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path: root/Build/source/texk/gregorio/gregorio-src/src/characters.c
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/*
 * Gregorio is a program that translates gabc files to GregorioTeX.
 * This file contains functions that deal with lyrics and styles.
 *
 * Copyright (C) 2008-2018 The Gregorio Project (see CONTRIBUTORS.md)
 *
 * This file is part of Gregorio.
 *
 * Gregorio 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 3 of the License, or
 * (at your option) any later version.
 *
 * Gregorio 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 General Public License for more details.
 *
 * You should have received a copy of the GNU General Public License
 * along with Gregorio.  If not, see <http://www.gnu.org/licenses/>.
 */

/**
 * @file
 * @brief This file contains almost all the gregorio_character manipulation things.
 *
 * @warning The code is very spaghetti, but I don't really think I can do it another way with the chosen representation of styles, and the fact that everything must be xml-compliant and tex-compliant...
 * So this file is basically very hard to maintain. Moreover, it has not been very well coded, so it is even harder to maintain...
 */

#include "config.h"
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <ctype.h>
#include <errno.h>
#include <limits.h>
#include <sys/stat.h>
#include <assert.h>
#include "bool.h"
#include "struct.h"
#include "unicode.h"
#include "characters.h"
#include "messages.h"
#include "support.h"
#include "utf8strings.h"
#include "vowel/vowel.h"

#define VOWEL_FILE "gregorio-vowels.dat"

static bool read_vowel_rules(char *const lang) {
    char *language = lang;
    rulefile_parse_status status = RFPS_NOT_FOUND;
    char **filenames, *filename, **p;
    const char *description;
    int tries;

    gregorio_kpse_find_or_else(filenames, VOWEL_FILE, return false);

    gregorio_vowel_tables_init();
    /* only need to try twice; if it's not resolved by then, there is an alias
     * loop */
    for (tries = 0; tries < 2; ++tries) {
        for (p = filenames; status != RFPS_FOUND && (filename = *p); ++p) {
            /* read and parse the file */
            gregorio_messagef("read_rules", VERBOSITY_INFO, 0,
                    _("Looking for %s in %s"), language, filename);
            gregorio_vowel_tables_load(filename, &language, &status);
            switch (status) {
            case RFPS_FOUND:
                description = "Found";
                break;
            case RFPS_ALIASED:
                description = "Aliased to";
                break;
            default:
                description = "Could not find";
                break;
            }
            gregorio_messagef("read_rules", VERBOSITY_INFO, 0, _("%s %s in %s"),
                    description, language, filename);
        }
        if (status != RFPS_ALIASED) {
            /* if it's not aliased, there's no reason to scan again */
            break;
        }
    }
    if (status == RFPS_ALIASED) {
        gregorio_messagef("read_rules", VERBOSITY_WARNING, 0,
                _("Unable to resolve alias for %s"), lang);
    }

    /* free the allocated memory */
    for (p = filenames; *p; ++p) {
        free(*p);
    }
    free(filenames);
    if (language != lang) {
        free(language);
    }

    return status == RFPS_FOUND;
}

void gregorio_set_centering_language(char *const language)
{
    if (!read_vowel_rules(language)) {
        if (strcmp(language, "Latin") != 0) {
            gregorio_messagef("gregorio_set_centering_language",
                    VERBOSITY_WARNING, 0, _("unable to read vowel files for "
                        "%s; defaulting to Latin rules"), language);
        }

        gregorio_vowel_tables_init();
        gregorio_vowel_table_add(DEFAULT_VOWELS);
        gregorio_prefix_table_add("i");
        gregorio_prefix_table_add("I");
        gregorio_prefix_table_add("u");
        gregorio_prefix_table_add("U");
    }
}

static __inline const gregorio_character *skip_verbatim_or_special(
        const gregorio_character *ch)
{
    /* skip past verbatim and special characters */
    if (ch->cos.s.type == ST_T_BEGIN && (ch->cos.s.style == ST_VERBATIM
                || ch->cos.s.style == ST_SPECIAL_CHAR)) {
        if (ch->next_character) {
            ch = ch->next_character;
        }
        while (ch->next_character && ch->is_character) {
            ch = ch->next_character;
        }
    }
    return ch;
}

static __inline bool handle_elision(const gregorio_character *const ch,
        bool *in_elision)
{
    if (ch->cos.s.style != ST_ELISION) {
        return false;
    }

    switch (ch->cos.s.type) {
    case ST_T_BEGIN:
        *in_elision = true;
        break;

    case ST_T_END:
        *in_elision = false;
        break;

    case ST_T_NOTHING:
        /* not reachable unless there's a programming error */
        assert(false); /* LCOV_EXCL_LINE */
        break;
    }
    return true;
}

static __inline int for_each_centerable_character(
        const gregorio_character *const character,
        void (*capture)(grewchar *, int, grewchar), grewchar *buffer)
{
    int count;
    const gregorio_character *ch;
    bool in_elision = false;

    for (count = 0, ch = character; ch; ch = ch->next_character) {
        if (ch->is_character) {
            if (!in_elision) {
                if (capture) {
                    capture(buffer, count, ch->cos.character);
                }
                ++count;
            }
        } else {
            if (ch->cos.s.style == ST_PROTRUSION_FACTOR) {
                /* if there is a protrusion, we will always encounter the
                 * protrusion factor first */
                break;
            }
            if (ch->cos.s.type == ST_T_BEGIN && ch->cos.s.style == ST_ELISION) {
                /* put in a special character at the beginning of an elision
                 * that represents the elision */
                if (capture) {
                    capture(buffer, count, GREVOWEL_ELISION_MARK);
                }
                ++count;
            }
            if (!handle_elision(ch, &in_elision)) {
                ch = skip_verbatim_or_special(ch);
            }
        }
    }
    return count;
}

