt == BE_VRFY_ASSERT) {
                assert(be_verify_schedule(irg) && "Schedule verification failed.");
        }
}

/* Initialize the Firm backend. Must be run BEFORE init_firm()! */
const backend_params *be_init(void)
{
        be_opt_register();

        be_sched_init();
        be_numbering_init();
        be_copy_opt_init();
        copystat_init();
        phi_class_init();

        if (isa_if->get_params)
                return isa_if->get_params();
        return &be_params;
}

/**
 * Initializes the main environment for the backend.
 *
 * @param env          an empty environment
 * @param file_handle  the file handle where the output will be written to
 */
static be_main_env_t *be_init_env(be_main_env_t *env, FILE *file_handle)
{
        memset(env, 0, sizeof(*env));
        obstack_init(&env->obst);
        env->arch_env = obstack_alloc(&env->obst, sizeof(env->arch_env[0]));
        env->options  = &be_options;
        FIRM_DBG_REGISTER(env->dbg, "be.main");

        arch_env_init(env->arch_env, isa_if, file_handle, env);

        /* Register the irn handler of the architecture */
        if (arch_isa_get_irn_handler(env->arch_env->isa))
                arch_env_push_irn_handler(env->arch_env, arch_isa_get_irn_handler(env->arch_env->isa));

        /*
         * Register the node handler of the back end infrastructure.
         * This irn handler takes care of the platform independent
         * spill, reload and perm nodes.
         */
        arch_env_push_irn_handler(env->arch_env, &be_node_irn_handler);
        env->phi_handler = be_phi_handler_new(env->arch_env);
        arch_env_push_irn_handler(env->arch_env, env->phi_handler);

        env->db_handle = be_options.stabs_debug_support ? be_stabs_open(file_handle) : be_nulldbg_open();
        return env;
}

static void be_done_env(be_main_env_t *env)
{
        env->arch_env->isa->impl->done(env->arch_env->isa);
        be_dbg_close(env->db_handle);
        be_phi_handler_free(env->phi_handler);
        obstack_free(&env->obst, NULL);
}

/**
 * A wrapper around a firm dumper. Dumps only, if
 * flags are enabled.
 *
 * @param mask    a bitmask containing the reason what will be dumped
 * @param irg     the IR graph to dump
 * @param suffix  the suffix for the dumper
 * @param dumper  the dumper to be called
 */
static void dump(int mask, ir_graph *irg, const char *suffix,
                 void (*dumper)(ir_graph *, const char *))
{
        if(be_options.dump_flags & mask)
                be_dump(irg, suffix, dumper);
}

/**
 * Prepare a backend graph for code generation and initialize its birg
 */
static void initialize_birg(be_irg_t *birg, ir_graph *irg, be_main_env_t *env)
{
        memset(birg, 0, sizeof(*birg));
        birg->irg = irg;
        birg->main_env = env;

        edges_deactivate_kind(irg, EDGE_KIND_DEP);
        edges_activate_kind(irg, EDGE_KIND_DEP);

        DBG((env->dbg, LEVEL_2, "====> IRG: %F\n", irg));
        dump(DUMP_INITIAL, irg, "-begin", dump_ir_block_graph);

        be_stat_init_irg(env->arch_env, irg);
        be_do_stat_nodes(irg, "01 Begin");

        /* set the current graph (this is important for several firm functions) */
        current_ir_graph = irg;

        /* Normalize proj nodes. */
        normalize_proj_nodes(irg);

        /* Make just one return node. */
        normalize_one_return(irg);

        /* Remove critical edges */
        remove_critical_cf_edges(irg);

        /* Compute the dominance information. */
        free_dom(irg);
        compute_doms(irg);

        /* Ensure, that the ir_edges are computed. */
        edges_assure(irg);

        /* check, if the dominance property is fulfilled. */
        be_check_dominance(irg);

