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[libfirm] / ir / ir / irio.c

/*
 * Copyright (C) 1995-2009 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   Write textual representation of firm to file.
 * @author  Moritz Kroll
 * @version $Id$
 */
#include "config.h"

#include <string.h>
#include <ctype.h>
#include <stdbool.h>
#include <stdarg.h>

#include "irio.h"

#include "irnode_t.h"
#include "irprog.h"
#include "irgraph_t.h"
#include "ircons.h"
#include "irgmod.h"
#include "irflag_t.h"
#include "irgwalk.h"
#include "tv.h"
#include "array.h"
#include "error.h"
#include "typerep.h"
#include "adt/set.h"
#include "adt/obst.h"

#define SYMERROR ((unsigned) ~0)

typedef struct io_env_t
{
        int c;                /**< currently read char */
        FILE *file;
        set *idset;           /**< id_entry set, which maps from file ids to new Firm elements */
        int ignoreblocks;
        const char *inputname;
        int line;
        ir_type **fixedtypes;
        struct obstack obst;
} io_env_t;

typedef enum typetag_t
{
        tt_align,
        tt_allocation,
        tt_builtin,
        tt_cond_jmp_predicate,
        tt_initializer,
        tt_iro,
        tt_keyword,
        tt_mode_sort,
        tt_mode_arithmetic,
        tt_pin_state,
        tt_tpo,
        tt_type_state,
        tt_volatility,
        tt_linkage,
        tt_segment,
        tt_visibility
} typetag_t;

typedef enum keyword_t
{
        kw_constirg,
        kw_entity,
        kw_irg,
        kw_mode,
        kw_modes,
        kw_type,
        kw_typegraph,
        kw_program,
        kw_segment_type
} keyword_t;

typedef struct symbol_t
{
        const char *str;      /**< The name of this symbol. */
        typetag_t   typetag;  /**< The type tag of this symbol. */
        unsigned    code;     /**< The value of this symbol. */
} symbol_t;

typedef struct id_entry
{
        long id;
        void *elem;
} id_entry;

/** The symbol table, a set of symbol_t elements. */
static set *symtbl;

/**
 * Compare two symbol table entries.
 */
static int symbol_cmp(const void *elt, const void *key, size_t size)
{
        int res;
        const symbol_t *entry = (const symbol_t *) elt;
        const symbol_t *keyentry = (const symbol_t *) key;
        (void) size;
        res = entry->typetag - keyentry->typetag;
        if (res) return res;
        return strcmp(entry->str, keyentry->str);
}

static int id_cmp(const void *elt, const void *key, size_t size)
{
        const id_entry *entry = (const id_entry *) elt;
        const id_entry *keyentry = (const id_entry *) key;
        (void) size;
        return entry->id - keyentry->id;
}

static void __attribute__((format(printf, 2, 3)))
parse_error(io_env_t *env, const char *fmt, ...)
{
        va_list ap;
        int     line = env->line;

        /* workaround read_c "feature" that a '\n' triggers the line++
         * instead of the character after the '\n' */
        if (env->c == '\n') {
                line--;
        }

        fprintf(stderr, "%s:%d: error ", env->inputname, line);

        va_start(ap, fmt);
        vfprintf(stderr, fmt, ap);
        va_end(ap);
}

/** Initializes the symbol table. May be called more than once without problems. */
static void symtbl_init(void)
{
        symbol_t key;

        /* Only initialize once */
        if (symtbl != NULL)
                return;

        symtbl = new_set(symbol_cmp, 256);

#define INSERT(tt, s, cod)                                       \
        key.str = (s);                                               \
        key.typetag = (tt);                                          \
        key.code = (cod);                                            \
        set_insert(symtbl, &key, sizeof(key), firm_fnv_hash_str(s) + tt * 17)

#define INSERTENUM(tt, e) INSERT(tt, #e, e)
#define INSERTKEYWORD(k) INSERT(tt_keyword, #k, kw_##k)

        INSERT(tt_tpo, "array", tpo_array);
        INSERT(tt_tpo, "class", tpo_class);
        INSERT(tt_tpo, "method", tpo_method);
        INSERT(tt_tpo, "pointer", tpo_pointer);
        INSERT(tt_tpo, "primitive", tpo_primitive);
        INSERT(tt_tpo, "struct", tpo_struct);
        INSERT(tt_tpo, "union", tpo_union);
        INSERT(tt_tpo, "Unknown", tpo_unknown);

        INSERT(tt_mode_sort, "auxiliary", irms_auxiliary);
        INSERT(tt_mode_sort, "control_flow", irms_control_flow);
        INSERT(tt_mode_sort, "memory", irms_memory);
        INSERT(tt_mode_sort, "internal_boolean", irms_internal_boolean);
        INSERT(tt_mode_sort, "reference", irms_reference);
        INSERT(tt_mode_sort, "int_number", irms_int_number);
        INSERT(tt_mode_sort, "float_number", irms_float_number);

        INSERT(tt_segment, "global", IR_SEGMENT_GLOBAL);
        INSERT(tt_segment, "thread_local", IR_SEGMENT_THREAD_LOCAL);
        INSERT(tt_segment, "constructors", IR_SEGMENT_CONSTRUCTORS);
        INSERT(tt_segment, "destructors", IR_SEGMENT_DESTRUCTORS);

        INSERT(tt_linkage, "constant", IR_LINKAGE_CONSTANT);
        INSERT(tt_linkage, "weak", IR_LINKAGE_WEAK);
        INSERT(tt_linkage, "garbage_collect", IR_LINKAGE_GARBAGE_COLLECT);
        INSERT(tt_linkage, "merge", IR_LINKAGE_MERGE);
        INSERT(tt_linkage, "hidden_user", IR_LINKAGE_HIDDEN_USER);

        INSERT(tt_visibility, "local", ir_visibility_local);
        INSERT(tt_visibility, "external", ir_visibility_external);
        INSERT(tt_visibility, "default", ir_visibility_default);

        INSERTKEYWORD(constirg);
        INSERTKEYWORD(entity);
        INSERTKEYWORD(irg);
        INSERTKEYWORD(mode);
        INSERTKEYWORD(modes);
        INSERTKEYWORD(type);
        INSERTKEYWORD(typegraph);
        INSERTKEYWORD(program);
        INSERTKEYWORD(segment_type);