/* this function assumes subject is sized correctly */
static void capture_subject(grewchar *const subject, const int count,
        const grewchar character)
{
    subject[count] = character;
}

static void determine_center(gregorio_character *character, int *start,
        int *end)
{
    const int count = for_each_centerable_character(character, NULL, NULL);
    grewchar *subject;

    if (count == 0) {
        return;
    }

    subject = (grewchar *)gregorio_malloc((count + 1) * sizeof(grewchar));
    for_each_centerable_character(character, capture_subject, subject);
    subject[count] = (grewchar)0;

    *start = *end = -1;
    gregorio_find_vowel_group(subject, start, end);

    free(subject);
}

static bool go_to_end_initial(gregorio_character **param_character)
{
    bool has_initial = false;
    gregorio_character *current_character = *param_character;
    if (!current_character) {
        return false;
    }
    gregorio_go_to_first_character_c(&current_character);
    /* skip past any initial */
    if (!current_character->is_character
            && current_character->cos.s.type == ST_T_BEGIN
            && current_character->cos.s.style == ST_INITIAL) {
        has_initial = true;
        while (current_character) {
            if (!current_character->is_character
                    && current_character->cos.s.type == ST_T_END
                    && current_character->cos.s.style == ST_INITIAL) {
                break;
            }
            current_character = current_character->next_character;
        }
    }
    (*param_character) = current_character;
    return has_initial;
}

/*
 * The push function pushes a style in the stack, and updates first_style to
 * this element.
 */

static void style_push(det_style **current_style, grestyle_style style)
{
    det_style *element;
    gregorio_assert(current_style, style_push, "current_style may not be NULL",
            return);
    element = (det_style *) gregorio_malloc(sizeof(det_style));
    element->style = style;
    element->previous_style = NULL;
    element->next_style = (*current_style);
    if (*current_style) {
        (*current_style)->previous_style = element;
    }
    (*current_style) = element;
}

/*
 * Pop deletes an style in the stack (the style to delete is the parameter)
 */

static void style_pop(det_style **first_style, det_style *element)
{
    gregorio_assert(element && first_style && *first_style, style_pop,
            "invalid arguments", return);
    if (element->previous_style) {
        assert(*first_style != element);
        element->previous_style->next_style = element->next_style;
        if (element->next_style) {
            element->next_style->previous_style = element->previous_style;
        }
    } else {
        if (element->next_style) {
            element->next_style->previous_style = NULL;
            (*first_style) = element->next_style;
        } else {
            (*first_style) = NULL;
        }
    }
    free(element);
}

/*
 * free_styles just frees the stack.
 */

static void free_styles(det_style **first_style)
{
    det_style *current_style;
    gregorio_not_null(first_style, free_styles, return);
    current_style = (*first_style);
    while (current_style) {
        current_style = current_style->next_style;
        free((*first_style));
        (*first_style) = current_style;
    }
}


/*
 * inline function that will be used for verbatim and special-characters in the 
 * 
 * next function, it calls function with a grewchar * which is the verbatim or
 * special-character. It places current_character to the character next to the
 * end of the verbatim or special_char charachters.
 */
static __inline void verb_or_sp(const gregorio_character **ptr_character,
        const grestyle_style style, FILE *const f,
        void (*const function) (FILE *, const grewchar *))
{
    int i, j;
    grewchar *text;
    const gregorio_character *current_character;
    const gregorio_character *begin_character;

    i = 0;
    j = 0;

    current_character = (*ptr_character)->next_character;
    begin_character = current_character;
    while (current_character) {
        if (current_character->cos.s.type == ST_T_END
                && current_character->cos.s.style == style) {
            break;
        } else {
            if (current_character->is_character) {
                i++;
            }
            current_character = current_character->next_character;
        }
    }
    if (i == 0) {
        *ptr_character = current_character;
        return;
    }
    text = (grewchar *) gregorio_malloc((i + 1) * sizeof(grewchar));
    current_character = begin_character;
    while (j < i) {
        if (current_character->is_character) {
            text[j] = current_character->cos.character;
            j++;
        }
        current_character = current_character->next_character;
    }
    text[i] = 0;
    function(f, text);
    free(text);

