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path: root/Build/source/texk/web2c/luatexdir/tex/texnodes.c
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/*

Copyright 2006-2010 Taco Hoekwater <taco@luatex.org>

This file is part of LuaTeX.

LuaTeX is free software; you can redistribute it and/or modify it under the terms
of the GNU General Public License as published by the Free Software Foundation;
either version 2 of the License, or (at your option) any later version.

LuaTeX is distributed in the hope that it will be useful, but WITHOUT ANY
WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A
PARTICULAR PURPOSE. See the GNU Lesser General Public License for more details.

You should have received a copy of the GNU General Public License along with
LuaTeX; if not, see <http://www.gnu.org/licenses/>.

*/

#include "ptexlib.h"
#include "lua/luatex-api.h"

/*tex

    This module started out using NDEBUG to trigger checking invalid node usage,
    something that is needed because users can mess up nodes in Lua. At some
    point that code was always enabled so it is now always on but still can be
    recognized as additional code. And as the performance hit is close to zero so
    disabling makes no sense, not even to make it configureable. There is a
    little more memory used but that is neglectable compared to other memory
    usage.

*/

#define MAX_CHAIN_SIZE   13 /* why not a bit larger */

memory_word *volatile varmem = NULL;

char *varmem_sizes = NULL;

halfword var_mem_max = 0;
halfword rover = 0;

halfword free_chain[MAX_CHAIN_SIZE] = { null };

static int my_prealloc = 0;

/*tex Used in font and lang: */

int fix_node_lists = 1;

/*tex Defined below. */

halfword slow_get_node(int s);

#define fake_node       100
#define fake_node_size  2
#define fake_node_name "fake"

#define variable_node_size 2

/*tex

    The following definitions are used for keys at the \LUA\ end and
    provide an efficient way to share hashed strings.

*/

# define init_node_key(target,n,key) \
    target[n].lua  = luaS_##key##_index; \
    target[n].name = luaS_##key##_ptr;

# define init_field_key(target,n,key) \
    target[n].lua  = luaS_##key##_index; \
    target[n].name = luaS_##key##_ptr;

# define init_field_nop(target,n) \
    target[n].lua  = 0; \
    target[n].name = NULL;

/*tex The fields of nodes. */

field_info node_fields_accent[10];
field_info node_fields_adjust[3];
field_info node_fields_attribute[3];
field_info node_fields_attribute_list[1];
field_info node_fields_boundary[3];
field_info node_fields_choice[6];
field_info node_fields_delim[6];
field_info node_fields_dir[4];
field_info node_fields_disc[6];
field_info node_fields_fence[8];
field_info node_fields_fraction[10];
field_info node_fields_glue[8];
field_info node_fields_glue_spec[6];
field_info node_fields_glyph[16];
field_info node_fields_insert[7];
field_info node_fields_inserting[9];
field_info node_fields_kern[4];
field_info node_fields_list[11];
field_info node_fields_local_par[9];
field_info node_fields_margin_kern[4];
field_info node_fields_mark[4];
field_info node_fields_math[8];
field_info node_fields_math_char[4];
field_info node_fields_math_text_char[4];
field_info node_fields_noad[5];
field_info node_fields_penalty[3];
field_info node_fields_radical[9];
field_info node_fields_rule[9];
field_info node_fields_splitup[6];
field_info node_fields_style[3];
field_info node_fields_sub_box[3];
field_info node_fields_sub_mlist[3];
field_info node_fields_unset[12];

/*tex The fields of whatsit nodes. */

field_info node_fields_whatsit_close[3];
field_info node_fields_whatsit_late_lua[6];
field_info node_fields_whatsit_open[6];
field_info node_fields_whatsit_save_pos[2];
field_info node_fields_whatsit_special[3];
field_info node_fields_whatsit_user_defined[5];
field_info node_fields_whatsit_write[4];

field_info node_fields_whatsit_pdf_action[8];
field_info node_fields_whatsit_pdf_annot[7];
field_info node_fields_whatsit_pdf_colorstack[5];
field_info node_fields_whatsit_pdf_dest[10];
field_info node_fields_whatsit_pdf_end_link[2];
field_info node_fields_whatsit_pdf_end_thread[2];
field_info node_fields_whatsit_pdf_literal[4];
field_info node_fields_whatsit_pdf_refobj[3];
field_info node_fields_whatsit_pdf_restore[2];
field_info node_fields_whatsit_pdf_link_state[3];
field_info node_fields_whatsit_pdf_save[2];
field_info node_fields_whatsit_pdf_setmatrix[3];
field_info node_fields_whatsit_pdf_start_link[8];
field_info node_fields_whatsit_pdf_start_thread[8];
field_info node_fields_whatsit_pdf_thread[8];


/*tex The values of fields. */

subtype_info node_values_dir[] = {
    { 0,  NULL, 0 },
    { 1,  NULL, 0 },
    { 2,  NULL, 0 },
    { 3,  NULL, 0 },
    { -1, NULL, 0 },
};

subtype_info node_values_pdf_destination[] = {
    { 0,  NULL, 0 },
    { 1,  NULL, 0 },
    { 2,  NULL, 0 },
    { 3,  NULL, 0 },
    { 4,  NULL, 0 },
    { 5,  NULL, 0 },
    { 6,  NULL, 0 },
    { 7,  NULL, 0 },
    { -1, NULL, 0 },
};

subtype_info node_values_pdf_action[] = {
    { 0,  NULL, 0 },
    { 1,  NULL, 0 },
    { 2,  NULL, 0 },
    { 3,  NULL, 0 },
    { -1, NULL, 0 },
};

subtype_info node_values_pdf_window[] = {
    { 0,  NULL, 0 },
    { 1,  NULL, 0 },
    { 2,  NULL, 0 },
    { -1, NULL, 0 },
};

subtype_info node_values_color_stack[] = {
    { 0,  NULL, 0 },
    { 1,  NULL, 0 },
    { 2,  NULL, 0 },
    { 3,  NULL, 0 },
    { -1, NULL, 0 },
};

subtype_info node_values_fill[] = {
    { normal, NULL, 0 },
    { sfi,    NULL, 0 },
    { fil,    NULL, 0 },
    { fill,   NULL, 0 },
    { filll,  NULL, 0 },
    { -1,     NULL, 0 },
};

subtype_info node_values_pdf_literal[] = {
    { set_origin,    NULL, 0 },
    { direct_page,   NULL, 0 },
    { direct_always, NULL, 0 },
    { direct_raw,    NULL, 0 },
    { direct_text,   NULL, 0 },
    { direct_font,   NULL, 0 },
    { scan_special,  NULL, 0 },
    { -1,            NULL, 0 },
};

subtype_info other_values_page_states[] = {
    { 0,  NULL, 0 },
    { 1,  NULL, 0 },
    { 2,  NULL, 0 },
    { -1, NULL, 0 },
};

/*tex The subtypes of nodes (most have one). */

subtype_info node_subtypes_dir[] = {
    { normal_dir, NULL, 0 },
    { cancel_dir, NULL, 0 },
    { -1,         NULL, 0 },
};

subtype_info node_subtypes_glue[] = {
    { user_skip_glue,                NULL, 0 },
    { line_skip_glue,                NULL, 0 },
    { baseline_skip_glue,            NULL, 0 },
    { par_skip_glue,                 NULL, 0 },
    { above_display_skip_glue,       NULL, 0 },
    { below_display_skip_glue,       NULL, 0 },
    { above_display_short_skip_glue, NULL, 0 },
    { below_display_short_skip_glue, NULL, 0 },
    { left_skip_glue,                NULL, 0 },
    { right_skip_glue,               NULL, 0 },
    { top_skip_glue,                 NULL, 0 },
    { split_top_skip_glue,           NULL, 0 },
    { tab_skip_glue,                 NULL, 0 },
    { space_skip_glue,               NULL, 0 },
    { xspace_skip_glue,              NULL, 0 },
    { par_fill_skip_glue,            NULL, 0 },
    { math_skip_glue,                NULL, 0 },
    { thin_mu_skip_glue,             NULL, 0 },
    { med_mu_skip_glue,              NULL, 0 },
    { thick_mu_skip_glue,            NULL, 0 },
    /* math */
    { cond_math_glue,                NULL, 0 },
    { mu_glue,                       NULL, 0 },
    /* leaders */
    { a_leaders,                     NULL, 0 },
    { c_leaders,                     NULL, 0 },
    { x_leaders,                     NULL, 0 },
    { g_leaders,                     NULL, 0 },
    { -1,                            NULL, 0 },
};

/*tex

    Math glue and leaders have special numbers. At some point we might decide to
    move them down so best don't use hard coded numbers!

*/

subtype_info node_subtypes_mathglue[] = { /* 98+ */
    { cond_math_glue, NULL, 0 },
    { mu_glue,        NULL, 0 },
    { -1,             NULL, 0 },
};

subtype_info node_subtypes_leader[] = { /* 100+ */
    { a_leaders, NULL, 0 },
    { c_leaders, NULL, 0 },
    { x_leaders, NULL, 0 },
    { g_leaders, NULL, 0 },
    { -1,        NULL, 0 },
};

subtype_info node_subtypes_boundary[] = {
    { cancel_boundary,     NULL, 0 },
    { user_boundary,       NULL, 0 },
    { protrusion_boundary, NULL, 0 },
    { word_boundary,       NULL, 0 },
    { -1,                  NULL, 0 },
};

subtype_info node_subtypes_penalty[] = {
    { user_penalty,            NULL, 0 },
    { linebreak_penalty,       NULL, 0 },
    { line_penalty,            NULL, 0 },
    { word_penalty,            NULL, 0 },
    { final_penalty,           NULL, 0 },
    { noad_penalty,            NULL, 0 },
    { before_display_penalty,  NULL, 0 },
    { after_display_penalty,   NULL, 0 },
    { equation_number_penalty, NULL, 0 },
    { -1,                      NULL, 0 },
};

subtype_info node_subtypes_kern[] = {
    { font_kern,     NULL, 0 },
    { explicit_kern, NULL, 0 },
    { accent_kern,   NULL, 0 },
    { italic_kern,   NULL, 0 },
    { -1,            NULL, 0 },
};

subtype_info node_subtypes_rule[] = {
    { normal_rule,        NULL, 0 },
    { box_rule,           NULL, 0 },
    { image_rule,         NULL, 0 },
    { empty_rule,         NULL, 0 },
    { user_rule,          NULL, 0 },
    { math_over_rule,     NULL, 0 },
    { math_under_rule,    NULL, 0 },
    { math_fraction_rule, NULL, 0 },
    { math_radical_rule,  NULL, 0 },
    { outline_rule,       NULL, 0 },
    { -1,                 NULL, 0 },
};

subtype_info node_subtypes_glyph[] = {
    { glyph_unset,     NULL, 0 },
    { glyph_character, NULL, 0 },
    { glyph_ligature,  NULL, 0 },
    { glyph_ghost,     NULL, 0 },
    { glyph_left,      NULL, 0 },
    { glyph_right,     NULL, 0 },
    { -1,              NULL, 0 },
};

subtype_info node_subtypes_disc[] = {
    { discretionary_disc, NULL, 0 },
    { explicit_disc,      NULL, 0 },
    { automatic_disc,     NULL, 0 },
    { syllable_disc,      NULL, 0 },
    { init_disc,          NULL, 0 },
    { select_disc,        NULL, 0 },
    { -1,                 NULL, 0 },
};

subtype_info node_subtypes_marginkern[] = {
    { left_side,  NULL, 0 },
    { right_side, NULL, 0 },
    { -1,         NULL, 0 },
};

subtype_info node_subtypes_list[] = {
    { unknown_list,              NULL, 0 },
    { line_list,                 NULL, 0 },
    { hbox_list,                 NULL, 0 },
    { indent_list,               NULL, 0 },
    { align_row_list,            NULL, 0 },
    { align_cell_list,           NULL, 0 },
    { equation_list,             NULL, 0 },
    { equation_number_list,      NULL, 0 },
    { math_list_list,            NULL, 0 },
    { math_char_list,            NULL, 0 },
    { math_h_extensible_list,    NULL, 0 },
    { math_v_extensible_list,    NULL, 0 },
    { math_h_delimiter_list,     NULL, 0 },
    { math_v_delimiter_list,     NULL, 0 },
    { math_over_delimiter_list,  NULL, 0 },
    { math_under_delimiter_list, NULL, 0 },
    { math_numerator_list,       NULL, 0 },
    { math_denominator_list,     NULL, 0 },
    { math_limits_list,          NULL, 0 },
    { math_fraction_list,        NULL, 0 },
    { math_nucleus_list,         NULL, 0 },
    { math_sup_list,             NULL, 0 },
    { math_sub_list,             NULL, 0 },
    { math_degree_list,          NULL, 0 },
    { math_scripts_list,         NULL, 0 },
    { math_over_list,            NULL, 0 },
    { math_under_list,           NULL, 0 },
    { math_accent_list,          NULL, 0 },
    { math_radical_list,         NULL, 0 },
    { -1,                        NULL, 0 },
};

subtype_info node_subtypes_adjust[] = {
    { 0,  NULL, 0 },
    { 1,  NULL, 0 },
    { -1, NULL, 0 },
};

subtype_info node_subtypes_math[] = {
    { before, NULL, 0 },
    { after,  NULL, 0 },
    { -1,     NULL, 0 },
};

subtype_info node_subtypes_noad[] = {
    { ord_noad_type,          NULL, 0 },
    { op_noad_type_normal,    NULL, 0 },
    { op_noad_type_limits,    NULL, 0 },
    { op_noad_type_no_limits, NULL, 0 },
    { bin_noad_type,          NULL, 0 },
    { rel_noad_type,          NULL, 0 },
    { open_noad_type,         NULL, 0 },
    { close_noad_type,        NULL, 0 },
    { punct_noad_type,        NULL, 0 },
    { inner_noad_type,        NULL, 0 },
    { under_noad_type,        NULL, 0 },
    { over_noad_type,         NULL, 0 },
    { vcenter_noad_type,      NULL, 0 },
    { -1,                     NULL, 0 },
};

subtype_info node_subtypes_radical[] = {
    { radical_noad_type,         NULL, 0 },
    { uradical_noad_type,        NULL, 0 },
    { uroot_noad_type,           NULL, 0 },
    { uunderdelimiter_noad_type, NULL, 0 },
    { uoverdelimiter_noad_type,  NULL, 0 },
    { udelimiterunder_noad_type, NULL, 0 },
    { udelimiterover_noad_type,  NULL, 0 },
    { -1,                        NULL, 0 },
};

subtype_info node_subtypes_accent[] = {
    { bothflexible_accent, NULL, 0 },
    { fixedtop_accent,     NULL, 0 },
    { fixedbottom_accent,  NULL, 0 },
    { fixedboth_accent,    NULL, 0 },
    { -1,                  NULL, 0 },
};

subtype_info node_subtypes_fence[] = {
    { unset_noad_side,  NULL, 0 },
    { left_noad_side,   NULL, 0 },
    { middle_noad_side, NULL, 0 },
    { right_noad_side,  NULL, 0 },
    { no_noad_side,     NULL, 0 },
    { -1,               NULL, 0 },
};

/*tes This brings all together */

node_info node_data[] = {
    { hlist_node,          box_node_size,         node_subtypes_list,       node_fields_list,                          NULL,  1, 0 },
    { vlist_node,          box_node_size,         node_subtypes_list,       node_fields_list,                          NULL,  2, 0 },
    { rule_node,           rule_node_size,        node_subtypes_rule,       node_fields_rule,                          NULL,  3, 0 },
    { ins_node,            ins_node_size,         NULL,                     node_fields_insert,                        NULL,  4, 0 },
    { mark_node,           mark_node_size,        NULL,                     node_fields_mark,                          NULL,  5, 0 },
    { adjust_node,         adjust_node_size,      node_subtypes_adjust,     node_fields_adjust,                        NULL,  6, 0 },
    { boundary_node,       boundary_node_size,    node_subtypes_boundary,   node_fields_boundary,                      NULL, -1, 0 },
    { disc_node,           disc_node_size,        node_subtypes_disc,       node_fields_disc,                          NULL,  8, 0 },
    { whatsit_node,        -1,                    NULL,                     NULL,                                      NULL,  9, 0 },
    { local_par_node,      local_par_size,        NULL,                     node_fields_local_par,                     NULL, -1, 0 },
    { dir_node,            dir_node_size,         node_subtypes_dir,        node_fields_dir,                           NULL, -1, 0 },
    { math_node,           math_node_size,        node_subtypes_math,       node_fields_math,                          NULL, 10, 0 },
    { glue_node,           glue_node_size,        node_subtypes_glue,       node_fields_glue,                          NULL, 11, 0 },
    { kern_node,           kern_node_size,        node_subtypes_kern,       node_fields_kern,                          NULL, 12, 0 },
    { penalty_node,        penalty_node_size,     node_subtypes_penalty,    node_fields_penalty,                       NULL, 13, 0 },
    { unset_node,          box_node_size,         NULL,                     node_fields_unset,                         NULL, 14, 0 },
    { style_node,          style_node_size,       NULL,                     node_fields_style,                         NULL, 15, 0 },
    { choice_node,         style_node_size,       NULL,                     node_fields_choice,                        NULL, 15, 0 },
    { simple_noad,         noad_size,             node_subtypes_noad,       node_fields_noad,                          NULL, 15, 0 },
    { radical_noad,        radical_noad_size,     node_subtypes_radical,    node_fields_radical,                       NULL, 15, 0 },
    { fraction_noad,       fraction_noad_size,    NULL,                     node_fields_fraction,                      NULL, 15, 0 },
    { accent_noad,         accent_noad_size,      node_subtypes_accent,     node_fields_accent,                        NULL, 15, 0 },
    { fence_noad,          fence_noad_size,       node_subtypes_fence,      node_fields_fence,                         NULL, 15, 0 },
    { math_char_node,      math_kernel_node_size, NULL,                     node_fields_math_char,                     NULL, 15, 0 },
    { sub_box_node,        math_kernel_node_size, NULL,                     node_fields_sub_box,                       NULL, 15, 0 },
    { sub_mlist_node,      math_kernel_node_size, NULL,                     node_fields_sub_mlist,                     NULL, 15, 0 },
    { math_text_char_node, math_kernel_node_size, NULL,                     node_fields_math_text_char,                NULL, 15, 0 },
    { delim_node,          math_shield_node_size, NULL,                     node_fields_delim,                         NULL, 15, 0 },
    { margin_kern_node,    margin_kern_node_size, node_subtypes_marginkern, node_fields_margin_kern,                   NULL, -1, 0 },
    { glyph_node,          glyph_node_size,       node_subtypes_glyph,      node_fields_glyph,                         NULL,  0, 0 },
    { align_record_node,   box_node_size,         NULL,                     NULL,                                      NULL, -1, 0 },
    { pseudo_file_node,    pseudo_file_node_size, NULL,                     NULL,                                      NULL, -1, 0 },
    { pseudo_line_node,    variable_node_size,    NULL,                     NULL,                                      NULL, -1, 0 },
    { inserting_node,      page_ins_node_size,    NULL,                     node_fields_inserting,                     NULL, -1, 0 },
    { split_up_node,       page_ins_node_size,    NULL,                     node_fields_splitup,                       NULL, -1, 0 },
    { expr_node,           expr_node_size,        NULL,                     NULL,                                      NULL, -1, 0 },
    { nesting_node,        nesting_node_size,     NULL,                     NULL,                                      NULL, -1, 0 },
    { span_node,           span_node_size,        NULL,                     NULL,                                      NULL, -1, 0 },
    { attribute_node,      attribute_node_size,   NULL,                     node_fields_attribute,                     NULL, -1, 0 },
    { glue_spec_node,      glue_spec_size,        NULL,                     node_fields_glue_spec,                     NULL, -1, 0 },
    { attribute_list_node, attribute_node_size,   NULL,                     node_fields_attribute_list,                NULL, -1, 0 },
    { temp_node,           temp_node_size,        NULL,                     NULL,                                      NULL, -1, 0 },
    { align_stack_node,    align_stack_node_size, NULL,                     NULL,                                      NULL, -1, 0 },
    { movement_node,       movement_node_size,    NULL,                     NULL,                                      NULL, -1, 0 },
    { if_node,             if_node_size,          NULL,                     NULL,                                      NULL, -1, 0 },
    { unhyphenated_node,   active_node_size,      NULL,                     NULL,                                      NULL, -1, 0 },
    { hyphenated_node,     active_node_size,      NULL,                     NULL,                                      NULL, -1, 0 },
    { delta_node,          delta_node_size,       NULL,                     NULL,                                      NULL, -1, 0 },
    { passive_node,        passive_node_size,     NULL,                     NULL,                                      NULL, -1, 0 },
    { shape_node,          variable_node_size,    NULL,                     NULL,                                      NULL, -1, 0 },
    { -1,                 -1,                     NULL,                     NULL,                                      NULL, -1, 0 }
};