#include "gen_irio_lex.inl"

        INSERTENUM(tt_align, align_non_aligned);
        INSERTENUM(tt_align, align_is_aligned);

        INSERTENUM(tt_builtin, ir_bk_trap);
        INSERTENUM(tt_builtin, ir_bk_debugbreak);
        INSERTENUM(tt_builtin, ir_bk_return_address);
        INSERTENUM(tt_builtin, ir_bk_frame_address);
        INSERTENUM(tt_builtin, ir_bk_prefetch);
        INSERTENUM(tt_builtin, ir_bk_ffs);
        INSERTENUM(tt_builtin, ir_bk_clz);
        INSERTENUM(tt_builtin, ir_bk_ctz);
        INSERTENUM(tt_builtin, ir_bk_popcount);
        INSERTENUM(tt_builtin, ir_bk_parity);
        INSERTENUM(tt_builtin, ir_bk_bswap);
        INSERTENUM(tt_builtin, ir_bk_inport);
        INSERTENUM(tt_builtin, ir_bk_outport);
        INSERTENUM(tt_builtin, ir_bk_inner_trampoline);

        INSERTENUM(tt_cond_jmp_predicate, COND_JMP_PRED_NONE);
        INSERTENUM(tt_cond_jmp_predicate, COND_JMP_PRED_TRUE);
        INSERTENUM(tt_cond_jmp_predicate, COND_JMP_PRED_FALSE);

        INSERTENUM(tt_initializer, IR_INITIALIZER_CONST);
        INSERTENUM(tt_initializer, IR_INITIALIZER_TARVAL);
        INSERTENUM(tt_initializer, IR_INITIALIZER_NULL);
        INSERTENUM(tt_initializer, IR_INITIALIZER_COMPOUND);

        INSERTENUM(tt_mode_arithmetic, irma_uninitialized);
        INSERTENUM(tt_mode_arithmetic, irma_none);
        INSERTENUM(tt_mode_arithmetic, irma_twos_complement);
        INSERTENUM(tt_mode_arithmetic, irma_ones_complement);
        INSERTENUM(tt_mode_arithmetic, irma_int_BCD);
        INSERTENUM(tt_mode_arithmetic, irma_ieee754);
        INSERTENUM(tt_mode_arithmetic, irma_float_BCD);

        INSERTENUM(tt_pin_state, op_pin_state_floats);
        INSERTENUM(tt_pin_state, op_pin_state_pinned);
        INSERTENUM(tt_pin_state, op_pin_state_exc_pinned);
        INSERTENUM(tt_pin_state, op_pin_state_mem_pinned);

        INSERTENUM(tt_type_state, layout_undefined);
        INSERTENUM(tt_type_state, layout_fixed);

        INSERTENUM(tt_volatility, volatility_non_volatile);
        INSERTENUM(tt_volatility, volatility_is_volatile);

#undef INSERTKEYWORD
#undef INSERTENUM
#undef INSERT
}

static const char *get_segment_name(ir_segment_t segment)
{
        switch (segment) {
        case IR_SEGMENT_GLOBAL:       return "global";
        case IR_SEGMENT_THREAD_LOCAL: return "thread_local";
        case IR_SEGMENT_CONSTRUCTORS: return "constructors";
        case IR_SEGMENT_DESTRUCTORS:  return "destructors";
        }
        return "INVALID_SEGMENT";
}

/** Returns the according symbol value for the given string and tag, or SYMERROR if none was found. */
static unsigned symbol(const char *str, typetag_t typetag)
{
        symbol_t key, *entry;

        key.str = str;
        key.typetag = typetag;

        entry = set_find(symtbl, &key, sizeof(key), firm_fnv_hash_str(str) + typetag * 17);
        return entry ? entry->code : SYMERROR;
}

static void *get_id(io_env_t *env, long id)
{
        id_entry key, *entry;
        key.id = id;

        entry = set_find(env->idset, &key, sizeof(key), (unsigned) id);
        return entry ? entry->elem : NULL;
}

static void set_id(io_env_t *env, long id, void *elem)
{
        id_entry key;
        key.id = id;
        key.elem = elem;
        set_insert(env->idset, &key, sizeof(key), (unsigned) id);
}

static void write_mode(io_env_t *env, ir_mode *mode)
{
        fputs(get_mode_name(mode), env->file);
        fputc(' ', env->file);
}

static void write_tarval(io_env_t *env, tarval *tv)
{
        char buf[1024];
        write_mode(env, get_tarval_mode(tv));
        tarval_snprintf(buf, sizeof(buf), tv);
        fputs(buf, env->file);
        fputc(' ', env->file);
}

static void write_align(io_env_t *env, ir_node *irn)
{
        ir_align align;

        if (is_Load(irn))
                align = get_Load_align(irn);
        else if (is_Store(irn))
                align = get_Store_align(irn);
        else
                panic("Invalid optype for write_align");

        fputs(get_align_name(align), env->file);
        fputc(' ', env->file);
}

static void write_builtin_kind(io_env_t *env, ir_node *irn)
{
        fputs(get_builtin_kind_name(get_Builtin_kind(irn)), env->file);
        fputc(' ', env->file);
}

static void write_cond_jmp_predicate(io_env_t *env, ir_node *irn)
{
        fputs(get_cond_jmp_predicate_name(get_Cond_jmp_pred(irn)), env->file);
        fputc(' ', env->file);
}

static void write_initializer(io_env_t *env, ir_initializer_t *ini)
{
        FILE *f = env->file;
        ir_initializer_kind_t ini_kind = get_initializer_kind(ini);

        fputs(get_initializer_kind_name(ini_kind), f);
        fputc(' ', f);

        switch (ini_kind) {
        case IR_INITIALIZER_CONST:
                fprintf(f, "%ld ", get_irn_node_nr(get_initializer_const_value(ini)));
                break;

        case IR_INITIALIZER_TARVAL:
                write_tarval(env, get_initializer_tarval_value(ini));
                break;

        case IR_INITIALIZER_NULL:
                break;

        case IR_INITIALIZER_COMPOUND: {
                unsigned i, n = get_initializer_compound_n_entries(ini);
                fprintf(f, "%d ", n);
                for (i = 0; i < n; i++)
                        write_initializer(env, get_initializer_compound_value(ini, i));
                break;
        }