    *ptr_character = current_character;
}

/**
 * This function is made to simplify the output modules : they just have to
 * declare some simple functions (what to do when meeting a beginning of style,
 * a character, etc.) and to call this function with pointer to these
 * functions, and that will automatically write the good ouput. This function
 * does not test at all the gregorio_character list, if it is wrong, then the
 * ouput will be wrong. It is very simple to understand, even if it is a bit
 * long.
 * 
 * @warning The difficulty comes when we have to write the first syllable text,
 * without the first letter.
 * The behaviour can have some bugs in this case if the first syllable has some
 * complex styles. It would be a bit stupid to do such a thing, but users are
 * usually very creative when it comes to inventing twisted things...
 */
void gregorio_write_text(const gregorio_write_text_phase phase,
        const gregorio_character *current_character, FILE *const f,
        void (*const printverb) (FILE *, const grewchar *),
        void (*const printchar) (FILE *, grewchar),
        void (*const begin) (FILE *, grestyle_style),
        void (*const end) (FILE *, grestyle_style),
        void (*const printspchar) (FILE *, const grewchar *))
{
    gregorio_assert(current_character, gregorio_write_text,
            "current_character may not be NULL", return);
    while (current_character) {
        if (current_character->is_character) {
            printchar(f, current_character->cos.character);
        } else {
            if (current_character->cos.s.type == ST_T_BEGIN) {
                switch (current_character->cos.s.style) {
                case ST_VERBATIM:
                    verb_or_sp(&current_character, ST_VERBATIM, f, printverb);
                    break;
                case ST_SPECIAL_CHAR:
                    verb_or_sp(&current_character, ST_SPECIAL_CHAR, f,
                            printspchar);
                    break;
                case ST_INITIAL:
                    if (phase == WTP_FIRST_SYLLABLE) {
                        while (current_character) {
                            if (!current_character->is_character
                                    && current_character->cos.s.type == ST_T_END
                                    && current_character->cos.s.style ==
                                    ST_INITIAL) {
                                break;
                            }
                            current_character =
                                    current_character->next_character;
                        }
                    } else {
                        begin(f, ST_INITIAL);
                    }
                    break;
                default:
                    begin(f, current_character->cos.s.style);
                    break;
                }
            } else { /* ST_T_END */
                end(f, current_character->cos.s.style);
            }
        }

        if (current_character) {
            current_character = current_character->next_character;
        }
    }
}

void gregorio_write_first_letter_alignment_text(
        const gregorio_write_text_phase phase,
        const gregorio_character *current_character, FILE *const f,
        void (*const printverb) (FILE *, const grewchar *),
        void (*const printchar) (FILE *, grewchar),
        void (*const begin) (FILE *, grestyle_style),
        void (*const end) (FILE *, grestyle_style),
        void (*const printspchar) (FILE *, const grewchar *))
{
    /* stack of styles to close and reopen */
    det_style *first_style = NULL;
    det_style *last_style = NULL;
    int first_letter_open = (phase == WTP_FIRST_SYLLABLE)? 2 : 1;

    gregorio_assert(current_character,
            gregorio_write_first_letter_alignment_text,
            "current_character may not be NULL", return);

    /* go to the first character */
    gregorio_go_to_first_character(&current_character);

    if (phase != WTP_FIRST_SYLLABLE) {
        begin(f, ST_SYLLABLE_INITIAL);
    }

    /* loop until there are no characters left */
    for (; current_character;
            current_character = current_character->next_character) {
        bool close_first_letter = false;
        /* found a real character */
        if (current_character->is_character) {
            printchar(f, current_character->cos.character);
            close_first_letter = first_letter_open != 0;
        } else switch (current_character->cos.s.type) {
        case ST_T_NOTHING:
            /* not reachable unless there's a programming error */
            assert(false); /* LCOV_EXCL_LINE */
            break;
        case ST_T_BEGIN:
            /* handle styles */
            switch (current_character->cos.s.style) {
            case ST_CENTER:
            case ST_FORCED_CENTER:
            case ST_INITIAL:
            case ST_FIRST_SYLLABLE_INITIAL:
                /* ignore */
                break;
            case ST_VERBATIM:
                verb_or_sp(&current_character, ST_VERBATIM, f, printverb);
                close_first_letter = first_letter_open != 0;
                break;
            case ST_SPECIAL_CHAR:
                verb_or_sp(&current_character, ST_SPECIAL_CHAR, f, printspchar);
                close_first_letter = first_letter_open != 0;
                break;
            case ST_FIRST_WORD:
            case ST_FIRST_SYLLABLE:
                if (phase == WTP_FIRST_SYLLABLE) {
                    break;
                } /* else fall through */
            default:
                /* push the style onto the stack */
                style_push(&first_style, current_character->cos.s.style);
                begin(f, current_character->cos.s.style);
            }
            break;
        case ST_T_END:
            switch (current_character->cos.s.style) {
            case ST_CENTER:
            case ST_FORCED_CENTER:
            case ST_FIRST_SYLLABLE_INITIAL:
                /* ignore */
                break;
            case ST_INITIAL:
                /* in the case where the initial is closed before the first
                 * letter */
                close_first_letter = first_letter_open > 1;
                break;
            case ST_VERBATIM:
            case ST_SPECIAL_CHAR:
                /* not reachable unless there's a programming error */
                assert(false); /* LCOV_EXCL_LINE */
                break;
            case ST_FIRST_WORD:
            case ST_FIRST_SYLLABLE:
                if (phase == WTP_FIRST_SYLLABLE) {
                    break;
                } /* else fall through */
            default:
                /* pop the style from the stack */
                assert(first_style);
                assert(first_style->style
                        == current_character->cos.s.style);
                style_pop(&first_style, first_style);
                end(f, current_character->cos.s.style);
            }
            break;
        }

        while (close_first_letter || (!current_character->next_character
                && first_letter_open > 0)) {
            close_first_letter = false;
            --first_letter_open;

