Fix compile errors.

[libfirm] / ir / ir / irdumptxt.c

/*
 * Copyright (C) 1995-2008 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 vcg representation of firm to file.
 * @author  Martin Trapp, Christian Schaefer, Goetz Lindenmaier, Hubert Schmidt
 * @version $Id$
 */
#include "config.h"

#include <string.h>
#include <stdlib.h>
#include <stdarg.h>

#include "irdump_t.h"
#include "irgraph_t.h"

#include "firm_common_t.h"

#include "irprog_t.h"
#include "entity_t.h"
#include "trouts.h"
#include "irgwalk.h"
#include "tv_t.h"
#include "irprintf.h"
#include "error.h"

#include "irdom.h"
#include "field_temperature.h"

#define MY_SIZE 1024     /* Size of an array that actually should be computed. */

/**
 * Just opens a file, mangling a file name.
 *
 * The file name results from the concatenation of the following parts:
 *
 * @param basename  The basis of the name telling about the content.
 * @param suffix1   The first suffix.
 * @param suffix2   The second suffix.
 * @param suffix3   The third suffix.
 */
static FILE *text_open(const char *basename, const char * suffix1, const char *suffix2, const char *suffix3) {
        FILE *F;
        int len = strlen(basename), i, j;
        char *fname;  /* filename to put the vcg information in */

        if (!basename) assert(basename);
        if (!suffix1) suffix1 = "";
        if (!suffix2) suffix2 = "";
        if (!suffix3) suffix3 = ".txt";

        /* open file for vcg graph */
        fname = XMALLOCN(char, strlen(basename)*2 + strlen(suffix1) + strlen(suffix2) + 5); /* *2: space for escapes. */

        j = 0;
        for (i = 0; i < len; ++i) {  /* replace '/' in the name: escape by @. */
                if (basename[i] == '/') {
                        fname[j] = '@'; j++; fname[j] = '1'; j++;
                } else if (basename[i] == '@') {
                        fname[j] = '@'; j++; fname[j] = '2'; j++;
                } else {
                        fname[j] = basename[i]; j++;
                }
        }
        fname[j] = '\0';
        strcat(fname, suffix1);  /* append file suffix */
        strcat(fname, suffix2);  /* append file suffix */
        strcat(fname, suffix3);  /* append the .txt suffix */

        F = fopen(fname, "w");   /* open file for writing */
        if (!F) {
                perror(fname);
                abort();
        }
        free(fname);

        return F;
}

/* Write the irnode and all its attributes to the file passed. */
int dump_irnode_to_file(FILE *F, ir_node *n) {
        int i, bad = 0;
        char comma;
        ir_graph *irg;

        dump_node_opcode(F, n);
        fprintf(F, " %ld\n", get_irn_node_nr(n));

        fprintf(F, "  index: %u\n", get_irn_idx(n));
        if (opt_dump_pointer_values_to_info)
                fprintf (F, "  addr:    %p \n", (void *)n);
        fprintf (F, "  mode:    %s\n", get_mode_name(get_irn_mode(n)));
        fprintf (F, "  visited: %ld \n", get_irn_visited(n));
        irg = get_irn_irg(n);
        if (irg != get_const_code_irg())
                fprintf (F, "  irg:     %s\n", get_ent_dump_name(get_irg_entity(irg)));

        if (get_irn_pinned(n) == op_pin_state_floats &&
                get_irg_pinned(get_irn_irg(n)) == op_pin_state_floats) {
                fprintf(F, "  node was pinned in ");
                dump_node_opcode(F, get_irn_n(n, -1));
                fprintf(F, " %ld\n", get_irn_node_nr(get_irn_n(n, -1)));
        }

#ifdef INTERPROCEDURAL_VIEW
        fprintf(F, "  arity:   %d\n", get_irn_intra_arity(n));
        /* show all predecessor nodes */
        fprintf(F, "  pred nodes: \n");
        if (!is_Block(n)) {
                fprintf(F, "    -1:    ");
                dump_node_opcode(F, get_irn_n(n, -1));
                fprintf(F, " %ld\n", get_irn_node_nr(get_irn_n(n, -1)));
        }
        for ( i = 0; i < get_irn_intra_arity(n); ++i) {
                fprintf(F, "     %d: %s ", i, is_intra_backedge(n, i) ? "be" : "  ");
                dump_node_opcode(F, get_irn_intra_n(n, i));
                fprintf(F, " %ld\n", get_irn_node_nr(get_irn_intra_n(n, i)));
        }
#else
        fprintf(F, "  arity:   %d\n", get_irn_arity(n));
        /* show all predecessor nodes */
        fprintf(F, "  pred nodes: \n");
        if (!is_Block(n)) {
                fprintf(F, "    -1:    ");
                dump_node_opcode(F, get_irn_n(n, -1));
                fprintf(F, " %ld\n", get_irn_node_nr(get_irn_n(n, -1)));
        }
        for ( i = 0; i < get_irn_arity(n); ++i) {
                fprintf(F, "     %d: %s ", i, is_backedge(n, i) ? "be" : "  ");
                dump_node_opcode(F, get_irn_n(n, i));
                fprintf(F, " %ld\n", get_irn_node_nr(get_irn_n(n, i)));
        }
#endif

        fprintf(F, "  Private Attributes:\n");

        if (is_Proj(n))
                fprintf(F, "  proj nr: %ld\n", get_Proj_proj(n));

#ifdef INTERPROCEDURAL_VIEW
        if ((get_irp_ip_view_state() != ip_view_no) && (is_Filter(n) || is_Block(n))) {
                fprintf(F, "  inter arity: %d\n", get_irn_inter_arity(n));
                fprintf(F, "  inter pred nodes: \n");
                for (i = 0; i < get_irn_inter_arity(n); ++i) {
                        fprintf(F, "     %d: %s ", i, is_intra_backedge(n, i) ? "be" : "  ");
                        dump_node_opcode(F, get_irn_inter_n(n, i));
                        fprintf(F, " %ld\n", get_irn_node_nr(get_irn_inter_n(n, i)));
                }
        }
#endif

        if (is_fragile_op(n)) {
                fprintf(F, "  pinned state: %s\n", get_op_pin_state_name(get_irn_pinned(n)));
                /* not dumped: frag array */
        }

        /* This is not nice, output it as a marker in the predecessor list. */
        if (is_Block(n)             ||
            get_irn_op(n) == op_Phi ||
            (is_Filter(n) && get_interprocedural_view())) {
                fprintf(F, "  backedges:");
                comma = ' ';
                for (i = 0; i < get_irn_arity(n); i++)
                        if (is_backedge(n, i)) { fprintf(F, "%c %d", comma, i); comma = ','; }
                        fprintf(F, "\n");
        }

        /* Loop node.   Someone else please tell me what's wrong ... */
        if (get_irg_loopinfo_state(irg) & loopinfo_valid) {
                ir_loop *loop = get_irn_loop(n);
                if (loop != NULL) {
                        fprintf(F, "  in loop %d with depth %d\n",
                                get_loop_loop_nr(loop), get_loop_depth(loop));
                }
        }