        /* reset the phi handler. */
        be_phi_handler_reset(env->phi_handler);
}

#ifdef WITH_LIBCORE

#define BE_TIMER_PUSH(timer)                                                        \
        if (be_options.timing == BE_TIME_ON) {                                          \
                int res = lc_timer_push(timer);                                             \
                if (be_options.vrfy_option == BE_VRFY_ASSERT)                               \
                        assert(res && "Timer already on stack, cannot be pushed twice.");       \
                else if (be_options.vrfy_option == BE_VRFY_WARN && ! res)                   \
                        fprintf(stderr, "Timer %s already on stack, cannot be pushed twice.\n", \
                                lc_timer_get_name(timer));                                          \
        }
#define BE_TIMER_POP(timer)                                                                    \
        if (be_options.timing == BE_TIME_ON) {                                                     \
                lc_timer_t *tmp = lc_timer_pop();                                                      \
                if (be_options.vrfy_option == BE_VRFY_ASSERT)                                          \
                        assert(tmp == timer && "Attempt to pop wrong timer.");                             \
                else if (be_options.vrfy_option == BE_VRFY_WARN && tmp != timer)                       \
                        fprintf(stderr, "Attempt to pop wrong timer. %s is on stack, trying to pop %s.\n", \
                                lc_timer_get_name(tmp), lc_timer_get_name(timer));                             \
                timer = tmp;                                                                           \
        }

#define BE_TIMER_ONLY(code)   do { if (be_options.timing == BE_TIME_ON) { code; } } while(0)

#else

#define BE_TIMER_PUSH(timer)
#define BE_TIMER_POP(timer)
#define BE_TIMER_ONLY(code)

#endif /* WITH_LIBCORE */


/**
 * The Firm backend main loop.
 * Do architecture specific lowering for all graphs
 * and call the architecture specific code generator.
 *
 * @param file_handle   the file handle the output will be written to
 * @param cup_name      name of the compilation unit
 */
static void be_main_loop(FILE *file_handle, const char *cup_name)
{
        int i;
        arch_isa_t *isa;
        be_main_env_t env;
        unsigned num_nodes_b = 0;
        unsigned num_nodes_a = 0;
        unsigned num_nodes_r = 0;
        char prof_filename[256];
        static const char suffix[] = ".prof";
        be_irg_t *birgs;
        unsigned num_birgs;

        be_ra_timer_t *ra_timer;

#ifdef WITH_LIBCORE
        lc_timer_t *t_abi      = NULL;
        lc_timer_t *t_codegen  = NULL;
        lc_timer_t *t_sched    = NULL;
        lc_timer_t *t_constr   = NULL;
        lc_timer_t *t_regalloc = NULL;
        lc_timer_t *t_finish   = NULL;
        lc_timer_t *t_emit     = NULL;
        lc_timer_t *t_other    = NULL;
        lc_timer_t *t_verify   = NULL;

        if (be_options.timing == BE_TIME_ON) {
                t_abi      = lc_timer_register("beabi",    "be abi introduction");
                t_codegen  = lc_timer_register("codegen",  "codegeneration");
                t_sched    = lc_timer_register("sched",    "scheduling");
                t_constr   = lc_timer_register("constr",   "assure constraints");
                t_regalloc = lc_timer_register("regalloc", "register allocation");
                t_finish   = lc_timer_register("finish",   "graph finish");
                t_emit     = lc_timer_register("emiter",   "code emiter");
                t_verify   = lc_timer_register("verify",   "graph verification");
                t_other    = lc_timer_register("other",    "other");
        }
#endif /* WITH_LIBCORE */

        be_init_env(&env, file_handle);

        isa = arch_env_get_isa(env.arch_env);

        be_dbg_so(env.db_handle, cup_name);
        be_dbg_types(env.db_handle);

        /* we might need 1 birg more for instrumentation constructor */
        num_birgs = get_irp_n_irgs();
        birgs     = alloca(sizeof(birgs[0]) * (num_birgs + 1));

        /* First: initialize all birgs */
        for(i = 0; i < get_irp_n_irgs(); ++i) {
                ir_graph *irg = get_irp_irg(i);

                initialize_birg(&birgs[i], irg, &env);
        }

        /*
                Get the filename for the profiling data.
                Beware: '\0' is already included in sizeof(suffix)
        */
        memset(prof_filename, 0, sizeof(prof_filename));
        strncpy(prof_filename, cup_name, sizeof(prof_filename) - sizeof(suffix));
        strcat(prof_filename, suffix);

