fish-shell/src/pager.cpp

#include "config.h"  // IWYU pragma: keep

// IWYU pragma: no_include <cstddef>
#include <assert.h>
#include <stddef.h>
#include <stdlib.h>
#include <wchar.h>
#include <wctype.h>
#include <map>
#include <vector>

#include "common.h"
#include "complete.h"
#include "fallback.h"
#include "highlight.h"
#include "pager.h"
#include "reader.h"
#include "screen.h"
#include "util.h"
#include "wutil.h"  // IWYU pragma: keep

typedef pager_t::comp_t comp_t;
typedef std::vector<completion_t> completion_list_t;
typedef std::vector<comp_t> comp_info_list_t;

/// The minimum width (in characters) the terminal must to show completions at all.
#define PAGER_MIN_WIDTH 16

/// The maximum number of columns of completion to attempt to fit onto the screen.
#define PAGER_MAX_COLS 6

/// Width of the search field.
#define PAGER_SEARCH_FIELD_WIDTH 12

/// Text we use for the search field.
#define SEARCH_FIELD_PROMPT _(L"search: ")

/// Returns numer / denom, rounding up. As a "courtesy" 0/0 is 0.
static size_t divide_round_up(size_t numer, size_t denom) {
    if (numer == 0) return 0;

    assert(denom > 0);
    bool has_rem = (numer % denom) > 0;
    return numer / denom + (has_rem ? 1 : 0);
}

/// This function calculates the minimum width for each completion entry in the specified
/// array_list. This width depends on the terminal size, so this function should be called when the
/// terminal changes size.
void pager_t::recalc_min_widths(comp_info_list_t *lst) const {
    for (size_t i = 0; i < lst->size(); i++) {
        comp_t *c = &lst->at(i);
        c->min_width = mini(c->desc_width, maxi((size_t)0, available_term_width / 3 - 2)) +
                       mini(c->desc_width, maxi((size_t)0, available_term_width / 5 - 4)) + 4;
    }
}

/// Print the specified string, but use at most the specified amount of space. If the whole string
/// can't be fitted, ellipsize it.
///
/// \param str the string to print
/// \param color the color to apply to every printed character
/// \param max the maximum space that may be used for printing
/// \param has_more if this flag is true, this is not the entire string, and the string should be
/// ellisiszed even if the string fits but takes up the whole space.
static int print_max(const wcstring &str, highlight_spec_t color, int max, bool has_more,
                     line_t *line) {
    int written = 0;
    for (size_t i = 0; i < str.size(); i++) {
        wchar_t c = str.at(i);

        if (written + fish_wcwidth(c) > max) break;
        if ((written + fish_wcwidth(c) == max) && (has_more || i + 1 < str.size())) {
            line->append(ellipsis_char, color);
            written += fish_wcwidth(ellipsis_char);
            break;
        }

        line->append(c, color);
        written += fish_wcwidth(c);
    }
    return written;
}

/// Print the specified item using at the specified amount of space.
line_t pager_t::completion_print_item(const wcstring &prefix, const comp_t *c, size_t row,
                                      size_t column, int width, bool secondary, bool selected,
                                      page_rendering_t *rendering) const {
    UNUSED(column);
    UNUSED(row);
    UNUSED(rendering);
    int comp_width, desc_width;
    line_t line_data;

    if (c->pref_width <= width) {
        // The entry fits, we give it as much space as it wants.
        comp_width = c->comp_width;
        desc_width = c->desc_width;
    } else {
        // The completion and description won't fit on the allocated space. Give a maximum of 2/3 of
        // the space to the completion, and whatever is left to the description.
        int desc_all = c->desc_width ? c->desc_width + 4 : 0;

        comp_width = maxi(mini((int)c->comp_width, 2 * (width - 4) / 3), width - desc_all);
        desc_width = c->desc_width ? width - 4 - comp_width : 0;
    }

    int bg_color = secondary ? highlight_spec_pager_secondary : highlight_spec_normal;
    if (selected) {
        bg_color = highlight_spec_search_match;
    }

    int written = 0;
    for (size_t i = 0; i < c->comp.size(); i++) {
        const wcstring &comp = c->comp.at(i);

        if (i != 0)
            written += print_max(PAGER_SPACER_STRING, highlight_spec_normal, comp_width - written,
                                 true /* has_more */, &line_data);

        int packed_color = highlight_spec_pager_prefix | highlight_make_background(bg_color);
        written += print_max(prefix, packed_color, comp_width - written, !comp.empty(), &line_data);

        packed_color = highlight_spec_pager_completion | highlight_make_background(bg_color);
        written +=
            print_max(comp, packed_color, comp_width - written, i + 1 < c->comp.size(), &line_data);
    }