void l_set_node_data(void) {
    init_node_key(node_data, hlist_node,          hlist)
    init_node_key(node_data, vlist_node,          vlist)
    init_node_key(node_data, rule_node,           rule)
    init_node_key(node_data, ins_node,            ins)
    init_node_key(node_data, mark_node,           mark)
    init_node_key(node_data, adjust_node,         adjust)
    init_node_key(node_data, boundary_node,       boundary)
    init_node_key(node_data, disc_node,           disc)
    init_node_key(node_data, whatsit_node,        whatsit)
    init_node_key(node_data, local_par_node,      local_par)
    init_node_key(node_data, dir_node,            dir)
    init_node_key(node_data, math_node,           math)
    init_node_key(node_data, glue_node,           glue)
    init_node_key(node_data, kern_node,           kern)
    init_node_key(node_data, penalty_node,        penalty)
    init_node_key(node_data, unset_node,          unset)
    init_node_key(node_data, style_node,          style)
    init_node_key(node_data, choice_node,         choice)
    init_node_key(node_data, simple_noad,         noad)
    init_node_key(node_data, radical_noad,        radical)
    init_node_key(node_data, fraction_noad,       fraction)
    init_node_key(node_data, accent_noad,         accent)
    init_node_key(node_data, fence_noad,          fence)
    init_node_key(node_data, math_char_node,      math_char)
    init_node_key(node_data, sub_box_node,        sub_box)
    init_node_key(node_data, sub_mlist_node,      sub_mlist)
    init_node_key(node_data, math_text_char_node, math_text_char)
    init_node_key(node_data, delim_node,          delim)
    init_node_key(node_data, margin_kern_node,    margin_kern)
    init_node_key(node_data, glyph_node,          glyph)
    init_node_key(node_data, align_record_node,   align_record)
    init_node_key(node_data, pseudo_file_node,    pseudo_file)
    init_node_key(node_data, pseudo_line_node,    pseudo_line)
    init_node_key(node_data, inserting_node,      page_insert)
    init_node_key(node_data, split_up_node,       split_insert)
    init_node_key(node_data, expr_node,           expr_stack)
    init_node_key(node_data, nesting_node,        nested_list)
    init_node_key(node_data, span_node,           span)
    init_node_key(node_data, attribute_node,      attribute)
    init_node_key(node_data, glue_spec_node,      glue_spec)
    init_node_key(node_data, attribute_list_node, attribute_list)
    init_node_key(node_data, temp_node,           temp)
    init_node_key(node_data, align_stack_node,    align_stack)
    init_node_key(node_data, movement_node,       movement_stack)
    init_node_key(node_data, if_node,             if_stack)
    init_node_key(node_data, unhyphenated_node,   unhyphenated)
    init_node_key(node_data, hyphenated_node,     hyphenated)
    init_node_key(node_data, delta_node,          delta)
    init_node_key(node_data, passive_node,        passive)
    init_node_key(node_data, shape_node,          shape)

    init_node_key(node_subtypes_dir, normal_dir, normal)
    init_node_key(node_subtypes_dir, cancel_dir, cancel)

    init_node_key(node_subtypes_glue, user_skip_glue,                userskip)
    init_node_key(node_subtypes_glue, line_skip_glue,                lineskip)
    init_node_key(node_subtypes_glue, baseline_skip_glue,            baselineskip)
    init_node_key(node_subtypes_glue, par_skip_glue,                 parskip)
    init_node_key(node_subtypes_glue, above_display_skip_glue,       abovedisplayskip)
    init_node_key(node_subtypes_glue, below_display_skip_glue,       belowdisplayskip)
    init_node_key(node_subtypes_glue, above_display_short_skip_glue, abovedisplayshortskip)
    init_node_key(node_subtypes_glue, below_display_short_skip_glue, belowdisplayshortskip)
    init_node_key(node_subtypes_glue, left_skip_glue,                leftskip)
    init_node_key(node_subtypes_glue, right_skip_glue,               rightskip)
    init_node_key(node_subtypes_glue, top_skip_glue,                 topskip)
    init_node_key(node_subtypes_glue, split_top_skip_glue,           splittopskip)
    init_node_key(node_subtypes_glue, tab_skip_glue,                 tabskip)
    init_node_key(node_subtypes_glue, space_skip_glue,               spaceskip)
    init_node_key(node_subtypes_glue, xspace_skip_glue,              xspaceskip)
    init_node_key(node_subtypes_glue, par_fill_skip_glue,            parfillskip)
    init_node_key(node_subtypes_glue, math_skip_glue,                mathskip)
    init_node_key(node_subtypes_glue, thin_mu_skip_glue,             thinmuskip)
    init_node_key(node_subtypes_glue, med_mu_skip_glue,              medmuskip)
    init_node_key(node_subtypes_glue, thick_mu_skip_glue,            thickmuskip)
    init_node_key(node_subtypes_glue, thick_mu_skip_glue + 1,        conditionalmathskip)
    init_node_key(node_subtypes_glue, thick_mu_skip_glue + 2,        muglue)
    init_node_key(node_subtypes_glue, thick_mu_skip_glue + 3,        leaders)
    init_node_key(node_subtypes_glue, thick_mu_skip_glue + 4,        cleaders)
    init_node_key(node_subtypes_glue, thick_mu_skip_glue + 5,        xleaders)
    init_node_key(node_subtypes_glue, thick_mu_skip_glue + 6,        gleaders)

    init_node_key(node_subtypes_mathglue, 0, conditionalmathskip)
    init_node_key(node_subtypes_mathglue, 1, muglue)

    init_node_key(node_subtypes_leader, 0, leaders)
    init_node_key(node_subtypes_leader, 1, cleaders)
    init_node_key(node_subtypes_leader, 2, xleaders)
    init_node_key(node_subtypes_leader, 3, gleaders)

    init_node_key(node_subtypes_boundary, cancel_boundary,     cancel)
    init_node_key(node_subtypes_boundary, user_boundary,       user)
    init_node_key(node_subtypes_boundary, protrusion_boundary, protrusion)
    init_node_key(node_subtypes_boundary, word_boundary,       word)

    init_node_key(node_subtypes_penalty, user_penalty,            userpenalty)
    init_node_key(node_subtypes_penalty, linebreak_penalty,       linebreakpenalty)
    init_node_key(node_subtypes_penalty, line_penalty,            linepenalty)
    init_node_key(node_subtypes_penalty, word_penalty,            wordpenalty)
    init_node_key(node_subtypes_penalty, final_penalty,           finalpenalty)
    init_node_key(node_subtypes_penalty, noad_penalty,            noadpenalty)
    init_node_key(node_subtypes_penalty, before_display_penalty,  beforedisplaypenalty)
    init_node_key(node_subtypes_penalty, after_display_penalty,   afterdisplaypenalty)
    init_node_key(node_subtypes_penalty, equation_number_penalty, equationnumberpenalty)

    init_node_key(node_subtypes_kern, font_kern,     fontkern)
    init_node_key(node_subtypes_kern, explicit_kern, userkern)
    init_node_key(node_subtypes_kern, accent_kern,   accentkern)
    init_node_key(node_subtypes_kern, italic_kern,   italiccorrection)

    init_node_key(node_subtypes_rule, normal_rule,        normal)
    init_node_key(node_subtypes_rule, box_rule,           box)
    init_node_key(node_subtypes_rule, image_rule,         image)
    init_node_key(node_subtypes_rule, empty_rule,         empty)
    init_node_key(node_subtypes_rule, user_rule,          user)
    init_node_key(node_subtypes_rule, math_over_rule,     over)
    init_node_key(node_subtypes_rule, math_under_rule,    under)
    init_node_key(node_subtypes_rule, math_fraction_rule, fraction)
    init_node_key(node_subtypes_rule, math_radical_rule,  radical)
    init_node_key(node_subtypes_rule, outline_rule,       outline)

    init_node_key(node_subtypes_glyph, 0, unset)
    init_node_key(node_subtypes_glyph, 1, character)
    init_node_key(node_subtypes_glyph, 2, ligature)
    init_node_key(node_subtypes_glyph, 3, ghost)
    init_node_key(node_subtypes_glyph, 4, left)
    init_node_key(node_subtypes_glyph, 5, right)

    init_node_key(node_subtypes_disc, discretionary_disc, discretionary)
    init_node_key(node_subtypes_disc, explicit_disc,      explicit)
    init_node_key(node_subtypes_disc, automatic_disc,     automatic)
    init_node_key(node_subtypes_disc, syllable_disc,      regular)
    init_node_key(node_subtypes_disc, init_disc,          first)
    init_node_key(node_subtypes_disc, select_disc,        second)

    init_node_key(node_subtypes_fence, unset_noad_side,  unset)
    init_node_key(node_subtypes_fence, left_noad_side,   left)
    init_node_key(node_subtypes_fence, middle_noad_side, middle)
    init_node_key(node_subtypes_fence, right_noad_side,  right)
    init_node_key(node_subtypes_fence, no_noad_side,     no)

    init_node_key(node_subtypes_list, unknown_list,              unknown)
    init_node_key(node_subtypes_list, line_list,                 line)
    init_node_key(node_subtypes_list, hbox_list,                 box)
    init_node_key(node_subtypes_list, indent_list,               indent)
    init_node_key(node_subtypes_list, align_row_list,            alignment)
    init_node_key(node_subtypes_list, align_cell_list,           cell)
    init_node_key(node_subtypes_list, equation_list,             equation)
    init_node_key(node_subtypes_list, equation_number_list,      equationnumber)
    init_node_key(node_subtypes_list, math_list_list,            math)
    init_node_key(node_subtypes_list, math_char_list,            mathchar)
    init_node_key(node_subtypes_list, math_h_extensible_list,    hextensible)
    init_node_key(node_subtypes_list, math_v_extensible_list,    vextensible)
    init_node_key(node_subtypes_list, math_h_delimiter_list,     hdelimiter)
    init_node_key(node_subtypes_list, math_v_delimiter_list,     vdelimiter)
    init_node_key(node_subtypes_list, math_over_delimiter_list,  overdelimiter)
    init_node_key(node_subtypes_list, math_under_delimiter_list, underdelimiter)
    init_node_key(node_subtypes_list, math_numerator_list,       numerator)
    init_node_key(node_subtypes_list, math_denominator_list,     denominator)
    init_node_key(node_subtypes_list, math_limits_list,          limits)
    init_node_key(node_subtypes_list, math_fraction_list,        fraction)
    init_node_key(node_subtypes_list, math_nucleus_list,         nucleus)
    init_node_key(node_subtypes_list, math_sup_list,             sup)
    init_node_key(node_subtypes_list, math_sub_list,             sub)
    init_node_key(node_subtypes_list, math_degree_list,          degree)
    init_node_key(node_subtypes_list, math_scripts_list,         scripts)
    init_node_key(node_subtypes_list, math_over_list,            over)
    init_node_key(node_subtypes_list, math_under_list,           under)
    init_node_key(node_subtypes_list, math_accent_list,          accent)
    init_node_key(node_subtypes_list, math_radical_list,         radical)

    init_node_key(node_subtypes_math, before, beginmath)
    init_node_key(node_subtypes_math, after,  endmath)

    init_node_key(node_subtypes_marginkern, left_side,  left)
    init_node_key(node_subtypes_marginkern, right_side, right)

    init_node_key(node_subtypes_adjust, 0, normal)
    init_node_key(node_subtypes_adjust, 1, pre)

    init_node_key(node_subtypes_noad, ord_noad_type,          ord)
    init_node_key(node_subtypes_noad, op_noad_type_normal,    opdisplaylimits)
    init_node_key(node_subtypes_noad, op_noad_type_limits,    oplimits)
    init_node_key(node_subtypes_noad, op_noad_type_no_limits, opnolimits)
    init_node_key(node_subtypes_noad, bin_noad_type,          bin)
    init_node_key(node_subtypes_noad, rel_noad_type,          rel)
    init_node_key(node_subtypes_noad, open_noad_type,         open)
    init_node_key(node_subtypes_noad, close_noad_type,        close)
    init_node_key(node_subtypes_noad, punct_noad_type,        punct)
    init_node_key(node_subtypes_noad, inner_noad_type,        inner)
    init_node_key(node_subtypes_noad, under_noad_type,        under)
    init_node_key(node_subtypes_noad, over_noad_type,         over)
    init_node_key(node_subtypes_noad, vcenter_noad_type,      vcenter)

    init_node_key(node_subtypes_radical, radical_noad_type,         radical)
    init_node_key(node_subtypes_radical, uradical_noad_type,        uradical)
    init_node_key(node_subtypes_radical, uroot_noad_type,           uroot)
    init_node_key(node_subtypes_radical, uunderdelimiter_noad_type, uunderdelimiter)
    init_node_key(node_subtypes_radical, uoverdelimiter_noad_type,  uoverdelimiter)
    init_node_key(node_subtypes_radical, udelimiterunder_noad_type, udelimiterunder)
    init_node_key(node_subtypes_radical, udelimiterover_noad_type,  udelimiterover)

    init_node_key(node_subtypes_accent, bothflexible_accent, bothflexible)
    init_node_key(node_subtypes_accent, fixedtop_accent,     fixedtop)
    init_node_key(node_subtypes_accent, fixedbottom_accent,  fixedbottom)
    init_node_key(node_subtypes_accent, fixedboth_accent,    fixedboth)

    init_node_key(node_values_fill, normal, normal)
    init_node_key(node_values_fill, sfi,    fi)
    init_node_key(node_values_fill, fil,    fil)
    init_node_key(node_values_fill, fill,   fill)
    init_node_key(node_values_fill, filll,  filll)

    init_node_key(node_values_dir, 0, TLT)
    init_node_key(node_values_dir, 1, TRT)
    init_node_key(node_values_dir, 2, LTL)
    init_node_key(node_values_dir, 3, RTT)

    init_node_key(other_values_page_states, 0, empty)
    init_node_key(other_values_page_states, 1, box_there)
    init_node_key(other_values_page_states, 2, inserts_only)

    init_field_key(node_fields_accent, 0, attr);
    init_field_key(node_fields_accent, 1, nucleus);
    init_field_key(node_fields_accent, 2, sub);
    init_field_key(node_fields_accent, 3, sup);
    init_field_key(node_fields_accent, 4, accent);
    init_field_key(node_fields_accent, 5, bot_accent);
    init_field_key(node_fields_accent, 6, top_accent);
    init_field_key(node_fields_accent, 7, overlay_accent);
    init_field_key(node_fields_accent, 8, fraction);
    init_field_nop(node_fields_accent, 9);

    init_field_key(node_fields_adjust, 0, attr);
    init_field_key(node_fields_adjust, 1, head);
    init_field_nop(node_fields_adjust, 2);

    init_field_key(node_fields_attribute, 0, number);
    init_field_key(node_fields_attribute, 1, value);
    init_field_nop(node_fields_attribute, 2);

    init_field_nop(node_fields_attribute_list,0);

    init_field_key(node_fields_boundary, 0, attr);
    init_field_key(node_fields_boundary, 1, value);
    init_field_nop(node_fields_boundary, 2);

    init_field_key(node_fields_choice, 0, attr);
    init_field_key(node_fields_choice, 1, display);
    init_field_key(node_fields_choice, 2, text);
    init_field_key(node_fields_choice, 3, script);
    init_field_key(node_fields_choice, 4, scriptscript);
    init_field_nop(node_fields_choice, 5);

    init_field_key(node_fields_delim, 0, attr);
    init_field_key(node_fields_delim, 1, small_fam);
    init_field_key(node_fields_delim, 2, small_char);
    init_field_key(node_fields_delim, 3, large_fam);
    init_field_key(node_fields_delim, 4, large_char);
    init_field_nop(node_fields_delim, 5);

    init_field_key(node_fields_dir, 0, attr);
    init_field_key(node_fields_dir, 1, dir);
    init_field_key(node_fields_dir, 2, level);
    init_field_nop(node_fields_dir, 3);

    init_field_key(node_fields_disc, 0, attr);
    init_field_key(node_fields_disc, 1, pre);
    init_field_key(node_fields_disc, 2, post);
    init_field_key(node_fields_disc, 3, replace);
    init_field_key(node_fields_disc, 4, penalty);
    init_field_nop(node_fields_disc, 5);

    init_field_key(node_fields_fence, 0, attr);
    init_field_key(node_fields_fence, 1, delim);
    init_field_key(node_fields_fence, 2, italic);
    init_field_key(node_fields_fence, 3, height);
    init_field_key(node_fields_fence, 4, depth);
    init_field_key(node_fields_fence, 5, options);
    init_field_key(node_fields_fence, 6, class);
    init_field_nop(node_fields_fence, 7);

    init_field_key(node_fields_fraction, 0, attr);
    init_field_key(node_fields_fraction, 1, width);
    init_field_key(node_fields_fraction, 2, num);
    init_field_key(node_fields_fraction, 3, denom);
    init_field_key(node_fields_fraction, 4, left);
    init_field_key(node_fields_fraction, 5, right);
    init_field_key(node_fields_fraction, 6, middle);
    init_field_key(node_fields_fraction, 7, fam);
    init_field_key(node_fields_fraction, 8, options);
    init_field_nop(node_fields_fraction, 9);

    init_field_key(node_fields_glue, 0, attr);
    init_field_key(node_fields_glue, 1, leader);
    init_field_key(node_fields_glue, 2, width);
    init_field_key(node_fields_glue, 3, stretch);
    init_field_key(node_fields_glue, 4, shrink);
    init_field_key(node_fields_glue, 5, stretch_order);
    init_field_key(node_fields_glue, 6, shrink_order);
    init_field_nop(node_fields_glue, 7);

    init_field_key(node_fields_glue_spec, 0, width);
    init_field_key(node_fields_glue_spec, 1, stretch);
    init_field_key(node_fields_glue_spec, 2, shrink);
    init_field_key(node_fields_glue_spec, 3, stretch_order);
    init_field_key(node_fields_glue_spec, 4, shrink_order);
    init_field_nop(node_fields_glue_spec, 5);

    init_field_key(node_fields_glyph,  0, attr);
    init_field_key(node_fields_glyph,  1, char);
    init_field_key(node_fields_glyph,  2, font);
    init_field_key(node_fields_glyph,  3, lang);
    init_field_key(node_fields_glyph,  4, left);
    init_field_key(node_fields_glyph,  5, right);
    init_field_key(node_fields_glyph,  6, uchyph);
    init_field_key(node_fields_glyph,  7, components);
    init_field_key(node_fields_glyph,  8, xoffset);
    init_field_key(node_fields_glyph,  9, yoffset);
    init_field_key(node_fields_glyph, 10, width);
    init_field_key(node_fields_glyph, 11, height);
    init_field_key(node_fields_glyph, 12, depth);
    init_field_key(node_fields_glyph, 13, expansion_factor);
    init_field_key(node_fields_glyph, 14, data);
    init_field_nop(node_fields_glyph, 15);

    init_field_key(node_fields_insert, 0, attr);
    init_field_key(node_fields_insert, 1, cost);
    init_field_key(node_fields_insert, 2, depth);
    init_field_key(node_fields_insert, 3, height);
    init_field_key(node_fields_insert, 4, spec);
    init_field_key(node_fields_insert, 5, head);
    init_field_nop(node_fields_insert, 6);

    init_field_key(node_fields_inserting, 0, height);
    init_field_key(node_fields_inserting, 1, last_ins_ptr);
    init_field_key(node_fields_inserting, 2, best_ins_ptr);
    init_field_key(node_fields_inserting, 3, width);
    init_field_key(node_fields_inserting, 4, stretch);
    init_field_key(node_fields_inserting, 5, shrink);
    init_field_key(node_fields_inserting, 6, stretch_order);
    init_field_key(node_fields_inserting, 7, shrink_order);
    init_field_nop(node_fields_inserting, 8);

    init_field_key(node_fields_kern, 0, attr);
    init_field_key(node_fields_kern, 1, kern);
    init_field_key(node_fields_kern, 2, expansion_factor);
    init_field_nop(node_fields_kern, 3);

    init_field_key(node_fields_list,  0, attr);
    init_field_key(node_fields_list,  1, width);
    init_field_key(node_fields_list,  2, depth);
    init_field_key(node_fields_list,  3, height);
    init_field_key(node_fields_list,  4, dir);
    init_field_key(node_fields_list,  5, shift);
    init_field_key(node_fields_list,  6, glue_order);
    init_field_key(node_fields_list,  7, glue_sign);
    init_field_key(node_fields_list,  8, glue_set);
    init_field_key(node_fields_list,  9, head);
    init_field_nop(node_fields_list, 10);

    init_field_key(node_fields_local_par, 0, attr);
    init_field_key(node_fields_local_par, 1, pen_inter);
    init_field_key(node_fields_local_par, 2, pen_broken);
    init_field_key(node_fields_local_par, 3, dir);
    init_field_key(node_fields_local_par, 4, box_left);
    init_field_key(node_fields_local_par, 5, box_left_width);
    init_field_key(node_fields_local_par, 6, box_right);
    init_field_key(node_fields_local_par, 7, box_right_width);
    init_field_nop(node_fields_local_par, 8);

    init_field_key(node_fields_margin_kern, 0, attr);
    init_field_key(node_fields_margin_kern, 1, width);
    init_field_key(node_fields_margin_kern, 2, glyph);
    init_field_nop(node_fields_margin_kern, 3);

    init_field_key(node_fields_mark, 0, attr);
    init_field_key(node_fields_mark, 1, class);
    init_field_key(node_fields_mark, 2, mark);
    init_field_nop(node_fields_mark, 3);

    init_field_key(node_fields_math, 0, attr);
    init_field_key(node_fields_math, 1, surround);
    init_field_key(node_fields_math, 2, width);
    init_field_key(node_fields_math, 3, stretch);
    init_field_key(node_fields_math, 4, shrink);
    init_field_key(node_fields_math, 5, stretch_order);
    init_field_key(node_fields_math, 6, shrink_order);
    init_field_nop(node_fields_math, 7);

    init_field_key(node_fields_math_char, 0, attr);
    init_field_key(node_fields_math_char, 1, fam);
    init_field_key(node_fields_math_char, 2, char);
    init_field_nop(node_fields_math_char, 3);

    init_field_key(node_fields_math_text_char, 0, attr);
    init_field_key(node_fields_math_text_char, 1, fam);
    init_field_key(node_fields_math_text_char, 2, char);
    init_field_nop(node_fields_math_text_char, 3);

    init_field_key(node_fields_noad, 0, attr);
    init_field_key(node_fields_noad, 1, nucleus);
    init_field_key(node_fields_noad, 2, sub);
    init_field_key(node_fields_noad, 3, sup);
    init_field_nop(node_fields_noad, 4);

    init_field_key(node_fields_penalty, 0, attr);
    init_field_key(node_fields_penalty, 1, penalty);
    init_field_nop(node_fields_penalty, 2);

    init_field_key(node_fields_radical, 0, attr);
    init_field_key(node_fields_radical, 1, nucleus);
    init_field_key(node_fields_radical, 2, sub);
    init_field_key(node_fields_radical, 3, sup);
    init_field_key(node_fields_radical, 4, left);
    init_field_key(node_fields_radical, 5, degree);
    init_field_key(node_fields_radical, 6, width);
    init_field_key(node_fields_radical, 7, options);
    init_field_nop(node_fields_radical, 8);

    init_field_key(node_fields_rule, 0, attr);
    init_field_key(node_fields_rule, 1, width);
    init_field_key(node_fields_rule, 2, depth);
    init_field_key(node_fields_rule, 3, height);
    init_field_key(node_fields_rule, 4, dir);
    init_field_key(node_fields_rule, 5, index);
    init_field_key(node_fields_rule, 6, left);
    init_field_key(node_fields_rule, 7, right);
    init_field_nop(node_fields_rule, 8);

    init_field_key(node_fields_splitup, 0, height);
    init_field_key(node_fields_splitup, 1, last_ins_ptr);
    init_field_key(node_fields_splitup, 2, best_ins_ptr);
    init_field_key(node_fields_splitup, 3, broken_ptr);
    init_field_key(node_fields_splitup, 4, broken_ins);
    init_field_nop(node_fields_splitup, 5);

    init_field_key(node_fields_style, 0, attr);
    init_field_key(node_fields_style, 1, style);
    init_field_nop(node_fields_style, 2);

    init_field_key(node_fields_sub_box, 0, attr);
    init_field_key(node_fields_sub_box, 1, head);
    init_field_nop(node_fields_sub_box, 2);

    init_field_key(node_fields_sub_mlist, 0, attr);
    init_field_key(node_fields_sub_mlist, 1, head);
    init_field_nop(node_fields_sub_mlist, 2);

    init_field_key(node_fields_unset,  0, attr);
    init_field_key(node_fields_unset,  1, width);
    init_field_key(node_fields_unset,  2, depth);
    init_field_key(node_fields_unset,  3, height);
    init_field_key(node_fields_unset,  4, dir);
    init_field_key(node_fields_unset,  5, shrink);
    init_field_key(node_fields_unset,  6, glue_order);
    init_field_key(node_fields_unset,  7, glue_sign);
    init_field_key(node_fields_unset,  8, stretch);
    init_field_key(node_fields_unset,  9, span);
    init_field_key(node_fields_unset, 10, head);
    init_field_nop(node_fields_unset, 11);