        /* Source types */
        switch (get_irn_opcode(n)) {
        case iro_Block: {
                if (has_Block_label(n))
                        fprintf(F, "  Label: %lu\n", get_Block_label(n));
                ir_fprintf(F, "  macro Block: %+F\n", get_Block_MacroBlock(n));
                fprintf(F, "  block visited: %ld\n", get_Block_block_visited(n));
                fprintf(F, "  block marked: %u\n", get_Block_mark(n));
                if (get_irg_dom_state(get_irn_irg(n)) != dom_none) {
                        fprintf(F, "  dom depth %d\n", get_Block_dom_depth(n));
                        fprintf(F, "  tree pre num %d\n", get_Block_dom_tree_pre_num(n));
                        fprintf(F, "  max subtree pre num %d\n", get_Block_dom_max_subtree_pre_num(n));
                }

                fprintf(F, "  Execution frequency statistics:\n");
                if (get_irg_exec_freq_state(get_irn_irg(n)) != exec_freq_none)
                        fprintf(F, "    procedure local evaluation:   %8.2lf\n", get_irn_exec_freq(n));
#ifdef INTERPROCEDURAL_VIEW
                if (get_irp_loop_nesting_depth_state() != loop_nesting_depth_none)
                        fprintf(F, "    call frequency of procedure:   %8.2lf\n",
                        get_irg_method_execution_frequency(get_irn_irg(n)));
                if (get_irp_callgraph_state() == irp_callgraph_and_calltree_consistent)
                        fprintf(F, "    recursion depth of procedure: %8.2lf\n", (double)get_irn_recursion_depth(n));
                if ((get_irg_exec_freq_state(get_irn_irg(n)) != exec_freq_none) &&
                        (get_irp_loop_nesting_depth_state() != loop_nesting_depth_none) &&
                        (get_irp_callgraph_state() == irp_callgraph_and_calltree_consistent))
                        fprintf(F, "    final evaluation:           **%8.2lf**\n", get_irn_final_cost(n));
#endif

                /* not dumped: graph_arr */
                /* not dumped: mature    */
        }  break;
        case iro_Start: {
                ir_type *tp = get_entity_type(get_irg_entity(get_irn_irg(n)));
                fprintf(F, "  start of method of type %s \n", get_type_name_ex(tp, &bad));
                for (i = 0; i < get_method_n_params(tp); ++i)
                        fprintf(F, "    param %d type: %s \n", i, get_type_name_ex(get_method_param_type(tp, i), &bad));
#ifdef INTERPROCEDURAL_VIEW
                if ((get_irp_ip_view_state() == ip_view_valid) && !get_interprocedural_view()) {
                        ir_node *sbl = get_nodes_block(n);
                        int i, n_cfgpreds = get_Block_cg_n_cfgpreds(sbl);
                        fprintf(F, "  graph has %d interprocedural predecessors:\n", n_cfgpreds);
                        for (i = 0; i < n_cfgpreds; ++i) {
                                ir_node *cfgpred = get_Block_cg_cfgpred(sbl, i);
                                fprintf(F, "    %d: Call %ld in graph %s\n", i, get_irn_node_nr(cfgpred),
                                        get_irg_dump_name(get_irn_irg(cfgpred)));
                        }
                }
#endif
        } break;
        case iro_Cond: {
                fprintf(F, "  condition kind: %s\n",  get_Cond_kind(n) == dense ? "dense" : "fragmentary");
                fprintf(F, "  default ProjNr: %ld\n", get_Cond_default_proj(n));
                if (get_Cond_jmp_pred(n) != COND_JMP_PRED_NONE)
                        fprintf(F, "  jump prediction: %s\n", get_cond_jmp_predicate_name(get_Cond_jmp_pred(n)));
        } break;
        case iro_Alloc: {
                fprintf(F, "  allocating entity of type: %s \n", get_type_name_ex(get_Alloc_type(n), &bad));
                fprintf(F, "  allocating on: the %s\n", (get_Alloc_where(n) == stack_alloc) ? "stack" : "heap");
        } break;
        case iro_Free: {
                fprintf(F, "  freeing entity of type %s \n", get_type_name_ex(get_Free_type(n), &bad));
                fprintf(F, "  allocated on: the %s\n", (get_Free_where(n) == stack_alloc) ? "stack" : "heap");
        } break;
        case iro_Sel: {
                ir_entity *ent = get_Sel_entity(n);
                if (ent) {
                        fprintf(F, "  Selecting entity %s (%ld)\n", get_entity_name(ent), get_entity_nr(ent));
                        fprintf(F, "    of type    %s\n",  get_type_name_ex(get_entity_type(ent),  &bad));
                        fprintf(F, "    with owner %s.\n", get_type_name_ex(get_entity_owner(ent), &bad));
                }
                else {
                        fprintf(F, "  <NULL entity>\n");
                        bad = 1;
                }
        } break;
        case iro_Call: {
                ir_type *tp = get_Call_type(n);
                fprintf(F, "  calling method of type %s \n", get_type_name_ex(tp, &bad));
                if(get_unknown_type() != tp) {
                        for (i = 0; i < get_method_n_params(tp); ++i)
                                fprintf(F, "    param %d type: %s \n", i, get_type_name_ex(get_method_param_type(tp, i), &bad));
                        for (i = 0; i < get_method_n_ress(tp); ++i)
                                fprintf(F, "    resul %d type: %s \n", i, get_type_name_ex(get_method_res_type(tp, i), &bad));
                }
                if (Call_has_callees(n)) {
                        fprintf(F, "  possible callees: \n");
                        for (i = 0; i < get_Call_n_callees(n); i++) {
                                fprintf(F, "    %d: %s\n", i, get_ent_dump_name(get_Call_callee(n, i)));
                        }
                }
        } break;
        case iro_CallBegin: {
                ir_node *call = get_CallBegin_call(n);
                fprintf(F, "  Call: %ld\n", get_irn_node_nr(call));
                if (Call_has_callees(call)) {
                        fprintf(F, "  possible callees: \n");
                        for (i = 0; i < get_Call_n_callees(call); i++) {
                                fprintf(F, "    %d: %s\n", i, get_ent_dump_name(get_Call_callee(call, i)));
                        }
                }
        } break;
        case iro_Cast: {
                fprintf(F, "  cast to type: %s\n", get_type_name_ex(get_Cast_type(n), &bad));
        } break;
        case iro_Return: {
                if (!get_interprocedural_view()) {
                        ir_type *tp = get_entity_type(get_irg_entity(get_irn_irg(n)));
                        fprintf(F, "  return in method of type %s \n", get_type_name_ex(tp, &bad));
                        for (i = 0; i < get_method_n_ress(tp); ++i)
                                fprintf(F, "    res %d type: %s \n", i, get_type_name_ex(get_method_res_type(tp, i), &bad));
                }
        } break;
        case iro_Const: {
                assert(get_Const_type(n) != firm_none_type);
                fprintf(F, "  Const of type %s \n", get_type_name_ex(get_Const_type(n), &bad));
        } break;
        case iro_SymConst: {
                switch(get_SymConst_kind(n)) {
                case symconst_addr_name:
                        fprintf(F, "  kind: addr_name\n");
                        fprintf(F, "  name: %s\n", get_id_str(get_SymConst_name(n)));
                        break;
                case symconst_addr_ent:
                        fprintf(F, "  kind:   addr_ent\n");
                        fprintf(F, "  entity: ");
                        dump_entity_to_file(F, get_SymConst_entity(n), dump_verbosity_onlynames);
                        break;
                case symconst_ofs_ent:
                        fprintf(F, "  kind:   offset\n");
                        fprintf(F, "  entity: ");
                        dump_entity_to_file(F, get_SymConst_entity(n), dump_verbosity_onlynames);
                        break;
                case symconst_type_tag:
                        fprintf(F, "  kind: type_tag\n");
                        fprintf(F, "  type: ");
                        dump_type_to_file(F, get_SymConst_type(n), dump_verbosity_onlynames);
                        break;
                case symconst_type_size:
                        fprintf(F, "  kind: size\n");
                        fprintf(F, "  type: ");
                        dump_type_to_file(F, get_SymConst_type(n), dump_verbosity_onlynames);
                        break;
                case symconst_type_align:
                        fprintf(F, "  kind: alignment\n");
                        fprintf(F, "  type: ");
                        dump_type_to_file(F, get_SymConst_type(n), dump_verbosity_onlynames);
                        break;
                case symconst_enum_const:
                        fprintf(F, "  kind: enumeration\n");
                        fprintf(F, "  name: %s\n", get_enumeration_name(get_SymConst_enum(n)));
                        break;
                case symconst_label:
                        fprintf(F, "  kind: label\n");
                        fprintf(F, "  label: %lu\n", get_SymConst_label(n));
                        break;
                }
                fprintf(F, "  type of value: %s \n", get_type_name_ex(get_SymConst_value_type(n), &bad));
        } break;
        case iro_Load:
                fprintf(F, "  mode of loaded value: %s\n", get_mode_name_ex(get_Load_mode(n), &bad));
                fprintf(F, "  volatility: %s\n", get_volatility_name(get_Load_volatility(n)));
                fprintf(F, "  align: %s\n", get_align_name(get_Load_align(n)));
                break;
        case iro_Store:
                fprintf(F, "  volatility: %s\n", get_volatility_name(get_Store_volatility(n)));
                fprintf(F, "  align: %s\n", get_align_name(get_Store_align(n)));
                break;
        case iro_Confirm:
                fprintf(F, "  compare operation: %s\n", get_pnc_string(get_Confirm_cmp(n)));
                break;
        case iro_ASM: {
                const ir_asm_constraint *cons;
                ident **clobber;
                int l;