            /* close all the styles in the stack */
            if (first_style) {
                det_style *current_style;
                /* these are immediately closed, so go past them */
                while (first_style && current_character
                        && current_character->next_character
                        && !current_character->next_character->is_character
                        && current_character->next_character->cos.s.type
                        == ST_T_END
                        && current_character->next_character->cos.s.style
                        == first_style->style) {
                    current_character = current_character->next_character;
                    style_pop(&first_style, first_style);
                    end(f, current_character->cos.s.style);
                }
                for (current_style = first_style; current_style;
                        current_style = current_style->next_style) {
                    end(f, current_style->style);
                    last_style = current_style;
                }
            }

            end(f, ST_SYLLABLE_INITIAL);

            /* reopen all styles */
            for (; last_style; last_style = last_style->previous_style) {
                begin(f, last_style->style);
            }
        }
    }

    if (phase == WTP_FIRST_SYLLABLE) {
        /* the only way this can happen is if the first syllable is empty,
         * but if the first syllable is empty, this function will not be
         * called */
        gregorio_assert_only(!first_letter_open,
                gregorio_write_first_letter_alignment_text,
                "first_syllable was not closed properly");
    }

    free_styles(&first_style);
}

/*
 * Here starts the code of the handling of text and styles.
 * 
 * This part is not the easiest, in fact is is the most complicated. The reason 
 * is that I want to make something coherent in memory (easy to interprete),
 * and to let the user type whatever he wants. This part was originally written 
 * for gabc, that's why it's always talking about it. But it could as well be
 * used by other read plugins, to put things in order.
 * 
 * Basically all the following lines of code are made for the last function,
 * that will take a "user-written" gregorio_character list into a xml-compliant 
 * and tex-compliant list. It's more complicated than it seems...
 * 
 * Functionalities: For example if the user types tt<i>ttt<b>ttt</i>tt I want
 * it to be represented as tt<i>ttt<b>ttt</b></i><b>tt</b>. The fabulous thing
 * is that it is xml-compliant. This part also determines the middle, for
 * example pot will be interpreted as p{o}t. When I did that I also thought
 * about TeX styles that needed things like {p}{o}{t}, so when the user types
 * <i>pot</i>, it is interpreted as <i>p</i>{<i>o</i>}<i>t</i>.
 * 
 * Internal structure: To do so we have a structure, det_style, that will help
 * us : it is a stack (double chained list) of the styles that we have seen
 * until now. When we encounter a <i>, we push the i style on the stack. If we
 * encounter a </i> we suppress the i style from the stack. Let's take a more
 * complex example: if we encounter <i><b></i>, the stack will be first null,
 * then i then bi, and there we want to end i, but it is not the first style of 
 * the stack, so we close all the styles that we encounter before we encounter
 * i (remember, this is for xml-compliance), so we insert a </b> before the
 * </i>. But that's not all, we also write a <b> after the </i>, so that the b
 * style continues. There our stack is just b. For center, we just close all
 * the styles in the stack, insert a { and reopen all the styles in the stack.
 * 
 * The structure used for character, styles, etc. is described in
 * include/struct.h
 * 
 * The functionment in this file is quite simple : we add all the characters
 * that we see, even if they are incoherent, in the gregorio_character list,
 * and then we call a very complex function that will build a stack of the
 * style, determine the middle, make all xml-compliant, mow the lawn, etc.
 * 
 * This code is *really* spaghetti, but I think it's a necessary pain.
 * 
 */

/*
 * 
 * This function inserts a style before current_character, updating the double
 * chained list.
 * 
 */

static void insert_style_before(unsigned char type,
        unsigned char style, gregorio_character *current_character)
{
    gregorio_character *element =
            (gregorio_character *) gregorio_malloc(sizeof(gregorio_character));
    element->is_character = 0;
    element->cos.s.type = type;
    element->cos.s.style = style;
    element->next_character = current_character;
    if (current_character->previous_character) {
        current_character->previous_character->next_character = element;
    }
    element->previous_character = current_character->previous_character;
    current_character->previous_character = element;
}

/*
 * 
 * This function puts a style after current_character, and updates
 * current_character to the gregorio_character it created. It updates the
 * double chained list. It does not touche to the det_styles list.
 * 
 */

static void insert_style_after(unsigned char type, unsigned char style,
        gregorio_character **current_character)
{
    gregorio_character *element =
            (gregorio_character *) gregorio_malloc(sizeof(gregorio_character));
    element->is_character = 0;
    element->cos.s.type = type;
    element->cos.s.style = style;
    element->next_character = (*current_character)->next_character;
    if ((*current_character)->next_character) {
        (*current_character)->next_character->previous_character = element;
    }
    element->previous_character = (*current_character);
    (*current_character)->next_character = element;
    (*current_character) = element;
}

#if 0
static void insert_char_after(grewchar c,
        gregorio_character **current_character)
{
    gregorio_character *element =
            (gregorio_character *) gregorio_malloc(sizeof(gregorio_character));
    element->is_character = 1;
    element->cos.character = c;
    element->next_character = (*current_character)->next_character;
    if ((*current_character)->next_character) {
        (*current_character)->next_character->previous_character = element;
    }
    element->previous_character = (*current_character);
    (*current_character)->next_character = element;
    (*current_character) = element;
}
#endif