}

node_info whatsit_node_data[] = {

    /*tex These are always there. The fake nodes are historical. */

    { open_node,             open_node_size,           NULL, node_fields_whatsit_open,             NULL, -1, 0 },
    { write_node,            write_node_size,          NULL, node_fields_whatsit_write,            NULL, -1, 0 },
    { close_node,            close_node_size,          NULL, node_fields_whatsit_close,            NULL, -1, 0 },
    { special_node,          special_node_size,        NULL, node_fields_whatsit_special,          NULL, -1, 0 },
    { late_special_node,     special_node_size,        NULL, node_fields_whatsit_special,          NULL, -1, 0 },
    { fake_node,             fake_node_size,           NULL, NULL,                                 NULL, -1, 0 },
    { fake_node,             fake_node_size,           NULL, NULL,                                 NULL, -1, 0 },
    { save_pos_node,         save_pos_node_size,       NULL, node_fields_whatsit_save_pos,         NULL, -1, 0 },
    { late_lua_node,         late_lua_node_size,       NULL, node_fields_whatsit_late_lua,         NULL, -1, 0 },
    { user_defined_node,     user_defined_node_size,   NULL, node_fields_whatsit_user_defined,     NULL, -1, 0 },
    { fake_node,             fake_node_size,           NULL, NULL,                                 NULL, -1, 0 },
    { fake_node,             fake_node_size,           NULL, NULL,                                 NULL, -1, 0 },
    { fake_node,             fake_node_size,           NULL, NULL,                                 NULL, -1, 0 },
    { fake_node,             fake_node_size,           NULL, NULL,                                 NULL, -1, 0 },
    { fake_node,             fake_node_size,           NULL, NULL,                                 NULL, -1, 0 },
    { fake_node,             fake_node_size,           NULL, NULL,                                 NULL, -1, 0 },

    /*tex Here starts the \DVI\ backend section, todo: a separate list. */

    /*tex {\em There is nothing here.} */

    /*tex Here starts the \PDF\ backend section, todo: a separate list.  */

    { pdf_literal_node,      literal_node_size,        NULL, node_fields_whatsit_pdf_literal,      NULL, -1, 0 },
    { pdf_late_literal_node, literal_node_size,        NULL, node_fields_whatsit_pdf_literal,      NULL, -1, 0 },
    { pdf_refobj_node,       pdf_refobj_node_size,     NULL, node_fields_whatsit_pdf_refobj,       NULL, -1, 0 },
    { pdf_annot_node,        pdf_annot_node_size,      NULL, node_fields_whatsit_pdf_annot,        NULL, -1, 0 },
    { pdf_start_link_node,   pdf_annot_node_size,      NULL, node_fields_whatsit_pdf_start_link,   NULL, -1, 0 },
    { pdf_end_link_node,     pdf_end_link_node_size,   NULL, node_fields_whatsit_pdf_end_link,     NULL, -1, 0 },
    { pdf_dest_node,         pdf_dest_node_size,       NULL, node_fields_whatsit_pdf_dest,         NULL, -1, 0 },
    { pdf_action_node,       pdf_action_size,          NULL, node_fields_whatsit_pdf_action,       NULL, -1, 0 },
    { pdf_thread_node,       pdf_thread_node_size,     NULL, node_fields_whatsit_pdf_thread,       NULL, -1, 0 },
    { pdf_start_thread_node, pdf_thread_node_size,     NULL, node_fields_whatsit_pdf_start_thread, NULL, -1, 0 },
    { pdf_end_thread_node,   pdf_end_thread_node_size, NULL, node_fields_whatsit_pdf_end_thread,   NULL, -1, 0 },
    { pdf_thread_data_node,  pdf_thread_node_size,     NULL, NULL,                                 NULL, -1, 0 },
    { pdf_link_data_node,    pdf_annot_node_size,      NULL, NULL,                                 NULL, -1, 0 },
    { pdf_colorstack_node,   pdf_colorstack_node_size, NULL, node_fields_whatsit_pdf_colorstack,   NULL, -1, 0 },
    { pdf_setmatrix_node,    pdf_setmatrix_node_size,  NULL, node_fields_whatsit_pdf_setmatrix,    NULL, -1, 0 },
    { pdf_save_node,         pdf_save_node_size,       NULL, node_fields_whatsit_pdf_save,         NULL, -1, 0 },
    { pdf_restore_node,      pdf_restore_node_size,    NULL, node_fields_whatsit_pdf_restore,      NULL, -1, 0 },
    { pdf_link_state_node,   pdf_link_state_node_size, NULL, node_fields_whatsit_pdf_link_state,   NULL, -1, 0 },

    /*tex That's it. */

    { -1,                    -1,                       NULL, NULL,                                 NULL, -1, 0 },

};

void l_set_whatsit_data(void) {
    init_node_key(whatsit_node_data, open_node,         open)
    init_node_key(whatsit_node_data, write_node,        write)
    init_node_key(whatsit_node_data, close_node,        close)
    init_node_key(whatsit_node_data, special_node,      special)
    init_node_key(whatsit_node_data, late_special_node, late_special)
    init_node_key(whatsit_node_data, save_pos_node,     save_pos)
    init_node_key(whatsit_node_data, late_lua_node,     late_lua)
    init_node_key(whatsit_node_data, user_defined_node, user_defined)

    init_field_key(node_fields_whatsit_close, 0, attr);
    init_field_key(node_fields_whatsit_close, 1, stream);
    init_field_nop(node_fields_whatsit_close, 2);

    init_field_key(node_fields_whatsit_late_lua, 0, attr);
    init_field_key(node_fields_whatsit_late_lua, 1, reg);
    init_field_key(node_fields_whatsit_late_lua, 2, data);
    init_field_key(node_fields_whatsit_late_lua, 3, name);
    init_field_key(node_fields_whatsit_late_lua, 4, string);
    init_field_nop(node_fields_whatsit_late_lua, 5);

    init_field_key(node_fields_whatsit_open, 0, attr);
    init_field_key(node_fields_whatsit_open, 1, stream);
    init_field_key(node_fields_whatsit_open, 2, name);
    init_field_key(node_fields_whatsit_open, 3, area);
    init_field_key(node_fields_whatsit_open, 4, ext);
    init_field_nop(node_fields_whatsit_open, 5);

    init_field_key(node_fields_whatsit_save_pos, 0, attr);
    init_field_nop(node_fields_whatsit_save_pos, 1);

    init_field_key(node_fields_whatsit_special, 0, attr);
    init_field_key(node_fields_whatsit_special, 1, data);
    init_field_nop(node_fields_whatsit_special, 2);

    init_field_key(node_fields_whatsit_user_defined, 0, attr);
    init_field_key(node_fields_whatsit_user_defined, 1, user_id);
    init_field_key(node_fields_whatsit_user_defined, 2, type);
    init_field_key(node_fields_whatsit_user_defined, 3, value);
    init_field_nop(node_fields_whatsit_user_defined, 4);

    init_field_key(node_fields_whatsit_write, 0, attr);
    init_field_key(node_fields_whatsit_write, 1, stream);
    init_field_key(node_fields_whatsit_write, 2, data);
    init_field_nop(node_fields_whatsit_write, 3);

    init_node_key(whatsit_node_data, pdf_literal_node,     pdf_literal)
    init_node_key(whatsit_node_data, pdf_late_literal_node,pdf_late_literal)
    init_node_key(whatsit_node_data, pdf_refobj_node,      pdf_refobj)
    init_node_key(whatsit_node_data, pdf_annot_node,       pdf_annot)
    init_node_key(whatsit_node_data, pdf_start_link_node,  pdf_start_link)
    init_node_key(whatsit_node_data, pdf_end_link_node,    pdf_end_link)
    init_node_key(whatsit_node_data, pdf_dest_node,        pdf_dest)
    init_node_key(whatsit_node_data, pdf_action_node,      pdf_action)
    init_node_key(whatsit_node_data, pdf_thread_node,      pdf_thread)
    init_node_key(whatsit_node_data, pdf_start_thread_node,pdf_start_thread)
    init_node_key(whatsit_node_data, pdf_end_thread_node,  pdf_end_thread)
    init_node_key(whatsit_node_data, pdf_thread_data_node, pdf_thread_data)
    init_node_key(whatsit_node_data, pdf_link_data_node,   pdf_link_data)
    init_node_key(whatsit_node_data, pdf_colorstack_node,  pdf_colorstack)
    init_node_key(whatsit_node_data, pdf_setmatrix_node,   pdf_setmatrix)
    init_node_key(whatsit_node_data, pdf_save_node,        pdf_save)
    init_node_key(whatsit_node_data, pdf_restore_node,     pdf_restore)
    init_node_key(whatsit_node_data, pdf_link_state_node,  pdf_link_state)

    init_node_key(node_values_pdf_destination, 0, xyz)
    init_node_key(node_values_pdf_destination, 1, fit)
    init_node_key(node_values_pdf_destination, 2, fith)
    init_node_key(node_values_pdf_destination, 3, fitv)
    init_node_key(node_values_pdf_destination, 4, fitb)
    init_node_key(node_values_pdf_destination, 5, fitbh)
    init_node_key(node_values_pdf_destination, 6, fitbv)
    init_node_key(node_values_pdf_destination, 7, fitr)

    init_node_key(node_values_pdf_literal, set_origin,    origin)
    init_node_key(node_values_pdf_literal, direct_page,   page)
    init_node_key(node_values_pdf_literal, direct_always, always)
    init_node_key(node_values_pdf_literal, direct_raw,    raw)
    init_node_key(node_values_pdf_literal, direct_text,   text)
    init_node_key(node_values_pdf_literal, direct_font,   font)
    init_node_key(node_values_pdf_literal, scan_special,  special)

    init_node_key(node_values_pdf_action, 0, page)
    init_node_key(node_values_pdf_action, 1, goto)
    init_node_key(node_values_pdf_action, 2, thread)
    init_node_key(node_values_pdf_action, 3, user)

    init_node_key(node_values_pdf_window, 0, unset)
    init_node_key(node_values_pdf_window, 1, new)
    init_node_key(node_values_pdf_window, 2, nonew)

    init_node_key(node_values_color_stack, 0, set)
    init_node_key(node_values_color_stack, 1, push)
    init_node_key(node_values_color_stack, 2, pop)
    init_node_key(node_values_color_stack, 3, current)

    init_field_key(node_fields_whatsit_pdf_action, 0, action_type);
    init_field_key(node_fields_whatsit_pdf_action, 1, named_id);
    init_field_key(node_fields_whatsit_pdf_action, 2, action_id);
    init_field_key(node_fields_whatsit_pdf_action, 3, file);
    init_field_key(node_fields_whatsit_pdf_action, 4, new_window);
    init_field_key(node_fields_whatsit_pdf_action, 5, data);
    init_field_key(node_fields_whatsit_pdf_action, 6, struct_id);
    init_field_nop(node_fields_whatsit_pdf_action, 7);

    init_field_key(node_fields_whatsit_pdf_annot, 0, attr);
    init_field_key(node_fields_whatsit_pdf_annot, 1, width);
    init_field_key(node_fields_whatsit_pdf_annot, 2, depth);
    init_field_key(node_fields_whatsit_pdf_annot, 3, height);
    init_field_key(node_fields_whatsit_pdf_annot, 4, objnum);
    init_field_key(node_fields_whatsit_pdf_annot, 5, data);
    init_field_nop(node_fields_whatsit_pdf_annot, 6);

    init_field_key(node_fields_whatsit_pdf_colorstack, 0, attr);
    init_field_key(node_fields_whatsit_pdf_colorstack, 1, stack);
    init_field_key(node_fields_whatsit_pdf_colorstack, 2, cmd);
    init_field_key(node_fields_whatsit_pdf_colorstack, 3, data);
    init_field_nop(node_fields_whatsit_pdf_colorstack, 4);

    init_field_key(node_fields_whatsit_pdf_dest, 0, attr);
    init_field_key(node_fields_whatsit_pdf_dest, 1, width);
    init_field_key(node_fields_whatsit_pdf_dest, 2, depth);
    init_field_key(node_fields_whatsit_pdf_dest, 3, height);
    init_field_key(node_fields_whatsit_pdf_dest, 4, named_id);
    init_field_key(node_fields_whatsit_pdf_dest, 5, dest_id);
    init_field_key(node_fields_whatsit_pdf_dest, 6, dest_type);
    init_field_key(node_fields_whatsit_pdf_dest, 7, xyz_zoom);
    init_field_key(node_fields_whatsit_pdf_dest, 8, objnum);
    init_field_nop(node_fields_whatsit_pdf_dest, 9);

    init_field_key(node_fields_whatsit_pdf_end_link, 0, attr);
    init_field_nop(node_fields_whatsit_pdf_end_link, 1);

    init_field_key(node_fields_whatsit_pdf_link_state, 0, attr);
    init_field_key(node_fields_whatsit_pdf_link_state, 1, value);
    init_field_nop(node_fields_whatsit_pdf_link_state, 2);

    init_field_key(node_fields_whatsit_pdf_end_thread, 0, attr);
    init_field_nop(node_fields_whatsit_pdf_end_thread, 1);

    init_field_key(node_fields_whatsit_pdf_literal, 0, attr);
    init_field_key(node_fields_whatsit_pdf_literal, 1, mode);
    init_field_key(node_fields_whatsit_pdf_literal, 2, data);
    init_field_nop(node_fields_whatsit_pdf_literal, 3);

    init_field_key(node_fields_whatsit_pdf_refobj, 0, attr);
    init_field_key(node_fields_whatsit_pdf_refobj, 1, objnum);
    init_field_nop(node_fields_whatsit_pdf_refobj, 2);

    init_field_key(node_fields_whatsit_pdf_restore, 0, attr);
    init_field_nop(node_fields_whatsit_pdf_restore, 1);

    init_field_key(node_fields_whatsit_pdf_save, 0, attr);
    init_field_nop(node_fields_whatsit_pdf_save, 1);

    init_field_key(node_fields_whatsit_pdf_setmatrix, 0, attr);
    init_field_key(node_fields_whatsit_pdf_setmatrix, 1, data);
    init_field_nop(node_fields_whatsit_pdf_setmatrix, 2);

    init_field_key(node_fields_whatsit_pdf_start_link, 0, attr);
    init_field_key(node_fields_whatsit_pdf_start_link, 1, width);
    init_field_key(node_fields_whatsit_pdf_start_link, 2, depth);
    init_field_key(node_fields_whatsit_pdf_start_link, 3, height);
    init_field_key(node_fields_whatsit_pdf_start_link, 4, objnum);
    init_field_key(node_fields_whatsit_pdf_start_link, 5, link_attr);
    init_field_key(node_fields_whatsit_pdf_start_link, 6, action);
    init_field_nop(node_fields_whatsit_pdf_start_link, 7);

    init_field_key(node_fields_whatsit_pdf_start_thread, 0, attr);
    init_field_key(node_fields_whatsit_pdf_start_thread, 1, width);
    init_field_key(node_fields_whatsit_pdf_start_thread, 2, depth);
    init_field_key(node_fields_whatsit_pdf_start_thread, 3, height);
    init_field_key(node_fields_whatsit_pdf_start_thread, 4, named_id);
    init_field_key(node_fields_whatsit_pdf_start_thread, 5, thread_id);
    init_field_key(node_fields_whatsit_pdf_start_thread, 6, thread_attr);
    init_field_nop(node_fields_whatsit_pdf_start_thread, 7);

    init_field_key(node_fields_whatsit_pdf_thread, 0, attr);
    init_field_key(node_fields_whatsit_pdf_thread, 1, width);
    init_field_key(node_fields_whatsit_pdf_thread, 2, depth);
    init_field_key(node_fields_whatsit_pdf_thread, 3, height);
    init_field_key(node_fields_whatsit_pdf_thread, 4, named_id);
    init_field_key(node_fields_whatsit_pdf_thread, 5, thread_id);
    init_field_key(node_fields_whatsit_pdf_thread, 6, thread_attr);
    init_field_nop(node_fields_whatsit_pdf_thread, 7);

}

#define last_whatsit_node pdf_restore_node

/*tex

    When we copy a node list, there are several possibilities: we do the same as
    a new node, we copy the entry to the table in properties (a reference), we do
    a deep copy of a table in the properties, we create a new table and give it
    the original one as a metatable. After some experiments (that also included
    timing) with these scenarios I decided that a deep copy made no sense, nor
    did nilling. In the end both the shallow copy and the metatable variant were
    both ok, although the second one is slower. The most important aspect to keep
    in mind is that references to other nodes in properties no longer can be
    valid for that copy. We could use two tables (one unique and one shared) or
    metatables but that only complicates matters.

    When defining a new node, we could already allocate a table but it is rather
    easy to do that at the lua end e.g. using a metatable __index method. That
    way it is under macro package control.

    When deleting a node, we could keep the slot (e.g. setting it to false) but
    it could make memory consumption raise unneeded when we have temporary large
    node lists and after that only small lists.

    So, in the end this is what we ended up with. For the record, I also
    experimented with the following:

    \startitemize

        \startitem
            Copy attributes to the properties so that we have fast access at the
            lua end: in the end the overhead is not compensated by speed and
            convenience, in fact, attributes are not that slow when it comes to
            accessing them.
        \stopitem

        \startitem
            A bitset in the node but again the gain compared to attributes is
            neglectable and it also demands a pretty string agreement over what
            bit represents what, and this is unlikely to succeed in the tex
            community (I could use it for font handling, which is cross package,
            but decided that it doesn't pay off.
        \stopitem

    \stopitemize

    In case one wonders why properties make sense then, well, it is not so much
    speed that we gain, but more convenience: storing all kind of (temporary)
    data in attributes is no fun and this mechanism makes sure that properties
    are cleaned up when a node is freed. Also, the advantage of a more or less
    global properties table is that we stay at the lua end. An alternative is to
    store a reference in the node itself but that is complicated by the fact that
    the register has some limitations (no numeric keys) and we also don't want to
    mess with it too much.

*/

int lua_properties_level         = 0 ;
int lua_properties_enabled       = 0 ;
int lua_properties_use_metatable = 0 ;

/*tex

    We keep track of nesting so that we don't oveflow the stack, and, what is
    more important, don't keep resolving the registry index.

