/* texnodes.c Copyright 2006-2008 Taco Hoekwater 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 . */ #include "luatex-api.h" #include #include "nodes.h" #include "commands.h" #include "tokens.h" #undef name #define noDEBUG static const char _svn_version[] = "$Id: texnodes.c 2329 2009-04-18 14:25:30Z hhenkel $ $URL: http://foundry.supelec.fr/svn/luatex/tags/beta-0.40.2/source/texk/web2c/luatexdir/tex/texnodes.c $"; #define append_char(A) str_pool[pool_ptr++]=(A) #define cur_length (pool_ptr - str_start_macro(str_ptr)) #define flush_char() pool_ptr-- #define stretching 1 #define shrinking 2 #define adjust_pre subtype typedef enum { pdf_dest_xyz = 0, pdf_dest_fit, pdf_dest_fith, pdf_dest_fitv, pdf_dest_fitb, pdf_dest_fitbh, pdf_dest_fitbv, pdf_dest_fitr, } pdf_destination_types; #define obj_obj_data(A) pdf_mem[obj_data_ptr((A)) + 0] #define obj_obj_is_stream(A) pdf_mem[obj_data_ptr((A)) + 1] #define obj_obj_stream_attr(A) pdf_mem[obj_data_ptr((A)) + 2] #define obj_obj_is_file(A) pdf_mem[obj_data_ptr((A)) + 3] #define obj_xform_width(A) pdf_mem[obj_data_ptr((A)) + 0] #define obj_xform_height(A) pdf_mem[obj_data_ptr((A)) + 1] #define obj_xform_depth(A) pdf_mem[obj_data_ptr((A)) + 2] #define MAX_CHAIN_SIZE 13 volatile memory_word *varmem = NULL; #ifndef NDEBUG char *varmem_sizes = NULL; #endif halfword var_mem_max = 0; halfword rover = 0; halfword free_chain[MAX_CHAIN_SIZE] = { null }; static integer my_prealloc = 0; int fix_node_lists = 1; int free_error_seen = 0; int copy_error_seen = 0; halfword slow_get_node(integer s); /* defined below */ int copy_error(halfword p); /* define below */ #undef link /* defined by cpascal.h */ #define info(a) fixmem[(a)].hhlh #define link(a) fixmem[(a)].hhrh #define fake_node 100 #define fake_node_size 2 #define fake_node_name "fake" #define variable_node_size 2 char *node_fields_list[] = { "attr", "width", "depth", "height", "dir", "shift", "glue_order", "glue_sign", "glue_set", "list", NULL }; char *node_fields_rule[] = { "attr", "width", "depth", "height", "dir", NULL }; char *node_fields_insert[] = { "attr", "cost", "depth", "height", "spec", "list", NULL }; char *node_fields_mark[] = { "attr", "class", "mark", NULL }; char *node_fields_adjust[] = { "attr", "list", NULL }; char *node_fields_disc[] = { "attr", "pre", "post", "replace", NULL }; char *node_fields_math[] = { "attr", "surround", NULL }; char *node_fields_glue[] = { "attr", "spec", "leader", NULL }; char *node_fields_kern[] = { "attr", "kern", NULL }; char *node_fields_penalty[] = { "attr", "penalty", NULL }; char *node_fields_unset[] = { "attr", "width", "depth", "height", "dir", "shrink", "glue_order", "glue_sign", "stretch", "span", "list", NULL }; char *node_fields_margin_kern[] = { "attr", "width", "glyph", NULL }; char *node_fields_glyph[] = { "attr", "char", "font", "lang", "left", "right", "uchyph", "components", "xoffset", "yoffset", NULL }; char *node_fields_style[] = { "attr", "style", NULL }; char *node_fields_choice[] = { "attr", "display", "text", "script", "scriptscript", NULL }; char *node_fields_ord[] = { "attr", "nucleus", "sub", "sup", NULL }; char *node_fields_op[] = { "attr", "nucleus", "sub", "sup", NULL }; char *node_fields_bin[] = { "attr", "nucleus", "sub", "sup", NULL }; char *node_fields_rel[] = { "attr", "nucleus", "sub", "sup", NULL }; char *node_fields_open[] = { "attr", "nucleus", "sub", "sup", NULL }; char *node_fields_close[] = { "attr", "nucleus", "sub", "sup", NULL }; char *node_fields_punct[] = { "attr", "nucleus", "sub", "sup", NULL }; char *node_fields_inner[] = { "attr", "nucleus", "sub", "sup", NULL }; char *node_fields_under[] = { "attr", "nucleus", "sub", "sup", NULL }; char *node_fields_over[] = { "attr", "nucleus", "sub", "sup", NULL }; char *node_fields_vcenter[] = { "attr", "nucleus", "sub", "sup", NULL }; char *node_fields_radical[] = { "attr", "nucleus", "sub", "sup", "left", "degree", NULL }; char *node_fields_fraction[] = { "attr", "width", "num", "denom", "left", "right", NULL }; char *node_fields_accent[] = { "attr", "nucleus", "sub", "sup", "accent", "bot_accent", NULL }; char *node_fields_fence[] = { "attr", "delim", NULL }; char *node_fields_math_char[] = { "attr", "fam", "char", NULL }; char *node_fields_sub_box[] = { "attr", "list", NULL }; char *node_fields_sub_mlist[] = { "attr", "list", NULL }; char *node_fields_math_text_char[] = { "attr", "fam", "char", NULL }; char *node_fields_delim[] = { "attr", "small_fam", "small_char", "large_fam", "large_char", NULL }; char *node_fields_inserting[] = { "height", "last_ins_ptr", "best_ins_ptr", NULL }; char *node_fields_splitup[] = { "height", "last_ins_ptr", "best_ins_ptr", "broken_ptr", "broken_ins", NULL }; char *node_fields_action[] = { "action_type", "named_id", "action_id", "file", "new_window", "data", "ref_count", NULL }; char *node_fields_attribute[] = { "number", "value", NULL }; char *node_fields_glue_spec[] = { "width", "stretch", "shrink", "stretch_order", "shrink_order", "ref_count", NULL }; char *node_fields_attribute_list[] = { NULL }; char *node_fields_whatsit_open[] = { "attr", "stream", "name", "area", "ext", NULL }; char *node_fields_whatsit_write[] = { "attr", "stream", "data", NULL }; char *node_fields_whatsit_close[] = { "attr", "stream", NULL }; char *node_fields_whatsit_special[] = { "attr", "data", NULL }; char *node_fields_whatsit_local_par[] = { "attr", "pen_inter", "pen_broken", "dir", "box_left", "box_left_width", "box_right", "box_right_width", NULL }; char *node_fields_whatsit_dir[] = { "attr", "dir", "level", "dvi_ptr", "dvi_h", NULL }; char *node_fields_whatsit_pdf_literal[] = { "attr", "mode", "data", NULL }; char *node_fields_whatsit_pdf_refobj[] = { "attr", "objnum", NULL }; char *node_fields_whatsit_pdf_refxform[] = { "attr", "width", "height", "depth", "objnum", NULL }; char *node_fields_whatsit_pdf_refximage[] = { "attr", "width", "height", "depth", "objnum", NULL }; char *node_fields_whatsit_pdf_annot[] = { "attr", "width", "height", "depth", "objnum", "data", NULL }; char *node_fields_whatsit_pdf_start_link[] = { "attr", "width", "height", "depth", "objnum", "link_attr", "action", NULL }; char *node_fields_whatsit_pdf_end_link[] = { "attr", NULL }; char *node_fields_whatsit_pdf_dest[] = { "attr", "width", "height", "depth", "named_id", "dest_id", "dest_type", "xyz_zoom", "objnum", NULL }; char *node_fields_whatsit_pdf_thread[] = { "attr", "width", "height", "depth", "named_id", "thread_id", "thread_attr", NULL }; char *node_fields_whatsit_pdf_start_thread[] = { "attr", "width", "height", "depth", "named_id", "thread_id", "thread_attr", NULL }; char *node_fields_whatsit_pdf_end_thread[] = { "attr", NULL }; char *node_fields_whatsit_pdf_save_pos[] = { "attr", NULL }; char *node_fields_whatsit_late_lua[] = { "attr", "reg", "data", "name", NULL }; char *node_fields_whatsit_close_lua[] = { "attr", "reg", NULL }; char *node_fields_whatsit_pdf_colorstack[] = { "attr", "stack", "cmd", "data", NULL }; char *node_fields_whatsit_pdf_setmatrix[] = { "attr", "data", NULL }; char *node_fields_whatsit_pdf_save[] = { "attr", NULL }; char *node_fields_whatsit_pdf_restore[] = { "attr", NULL }; char *node_fields_whatsit_cancel_boundary[] = { "attr", NULL }; char *node_fields_whatsit_user_defined[] = { "attr", "user_id", "type", "value", NULL }; node_info node_data[] = { {hlist_node, box_node_size, node_fields_list, "hlist"}, {vlist_node, box_node_size, node_fields_list, "vlist"}, {rule_node, rule_node_size, node_fields_rule, "rule"}, {ins_node, ins_node_size, node_fields_insert, "ins"}, {mark_node, mark_node_size, node_fields_mark, "mark"}, {adjust_node, adjust_node_size, node_fields_adjust, "adjust"}, {fake_node, fake_node_size, NULL, fake_node_name}, /* don't touch this! */ {disc_node, disc_node_size, node_fields_disc, "disc"}, {whatsit_node, -1, NULL, "whatsit"}, {math_node, math_node_size, node_fields_math, "math"}, {glue_node, glue_node_size, node_fields_glue, "glue"}, {kern_node, kern_node_size, node_fields_kern, "kern"}, {penalty_node, penalty_node_size, node_fields_penalty, "penalty"}, {unset_node, box_node_size, node_fields_unset, "unset"}, {style_node, style_node_size, node_fields_style, "style"}, {choice_node, style_node_size, node_fields_choice, "choice"}, {simple_noad, noad_size, node_fields_ord, "noad"}, {old_op_noad, noad_size, node_fields_op, "op"}, {old_bin_noad, noad_size, node_fields_bin, "bin"}, {old_rel_noad, noad_size, node_fields_rel, "rel"}, {old_open_noad, noad_size, node_fields_open, "open"}, {old_close_noad, noad_size, node_fields_close, "close"}, {old_punct_noad, noad_size, node_fields_punct, "punct"}, {old_inner_noad, noad_size, node_fields_inner, "inner"}, {radical_noad, radical_noad_size, node_fields_radical, "radical"}, {fraction_noad, fraction_noad_size, node_fields_fraction, "fraction"}, {old_under_noad, noad_size, node_fields_under, "under"}, {old_over_noad, noad_size, node_fields_over, "over"}, {accent_noad, accent_noad_size, node_fields_accent, "accent"}, {old_vcenter_noad, noad_size, node_fields_vcenter, "vcenter"}, {fence_noad, fence_noad_size, node_fields_fence, "fence"}, {math_char_node, math_kernel_node_size, node_fields_math_char, "math_char"}, {sub_box_node, math_kernel_node_size, node_fields_sub_box, "sub_box"}, {sub_mlist_node, math_kernel_node_size, node_fields_sub_mlist, "sub_mlist"}, {math_text_char_node, math_kernel_node_size, node_fields_math_text_char, "math_text_char"}, {delim_node, math_shield_node_size, node_fields_delim, "delim"}, {margin_kern_node, margin_kern_node_size, node_fields_margin_kern, "margin_kern"}, {glyph_node, glyph_node_size, node_fields_glyph, "glyph"}, {align_record_node, box_node_size, NULL, "align_record"}, {pseudo_file_node, pseudo_file_node_size, NULL, "pseudo_file"}, {pseudo_line_node, variable_node_size, NULL, "pseudo_line"}, {inserting_node, page_ins_node_size, node_fields_inserting, "page_insert"}, {split_up_node, page_ins_node_size, node_fields_splitup, "split_insert"}, {expr_node, expr_node_size, NULL, "expr_stack"}, {nesting_node, nesting_node_size, NULL, "nested_list"}, {span_node, span_node_size, NULL, "span"}, {attribute_node, attribute_node_size, node_fields_attribute, "attribute"}, {glue_spec_node, glue_spec_size, node_fields_glue_spec, "glue_spec"}, {attribute_list_node, attribute_node_size, node_fields_attribute_list, "attribute_list"}, {action_node, pdf_action_size, node_fields_action, "action"}, {temp_node, temp_node_size, NULL, "temp"}, {align_stack_node, align_stack_node_size, NULL, "align_stack"}, {movement_node, movement_node_size, NULL, "movement_stack"}, {if_node, if_node_size, NULL, "if_stack"}, {unhyphenated_node, active_node_size, NULL, "unhyphenated"}, {hyphenated_node, active_node_size, NULL, "hyphenated"}, {delta_node, delta_node_size, NULL, "delta"}, {passive_node, passive_node_size, NULL, "passive"}, {shape_node, variable_node_size, NULL, "shape"}, {-1, -1, NULL, NULL} }; #define last_normal_node shape_node node_info whatsit_node_data[] = { {open_node, open_node_size, node_fields_whatsit_open, "open"}, {write_node, write_node_size, node_fields_whatsit_write, "write"}, {close_node, close_node_size, node_fields_whatsit_close, "close"}, {special_node, special_node_size, node_fields_whatsit_special, "special"}, {fake_node, fake_node_size, NULL, fake_node_name}, {fake_node, fake_node_size, NULL, fake_node_name}, {local_par_node, local_par_size, node_fields_whatsit_local_par, "local_par"}, {dir_node, dir_node_size, node_fields_whatsit_dir, "dir"}, {pdf_literal_node, write_node_size, node_fields_whatsit_pdf_literal, "pdf_literal"}, {fake_node, fake_node_size, NULL, fake_node_name}, {pdf_refobj_node, pdf_refobj_node_size, node_fields_whatsit_pdf_refobj, "pdf_refobj"}, {fake_node, fake_node_size, NULL, fake_node_name}, {pdf_refxform_node, pdf_refxform_node_size, node_fields_whatsit_pdf_refxform, "pdf_refxform"}, {fake_node, fake_node_size, NULL, fake_node_name}, {pdf_refximage_node, pdf_refximage_node_size, node_fields_whatsit_pdf_refximage, "pdf_refximage"}, {pdf_annot_node, pdf_annot_node_size, node_fields_whatsit_pdf_annot, "pdf_annot"}, {pdf_start_link_node, pdf_annot_node_size, node_fields_whatsit_pdf_start_link, "pdf_start_link"}, {pdf_end_link