/*
 * 
 * This function suppresses the character, updates the double chained
 * list, and returns the character after, if there is one.
 * 
 */

static __inline gregorio_character *suppress_character(
        gregorio_character *current_character)
{
    if (current_character) {
        gregorio_character *thischaracter = current_character;
        if (current_character->previous_character) {
            current_character->previous_character->next_character =
                    current_character->next_character;
        }
        if (current_character->next_character) {
            current_character->next_character->previous_character =
                    current_character->previous_character;
        }
        current_character = current_character->next_character;
        free(thischaracter);
    }
    return current_character;
}

/*
 * 
 * Then start the inline functions for the big function. the first one is the
 * function we call when we close a style. The magic thing is that is will
 * prevent things like a<i></i>{<i>b</b>: when the user types a<i>b</i>, if the
 * middle is between a and b (...), it will interpret it as a{<i>b</i>.
 * 
 */

static __inline void close_style(gregorio_character *current_character,
        det_style *current_style)
{
    /* we suppose that there is a previous_character, because there is a
     * current_style
     */
    gregorio_assert(current_character && current_character->previous_character,
            close_syllable, "have a style but no previous character", return);
    if (!current_character->previous_character->is_character
            && current_character->previous_character->cos.s.style ==
            current_style->style) {
        /* we do it this way rather than calling suppress_character on the
         * previous character because the intent is more obvious to both the
         * human reading it and to the clang static analyzer */
        gregorio_character *tofree = current_character->previous_character;
        if (tofree->previous_character) {
            tofree->previous_character->next_character = current_character;
        }
        current_character->previous_character = tofree->previous_character;
        free(tofree);
    } else {
        insert_style_before(ST_T_END, current_style->style, current_character);
    }
}

/*
 * 
 * next the function called when we have determined that we must end the center
 * here : it closes all styles, adds a } and then reopens all styles.
 * 
 */

/* type is ST_CENTER or ST_FORCED_CENTER */
static __inline void end_center(grestyle_style type,
        gregorio_character *current_character, det_style **ptr_style)
{
    det_style *current_style;
    current_style = *ptr_style;

    while (current_style) {
        close_style(current_character, current_style);
        if (current_style->next_style) {
            current_style = current_style->next_style;
        } else {
            break;
        }
    }
    insert_style_before(ST_T_END, type, current_character);
    while (current_style) {
        insert_style_before(ST_T_BEGIN, current_style->style,
                current_character);
        if (current_style->previous_style) {
            current_style = current_style->previous_style;
        } else {
            break;
        }
    }

    *ptr_style = current_style;
}

/*
 * about the same, but adding a { 
 */

static __inline void begin_center(grestyle_style type,
        gregorio_character *current_character, det_style **ptr_style)
{
    det_style *current_style;
    current_style = *ptr_style;

    while (current_style) {
        close_style(current_character, current_style);
        if (current_style->next_style) {
            current_style = current_style->next_style;
        } else {
            break;
        }
    }
    insert_style_before(ST_T_BEGIN, type, current_character);
    while (current_style) {
        insert_style_before(ST_T_BEGIN, current_style->style,
                current_character);
        if (current_style->previous_style) {
            current_style = current_style->previous_style;
        } else {
            break;
        }
    }

    *ptr_style = current_style;
}

/*
 * THE big function. Very long, using a lot of long macros, etc. I hope you
 * really want to understand it, 'cause it won't be easy.
 * 
 * current character is a pointer to a gregorio_character. The
 * gregorio_character double-chained list it is in will be totally reorganized
 * so that it is xml compliant, and the function will update it to the first
 * character of this brand new list.
 * 
 * center_is_determined has the values present in characters.h.
 * 
 * Another difficulty is the fact that we must consider characters in verbatim
 * and special character styles like only one block, we can't say the center is 
 * in the middle of a verbatim block.
 */

void gregorio_rebuild_characters(gregorio_character **const param_character,
        gregorio_center_determination center_is_determined, bool skip_initial)
{
    /* the current_character */
    gregorio_character *current_character = *param_character;
    gregorio_character *sentinel;
    det_style *first_style = NULL;
    /* determining the type of centering (forced or not) */
    grestyle_style center_type = ST_NO_STYLE;
    int start = -1, end = -1, index = -1; 
    bool in_elision = false;
    det_style *current_style;
    /* so, here we start: we go to the first_character */
    if (skip_initial && go_to_end_initial(&current_character)) {
        if (!current_character->next_character) {
            /* nothing else to rebuild, but the initial needs to be ST_CENTER */
            insert_style_after(ST_T_END, ST_CENTER, &current_character);
            gregorio_go_to_first_character_c(&current_character);
            insert_style_before(ST_T_BEGIN, ST_CENTER, current_character);
            gregorio_go_to_first_character_c(&current_character);
            (*param_character) = current_character;
            return;
        }
        /* move to the character after the initial */
        current_character = current_character->next_character;
    } else {
        if (current_character) {
            gregorio_go_to_first_character_c(&current_character);
        }
    }
    /* first we see if there is already a center determined */
    if (center_is_determined == 0) {
        center_type = ST_CENTER;
        determine_center(current_character, &start, &end);
    } else {
        center_type = ST_FORCED_CENTER;
    }
    if (!current_character) {
        return;
    }
    for (sentinel = current_character; sentinel->next_character;
            sentinel = sentinel->next_character) {
        /* just loop to get the last character */
    }
    /* put a sentinel at the end to aid in looping */
    insert_style_after(ST_T_NOTHING, ST_SENTINEL, &sentinel);
    /* we loop until there isn't any character */
    while (current_character && current_character != sentinel) {
        /* IMPORTANT: A continue inside this loop MUST put current_character on
         * the next character to process */