*/

#define lua_properties_push do { \
    if (lua_properties_enabled) { \
        lua_properties_level = lua_properties_level + 1 ; \
        if (lua_properties_level == 1) { \
            lua_get_metatablelua_l(Luas,node_properties); \
        } \
    } \
} while(0)

#define lua_properties_pop do { \
    if (lua_properties_enabled) { \
        if (lua_properties_level == 1) \
            lua_pop(Luas,1); \
        lua_properties_level = lua_properties_level - 1 ; \
    } \
} while(0)

/*tex No setting is needed: */

#define lua_properties_set(target) do { \
} while(0)

/*tex Resetting boils down to nilling. */

#define lua_properties_reset(target) do { \
    if (lua_properties_enabled) { \
        if (lua_properties_level == 0) { \
            lua_get_metatablelua_l(Luas,node_properties); \
            lua_pushnil(Luas); \
            lua_rawseti(Luas,-2,target); \
            lua_pop(Luas,1); \
        } else { \
            lua_pushnil(Luas); \
            lua_rawseti(Luas,-2,target); \
        } \
    } \
} while(0)

/*tex

    For a moment I considered supporting all kind of data types but in practice
    that makes no sense. So we stick to a cheap shallow copy with as option a
    metatable. BTW, a deep copy would look like this:

    \starttyping
    static void copy_lua_table(lua_State* L, int index) {
        lua_newtable(L);
        lua_pushnil(L);
        while(lua_next(L, index-1) != 0) {
            lua_pushvalue(L, -2);
            lua_insert(L, -2);
            if (lua_type(L,-1)==LUA_TTABLE)
                copy_lua_table(L,-1);
            lua_settable(L, -4);
        }
        lua_pop(L,1);
    }

    #define lua_properties_copy(target, source) do { \
        if (lua_properties_enabled) { \
            lua_pushinteger(Luas,source); \
            lua_rawget(Luas,-2); \
            if (lua_type(Luas,-1)==LUA_TTABLE) { \
                copy_lua_table(Luas,-1); \
                lua_pushinteger(Luas,target); \
                lua_insert(Luas,-2); \
                lua_rawset(Luas,-3); \
            } else { \
                lua_pop(Luas,1); \
            } \
        } \
    } while(0)
    \stoptyping

*/

/*tex Isn't there a faster way to metatable? */

/*tex

    \starttyping
    #define lua_properties_copy(target,source) do { \
        if (lua_properties_enabled) { \
            if (lua_properties_level == 0) { \
                lua_get_metatablelua_l(Luas,node_properties); \
                lua_rawgeti(Luas,-1,source); \
                if (lua_type(Luas,-1)==LUA_TTABLE) { \
                    if (lua_properties_use_metatable) { \
                        lua_newtable(Luas); \
                        lua_insert(Luas,-2); \
                        lua_setfield(Luas,-2,"__index"); \
                        lua_newtable(Luas); \
                        lua_insert(Luas,-2); \
                        lua_setmetatable(Luas,-2); \
                    } \
                    lua_rawseti(Luas,-2,target); \
                } else { \
                    lua_pop(Luas,1); \
                } \
                lua_pop(Luas,1); \
            } else { \
                lua_rawgeti(Luas,-1,source); \
                if (lua_type(Luas,-1)==LUA_TTABLE) { \
                    if (lua_properties_use_metatable) { \
                        lua_newtable(Luas); \
                        lua_insert(Luas,-2); \
                        lua_setfield(Luas,-2,"__index"); \
                        lua_newtable(Luas); \
                        lua_insert(Luas,-2); \
                        lua_setmetatable(Luas,-2); \
                    } \
                    lua_rawseti(Luas,-2,target); \
                } else { \
                    lua_pop(Luas,1); \
                } \
            } \
        } \
    } while(0)
    \stoptyping

*/

/*tex

    A simple testrun on many pages of dumb text shows 1% gain (of course it
    depends on how properties are used but some other tests confirm it).

*/

#define lua_properties_copy(target,source) do { \
    if (lua_properties_enabled) { \
        if (lua_properties_level == 0) { \
            lua_get_metatablelua_l(Luas,node_properties); \
            lua_rawgeti(Luas,-1,source); \
            if (lua_type(Luas,-1)==LUA_TTABLE) { \
                if (lua_properties_use_metatable) { \
                    lua_newtable(Luas); \
                    lua_insert(Luas,-2); \
                    lua_push_string_by_name(Luas,__index); \
                    lua_insert(Luas,-2); \
                    lua_rawset(Luas, -3); \
                    lua_newtable(Luas); \
                    lua_insert(Luas,-2); \
                    lua_setmetatable(Luas,-2); \
                } \
                lua_rawseti(Luas,-2,target); \
            } else { \
                lua_pop(Luas,1); \
            } \
            lua_pop(Luas,1); \
        } else { \
            lua_rawgeti(Luas,-1,source); \
            if (lua_type(Luas,-1)==LUA_TTABLE) { \
                if (lua_properties_use_metatable) { \
                    lua_newtable(Luas); \
                    lua_insert(Luas,-2); \
                    lua_push_string_by_name(Luas,__index); \
                    lua_insert(Luas,-2); \
                    lua_rawset(Luas, -3); \
                    lua_newtable(Luas); \
                    lua_insert(Luas,-2); \
                    lua_setmetatable(Luas,-2); \
                } \
                lua_rawseti(Luas,-2,target); \
            } else { \
                lua_pop(Luas,1); \
            } \
        } \
    } \
} while(0)

/*tex Here end the property handlers. */

int valid_node(halfword p)
{
    if (p > my_prealloc && p < var_mem_max) {
        if (varmem_sizes[p] > 0) {
            return 1;
        }
    }
    return 0;
}

static int test_count = 1;

#define dorangetest(a,b,c)  do {                                 \
    if (!(b>=0 && b<c)) {                                        \
        fprintf(stdout,"For node p:=%d, 0<=%d<%d (l.%d,r.%d)\n", \
            (int)a, (int)b, (int)c, __LINE__,test_count);        \
        confusion("node range test failed");                     \
    } } while (0)

#define dotest(a,b,c) do {                                     \
    if (b!=c) {                                                \
        fprintf(stdout,"For node p:=%d, %d==%d (l.%d,r.%d)\n", \
            (int)a, (int)b, (int)c, __LINE__,test_count);      \
        confusion("node test failed");                         \
    } } while (0)

#define check_action_ref(a)    { dorangetest(p,a,var_mem_max); }
#define check_attribute_ref(a) { dorangetest(p,a,var_mem_max); }

/*tex hm, we can just pass |p| then. */

#define check_token_ref(p) { \
    if (type(p) == whatsit_node) { \
        formatted_error("nodes","fuzzy token cleanup in whatsit node with type %s and subtype %i",node_data[type(p)].name,subtype(p)); \
    } else { \
        formatted_error("nodes","fuzzy token cleanup in node with type %s",node_data[type(p)].name); \
    } \
}

static void check_static_node_mem(void)
{
    dotest(zero_glue, width(zero_glue), 0);
    dotest(zero_glue, type(zero_glue), glue_spec_node);
    dotest(zero_glue, vlink(zero_glue), null);
    dotest(zero_glue, stretch(zero_glue), 0);
    dotest(zero_glue, stretch_order(zero_glue), normal);
    dotest(zero_glue, shrink(zero_glue), 0);
    dotest(zero_glue, shrink_order(zero_glue), normal);

    dotest(sfi_glue, width(sfi_glue), 0);
    dotest(sfi_glue, type(sfi_glue), glue_spec_node);
    dotest(sfi_glue, vlink(sfi_glue), null);
    dotest(sfi_glue, stretch(sfi_glue), 0);
    dotest(sfi_glue, stretch_order(sfi_glue), sfi);
    dotest(sfi_glue, shrink(sfi_glue), 0);
    dotest(sfi_glue, shrink_order(sfi_glue), normal);

    dotest(fil_glue, width(fil_glue), 0);
    dotest(fil_glue, type(fil_glue), glue_spec_node);
    dotest(fil_glue, vlink(fil_glue), null);
    dotest(fil_glue, stretch(fil_glue), unity);
    dotest(fil_glue, stretch_order(fil_glue), fil);
    dotest(fil_glue, shrink(fil_glue), 0);
    dotest(fil_glue, shrink_order(fil_glue), normal);

    dotest(fill_glue, width(fill_glue), 0);
    dotest(fill_glue, type(fill_glue), glue_spec_node);
    dotest(fill_glue, vlink(fill_glue), null);
    dotest(fill_glue, stretch(fill_glue), unity);
    dotest(fill_glue, stretch_order(fill_glue), fill);
    dotest(fill_glue, shrink(fill_glue), 0);
    dotest(fill_glue, shrink_order(fill_glue), normal);

    dotest(ss_glue, width(ss_glue), 0);
    dotest(ss_glue, type(ss_glue), glue_spec_node);
    dotest(ss_glue, vlink(ss_glue), null);
    dotest(ss_glue, stretch(ss_glue), unity);
    dotest(ss_glue, stretch_order(ss_glue), fil);
    dotest(ss_glue, shrink(ss_glue), unity);
    dotest(ss_glue, shrink_order(ss_glue), fil);

    dotest(fil_neg_glue, width(fil_neg_glue), 0);
    dotest(fil_neg_glue, type(fil_neg_glue), glue_spec_node);
    dotest(fil_neg_glue, vlink(fil_neg_glue), null);
    dotest(fil_neg_glue, stretch(fil_neg_glue), -unity);
    dotest(fil_neg_glue, stretch_order(fil_neg_glue), fil);
    dotest(fil_neg_glue, shrink(fil_neg_glue), 0);
    dotest(fil_neg_glue, shrink_order(fil_neg_glue), normal);
}

static void node_mem_dump(halfword p)
{
    halfword r;
    for (r = my_prealloc + 1; r < var_mem_max; r++) {
        if (vlink(r) == p) {
            halfword s = r;
            while (s > my_prealloc && varmem_sizes[s] == 0) {
                s--;
            }
            if (s != null
                && s != my_prealloc
                && s != var_mem_max
                && (r - s) < get_node_size(type(s), subtype(s))
                && alink(s) != p) {
                if (type(s) == disc_node) {
                    fprintf(stdout,"  pointed to from %s node %d (vlink %d, alink %d): ",
                        get_node_name(type(s), subtype(s)), (int) s,
                        (int) vlink(s), (int) alink(s));
                    fprintf(stdout, "pre_break(%d,%d,%d), ",
                        (int) vlink_pre_break(s), (int) tlink(pre_break(s)),
                        (int) alink(pre_break(s)));
                    fprintf(stdout, "post_break(%d,%d,%d), ",
                        (int) vlink_post_break(s),
                        (int) tlink(post_break(s)),
                        (int) alink(post_break(s)));
                    fprintf(stdout, "no_break(%d,%d,%d)",
                        (int) vlink_no_break(s), (int) tlink(no_break(s)),
                        (int) alink(no_break(s)));
                    fprintf(stdout, "\n");
                } else {
                    if (vlink(s) == p
                        || (type(s) == glyph_node && lig_ptr (s) == p)
                        || (type(s) == vlist_node && list_ptr(s) == p)
                        || (type(s) == hlist_node && list_ptr(s) == p)
                        || (type(s) == unset_node && list_ptr(s) == p)
                        || (type(s) == ins_node   && ins_ptr (s) == p)
                        ) {
                        fprintf(stdout,"  pointed to from %s node %d (vlink %d, alink %d): ",
                            get_node_name(type(s), subtype(s)), (int) s,
                            (int) vlink(s), (int) alink(s));
                        if (type(s) == glyph_node) {
                            fprintf(stdout, "lig_ptr(%d)", (int) lig_ptr(s));
                        } else if (type(s) == vlist_node || type(s) == hlist_node) {
                            fprintf(stdout, "list_ptr(%d)", (int) list_ptr(s));
                        }
                        fprintf(stdout, "\n");
                    } else {
                        if ((type(s) != penalty_node) && (type(s) != math_node) && (type(s) != kern_node)) {
                            fprintf(stdout, "  pointed to from %s node %d\n",
                                get_node_name(type(s), subtype(s)), (int) s);
                        }
                    }
                }
            }
        }
    }
}

static int free_error(halfword p)
{
    if (p > my_prealloc && p < var_mem_max) {
        int i;
        if (varmem_sizes[p] == 0) {
            check_static_node_mem();
            for (i = (my_prealloc + 1); i < var_mem_max; i++) {
                if (varmem_sizes[i] > 0) {
                    check_node(i);
                }
            }
            test_count++;
            if (type(p) == glyph_node) {
                formatted_error("nodes", "attempt to double-free glyph (%c) node %d, ignored", (int) character(p), (int) p);
            } else {
                formatted_error("nodes", "attempt to double-free %s node %d, ignored", get_node_name(type(p), subtype(p)), (int) p);
            }
            node_mem_dump(p);
            return 1;
        }
    } else {
        formatted_error("nodes", "attempt to free an impossible node %d", (int) p);
        return 1;
    }
    return 0;
}

static int copy_error(halfword p)
{
    if (p >= 0 && p < var_mem_max) {
        if (p > my_prealloc && varmem_sizes[p] == 0) {
            if (type(p) == glyph_node) {
                formatted_warning("nodes", "attempt to copy free glyph (%c) node %d, ignored", (int) character(p), (int) p);
            } else {
                formatted_warning("nodes", "attempt to copy free %s node %d, ignored", get_node_name(type(p), subtype(p)), (int) p);
            }
            return 1;
        }
    } else {
        formatted_error("nodes", "attempt to copy an impossible node %d", (int) p);
        return 1;
    }
    return 0;
}

/*tex

    Because of the 5-10\% overhead that \SYNTEX\ creates some options have been
    implemented controlled by |synctex_anyway_mode|.

    \startabulate
    \NC \type {1} \NC all but glyphs  \NC \NR
    \NC \type {2} \NC also glyphs     \NC \NR
    \NC \type {3} \NC glyphs and glue \NC \NR
    \NC \type {4} \NC only glyphs     \NC \NR
    \stoptabulate

*/

static halfword synctex_anyway_mode = 0;
static halfword synctex_line_field  = 0;
static halfword synctex_no_files    = 0;

void synctex_set_mode(int m)
{
    synctex_anyway_mode = m;
};

int synctex_get_mode(void)
{
    return synctex_anyway_mode;
};

void synctex_set_no_files(int f)
{
    synctex_no_files = f;
};

int synctex_get_no_files(void)
{
    return (int) synctex_no_files ;
};

void synctex_set_tag(int t)
{
    cur_input.synctex_tag_field = t;
};

int synctex_get_tag(void)
{
    return (int) cur_input.synctex_tag_field;
};

int synctex_get_line(void)
{
    return (int) synctex_line_field;
};

static int forced_tag  = 0;
static int forced_line = 0;

void synctex_force_tag(int t)
{
    forced_tag = t;
};

void synctex_force_line(int t)
{
    forced_line = t;
};

void synctex_set_line(int l)
{
    synctex_line_field = l;
};

/*tex |if_stack| is called a lot so maybe optimize that one. */

halfword new_node(int i, int j)
{
    int s = get_node_size(i, j);
    halfword n = get_node(s);
    /*tex

        It should be possible to do this memset at |free_node()|. Both type() and
        subtype() will be set below, and vlink() is set to null by |get_node()|,
        so we can do we clearing one word less than |s|.

    */
    (void) memset((void *) (varmem + n + 1), 0, (sizeof(memory_word) * ((unsigned) s - 1)));
    switch (i) {
        case glyph_node:
            init_lang_data(n);
            break;
        case hlist_node:
        case vlist_node:
            box_dir(n) = -1;
            break;
        case disc_node:
            pre_break(n) = pre_break_head(n);
            type(pre_break(n)) = nesting_node;
            subtype(pre_break(n)) = pre_break_head(0);
            post_break(n) = post_break_head(n);
            type(post_break(n)) = nesting_node;
            subtype(post_break(n)) = post_break_head(0);
            no_break(n) = no_break_head(n);
            type(no_break(n)) = nesting_node;
            subtype(no_break(n)) = no_break_head(0);
            break;
        case rule_node:
            depth(n) = null_flag;
            height(n) = null_flag;
            width(n) = null_flag;
            rule_dir(n) = -1;
            rule_index(n) = 0;
            rule_transform(n) = 0;
            break;
        case whatsit_node:
            if (j == open_node) {
                open_name(n) = get_nullstr();
                open_area(n) = open_name(n);
                open_ext(n) = open_name(n);
            }
            break;
        case unset_node:
            width(n) = null_flag;
            break;
        case pseudo_line_node:
        case shape_node:
            /*tex

                This is a trick that makes |pseudo_files| slightly slower, but
                the overall allocation faster then an explicit test at the top of
                |new_node()|.

            */
            if (j>0) {
              free_node(n, variable_node_size);
              n = slow_get_node(j);
              (void) memset((void *) (varmem + n + 1), 0, (sizeof(memory_word) * ((unsigned) j - 1)));
            }
            break;
        case fraction_noad:
            fraction_fam(n) = -1;
            break;
        case simple_noad:
            noad_fam(n) = -1;
            break;
        default:
            break;
    }
    if (synctex_anyway_mode) {
        /*tex See table above. */
        switch (i) {
            case glyph_node:
                if (synctex_anyway_mode > 1) {
                    synctex_tag_glyph(n) = forced_tag ? forced_tag : cur_input.synctex_tag_field;
                    synctex_line_glyph(n) = forced_line ? forced_line : synctex_line_field ? synctex_line_field : line;
                }
                break;
            case glue_node:
                if (synctex_anyway_mode < 4) {
                    synctex_tag_glue(n) = forced_tag ? forced_tag : cur_input.synctex_tag_field;
                    synctex_line_glue(n) = forced_line ? forced_line : synctex_line_field ? synctex_line_field : line;
                }
                break;
            case kern_node:
                if (synctex_anyway_mode < 3) {
                    synctex_tag_kern(n) = forced_tag ? forced_tag : cur_input.synctex_tag_field;
                    synctex_line_kern(n) = forced_line ? forced_line : synctex_line_field ? synctex_line_field : line;
                }
                break;
            case hlist_node:
            case vlist_node:
            case unset_node:
                /*tex Rather useless: */
                if (synctex_anyway_mode < 3) {
                    synctex_tag_box(n) = forced_tag ? forced_tag : cur_input.synctex_tag_field;
                    synctex_line_box(n) = forced_line ? forced_line : synctex_line_field ? synctex_line_field : line;
                }
                break;
            case rule_node:
                if (synctex_anyway_mode < 3) {
                    synctex_tag_rule(n) = forced_tag ? forced_tag : cur_input.synctex_tag_field;
                    synctex_line_rule(n) = forced_line ? forced_line : synctex_line_field ? synctex_line_field : line;
                }
                break;
            case math_node:
                /*tex Noads probably make more sense but let's not change that. */
                if (synctex_anyway_mode < 3) {
                    synctex_tag_math(n) = forced_tag ? forced_tag : cur_input.synctex_tag_field;
                    synctex_line_math(n) = forced_line ? forced_line : synctex_line_field ? synctex_line_field : line;
                }
                break;
        }
    } else if (synctex_par) {
        /*tex Handle the \SYNTEX\ extension. */
        switch (i) {
            case glue_node:
                synctex_tag_glue(n) = cur_input.synctex_tag_field;
                synctex_line_glue(n) = line;
                break;
            case kern_node:
                if (j != 0) {
                    synctex_tag_kern(n) = cur_input.synctex_tag_field;
                    synctex_line_kern(n) = line;
                }
                break;
            case hlist_node:
            case vlist_node:
            case unset_node:
                synctex_tag_box(n) = cur_input.synctex_tag_field;
                synctex_line_box(n) = line;
                break;
            case rule_node:
                synctex_tag_rule(n) = cur_input.synctex_tag_field;
                synctex_line_rule(n) = line;
                break;
            case math_node:
                synctex_tag_math(n) = cur_input.synctex_tag_field;
                synctex_line_math(n) = line;
                break;
        }
    }
    /*tex Take care of attributes. */
    if (nodetype_has_attributes(i)) {
        build_attribute_list(n);
        /*tex No need for |lua_properties_set|. */
    }
    type(n) = (quarterword) i;
    subtype(n) = (quarterword) j;
    return n;
}

halfword raw_glyph_node(void)
{
    register halfword n = get_node(glyph_node_size);
    (void) memset((void *) (varmem + n + 1), 0, (sizeof(memory_word) * (glyph_node_size - 1)));
    if (synctex_anyway_mode > 1) {
        synctex_tag_glyph(n) = forced_tag ? forced_tag : cur_input.synctex_tag_field;
        synctex_line_glyph(n) = forced_line ? forced_line : synctex_line_field ? synctex_line_field : line;
    }
    type(n) = glyph_node;
    subtype(n) = 0;
    return n;
}

halfword new_glyph_node(void)
{
    register halfword n = get_node(glyph_node_size);
    (void) memset((void *) (varmem + n + 1), 0, (sizeof(memory_word) * (glyph_node_size - 1)));
    if (synctex_anyway_mode > 1) {
        synctex_tag_glyph(n) = forced_tag ? forced_tag : cur_input.synctex_tag_field;
        synctex_line_glyph(n) = forced_line ? forced_line : synctex_line_field ? synctex_line_field : line;
    }
    type(n) = glyph_node;
    subtype(n) = 0;
    build_attribute_list(n);
    /*tex No need for |lua_properties_set|. */
    return n;
}

/*tex

    This makes a duplicate of the node list that starts at |p| and returns a
    pointer to the new list.