                fprintf(F, "  assembler text: %s", get_id_str(get_ASM_text(n)));
                l = get_ASM_n_input_constraints(n);
                if (l > 0) {
                        fprintf(F, "\n  inputs:  ");
                        cons = get_ASM_input_constraints(n);
                        for (i = 0; i < l; ++i)
                                fprintf(F, "%%%u %s ", cons[i].pos, get_id_str(cons[i].constraint));
                }
                l = get_ASM_n_output_constraints(n);
                if (l > 0) {
                        fprintf(F, "\n  outputs: ");
                        cons = get_ASM_output_constraints(n);
                        for (i = 0; i < l; ++i)
                                fprintf(F, "%%%u %s ", cons[i].pos, get_id_str(cons[i].constraint));
                }
                l = get_ASM_n_clobbers(n);
                if (l > 0) {
                        fprintf(F, "\n  clobber: ");
                        clobber = get_ASM_clobbers(n);
                        for (i = 0; i < l; ++i)
                                fprintf(F, "%s ", get_id_str(clobber[i]));
                }
                if (get_irn_pinned(n) != op_pin_state_floats)
                        fprintf(F, "\n  volatile");
                fprintf(F, "\n");
        } break;
        default: ;
        }

        if (get_irg_typeinfo_state(get_irn_irg(n)) == ir_typeinfo_consistent  ||
                get_irg_typeinfo_state(get_irn_irg(n)) == ir_typeinfo_inconsistent  )
                if (get_irn_typeinfo_type(n) != firm_none_type)
                        fprintf (F, "  Analysed type: %s\n", get_type_name_ex(get_irn_typeinfo_type(n), &bad));

        return bad;
}



void dump_irnode(ir_node *n) {
        dump_irnode_to_file(stdout, n);
}


void dump_graph_to_file(FILE *F, ir_graph *irg) {
        fprintf(F, "graph %s\n", get_irg_dump_name(irg));
}

void dump_graph(ir_graph *g) {
        dump_graph_to_file(stdout, g);
}

static void dump_node_to_graph_file(ir_node *n, void *env) {
        FILE *F = (FILE *)env;

        dump_irnode_to_file(F, n);
        fprintf(F, "\n");
}

void dump_graph_as_text(ir_graph *irg, const char *suffix) {
        const char *basename = get_irg_dump_name(irg);
        FILE *F;

        F = text_open(basename, suffix, "", ".txt");

        dump_graph_to_file(F, irg);
        fprintf(F, "\n\n");
        irg_walk_graph(irg, NULL, dump_node_to_graph_file, F);

        fclose (F);
}

#ifdef EXTENDED_ACCESS_STATS
static int addr_is_alloc(ir_node *acc) {
        ir_node *addr = NULL;
        ir_opcode addr_op;
        if (is_memop(acc)) {
                addr = get_memop_ptr(acc);
        } else {
                assert(is_Call(acc));
                addr = get_Call_ptr(acc);
        }

        addr_op = get_irn_opcode(addr);

        while (addr_op != iro_Alloc) {
                switch (addr_op) {
                case iro_Sel:
                        addr = get_Sel_ptr(addr);
                        break;
                case iro_Cast:
                        addr = get_Cast_op(addr);
                        break;
                case iro_Proj:
                        addr = get_Proj_pred(addr);
                        break;
                case iro_SymConst:
                case iro_Const:
                        return 0;
                        break;
                case iro_Phi:
                case iro_Load:
                case iro_Call:
                case iro_Start:
                        return 0;
                        break;

                default:
                        //DDMN(addr);
                        //assert(0 && "unexpected address node");
                        ;
                }
                addr_op = get_irn_opcode(addr);
        }

        /* In addition, the alloc must be in the same loop. */
        return 1;
}
#endif

/** dumps something like:
 *
 *  "prefix"  "Name" (x): node1, ... node7,\n
 *  "prefix"    node8, ... node15,\n
 *  "prefix"    node16, node17\n
 */
static void dump_node_list(FILE *F, firm_kind *k, char *prefix,
                           int (*get_entity_n_nodes)(firm_kind *ent),
                           ir_node *(*get_entity_node)(firm_kind *ent, int pos),
                           char *name) {
        int i, n_nodes = get_entity_n_nodes(k);
        char *comma = "";

        fprintf(F, "%s  %s (%d):", prefix, name, n_nodes);
        for (i = 0; i < n_nodes; ++i) {
                int rem;
                if (i > 7 && !(i & 7)) { /* line break every eight node. */
                        fprintf(F, ",\n%s   ", prefix);
                        comma = "";
                }
                fprintf(F, "%s ", comma);
                rem = opt_dump_analysed_type_info;
                opt_dump_analysed_type_info = 0;
                dump_node_label(F, get_entity_node(k, i));
                opt_dump_analysed_type_info = rem;
                comma = ",";
        }
        fprintf(F, "\n");
}

/** dumps something like:
 *
 *  "prefix"  "Name" (x): node1, ... node7,\n
 *  "prefix"    node8, ... node15,\n
 *  "prefix"    node16, node17\n
 */
static void dump_type_list(FILE *F, ir_type *tp, char *prefix,
                           int (*get_n_types)(const ir_type *tp),
                           ir_type *(*get_type)(const ir_type *tp, int pos),
                           const char *name) {
        int i, n_nodes = get_n_types(tp);
        char *comma = "";

        fprintf(F, "%s  %s (%d):", prefix, name, n_nodes);
        for (i = 0; i < n_nodes; ++i) {
                if (i > 7 && !(i & 7)) { /* line break every eight node. */
                        fprintf(F, ",\n%s   ", prefix);
                        comma = "";
                }
                fprintf(F, "%s %s(%ld)", comma, get_type_name(get_type(tp, i)), get_type_nr(tp));
                //dump_type_to_file(F, get_type(tp, i), dump_verbosity_onlynames);
                comma = ",";
        }
        fprintf(F, "\n");
}

static int need_nl = 1;