        /* the first part of the function deals with real characters (not
         * styles) */
        if (current_character->is_character) {
            if (!in_elision) {
                ++index;
                if (!center_is_determined && index == start) {
                    /* the firstcase is if the user hasn't determined the
                     * middle, and we have only seen vowels so far (else
                     * center_is_determined would be DETERMINING_MIDDLE). The
                     * current_character is the first vowel, so we start the
                     * center here. */
                    begin_center(center_type, current_character, &first_style);
                    center_is_determined = CENTER_DETERMINING_MIDDLE;
                } else if (center_is_determined == CENTER_DETERMINING_MIDDLE
                        && index == end) {
                    /* the case where the user has not determined the middle
                     * and we are in the middle section of the syllable, but
                     * there we encounter something that is not a vowel, so the
                     * center ends there. */
                    end_center(center_type, current_character, &first_style);
                    center_is_determined = CENTER_FULLY_DETERMINED;
                } /* else it is just a normal character... we simply pass. */
            }
        } else {
            const grestyle_style style = current_character->cos.s.style;
            /* there starts the second part of the function that deals with the
             * styles characters */
            switch (current_character->cos.s.type) {
            case ST_T_BEGIN:
                /* the beginning of a style */

                if (center_is_determined == CENTER_DETERMINING_MIDDLE
                        && index == end - 1) {
                    /* if we are determining the end of the center and we have
                     * a, ELISION, VERBATIM or SPECIAL_CHAR style, we end the
                     * center determination */
                    switch (style) {
                    case ST_VERBATIM:
                    case ST_SPECIAL_CHAR:
                    case ST_ELISION:
                        end_center(center_type, current_character, &first_style);
                        center_is_determined = CENTER_FULLY_DETERMINED;
                        break;

                    default:
                        /* something else; don't do anything */
                        break;
                    }
                }

                if (style == ST_ELISION) {
                    /* skip over the elision marker in the vowel determination
                     * buffer */
                    ++index;
                }

                switch (style) {
                case ST_VERBATIM:
                case ST_SPECIAL_CHAR:
                    /* Here we pass all the characters after a verbatim (or
                     * special char) beginning, until we find a style (begin or
                     * end) */
                    if (current_character->next_character) {
                        current_character = current_character->next_character;
                    }
                    while (current_character && current_character != sentinel
                            && current_character->is_character) {
                        current_character = current_character->next_character;
                    }
                    assert(current_character);
                    if (current_character != sentinel) {
                        gregorio_assert2(!current_character->is_character
                                && current_character->cos.s.type == ST_T_END
                                && current_character->cos.s.style == style,
                                gregorio_rebuild_characters, "mismatched %s",
                                grestyle_style_to_string(style), break);
                    }
                    break;

                case ST_CENTER:
                    /* not reachable unless there's a programming error */
                    /* LCOV_EXCL_START */
                    gregorio_fail(gregorio_rebuild_characters,
                            "encountered unexpected begin ST_CENTER");
                    break;
                    /* LCOV_EXCL_STOP */

                case ST_FORCED_CENTER:
                    begin_center(center_type, current_character, &first_style);
                    current_character = suppress_character(current_character);
                    continue;

                default:
                    handle_elision(current_character, &in_elision);
                    /* it the beginning of a style, which is not center.  We
                     * check if the style is not already in the stack. If it is
                     * the case, we suppress the character and pass */
                    for (current_style = first_style; current_style
                            && current_style->style != current_character->cos.s.style;
                            current_style = current_style->next_style) {
                        /* just loop */
                    }
                    if (current_style) {
                        /* repeated styles should already have been filtered out
                         * during parsing, so if this is hit, it's a programming
                         * error */
                        /* LCOV_EXCL_START */
                        gregorio_fail(gregorio_rebuild_characters,
                                "encountered repeated style");
                        current_character = suppress_character(current_character);
                        continue;
                        /* LCOV_EXCL_STOP */
                    }
                    /* if it is something to add then we just push the style in the
                     * stack and continue. */
                    style_push(&first_style, current_character->cos.s.style);
                    break;
                }
                break;

            case ST_T_END:
                /* the beginning of a style */
                switch(current_character->cos.s.style) {
                case ST_VERBATIM:
                case ST_SPECIAL_CHAR:
                case ST_CENTER:
                    /* not reachable unless there's a programming error */
                    /* LCOV_EXCL_START */
                    gregorio_fail2(gregorio_rebuild_characters,
                            "encountered unexpected end %s",
                            grestyle_style_to_string(
                                current_character->cos.s.style));
                    break;
                    /* LCOV_EXCL_STOP */

                case ST_FORCED_CENTER:
                    end_center(center_type, current_character, &first_style);
                    current_character = suppress_character(current_character);
                    continue;