*/

halfword do_copy_node_list(halfword p, halfword end)
{
    /*tex previous position in new list */
    halfword q = null;
    /*tex head of the list */
    halfword h = null;
    register halfword s ;
    /*tex saves stack and time */
    lua_properties_push;
    while (p != end) {
        s = copy_node(p);
        if (h == null) {
            h = s;
        } else {
            couple_nodes(q, s);
        }
        q = s;
        p = vlink(p);
    }
    /*tex saves stack and time */
    lua_properties_pop;
    return h;
}

halfword copy_node_list(halfword p)
{
    return do_copy_node_list(p, null);
}

#define copy_sub_list(target,source) do { \
     if (source != null) { \
         s = do_copy_node_list(source, null); \
         target = s; \
     } else { \
         target = null; \
     } \
 } while (0)

#define copy_sub_node(target,source) do { \
    if (source != null) { \
        s = copy_node(source); \
        target = s ; \
    } else { \
        target = null; \
    } \
} while (0)

/*tex Make a dupe of a single node. */

static void copy_node_wrapup_core(halfword p, halfword r)
{
    halfword s ;
    switch (subtype(p)) {
        case write_node:
        case special_node:
        case late_special_node:
            add_token_ref(write_tokens(p));
            break;
        case late_lua_node:
            copy_late_lua(r, p);
            break;
        case user_defined_node:
            switch (user_node_type(p)) {
            case 'a':
                add_node_attr_ref(user_node_value(p));
                break;
            case 'l':
                copy_user_lua(r, p);
                break;
            case 'n':
                s = copy_node_list(user_node_value(p));
                user_node_value(r) = s;
                break;
            case 's':
                /* |add_string_ref(user_node_value(p));| */
                break;
            case 't':
                add_token_ref(user_node_value(p));
                break;
            }
            break;
        default:
            break ;
    }
}

void copy_node_wrapup_dvi(halfword p, halfword r)
{
}

void copy_node_wrapup_pdf(halfword p, halfword r)
{
    switch(subtype(p)) {
        case pdf_literal_node:
        case pdf_late_literal_node:
            copy_pdf_literal(r, p);
            break;
        case pdf_colorstack_node:
            if (pdf_colorstack_cmd(p) <= colorstack_data)
                add_token_ref(pdf_colorstack_data(p));
            break;
        case pdf_setmatrix_node:
            add_token_ref(pdf_setmatrix_data(p));
            break;
        case pdf_annot_node:
            add_token_ref(pdf_annot_data(p));
            break;
        case pdf_start_link_node:
            if (pdf_link_attr(r) != null)
                add_token_ref(pdf_link_attr(r));
            add_action_ref(pdf_link_action(r));
            break;
        case pdf_dest_node:
            if (pdf_dest_named_id(p) > 0)
                add_token_ref(pdf_dest_id(p));
            break;
        case pdf_thread_node:
        case pdf_start_thread_node:
            if (pdf_thread_named_id(p) > 0)
                add_token_ref(pdf_thread_id(p));
            if (pdf_thread_attr(p) != null)
                add_token_ref(pdf_thread_attr(p));
            break;
        default:
            break;
    }
}

halfword copy_node(const halfword p)
{
    /*tex current node being fabricated for new list */
    halfword r;
    /*tex whatsit subtype */
    halfword w;
    /*tex type of node */
    halfword t;
    /*tex a helper variable for copying into variable mem  */
    register halfword s;
    register int i;
    if (copy_error(p)) {
        r = new_node(temp_node, 0);
        return r;
    }
    t = type(p);
    i = get_node_size(t,subtype(p));
    r = get_node(i);
    (void) memcpy((void *) (varmem + r), (void *) (varmem + p), (sizeof(memory_word) * (unsigned) i));
    /*tex A possible speedup:

    \starttyping
    if t == glue_spec) {
        return r;
    }
    \stoptyping

    */
    if (synctex_anyway_mode) {
        /*tex Not:

        \starttyping
        if (t == glyph_node) {
            if (synctex_anyway_mode > 1) {
                synctex_tag_glyph(r) = forced_tag ? forced_tag : cur_input.synctex_tag_field;
                synctex_line_glyph(r) = forced_line ? forced_line : synctex_line_field ? synctex_line_field : line;
            }
        }
        \stoptyping
        */
    } else if (synctex_par) {
        /*tex Handle synctex extension. */
        switch (t) {
            case math_node:
                synctex_tag_math(r) = cur_input.synctex_tag_field;
                synctex_line_math(r) = line;
                break;
            case kern_node:
                synctex_tag_kern(r) = cur_input.synctex_tag_field;
                synctex_line_kern(r) = line;
                break;
        }
    }
    if (nodetype_has_attributes(t)) {
        add_node_attr_ref(node_attr(p));
        alink(r) = null;
        lua_properties_copy(r,p);
    }
    vlink(r) = null;
    switch (t) {
        case glyph_node:
            copy_sub_list(lig_ptr(r),lig_ptr(p)) ;
            break;
        case glue_node:
            copy_sub_list(leader_ptr(r),leader_ptr(p)) ;
            break;
        case hlist_node:
        case vlist_node:
        case unset_node:
            copy_sub_list(list_ptr(r),list_ptr(p)) ;
            break;
        case disc_node:
            pre_break(r) = pre_break_head(r);
            if (vlink_pre_break(p) != null) {
                s = copy_node_list(vlink_pre_break(p));
                alink(s) = pre_break(r);
                tlink_pre_break(r) = tail_of_list(s);
                vlink_pre_break(r) = s;
            } else {
                assert(tlink(pre_break(r)) == null);
            }
            post_break(r) = post_break_head(r);
            if (vlink_post_break(p) != null) {
                s = copy_node_list(vlink_post_break(p));
                alink(s) = post_break(r);
                tlink_post_break(r) = tail_of_list(s);
                vlink_post_break(r) = s;
            } else {
                assert(tlink_post_break(r) == null);
            }
            no_break(r) = no_break_head(r);
            if (vlink(no_break(p)) != null) {
                s = copy_node_list(vlink_no_break(p));
                alink(s) = no_break(r);
                tlink_no_break(r) = tail_of_list(s);
                vlink_no_break(r) = s;
            } else {
                assert(tlink_no_break(r) == null);
            }
            break;
        case math_node:
            break;
        case ins_node:
            copy_sub_list(ins_ptr(r),ins_ptr(p)) ;
            break;
        case margin_kern_node:
            copy_sub_node(margin_char(r),margin_char(p));
            break;
        case mark_node:
            add_token_ref(mark_ptr(p));
            break;
        case adjust_node:
            copy_sub_list(adjust_ptr(r),adjust_ptr(p));
            break;
        case choice_node:
            copy_sub_list(display_mlist(r),display_mlist(p)) ;
            copy_sub_list(text_mlist(r),text_mlist(p)) ;
            copy_sub_list(script_mlist(r),script_mlist(p)) ;
            copy_sub_list(script_script_mlist(r),script_script_mlist(p)) ;
            break;
        case simple_noad:
            copy_sub_list(nucleus(r),nucleus(p)) ;
            copy_sub_list(subscr(r),subscr(p)) ;
            copy_sub_list(supscr(r),supscr(p)) ;
            break;
        case radical_noad:
            copy_sub_list(nucleus(r),nucleus(p)) ;
            copy_sub_list(subscr(r),subscr(p)) ;
            copy_sub_list(supscr(r),supscr(p)) ;
            copy_sub_node(left_delimiter(r),left_delimiter(p)) ;
            copy_sub_list(degree(r),degree(p)) ;
            break;
        case accent_noad:
            copy_sub_list(nucleus(r),nucleus(p)) ;
            copy_sub_list(subscr(r),subscr(p)) ;
            copy_sub_list(supscr(r),supscr(p)) ;
            copy_sub_list(top_accent_chr(r),top_accent_chr(p)) ;
            copy_sub_list(bot_accent_chr(r),bot_accent_chr(p)) ;
            copy_sub_list(overlay_accent_chr(r),overlay_accent_chr(p)) ;
            break;
        case fence_noad:
            copy_sub_node(delimiter(r),delimiter(p)) ;
            break;
        case sub_box_node:
        case sub_mlist_node:
            copy_sub_list(math_list(r),math_list(p)) ;
            break;
        case fraction_noad:
            copy_sub_list(numerator(r),numerator(p)) ;
            copy_sub_list(denominator(r),denominator(p)) ;
            copy_sub_node(left_delimiter(r),left_delimiter(p)) ;
            copy_sub_node(right_delimiter(r),right_delimiter(p)) ;
            break;
        case glue_spec_node:
            break;
        case dir_node:
            break;
        case local_par_node:
            copy_sub_list(local_box_left(r),local_box_left(p));
            copy_sub_list(local_box_right(r),local_box_right(p));
        case boundary_node:
            break;
        case whatsit_node:
            w = subtype(p) ;
            if (w >= backend_first_pdf_whatsit) {
                copy_node_wrapup_pdf(p,r);
            } else if (w >= backend_first_dvi_whatsit) {
                copy_node_wrapup_dvi(p,r);
            } else {
                copy_node_wrapup_core(p,r);
            }
            break;
    }
    return r;
}

#define free_sub_list(source) if (source != null) flush_node_list(source);
#define free_sub_node(source) if (source != null) flush_node(source);

static void flush_node_wrapup_core(halfword p)
{
    switch (subtype(p)) {
        case open_node:
        case close_node:
        case save_pos_node:
            break;
        case write_node:
            /* Not similar to elsewhere, already flushed? */
            break;
        case special_node:
        case late_special_node:
            delete_token_ref(special_tokens(p));
            break;
        case late_lua_node:
            free_late_lua(p);
            break;
        case user_defined_node:
            switch (user_node_type(p)) {
            case 'a':
                delete_attribute_ref(user_node_value(p));
                break;
            case 'd':
                break;
            case 'l':
                free_user_lua(p);
                break;
            case 'n':
                flush_node_list(user_node_value(p));
                break;
            case 's':
                /*tex |delete_string_ref(user_node_value(p));| *//* if this was mpost .. */
                break;
            case 't':
                delete_token_ref(user_node_value(p));
                break;
            default:
                {
                    const char *hlp[] = {
                        "The type of the value in a user defined whatsit node should be one",
                        "of 'a' (attribute list), 'd' (number), 'n' (node list), 's' (string),",
                        "or 't' (tokenlist). Yours has an unknown type, and therefore I don't",
                        "know how to free the node's value. A memory leak may result.",
                        NULL
                    };
                    tex_error("Unidentified user defined whatsit", hlp);
                }
                break;
            }
            break;
    }
}

void flush_node_wrapup_dvi(halfword p)
{
}

void flush_node_wrapup_pdf(halfword p)
{
    switch(subtype(p)) {
        case pdf_save_node:
        case pdf_restore_node:
        case pdf_link_state_node:
        case pdf_refobj_node:
        case pdf_end_link_node:
        case pdf_end_thread_node:
            break;
        case pdf_literal_node:
        case pdf_late_literal_node:
            free_pdf_literal(p);
            break;
        case pdf_colorstack_node:
            if (pdf_colorstack_cmd(p) <= colorstack_data)
                delete_token_ref(pdf_colorstack_data(p));
            break;
        case pdf_setmatrix_node:
            delete_token_ref(pdf_setmatrix_data(p));
            break;
        case pdf_annot_node:
            delete_token_ref(pdf_annot_data(p));
            break;
        case pdf_link_data_node:
            break;
        case pdf_start_link_node:
            if (pdf_link_attr(p) != null)
                delete_token_ref(pdf_link_attr(p));
            delete_action_ref(pdf_link_action(p));
            break;
        case pdf_dest_node:
            if (pdf_dest_named_id(p) > 0)
                delete_token_ref(pdf_dest_id(p));
            break;
        case pdf_action_node:
            if (pdf_action_type(p) == pdf_action_user) {
                delete_token_ref(pdf_action_tokens(p));
            } else {
                if (pdf_action_file(p) != null)
                    delete_token_ref(pdf_action_file(p));
                if (pdf_action_type(p) == pdf_action_page)
                    delete_token_ref(pdf_action_tokens(p));
                else if (pdf_action_named_id(p) & 1)
                    delete_token_ref(pdf_action_id(p));
                if (pdf_action_named_id(p) & 2)
                    delete_token_ref(pdf_action_struct_id(p));
            }
            break;
        case pdf_thread_data_node:
            break;
        case pdf_thread_node:
        case pdf_start_thread_node:
            if (pdf_thread_named_id(p) > 0)
                delete_token_ref(pdf_thread_id(p));
            if (pdf_thread_attr(p) != null)
                delete_token_ref(pdf_thread_attr(p));
            break;
    }
}

void flush_node(halfword p)
{
    halfword w;
    if (p == null){
        /*tex legal, but no-op. */
        return;
    }
    if (free_error(p))
        return;
    switch (type(p)) {
        case glyph_node:
            free_sub_list(lig_ptr(p));
            break;
        case glue_node:
            free_sub_list(leader_ptr(p));
            break;
        case hlist_node:
        case vlist_node:
        case unset_node:
            free_sub_list(list_ptr(p));
            break;
        case disc_node:
            /*tex Watch the start at temp node hack! */
            free_sub_list(vlink(pre_break(p)));
            free_sub_list(vlink(post_break(p)));
            free_sub_list(vlink(no_break(p)));
            break;
        case rule_node:
        case kern_node:
        case penalty_node:
        case math_node:
            break;
        case glue_spec_node:
            /*tex This allows free-ing of lua-allocated glue specs. */
            break ;
        case dir_node:
            break;
        case local_par_node:
            free_sub_list(local_box_left(p));
            free_sub_list(local_box_right(p));
            break;
        case boundary_node:
            break;
        case whatsit_node:
            w = subtype(p) ;
            if (w >= backend_first_pdf_whatsit) {
                flush_node_wrapup_pdf(p);
            } else if (w >= backend_first_dvi_whatsit) {
                flush_node_wrapup_dvi(p);
            } else {
                flush_node_wrapup_core(p);
            }
            break;
        case ins_node:
            flush_node_list(ins_ptr(p));
            break;
        case margin_kern_node:
            flush_node(margin_char(p));
            break;
        case mark_node:
            delete_token_ref(mark_ptr(p));
            break;
        case adjust_node:
            flush_node_list(adjust_ptr(p));
            break;
        case style_node:
            /*tex Nothing to do. */
            break;
        case choice_node:
            free_sub_list(display_mlist(p));
            free_sub_list(text_mlist(p));
            free_sub_list(script_mlist(p));
            free_sub_list(script_script_mlist(p));
            break;
        case simple_noad:
            free_sub_list(nucleus(p));
            free_sub_list(subscr(p));
            free_sub_list(supscr(p));
            break;
        case radical_noad:
            free_sub_list(nucleus(p));
            free_sub_list(subscr(p));
            free_sub_list(supscr(p));
            free_sub_node(left_delimiter(p));
            free_sub_list(degree(p));
            break;
        case accent_noad:
            free_sub_list(nucleus(p));
            free_sub_list(subscr(p));
            free_sub_list(supscr(p));
            free_sub_list(top_accent_chr(p));
            free_sub_list(bot_accent_chr(p));
            free_sub_list(overlay_accent_chr(p));
            break;
        case fence_noad:
            free_sub_list(delimiter(p));
            break;
        case delim_node:
        case math_char_node:
        case math_text_char_node:
            /*tex Nothing to do. */
            break;
        case sub_box_node:
        case sub_mlist_node:
            free_sub_list(math_list(p));
            break;
        case fraction_noad:
            free_sub_list(numerator(p));
            free_sub_list(denominator(p));
            free_sub_node(left_delimiter(p));
            free_sub_node(right_delimiter(p));
            break;
        case pseudo_file_node:
            free_sub_list(pseudo_lines(p));
            break;
        case pseudo_line_node:
        case shape_node:
            free_node(p, subtype(p));
            return;
            break;
        case align_stack_node:
        case span_node:
        case movement_node:
        case if_node:
        case nesting_node:
        case unhyphenated_node:
        case hyphenated_node:
        case delta_node:
        case passive_node:
        case inserting_node:
        case split_up_node:
        case expr_node:
        case attribute_node:
        case attribute_list_node:
        case temp_node:
            break;
        default:
            formatted_error("nodes","flushing weird node type %d", type(p));
            return;
    }
    if (nodetype_has_attributes(type(p))) {
        delete_attribute_ref(node_attr(p));
        lua_properties_reset(p);
    }
    free_node(p, get_node_size(type(p), subtype(p)));
    return;
}

/*tex Erase the list of nodes starting at |pp|. */

void flush_node_list(halfword pp)
{
    register halfword p = pp;
    if (p == null) {
        /*tex Legal, but no-op. */
        return;
    }
    if (free_error(p))
        return;
    /*tex Saves stack and time. */
    lua_properties_push;
    while (p != null) {
        register halfword q = vlink(p);
        flush_node(p);
        p = q;
    }
    /*tex Saves stack and time. */
    lua_properties_pop;
}

static void check_node_wrapup_core(halfword p)
{
    switch (subtype(p)) {
        /*tex Frontend code. */
        case special_node:
        case late_special_node:
            check_token_ref(p);
            break;
        case user_defined_node:
            switch (user_node_type(p)) {
                case 'a':
                    check_attribute_ref(user_node_value(p));
                    break;
                case 't':
                    check_token_ref(p);
                    break;
                case 'n':
                    dorangetest(p, user_node_value(p), var_mem_max);
                    break;
                case 's':
                case 'd':
                case 'l':
                    break;
                default:
                    confusion("unknown user node type");
                    break;
            }
            break;
        case open_node:
        case write_node:
        case close_node:
        case save_pos_node:
            break;
    }
}

void check_node_wrapup_dvi(halfword p)
{
}

void check_node_wrapup_pdf(halfword p)
{
    switch (subtype(p)) {
        case pdf_literal_node:
        case pdf_late_literal_node:
            if (pdf_literal_type(p) == normal)
                check_token_ref(p);
            break;
        case pdf_colorstack_node:
            if (pdf_colorstack_cmd(p) <= colorstack_data)
                check_token_ref(p);
            break;
        case pdf_setmatrix_node:
            check_token_ref(p);
            break;
        case late_lua_node:
            if (late_lua_name(p) > 0)
                check_token_ref(p);
            if (late_lua_type(p) == normal)
                check_token_ref(p);
            break;
        case pdf_annot_node:
            check_token_ref(p);
            break;
        case pdf_start_link_node:
            if (pdf_link_attr(p) != null)
                check_token_ref(p);
            check_action_ref(pdf_link_action(p));
            break;
        case pdf_dest_node:
            if (pdf_dest_named_id(p) > 0)
                check_token_ref(p);
            break;
        case pdf_thread_node:
        case pdf_start_thread_node:
            if (pdf_thread_named_id(p) > 0)
                check_token_ref(p);
            if (pdf_thread_attr(p) != null)
                check_token_ref(p);
            break;
        case pdf_save_node:
        case pdf_restore_node:
        case pdf_link_state_node:
        case pdf_refobj_node:
        case pdf_end_link_node:
        case pdf_end_thread_node:
            break;
        default:
            confusion("wrapup pdf nodes");
            break;
    }
}

void check_node(halfword p)
{
    halfword w ;
    switch (type(p)) {
        case glyph_node:
            dorangetest(p, lig_ptr(p), var_mem_max);
            break;
        case glue_node:
            dorangetest(p, leader_ptr(p), var_mem_max);
            break;
        case hlist_node:
        case vlist_node:
        case unset_node:
        case align_record_node:
            dorangetest(p, list_ptr(p), var_mem_max);
            break;
        case ins_node:
            dorangetest(p, ins_ptr(p), var_mem_max);
            break;
        case whatsit_node:
            w = subtype(p) ;
            if (w >= backend_first_pdf_whatsit) {
                check_node_wrapup_pdf(p);
            } else if (w >= backend_first_dvi_whatsit) {
                check_node_wrapup_dvi(p);
            } else {
                check_node_wrapup_core(p);
            }
            break;
        case margin_kern_node:
            check_node(margin_char(p));
            break;
        case math_node:
            break;
        case disc_node:
            dorangetest(p, vlink(pre_break(p)), var_mem_max);
            dorangetest(p, vlink(post_break(p)), var_mem_max);
            dorangetest(p, vlink(no_break(p)), var_mem_max);
            break;
        case adjust_node:
            dorangetest(p, adjust_ptr(p), var_mem_max);
            break;
        case pseudo_file_node:
            dorangetest(p, pseudo_lines(p), var_mem_max);
            break;
        case pseudo_line_node:
        case shape_node:
            break;
        case choice_node:
            dorangetest(p, display_mlist(p), var_mem_max);
            dorangetest(p, text_mlist(p), var_mem_max);
            dorangetest(p, script_mlist(p), var_mem_max);
            dorangetest(p, script_script_mlist(p), var_mem_max);
            break;
        case fraction_noad:
            dorangetest(p, numerator(p), var_mem_max);
            dorangetest(p, denominator(p), var_mem_max);
            dorangetest(p, left_delimiter(p), var_mem_max);
            dorangetest(p, right_delimiter(p), var_mem_max);
            break;
        case simple_noad:
            dorangetest(p, nucleus(p), var_mem_max);
            dorangetest(p, subscr(p), var_mem_max);
            dorangetest(p, supscr(p), var_mem_max);
            break;
        case radical_noad:
            dorangetest(p, nucleus(p), var_mem_max);
            dorangetest(p, subscr(p), var_mem_max);
            dorangetest(p, supscr(p), var_mem_max);
            dorangetest(p, degree(p), var_mem_max);
            dorangetest(p, left_delimiter(p), var_mem_max);
            break;
        case accent_noad:
            dorangetest(p, nucleus(p), var_mem_max);
            dorangetest(p, subscr(p), var_mem_max);
            dorangetest(p, supscr(p), var_mem_max);
            dorangetest(p, top_accent_chr(p), var_mem_max);
            dorangetest(p, bot_accent_chr(p), var_mem_max);
            dorangetest(p, overlay_accent_chr(p), var_mem_max);
            break;
        case fence_noad:
            dorangetest(p, delimiter(p), var_mem_max);
            break;
        case local_par_node:
            dorangetest(p, local_box_left(p), var_mem_max);
            dorangetest(p, local_box_right(p), var_mem_max);
            break;
        /*tex

        There is no need for useless cases:

        \starttyping
        case rule_node:
        case kern_node:
        case penalty_node:
        case mark_node:
        case style_node:
        case attribute_list_node:
        case attribute_node:
        case glue_spec_node:
        case temp_node:
        case align_stack_node:
        case movement_node:
        case if_node:
        case nesting_node:
        case span_node:
        case unhyphenated_node:
        case hyphenated_node:
        case delta_node:
        case passive_node:
        case expr_node:
        case dir_node:
        case boundary_node:
            break;
        default:
            fprintf(stdout, "check_node: type is %d\n", type(p));
        \stoptyping

        */
    }
}

halfword fix_node_list(halfword head)
{
    halfword next, tail;
    if (head == null)
        return null;
    tail = head;
    next = vlink(head);
    while (next != null) {
        alink(next) = tail;
        tail = next;
        next = vlink(tail);
    }
    return tail;
}

halfword get_node(int s)
{
    register halfword r;

    if (s < MAX_CHAIN_SIZE) {
        r = free_chain[s];
        if (r != null) {
            free_chain[s] = vlink(r);
            varmem_sizes[r] = (char) s;
            vlink(r) = null;
            /*tex Maintain usage statistics. */
            var_used += s;
            return r;
        }
        /*tex This is the end of the \quote {inner loop}. */
        return slow_get_node(s);
    } else {
        normal_error("nodes","there is a problem in getting a node, case 1");
        return null;
    }
}

void free_node(halfword p, int s)
{
    if (p <= my_prealloc) {
        formatted_error("nodes", "node number %d of type %d should not be freed", (int) p, type(p));
        return;
    }
    varmem_sizes[p] = 0;
    if (s < MAX_CHAIN_SIZE) {
        vlink(p) = free_chain[s];
        free_chain[s] = p;
    } else {
        /*tex Todo: it is perhaps possible to merge this node with an existing rover? */
        node_size(p) = s;
        vlink(p) = rover;
        while (vlink(rover) != vlink(p)) {
            rover = vlink(rover);
        }
        vlink(rover) = p;
    }
    /*tex Maintain statistics. */
    var_used -= s;
}

static void free_node_chain(halfword q, int s)
{
    register halfword p = q;
    while (vlink(p) != null) {
        varmem_sizes[p] = 0;
        var_used -= s;
        p = vlink(p);
    }
    var_used -= s;
    varmem_sizes[p] = 0;
    vlink(p) = free_chain[s];
    free_chain[s] = q;
}

/*tex

    At the start of the node memory area we reserve some special nodes, for
    instance frequently used glue specifications. We could as well just use
    new_glue here but for the moment we stick to the traditional approach.