        /*
                Next: Either instruments all irgs with profiling code
                or try to read in profile data for current translation unit.
        */
        if (be_options.opt_profile) {
                ir_graph *prof_init_irg = be_profile_instrument(prof_filename, profile_default);
                initialize_birg(&birgs[num_birgs], prof_init_irg, &env);
                num_birgs++;
                set_method_img_section(get_irg_entity(prof_init_irg), section_constructors);
        }
        else {
                be_profile_read(prof_filename);
        }

        /* For all graphs */
        for (i = 0; i < num_birgs; ++i) {
                be_irg_t *birg = & birgs[i];
                ir_graph *irg  = birg->irg;
                optimization_state_t state;
                const arch_code_generator_if_t *cg_if;

                /* stop and reset timers */
                BE_TIMER_ONLY(
                        LC_STOP_AND_RESET_TIMER(t_abi);
                        LC_STOP_AND_RESET_TIMER(t_codegen);
                        LC_STOP_AND_RESET_TIMER(t_sched);
                        LC_STOP_AND_RESET_TIMER(t_constr);
                        LC_STOP_AND_RESET_TIMER(t_regalloc);
                        LC_STOP_AND_RESET_TIMER(t_finish);
                        LC_STOP_AND_RESET_TIMER(t_emit);
                        LC_STOP_AND_RESET_TIMER(t_verify);
                        LC_STOP_AND_RESET_TIMER(t_other);
                );
                BE_TIMER_PUSH(t_other);   /* t_other */

                /**
                 * Create execution frequencies from profile data or estimate some
                 */
                if(be_profile_has_data()) {
                        birg->execfreqs = be_create_execfreqs_from_profile(irg);
                } else {
                        birg->execfreqs = compute_execfreq(irg, 10);
                }

                BE_TIMER_ONLY(num_nodes_b = get_num_reachable_nodes(irg));

                /* Get the code generator interface. */
                cg_if = isa->impl->get_code_generator_if(isa);

                /* get a code generator for this graph. */
                birg->cg = cg_if->init(birg);

                /* some transformations need to be done before abi introduce */
                arch_code_generator_before_abi(birg->cg);

                /* set the current graph (this is important for several firm functions) */
                current_ir_graph = irg;

                /* reset the phi handler. */
                be_phi_handler_reset(env.phi_handler);

                /* implement the ABI conventions. */
                BE_TIMER_PUSH(t_abi);
                birg->abi = be_abi_introduce(birg);
                BE_TIMER_POP(t_abi);

                dump(DUMP_ABI, irg, "-abi", dump_ir_block_graph);
                be_do_stat_nodes(irg, "02 Abi");

                /* generate code */
                BE_TIMER_PUSH(t_codegen);
                arch_code_generator_prepare_graph(birg->cg);
                BE_TIMER_POP(t_codegen);

                be_do_stat_nodes(irg, "03 Prepare");

                /*
                        Since the code generator made a lot of new nodes and skipped
                        a lot of old ones, we should do dead node elimination here.
                        Note that this requires disabling the edges here.
                 */
                edges_deactivate(irg);
                //dead_node_elimination(irg);
                edges_activate(irg);

                /* Compute loop nesting information (for weighting copies) */
                construct_cf_backedges(irg);
                dump(DUMP_PREPARED, irg, "-prepared", dump_ir_block_graph);
                BE_TIMER_ONLY(num_nodes_r = get_num_reachable_nodes(irg));

                /* let backend prepare scheduling */
                BE_TIMER_PUSH(t_codegen);
                arch_code_generator_before_sched(birg->cg);
                BE_TIMER_POP(t_codegen);

                /* schedule the irg */
                BE_TIMER_PUSH(t_sched);
                list_sched(birg, &be_options);
                BE_TIMER_POP(t_sched);

                dump(DUMP_SCHED, irg, "-sched", dump_ir_block_graph_sched);

                /* check schedule */
                BE_TIMER_PUSH(t_verify);
                be_sched_vrfy(irg, be_options.vrfy_option);
                BE_TIMER_POP(t_verify);

                be_do_stat_nodes(irg, "04 Schedule");

                /* introduce patterns to assure constraints */
                BE_TIMER_PUSH(t_constr);
                /* we switch off optimizations here, because they might cause trouble */
                save_optimization_state(&state);
                set_optimize(0);
                set_opt_normalize(0);