    if (desc_width) {
        int packed_color = highlight_spec_pager_description | highlight_make_background(bg_color);
        while (written < (width - desc_width - 2))  // the 2 here refers to the parenthesis below
        {
            written += print_max(L" ", packed_color, 1, false, &line_data);
        }
        // hack - this just works around the issue
        print_max(L"(", highlight_spec_pager_completion | highlight_make_background(bg_color), 1,
                  false, &line_data);
        print_max(c->desc, packed_color, desc_width, false, &line_data);
        print_max(L")", highlight_spec_pager_completion | highlight_make_background(bg_color), 1,
                  false, &line_data);
    } else {
        while (written < width) {
            written += print_max(L" ", 0, 1, false, &line_data);
        }
    }

    return line_data;
}

/// Print the specified part of the completion list, using the specified column offsets and quoting
/// style.
///
/// \param cols number of columns to print in
/// \param width_per_column An array specifying the width of each column
/// \param row_start The first row to print
/// \param row_stop the row after the last row to print
/// \param prefix The string to print before each completion
/// \param lst The list of completions to print
void pager_t::completion_print(size_t cols, int *width_per_column, size_t row_start,
                               size_t row_stop, const wcstring &prefix, const comp_info_list_t &lst,
                               page_rendering_t *rendering) const {
    // Teach the rendering about the rows it printed.
    assert(row_start >= 0);
    assert(row_stop >= row_start);
    rendering->row_start = row_start;
    rendering->row_end = row_stop;

    size_t rows = (lst.size() - 1) / cols + 1;

    size_t effective_selected_idx = this->visual_selected_completion_index(rows, cols);

    for (size_t row = row_start; row < row_stop; row++) {
        for (size_t col = 0; col < cols; col++) {
            int is_last = (col == (cols - 1));

            if (lst.size() <= col * rows + row) continue;

            size_t idx = col * rows + row;
            const comp_t *el = &lst.at(idx);
            bool is_selected = (idx == effective_selected_idx);

            // Print this completion on its own "line".
            line_t line = completion_print_item(
                prefix, el, row, col,
                width_per_column[col] - (is_last ? 0 : PAGER_SPACER_STRING_WIDTH), row % 2,
                is_selected, rendering);

            // If there's more to come, append two spaces.
            if (col + 1 < cols) {
                line.append(PAGER_SPACER_STRING, 0);
            }

            // Append this to the real line.
            rendering->screen_data.create_line(row - row_start).append_line(line);
        }
    }
}

/// Trim leading and trailing whitespace, and compress other whitespace runs into a single space.
static void mangle_1_completion_description(wcstring *str) {
    size_t leading = 0, trailing = 0, len = str->size();

    // Skip leading spaces.
    for (; leading < len; leading++) {
        if (!iswspace(str->at(leading))) break;
    }

    // Compress runs of spaces to a single space.
    bool was_space = false;
    for (; leading < len; leading++) {
        wchar_t wc = str->at(leading);
        bool is_space = iswspace(wc);
        if (!is_space) {  // normal character
            str->at(trailing++) = wc;
        } else if (!was_space) {  // initial space in a run
            str->at(trailing++) = L' ';
        } else {  // non-initial space in a run, do nothing
        }
        was_space = is_space;
    }

    // leading is now at len, trailing is the new length of the string. Delete trailing spaces.
    while (trailing > 0 && iswspace(str->at(trailing - 1))) {
        trailing--;
    }

    str->resize(trailing);
}

static void join_completions(comp_info_list_t *comps) {
    // A map from description to index in the completion list of the element with that description.
    // The indexes are stored +1.
    std::map<wcstring, size_t> desc_table;

    // Note that we mutate the completion list as we go, so the size changes.
    for (size_t i = 0; i < comps->size(); i++) {
        const comp_t &new_comp = comps->at(i);
        const wcstring &desc = new_comp.desc;
        if (desc.empty()) continue;

        // See if it's in the table.
        size_t prev_idx_plus_one = desc_table[desc];
        if (prev_idx_plus_one == 0) {
            // We're the first with this description.
            desc_table[desc] = i + 1;
        } else {
            // There's a prior completion with this description. Append the new ones to it.
            comp_t *prior_comp = &comps->at(prev_idx_plus_one - 1);
            prior_comp->comp.insert(prior_comp->comp.end(), new_comp.comp.begin(),
                                    new_comp.comp.end());

            // Erase the element at this index, and decrement the index to reflect that fact.
            comps->erase(comps->begin() + i);
            i -= 1;
        }
    }
}