*/

#define initialize_glue(n,wi,st,sh,sto,sho) \
    vlink(n) = null; \
    type(n) = glue_spec_node; \
    width(n) = wi; \
    stretch(n) = st; \
    shrink(n) = sh; \
    stretch_order(n) = sto; \
    shrink_order(n) = sho;

#define initialize_whatever(n,t) \
    vinfo(n) = 0; \
    type(n) = t; \
    vlink(n) = null; \
    alink(n) = null;

#define initialize_point(n) \
    type(n) = glyph_node; \
    subtype(n) = 0; \
    vlink(n) = null; \
    vinfo(n + 1) = null; \
    alink(n) = null; \
    font(n) = 0; \
    character(n) = '.'; \
    vinfo(n + 3) = 0; \
    vlink(n + 3) = 0; \
    vinfo(n + 4) = 0; \
    vlink(n + 4) = 0;

void init_node_mem(int t)
{
    my_prealloc = var_mem_stat_max;

    varmem = (memory_word *) realloc((void *) varmem, sizeof(memory_word) * (unsigned) t);
    if (varmem == NULL) {
        overflow("node memory size", (unsigned) var_mem_max);
    }
    memset((void *) (varmem), 0, (unsigned) t * sizeof(memory_word));
    varmem_sizes = (char *) realloc(varmem_sizes, sizeof(char) * (unsigned) t);
    if (varmem_sizes == NULL) {
        overflow("node memory size", (unsigned) var_mem_max);
    }
    memset((void *) varmem_sizes, 0, sizeof(char) * (unsigned) t);
    var_mem_max = t;
    rover = var_mem_stat_max + 1;
    vlink(rover) = rover;
    node_size(rover) = (t - rover);
    var_used = 0;

    /*tex Initialize static glue specs. */

    initialize_glue(zero_glue,0,0,0,0,0);
    initialize_glue(sfi_glue,0,0,0,sfi,0);
    initialize_glue(fil_glue,0,unity,0,fil,0);
    initialize_glue(fill_glue,0,unity,0,fill,0);
    initialize_glue(ss_glue,0,unity,unity,fil,fil);
    initialize_glue(fil_neg_glue,0,-unity,0,fil,0);

    /*tex Initialize node list heads. */

    initialize_whatever(page_ins_head,temp_node);
    initialize_whatever(contrib_head,temp_node);
    initialize_whatever(page_head,temp_node);
    initialize_whatever(temp_head,temp_node);
    initialize_whatever(hold_head,temp_node);
    initialize_whatever(adjust_head,temp_node);
    initialize_whatever(pre_adjust_head,temp_node);
    initialize_whatever(align_head,temp_node);

    initialize_whatever(active,unhyphenated_node);
    initialize_whatever(end_span,span_node);

    initialize_point(begin_point);
    initialize_point(end_point);
}

void dump_node_mem(void)
{
    dump_int(var_mem_max);
    dump_int(rover);
    dump_things(varmem[0], var_mem_max);
    dump_things(varmem_sizes[0], var_mem_max);
    dump_things(free_chain[0], MAX_CHAIN_SIZE);
    dump_int(var_used);
    dump_int(my_prealloc);
}

/*tex

    It makes sense to enlarge the varmem array immediately.

*/

void undump_node_mem(void)
{
    int x;
    undump_int(x);
    undump_int(rover);
    var_mem_max = (x < 100000 ? 100000 : x);
    varmem = xmallocarray(memory_word, (unsigned) var_mem_max);
    undump_things(varmem[0], x);
    varmem_sizes = xmallocarray(char, (unsigned) var_mem_max);
    memset((void *) varmem_sizes, 0, (unsigned) var_mem_max * sizeof(char));
    undump_things(varmem_sizes[0], x);
    undump_things(free_chain[0], MAX_CHAIN_SIZE);
    undump_int(var_used);
    undump_int(my_prealloc);
    if (var_mem_max > x) {
        /*tex Todo: is it perhaps possible to merge the new node with an existing rover? */
        vlink(x) = rover;
        node_size(x) = (var_mem_max - x);
        while (vlink(rover) != vlink(x)) {
            rover = vlink(rover);
        }
        vlink(rover) = x;
    }
}

halfword slow_get_node(int s)
{
    register int t;

  RETRY:
    t = node_size(rover);
    if (vlink(rover) < var_mem_max && vlink(rover) != 0) {
        if (t > s) {
            /*tex Allocating from the bottom helps decrease page faults. */
            register halfword r = rover;
            rover += s;
            vlink(rover) = vlink(r);
            node_size(rover) = node_size(r) - s;
            if (vlink(rover) != r) {
                /*tex The list is longer than one. */
                halfword q = r;
                while (vlink(q) != r) {
                    q = vlink(q);
                }
                vlink(q) += s;
            } else {
                vlink(rover) += s;
            }
            if (vlink(rover) < var_mem_max) {
                varmem_sizes[r] = (char) (s > 127 ? 127 : s);
                vlink(r) = null;
                /*tex Maintain usage statistics. */
                var_used += s;
                /*tex This is the only exit. */
                return r;
            } else {
                normal_error("nodes","there is a problem in getting a node, case 2");
                return null;
            }
        } else {
            /*tex Attempt to keep the free list small. */
            int x;
            if (vlink(rover) != rover) {
                if (t < MAX_CHAIN_SIZE) {
                    halfword l = vlink(rover);
                    vlink(rover) = free_chain[t];
                    free_chain[t] = rover;
                    rover = l;
                    while (vlink(l) != free_chain[t]) {
                        l = vlink(l);
                    }
                    vlink(l) = rover;
                    goto RETRY;
                } else {
                    halfword l = rover;
                    while (vlink(rover) != l) {
                        if (node_size(rover) > s) {
                            goto RETRY;
                        }
                        rover = vlink(rover);
                    }
                }
            }
            /*tex If we are still here, it was apparently impossible to get a match. */
            x = (var_mem_max >> 2) + s;
            varmem = (memory_word *) realloc((void *) varmem, sizeof(memory_word) * (unsigned) (var_mem_max + x));
            if (varmem == NULL) {
                overflow("node memory size", (unsigned) var_mem_max);
            }
            memset((void *) (varmem + var_mem_max), 0, (unsigned) x * sizeof(memory_word));
            varmem_sizes = (char *) realloc(varmem_sizes, sizeof(char) * (unsigned) (var_mem_max + x));
            if (varmem_sizes == NULL) {
                overflow("node memory size", (unsigned) var_mem_max);
            }
            memset((void *) (varmem_sizes + var_mem_max), 0, (unsigned) (x) * sizeof(char));
            /*tex Todo: is it perhaps possible to merge the new memory with an existing rover? */
            vlink(var_mem_max) = rover;
            node_size(var_mem_max) = x;
            while (vlink(rover) != vlink(var_mem_max)) {
                rover = vlink(rover);
            }
            vlink(rover) = var_mem_max;
            rover = var_mem_max;
            var_mem_max += x;
            goto RETRY;
        }
    } else {
        normal_error("nodes","there is a problem in getting a node, case 3");
        return null;
    }
}

char *sprint_node_mem_usage(void)
{
    char *s;
    char *ss;
    int i;
    int b = 0;
    char msg[256];
    int node_counts[last_normal_node + last_whatsit_node + 2] = { 0 };
    s = strdup("");
    for (i = (var_mem_max - 1); i > my_prealloc; i--) {
        if (varmem_sizes[i] > 0) {
            if (type(i) > last_normal_node + last_whatsit_node) {
                node_counts[last_normal_node + last_whatsit_node + 1]++;
            } else if (type(i) == whatsit_node) {
                node_counts[(subtype(i) + last_normal_node + 1)]++;
            } else {
                node_counts[type(i)]++;
            }
        }
    }
    for (i = 0; i < last_normal_node + last_whatsit_node + 2; i++) {
        if (node_counts[i] > 0) {
            int j =
                (i > (last_normal_node + 1) ? (i - last_normal_node - 1) : 0);
            snprintf(msg, 255, "%s%d %s", (b ? ", " : ""), (int) node_counts[i],
                     get_node_name((i > last_normal_node ? whatsit_node : i), j));
            ss = xmalloc((unsigned) (strlen(s) + strlen(msg) + 1));
            strcpy(ss, s);
            strcat(ss, msg);
            free(s);
            s = ss;
            b = 1;
        }
    }
    return s;
}

halfword list_node_mem_usage(void)
{
    halfword q = null;
    halfword p = null;
    halfword i, j;
    char *saved_varmem_sizes = xmallocarray(char, (unsigned) var_mem_max);
    memcpy(saved_varmem_sizes, varmem_sizes, (size_t) var_mem_max);
    for (i = my_prealloc + 1; i < (var_mem_max - 1); i++) {
        if (saved_varmem_sizes[i] > 0) {
            j = copy_node(i);
            if (p == null) {
                q = j;
            } else {
                vlink(p) = j;
            }
            p = j;
        }
    }
    free(saved_varmem_sizes);
    return q;
}

void print_node_mem_stats(void)
{
    int i, b;
    halfword j;
    char msg[256];
    char *s;
    int free_chain_counts[MAX_CHAIN_SIZE] = { 0 };
    snprintf(msg, 255, " %d words of node memory still in use:", (int) (var_used + my_prealloc));
    tprint_nl(msg);
    s = sprint_node_mem_usage();
    tprint_nl("   ");
    tprint(s);
    free(s);
    tprint(" nodes");
    tprint_nl("   avail lists: ");
    b = 0;
    for (i = 1; i < MAX_CHAIN_SIZE; i++) {
        for (j = free_chain[i]; j != null; j = vlink(j))
            free_chain_counts[i]++;
        if (free_chain_counts[i] > 0) {
            snprintf(msg, 255, "%s%d:%d", (b ? "," : ""), i, (int) free_chain_counts[i]);
            tprint(msg);
            b = 1;
        }
    }
    /*tex A newline, if needed: */
    print_nlp();
}

halfword new_span_node(halfword n, int s, scaled w)
{
    halfword p = new_node(span_node, 0);
    span_link(p) = n;
    span_span(p) = s;
    width(p) = w;
    return p;
}

/* Now comes some attribute stuff. */

static halfword new_attribute_node(unsigned int i, int v)
{
    register halfword r = get_node(attribute_node_size);
    type(r) = attribute_node;
    attribute_id(r) = (halfword) i;
    attribute_value(r) = v;
    /* not used but nicer in print */
    subtype(r) = 0;
    return r;
}

halfword copy_attribute_list(halfword n)
{
    halfword q = get_node(attribute_node_size);
    register halfword p = q;
    type(p) = attribute_list_node;
    attr_list_ref(p) = 0;
    n = vlink(n);
    while (n != null) {
        register halfword r = get_node(attribute_node_size);
        /*tex The link will be fixed automatically in the next loop. */
        (void) memcpy((void *) (varmem + r), (void *) (varmem + n), (sizeof(memory_word) * attribute_node_size));
        vlink(p) = r;
        p = r;
        n = vlink(n);
    }
    return q;
}

void update_attribute_cache(void)
{
    halfword p;
    register int i;
    attr_list_cache = get_node(attribute_node_size);
    type(attr_list_cache) = attribute_list_node;
    attr_list_ref(attr_list_cache) = 0;
    p = attr_list_cache;
    for (i = 0; i <= max_used_attr; i++) {
        register int v = attribute(i);
        if (v > UNUSED_ATTRIBUTE) {
            register halfword r = new_attribute_node((unsigned) i, v);
            vlink(p) = r;
            p = r;
        }
    }
    if (vlink(attr_list_cache) == null) {
        free_node(attr_list_cache, attribute_node_size);
        attr_list_cache = null;
    }
    return;
}

void build_attribute_list(halfword b)
{
    if (max_used_attr >= 0) {
        if (attr_list_cache == cache_disabled|| attr_list_cache == null) {
            update_attribute_cache();
            if (attr_list_cache == null)
                return;
        }
        attr_list_ref(attr_list_cache)++;
        node_attr(b) = attr_list_cache;
    }
}

halfword current_attribute_list(void)
{
    if (max_used_attr >= 0) {
      if (attr_list_cache == cache_disabled) {
            update_attribute_cache();
      }
      return attr_list_cache ;
    }
    return null ;
}

void reassign_attribute(halfword n, halfword new)
{
    halfword old;
    old = node_attr(n);
    if (new == null) {
        /*tex There is nothing to assign but we need to check for an old value. */
        if (old != null) {
            /*tex This also nulls |attr| field of |n|. */
            delete_attribute_ref(old);
        }
    } else if (old == null) {
        /*tex Nothing is assigned so we just do that now. */
        assign_attribute_ref(n,new);
    } else if (old != new) {
        /*tex Something is assigned so we need to clean up and assign then. */
        delete_attribute_ref(old);
        assign_attribute_ref(n,new);
    }
    /*tex The same value so there is no need to assign and change the refcount. */
    node_attr(n) = new ;
}

void delete_attribute_ref(halfword b)
{
    if (b != null) {
        if (type(b) == attribute_list_node){
            attr_list_ref(b)--;
            if (attr_list_ref(b) == 0) {
                if (b == attr_list_cache)
                    attr_list_cache = cache_disabled;
                free_node_chain(b, attribute_node_size);
            }
            /*tex Maintain sanity. */
            if (attr_list_ref(b) < 0) {
                attr_list_ref(b) = 0;
            }
        } else {
            normal_error("nodes","trying to delete an attribute reference of a non attribute node");
        }
    }
}

void reset_node_properties(halfword b)
{
    if (b != null) {
        lua_properties_reset(b);
    }
}

/*tex Here |p| is an attr list head, or zero. */

halfword do_set_attribute(halfword p, int i, int val)
{
    register halfword q;
    register int j = 0;
    if (p == null) {
        /*tex Add a new head \& node. */
        q = get_node(attribute_node_size);
        type(q) = attribute_list_node;
        attr_list_ref(q) = 1;
        p = new_attribute_node((unsigned) i, val);
        vlink(q) = p;
        return q;
    }
    q = p;
    if (vlink(p) != null) {
        while (vlink(p) != null) {
            int t = attribute_id(vlink(p));
            if (t == i && attribute_value(vlink(p)) == val) {
                /*tex There is no need to do anything. */
                return q;
            }
            if (t >= i)
                break;
            j++;
            p = vlink(p);
        }
        p = q;
        while (j-- > 0)
            p = vlink(p);
        if (attribute_id(vlink(p)) == i) {
            attribute_value(vlink(p)) = val;
        } else {
            /*tex Add a new node. */
            halfword r = new_attribute_node((unsigned) i, val);
            vlink(r) = vlink(p);
            vlink(p) = r;
        }
        return q;
    } else {
        normal_error("nodes","trying to set an attribute fails, case 1");
        return null ;
    }
}

void set_attribute(halfword n, int i, int val)
{
    register halfword p;
    register int j = 0;
    /*tex Not all nodes can have an attribute list. */
    if (!nodetype_has_attributes(type(n)))
        return;
    /*tex If we have no list, we create one and quit. */
    p = node_attr(n);
    if (p == null) {            /* add a new head \& node */
        p = get_node(attribute_node_size);
        type(p) = attribute_list_node;
        attr_list_ref(p) = 1;
        node_attr(n) = p;
        p = new_attribute_node((unsigned) i, val);
        vlink(node_attr(n)) = p;
        return;
    }
    /*tex We check if we have this attribute already and quit if the value stays the same. */
    if (vlink(p) != null) {
        while (vlink(p) != null) {
            int t = attribute_id(vlink(p));
            if (t == i && attribute_value(vlink(p)) == val)
                return;
            if (t >= i)
                break;
            j++;
            p = vlink(p);
        }
        /*tex If found |j| has now the position and we assume a sorted list ! */
        p = node_attr(n);
        if (attr_list_ref(p) == 0 ) {
            /*tex The list is invalid i.e. freed already. */
            formatted_warning("nodes","node %d has an attribute list that is free already, case 1",(int) n);
            /*tex The still dangling list gets ref count 1. */
            attr_list_ref(p) = 1;
        } else if (attr_list_ref(p) == 1) {
            /*tex This can really happen! */
            if (p == attr_list_cache) {
                /*tex

                    We can invalidate the cache setting with |attr_list_cache =
                    cache_disabled| or or save the list, as done below.

                */
                p = copy_attribute_list(p);
                node_attr(n) = p;
                /*tex The copied list gets ref count 1. */
                attr_list_ref(p) = 1;
            }
        } else {
            /*tex The list is used multiple times so we make a copy. */
            p = copy_attribute_list(p);
            /*tex We decrement the ref count or the original. */
            delete_attribute_ref(node_attr(n));
            node_attr(n) = p;
            /*tex The copied list gets ref count 1. */
            attr_list_ref(p) = 1;
        }
        /*tex We go to position |j| in the list. */
        while (j-- > 0)
            p = vlink(p);
        /*tex If we have a hit we just set the value otherwise we add a new node. */
        if (attribute_id(vlink(p)) == i) {
            attribute_value(vlink(p)) = val;
        } else {
            /*tex Add a new node. */
            halfword r = new_attribute_node((unsigned) i, val);
            vlink(r) = vlink(p);
            vlink(p) = r;
        }
    } else {
        normal_error("nodes","trying to set an attribute fails, case 2");
    }
}

int unset_attribute(halfword n, int i, int val)
{
    register halfword p;
    register int t;
    register int j = 0;
    if (!nodetype_has_attributes(type(n)))
        return null;
    p = node_attr(n);
    if (p == null)
        return UNUSED_ATTRIBUTE;
    if (attr_list_ref(p) == 0) {
        formatted_warning("nodes","node %d has an attribute list that is free already, case 2", (int) n);
        return UNUSED_ATTRIBUTE;
    }
    if (vlink(p) != null) {
        while (vlink(p) != null) {
            t = attribute_id(vlink(p));
            if (t > i)
                return UNUSED_ATTRIBUTE;
            if (t == i) {
                p = vlink(p);
                break;
            }
            j++;
            p = vlink(p);
        }
        if (attribute_id(p) != i)
            return UNUSED_ATTRIBUTE;
        /*tex If we are still here, the attribute exists. */
        p = node_attr(n);
        if (attr_list_ref(p) > 1 || p == attr_list_cache) {
            halfword q = copy_attribute_list(p);
            if (attr_list_ref(p) > 1) {
                delete_attribute_ref(node_attr(n));
            }
            attr_list_ref(q) = 1;
            node_attr(n) = q;
        }
        p = vlink(node_attr(n));
        while (j-- > 0)
            p = vlink(p);
        t = attribute_value(p);
        if (val == UNUSED_ATTRIBUTE || t == val) {
            attribute_value(p) = UNUSED_ATTRIBUTE;
        }
        return t;
    } else {
        normal_error("nodes","trying to unset an attribute fails");
        return null;
    }
}

int has_attribute(halfword n, int i, int val)
{
    register halfword p;
    if (!nodetype_has_attributes(type(n)))
        return UNUSED_ATTRIBUTE;
    p = node_attr(n);
    if (p == null || vlink(p) == null)
        return UNUSED_ATTRIBUTE;
    p = vlink(p);
    while (p != null) {
        if (attribute_id(p) == i) {
            int ret = attribute_value(p);
            if (val == UNUSED_ATTRIBUTE || val == ret)
                return ret;
            return UNUSED_ATTRIBUTE;
        } else if (attribute_id(p) > i) {
            return UNUSED_ATTRIBUTE;
        }
        p = vlink(p);
    }
    return UNUSED_ATTRIBUTE;
}

void print_short_node_contents(halfword p)
{
    switch (type(p)) {
        case hlist_node:
        case vlist_node:
        case ins_node:
        case whatsit_node:
        case mark_node:
        case adjust_node:
        case unset_node:
            print_char('[');
            print_char(']');
            break;
        case rule_node:
            print_char('|');
            break;
        case glue_node:
            if (! glue_is_zero(p))
                print_char(' ');
            break;
        case math_node:
            print_char('$');
            break;
        case disc_node:
            short_display(vlink(pre_break(p)));
            short_display(vlink(post_break(p)));
            break;
    }
}

static void show_pdftex_whatsit_rule_spec(int p)
{
    tprint("(");
    print_rule_dimen(height(p));
    print_char('+');
    print_rule_dimen(depth(p));
    tprint(")x");
    print_rule_dimen(width(p));
}

/*tex

    Each new type of node that appears in our data structure must be capable of
    being displayed, copied, destroyed, and so on. The routines that we need for
    write-oriented whatsits are somewhat like those for mark nodes; other
    extensions might, of course, involve more subtlety here.