/**
 * Dump initializers.
 */
static void dump_ir_initializers_to_file(FILE *F, const char *prefix,
                                                                                 const ir_initializer_t *initializer, ir_type *type) {
        tarval  *tv;
        ir_node *value;

        if (need_nl) {
                fprintf(F, "\n%s    ", prefix);
                need_nl = 0;
        }
        switch (get_initializer_kind(initializer)) {
        case IR_INITIALIZER_NULL:
                fprintf(F, "\t = <NOT_SET>");
                break;
        case IR_INITIALIZER_TARVAL:
                tv = get_initializer_tarval_value(initializer);
                ir_fprintf(F, "\t = <TV>%F", tv);
                break;
        case IR_INITIALIZER_CONST:
                value = get_initializer_const_value(initializer);
                fprintf(F, "\t = <CONST>");
                dump_node_opcode(F, value);
                break;
        case IR_INITIALIZER_COMPOUND:
                if (is_Array_type(type)) {
                        size_t i, n = get_initializer_compound_n_entries(initializer);
                        ir_type *element_type = get_array_element_type(type);
                        for (i = 0; i < n; ++i) {
                                ir_initializer_t *sub_initializer
                                        = get_initializer_compound_value(initializer, i);

                                if (need_nl) {
                                        fprintf(F, "\n%s    ", prefix);
                                        need_nl = 0;
                                }
                                fprintf(F, "[%d]", (int) i);
                                dump_ir_initializers_to_file(F, prefix, sub_initializer, element_type);
                        }
                } else {
                        size_t i, n;
                        assert(is_compound_type(type));
                        n = get_compound_n_members(type);
                        for (i = 0; i < n; ++i) {
                                ir_entity        *member    = get_compound_member(type, i);
                                ir_type          *subtype   = get_entity_type(member);
                                ir_initializer_t *sub_initializer;

                                assert(i < get_initializer_compound_n_entries(initializer));
                                sub_initializer
                                        = get_initializer_compound_value(initializer, i);

                                if (need_nl) {
                                        fprintf(F, "\n%s    ", prefix);
                                        need_nl = 0;
                                }
                                ir_fprintf(F, ".%F", member);
                                dump_ir_initializers_to_file(F, prefix, sub_initializer, subtype);
                        }
                }
                break;
        default:
                panic("invalid ir_initializer kind found");
        }
        need_nl = 1;
}


void dump_entity_to_file_prefix(FILE *F, ir_entity *ent, char *prefix, unsigned verbosity) {
        int i, j;
        ir_type *owner, *type;

        assert(is_entity(ent));
        owner = get_entity_owner(ent);
        type  = get_entity_type(ent);
        if (verbosity & dump_verbosity_onlynames) {
                fprintf(F, "%sentity %s.%s (%ld)\n", prefix, get_type_name(get_entity_owner(ent)),
                        get_entity_name(ent), get_entity_nr(ent));
                return;
        }

        if (verbosity & dump_verbosity_entattrs) {
                fprintf(F, "%sentity %s (%ld)\n", prefix, get_entity_name(ent), get_entity_nr(ent));
                fprintf(F, "%s  type:  %s (%ld)\n", prefix, get_type_name(type),  get_type_nr(type));
                fprintf(F, "%s  owner: %s (%ld)\n", prefix, get_type_name(owner), get_type_nr(owner));

                if (is_Class_type(get_entity_owner(ent))) {
                        if (get_entity_n_overwrites(ent) > 0) {
                                fprintf(F, "%s  overwrites:\n", prefix);
                                for (i = 0; i < get_entity_n_overwrites(ent); ++i) {
                                        ir_entity *ov = get_entity_overwrites(ent, i);
                                        fprintf(F, "%s    %d: %s of class %s\n", prefix, i, get_entity_name(ov),
                                                get_type_name(get_entity_owner(ov)));
                                }
                        } else {
                                fprintf(F, "%s  Does not overwrite other entities. \n", prefix);
                        }
                        if (get_entity_n_overwrittenby(ent) > 0) {
                                fprintf(F, "%s  overwritten by:\n", prefix);
                                for (i = 0; i < get_entity_n_overwrittenby(ent); ++i) {
                                        ir_entity *ov = get_entity_overwrittenby(ent, i);
                                        fprintf(F, "%s    %d: %s of class %s\n", prefix, i, get_entity_name(ov),
                                                get_type_name(get_entity_owner(ov)));
                                }
                        } else {
                                fprintf(F, "%s  Is not overwritten by other entities. \n", prefix);
                        }

                        if (get_irp_inh_transitive_closure_state() != inh_transitive_closure_none) {
                                ir_entity *ov;
                                fprintf(F, "%s  transitive overwrites:\n", prefix);
                                for (ov = get_entity_trans_overwrites_first(ent);
                                ov;
                                ov = get_entity_trans_overwrites_next(ent)) {
                                        fprintf(F, "%s    : %s of class %s\n", prefix, get_entity_name(ov),
                                                get_type_name(get_entity_owner(ov)));
                                }
                                fprintf(F, "%s  transitive overwritten by:\n", prefix);
                                for (ov = get_entity_trans_overwrittenby_first(ent);
                                ov;
                                ov = get_entity_trans_overwrittenby_next(ent)) {
                                        fprintf(F, "%s    : %s of class %s\n", prefix, get_entity_name(ov),
                                                get_type_name(get_entity_owner(ov)));
                                }
                        }
                }

                fprintf(F, "%s  allocation:  %s", prefix, get_allocation_name(get_entity_allocation(ent)));
                fprintf(F, "\n%s  visibility:  %s", prefix, get_visibility_name(get_entity_visibility(ent)));
                fprintf(F, "\n%s  variability: %s", prefix, get_variability_name(get_entity_variability(ent)));

                if (is_Method_type(get_entity_type(ent))) {
                        unsigned mask = get_entity_additional_properties(ent);
                        unsigned cc   = get_method_calling_convention(get_entity_type(ent));
                        ir_graph *irg = get_entity_irg(ent);

                        if (irg) {
                                fprintf(F, "\n%s  estimated node count: %u", prefix, get_irg_estimated_node_cnt(irg));
                                fprintf(F, "\n%s  maximum node index:   %u", prefix, get_irg_last_idx(irg));
                        }

                        if (mask) {
                                fprintf(F, "\n%s  additional prop: ", prefix);

                                if (mask & mtp_property_const)         fputs("const_function, ", F);
                                if (mask & mtp_property_pure)          fputs("pure_function, ", F);
                                if (mask & mtp_property_noreturn)      fputs("noreturn_function, ", F);
                                if (mask & mtp_property_nothrow)       fputs("nothrow_function, ", F);
                                if (mask & mtp_property_naked)         fputs("naked_function, ", F);
                                if (mask & mtp_property_malloc)        fputs("malloc_function, ", F);
                                if (mask & mtp_property_weak)          fputs("weak_function, ", F);
                                if (mask & mtp_property_returns_twice) fputs("weak_function, ", F);
                                if (mask & mtp_property_intrinsic)     fputs("intrinsic_function, ", F);
                                if (mask & mtp_property_runtime)       fputs("runtime_function, ", F);
                                if (mask & mtp_property_private)       fputs("private_function, ", F);
                                if (mask & mtp_property_has_loop)      fputs("has_loop_function, ", F);
                        }
                        fprintf(F, "\n%s  calling convention: ", prefix);
                        if (cc & cc_reg_param)           fputs("regparam, ", F);
                        if (cc & cc_this_call)           fputs("thiscall, ", F);
                        if (cc & cc_compound_ret)        fputs("compound_ret, ", F);
                        if (cc & cc_frame_on_caller_stk) fputs("frame on caller's stack, ", F);
                        cc &= ~(cc_compound_ret|cc_frame_on_caller_stk);
                        if (IS_CDECL(cc))
                                fputs("cdecl", F);
                        else if (IS_STDCALL(cc))
                                fputs("stdcall", F);
                        else {
                                fputs(cc & cc_last_on_top      ? "last param on top, " : "first param on top, ", F);
                                fputs(cc & cc_callee_clear_stk ? "callee clear stack" : "caller clear stack", F);
                        }
                        fprintf(F, "\n%s  vtable number:        %u", prefix, get_entity_vtable_number(ent));
                }