/// Generate a list of comp_t structures from a list of completions.
static comp_info_list_t process_completions_into_infos(const completion_list_t &lst) {
    const size_t lst_size = lst.size();

    // Make the list of the correct size up-front.
    comp_info_list_t result(lst_size);
    for (size_t i = 0; i < lst_size; i++) {
        const completion_t &comp = lst.at(i);
        comp_t *comp_info = &result.at(i);

        // Append the single completion string. We may later merge these into multiple.
        comp_info->comp.push_back(escape_string(comp.completion, ESCAPE_ALL | ESCAPE_NO_QUOTED));

        // Append the mangled description.
        comp_info->desc = comp.description;
        mangle_1_completion_description(&comp_info->desc);

        // Set the representative completion.
        comp_info->representative = comp;
    }
    return result;
}

void pager_t::measure_completion_infos(comp_info_list_t *infos, const wcstring &prefix) const {
    size_t prefix_len = fish_wcswidth(prefix.c_str());
    for (size_t i = 0; i < infos->size(); i++) {
        comp_t *comp = &infos->at(i);

        // Compute comp_width.
        const wcstring_list_t &comp_strings = comp->comp;
        for (size_t j = 0; j < comp_strings.size(); j++) {
            // If there's more than one, append the length of ', '.
            if (j >= 1) comp->comp_width += 2;

            comp->comp_width += prefix_len + fish_wcswidth(comp_strings.at(j).c_str());
        }

        // Compute desc_width.
        comp->desc_width = fish_wcswidth(comp->desc.c_str());

        // Compute preferred width.
        comp->pref_width = comp->comp_width + comp->desc_width + (comp->desc_width ? 4 : 0);
    }

    recalc_min_widths(infos);
}

// Indicates if the given completion info passes any filtering we have.
bool pager_t::completion_info_passes_filter(const comp_t &info) const {
    // If we have no filter, everything passes.
    if (!search_field_shown || this->search_field_line.empty()) return true;

    const wcstring &needle = this->search_field_line.text;

    // We do substring matching.
    const fuzzy_match_type_t limit = fuzzy_match_substring;

    // Match against the description.
    if (string_fuzzy_match_string(needle, info.desc, limit).type != fuzzy_match_none) {
        return true;
    }

    // Match against the completion strings.
    for (size_t i = 0; i < info.comp.size(); i++) {
        if (string_fuzzy_match_string(needle, prefix + info.comp.at(i), limit).type !=
            fuzzy_match_none) {
            return true;
        }
    }

    return false;  // no match
}

// Update completion_infos from unfiltered_completion_infos, to reflect the filter.
void pager_t::refilter_completions() {
    this->completion_infos.clear();
    for (size_t i = 0; i < this->unfiltered_completion_infos.size(); i++) {
        const comp_t &info = this->unfiltered_completion_infos.at(i);
        if (this->completion_info_passes_filter(info)) {
            this->completion_infos.push_back(info);
        }
    }
}

void pager_t::set_completions(const completion_list_t &raw_completions) {
    // Get completion infos out of it.
    unfiltered_completion_infos = process_completions_into_infos(raw_completions);

    // Maybe join them.
    if (prefix == L"-") join_completions(&unfiltered_completion_infos);

    // Compute their various widths.
    measure_completion_infos(&unfiltered_completion_infos, prefix);

    // Refilter them.
    this->refilter_completions();
}

void pager_t::set_prefix(const wcstring &pref) { prefix = pref; }

void pager_t::set_term_size(int w, int h) {
    assert(w > 0);
    assert(h > 0);
    available_term_width = w;
    available_term_height = h;
    recalc_min_widths(&completion_infos);
}

/// Try to print the list of completions l with the prefix prefix using cols as the number of
/// columns. Return true if the completion list was printed, false if the terminal is too narrow for
/// the specified number of columns. Always succeeds if cols is 1.
bool pager_t::completion_try_print(size_t cols, const wcstring &prefix, const comp_info_list_t &lst,
                                   page_rendering_t *rendering, size_t suggested_start_row) const {
    // The calculated preferred width of each column.
    int pref_width[PAGER_MAX_COLS] = {0};
    // The calculated minimum width of each column.
    int min_width[PAGER_MAX_COLS] = {0};
    // If the list can be printed with this width, width will contain the width of each column.
    int *width = pref_width;

    // Set to one if the list should be printed at this width.
    bool print = false;