*/

static void print_write_whatsit(const char *s, pointer p)
{
    tprint_esc(s);
    if (write_stream(p) < 16)
        print_int(write_stream(p));
    else if (write_stream(p) == 16)
        print_char('*');
    else
        print_char('-');
}

static void show_node_wrapup_core(int p)
{
    switch (subtype(p)) {
        case open_node:
            print_write_whatsit("openout", p);
            print_char('=');
            print_file_name(open_name(p), open_area(p), open_ext(p));
            break;
        case write_node:
            print_write_whatsit("write", p);
            print_mark(write_tokens(p));
            break;
        case close_node:
            print_write_whatsit("closeout", p);
            break;
        case special_node:
            tprint_esc("special");
            print_mark(special_tokens(p));
            break;
        case late_special_node:
            tprint_esc("latespecial");
            print_mark(late_lua_data(p));
            break;
        case late_lua_node:
            show_late_lua(p);
            break;
        case save_pos_node:
            tprint_esc("savepos");
            break;
        case user_defined_node:
            tprint_esc("whatsit");
            print_int(user_node_id(p));
            print_char('=');
            switch (user_node_type(p)) {
            case 'a':
                tprint("<>");
                break;
            case 'n':
                tprint("[");
                show_node_list(user_node_value(p));
                tprint("]");
                break;
            case 's':
                print_char('"');
                print(user_node_value(p));
                print_char('"');
                break;
            case 't':
                print_mark(user_node_value(p));
                break;
            default:               /* only 'd' */
                print_int(user_node_value(p));
                break;
            }
            break;
    }
}

void show_node_wrapup_dvi(int p)
{
}

void show_node_wrapup_pdf(int p)
{
    switch (subtype(p)) {
        case pdf_literal_node:
        case pdf_late_literal_node:
            show_pdf_literal(p);
            break;
        case pdf_colorstack_node:
            tprint_esc("pdfcolorstack ");
            print_int(pdf_colorstack_stack(p));
            switch (pdf_colorstack_cmd(p)) {
                case colorstack_set:
                    tprint(" set ");
                    break;
                case colorstack_push:
                    tprint(" push ");
                    break;
                case colorstack_pop:
                    tprint(" pop");
                    break;
                case colorstack_current:
                    tprint(" current");
                    break;
                default:
                    confusion("colorstack");
                    break;
            }
            if (pdf_colorstack_cmd(p) <= colorstack_data)
                print_mark(pdf_colorstack_data(p));
            break;
        case pdf_setmatrix_node:
            tprint_esc("pdfsetmatrix");
            print_mark(pdf_setmatrix_data(p));
            break;
        case pdf_save_node:
            tprint_esc("pdfsave");
            break;
        case pdf_restore_node:
            tprint_esc("pdfrestore");
            break;
        case pdf_link_state_node:
            tprint_esc("pdflinkstate ");
            print_int(pdf_link_state(p));
            break;
        case pdf_refobj_node:
            tprint_esc("pdfrefobj");
            if (obj_obj_is_stream(static_pdf, pdf_obj_objnum(p))) {
                if (obj_obj_stream_attr(static_pdf, pdf_obj_objnum(p)) != LUA_NOREF) {
                    tprint(" attr");
                    lua_rawgeti(Luas, LUA_REGISTRYINDEX, obj_obj_stream_attr(static_pdf, pdf_obj_objnum(p)));
                    print_char(' ');
                    tprint((const char *) lua_tostring(Luas, -1));
                    lua_pop(Luas, 1);
                }
                tprint(" stream");
            }
            if (obj_obj_is_file(static_pdf, pdf_obj_objnum(p)))
                tprint(" file");
            if (obj_obj_data(static_pdf, pdf_obj_objnum(p)) != LUA_NOREF) {
                lua_rawgeti(Luas, LUA_REGISTRYINDEX, obj_obj_data(static_pdf, pdf_obj_objnum(p)));
                print_char(' ');
                tprint((const char *) lua_tostring(Luas, -1));
                lua_pop(Luas, 1);
            }
            break;
        case pdf_annot_node:
            tprint_esc("pdfannot");
            show_pdftex_whatsit_rule_spec(p);
            print_mark(pdf_annot_data(p));
            break;
        case pdf_start_link_node:
            tprint_esc("pdfstartlink");
            show_pdftex_whatsit_rule_spec(p);
            if (pdf_link_attr(p) != null) {
                tprint(" attr");
                print_mark(pdf_link_attr(p));
            }
            tprint(" action");
            if (pdf_action_type(pdf_link_action(p)) == pdf_action_user) {
                tprint(" user");
                print_mark(pdf_action_tokens(pdf_link_action(p)));
                return;
            }
            if (pdf_action_file(pdf_link_action(p)) != null) {
                tprint(" file");
                print_mark(pdf_action_file(pdf_link_action(p)));
            }
            if (pdf_action_struct_id(pdf_link_action(p)) != null) {
                tprint(" struct");
                if (pdf_action_file(pdf_link_action(p)) != null) {
                    print_mark(pdf_action_struct_id(pdf_link_action(p)));
                } else if (pdf_action_named_id(pdf_link_action(p)) & 2) {
                    tprint(" name");
                    print_mark(pdf_action_struct_id(pdf_link_action(p)));
                } else {
                    tprint(" num");
                    print_int(pdf_action_struct_id(pdf_link_action(p)));
                }
            }
            switch (pdf_action_type(pdf_link_action(p))) {
            case pdf_action_goto:
                if (pdf_action_named_id(pdf_link_action(p)) & 1) {
                    tprint(" goto name");
                    print_mark(pdf_action_id(pdf_link_action(p)));
                } else {
                    tprint(" goto num");
                    print_int(pdf_action_id(pdf_link_action(p)));
                }
                break;
            case pdf_action_page:
                tprint(" page");
                print_int(pdf_action_id(pdf_link_action(p)));
                print_mark(pdf_action_tokens(pdf_link_action(p)));
                break;
            case pdf_action_thread:
                if (pdf_action_named_id(pdf_link_action(p)) & 1) {
                    tprint(" thread name");
                    print_mark(pdf_action_id(pdf_link_action(p)));
                } else {
                    tprint(" thread num");
                    print_int(pdf_action_id(pdf_link_action(p)));
                }
                break;
            default:
                normal_error("pdf backend", "unknown action type for link");
                break;
            }
            break;
        case pdf_end_link_node:
            tprint_esc("pdfendlink");
            break;
        case pdf_dest_node:
            tprint_esc("pdfdest");
            if (pdf_dest_named_id(p) > 0) {
                tprint(" name");
                print_mark(pdf_dest_id(p));
            } else {
                tprint(" num");
                print_int(pdf_dest_id(p));
            }
            print_char(' ');
            switch (pdf_dest_type(p)) {
            case pdf_dest_xyz:
                tprint("xyz");
                if (pdf_dest_xyz_zoom(p) != null) {
                    tprint(" zoom");
                    print_int(pdf_dest_xyz_zoom(p));
                }
                break;
            case pdf_dest_fitbh:
                tprint("fitbh");
                break;
            case pdf_dest_fitbv:
                tprint("fitbv");
                break;
            case pdf_dest_fitb:
                tprint("fitb");
                break;
            case pdf_dest_fith:
                tprint("fith");
                break;
            case pdf_dest_fitv:
                tprint("fitv");
                break;
            case pdf_dest_fitr:
                tprint("fitr");
                show_pdftex_whatsit_rule_spec(p);
                break;
            case pdf_dest_fit:
                tprint("fit");
                break;
            default:
                tprint("unknown!");
                break;
            }
            break;
        case pdf_thread_node:
        case pdf_start_thread_node:
            if (subtype(p) == pdf_thread_node)
                tprint_esc("pdfthread");
            else
                tprint_esc("pdfstartthread");
            tprint("(");
            print_rule_dimen(height(p));
            print_char('+');
            print_rule_dimen(depth(p));
            tprint(")x");
            print_rule_dimen(width(p));
            if (pdf_thread_attr(p) != null) {
                tprint(" attr");
                print_mark(pdf_thread_attr(p));
            }
            if (pdf_thread_named_id(p) > 0) {
                tprint(" name");
                print_mark(pdf_thread_id(p));
            } else {
                tprint(" num");
                print_int(pdf_thread_id(p));
            }
            break;
        case pdf_end_thread_node:
            tprint_esc("pdfendthread");
            break;
        default:
            break;
    }
}

/*tex

    Now we are ready for |show_node_list| itself. This procedure has been written
    to be ``extra robust'' in the sense that it should not crash or get into a
    loop even if the data structures have been messed up by bugs in the rest of
    the program. You can safely call its parent routine |show_box(p)| for
    arbitrary values of |p| when you are debugging \TeX. However, in the presence
    of bad data, the procedure may fetch a |memory_word| whose variant is
    different from the way it was stored; for example, it might try to read
    |mem[p].hh| when |mem[p]| contains a scaled integer, if |p| is a pointer that
    has been clobbered or chosen at random.

*/

#define node_list_display(A) do { \
    append_char('.');  \
    show_node_list(A); \
    flush_char();      \
} while (0)

#define node_list_display_x(A,B) do { \
    if ((B) != null) {     \
        append_char('.');  \
        append_char(A);    \
        append_char(' ');  \
        show_node_list(B); \
        flush_char();      \
        flush_char();      \
        flush_char();      \
    } \
} while (0)

/*tex Print a node list symbolically: */

void show_node_list(int p)
{
    /*tex The number of items already printed at this level: */
    int n = 0;
    halfword w;
    /*tex A glue ratio, as a floating point number: */
    real g;
    if ((int) cur_length > depth_threshold) {
        if (p > null) {
            /*tex Indicate that there's been some truncation. */
            tprint(" []");
        }
        return;
    }
    while (p != null) {
        print_ln();
        print_current_string();
        /*tex Display the nesting history. */
        if (tracing_online_par < -2)
            print_int(p);
        incr(n);
        if (n > breadth_max) {
            /*tex Time to stop. */
            tprint("etc.");
            return;
        }
        /*tex Display node |p|. */
        if (is_char_node(p)) {
            print_font_and_char(p);
            if (is_ligature(p)) {
                /*tex Display ligature |p|. */
                tprint(" (ligature ");
                if (is_leftboundary(p))
                    print_char('|');
                font_in_short_display = font(p);
                short_display(lig_ptr(p));
                if (is_rightboundary(p))
                    print_char('|');
                print_char(')');
            }
        } else {
            switch (type(p)) {
                case hlist_node:
                case vlist_node:
                case unset_node:
                    /*tex Display box |p|. */
                    if (type(p) == hlist_node)
                        tprint_esc("h");
                    else if (type(p) == vlist_node)
                        tprint_esc("v");
                    else
                        tprint_esc("unset");
                    tprint("box(");
                    print_scaled(height(p));
                    print_char('+');
                    print_scaled(depth(p));
                    tprint(")x");
                    print_scaled(width(p));
                    if (type(p) == unset_node) {
                        /*tex Display special fields of the unset node |p|. */
                        if (span_count(p) != min_quarterword) {
                            tprint(" (");
                            print_int(span_count(p) + 1);
                            tprint(" columns)");
                        }
                        if (glue_stretch(p) != 0) {
                            tprint(", stretch ");
                            print_glue(glue_stretch(p), glue_order(p), NULL);
                        }
                        if (glue_shrink(p) != 0) {
                            tprint(", shrink ");
                            print_glue(glue_shrink(p), glue_sign(p), NULL);
                        }
                    } else {
                        /*tex

                            Display the value of |glue_set(p)|. The code will
                            have to change in this place if |glue_ratio| is a
                            structured type instead of an ordinary |real|. Note
                            that this routine should avoid arithmetic errors even
                            if the |glue_set| field holds an arbitrary random
                            value. The following code assumes that a properly
                            formed nonzero |real| number has absolute value
                            $2^{20}$ or more when it is regarded as an integer;
                            this precaution was adequate to prevent floating
                            point underflow on the author's computer.

                        */
                        g = (real) (glue_set(p));
                        if ((g != 0.0) && (glue_sign(p) != normal)) {
                            tprint(", glue set ");
                            if (glue_sign(p) == shrinking)
                                tprint("- ");
                            if (g > 20000.0 || g < -20000.0) {
                                if (g > 0.0)
                                    print_char('>');
                                else
                                    tprint("< -");
                                print_glue(20000 * unity, glue_order(p), NULL);
                            } else {
                                print_glue(round(unity * g), glue_order(p), NULL);
                            }
                        }
                        if (shift_amount(p) != 0) {
                            tprint(", shifted ");
                            print_scaled(shift_amount(p));
                        }
                        tprint(", direction ");
                        print_dir_par(box_dir(p));
                    }
                    /*tex Recursive call: */
                    node_list_display(list_ptr(p));
                    break;
                case rule_node:
                    /*tex Display rule |p|. */
                    if (subtype(p) == normal_rule) {
                        tprint_esc("rule(");
                    } else if (subtype(p) == empty_rule) {
                        tprint_esc("norule(");
                    } else if (subtype(p) == user_rule) {
                        tprint_esc("userrule(");
                    } else if (subtype(p) == box_rule) {
                        tprint_esc("box(");
                    } else if (subtype(p) == image_rule) {
                        tprint_esc("image(");
                    }
                    print_rule_dimen(height(p));
                    print_char('+');
                    print_rule_dimen(depth(p));
                    tprint(")x");
                    print_rule_dimen(width(p));
                    break;
                case ins_node:
                    /*tex Display insertion |p|. */
                    tprint_esc("insert");
                    print_int(subtype(p));
                    tprint(", natural size ");
                    print_scaled(height(p));
                    tprint("; split(");
                    print_spec(split_top_ptr(p), NULL);
                    print_char(',');
                    print_scaled(depth(p));
                    tprint("); float cost ");
                    print_int(float_cost(p));
                    /*tex Recursive call. */
                    node_list_display(ins_ptr(p));
                    break;
                case dir_node:
                    if (subtype(p) == cancel_dir) {
                        tprint_esc("enddir");
                    } else {
                        tprint_esc("begindir");
                    }
                    print_char(' ');
                    print_dir_par(dir_dir(p));
                    break;
                case local_par_node:
                    tprint_esc("localpar");
                    append_char('.');
                    print_ln();
                    print_current_string();
                    tprint_esc("localinterlinepenalty");
                    print_char('=');
                    print_int(local_pen_inter(p));
                    print_ln();
                    print_current_string();
                    tprint_esc("localbrokenpenalty");
                    print_char('=');
                    print_int(local_pen_broken(p));
                    print_ln();
                    print_current_string();
                    tprint_esc("localleftbox");
                    if (local_box_left(p) == null) {
                        tprint("=null");
                    } else {
                        append_char('.');
                        show_node_list(local_box_left(p));
                        decr(cur_length);
                    }
                    print_ln();
                    print_current_string();
                    tprint_esc("localrightbox");
                    if (local_box_right(p) == null) {
                        tprint("=null");
                    } else {
                        append_char('.');
                        show_node_list(local_box_right(p));
                        decr(cur_length);
                    }
                    decr(cur_length);
                    break;
                case boundary_node:
                    if (subtype(p)==0) {
                        tprint_esc("noboundary");
                    } else {
                        switch (subtype(p)) {
                            case 1:
                                tprint_esc("boundary");
                                break;
                            case 2:
                                tprint_esc("protrusionboundary");
                                break;
                            case 3:
                                tprint_esc("wordboundary");
                                break;
                            default:
                                tprint_esc("boundary");
                                print_char(':');
                                print_int(subtype(p));
                                break;
                        }
                        print_char('=');
                        print_int(boundary_value(p));
                    }
                    break;
                case whatsit_node:
                    w = subtype(p) ;
                    if (w >= backend_first_pdf_whatsit) {
                        show_node_wrapup_pdf(p);
                    } else if (w >= backend_first_dvi_whatsit) {
                        show_node_wrapup_dvi(p);
                    } else {
                        show_node_wrapup_core(p);
                    }
                    break;
                case glue_node:
                    /*tex Display glue |p|. */
                    if (subtype(p) >= a_leaders) {
                        /*tex Display leaders |p|. */
                        tprint_esc("");
                        switch (subtype(p)) {
                        case a_leaders:
                            break;
                        case c_leaders:
                            print_char('c');
                            break;
                        case x_leaders:
                            print_char('x');
                            break;
                        case g_leaders:
                            print_char('g');
                            break;
                        default:
                            normal_warning("nodes","weird glue leader subtype ignored");
                        }
                        tprint("leaders ");
                        print_spec(p, NULL);
                        /*tex Recursive call: */
                        node_list_display(leader_ptr(p));
                    } else {
                        tprint_esc("glue");
                        if (subtype(p) != normal) {
                            print_char('(');
                            if ((subtype(p) - 1) < thin_mu_skip_code) {
                                print_cmd_chr(assign_glue_cmd, glue_base + (subtype(p) - 1));
                            } else if (subtype(p) < cond_math_glue) {
                                print_cmd_chr(assign_mu_glue_cmd, glue_base + (subtype(p) - 1));
                            } else if (subtype(p) == cond_math_glue) {
                                tprint_esc("nonscript");
                            } else {
                                tprint_esc("mskip");
                            }
                            print_char(')');
                        }
                        if (subtype(p) != cond_math_glue) {
                            print_char(' ');
                            if (subtype(p) < cond_math_glue)
                                print_spec(p, NULL);
                            else
                                print_spec(p, "mu");
                        }
                    }
                    break;
                case margin_kern_node:
                    tprint_esc("kern");
                    print_scaled(width(p));
                    if (subtype(p) == left_side)
                        tprint(" (left margin)");
                    else
                        tprint(" (right margin)");
                    break;
                case kern_node:
                    /*tex Display kern |p| */
                    if (subtype(p) != mu_glue) {
                        tprint_esc("kern");
                        /*tex

                        \starttyping
                        if (subtype(p) != normal) {
                            print_char(' ');
                        }
                        \stoptyping

                        */
                        print_scaled(width(p));
                        if (subtype(p) == font_kern)
                            tprint(" (font)");
                        else if (subtype(p) == italic_kern)
                            tprint(" (italic)");
                        else if (subtype(p) == accent_kern)
                            tprint(" (accent)");
                    } else {
                        tprint_esc("mkern");
                        print_scaled(width(p));
                        tprint("mu");
                    }
                    break;
                case math_node:
                    /*tex Display math node |p|. */
                    tprint_esc("math");
                    if (subtype(p) == before)
                        tprint("on");
                    else
                        tprint("off");
                    if (!glue_is_zero(p)) {
                        tprint(", glued ");
                        print_spec(p, NULL);
                    } else if (surround(p) != 0) {
                        tprint(", surrounded ");
                        print_scaled(surround(p));
                    }
                    break;
                case penalty_node:
                    /*tex Display penalty |p|. */
                    tprint_esc("penalty ");
                    print_int(penalty(p));
                    break;
                case disc_node:
                    /*tex

                        Display discretionary |p|. The |post_break| list of a
                        discretionary node is indicated by a prefixed
                        `\.{\char'174}' instead of the `\..' before the
                        |pre_break| list.

                        We're not compatible anyway  so ...

                        \starttyping
                        tprint_esc("discretionary");
                        print_int(disc_penalty(p));
                        print_char('|');
                        if (vlink(no_break(p)) != null) {
                            tprint(" replacing ");
                            node_list_display(vlink(no_break(p)));
                        }
                        node_list_display(vlink(pre_break(p)));
                        append_char('|');
                        show_node_list(vlink(post_break(p)));
                        flush_char();
                        \stoptyping

                        has become:

                    */
                    tprint_esc("discretionary");
                    tprint(" (penalty ");
                    print_int(disc_penalty(p));
                    print_char(')');
                    node_list_display_x('<',vlink(pre_break(p)));
                    node_list_display_x('>',vlink(post_break(p)));
                    node_list_display_x('=',vlink(no_break(p)));
                    break;
                case mark_node:
                    /*tex Display mark |p|. */
                    tprint_esc("mark");
                    if (mark_class(p) != 0) {
                        print_char('s');
                        print_int(mark_class(p));
                    }
                    print_mark(mark_ptr(p));
                    break;
                case adjust_node:
                    /*tex Display adjustment |p|. */
                    tprint_esc("vadjust");
                    if (subtype(p) != 0)
                        tprint(" pre ");
                    /*tex Recursive call. */
                    node_list_display(adjust_ptr(p));
                    break;
                case glue_spec_node:
                    tprint("<glue_spec ");
                    print_spec(p, NULL);
                    tprint(">");
                    break;
                default:
                    show_math_node(p);
                    break;
            }
        }
        p = vlink(p);
    }
}

/*tex

    This routine finds the 'base' width of a horizontal box, using the same logic
    that \TeX82 used for \.{\\predisplaywidth}.