        default:
                panic("Unknown initializer kind");
        }
}

static void write_pin_state(io_env_t *env, ir_node *irn)
{
        fputs(get_op_pin_state_name(get_irn_pinned(irn)), env->file);
        fputc(' ', env->file);
}

static void write_volatility(io_env_t *env, ir_node *irn)
{
        ir_volatility vol;

        if (is_Load(irn))
                vol = get_Load_volatility(irn);
        else if (is_Store(irn))
                vol = get_Store_volatility(irn);
        else
                panic("Invalid optype for write_volatility");

        fputs(get_volatility_name(vol), env->file);
        fputc(' ', env->file);
}

static void export_type_common(io_env_t *env, ir_type *tp)
{
        fprintf(env->file, "\ttype %ld %s %u %u %s %d ",
                get_type_nr(tp),
                get_type_tpop_name(tp),
                get_type_size_bytes(tp),
                get_type_alignment_bytes(tp),
                get_type_state_name(get_type_state(tp)),
                tp->flags);
}

static void export_compound_name(FILE *f, const ir_type *tp)
{
        ident *name = get_compound_ident(tp);
        if (name == NULL) {
                fputs("NULL ", f);
        } else {
                fprintf(f, "\"%s\" ", get_id_str(name));
        }
}

static void export_type_pre(io_env_t *env, ir_type *tp)
{
        FILE *f = env->file;

        /* skip types to be handled by post walker */
        switch (get_type_tpop_code(tp)) {
        case tpo_array:
        case tpo_method:
        case tpo_pointer:
                return;
        default:
                break;
        }

        export_type_common(env, tp);

        switch (get_type_tpop_code(tp)) {
        case tpo_uninitialized:
                panic("invalid type found");

        case tpo_class:
                export_compound_name(f, tp);
                break;

        case tpo_primitive:
                write_mode(env, get_type_mode(tp));
                break;

        case tpo_union:
        case tpo_struct:
        case tpo_enumeration:
                export_compound_name(f, tp);
                break;

        case tpo_array:
        case tpo_method:
        case tpo_pointer:
        case tpo_code:
        case tpo_none:
        case tpo_unknown:
                break;
        }
        fputc('\n', f);
}

static void export_type_post(io_env_t *env, ir_type *tp)
{
        FILE *f = env->file;
        int i;

        /* skip types already handled by pre walker */
        switch (get_type_tpop_code(tp)) {
        case tpo_class:
        case tpo_primitive:
        case tpo_struct:
        case tpo_union:
        case tpo_unknown:
        case tpo_uninitialized:
        case tpo_code:
        case tpo_none:
                return;
        case tpo_array:
        case tpo_method:
        case tpo_pointer:
        case tpo_enumeration:
                break;
        }

        export_type_common(env, tp);

        switch (get_type_tpop_code(tp)) {
        case tpo_array: {
                int n = get_array_n_dimensions(tp);
                fprintf(f, "%d %ld ", n, get_type_nr(get_array_element_type(tp)));
                for (i = 0; i < n; i++) {
                        ir_node *lower = get_array_lower_bound(tp, i);
                        ir_node *upper = get_array_upper_bound(tp, i);

                        if (is_Const(lower))
                                fprintf(f, "%ld ", get_tarval_long(get_Const_tarval(lower)));
                        else
                                panic("Lower array bound is not constant");

                        if (is_Const(upper))
                                fprintf(f, "%ld ", get_tarval_long(get_Const_tarval(upper)));
                        else if (is_Unknown(upper))
                                fputs("unknown ", f);
                        else
                                panic("Upper array bound is not constant");
                }
                break;
        }

        case tpo_method: {
                int nparams  = get_method_n_params(tp);
                int nresults = get_method_n_ress(tp);
                fprintf(f, "%u %u %d %d ", get_method_calling_convention(tp),
                        get_method_additional_properties(tp), nparams, nresults);
                for (i = 0; i < nparams; i++)
                        fprintf(f, "%ld ", get_type_nr(get_method_param_type(tp, i)));
                for (i = 0; i < nresults; i++)
                        fprintf(f, "%ld ", get_type_nr(get_method_res_type(tp, i)));
                fprintf(f, "%d ", get_method_first_variadic_param_index(tp));
                break;
        }

        case tpo_pointer:
                write_mode(env, get_type_mode(tp));
                fprintf(f, "%ld ", get_type_nr(get_pointer_points_to_type(tp)));
                break;

        case tpo_enumeration:
                fprintf(stderr, "Enumeration type not handled yet by exporter\n");
                break;

        default:
                printf("export_type: Unknown type code \"%s\".\n",
                       get_type_tpop_name(tp));
                break;
        }
        fputc('\n', f);
}

static void export_entity(io_env_t *env, ir_entity *ent)
{
        ir_type *owner = get_entity_owner(ent);

        /* we don't dump array_element_ent entities. They're a strange concept
         * and lead to cycles in type_graph.
         */
        if (is_Array_type(owner))
                return;

        fprintf(env->file, "\tentity %ld \"%s\" ",
                get_entity_nr(ent), get_entity_name(ent));
        if (ent->ld_name != NULL) {
                fprintf(env->file, "\"%s\" ", get_entity_ld_name(ent));
        } else {
                fprintf(env->file, "NULL ");
        }

        fprintf(env->file, "%ld %ld %d %u %d %s ",
                        get_type_nr(get_entity_type(ent)),
                        get_type_nr(owner),
                        get_entity_offset(ent),
                        (unsigned) get_entity_offset_bits_remainder(ent),
                        is_entity_compiler_generated(ent),
                        get_volatility_name(get_entity_volatility(ent)));

        if (ent->initializer != NULL) {
                fputs("initializer ", env->file);
                write_initializer(env, get_entity_initializer(ent));
        } else if (entity_has_compound_ent_values(ent)) {
                int i, n = get_compound_ent_n_values(ent);
                fputs("compoundgraph ", env->file);
                fprintf(env->file, "%d ", n);
                for (i = 0; i < n; i++) {
                        ir_entity *member = get_compound_ent_value_member(ent, i);
                        ir_node   *irn    = get_compound_ent_value(ent, i);
                        fprintf(env->file, "%ld %ld ", get_entity_nr(member), get_irn_node_nr(irn));
                }
        } else {
                fputs("none", env->file);
        }

        fputc('\n', env->file);
}

static void export_type_or_ent_pre(type_or_ent tore, void *ctx)
{
        io_env_t *env = (io_env_t *) ctx;
        if (get_kind(tore.typ) == k_type)
                export_type_pre(env, tore.typ);
}

static void export_type_or_ent_post(type_or_ent tore, void *ctx)
{
        io_env_t *env = (io_env_t *) ctx;

        switch (get_kind(tore.ent)) {
        case k_entity:
                export_entity(env, tore.ent);
                break;

        case k_type:
                export_type_post(env, tore.typ);
                break;

        default:
                panic("export_type_or_ent_post: Unknown type or entity.");
                break;
        }
}