                fputc('\n', F);
        } else {  /* no entattrs */
                fprintf(F, "%s(%3d:%d) %-40s: %s", prefix,
                        get_entity_offset(ent), get_entity_offset_bits_remainder(ent),
                        get_type_name(get_entity_type(ent)), get_entity_name(ent));
                if (is_Method_type(get_entity_type(ent))) fputs("(...)", F);

                if (verbosity & dump_verbosity_accessStats) {
                        if (get_entity_allocation(ent) == allocation_static)        fputs(" (stat)", F);
                        if (get_entity_peculiarity(ent) == peculiarity_description) fputs(" (desc)", F);
                        if (get_entity_peculiarity(ent) == peculiarity_inherited)   fputs(" (inh)", F);
                }
                fputc('\n', F);
        }

        if (verbosity & dump_verbosity_entconsts) {
                if (get_entity_variability(ent) != variability_uninitialized) {
                        if (ent->has_initializer) {
                                const ir_initializer_t *initializer = get_entity_initializer(ent);
                                fprintf(F, "\n%s  Initializers:", prefix);
                                need_nl = 1;
                                dump_ir_initializers_to_file(F, prefix, initializer, get_entity_type(ent));
                        } else {
                                /* old compound_graph_path based initializers */
                                if (is_atomic_entity(ent)) {
                                        fprintf(F, "%s  atomic value: ", prefix);
                                        dump_node_opcode(F, get_atomic_ent_value(ent));
                                } else {
                                        fprintf(F, "%s  compound values:", prefix);
                                        for (i = 0; i < get_compound_ent_n_values(ent); ++i) {
                                                compound_graph_path *path = get_compound_ent_value_path(ent, i);
                                                ir_entity *ent0 = get_compound_graph_path_node(path, 0);
                                                fprintf(F, "\n%s    %3d:%u ", prefix, get_entity_offset(ent0), get_entity_offset_bits_remainder(ent0));
                                                if (get_type_state(type) == layout_fixed)
                                                        fprintf(F, "(%3u:%u) ",   get_compound_ent_value_offset_bytes(ent, i), get_compound_ent_value_offset_bit_remainder(ent, i));
                                                fprintf(F, "%s", get_entity_name(ent));
                                                for (j = 0; j < get_compound_graph_path_length(path); ++j) {
                                                        ir_entity *node = get_compound_graph_path_node(path, j);
                                                        fprintf(F, ".%s", get_entity_name(node));
                                                        if (is_Array_type(get_entity_owner(node)))
                                                                fprintf(F, "[%d]", get_compound_graph_path_array_index(path, j));
                                                }
                                                fprintf(F, "\t = ");
                                                dump_node_opcode(F, get_compound_ent_value(ent, i));
                                        }
                                }
                        }
                        fputc('\n', F);
                }
        }

        if (verbosity & dump_verbosity_entattrs) {
                fprintf(F, "%s  volatility:  %s", prefix, get_volatility_name(get_entity_volatility(ent)));
                fprintf(F, "\n%s  aligned:  %s", prefix, get_align_name(get_entity_aligned(ent)));
                fprintf(F, "\n%s  alignment:  %u", prefix, get_entity_alignment(ent));
                fprintf(F, "\n%s  peculiarity: %s", prefix, get_peculiarity_name(get_entity_peculiarity(ent)));
                fprintf(F, "\n%s  ld_name: %s", prefix, ent->ld_name ? get_entity_ld_name(ent) : "no yet set");
                fprintf(F, "\n%s  offset:  %d bytes, %d rem bits", prefix, get_entity_offset(ent), get_entity_offset_bits_remainder(ent));
                if (is_Method_type(get_entity_type(ent))) {
                        if (get_entity_irg(ent))   /* can be null */ {
                                fprintf(F, "\n%s  irg = %ld", prefix, get_irg_graph_nr(get_entity_irg(ent)));
#ifdef INTERPROCEDURAL_VIEW
                                if (get_irp_callgraph_state() == irp_callgraph_and_calltree_consistent) {
                                        fprintf(F, "\n%s    recursion depth %d", prefix, get_irg_recursion_depth(get_entity_irg(ent)));
                                        fprintf(F, "\n%s    loop depth      %d", prefix, get_irg_loop_depth(get_entity_irg(ent)));
                                }
#endif
                        } else {
                                fprintf(F, "\n%s  irg = NULL", prefix);
                        }
                }
                fputc('\n', F);
        }

        if (get_trouts_state()) {
                fprintf(F, "%s  Entity outs:\n", prefix);
                dump_node_list(F, (firm_kind *)ent, prefix, (int(*)(firm_kind *))get_entity_n_accesses,
                        (ir_node *(*)(firm_kind *, int))get_entity_access, "Accesses");
                dump_node_list(F, (firm_kind *)ent, prefix, (int(*)(firm_kind *))get_entity_n_references,
                        (ir_node *(*)(firm_kind *, int))get_entity_reference, "References");
        }

        if (verbosity & dump_verbosity_accessStats) {
#ifdef EXTENDED_ACCESS_STATS
                int n_acc = get_entity_n_accesses(ent);
                int max_depth = 0;
                int max_L_freq = -1;
                int max_S_freq = -1;
                int max_LA_freq = -1;
                int max_SA_freq = -1;
                int *L_freq;
                int *S_freq;
                int *LA_freq;
                int *SA_freq;

                /* Find maximal depth */
                for (i = 0; i < n_acc; ++i) {
                        ir_node *acc = get_entity_access(ent, i);
                        int depth = get_weighted_loop_depth(acc);
                        max_depth = (depth > max_depth) ? depth : max_depth ;
                }

                L_freq = XMALLOCNZ(int, 4 * max_depth);

                S_freq  = L_freq + 1*max_depth;
                LA_freq = L_freq + 2*max_depth;
                SA_freq = L_freq + 3*max_depth;

                for (i = 0; i < n_acc; ++i) {
                        ir_node *acc = get_entity_access(ent, i);
                        int depth = get_weighted_loop_depth(acc);
                        assert(depth < max_depth);
                        if (is_Load(acc) || is_Call(acc)) {
                                L_freq[depth]++;
                                max_L_freq = (depth > max_L_freq) ? depth : max_L_freq;
                                if (addr_is_alloc(acc)) {
                                        LA_freq[depth]++;
                                        max_LA_freq = (depth > max_LA_freq) ? depth : max_LA_freq;
                                }
                        } else if (is_Store(acc)) {
                                S_freq[depth]++;
                                max_S_freq = (depth > max_S_freq) ? depth : max_S_freq;
                                if (addr_is_alloc(acc)) {
                                        SA_freq[depth]++;
                                        max_SA_freq = (depth > max_SA_freq) ? depth : max_SA_freq;
                                }
                        } else {
                                assert(0);
                        }
                }

                if (max_L_freq >= 0) {
                        char comma = ':';

                        fprintf(F, "%s  Load  Stats", prefix);
                        for (i = 0; i <= max_L_freq; ++i) {
                                if (L_freq[i])
                                        fprintf(F, "%c %d x  L%d", comma, L_freq[i], i);
                                else
                                        fprintf(F, "         ");
                                comma = ',';
                        }
                        fprintf(F, "\n");
                }
                if (max_LA_freq >= 0) {
                        //fprintf(F, "%s  LoadA Stats", prefix);
                        char comma = ':';
                        for (i = 0; i <= max_LA_freq; ++i) {
                                //if (LA_freq[i])
                                //fprintf(F, "%c %d x LA%d", comma, LA_freq[i], i);
                                //else
                                //fprintf(F, "         ");
                                comma = ',';
                        }
                        fprintf(F, "\n");
                }
                if (max_S_freq >= 0) {
                        char comma = ':';