_node, pdf_end_link_node_size, node_fields_whatsit_pdf_end_link, "pdf_end_link"}, {fake_node, fake_node_size, NULL, fake_node_name}, {pdf_dest_node, pdf_dest_node_size, node_fields_whatsit_pdf_dest, "pdf_dest"}, {pdf_thread_node, pdf_thread_node_size, node_fields_whatsit_pdf_thread, "pdf_thread"}, {pdf_start_thread_node, pdf_thread_node_size, node_fields_whatsit_pdf_start_thread, "pdf_start_thread"}, {pdf_end_thread_node, pdf_end_thread_node_size, node_fields_whatsit_pdf_end_thread, "pdf_end_thread"}, {pdf_save_pos_node, pdf_save_pos_node_size, node_fields_whatsit_pdf_save_pos, "pdf_save_pos"}, {pdf_thread_data_node, pdf_thread_node_size, NULL, "pdf_thread_data"}, {pdf_link_data_node, pdf_annot_node_size, NULL, "pdf_link_data"}, {fake_node, fake_node_size, NULL, fake_node_name}, {fake_node, fake_node_size, NULL, fake_node_name}, {fake_node, fake_node_size, NULL, fake_node_name}, {fake_node, fake_node_size, NULL, fake_node_name}, {fake_node, fake_node_size, NULL, fake_node_name}, {fake_node, fake_node_size, NULL, fake_node_name}, {fake_node, fake_node_size, NULL, fake_node_name}, {fake_node, fake_node_size, NULL, fake_node_name}, {fake_node, fake_node_size, NULL, fake_node_name}, {late_lua_node, late_lua_node_size, node_fields_whatsit_late_lua, "late_lua"}, {close_lua_node, write_node_size, node_fields_whatsit_close_lua, "close_lua"}, {fake_node, fake_node_size, NULL, fake_node_name}, {fake_node, fake_node_size, NULL, fake_node_name}, {pdf_colorstack_node, pdf_colorstack_node_size, node_fields_whatsit_pdf_colorstack, "pdf_colorstack"}, {pdf_setmatrix_node, pdf_setmatrix_node_size, node_fields_whatsit_pdf_setmatrix, "pdf_setmatrix"}, {pdf_save_node, pdf_save_node_size, node_fields_whatsit_pdf_save, "pdf_save"}, {pdf_restore_node, pdf_restore_node_size, node_fields_whatsit_pdf_restore, "pdf_restore"}, {cancel_boundary_node, cancel_boundary_size, node_fields_whatsit_cancel_boundary, "cancel_boundary"}, {user_defined_node, user_defined_node_size, node_fields_whatsit_user_defined, "user_defined"}, {-1, -1, NULL, NULL} }; #define last_whatsit_node user_defined_node halfword new_node(int i, int j) { register int s; register halfword n; s = get_node_size(i, j); n = get_node(s); /* it should be possible to do this memset at free_node() */ /* 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) * (s - 1))); switch (i) { case glyph_node: init_lang_data(n); break; case hlist_node: case vlist_node: box_dir(n) = -1; 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 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; rule_dir(n) = -1; /* fall through */ case unset_node: width(n) = null_flag; break; case pseudo_line_node: case shape_node: /* 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(). */ free_node(n, variable_node_size); n = slow_get_node(j); (void) memset((void *) (varmem + n + 1), 0, (sizeof(memory_word) * (j - 1))); break; default: break; } /* handle synctex extension */ switch (i) { case math_node: synctex_tag_math(n) = cur_input.synctex_tag_field; synctex_line_math(n) = line; break; case glue_node: synctex_tag_glue(n) = cur_input.synctex_tag_field; synctex_line_glue(n) = line; break; case kern_node: /* synctex ignores implicit kerns */ 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; } /* take care of attributes */ if (nodetype_has_attributes(i)) { build_attribute_list(n); } type(n) = i; subtype(n) = j; #ifdef DEBUG fprintf(stderr, "Alloc-ing %s node %d\n", get_node_name(type(n), subtype(n)), (int) n); #endif return n; } halfword raw_glyph_node(void) { register halfword n; n = get_node(glyph_node_size); (void) memset((void *) (varmem + n + 1), 0, (sizeof(memory_word) * (glyph_node_size - 1))); type(n) = glyph_node; subtype(n) = 0; return n; } halfword new_glyph_node(void) { register halfword n; n = get_node(glyph_node_size); (void) memset((void *) (varmem + n + 1), 0, (sizeof(memory_word) * (glyph_node_size - 1))); type(n) = glyph_node; subtype(n) = 0; build_attribute_list(n); return n; } /* makes a duplicate of the node list that starts at |p| and returns a pointer to the new list */ halfword copy_node_list(halfword p) { halfword q = null; /* previous position in new list */ halfword h = null; /* head of the list */ copy_error_seen = 0; while (p != null) { register halfword s = copy_node(p); if (h == null) { h = s; } else { couple_nodes(q, s); } q = s; p = vlink(p); } return h; } /* make a dupe of a single node */ halfword copy_node(const halfword p) { halfword r; /* current node being fabricated for new list */ register halfword s; /* a helper variable for copying into variable mem */ register int i; if (copy_error(p)) { r = new_node(temp_node, 0); return r; } i = get_node_size(type(p), subtype(p)); r = get_node(i); (void) memcpy((void *) (varmem + r), (void *) (varmem + p), (sizeof(memory_word) * i)); /* handle synctex extension */ switch (type(p)) { 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(type(p))) { add_node_attr_ref(node_attr(p)); alink(r) = null; /* needs checking */ } vlink(r) = null; switch (type(p)) { case glyph_node: s = copy_node_list(lig_ptr(p)); lig_ptr(r) = s; break; case glue_node: add_glue_ref(glue_ptr(p)); s = copy_node_list(leader_ptr(p)); leader_ptr(r) = s; break; case hlist_node: case vlist_node: case unset_node: s = copy_node_list(list_ptr(p)); list_ptr(r) = s; break; case ins_node: add_glue_ref(split_top_ptr(p)); s = copy_node_list(ins_ptr(p)); ins_ptr(r) = s; break; case margin_kern_node: s = copy_node(margin_char(p)); margin_char(r) = s; 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 mark_node: add_token_ref(mark_ptr(p)); break; case adjust_node: s = copy_node_list(adjust_ptr(p)); adjust_ptr(r) = s; break; case choice_node: s = copy_node_list(display_mlist(p)); display_mlist(r) = s; s = copy_node_list(text_mlist(p)); text_mlist(r) = s; s = copy_node_list(script_mlist(p)); script_mlist(r) = s; s = copy_node_list(script_script_mlist(p)); script_script_mlist(r) = s; break; case simple_noad: case radical_noad: case accent_noad: s = copy_node_list(nucleus(p)); nucleus(r) = s; s = copy_node_list(subscr(p)); subscr(r) = s; s = copy_node_list(supscr(p)); supscr(r) = s; if (type(p) == accent_noad) { s = copy_node_list(accent_chr(p)); accent_chr(r) = s; s = copy_node_list(bot_accent_chr(p)); bot_accent_chr(r) = s; } else if (type(p) == radical_noad) { s = copy_node(left_delimiter(p)); left_delimiter(r) = s; s = copy_node_list(degree(p)); degree(r) = s; } break; case fence_noad: s = copy_node(delimiter(p)); delimiter(r) = s; break; /* case style_node: case delim_node: case math_char_node: case math_text_char_node: break; */ case sub_box_node: case sub_mlist_node: s = copy_node_list(math_list(p)); math_list(r) = s; break; case fraction_noad: s = copy_node_list(numerator(p)); numerator(r) = s; s = copy_node_list(denominator(p)); denominator(r) = s; s = copy_node(left_delimiter(p)); left_delimiter(r) = s; s = copy_node(right_delimiter(p)); right_delimiter(r) = s; break; case glue_spec_node: glue_ref_count(r) = null; break; case whatsit_node: switch (subtype(p)) { case dir_node: case local_par_node: break; case write_node: case special_node: add_token_ref(write_tokens(p)); break; case pdf_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 late_lua_node: if (late_lua_name(p) > 0) add_token_ref(late_lua_name(p)); add_token_ref(late_lua_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; case user_defined_node: switch (user_node_type(p)) { case 'a': add_node_attr_ref(user_node_value(p)); break; case 't': add_token_ref(user_node_value(p)); break; case 's': /* |add_string_ref(user_node_value(p));| *//* if this was mpost .. */ break; case 'n': s = copy_node_list(user_node_value(p)); user_node_value(r) = s; break; } break; default: break; } break; } #ifdef DEBUG fprintf(stderr, "Alloc-ing %s node %d (copy of %d)\n", get_node_name(type(r), subtype(r)), (int) r, (int) p); #endif return r; } int valid_node(halfword p) { if (p > my_prealloc) { if (p < var_mem_max) { #ifndef NDEBUG if (varmem_sizes[p] > 0) #endif return 1; } } else { return 1; } return 0; } static void do_free_error(halfword p) { halfword r; char errstr[255] = { 0 }; char *errhlp[] = { "When I tried to free the node mentioned in the error message, it turned", "out it was not (or no longer) actually in use.", "Errors such as these are often caused by Lua node list alteration,", "but could also point to a bug in the executable. It should be safe to continue.", NULL }; check_node_mem(); if (free_error_seen) return; r = null; free_error_seen = 1; if (type(p) == glyph_node) { snprintf(errstr, 255, "Attempt to double-free glyph (%c) node %d, ignored", (int) character(p), (int) p); } else { snprintf(errstr, 255, "Attempt to double-free %s node %d, ignored", get_node_name(type(p), subtype(p)), (int) p); } tex_error(errstr, errhlp); #ifndef NDEBUG 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); } } } } } } #endif } int free_error(halfword p) { assert(p > my_prealloc); assert(p < var_mem_max); #ifndef NDEBUG if (varmem_sizes[p] == 0) { do_free_error(p); return 1; /* double free */ } #endif return 0; } static void do_copy_error(halfword p) { char errstr[255] = { 0 }; char *errhlp[] = { "When I tried to copy the node mentioned in the error message, it turned", "out it was not (or no longer) actually in use.", "Errors such as these are often caused by Lua node list alteration,", "but could also point to a bug in the executable. It should be safe to continue.", NULL }; if (copy_error_seen) return; copy_error_seen = 1; if (type(p) == glyph_node) { snprintf(errstr, 255, "Attempt to copy free glyph (%c) node %d, ignored", (int) character(p), (int) p); } else { snprintf(errstr, 255, "Attempt to copy free %s node %d, ignored", get_node_name(type(p), subtype(p)), (int) p); } tex_error(errstr, errhlp); } int copy_error(halfword p) { assert(p >= 0); assert(p < var_mem_max); #ifndef NDEBUG if (p > my_prealloc && varmem_sizes[p] == 0) { do_copy_error(p); return 1; /* copy free node */ } #endif return 0; } void flush_node(halfword p) { if (p == null) /* legal, but no-op */ return; #ifdef DEBUG fprintf(stderr, "Free-ing %s node %d\n", get_node_name(type(p), subtype(p)), (int) p); #endif if (free_error(p)) return; switch (type(p)) { case glyph_node: flush_node_list(lig_ptr(p)); break; case glue_node: delete_glue_ref(glue_ptr(p)); flush_node_list(leader_ptr(p)); break; case attribute_node: case attribute_list_node: case temp_node: case glue_spec_node: case rule_node: case kern_node: case math_node: case penalty_node: break; case hlist_node: case vlist_node: case unset_node: flush_node_list(list_ptr(p)); break; case whatsit_node: switch (subtype(p)) { case dir_node: break; case open_node: case write_node: case close_node: case pdf_save_node: case pdf_restore_node: case cancel_boundary_node: case close_lua_node: case pdf_refobj_node: case pdf_refxform_node: case pdf_refximage_node: case pdf_end_link_node: case pdf_end_thread_node: case pdf_save_pos_node: case local_par_node: break; case special_node: delete_token_ref(write_tokens(p)); break; case pdf_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 late_lua_node: if (late_lua_name(p) > 0) delete_token_ref(late_lua_name(p)); delete_token_ref(late_lua_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_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; case user_defined_node: switch (user_node_type(p)) { case 'a': delete_attribute_ref(user_node_value(p)); break; case 't': delete_token_ref(user_node_value(p)); break; case 'n': flush_node_list(user_node_value(p)); break; case 's': /* |delete_string_ref(user_node_value(p));| *//* if this was mpost .. */ break; case 'd': break; default: { 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; default: tconfusion("ext3"); return; } break; case ins_node: flush_node_list(ins_ptr(p)); delete_glue_ref(split_top_ptr(p)); break; case margin_kern_node: flush_node(margin_char(p)); break; case mark_node: delete_token_ref(mark_ptr(p)); break; case disc_node: flush_node_list(vlink(pre_break(p))); flush_node_list(vlink(post_break(p))); flush_node_list(vlink(no_break(p))); break; case adjust_node: flush_node_list(adjust_ptr(p)); break; case style_node: /* nothing to do */ break; case