*/

static pointer get_actual_box_width(pointer r,pointer p, scaled initial_width)
{
    /*tex increment to |v| */
    scaled d;
    /*tex calculated |size| */
    scaled w = -max_dimen;
    /*tex |w| plus possible glue amount */
    scaled v = initial_width;
    while (p != null) {
        if (is_char_node(p)) {
            d = glyph_width(p);
            goto FOUND;
        }
        switch (type(p)) {
            case hlist_node:
            case vlist_node:
            case rule_node:
                d = width(p);
                goto FOUND;
                break;
            case margin_kern_node:
                d = width(p);
                break;
            case kern_node:
                d = width(p);
                break;
            case disc_node:
                /*tex At the end of the line we should actually take the |pre|. */
                if (no_break(p) != null) {
                    d = get_actual_box_width(r,vlink_no_break(p),0);
                    if (d <= -max_dimen || d >= max_dimen) {
                        d = 0;
                    }
                } else {
                    d = 0;
                }
                goto FOUND;
                break;
            case math_node:
                /*tex Begin mathskip code. */
                if (glue_is_zero(p)) {
                    d = surround(p);
                    break;
                } else {
                    /*tex Fall through. */
                }
                /*tex End mathskip code. */
            case glue_node:
                /*tex

                    We need to be careful that |w|, |v|, and |d| do not depend on
                    any |glue_set| values, since such values are subject to
                    system-dependent rounding. System-dependent numbers are not
                    allowed to infiltrate parameters like |pre_display_size|,
                    since \TeX82 is supposed to make the same decisions on all
                    machines.

                */
                d = width(p);
                if (glue_sign(r) == stretching) {
                    if ((glue_order(r) == stretch_order(p)) && (stretch(p) != 0))
                        v = max_dimen;
                } else if (glue_sign(r) == shrinking) {
                    if ((glue_order(r) == shrink_order(p)) && (shrink(p) != 0))
                        v = max_dimen;
                }
                if (subtype(p) >= a_leaders)
                    goto FOUND;
                break;
            default:
                d = 0;
                break;
        }
        if (v < max_dimen)
            v = v + d;
        goto NOT_FOUND;
      FOUND:
        if (v < max_dimen) {
            v = v + d;
            w = v;
        } else {
            w = max_dimen;
            break;
        }
      NOT_FOUND:
        p = vlink(p);
    }
    return w;
}

pointer actual_box_width(pointer r, scaled base_width)
{
    /*tex

        Often this is the same as:

        \starttyping
        return + shift_amount(r) + base_width +
            natural_sizes(list_ptr(r),null,(glue_ratio) glue_set(r),glue_sign(r),glue_order(r),box_dir(r));
        \stoptyping
    */
    return get_actual_box_width(r,list_ptr(r),shift_amount(r) + base_width);
}

halfword tail_of_list(halfword p)
{
    halfword q = p;
    while (vlink(q) != null)
        q = vlink(q);
    return q;
}

int var_used;

/*tex

    Attribute lists need two extra globals to increase processing efficiency.
    |max_used_attr| limits the test loop that checks for set attributes, and
    |attr_list_cache| contains a pointer to an already created attribute list. It
    is set to the special value |cache_disabled| when the current value can no
    longer be trusted: after an assignment to an attribute register, and after a
    group has ended.

*/

/*tex The maximum assigned attribute id: */

int max_used_attr;
halfword attr_list_cache;

/*tex

    From the computer's standpoint, \TeX's chief mission is to create horizontal
    and vertical lists. We shall now investigate how the elements of these lists
    are represented internally as nodes in the dynamic memory.

    A horizontal or vertical list is linked together by |link| fields in the
    first word of each node. Individual nodes represent boxes, glue, penalties,
    or special things like discretionary hyphens; because of this variety, some
    nodes are longer than others, and we must distinguish different kinds of
    nodes. We do this by putting a `|type|' field in the first word, together
    with the link and an optional `|subtype|'.

    Character nodes appear only in horizontal lists, never in vertical lists.

    An |hlist_node| stands for a box that was made from a horizontal list. Each
    |hlist_node| is seven words long, and contains the following fields (in
    addition to the mandatory |type| and |link|, which we shall not mention
    explicitly when discussing the other node types): The |height| and |width|
    and |depth| are scaled integers denoting the dimensions of the box. There is
    also a |shift_amount| field, a scaled integer indicating how much this box
    should be lowered (if it appears in a horizontal list), or how much it should
    be moved to the right (if it appears in a vertical list). There is a
    |list_ptr| field, which points to the beginning of the list from which this
    box was fabricated; if |list_ptr| is |null|, the box is empty. Finally, there
    are three fields that represent the setting of the glue: |glue_set(p)| is a
    word of type |glue_ratio| that represents the proportionality constant for
    glue setting; |glue_sign(p)| is |stretching| or |shrinking| or |normal|
    depending on whether or not the glue should stretch or shrink or remain
    rigid; and |glue_order(p)| specifies the order of infinity to which glue
    setting applies (|normal|, |sfi|, |fil|, |fill|, or |filll|). The |subtype|
    field is not used.

    The |new_null_box| function returns a pointer to an |hlist_node| in which all
    subfields have the values corresponding to `\.{\\hbox\{\}}'. The |subtype|
    field is set to |min_quarterword|, since that's the desired |span_count|
    value if this |hlist_node| is changed to an |unset_node|.

*/

/*tex Create a new box node. */

halfword new_null_box(void)
{
    halfword p = new_node(hlist_node, min_quarterword);
    box_dir(p) = text_direction_par;
    return p;
}

/*tex

    A |vlist_node| is like an |hlist_node| in all respects except that it
    contains a vertical list.

    A |rule_node| stands for a solid black rectangle; it has |width|, |depth|,
    and |height| fields just as in an |hlist_node|. However, if any of these
    dimensions is $-2^{30}$, the actual value will be determined by running the
    rule up to the boundary of the innermost enclosing box. This is called a
    ``running dimension.'' The |width| is never running in an hlist; the |height|
    and |depth| are never running in a~vlist.

    A new rule node is delivered by the |new_rule| function. It makes all the
    dimensions ``running,'' so you have to change the ones that are not allowed
    to run.

*/

halfword new_rule(int s)
{
    halfword p = new_node(rule_node,s);
    return p;
}

/*tex

    Insertions are represented by |ins_node| records, where the |subtype|
    indicates the corresponding box number. For example, `\.{\\insert 250}' leads
    to an |ins_node| whose |subtype| is |250+min_quarterword|. The |height| field
    of an |ins_node| is slightly misnamed; it actually holds the natural height
    plus depth of the vertical list being inserted. The |depth| field holds the
    |split_max_depth| to be used in case this insertion is split, and the
    |split_top_ptr| points to the corresponding |split_top_skip|. The
    |float_cost| field holds the |floating_penalty| that will be used if this
    insertion floats to a subsequent page after a split insertion of the same
    class. There is one more field, the |ins_ptr|, which points to the beginning
    of the vlist for the insertion.

    A |mark_node| has a |mark_ptr| field that points to the reference count of a
    token list that contains the user's \.{\\mark} text. In addition there is a
    |mark_class| field that contains the mark class.

    An |adjust_node|, which occurs only in horizontal lists, specifies material
    that will be moved out into the surrounding vertical list; i.e., it is used
    to implement \TeX's `\.{\\vadjust}' operation. The |adjust_ptr| field points
    to the vlist containing this material.

    A |glyph_node|, which occurs only in horizontal lists, specifies a glyph in a
    particular font, along with its attribute list. Older versions of \TeX\ could
    use token memory for characters, because the font,char combination would fit
    in a single word (both values were required to be strictly less than
    $2^{16}$). In LuaTeX, room is needed for characters that are larger than
    that, as well as a pointer to a potential attribute list, and the two
    displacement values.

    In turn, that made the node so large that it made sense to merge ligature
    glyphs as well, as that requires only one extra pointer. A few extra classes
    of glyph nodes will be introduced later. The unification of all those types
    makes it easier to manipulate lists of glyphs. The subtype differentiates
    various glyph kinds.

    First, here is a function that returns a pointer to a glyph node for a given
    glyph in a given font. If that glyph doesn't exist, |null| is returned
    instead. Nodes of this subtype are directly created only for accents and
    their base (through |make_accent|), and math nucleus items (in the conversion
    from |mlist| to |hlist|).

*/

halfword new_glyph(int f, int c)
{
    halfword p = null;
    if ((f == 0) || (char_exists(f, c))) {
        p = new_glyph_node();
        set_to_glyph(p);
        font(p) = f;
        character(p) = c;
    }
    return p;
}

/*tex

    A subset of the glyphs nodes represent ligatures: characters fabricated from
    the interaction of two or more actual characters. The characters that
    generated the ligature have not been forgotten, since they are needed for
    diagnostic messages; the |lig_ptr| field points to a linked list of character
    nodes for all original characters that have been deleted. (This list might be
    empty if the characters that generated the ligature were retained in other
    nodes.)

    The |subtype| field of these |glyph_node|s is 1, plus 2 and/or 1 if the
    original source of the ligature included implicit left and/or right
    boundaries. These nodes are created by the C function |new_ligkern|.

    A third general type of glyphs could be called a character, as it only
    appears in lists that are not yet processed by the ligaturing and kerning
    steps of the program.

    |main_control| inserts these, and they are later converted to
    |subtype_normal| by |new_ligkern|.

*/

quarterword norm_min(int h)
{
    if (h <= 0)
        return 1;
    else if (h >= 255)
        return 255;
    else
        return (quarterword) h;
}

halfword new_char(int f, int c)
{
    halfword p;
    p = new_glyph_node();
    set_to_character(p);
    font(p) = f;
    character(p) = c;
    lang_data(p) = make_lang_data(uc_hyph_par, cur_lang_par, left_hyphen_min_par, right_hyphen_min_par);
    return p;
}

/*tex

    Left and right ghost glyph nodes are the result of \.{\\leftghost} and
    \.{\\rightghost}, respectively. They are going to be removed by
    |new_ligkern|, at the end of which they are no longer needed.

    Here are a few handy helpers used by the list output routines. The yoffset
    has some history but we now give some control over its treatment:

    0: what we had before
    1: compensate height and depth
    2: compensate height and depth, take max
    3: we keep height and depth

    The modes are controlled by a variable because we need to retain downward
    compatibility.

*/

scaled glyph_width(halfword p)
{
    scaled w = char_width(font(p), character(p));
    return w;
}

scaled glyph_height(halfword p)
{
    scaled h = char_height(font(p), character(p));
    scaled y = y_displace(p);
    if ((glyph_dimensions_par == 0) || (glyph_dimensions_par == 1) || (glyph_dimensions_par == 2 && y > 0))
        h += y;
    if (h < 0)
        h = 0;
    return h;
}

scaled glyph_depth(halfword p) /* not used */
{
    scaled d = char_depth(font(p), character(p));
    scaled y = y_displace(p);
    if ((glyph_dimensions_par == 0 && y > 0) || (glyph_dimensions_par == 1) || (glyph_dimensions_par == 2 && y < 0))
        d -= y;
    if (d < 0)
        d = 0;
    return d;
}

/*tex

    A |disc_node|, which occurs only in horizontal lists, specifies a
    ``dis\-cretion\-ary'' line break. If such a break occurs at node |p|, the
    text that starts at |pre_break(p)| will precede the break, the text that
    starts at |post_break(p)| will follow the break, and text that appears in
    |no_break(p)| nodes will be ignored. For example, an ordinary discretionary
    hyphen, indicated by `\.{\\-}', yields a |disc_node| with |pre_break|
    pointing to a |char_node| containing a hyphen, |post_break=null|, and
    |no_break=null|.

    If |subtype(p)=automatic_disc|, the |ex_hyphen_penalty| will be charged for
    this break. Otherwise the |hyphen_penalty| will be charged. The texts will
    actually be substituted into the list by the line-breaking algorithm if it
    decides to make the break, and the discretionary node will disappear at that
    time; thus, the output routine sees only discretionaries that were not
    chosen.

*/

halfword new_disc(void)
{
    halfword p = new_node(disc_node, 0);
    disc_penalty(p) = hyphen_penalty_par;
    return p;
}

/*

    A |whatsit_node| is a wild card reserved for extensions to \TeX. The
    |subtype| field in its first word says what `\\{whatsit}' it is, and
    implicitly determines the node size (which must be 2 or more) and the format
    of the remaining words. When a |whatsit_node| is encountered in a list,
    special actions are invoked; knowledgeable people who are careful not to mess
    up the rest of \TeX\ are able to make \TeX\ do new things by adding code at
    the end of the program. For example, there might be a `\TeX nicolor'
    extension to specify different colors of ink, and the whatsit node might
    contain the desired parameters.

    The present implementation of \TeX\ treats the features associated with
    `\.{\\write}' and `\.{\\special}' as if they were extensions, in order to
    illustrate how such routines might be coded. We shall defer further
    discussion of extensions until the end of this program.

    A |math_node|, which occurs only in horizontal lists, appears before and
    after mathematical formulas. The |subtype| field is |before| before the
    formula and |after| after it. There is a |surround| field, which represents
    the amount of surrounding space inserted by \.{\\mathsurround}.

*/

halfword new_math(scaled w, int s)
{
    halfword p = new_node(math_node, s);
    surround(p) = w;
    return p;
}

/*tex

    \TeX\ makes use of the fact that |hlist_node|, |vlist_node|, |rule_node|,
    |ins_node|, |mark_node|, |adjust_node|, |disc_node|, |whatsit_node|, and
    |math_node| are at the low end of the type codes, by permitting a break at
    glue in a list if and only if the |type| of the previous node is less than
    |math_node|. Furthermore, a node is discarded after a break if its type is
    |math_node| or~more.

    A |glue_node| represents glue in a list. However, it is really only a pointer
    to a separate glue specification, since \TeX\ makes use of the fact that many
    essentially identical nodes of glue are usually present. If |p| points to a
    |glue_node|, |glue_ptr(p)| points to another packet of words that specify the
    stretch and shrink components, etc.

    Glue nodes also serve to represent leaders; the |subtype| is used to
    distinguish between ordinary glue (which is called |normal|) and the three
    kinds of leaders (which are called |a_leaders|, |c_leaders|, and
    |x_leaders|). The |leader_ptr| field points to a rule node or to a box node
    containing the leaders; it is set to |null| in ordinary glue nodes.

    Many kinds of glue are computed from \TeX's ``skip'' parameters, and it is
    helpful to know which parameter has led to a particular glue node. Therefore
    the |subtype| is set to indicate the source of glue, whenever it originated
    as a parameter. We will be defining symbolic names for the parameter numbers
    later (e.g., |line_skip_code=0|, |baseline_skip_code=1|, etc.); it suffices
    for now to say that the |subtype| of parametric glue will be the same as the
    parameter number, plus~one.

    In math formulas there are two more possibilities for the |subtype| in a glue
    node: |mu_glue| denotes an \.{\\mskip} (where the units are scaled \.{mu}
    instead of scaled \.{pt}); and |cond_math_glue| denotes the `\.{\\nonscript}'
    feature that cancels the glue node immediately following if it appears in a
    subscript.

    A glue specification has a halfword reference count in its first word,
    representing |null| plus the number of glue nodes that point to it (less
    one). Note that the reference count appears in the same position as the
    |link| field in list nodes; this is the field that is initialized to |null|
    when a node is allocated, and it is also the field that is flagged by
    |empty_flag| in empty nodes.

    Glue specifications also contain three |scaled| fields, for the |width|,
    |stretch|, and |shrink| dimensions. Finally, there are two one-byte fields
    called |stretch_order| and |shrink_order|; these contain the orders of
    infinity (|normal|, |sfi|, |fil|, |fill|, or |filll|) corresponding to the
    stretch and shrink values.

    Here is a function that returns a pointer to a copy of a glue spec. The
    reference count in the copy is |null|, because there is assumed to be exactly
    one reference to the new specification.

*/

halfword new_spec(halfword q)
{
    if (q == null) {
        return copy_node(zero_glue);
    } else if (type(q) == glue_spec_node) {
        return copy_node(q);
    } else if (type(q) == glue_node) {
        halfword p = copy_node(zero_glue);
        width(p) = width(q);
        stretch(p) = stretch(q);
        shrink(p) = shrink(q);
        stretch_order(p) = stretch_order(q);
        shrink_order(p) = shrink_order(q);
        return p;
    } else {
        /*tex Alternatively we can issue a warning. */
        return copy_node(zero_glue);
    }
}

/*tex

    And here's a function that creates a glue node for a given parameter
    identified by its code number; for example, |new_param_glue(line_skip_code)|
    returns a pointer to a glue node for the current \.{\\lineskip}.

*/

halfword new_param_glue(int n)
{
    halfword p = new_node(glue_node, n + 1);
    halfword q = glue_par(n);
    width(p) = width(q);
    stretch(p) = stretch(q);
    shrink(p) = shrink(q);
    stretch_order(p) = stretch_order(q);
    shrink_order(p) = shrink_order(q);
    return p;
}

/*tex

    Glue nodes that are more or less anonymous are created by |new_glue|, whose
    argument points to a glue specification.

*/

halfword new_glue(halfword q)
{
    halfword p = new_node(glue_node, normal);
    width(p) = width(q);
    stretch(p) = stretch(q);
    shrink(p) = shrink(q);
    stretch_order(p) = stretch_order(q);
    shrink_order(p) = shrink_order(q);
    return p;
}

/*tex

    Still another subroutine is needed: This one is sort of a combination of
    |new_param_glue| and |new_glue|. It creates a glue node for one of the
    current glue parameters, but it makes a fresh copy of the glue specification,
    since that specification will probably be subject to change, while the
    parameter will stay put.

    The global variable |temp_ptr| is set to the address of the new spec.

*/

halfword new_skip_param(int n)
{
    halfword p = new_node(glue_node, n + 1);
    halfword q = glue_par(n);
    width(p) = width(q);
    stretch(p) = stretch(q);
    shrink(p) = shrink(q);
    stretch_order(p) = stretch_order(q);
    shrink_order(p) = shrink_order(q);
    return p;
}

/*tex

    A |kern_node| has a |width| field to specify a (normally negative) amount of
    spacing. This spacing correction appears in horizontal lists between letters
    like A and V when the font designer said that it looks better to move them
    closer together or further apart. A kern node can also appear in a vertical
    list, when its `|width|' denotes additional spacing in the vertical
    direction. The |subtype| is either |normal| (for kerns inserted from font
    information or math mode calculations) or |explicit| (for kerns inserted from
    \.{\\kern} and \.{\\/} commands) or |acc_kern| (for kerns inserted from
    non-math accents) or |mu_glue| (for kerns inserted from \.{\\mkern}
    specifications in math formulas).

    The |new_kern| function creates a kern node having a given width.

*/

halfword new_kern(scaled w)
{
    halfword p = new_node(kern_node, normal);
    width(p) = w;
    return p;
}

/*tex

    A |penalty_node| specifies the penalty associated with line or page breaking,
    in its |penalty| field. This field is a fullword integer, but the full range
    of integer values is not used: Any penalty |>=10000| is treated as infinity,
    and no break will be allowed for such high values. Similarly, any penalty
    |<=-10000| is treated as negative infinity, and a break will be forced.

    Anyone who has been reading the last few sections of the program will be able
    to guess what comes next.

*/

halfword new_penalty(int m, int s)
{
    halfword p = new_node(penalty_node, 0);
    penalty(p) = m;
    subtype(p) = s;
    return p;
}

/*tex

    You might think that we have introduced enough node types by now. Well,
    almost, but there is one more: An |unset_node| has nearly the same format as
    an |hlist_node| or |vlist_node|; it is used for entries in \.{\\halign} or
    \.{\\valign} that are not yet in their final form, since the box dimensions
    are their ``natural'' sizes before any glue adjustment has been made. The
    |glue_set| word is not present; instead, we have a |glue_stretch| field,
    which contains the total stretch of order |glue_order| that is present in the
    hlist or vlist being boxed. Similarly, the |shift_amount| field is replaced
    by a |glue_shrink| field, containing the total shrink of order |glue_sign|
    that is present. The |subtype| field is called |span_count|; an unset box
    typically contains the data for |qo(span_count)+1| columns. Unset nodes will
    be changed to box nodes when alignment is completed.

    In fact, there are still more types coming. When we get to math formula
    processing we will see that a |style_node| has |type=14|; and a number of
    larger type codes will also be defined, for use in math mode only.

    Warning: If any changes are made to these data structure layouts, such as
    changing any of the node sizes or even reordering the words of nodes, the
    |copy_node_list| procedure and the memory initialization code below may have
    to be changed. Such potentially dangerous parts of the program are listed in
    the index under `data structure assumptions'. However, other references to
    the nodes are made symbolically in terms of the \.{WEB} macro definitions
    above, so that format changes will leave \TeX's other algorithms intact.

*/

halfword make_local_par_node(int mode)
{
    int callback_id;
    halfword q;
    halfword p = new_node(local_par_node,mode);
    local_pen_inter(p) = local_inter_line_penalty_par;
    local_pen_broken(p) = local_broken_penalty_par;
    if (local_left_box_par != null) {
        q = copy_node_list(local_left_box_par);
        local_box_left(p) = q;
        local_box_left_width(p) = width(local_left_box_par);
    }
    if (local_right_box_par != null) {
        q = copy_node_list(local_right_box_par);
        local_box_right(p) = q;
        local_box_right_width(p) = width(local_right_box_par);
    }
    local_par_dir(p) = par_direction_par;
    /*tex Callback with node passed: */
    callback_id = callback_defined(insert_local_par_callback);
    if (callback_id > 0) {
        /*tex Todo: use general mechanism/wrapper. */
        int sfix = lua_gettop(Luas);
        if (!get_callback(Luas, callback_id)) {
            lua_settop(Luas, sfix);
        } else {
            int i;
            nodelist_to_lua(Luas, p);
            lua_push_local_par_mode(Luas,mode)
            /*tex 2 arg, 0 result */
            i = lua_pcall(Luas, 2, 0, 0);
            if (i != 0) {
                lua_gc(Luas, LUA_GCCOLLECT, 0);
                Luas = luatex_error(Luas, (i == LUA_ERRRUN ? 0 : 1));
            }
            lua_settop(Luas, sfix);
        }
    }
    return p;
}