                        fprintf(F, "%s  Store Stats", prefix);
                        for (i = 0; i <= max_S_freq; ++i) {
                                if (S_freq[i])
                                        fprintf(F, "%c %d x  S%d", comma, S_freq[i], i);
                                else
                                        fprintf(F, "         ");
                                comma = ',';
                        }
                        fprintf(F, "\n");
                }
                if (max_SA_freq >= 0) {
                        //fprintf(F, "%s  StoreAStats", prefix);
                        char comma = ':';
                        for (i = 0; i <= max_SA_freq; ++i) {
                                //if (SA_freq[i])
                                //fprintf(F, "%c %d x SA%d", comma, SA_freq[i], i);
                                //else
                                //fprintf(F, "         ");
                                comma = ',';
                        }
                        fprintf(F, "\n");
                }

                /* free allocated space */
                free(L_freq);
#endif
                if (get_trouts_state() != outs_none) {
#ifdef INTERPROCEDURAL_VIEW
                        if (is_Method_type(get_entity_type(ent))) {
                                fprintf(F, "%s  Estimated #Calls:    %lf\n", prefix, get_entity_estimated_n_calls(ent));
                                fprintf(F, "%s  Estimated #dynCalls: %lf\n", prefix, get_entity_estimated_n_calls(ent));
                        } else {
                                fprintf(F, "%s  Estimated #Loads:  %lf\n", prefix, get_entity_estimated_n_loads(ent));
                                fprintf(F, "%s  Estimated #Stores: %lf\n", prefix, get_entity_estimated_n_stores(ent));
                        }
#endif
                }
        }
}

void    dump_entity_to_file (FILE *F, ir_entity *ent, unsigned verbosity) {
        dump_entity_to_file_prefix (F, ent, "", verbosity);
        fprintf(F, "\n");
}

void dump_entity(ir_entity *ent) {
  dump_entity_to_file(stdout, ent, dump_verbosity_max);
}

void dump_entitycsv_to_file_prefix(FILE *F, ir_entity *ent, char *prefix,
                                   unsigned verbosity, int *max_disp,
                                   int disp[], const char *comma)
{
        (void) verbosity;
        (void) max_disp;
        (void) disp;
        (void) comma;
#if 0   /* Outputs loop depth of all occurrences. */
        int n_acc = get_entity_n_accesses(ent);
        int max_L_freq = -1;
        int max_S_freq = -1;
        int max_LA_freq = -1;
        int max_SA_freq = -1;
        int *L_freq;
        int *S_freq;
        int *LA_freq;
        int *SA_freq;
        int i, max_depth = 0;

        /* Find maximal depth */
        for (i = 0; i < n_acc; ++i) {
                ir_node *acc = get_entity_access(ent, i);
                int depth = get_weighted_loop_depth(acc);
                max_depth = (depth > max_depth) ? depth : max_depth ;
        }

        L_freq = XMALLOCNZ(int, 4 * (max_depth + 1));

        S_freq  = L_freq + 1*max_depth;
        LA_freq = L_freq + 2*max_depth;
        SA_freq = L_freq + 3*max_depth;

        for (i = 0; i < n_acc; ++i) {
                ir_node *acc = get_entity_access(ent, i);
                int depth = get_weighted_loop_depth(acc);
                assert(depth <= max_depth);
                if (is_Load(acc) || is_Call(acc)) {
                        L_freq[depth]++;
                        max_L_freq = (depth > max_L_freq) ? depth : max_L_freq;
                        if (addr_is_alloc(acc)) {
                                LA_freq[depth]++;
                                max_LA_freq = (depth > max_LA_freq) ? depth : max_LA_freq;
                        }
                        if (get_entity_allocation(ent) == allocation_static) {
                                disp[depth]++;
                                *max_disp = (depth > *max_disp) ? depth : *max_disp;
                        }
                } else if (is_Store(acc)) {
                        S_freq[depth]++;
                        max_S_freq = (depth > max_S_freq) ? depth : max_S_freq;
                        if (addr_is_alloc(acc)) {
                                SA_freq[depth]++;
                                max_SA_freq = (depth > max_SA_freq) ? depth : max_SA_freq;
                        }
                        if (get_entity_allocation(ent) == allocation_static) {
                                assert(0);
                        }
                } else {
                        assert(0);
                }
        }

        if (get_entity_allocation(ent) != allocation_static) {

                fprintf(F, "%s_%s", get_type_name(get_entity_owner(ent)), get_entity_name(ent));

                if (max_L_freq >= 0) {
                        fprintf(F, "%s Load", comma);
                        for (i = 0; i <= max_L_freq; ++i) {
                                fprintf(F, "%s %d", comma, L_freq[i]);
                        }
                }
                if (max_S_freq >= 0) {
                        if (max_L_freq >= 0)    fprintf(F, "\n%s_%s", get_type_name(get_entity_owner(ent)), get_entity_name(ent));
                        fprintf(F, "%s Store", comma);
                        for (i = 0; i <= max_S_freq; ++i) {
                                fprintf(F, "%s %d", comma, S_freq[i]);
                        }
                }
                fprintf(F, "\n");
        }
        free(L_freq);
#endif

        if (get_entity_allocation(ent) != allocation_static) {
                if (is_Method_type(get_entity_type(ent))) return;

                /* Output the entity name. */
                fprintf(F, "%s%-40s ", prefix, get_entity_ld_name(ent));

#ifdef INTERPROCEDURAL_VIEW
                if (get_trouts_state() != outs_none) {
                        if (is_Method_type(get_entity_type(ent))) {
                                //fprintf(F, "%s  Estimated #Calls:    %lf\n", prefix, get_entity_estimated_n_calls(ent));
                                //fprintf(F, "%s  Estimated #dynCalls: %lf\n", prefix, get_entity_estimated_n_calls(ent));
                        } else {
                                fprintf(F, "%6.2lf ", get_entity_estimated_n_loads(ent));
                                fprintf(F, "%6.2lf", get_entity_estimated_n_stores(ent));
                        }
                }
#endif

                fprintf(F, "\n");
        }
}

#ifdef INTERPROCEDURAL_VIEW
/* A fast hack to dump a CSV-file. */
void dump_typecsv_to_file(FILE *F, ir_type *tp, dump_verbosity verbosity, const char *comma) {
        int i;
        char buf[1024 + 10];
        (void) comma;

        if (!is_Class_type(tp)) return;   // we also want array types. Stupid, these are classes in java.