choice_node: flush_node_list(display_mlist(p)); flush_node_list(text_mlist(p)); flush_node_list(script_mlist(p)); flush_node_list(script_script_mlist(p)); break; case simple_noad: case radical_noad: case accent_noad: flush_node_list(nucleus(p)); flush_node_list(subscr(p)); flush_node_list(supscr(p)); if (type(p) == accent_noad) { flush_node_list(accent_chr(p)); flush_node_list(bot_accent_chr(p)); } else if (type(p) == radical_noad) { flush_node(left_delimiter(p)); flush_node_list(degree(p)); } break; case fence_noad: flush_node(delimiter(p)); break; case delim_node: /* nothing to do */ case math_char_node: case math_text_char_node: break; case sub_box_node: case sub_mlist_node: flush_node_list(math_list(p)); break; case fraction_noad: flush_node_list(numerator(p)); flush_node_list(denominator(p)); flush_node(left_delimiter(p)); flush_node(right_delimiter(p)); break; case pseudo_file_node: flush_node_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 action_node: case inserting_node: case split_up_node: case expr_node: break; default: fprintf(stdout, "flush_node: type is %d\n", type(p)); return; } if (nodetype_has_attributes(type(p))) delete_attribute_ref(node_attr(p)); free_node(p, get_node_size(type(p), subtype(p))); return; } void flush_node_list(halfword pp) { /* erase list of nodes starting at |p| */ register halfword p = pp; free_error_seen = 0; if (p == null) /* legal, but no-op */ return; if (free_error(p)) return; while (p != null) { register halfword q = vlink(p); flush_node(p); p = q; } } static int test_count = 1; #define dorangetest(a,b,c) do { \ if (!(b>=0 && b 0) check_token_ref(late_lua_name(p)); check_token_ref(late_lua_data(p)); break; case pdf_annot_node: check_token_ref(pdf_annot_data(p)); break; case pdf_start_link_node: if (pdf_link_attr(p) != null) check_token_ref(pdf_link_attr(p)); check_action_ref(pdf_link_action(p)); break; case pdf_dest_node: if (pdf_dest_named_id(p) > 0) check_token_ref(pdf_dest_id(p)); break; case pdf_thread_node: case pdf_start_thread_node: if (pdf_thread_named_id(p) > 0) check_token_ref(pdf_thread_id(p)); if (pdf_thread_attr(p) != null) check_token_ref(pdf_thread_attr(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(user_node_value(p)); break; case 'n': dorangetest(p, user_node_value(p), var_mem_max); break; case 's': case 'd': break; default: tconfusion("extuser"); break; } break; case dir_node: case open_node: case write_node: case close_node: case pdf_save_node: case pdf_restore_node: case cancel_boundary_node: case close_lua_node: case pdf_refobj_node: case pdf_refxform_node: case pdf_refximage_node: case pdf_end_link_node: case pdf_end_thread_node: case pdf_save_pos_node: case local_par_node: break; default: tconfusion("ext3"); } break; case margin_kern_node: check_node(margin_char(p)); 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, accent_chr(p), var_mem_max); dorangetest(p, bot_accent_chr(p), var_mem_max); break; case fence_noad: dorangetest(p, delimiter(p), var_mem_max); break; case rule_node: case kern_node: case math_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: break; default: fprintf(stdout, "check_node: type is %d\n", type(p)); } } 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); } void check_node_mem(void) { int i; check_static_node_mem(); #ifndef NDEBUG for (i = (my_prealloc + 1); i < var_mem_max; i++) { if (varmem_sizes[i] > 0) { check_node(i); } } #endif test_count++; } void fix_node_list(halfword head) { halfword p, q; if (head == null) return; p = head; q = vlink(p); while (q != null) { alink(q) = p; p = q; q = vlink(p); } } halfword get_node(integer s) { register halfword r; /*check_static_node_mem(); */ assert(s < MAX_CHAIN_SIZE); r = free_chain[s]; if (r != null) { free_chain[s] = vlink(r); #ifndef NDEBUG varmem_sizes[r] = s; #endif vlink(r) = null; var_used += s; /* maintain usage statistics */ return r; } /* this is the end of the 'inner loop' */ return slow_get_node(s); } void print_free_chain(int c) { halfword p = free_chain[c]; fprintf(stdout, "\nfree chain[%d] =\n ", c); while (p != null) { fprintf(stdout, "%d,", (int) p); p = vlink(p); } fprintf(stdout, "null;\n"); } void free_node(halfword p, integer s) { if (p <= my_prealloc) { fprintf(stdout, "node %d (type %d) should not be freed!\n", (int) p, type(p)); return; } #ifndef NDEBUG varmem_sizes[p] = 0; #endif if (s < MAX_CHAIN_SIZE) { vlink(p) = free_chain[s]; free_chain[s] = p; } else { /* 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; } var_used -= s; /* maintain statistics */ } void free_node_chain(halfword q, integer s) { register halfword p = q; while (vlink(p) != null) { #ifndef NDEBUG varmem_sizes[p] = 0; #endif var_used -= s; p = vlink(p); } var_used -= s; #ifndef NDEBUG varmem_sizes[p] = 0; #endif vlink(p) = free_chain[s]; free_chain[s] = q; } void init_node_mem(halfword t) { my_prealloc = var_mem_stat_max; assert(whatsit_node_data[user_defined_node].id == user_defined_node); assert(node_data[passive_node].id == passive_node); varmem = (memory_word *) realloc((void *) varmem, sizeof(memory_word) * t); if (varmem == NULL) { overflow_string("node memory size", var_mem_max); } memset((void *) (varmem), 0, t * sizeof(memory_word)); #ifndef NDEBUG varmem_sizes = (char *) realloc(varmem_sizes, sizeof(char) * t); if (varmem_sizes == NULL) { overflow_string("node memory size", var_mem_max); } memset((void *) varmem_sizes, 0, sizeof(char) * t); #endif var_mem_max = t; rover = var_mem_stat_max + 1; vlink(rover) = rover; node_size(rover) = (t - rover); var_used = 0; /* initialize static glue specs */ glue_ref_count(zero_glue) = null + 1; width(zero_glue) = 0; type(zero_glue) = glue_spec_node; vlink(zero_glue) = null; stretch(zero_glue) = 0; stretch_order(zero_glue) = normal; shrink(zero_glue) = 0; shrink_order(zero_glue) = normal; glue_ref_count(sfi_glue) = null + 1; width(sfi_glue) = 0; type(sfi_glue) = glue_spec_node; vlink(sfi_glue) = null; stretch(sfi_glue) = 0; stretch_order(sfi_glue) = sfi; shrink(sfi_glue) = 0; shrink_order(sfi_glue) = normal; glue_ref_count(fil_glue) = null + 1; width(fil_glue) = 