    // Compute the effective term width and term height, accounting for disclosure.
    size_t term_width = this->available_term_width;
    size_t term_height =
        this->available_term_height - 1 -
        (search_field_shown ? 1 : 0);  // we always subtract 1 to make room for a comment row
    if (!this->fully_disclosed) {
        term_height = mini(term_height, (size_t)PAGER_UNDISCLOSED_MAX_ROWS);
    }

    size_t row_count = divide_round_up(lst.size(), cols);

    // We have more to disclose if we are not fully disclosed and there's more rows than we have in
    // our term height.
    if (!this->fully_disclosed && row_count > term_height) {
        rendering->remaining_to_disclose = row_count - term_height;
    } else {
        rendering->remaining_to_disclose = 0;
    }

    // If we have only one row remaining to disclose, then squelch the comment row. This prevents us
    // from consuming a line to show "...and 1 more row".
    if (!this->fully_disclosed && rendering->remaining_to_disclose == 1) {
        term_height += 1;
        rendering->remaining_to_disclose = 0;
    }

    size_t pref_tot_width = 0;
    size_t min_tot_width = 0;

    // Skip completions on tiny terminals.
    if (term_width < PAGER_MIN_WIDTH) return true;

    // Calculate how wide the list would be.
    for (size_t col = 0; col < cols; col++) {
        for (size_t row = 0; row < row_count; row++) {
            int pref, min;
            const comp_t *c;
            if (lst.size() <= col * row_count + row) continue;

            c = &lst.at(col * row_count + row);
            pref = c->pref_width;
            min = c->min_width;

            if (col != cols - 1) {
                pref += 2;
                min += 2;
            }
            min_width[col] = maxi(min_width[col], min);
            pref_width[col] = maxi(pref_width[col], pref);
        }
        min_tot_width += min_width[col];
        pref_tot_width += pref_width[col];
    }

    // Force fit if one column.
    if (cols == 1) {
        if (pref_tot_width > term_width) {
            pref_width[0] = term_width;
        }
        width = pref_width;
        print = true;
    } else if (pref_tot_width <= term_width) {
        // Terminal is wide enough. Print the list!
        width = pref_width;
        print = true;
    }

    if (!print) {
        return false;  // no need to continue
    }

    // Determine the starting and stop row.
    size_t start_row = 0, stop_row = 0;
    if (row_count <= term_height) {
        // Easy, we can show everything.
        start_row = 0;
        stop_row = row_count;
    } else {
        // We can only show part of the full list. Determine which part based on the
        // suggested_start_row.
        assert(row_count > term_height);
        size_t last_starting_row = row_count - term_height;
        start_row = mini(suggested_start_row, last_starting_row);
        stop_row = start_row + term_height;
        assert(start_row >= 0 && start_row <= last_starting_row);
    }

    assert(stop_row >= start_row);
    assert(stop_row <= row_count);
    assert(stop_row - start_row <= term_height);
    completion_print(cols, width, start_row, stop_row, prefix, lst, rendering);

    // Ellipsis helper string. Either empty or containing the ellipsis char.
    const wchar_t ellipsis_string[] = {ellipsis_char == L'\x2026' ? L'\x2026' : L'\0', L'\0'};

    // Add the progress line. It's a "more to disclose" line if necessary, or a row listing if
    // it's scrollable; otherwise ignore it.
    wcstring progress_text;
    if (rendering->remaining_to_disclose == 1) {
        // I don't expect this case to ever happen.
        progress_text = format_string(_(L"%lsand 1 more row"), ellipsis_string);
    } else if (rendering->remaining_to_disclose > 1) {
        progress_text = format_string(_(L"%lsand %lu more rows"), ellipsis_string,
                                      (unsigned long)rendering->remaining_to_disclose);
    } else if (start_row > 0 || stop_row < row_count) {
        // We have a scrollable interface. The +1 here is because we are zero indexed, but want
        // to present things as 1-indexed. We do not add 1 to stop_row or row_count because
        // these are the "past the last value".
        progress_text =
            format_string(_(L"rows %lu to %lu of %lu"), start_row + 1, stop_row, row_count);
    } else if (completion_infos.empty() && !unfiltered_completion_infos.empty()) {
        // Everything is filtered.
        progress_text = _(L"(no matches)");
    }

    if (!progress_text.empty()) {
        line_t &line = rendering->screen_data.add_line();
        print_max(progress_text, highlight_spec_pager_progress |
                                     highlight_make_background(highlight_spec_pager_progress),
                  term_width, true /* has_more */, &line);
    }

    if (search_field_shown) {
        // Add the search field.
        wcstring search_field_text = search_field_line.text;
        // Append spaces to make it at least the required width.
        if (search_field_text.size() < PAGER_SEARCH_FIELD_WIDTH) {
            search_field_text.append(PAGER_SEARCH_FIELD_WIDTH - search_field_text.size(), L' ');
        }
        line_t *search_field = &rendering->screen_data.insert_line_at_index(0);