/**
 * Walker: exports every node.
 */
static void export_node(ir_node *irn, void *ctx)
{
        io_env_t *env = (io_env_t *) ctx;
        int i, n;
        unsigned opcode = get_irn_opcode(irn);

        if (env->ignoreblocks && opcode == iro_Block)
                return;

        fprintf(env->file, "\t%s %ld [ ", get_irn_opname(irn), get_irn_node_nr(irn));

        n = get_irn_arity(irn);
        for (i = -1; i < n; i++) {
                ir_node *pred = get_irn_n(irn, i);
                if (pred == NULL) {
                        /* Anchor node may have NULL predecessors */
                        assert(is_Anchor(irn));
                        fputs("-1 ", env->file);
                } else {
                        fprintf(env->file, "%ld ", get_irn_node_nr(pred));
                }
        }

        fprintf(env->file, "] { ");

        switch (opcode) {
        #include "gen_irio_export.inl"
        }
        fputs("}\n", env->file);
}

static const char *get_mode_sort_name(ir_mode_sort sort)
{
        switch (sort) {
        case irms_auxiliary:        return "auxiliary";
        case irms_control_flow:     return "control_flow";
        case irms_memory:           return "memory";
        case irms_internal_boolean: return "internal_boolean";
        case irms_reference:        return "reference";
        case irms_int_number:       return "int_number";
        case irms_float_number:     return "float_number";
        }
        panic("invalid mode sort found");
}

static void export_modes(io_env_t *env)
{
        int i, n_modes = get_irp_n_modes();

        fputs("modes {\n", env->file);

        for (i = 0; i < n_modes; i++) {
                ir_mode *mode = get_irp_mode(i);
                switch (get_mode_sort(mode)) {
                case irms_auxiliary:
                case irms_control_flow:
                case irms_memory:
                case irms_internal_boolean:
                        /* skip "internal" modes, which may not be user defined */
                        continue;
                default:
                        break;
                }

                fprintf(env->file, "\tmode \"%s\" %s %d %d %s %d %d ",
                        get_mode_name(mode), get_mode_sort_name(get_mode_sort(mode)),
                        get_mode_size_bits(mode), get_mode_sign(mode),
                        get_mode_arithmetic_name(get_mode_arithmetic(mode)),
                        get_mode_modulo_shift(mode),
                        get_mode_n_vector_elems(mode));
                if (mode_is_reference(mode)) {
                        write_mode(env, get_reference_mode_signed_eq(mode));
                        write_mode(env, get_reference_mode_unsigned_eq(mode));
                }
                fputc('\n', env->file);
        }

        fputs("}\n", env->file);
}

static void export_program(io_env_t *env)
{
        FILE         *f = env->file;
        ir_segment_t  s;

        fputs("\nprogram {\n", f);
        if (irp_prog_name_is_set()) {
                fprintf(f, "\tname \"%s\"\n", get_irp_name());
        }
        /* We need numbers for irgs... */
#if 0
        if (get_irp_main_irg() != NULL) {
                fprintf(f, "\tmain_irg %d\n", get_irp_main_irg
#endif

        for (s = 0; s <= IR_SEGMENT_LAST; ++s) {
                ir_type *segment_type = get_segment_type(s);
                fprintf(f, "\tsegment_type %s", get_segment_name(s));
                if (segment_type == NULL) {
                        fputs(" NULL\n", f);
                } else {
                        fprintf(f, " %ld\n", get_type_nr(segment_type));
                }
        }
        fputs("}\n", f);
}

void ir_export(const char *filename)
{
        FILE *file = fopen(filename, "wt");
        if (file == NULL) {
                perror(filename);
                return;
        }

        ir_export_file(file, filename);
        fclose(file);
}

/* Exports the whole irp to the given file in a textual form. */
void ir_export_file(FILE *file, const char *outputname)
{
        io_env_t env;
        int i, n_irgs = get_irp_n_irgs();

        (void) outputname;
        env.file = file;

        export_modes(&env);

        fputs("\ntypegraph {\n", env.file);
        type_walk_prog(export_type_or_ent_pre, export_type_or_ent_post, &env);
        fputs("}\n", env.file);

        for (i = 0; i < n_irgs; i++) {
                ir_graph *irg       = get_irp_irg(i);
                ir_type  *valuetype = get_irg_value_param_type(irg);

                fprintf(env.file, "\nirg %ld %ld %ld {\n",
                        get_entity_nr(get_irg_entity(irg)),
                        get_type_nr(get_irg_frame_type(irg)),
                        valuetype == NULL ? -1 : get_type_nr(valuetype));

                env.ignoreblocks = 0;
                irg_block_walk_graph(irg, NULL, export_node, &env);

                env.ignoreblocks = 1;
                irg_walk_anchors(irg, NULL, export_node, &env);

                fputs("}\n", env.file);
        }

        fprintf(env.file, "\nconstirg %ld {\n", get_irn_node_nr(get_const_code_irg()->current_block));

        walk_const_code(NULL, export_node, &env);
        fputs("}\n", env.file);

        export_program(&env);
}

/* Exports the given irg to the given file. */
void ir_export_irg(ir_graph *irg, FILE *file, const char *outputname)
{
        io_env_t env;

        (void) outputname;
        env.file = file;

        export_modes(&env);

        fputs("typegraph {\n", env.file);

        type_walk_irg(irg, export_type_or_ent_pre, export_type_or_ent_post, &env);

        fprintf(env.file, "}\n\nirg %ld {\n", get_entity_nr(get_irg_entity(irg)));

        env.ignoreblocks = 0;
        irg_block_walk_graph(irg, NULL, export_node, &env);

        env.ignoreblocks = 1;
        irg_walk_anchors(irg, NULL, export_node, &env);