        if (verbosity & dump_verbosity_accessStats) {

#if 0
                /* Outputs loop depth of all occurrences. */
                int max_freq = -1;
                int max_disp = -1;
                int *freq, *disp; /* Accumulated accesses to static members: dispatch table. */
                int n_all = get_type_n_allocs(tp);
                int max_depth = 0;
                /* Find maximal depth */
                for (i = 0; i < n_all; ++i) {
                        ir_node *all = get_type_alloc(tp, i);
                        int depth = get_weighted_loop_depth(all);
                        max_depth = (depth > max_depth) ? depth : max_depth ;
                }

                freq = XMALLOCNZ(int, 2 * (max_depth + 1));

                disp = freq + max_depth;

                for (i = 0; i < n_all; ++i) {
                        ir_node *all = get_type_alloc(tp, i);
                        int depth = get_weighted_loop_depth(all);
                        assert(depth <= max_depth);
                        freq[depth]++;
                        max_freq = (depth > max_freq) ? depth : max_freq;
                        assert(is_Alloc(all));
                }

                fprintf(F, "%s ", get_type_name(tp));
                fprintf(F, "%s Alloc ", comma);

                if (max_freq >= 0) {
                        for (i = 0; i <= max_freq; ++i) {
                                fprintf(F, "%s %d", comma, freq[i]);
                        }
                }
                fprintf(F, "\n");

                for (i = 0; i < get_class_n_members(tp); ++i) {
                        ir_entity *mem = get_class_member(tp, i);
                        if (((verbosity & dump_verbosity_methods) &&  is_Method_type(get_entity_type(mem))) ||
                                ((verbosity & dump_verbosity_fields)  && !is_Method_type(get_entity_type(mem)))   ) {
                                if (!((verbosity & dump_verbosity_nostatic) && (get_entity_allocation(mem) == allocation_static))) {
                                        dump_entitycsv_to_file_prefix(F, mem, "    ", verbosity, &max_disp, disp, comma);
                                }
                        }
                }

                if (max_disp >= 0) {
                        fprintf(F, "%s__disp_tab%s Load", get_type_name(tp), comma);
                        for (i = 0; i <= max_disp; ++i) {
                                fprintf(F, "%s %d", comma, disp[i]);
                        }
                        fprintf(F, "\n");
                }

                /* free allocated space */
                free(freq);
#endif

#define DISP_TAB_SUFFIX "__disp_tab"
                if (get_trouts_state() != outs_none) {
                        assert(strlen(get_type_name(tp)) < 1024);
                        fprintf(F, "%-44s %6.2lf  -1.00\n", get_type_name(tp), get_type_estimated_n_instances(tp));
                        sprintf(buf, "%s%s", get_type_name(tp), DISP_TAB_SUFFIX);
                        fprintf(F, "%-44s %6.2lf   0.00\n", buf, get_class_estimated_n_dyncalls(tp));
                }

                for (i = 0; i < get_class_n_members(tp); ++i) {
                        ir_entity *mem = get_class_member(tp, i);
                        if (((verbosity & dump_verbosity_methods) &&  is_Method_type(get_entity_type(mem))) ||
                                ((verbosity & dump_verbosity_fields)  && !is_Method_type(get_entity_type(mem)))   ) {
                                if (!((verbosity & dump_verbosity_nostatic) && (get_entity_allocation(mem) == allocation_static))) {
                                        dump_entitycsv_to_file_prefix(F, mem, "    ", verbosity, NULL, 0, 0);
                                }
                        }
                }
        }
}
#endif

void dump_type_to_file(FILE *F, ir_type *tp, dump_verbosity verbosity) {
        int i;

        if ((is_Class_type(tp))       && (verbosity & dump_verbosity_noClassTypes)) return;
        if ((is_Struct_type(tp))      && (verbosity & dump_verbosity_noStructTypes)) return;
        if ((is_Union_type(tp))       && (verbosity & dump_verbosity_noUnionTypes)) return;
        if ((is_Array_type(tp))       && (verbosity & dump_verbosity_noArrayTypes)) return;
        if ((is_Pointer_type(tp))     && (verbosity & dump_verbosity_noPointerTypes)) return;
        if ((is_Method_type(tp))      && (verbosity & dump_verbosity_noMethodTypes)) return;
        if ((is_Primitive_type(tp))   && (verbosity & dump_verbosity_noPrimitiveTypes)) return;
        if ((is_Enumeration_type(tp)) && (verbosity & dump_verbosity_noEnumerationTypes)) return;

        fprintf(F, "%s type %s (%ld)", get_tpop_name(get_type_tpop(tp)), get_type_name(tp), get_type_nr(tp));
        if (verbosity & dump_verbosity_onlynames) { fprintf(F, "\n"); return; }

        switch (get_type_tpop_code(tp)) {

        case tpo_class:
                if ((verbosity & dump_verbosity_methods) || (verbosity & dump_verbosity_fields)) {
                        fprintf(F, "\n  members: \n");
                }
                for (i = 0; i < get_class_n_members(tp); ++i) {
                        ir_entity *mem = get_class_member(tp, i);
                        if (((verbosity & dump_verbosity_methods) &&  is_Method_type(get_entity_type(mem))) ||
                                ((verbosity & dump_verbosity_fields)  && !is_Method_type(get_entity_type(mem)))   ) {
                                if (!((verbosity & dump_verbosity_nostatic) && (get_entity_allocation(mem) == allocation_static))) {
                                        dump_entity_to_file_prefix(F, mem, "    ", verbosity);
                                }
                        }
                }
                if (verbosity & dump_verbosity_typeattrs) {
                        fprintf(F, "  supertypes: ");
                        for (i = 0; i < get_class_n_supertypes(tp); ++i) {
                                ir_type *stp = get_class_supertype(tp, i);
                                fprintf(F, "\n    %d %s", i, get_type_name(stp));
                        }
                        fprintf(F, "\n  subtypes: ");
                        for (i = 0; i < get_class_n_subtypes(tp); ++i) {
                                ir_type *stp = get_class_subtype(tp, i);
                                fprintf(F, "\n    %d %s", i, get_type_name(stp));
                        }

                        if (get_irp_inh_transitive_closure_state() != inh_transitive_closure_none) {
                                ir_type *stp;
                                fprintf(F, "\n  transitive supertypes: ");
                                for (stp = get_class_trans_supertype_first(tp);
                                stp;
                                stp = get_class_trans_supertype_next(tp)) {
                                        fprintf(F, "\n    %s", get_type_name(stp));
                                }
                                fprintf(F, "\n  transitive subtypes: ");
                                for (stp = get_class_trans_subtype_first(tp);
                                stp;
                                stp = get_class_trans_subtype_next(tp)) {
                                        fprintf(F, "\n    %s", get_type_name(stp));
                                }
                        }

                        fprintf(F, "\n  peculiarity: %s\n", get_peculiarity_name(get_class_peculiarity(tp)));
                        fprintf(F, "\n  flags:       ");
                        if (is_class_final(tp))
                                fprintf(F, "final, ");
                        if (is_class_interface(tp))
                                fprintf(F, "interface, ");
                        if (is_class_abstract(tp))
                                fprintf(F, "abstract, ");
                        fprintf(F, "\n");
                }
                break;

        case tpo_union:
        case tpo_struct:
                if (verbosity & dump_verbosity_fields) fprintf(F, "\n  members: ");
                for (i = 0; i < get_compound_n_members(tp); ++i) {
                        ir_entity *mem = get_compound_member(tp, i);
                        if (verbosity & dump_verbosity_fields) {
                                dump_entity_to_file_prefix(F, mem, "    ", verbosity);
                        }
                }
                break;

        case tpo_array:
                if (verbosity & dump_verbosity_typeattrs) {
                        int i, n_dim;
                        ir_type *elem_tp = get_array_element_type(tp);

                        fprintf(F, "\n  array ");

                        n_dim = get_array_n_dimensions(tp);
                        for (i = 0; i < n_dim; ++i) {
                                ir_node *lower, *upper;

                                lower = get_array_lower_bound(tp, i);
                                upper = get_array_upper_bound(tp, i);

                                fprintf(F, "[");

                                if (is_Const(lower)) {
                                        fprintf(F, "%ld .. ", get_tarval_long(get_Const_tarval(lower)));
                                } else {
                                        dump_node_opcode(F, lower);
                                        fprintf(F, " %ld .. ", get_irn_node_nr(lower));
                                }

                                if (is_Const(upper)) {
                                        fprintf(F, "%ld]", get_tarval_long(get_Const_tarval(lower)));
                                } else {
                                        dump_node_opcode(F, upper);
                                        fprintf(F, " %ld]", get_irn_node_nr(upper));
                                }
                        }
                        fprintf(F, " of <%s (%ld)>", get_type_name(elem_tp), get_type_nr(elem_tp));