                /* add Keeps for should_be_different constrained nodes  */
                /* beware: needs schedule due to usage of be_ssa_constr */
                assure_constraints(birg);
                BE_TIMER_POP(t_constr);

                dump(DUMP_SCHED, irg, "-assured", dump_ir_block_graph_sched);
                be_do_stat_nodes(irg, "05 Constraints");

                /* connect all stack modifying nodes together (see beabi.c) */
                BE_TIMER_PUSH(t_abi);
                be_abi_fix_stack_nodes(birg->abi, NULL);
                BE_TIMER_POP(t_abi);

                dump(DUMP_SCHED, irg, "-fix_stack", dump_ir_block_graph_sched);

                /* check schedule */
                BE_TIMER_PUSH(t_verify);
                be_sched_vrfy(irg, be_options.vrfy_option);
                BE_TIMER_POP(t_verify);

                /* do some statistics */
                be_do_stat_reg_pressure(birg);

                /* stuff needs to be done after scheduling but before register allocation */
                BE_TIMER_PUSH(t_codegen);
                arch_code_generator_before_ra(birg->cg);
                BE_TIMER_POP(t_codegen);

                /* Do register allocation */
                BE_TIMER_PUSH(t_regalloc);
                ra_timer = ra->allocate(birg);
                BE_TIMER_POP(t_regalloc);

                dump(DUMP_RA, irg, "-ra", dump_ir_block_graph_sched);
                be_do_stat_nodes(irg, "06 Register Allocation");

                /* let the code generator prepare the graph for emitter */
                BE_TIMER_PUSH(t_finish);
                arch_code_generator_after_ra(birg->cg);
                BE_TIMER_POP(t_finish);

                /* fix stack offsets */
                BE_TIMER_PUSH(t_abi);
                be_abi_fix_stack_nodes(birg->abi, NULL);
                be_remove_dead_nodes_from_schedule(irg);
                be_abi_fix_stack_bias(birg->abi);
                BE_TIMER_POP(t_abi);

                BE_TIMER_PUSH(t_finish);
                arch_code_generator_finish(birg->cg);
                BE_TIMER_POP(t_finish);

                dump(DUMP_FINAL, irg, "-finish", dump_ir_block_graph_sched);

                /* check schedule and register allocation */
                BE_TIMER_PUSH(t_verify);
                if (be_options.vrfy_option == BE_VRFY_WARN) {
                        //irg_verify(irg, VRFY_ENFORCE_SSA);
                        be_check_dominance(irg);
                        be_verify_out_edges(irg);
                        be_verify_schedule(irg);
                        be_verify_register_allocation(env.arch_env, irg);
                }
                else if (be_options.vrfy_option == BE_VRFY_ASSERT) {
                        //assert(irg_verify(irg, VRFY_ENFORCE_SSA) && "irg verification failed");
                        assert(be_verify_out_edges(irg));
                        assert(be_check_dominance(irg) && "Dominance verification failed");
                        assert(be_verify_schedule(irg) && "Schedule verification failed");
                        assert(be_verify_register_allocation(env.arch_env, irg)
                               && "register allocation verification failed");
                }
                BE_TIMER_POP(t_verify);

                /* emit assembler code */
                BE_TIMER_PUSH(t_emit);
                arch_code_generator_done(birg->cg);
                BE_TIMER_POP(t_emit);

                dump(DUMP_FINAL, irg, "-end", dump_ir_extblock_graph_sched);

                BE_TIMER_PUSH(t_abi);
                be_abi_free(birg->abi);
                BE_TIMER_POP(t_abi);

                be_do_stat_nodes(irg, "07 Final");
                restore_optimization_state(&state);

                BE_TIMER_ONLY(num_nodes_a = get_num_reachable_nodes(irg));
                BE_TIMER_POP(t_other);