        /* TODO: Only output needed constants */
        fprintf(env.file, "}\n\nconstirg %ld {\n", get_irn_node_nr(get_const_code_irg()->current_block));
        walk_const_code(NULL, export_node, &env);
        fputs("}\n", env.file);
}

static void read_c(io_env_t *env)
{
        int c = fgetc(env->file);
        env->c = c;
        if (c == '\n')
                env->line++;
}

/** Returns the first non-whitespace character or EOF. **/
static void skip_ws(io_env_t *env)
{
        while (true) {
                switch (env->c) {
                case ' ':
                case '\t':
                case '\n':
                case '\r':
                        read_c(env);
                        continue;

                default:
                        return;
                }
        }
}

static void skip_to(io_env_t *env, char to_ch)
{
        while (env->c != to_ch && env->c != EOF) {
                read_c(env);
        }
}

static int expect_char(io_env_t *env, char ch)
{
        skip_ws(env);
        if (env->c != ch) {
                parse_error(env, "Unexpected char '%c', expected '%c'\n",
                            env->c, ch);
                return 0;
        }
        read_c(env);
        return 1;
}

#define EXPECT(c) if (expect_char(env, (c))) {} else return 0

static char *read_word(io_env_t *env)
{
        skip_ws(env);

        assert(obstack_object_size(&env->obst) == 0);
        while (true) {
                int c = env->c;
                switch (c) {
                case EOF:
                case ' ':
                case '\t':
                case '\n':
                case '\r':
                        goto endofword;

                default:
                        obstack_1grow(&env->obst, c);
                        break;
                }
                read_c(env);
        }

endofword:
        obstack_1grow(&env->obst, '\0');
        return obstack_finish(&env->obst);
}

static char *read_quoted_string(io_env_t *env)
{
        skip_ws(env);
        if (env->c != '\"') {
                parse_error(env, "Expected '\"', found '%c'\n", env->c);
                exit(1);
        }
        read_c(env);

        assert(obstack_object_size(&env->obst) == 0);
        while (true) {
                int ch = env->c;
                if (ch == EOF) {
                        parse_error(env, "Unexpected end of quoted string!\n");
                        exit(1);
                }
                if (ch == '\"') {
                        read_c(env);
                        break;
                }
                obstack_1grow(&env->obst, ch);
                read_c(env);
        }
        obstack_1grow(&env->obst, '\0');

        return obstack_finish(&env->obst);
}

static ident *read_ident(io_env_t *env)
{
        char  *str = read_quoted_string(env);
        ident *res = new_id_from_str(str);
        obstack_free(&env->obst, str);

        return res;
}

/*
 * reads a "quoted string" or alternatively the token NULL
 */
static char *read_quoted_string_null(io_env_t *env)
{
        skip_ws(env);
        if (env->c == 'N') {
                char *str = read_word(env);
                if (strcmp(str, "NULL") == 0) {
                        obstack_free(&env->obst, str);
                        return NULL;
                }
        } else if (env->c == '"') {
                return read_quoted_string(env);
        }

        parse_error(env, "Expected \"string\" or NULL\n");
        exit(1);
}

static ident *read_ident_null(io_env_t *env)
{
        ident *res;
        char  *str = read_quoted_string_null(env);
        if (str == NULL)
                return NULL;

        res = new_id_from_str(str);
        obstack_free(&env->obst, str);
        return res;
}

static long read_long(io_env_t *env)
{
        long  result;
        char *str;

        skip_ws(env);
        if (!isdigit(env->c) && env->c != '-') {
                parse_error(env, "Expected number, got '%c'\n", env->c);
                exit(1);
        }

        assert(obstack_object_size(&env->obst) == 0);
        do {
                obstack_1grow(&env->obst, env->c);
                read_c(env);
        } while(isdigit(env->c));
        obstack_1grow(&env->obst, 0);

        str = obstack_finish(&env->obst);
        result = atol(str);
        obstack_free(&env->obst, str);

        return result;
}

static ir_node *get_node_or_null(io_env_t *env, long nodenr)
{
        ir_node *node = (ir_node *) get_id(env, nodenr);
        if (node && node->kind != k_ir_node) {
                panic("Irn ID %ld collides with something else in line %d\n",
                      nodenr, env->line);
        }
        return node;
}

static ir_node *get_node(io_env_t *env, long nodenr)
{
        ir_node *node = get_node_or_null(env, nodenr);
        if (!node)
                panic("Unknown node: %ld in line %d\n", nodenr, env->line);

        return node;
}

static ir_node *get_node_or_dummy(io_env_t *env, long nodenr)
{
        ir_node *node = get_node_or_null(env, nodenr);
        if (node == NULL) {
                node = new_Dummy(mode_X);
                set_id(env, nodenr, node);
        }
        return node;
}

static ir_type *get_type(io_env_t *env, long typenr)
{
        ir_type *type = (ir_type *) get_id(env, typenr);
        if (type == NULL)
                panic("unknown type: %ld in line %d\n", typenr, env->line);
        else if (type->kind != k_type)
                panic("type ID %ld collides with something else in line %d\n",
                      typenr, env->line);
        return type;
}

static ir_type *read_type(io_env_t *env)
{
        return get_type(env, read_long(env));
}

static ir_entity *get_entity(io_env_t *env, long entnr)
{
        ir_entity *entity = (ir_entity *) get_id(env, entnr);
        if (entity == NULL) {
                parse_error(env, "unknown entity: %ld\n", entnr);
                exit(1);
        } else if (entity->kind != k_entity) {
                panic("Entity ID %ld collides with something else in line %d\n",
                      entnr, env->line);
        }

        return entity;
}

static ir_entity *read_entity(io_env_t *env)
{
        return get_entity(env, read_long(env));
}

static ir_mode *read_mode(io_env_t *env)
{
        char *str = read_word(env);
        int i, n;

        n = get_irp_n_modes();
        for (i = 0; i < n; i++) {
                ir_mode *mode = get_irp_mode(i);
                if (strcmp(str, get_mode_name(mode)) == 0) {
                        obstack_free(&env->obst, str);
                        return mode;
                }
        }