                        fprintf(F, "\n  order: ");
                        for (i = 0; i < n_dim; ++i)
                                fprintf(F, "<%d>", get_array_order(tp, i));

                        fprintf(F, "\n");

                        if (verbosity & dump_verbosity_fields) {
                                dump_entity_to_file_prefix(F, get_array_element_entity(tp),
                                        "    ", verbosity);
                        }
                }
                break;

        case tpo_pointer:
                if (verbosity & dump_verbosity_typeattrs) {
                        ir_type *tt = get_pointer_points_to_type(tp);
                        fprintf(F, "\n  points to %s (%ld)\n", get_type_name(tt), get_type_nr(tt));
                }
                break;

        case tpo_method:
                if (verbosity & dump_verbosity_typeattrs) {
                        fprintf(F, "\n  variadicity: %s", get_variadicity_name(get_method_variadicity(tp)));
                        fprintf(F, "\n  return types: %d", get_method_n_ress(tp));
                        for (i = 0; i < get_method_n_ress(tp); ++i) {
                                ir_type *rtp = get_method_res_type(tp, i);
                                fprintf(F, "\n    %s", get_type_name(rtp));
                        }

                        fprintf(F, "\n  parameter types: %d", get_method_n_params(tp));
                        for (i = 0; i < get_method_n_params(tp); ++i) {
                                ir_type *ptp = get_method_param_type(tp, i);
                                fprintf(F, "\n    %s", get_type_name(ptp));
                        }
                        if (get_method_variadicity(tp)) {
                                fprintf(F, "\n    ...");
                        }
                        fprintf(F, "\n");
                }
                break;

        case tpo_primitive:
                if (verbosity & dump_verbosity_typeattrs) {
                        ir_type *base_tp = get_primitive_base_type(tp);
                        if (base_tp != NULL)
                                fprintf(F, "\n  base type: %s (%ld)", get_type_name(tp), get_type_nr(tp));
                        fprintf(F, "\n");
                }
                break;

        case tpo_id:
        case tpo_none:
        case tpo_unknown:
                fprintf(F, "\n");
                break;

        default:
                if (verbosity & dump_verbosity_typeattrs) {
                        fprintf(F, ": details not implemented\n");
                }
        }

        fprintf(F, "  visibility: %s,\n", get_visibility_name(get_type_visibility(tp)));
        fprintf(F, "  state:      %s,\n", get_type_state_name(get_type_state(tp)));
        fprintf(F, "  size:       %2u Bytes,\n", get_type_size_bytes(tp));
        fprintf(F, "  alignment:  %2u Bytes,\n", get_type_alignment_bytes(tp));
        if (is_atomic_type(tp) || is_Method_type(tp))
                fprintf(F, "  mode:       %s,\n",  get_mode_name(get_type_mode(tp)));

        if (get_trouts_state()) {
                fprintf(F, "\n  Type outs:\n");
                dump_node_list(F, (firm_kind *)tp, "  ", (int(*)(firm_kind *))get_type_n_allocs,
                        (ir_node *(*)(firm_kind *, int))get_type_alloc, "Allocations");
                dump_node_list(F, (firm_kind *)tp, "  ", (int(*)(firm_kind *))get_type_n_casts,
                        (ir_node *(*)(firm_kind *, int))get_type_cast, "Casts");
                dump_type_list(F, tp, "  ", get_type_n_pointertypes_to, get_type_pointertype_to, "PointerTpsTo");
        }


        if (verbosity & dump_verbosity_accessStats) {
#if 0
                int n_all = get_type_n_allocs(tp);
                int max_depth = 0;
                int max_freq = -1;
                int *freq;

                /* Find maximal depth */
                for (i = 0; i < n_all; ++i) {
                        ir_node *all = get_type_alloc(tp, i);
                        int depth = get_weighted_loop_depth(all);
                        max_depth = (depth > max_depth) ? depth : max_depth ;
                }

                freq = XMALLOCNZ(int, max_depth + 1);

                for (i = 0; i < n_all; ++i) {
                        ir_node *all = get_type_alloc(tp, i);
                        int depth = get_weighted_loop_depth(all);
                        assert(depth <= max_depth);
                        freq[depth]++;
                        max_freq = (depth > max_freq) ? depth : max_freq;
                        assert(is_Alloc(all));
                }

                if (max_freq >= 0) {
                        char comma = ':';

                        fprintf(F, "  Alloc Stats");
                        for (i = 0; i <= max_freq; ++i) {
                                fprintf(F, "%c %d x A%d", comma, freq[i], i);
                                comma = ',';
                        }
                        fprintf(F, "\n");
                }

                free(freq);
#endif
#ifdef INTERPROCEDURAL_VIEW
                if (get_trouts_state() != outs_none) {
                        fprintf(F, "  Estimated #Instances: %lf\n", get_type_estimated_n_instances(tp));
                        if (is_Class_type(tp) && (get_irp_typeinfo_state() != ir_typeinfo_none)) {
                                fprintf(F, "  Estimated #dyn Calls: %lf\n", get_class_estimated_n_dyncalls(tp));
                                fprintf(F, "  Estimated #Upcasts:   %lf (#CastOps: %d)\n", get_class_estimated_n_upcasts(tp), get_class_n_upcasts(tp));
                                fprintf(F, "  Estimated #Downcasts: %lf (#CastOps: %d)\n", get_class_estimated_n_downcasts(tp), get_class_n_downcasts(tp));
                                assert(get_class_n_upcasts(tp) + get_class_n_downcasts(tp) == get_type_n_casts(tp));
                        }
                }
#endif

        }

        fprintf(F, "\n\n");
}

void dump_type(ir_type *tp) {
        dump_type_to_file (stdout, tp, dump_verbosity_max);
}


void dump_types_as_text(unsigned verbosity, const char *suffix) {
        const char *basename;
        FILE *F, *CSV = NULL;
        int i, n_types = get_irp_n_types();

        basename = irp_prog_name_is_set() ? get_irp_name() : "TextTypes";
        F = text_open(basename, suffix, "-types", ".txt");

        if (verbosity & dump_verbosity_csv) {
                CSV = text_open(basename, suffix, "-types", ".csv");
                //fprintf(CSV, "Class, Field, Operation, L0, L1, L2, L3\n");
        }

        for (i = 0; i < n_types; ++i) {
                ir_type *t = get_irp_type(i);

                //if (is_jack_rts_class(t)) continue;

                dump_type_to_file(F, t, verbosity);
#ifdef INTERPROCEDURAL_VIEW
                if (CSV) {
                        dump_typecsv_to_file(CSV, t, verbosity, "");
                }
#endif
        }

        fclose(F);
        if (CSV) fclose(CSV);
}


void dump_globals_as_text(unsigned verbosity, const char *suffix) {
        const char *basename;
        FILE *F, *CSV = NULL;
        ir_type *g = get_glob_type();
        int i, n_mems = get_class_n_members(g);

        basename = irp_prog_name_is_set() ? get_irp_name() : "TextGlobals";
        F = text_open (basename, suffix, "-globals", ".txt");

        if (verbosity & dump_verbosity_csv) {
                CSV = text_open (basename, suffix, "-types", ".csv");
                //fprintf(CSV, "Class, Field, Operation, L0, L1, L2, L3\n");
        }

        for (i = 0; i < n_mems; ++i) {
                ir_entity *e = get_class_member(g, i);

                dump_entity_to_file(F, e, verbosity);
                if (CSV) {
                        //dump_entitycsv_to_file_prefix(CSV, e, "", verbosity, ""???);
                }
        }

        fclose (F);
        if (CSV) fclose (CSV);
}