0; type(fil_glue) = glue_spec_node; vlink(fil_glue) = null; stretch(fil_glue) = unity; stretch_order(fil_glue) = fil; shrink(fil_glue) = 0; shrink_order(fil_glue) = normal; glue_ref_count(fill_glue) = null + 1; width(fill_glue) = 0; type(fill_glue) = glue_spec_node; vlink(fill_glue) = null; stretch(fill_glue) = unity; stretch_order(fill_glue) = fill; shrink(fill_glue) = 0; shrink_order(fill_glue) = normal; glue_ref_count(ss_glue) = null + 1; width(ss_glue) = 0; type(ss_glue) = glue_spec_node; vlink(ss_glue) = null; stretch(ss_glue) = unity; stretch_order(ss_glue) = fil; shrink(ss_glue) = unity; shrink_order(ss_glue) = fil; glue_ref_count(fil_neg_glue) = null + 1; width(fil_neg_glue) = 0; type(fil_neg_glue) = glue_spec_node; vlink(fil_neg_glue) = null; stretch(fil_neg_glue) = -unity; stretch_order(fil_neg_glue) = fil; shrink(fil_neg_glue) = 0; shrink_order(fil_neg_glue) = normal; /* initialize node list heads */ vinfo(page_ins_head) = 0; vlink(page_ins_head) = null; alink(page_ins_head) = null; vinfo(contrib_head) = 0; vlink(contrib_head) = null; alink(contrib_head) = null; vinfo(page_head) = 0; vlink(page_head) = null; alink(page_head) = null; vinfo(temp_head) = 0; vlink(temp_head) = null; alink(temp_head) = null; vinfo(hold_head) = 0; vlink(hold_head) = null; alink(hold_head) = null; vinfo(adjust_head) = 0; vlink(adjust_head) = null; alink(adjust_head) = null; vinfo(pre_adjust_head) = 0; vlink(pre_adjust_head) = null; alink(pre_adjust_head) = null; vinfo(active) = 0; vlink(active) = null; alink(active) = null; vinfo(align_head) = 0; vlink(align_head) = null; alink(align_head) = null; vinfo(end_span) = 0; vlink(end_span) = null; alink(end_span) = null; type(begin_point) = glyph_node; subtype(begin_point) = 0; vlink(begin_point) = null; vinfo(begin_point + 1) = null; alink(begin_point) = null; font(begin_point) = 0; character(begin_point) = '.'; vinfo(begin_point + 3) = 0; vlink(begin_point + 3) = 0; vinfo(begin_point + 4) = 0; vlink(begin_point + 4) = 0; type(end_point) = glyph_node; subtype(end_point) = 0; vlink(end_point) = null; vinfo(end_point + 1) = null; alink(end_point) = null; font(end_point) = 0; character(end_point) = '.'; vinfo(end_point + 3) = 0; vlink(end_point + 3) = 0; vinfo(end_point + 4) = 0; vlink(end_point + 4) = 0; } void dump_node_mem(void) { dump_int(var_mem_max); dump_int(rover); dump_things(varmem[0], var_mem_max); #ifndef NDEBUG dump_things(varmem_sizes[0], var_mem_max); #endif dump_things(free_chain[0], MAX_CHAIN_SIZE); dump_int(var_used); dump_int(my_prealloc); } /* it makes sense to enlarge the varmem array immediately */ void undump_node_mem(void) { integer x; undump_int(x); undump_int(rover); var_mem_max = (x < 100000 ? 100000 : x); varmem = xmallocarray(memory_word, var_mem_max); /*memset ((void *)varmem,0,x*sizeof(memory_word)); */ undump_things(varmem[0], x); #ifndef NDEBUG varmem_sizes = xmallocarray(char, var_mem_max); memset((void *) varmem_sizes, 0, var_mem_max * sizeof(char)); undump_things(varmem_sizes[0], x); #endif undump_things(free_chain[0], MAX_CHAIN_SIZE); undump_int(var_used); undump_int(my_prealloc); if (var_mem_max > x) { /* todo ? it is 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; } } #if 0 void test_rovers(char *s) { int q = rover; int r = q; fprintf(stdout, "%s: {rover=%d,size=%d,link=%d}", s, r, node_size(r), vlink(r)); while (vlink(r) != q) { r = vlink(r); fprintf(stdout, ",{rover=%d,size=%d,link=%d}", r, node_size(r), vlink(r)); } fprintf(stdout, "\n"); } #else # define test_rovers(a) #endif halfword slow_get_node(integer s) { register int t; RETRY: t = node_size(rover); assert(vlink(rover) < var_mem_max); assert(vlink(rover) != 0); test_rovers("entry"); if (t > s) { register halfword r; /* allocating from the bottom helps decrease page faults */ r = rover; rover += s; vlink(rover) = vlink(r); node_size(rover) = node_size(r) - s; if (vlink(rover) != r) { /* list is longer than one */ halfword q = r; while (vlink(q) != r) { q = vlink(q); } vlink(q) += s; } else { vlink(rover) += s; } test_rovers("taken"); assert(vlink(rover) < var_mem_max); #ifndef NDEBUG varmem_sizes[r] = (s > 127 ? 127 : s); #endif vlink(r) = null; var_used += s; /* maintain usage statistics */ return r; /* this is the only exit */ } else { int x; /* attempt to keep the free list small */ 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; test_rovers("outtake"); goto RETRY; } else { halfword l = rover; while (vlink(rover) != l) { if (node_size(rover) > s) { goto RETRY; } rover = vlink(rover); } } } /* 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) * (var_mem_max + x)); if (varmem == NULL) { overflow_string("node memory size", var_mem_max); } memset((void *) (varmem + var_mem_max), 0, x * sizeof(memory_word)); #ifndef NDEBUG varmem_sizes = (char *) realloc(varmem_sizes, sizeof(char) * (var_mem_max + x)); if (varmem_sizes == NULL) { overflow_string("node memory size", var_mem_max); } memset((void *) (varmem_sizes + var_mem_max), 0, x * sizeof(char)); #endif /* todo ? it is 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; test_rovers("realloc"); var_mem_max += x; goto RETRY; } } char *sprint_node_mem_usage(void) { int i, b; char *s, *ss; #ifndef NDEBUG char msg[256]; int node_counts[last_normal_node + last_whatsit_node + 2] = { 0 }; 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)]++; } } } s = strdup(""); b = 0; 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(strlen(s) + strlen(msg) + 1); strcpy(ss, s); strcat(ss, msg); free(s); s = ss; b = 1; } } #else s = strdup(""); #endif return s; } halfword list_node_mem_usage(void) { halfword i, j; halfword p = null, q = null; #ifndef NDEBUG char *saved_varmem_sizes = xmallocarray(char, var_mem_max); memcpy(saved_varmem_sizes, varmem_sizes, 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); #endif return q; } void print_node_mem_stats(void) { int i, b; halfword j; char msg[256]; char *s; integer free_chain_counts[MAX_CHAIN_SIZE] = { 0 }; snprintf(msg, 255, "node memory in use: %d words out of %d", (int) (var_used + my_prealloc), (int) var_mem_max); tprint_nl(msg); tprint_nl("rapidly available: "); 