        parse_error(env, "unknown mode \"%s\"\n", str);
        exit(1);
}

static const char *get_typetag_name(typetag_t typetag)
{
        switch (typetag) {
        case tt_align:              return "align";
        case tt_allocation:         return "allocation";
        case tt_builtin:            return "builtin kind";
        case tt_cond_jmp_predicate: return "cond_jmp_predicate";
        case tt_initializer:        return "initializer kind";
        case tt_iro:                return "opcode";
        case tt_keyword:            return "keyword";
        case tt_linkage:            return "linkage";
        case tt_mode_arithmetic:    return "mode_arithmetic";
        case tt_mode_sort:          return "mode_sort";
        case tt_pin_state:          return "pin state";
        case tt_segment:            return "segment";
        case tt_tpo:                return "type";
        case tt_type_state:         return "type state";
        case tt_volatility:         return "volatility";
        case tt_visibility:         return "visibility";
        }
        return "<UNKNOWN>";
}

/**
 * Read and decode an enum constant.
 */
static unsigned read_enum(io_env_t *env, typetag_t typetag)
{
        char     *str  = read_word(env);
        unsigned  code = symbol(str, typetag);

        if (code != SYMERROR) {
                obstack_free(&env->obst, str);
                return code;
        }

        parse_error(env, "invalid %s: \"%s\"\n", get_typetag_name(typetag), str);
        return 0;
}

#define read_align(env)              ((ir_align)              read_enum(env, tt_align))
#define read_allocation(env)         ((ir_allocation)         read_enum(env, tt_allocation))
#define read_builtin_kind(env)       ((ir_builtin_kind)       read_enum(env, tt_builtin))
#define read_cond_jmp_predicate(env) ((cond_jmp_predicate)    read_enum(env, tt_cond_jmp_predicate))
#define read_initializer_kind(env)   ((ir_initializer_kind_t) read_enum(env, tt_initializer))
#define read_mode_arithmetic(env)    ((ir_mode_arithmetic)    read_enum(env, tt_mode_arithmetic))
#define read_peculiarity(env)        ((ir_peculiarity)        read_enum(env, tt_peculiarity))
#define read_pin_state(env)          ((op_pin_state)          read_enum(env, tt_pin_state))
#define read_type_state(env)         ((ir_type_state)         read_enum(env, tt_type_state))
#define read_variability(env)        ((ir_variability)        read_enum(env, tt_variability))
#define read_volatility(env)         ((ir_volatility)         read_enum(env, tt_volatility))

static ir_cons_flags get_cons_flags(io_env_t *env)
{
        ir_cons_flags flags = cons_none;

        op_pin_state pinstate = read_pin_state(env);
        switch (pinstate) {
        case op_pin_state_floats: flags |= cons_floats; break;
        case op_pin_state_pinned: break;
        default:
                panic("Error in %d: Invalid pinstate: %s", env->line,
                      get_op_pin_state_name(pinstate));
        }

        if (read_volatility(env) == volatility_is_volatile)
                flags |= cons_volatile;
        if (read_align(env) == align_non_aligned)
                flags |= cons_unaligned;

        return flags;
}

static tarval *read_tv(io_env_t *env)
{
        ir_mode *tvmode = read_mode(env);
        char    *str    = read_word(env);
        tarval  *tv     = new_tarval_from_str(str, strlen(str), tvmode);
        obstack_free(&env->obst, str);

        return tv;
}

static ir_initializer_t *read_initializer(io_env_t *env)
{
        ir_initializer_kind_t ini_kind = read_initializer_kind(env);

        switch (ini_kind) {
        case IR_INITIALIZER_CONST: {
                ir_node *irn = get_node_or_dummy(env, read_long(env));
                return create_initializer_const(irn);
        }

        case IR_INITIALIZER_TARVAL:
                return create_initializer_tarval(read_tv(env));

        case IR_INITIALIZER_NULL:
                return get_initializer_null();

        case IR_INITIALIZER_COMPOUND: {
                unsigned i, n = (unsigned) read_long(env);
                ir_initializer_t *ini = create_initializer_compound(n);
                for (i = 0; i < n; i++) {
                        ir_initializer_t *curini = read_initializer(env);
                        set_initializer_compound_value(ini, i, curini);
                }
                return ini;
        }

        default:
                panic("Unknown initializer kind");
        }
}


/** Reads a type description and remembers it by its id. */
static void import_type(io_env_t *env)
{
        int            i;
        ir_type       *type;
        long           typenr = read_long(env);
        tp_opcode      tpop   = (tp_opcode) read_enum(env, tt_tpo);
        unsigned       size   = (unsigned) read_long(env);
        unsigned       align  = (unsigned) read_long(env);
        ir_type_state  state  = read_type_state(env);
        unsigned       flags  = (unsigned) read_long(env);

        switch (tpop) {
        case tpo_array: {
                int ndims = (int) read_long(env);
                long elemtypenr = read_long(env);
                ir_type *elemtype = get_type(env, elemtypenr);

                type = new_type_array(ndims, elemtype);
                for (i = 0; i < ndims; i++) {
                        char *str = read_word(env);
                        if (strcmp(str, "unknown") != 0) {
                                long lowerbound = atol(str);
                                set_array_lower_bound_int(type, i, lowerbound);
                        }
                        obstack_free(&env->obst, str);

                        str = read_word(env);
                        if (strcmp(str, "unknown") != 0) {
                                long upperbound = atol(str);
                                set_array_upper_bound_int(type, i, upperbound);
                        }
                        obstack_free(&env->obst, str);
                }
                set_type_size_bytes(type, size);
                break;
        }

        case tpo_class: {
                const char *name = read_quoted_string_null(env);
                ident      *id   = name != NULL ? new_id_from_str(name) : NULL;

                if(typenr == (long) IR_SEGMENT_GLOBAL)
                        type = get_glob_type();
                else
                        type = new_type_class(id);
                set_type_size_bytes(type, size);
                break;
        }

        case tpo_method: {
                unsigned callingconv = (unsigned) read_long(env);
                unsigned addprops    = (unsigned) read_long(env);
                int nparams          = (int)      read_long(env);
                int nresults         = (int)      read_long(env);
                int variaindex;

                type = new_type_method(nparams, nresults);

                for (i = 0; i < nparams; i++) {
                        long     typenr = read_long(env);
                        ir_type *paramtype = get_type(env, typenr);