                default:
                    handle_elision(current_character, &in_elision);
                    /* the case of the end of a style (the most complex).
                     * First, we have to see if the style is in the stack. If
                     * there is no stack, we just suppress and continue. */
                    if (!first_style) {
                        current_character = suppress_character(current_character);
                        continue;
                    }
                    /* so, we look if it is in the stack. If it is we put
                     * current_style to the style just before the style
                     * corresponding to the character that we are treating
                     * (still there ?) */
                    for (current_style = first_style; current_style
                            && current_style->style
                            != current_character->cos.s.style;
                            current_style = current_style->next_style) {
                        /* just loop */
                    }
                    if (current_style) {
                        det_style *this_style;
                        /* if there are styles before in the stack, we close
                         * them */
                        for (this_style = first_style;
                                this_style != current_style;
                                this_style = this_style->next_style) {
                            insert_style_before(ST_T_END, this_style->style,
                                    current_character);
                        }
                        /* and then we reopen them */
                        for (this_style = this_style->previous_style;
                                this_style;
                                this_style = this_style->previous_style) {
                            insert_style_after(ST_T_BEGIN, this_style->style,
                                    &current_character);
                        }
                        /* we delete the style in the stack */
                        style_pop(&first_style, current_style);
                    } else {
                        current_character = suppress_character(current_character);
                        continue;
                    }
                }
                break;

            default:
                /* not reachable unless there's a programming error */
                /* LCOV_EXCL_START */
                gregorio_fail(gregorio_rebuild_characters,
                        "unexpected style type");
            }
            /* LCOV_EXCL_STOP */
        }
        current_character = current_character->next_character;
    }
    /* destroy the sentinel */
    current_character = sentinel->previous_character;
    current_character->next_character = NULL;
    free(sentinel);
    /* we terminate all the styles that are still in the stack */
    for (current_style = first_style; current_style;
            current_style = current_style->next_style) {
        insert_style_after(ST_T_END, current_style->style,
                &current_character);
    }
    /* current_character is at the end of the list now, so if we havn't closed
     * the center, we do it at the end. */
    if (center_is_determined != CENTER_FULLY_DETERMINED) {
        insert_style_after(ST_T_END, center_type, &current_character);
    }
    /* these three lines are for the case where the user didn't tell anything
     * about the middle and there aren't any vowel in the syllable, so we
     * begin the center before the first character (you can notice that there
     * is no problem of style). */
    if (!center_is_determined) {
        if (skip_initial && go_to_end_initial(&current_character)) {
            current_character = current_character->next_character;
        } else {
            gregorio_go_to_first_character_c(&current_character);
        }
        insert_style_before(ST_T_BEGIN, ST_CENTER, current_character);
    }
    /* well.. you're quite brave if you reach this comment. */
    gregorio_go_to_first_character_c(&current_character);
    (*param_character) = current_character;
    free_styles(&first_style);
}

/**
 * @brief This function will determine the behaviour of gregorio when it comes to the recognition of the initial. 
 * 
 * Basically it will take a gregorio_character list and return the same list, but with a style added : ST_INITIAL. This style will incidate the initial. The center will be placed at the second letter, unless there is a FORCED_CENTER somewhere. 
 * Finally all will be xml-compliant and tex-compliant when we call gregorio_rebuild_characters.
 *
 * If we note <> for the initial and {} for the center, here is what we want:
 *
 * @li \verbatim Po -> <P>{o} \endverbatim
 * @li \verbatim {A}b -> <>{A}b \endverbatim
 * @li \verbatim {}a -> <>{}a \endverbatim
 * @li \verbatim Glo -> <G>{l}o \endverbatim
 * @li \verbatim Gl{o} -> <G>l{o} \endverbatim
 *
 * @param param_character is a pointer to the (pointer to the) first character, it will be modified so that it points to the new first character.
 */
void gregorio_rebuild_first_syllable(gregorio_character **param_character,
        bool separate_initial)
{
    /* the current_character */
    gregorio_character *current_character = *param_character;
    gregorio_character *first_character;
    gregorio_character *start_of_special;
    /* so, here we start: we go to the first_character */
    gregorio_go_to_first_character_c(&current_character);
    /* first we look at the styles to see if there is a FORCED_CENTER
     * somewhere */
    /* Note: we don't have to deal with ST_CENTER here because
     * gregorio_rebuild_first_syllable is meant to be run **before**
     * gregorio_rebuild_characters, which is what adds ST_CENTER */
    gregorio_assert(param_character, gregorio_rebuild_first_syllable,
            "param_character may not be NULL", return);
    while (current_character) {
        if (!current_character->is_character) {
            if (current_character->cos.s.style == ST_FORCED_CENTER) {
                /* we can break here, as there won't be forced center plus
                 * center */
                break;
            }
        }
        current_character = current_character->next_character;
    }
    current_character = *param_character;
    gregorio_go_to_first_character_c(&current_character);
    first_character = current_character;
    /* now we are going to place the two INITIAL styles (begin and end) */
    while (current_character) {
        if (!current_character->is_character
                && (current_character->cos.s.style == ST_FORCED_CENTER
                    || current_character->cos.s.style == ST_PROTRUSION_FACTOR)) {
            /* we don't touch anything after a FORCED_CENTER, so we put an
             * empty INITIAL style just before; we handle the weird case of
             * a protrusion (manual or automatic) at the initial the same way
             * (we need only check for PROTRUSION_FACTOR since that will come
             * before PROTRUSION) */
            current_character = first_character;
            insert_style_before(ST_T_BEGIN, ST_INITIAL, current_character);
            current_character = current_character->previous_character;
            insert_style_after(ST_T_END, ST_INITIAL, &current_character);
            break;
        }
        /* this if is a hack to make gregorio consider verbatim blocks and
         * special chars like one block, not a sequence of letters */
        if (!current_character->is_character
                && current_character->cos.s.type == ST_T_BEGIN
                && (current_character->cos.s.style == ST_VERBATIM
                        || current_character->cos.s.style == ST_SPECIAL_CHAR)) {
            insert_style_before(ST_T_BEGIN, ST_INITIAL, current_character);
            start_of_special = current_character->previous_character;
            /* ... which is now the begin-initial style */