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; } } tprint(" nodes"); s = sprint_node_mem_usage(); tprint_nl("current usage: "); tprint(s); free(s); tprint(" nodes"); print_nlp(); /* newline, if needed */ } /* this belongs in the web but i couldn't find the correct syntactic place */ 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; } halfword string_to_pseudo(integer l, integer pool_ptr, integer nl) { halfword i, r, q = null; four_quarters w; int sz; halfword h = new_node(pseudo_file_node, 0); while (l < pool_ptr) { int m = l; while ((l < pool_ptr) && (str_pool[l] != nl)) l++; sz = (l - m + 7) / 4; if (sz == 1) sz = 2; r = new_node(pseudo_line_node, sz); i = r; while (--sz > 1) { w.b0 = str_pool[m++]; w.b1 = str_pool[m++]; w.b2 = str_pool[m++]; w.b3 = str_pool[m++]; varmem[++i].qqqq = w; } w.b0 = (l > m ? str_pool[m++] : ' '); w.b1 = (l > m ? str_pool[m++] : ' '); w.b2 = (l > m ? str_pool[m++] : ' '); w.b3 = (l > m ? str_pool[m] : ' '); varmem[++i].qqqq = w; if (pseudo_lines(h) == null) { pseudo_lines(h) = r; q = r; } else { couple_nodes(q, r); } q = vlink(q); if (str_pool[l] == nl) l++; } return h; } /* 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) = i; attribute_value(r) = v; 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); /* 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 = get_attribute(i); if (v > UNUSED_ATTRIBUTE) { register halfword r = new_attribute_node(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) { update_attribute_cache(); if (attr_list_cache == null) return; } attr_list_ref(attr_list_cache)++; node_attr(b) = attr_list_cache; #ifdef DEBUG fprintf(stderr, "Added attrlist (%d) to node %d (count=%d)\n", node_attr(b), b, attr_list_ref(attr_list_cache)) ; #endif } } void delete_attribute_ref(halfword b) { if (b != null) { assert(type(b) == attribute_list_node); attr_list_ref(b)--; #ifdef DEBUG fprintf(stderr, "Removed attrlistref (%d) (count=%d)\n", b, attr_list_ref(b)) ; #endif if (attr_list_ref(b) == 0) { if (b == attr_list_cache) attr_list_cache = cache_disabled; free_node_chain(b, attribute_node_size); } /* maintain sanity */ if (attr_list_ref(b) < 0) attr_list_ref(b) = 0; } } /* |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) { /* 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(i, val); vlink(q) = p; return q; } q = p; assert(vlink(p) != null); while (vlink(p) != null) { int t = attribute_id(vlink(p)); if (t == i && attribute_value(vlink(p)) == val) return q; /* no need to do anything */ 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 { /* add a new node */ halfword r = new_attribute_node(i, val); vlink(r) = vlink(p); vlink(p) = r; } return q; } void set_attribute(halfword n, int i, int val) { register halfword p; register int j = 0; if (!nodetype_has_attributes(type(n))) return; 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(i, val); vlink(node_attr(n)) = p; return; } assert(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); } p = node_attr(n); if (attr_list_ref(p) != 1) { if (attr_list_ref(p) > 1) { p = copy_attribute_list(p); delete_attribute_ref(node_attr(n)); node_attr(n) = p; } else { fprintf(stdout, "Node %d has an attribute list that is free already\n", (int) n); } attr_list_ref(p) = 1; } while (j-- > 0) p = vlink(p); if (attribute_id(vlink(p)) == i) { attribute_value(vlink(p)) = val; } else { /* add a new node */ halfword r = new_attribute_node(i, val); vlink(r) = vlink(p); vlink(p) = r; } return; } 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; assert(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; /* if we are still here, the attribute exists */ p = node_attr(n); if (attr_list_ref(p) != 1) { if (attr_list_ref(p) > 1) { p = copy_attribute_list(p); delete_attribute_ref(node_attr(n)); node_attr(n) = p; } else { fprintf(stdout, "Node %d has an attribute list that is free already\n", (int) n); } attr_list_ref(p) = 1; } p = vlink(p); while (j-- > 0) p = vlink(p); t = attribute_value(p); if (val == UNUSED_ATTRIBUTE || t == val) { attribute_value(p) = UNUSED_ATTRIBUTE; } return t; } 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_ptr(p) != zero_glue) 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; default: assert(1); break; } } void show_pdftex_whatsit_rule_spec(integer p) { tprint("("); print_rule_dimen(pdf_height(p)); print_char('+'); print_rule_dimen(pdf_depth(p)); tprint(")x"); print_rule_dimen(pdf_width(p)); } /* 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. */ void print_write_whatsit(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('-'); } void show_whatsit_node(integer 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(write_tokens(p)); break; case dir_node: if (dir_dir(p) < 0) { tprint_esc("enddir"); print_char(' '); print_dir(dir_dir(p) + 64); } else { tprint_esc("begindir"); print_char(' '); print_dir(dir_dir(p)); } case local_par_node: tprint_esc("whatsit"); 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(pool_ptr); } 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(pool_ptr); } decr(pool_ptr); break; case pdf_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: tconfusion("pdfcolorstack"); 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 cancel_boundary_node: tprint_esc("noboundary"); break; case late_lua_node: tprint_esc("latelua"); print_int(late_lua_reg(p)); print_mark(late_lua_data(p)); break; case close_lua_node: tprint_esc("closelua"); print_int(late_lua_reg(p)); break; case pdf_refobj_node: tprint_esc("pdfrefobj"); if (obj_obj_is_stream(pdf_obj_objnum(p)) > 0) { if (obj_obj_stream_attr(pdf_obj_objnum(p)) != null) { tprint(" attr"); print_mark(obj_obj_stream_attr(pdf_obj_objnum(p))); } tprint(" stream"); } if (obj_obj_is_file(pdf_obj_objnum(p)) > 0) tprint(" file"); print_mark(obj_obj_data(pdf_obj_objnum(p))); break; case pdf_refxform_node: tprint_esc("pdfrefxform"); print_char('('); print_scaled(obj_xform_height(pdf_xform_objnum(p))); print_char('+'); print_scaled(obj_xform_depth(pdf_xform_objnum(p))); tprint(")x"); print_scaled(obj_xform_width(pdf_xform_objnum(p))); break; case pdf_refximage_node: tprint_esc("pdfrefximage"); tprint("("); print_scaled(pdf_height(p)); print_char('+'); print_scaled(pdf_depth(p)); tprint(")x"); print_scaled(pdf_width(p)); 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))); } switch (pdf_action_type(pdf_link_action(p))) { case pdf_action_goto: if (pdf_action_named_id(pdf_link_action(p)) > 0) { 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)) > 0) { 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: pdf_error(maketexstring("displaying"), maketexstring("unknown action type")); 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(pdf_height(p)); print_char('+'); print_rule_dimen(pdf_depth(p)); tprint(")x"); print_rule_dimen(pdf_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; case pdf_save_pos_node: tprint_esc("pdfsavepos"); 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; default: tprint("whatsit?"); break; } } /* 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. */ /* |str_room| need not be checked; see |show_box| */ /* Recursive calls on |show_node_list| therefore use the following pattern: */ #define node_list_display(A) do { \ append_char('.'); \ show_node_list(A); \ flush_char(); \ } while (0) void show_node_list(integer p) { /* prints a node list symbolically */ integer n; /* the number of items already printed at this level */ real g; /* a glue ratio, as a floating point number */ if (cur_length > depth_threshold) { if (p > null) tprint(" []"); /* indicate that there's been some truncation */ return; } n = 0; while (p != null) { print_ln(); print_current_string(); /* display the nesting history */ if (int_par(param_tracing_online_code) < -2) print_int(p); incr(n); if (n > breadth_max) { /* time to stop */ tprint("etc."); return; } /* @ */ if (is_char_node(p)) { print_font_and_char(p); if (is_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: /* @; */ 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) { /* @; */ 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), 0); } if (glue_shrink(p) != 0) { tprint(", shrink "); print_glue(glue_shrink(p), glue_sign(p), 0); } } else { /* */ /* 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), 0); } else { print_glue(round(unity * g), glue_order(p), 0); } } if (shift_amount(p) != 0) { tprint(", shifted "); print_scaled(shift_amount(p)); } tprint(", direction "); print_dir(box_dir(p)); } node_list_display(list_ptr(p)); /* recursive call */ break; case rule_node: /* @; */ tprint_esc("rule("); print_rule_dimen(height(p)); print_char('+'); print_rule_dimen(depth(p)); tprint(")x"); print_rule_dimen(width(p)); break; case ins_node: /* @; */ tprint_esc("insert"); print_int(subtype(p)); tprint(", natural size "); print_scaled(height(p)); tprint("; split("); print_spec(split_top_ptr(p), 0); print_char(','); print_scaled(depth(p)); tprint("); float cost "); print_int(float_cost(p)); node_list_display(ins_ptr(p)); /* recursive call */ break; case whatsit_node: show_whatsit_node(p); break; case glue_node: /* @; */ if (subtype(p) >= a_leaders) { /* @; */ tprint_esc(""); if (subtype(p) == c_leaders) print_char('c'); else if (subtype(p) == x_leaders) print_char('x'); tprint("leaders "); print_spec(glue_ptr(p), 0); node_list_display(leader_ptr(p)); /* recursive call */ } else { tprint_esc("glue"); if (subtype(p) != normal) { print_char('('); if (subtype(p) < cond_math_glue) print_skip_param(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(glue_ptr(p), 0); else print_spec(glue_ptr(p), maketexstring("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: /* @; */ /* An ``explicit'' kern value is indicated implicitly by an explicit space. */ if (subtype(p) != mu_glue) { tprint_esc("kern"); if (subtype(p) != normal) print_char(' '); print_scaled(width(p)); if (subtype(p) == acc_kern) tprint(" (for accent)"); } else { tprint_esc("mkern"); print_scaled(width(p)); tprint("mu"); } break; case math_node: /* @; */ tprint_esc("math"); if (subtype(p) == before) tprint("on"); else tprint("off"); if (width(p) != 0) { tprint(", surrounded "); print_scaled(width(p)); } break; case penalty_node: /* @; */ tprint_esc("penalty "); print_int(penalty(p)); break; case disc_node: /* @; */ /* The |post_break| list of a discretionary node is indicated by a prefixed `\.{\char'174}' instead of the `\..' before the |pre_break| list. */ tprint_esc("discretionary"); if (vlink(no_break(p)) != null) { tprint(" replacing "); node_list_display(vlink(no_break(p))); } node_list_display(vlink(pre_break(p))); /* recursive call */ append_char('|'); show_node_list(vlink(post_break(p))); flush_char(); /* recursive call */ break; case mark_node: /* @; */ 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: /* @; */ tprint_esc("vadjust"); if (adjust_pre(p) != 0) tprint(" pre "); node_list_display(adjust_ptr(p)); /* recursive call */ break; default: show_math_node(p); break; } } p = vlink(p); } } /* This routine finds the 'base' width of a horizontal box, using the same logic that \TeX82 used for \.{\\predisplaywidth} */ pointer actual_box_width(pointer r, scaled base_width) { scaled w; /* calculated |size| */ pointer p; /* current node when calculating |pre_display_size| */ pointer q; /* glue specification when calculating |pre_display_size| */ internal_font_number f; /* font in current |char_node| */ scaled d; /* increment to |v| */ scaled v; /* |w| plus possible glue amount */ w = -max_dimen; v = shift_amount(r) + base_width; p = list_ptr(r); while (p != null) { if (is_char_node(p)) { f = font(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 math_node: d = surround(p); break; case glue_node: /* 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. */ q = glue_ptr(p); d = width(q); if (glue_sign(r) == stretching) { if ((glue_order(r) == stretch_order(q)) && (stretch(q) != 0)) v = max_dimen; } else if (glue_sign(r) == shrinking) { if ((glue_order(r) == shrink_order(q)) && (shrink(q) != 0)) v = max_dimen; } if (subtype(p) >= a_leaders) goto found; break; case whatsit_node: if ((subtype(p) == pdf_refxform_node) || (subtype(p) == pdf_refximage_node)) d = pdf_width(p); else d = 0; 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; }