                        set_method_param_type(type, i, paramtype);
                }
                for (i = 0; i < nresults; i++) {
                        long typenr = read_long(env);
                        ir_type *restype = get_type(env, typenr);

                        set_method_res_type(type, i, restype);
                }

                variaindex = (int) read_long(env);
                if (variaindex != -1) {
                        set_method_variadicity(type, variadicity_variadic);
                        if (variaindex != nparams)
                                set_method_first_variadic_param_index(type, variaindex);
                }

                set_method_calling_convention(type, callingconv);
                set_method_additional_properties(type, addprops);
                break;
        }

        case tpo_pointer: {
                ir_mode *mode     = read_mode(env);
                ir_type *pointsto = get_type(env, read_long(env));
                type = new_type_pointer(pointsto);
                set_type_mode(type, mode);
                break;
        }

        case tpo_primitive: {
                ir_mode *mode = read_mode(env);
                type = new_type_primitive(mode);
                break;
        }

        case tpo_struct: {
                const char *name = read_quoted_string_null(env);
                ident      *id   = name != NULL ? new_id_from_str(name) : NULL;
                type = new_type_struct(id);
                set_type_size_bytes(type, size);
                break;
        }

        case tpo_union: {
                const char *name = read_quoted_string_null(env);
                ident      *id   = name != NULL ? new_id_from_str(name) : NULL;

                type = new_type_union(id);
                set_type_size_bytes(type, size);
                break;
        }

        case tpo_unknown:
                return;   /* ignore unknown type */

        default:
                parse_error(env, "unknown type kind: \"%d\"\n", tpop);
                skip_to(env, '\n');
                return;
        }

        set_type_alignment_bytes(type, align);
        type->flags = flags;

        if (state == layout_fixed)
                ARR_APP1(ir_type *, env->fixedtypes, type);

        set_id(env, typenr, type);
}

/** Reads an entity description and remembers it by its id. */
static void import_entity(io_env_t *env)
{
        long   entnr       = read_long(env);
        ident *name        = read_ident(env);
        ident *ld_name     = read_ident_null(env);
        long   typenr      = read_long(env);
        long   ownertypenr = read_long(env);
        const char *str;

        ir_type   *type      = get_type(env, typenr);
        ir_type   *ownertype = !ownertypenr ? get_glob_type() : get_type(env, ownertypenr);
        ir_entity *entity    = new_entity(ownertype, name, type);

        if (ld_name != NULL)
                set_entity_ld_ident(entity, ld_name);
        set_entity_offset     (entity, (int) read_long(env));
        set_entity_offset_bits_remainder(entity, (unsigned char) read_long(env));
        set_entity_compiler_generated(entity, (int) read_long(env));
        set_entity_volatility (entity, read_volatility(env));
        /* TODO: read/write linkage */

        str = read_word(env);
        if (strcmp(str, "initializer") == 0) {
                set_entity_initializer(entity, read_initializer(env));
        } else if (strcmp(str, "compoundgraph") == 0) {
                int n = (int) read_long(env);
                int i;
                for (i = 0; i < n; i++) {
                        ir_entity *member = get_entity(env, read_long(env));
                        ir_node   *irn    = get_node_or_dummy(env, read_long(env));
                        add_compound_ent_value(entity, irn, member);
                }
        } else if (strcmp(str, "none") == 0) {
                /* do nothing */
        } else {
                parse_error(env, "expected 'initializer', 'compoundgraph' or 'none' got '%s'\n", str);
                exit(1);
        }

        set_id(env, entnr, entity);
}

/** Parses the whole type graph. */
static int parse_typegraph(io_env_t *env)
{
        keyword_t kwkind;

        EXPECT('{');

        current_ir_graph = get_const_code_irg();

        /* parse all types first */
        while (true) {
                skip_ws(env);
                if (env->c == '}') {
                        read_c(env);
                        break;
                }

                kwkind = (keyword_t) read_enum(env, tt_keyword);
                switch (kwkind) {
                case kw_type:
                        import_type(env);
                        break;

                case kw_entity:
                        import_entity(env);
                        break;

                default:
                        parse_error(env, "type graph element not supported yet: %d\n", kwkind);
                        skip_to(env, '\n');
                        break;
                }
        }
        return 1;
}

static int read_node_header(io_env_t *env, long *nodenr, long **preds,
                            const char **nodename)
{
        int numpreds;

        *nodename = read_word(env);
        *nodenr   = read_long(env);

        ARR_RESIZE(ir_node *, *preds, 0);

        EXPECT('[');
        for (numpreds = 0; !feof(env->file); numpreds++) {
                long val;

                skip_ws(env);
                if (env->c == ']') {
                        read_c(env);
                        break;
                }
                val = read_long(env);
                ARR_APP1(long, *preds, val);
        }

        return numpreds;
}

/** Parses an IRG. */
static int parse_graph(io_env_t *env, ir_graph *irg)
{
        long       *preds = NEW_ARR_F(long, 16);
        ir_node   **prednodes = NEW_ARR_F(ir_node *, 16);
        int         i, numpreds, ret = 1;
        long        nodenr;
        const char *nodename;
        ir_node    *node, *newnode;

        current_ir_graph = irg;

        EXPECT('{');

        while (true) {
                skip_ws(env);
                if (env->c == '}') {
                        read_c(env);
                        break;
                }

                numpreds = read_node_header(env, &nodenr, &preds, &nodename);
                if (numpreds == -1) break;  /* end-of-graph */
                if (!numpreds) {
                        parse_error(env, "node %s %ld is missing predecessors!",
                                    nodename, nodenr);
                        ret = 0;
                        break;
                }

                ARR_RESIZE(ir_node *, prednodes, numpreds);
                for (i = 0; i < numpreds - 1; i++)
                        prednodes[i] = get_node_or_dummy(env, preds[i + 1]);

                node = get_node_or_null(env, nodenr);
                newnode = NULL;