            if (current_character->next_character) {
                current_character = current_character->next_character;
            }
            while (current_character->next_character
                    && current_character->is_character) {
                current_character = current_character->next_character;
            }
            insert_style_after(ST_T_END, ST_INITIAL, &current_character);
            if (separate_initial && start_of_special->previous_character) {
                /* we need to move the initial to the front */
                start_of_special->previous_character->next_character =
                        current_character->next_character;
                current_character->next_character->previous_character =
                        start_of_special->previous_character;
                start_of_special->previous_character = NULL;
                current_character->next_character = first_character;
                first_character->previous_character = current_character;
            }
            break;
        }
        if (current_character->is_character) {
            if (separate_initial && current_character->previous_character) {
                /* we need to move the initial to the front */
                current_character->previous_character->next_character =
                        current_character->next_character;
                current_character->next_character->previous_character =
                        current_character->previous_character;
                current_character->previous_character = NULL;
                current_character->next_character = first_character;
                first_character->previous_character = current_character;
            }
            insert_style_before(ST_T_BEGIN, ST_INITIAL, current_character);
            insert_style_after(ST_T_END, ST_INITIAL, &current_character);
            break;
        }
        current_character = current_character->next_character;
    }
    /* now apply the first syllable style */
    current_character = *param_character;
    if (separate_initial) {
        if (go_to_end_initial(&current_character)) {
            current_character = current_character->next_character;
        }
    } else {
        gregorio_go_to_first_character_c(&current_character);
    }
    if (current_character) {
        bool marked_syllable_initial = false;
        insert_style_before(ST_T_BEGIN, ST_FIRST_SYLLABLE, current_character);
        do {
            if (!marked_syllable_initial && (current_character->is_character
                        || (current_character->cos.s.type == ST_T_BEGIN
                            && (current_character->cos.s.style == ST_VERBATIM
                                || current_character->cos.s.style
                                == ST_SPECIAL_CHAR
                                )
                            )
                    )) {
                marked_syllable_initial = true;
                insert_style_before(ST_T_BEGIN, ST_FIRST_SYLLABLE_INITIAL,
                        current_character);
                if (!current_character->is_character) {
                    /* skip past the verbatim or special character */
                    if (current_character->next_character) {
                        current_character = current_character->next_character;
                    }
                    while (current_character->next_character
                            && current_character->is_character) {
                        current_character = current_character->next_character;
                    }
                }
                insert_style_after(ST_T_END, ST_FIRST_SYLLABLE_INITIAL,
                        &current_character);
            }
            if (!current_character->is_character) {
                switch (current_character->cos.s.style) {
                case ST_CENTER:
                case ST_FORCED_CENTER:
                    insert_style_before(ST_T_END, ST_FIRST_SYLLABLE,
                            current_character);
                    insert_style_after(ST_T_BEGIN, ST_FIRST_SYLLABLE,
                            &current_character);
                    break;

                case ST_PROTRUSION_FACTOR:
                    /* protrusion is not allowed to be the syllable initial;
                     * we only need to check PROTRUSION_FACTOR since that will
                     * come before PROTRUSION */
                    marked_syllable_initial = true;
                    break;

                default:
                    break;
                }
            }
            if (!current_character->next_character) {
                insert_style_after(ST_T_END, ST_FIRST_SYLLABLE,
                        &current_character);
            }
            current_character = current_character->next_character;
        } while (current_character);
    }

    current_character = *param_character;
    gregorio_go_to_first_character_c(&current_character);
    (*param_character) = current_character;
}

void gregorio_set_first_word(gregorio_character **const character)
{
    gregorio_character *ch = *character;
    if (go_to_end_initial(&ch)) {
        ch = ch->next_character;
    }
    if (ch) {
        bool started_style = false;
        while (ch) {
            if (!ch->is_character
                    && (ch->cos.s.style == ST_CENTER
                        || ch->cos.s.style == ST_FORCED_CENTER)) {
                if (started_style) {
                    started_style = false;
                    insert_style_before(ST_T_END, ST_FIRST_WORD, ch);
                }
            } else if (!started_style) {
                started_style = true;
                insert_style_before(ST_T_BEGIN, ST_FIRST_WORD, ch);
            }

            if (!ch->next_character && started_style) {
                insert_style_after(ST_T_END, ST_FIRST_WORD, &ch);
            }

            ch = ch->next_character;
        }
    }
    /* else there are no more characters here */

    if (*character) {
        gregorio_go_to_first_character_c(character);
    }
}