#define LC_EMIT(timer)    printf("%-20s: %.3lf msec\n", lc_timer_get_description(timer), (double)lc_timer_elapsed_usec(timer) / 1000.0)
#define LC_EMIT_RA(timer) printf("\t%-20s: %.3lf msec\n", lc_timer_get_description(timer), (double)lc_timer_elapsed_usec(timer) / 1000.0)
                BE_TIMER_ONLY(
                        printf("==>> IRG %s <<==\n", get_entity_name(get_irg_entity(irg)));
                        printf("# nodes at begin:  %u\n", num_nodes_b);
                        printf("# nodes before ra: %u\n", num_nodes_r);
                        printf("# nodes at end:    %u\n\n", num_nodes_a);
                        LC_EMIT(t_abi);
                        LC_EMIT(t_codegen);
                        LC_EMIT(t_sched);
                        LC_EMIT(t_constr);
                        LC_EMIT(t_regalloc);
                        LC_EMIT_RA(ra_timer->t_prolog);
                        LC_EMIT_RA(ra_timer->t_live);
                        LC_EMIT_RA(ra_timer->t_spill);
                        LC_EMIT_RA(ra_timer->t_spillslots);
                        LC_EMIT_RA(ra_timer->t_color);
                        LC_EMIT_RA(ra_timer->t_ifg);
                        LC_EMIT_RA(ra_timer->t_copymin);
                        LC_EMIT_RA(ra_timer->t_ssa);
                        LC_EMIT_RA(ra_timer->t_epilog);
                        LC_EMIT_RA(ra_timer->t_verify);
                        LC_EMIT_RA(ra_timer->t_other);
                        LC_EMIT(t_finish);
                        LC_EMIT(t_emit);
                        LC_EMIT(t_verify);
                        LC_EMIT(t_other);
                );
#undef LC_EMIT_RA
#undef LC_EMIT

                free_execfreq(birg->execfreqs);

        /* switched off due to statistics (statistic module needs all irgs) */
                if (! stat_is_active())
                        free_ir_graph(irg);
        }
        be_profile_free();
        be_done_env(&env);

#undef BE_TIMER_POP
#undef BE_TIMER_PUSH
#undef BE_TIMER_ONLY
}

/* Main interface to the frontend. */
void be_main(FILE *file_handle, const char *cup_name)
{
#ifdef WITH_LIBCORE
        lc_timer_t *t = NULL;
#endif /* WITH_LIBCORE */

#ifdef WITH_LIBCORE
        /* The user specified another config file to read. do that now. */
        if(strlen(config_file) > 0) {
                FILE *f;

                if((f = fopen(config_file, "rt")) != NULL) {
                        lc_opt_from_file(config_file, f, NULL);
                        fclose(f);
                }
        }

        if (be_options.timing == BE_TIME_ON) {
                t = lc_timer_register("bemain", "measure complete bemain loop");

                if (lc_timer_enter_high_priority()) {
                        fprintf(stderr, "Warning: Could not enter high priority mode.\n");
                }

                lc_timer_reset_and_start(t);
        }
#endif /* WITH_LIBCORE */

        /* never build code for pseudo irgs */
        set_visit_pseudo_irgs(0);

        be_node_init();
        be_main_loop(file_handle, cup_name);

#ifdef WITH_LIBCORE
        if (be_options.timing == BE_TIME_ON) {
                lc_timer_stop(t);
                lc_timer_leave_high_priority();
                printf("%-20s: %lu msec\n", "BEMAINLOOP", lc_timer_elapsed_msec(t));
        }
#endif /* WITH_LIBCORE */
}

/** The debug info retriever function. */
static retrieve_dbg_func retrieve_dbg = NULL;

/* Sets a debug info retriever. */
void be_set_debug_retrieve(retrieve_dbg_func func) {
        retrieve_dbg = func;
}

/* Retrieve the debug info. */
const char *be_retrieve_dbg_info(const dbg_info *dbg, unsigned *line) {
        if (retrieve_dbg)
                return retrieve_dbg(dbg, line);
        *line = 0;
        return NULL;
}

int be_put_ignore_regs(const be_irg_t *birg, const arch_register_class_t *cls, bitset_t *bs)
{
        if(bs == NULL)
                bs = bitset_alloca(cls->n_regs);
        else
                bitset_clear_all(bs);

        assert(bitset_size(bs) == (unsigned) cls->n_regs);
        arch_put_non_ignore_regs(birg->main_env->arch_env, cls, bs);
        bitset_flip_all(bs);
        be_abi_put_ignore_regs(birg->abi, cls, bs);
        return bitset_popcnt(bs);

}