                EXPECT('{');

                switch (symbol(nodename, tt_iro)) {
                case iro_End:
                {
                        ir_node *newendblock = get_node(env, preds[0]);
                        newnode = get_irg_end(current_ir_graph);
                        exchange(get_nodes_block(newnode), newendblock);
                        for (i = 0; i < numpreds - 1; i++)
                                add_irn_n(newnode, prednodes[i]);
                        break;
                }

                case iro_Start:
                {
                        ir_node *newstartblock = get_node(env, preds[0]);
                        newnode = get_irg_start(current_ir_graph);
                        exchange(get_nodes_block(newnode), newstartblock);
                        break;
                }

                case iro_Block:
                {
                        if (preds[0] != nodenr) {
                                parse_error(env, "invalid block: preds[0] != nodenr (%ld != %ld)\n",
                                            preds[0], nodenr);
                                ret = 0;
                                goto endloop;
                        }

                        newnode = new_Block(numpreds - 1, prednodes);
                        break;
                }

                case iro_Anchor:
                        newnode = current_ir_graph->anchor;
                        for (i = 0; i < numpreds - 1; i++)
                                set_irn_n(newnode, i, prednodes[i]);
                        set_irn_n(newnode, -1, get_node(env, preds[0]));
                        break;

                case iro_SymConst:
                {
                        long entnr = read_long(env);
                        union symconst_symbol sym;
                        sym.entity_p = get_entity(env, entnr);
                        newnode = new_SymConst(mode_P, sym, symconst_addr_ent);
                        break;
                }

                #include "gen_irio_import.inl"

                default:
                        goto notsupported;
                }

                EXPECT('}');

                if (!newnode) {
notsupported:
                        parse_error(env, "node type not supported yet: %s\n", nodename);
                        abort();
                }

                if (node)
                        exchange(node, newnode);
                /* Always update hash entry to avoid more uses of id nodes */
                set_id(env, nodenr, newnode);
        }

endloop:
        DEL_ARR_F(preds);
        DEL_ARR_F(prednodes);

        return ret;
}

static int parse_modes(io_env_t *env)
{
        EXPECT('{');

        while (true) {
                keyword_t kwkind;

                skip_ws(env);
                if (env->c == '}') {
                        read_c(env);
                        break;
                }

                kwkind = (keyword_t) read_enum(env, tt_keyword);
                switch (kwkind) {
                case kw_mode: {
                        const char *name = read_quoted_string(env);
                        ir_mode_sort sort = read_enum(env, tt_mode_sort);
                        int size = read_long(env);
                        int sign = read_long(env);
                        ir_mode_arithmetic arith = read_mode_arithmetic(env);
                        unsigned modulo_shift = read_long(env);
                        int vector_elems = read_long(env);
                        ir_mode *mode;

                        if (vector_elems != 1) {
                                panic("no support for import of vector modes yes");
                        }

                        mode = new_ir_mode(name, sort, size, sign, arith, modulo_shift);
                        if (mode_is_reference(mode)) {
                                set_reference_mode_signed_eq(mode, read_mode(env));
                                set_reference_mode_unsigned_eq(mode, read_mode(env));
                        }
                        break;
                }

                default:
                        skip_to(env, '\n');
                        break;
                }
        }
        return 1;
}

static int parse_program(io_env_t *env)
{
        EXPECT('{');

        while (true) {
                keyword_t kwkind;

                skip_ws(env);
                if (env->c == '}') {
                        read_c(env);
                        break;
                }

                kwkind = (keyword_t) read_enum(env, tt_keyword);
                switch (kwkind) {
                case kw_segment_type: {
                        ir_segment_t  segment = (ir_segment_t) read_enum(env, tt_segment);
                        ir_type      *type    = read_type(env);
                        set_segment_type(segment, type);
                        break;
                }
                default:
                        parse_error(env, "unexpected keyword %d\n", kwkind);
                        skip_to(env, '\n');
                }
        }
        return 1;
}

void ir_import(const char *filename)
{
        FILE *file = fopen(filename, "rt");
        if (file == NULL) {
                perror(filename);
                exit(1);
        }

        ir_import_file(file, filename);

        fclose(file);
}

void ir_import_file(FILE *input, const char *inputname)
{
        int oldoptimize = get_optimize();
        firm_verification_t oldver = get_node_verification_mode();
        io_env_t ioenv;
        io_env_t *env = &ioenv;
        int i, n;

        symtbl_init();

        memset(env, 0, sizeof(*env));
        obstack_init(&env->obst);
        env->idset      = new_set(id_cmp, 128);
        env->fixedtypes = NEW_ARR_F(ir_type *, 0);
        env->inputname  = inputname;
        env->file       = input;
        env->line       = 1;

        /* read first character */
        read_c(env);

        set_optimize(0);
        do_node_verification(FIRM_VERIFICATION_OFF);

        while (true) {
                keyword_t kw;

                skip_ws(env);
                if (env->c == EOF)
                        break;

                kw = read_enum(env, tt_keyword);
                switch (kw) {
                case kw_modes:
                        if (!parse_modes(env)) goto end;
                        break;

                case kw_typegraph:
                        if (!parse_typegraph(env)) goto end;
                        break;

                case kw_irg:
                {
                        ir_entity *irgent = get_entity(env, read_long(env));
                        long valuetypeid;
                        ir_graph *irg = new_ir_graph(irgent, 0);
                        set_irg_frame_type(irg, get_type(env, read_long(env)));
                        valuetypeid = read_long(env);
                        if (valuetypeid != -1)
                                set_method_value_param_type(get_entity_type(irgent),
                                                get_type(env, valuetypeid));

                        if (!parse_graph(env, irg)) goto end;
                        break;
                }

                case kw_constirg: {
                        ir_graph *constirg = get_const_code_irg();
                        long bodyblockid = read_long(env);
                        set_id(env, bodyblockid, constirg->current_block);
                        if (!parse_graph(env, constirg)) goto end;
                        break;
                }

                case kw_program:
                        parse_program(env);
                        break;

                default: {
                        parse_error(env, "Unexpected keyword %d at toplevel\n", kw);
                        exit(1);
                }
                }
        }

end:
        n = ARR_LEN(env->fixedtypes);
        for (i = 0; i < n; i++)
                set_type_state(env->fixedtypes[i], layout_fixed);

        DEL_ARR_F(env->fixedtypes);

        del_set(env->idset);

        irp_finalize_cons();

        do_node_verification(oldver);
        set_optimize(oldoptimize);

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