        // We limit the width to term_width - 1.
        int search_field_written = print_max(SEARCH_FIELD_PROMPT, highlight_spec_normal,
                                             term_width - 1, false, search_field);
        print_max(search_field_text, highlight_modifier_force_underline,
                  term_width - search_field_written - 1, false, search_field);
    }

    return true;
}

page_rendering_t pager_t::render() const {
    /// Try to print the completions. Start by trying to print the list in PAGER_MAX_COLS columns,
    /// if the completions won't fit, reduce the number of columns by one. Printing a single column
    /// never fails.
    page_rendering_t rendering;
    rendering.term_width = this->available_term_width;
    rendering.term_height = this->available_term_height;
    rendering.search_field_shown = this->search_field_shown;
    rendering.search_field_line = this->search_field_line;

    for (size_t cols = PAGER_MAX_COLS; cols > 0; cols--) {
        // Initially empty rendering.
        rendering.screen_data.resize(0);

        // Determine how many rows we would need if we had 'cols' columns. Then determine how many
        // columns we want from that. For example, say we had 19 completions. We can fit them into 6
        // columns, 4 rows, with the last row containing only 1 entry. Or we can fit them into 5
        // columns, 4 rows, the last row containing 4 entries. Since fewer columns with the same
        // number of rows is better, skip cases where we know we can do better.
        size_t min_rows_required_for_cols = divide_round_up(completion_infos.size(), cols);
        size_t min_cols_required_for_rows =
            divide_round_up(completion_infos.size(), min_rows_required_for_cols);

        assert(min_cols_required_for_rows <= cols);
        if (cols > 1 && min_cols_required_for_rows < cols) {
            // Next iteration will be better, so skip this one.
            continue;
        }

        rendering.cols = (size_t)cols;
        rendering.rows = min_rows_required_for_cols;
        rendering.selected_completion_idx =
            this->visual_selected_completion_index(rendering.rows, rendering.cols);

        if (completion_try_print(cols, prefix, completion_infos, &rendering, suggested_row_start)) {
            break;
        }
    }
    return rendering;
}

void pager_t::update_rendering(page_rendering_t *rendering) const {
    if (rendering->term_width != this->available_term_width ||
        rendering->term_height != this->available_term_height ||
        rendering->selected_completion_idx !=
            this->visual_selected_completion_index(rendering->rows, rendering->cols) ||
        rendering->search_field_shown != this->search_field_shown ||
        rendering->search_field_line.text != this->search_field_line.text ||
        rendering->search_field_line.position != this->search_field_line.position ||
        (rendering->remaining_to_disclose > 0 && this->fully_disclosed)) {
        *rendering = this->render();
    }
}

pager_t::pager_t()
    : available_term_width(0),
      available_term_height(0),
      selected_completion_idx(PAGER_SELECTION_NONE),
      suggested_row_start(0),
      fully_disclosed(false),
      search_field_shown(false) {}

bool pager_t::empty() const { return unfiltered_completion_infos.empty(); }

bool pager_t::select_next_completion_in_direction(selection_direction_t direction,
                                                  const page_rendering_t &rendering) {
    // Must have something to select.
    if (this->completion_infos.empty()) {
        return false;
    }

    // Handle the case of nothing selected yet.
    if (selected_completion_idx == PAGER_SELECTION_NONE) {
        switch (direction) {
            case direction_south:
            case direction_page_south:
            case direction_next:
            case direction_prev: {
                // These directions do something sane.
                if (direction == direction_prev) {
                    selected_completion_idx = completion_infos.size() - 1;
                } else {
                    selected_completion_idx = 0;
                }
                return true;
            }
            case direction_north:
            case direction_page_north:
            case direction_east:
            case direction_west:
            case direction_deselect: {
                // These do nothing.
                return false;
            }
            default: {
                DIE("unhandled selection_direction_t constant");
                abort();
            }
        }
    }

    // Ok, we had something selected already. Select something different.
    size_t new_selected_completion_idx;
    if (!selection_direction_is_cardinal(direction)) {
        // Next, previous, or deselect, all easy.
        if (direction == direction_deselect) {
            new_selected_completion_idx = PAGER_SELECTION_NONE;
        } else if (direction == direction_next) {
            new_selected_completion_idx = selected_completion_idx + 1;
            if (new_selected_completion_idx >= completion_infos.size()) {
                new_selected_completion_idx = 0;
            }
        } else if (direction == direction_prev) {
            if (selected_completion_idx == 0) {
                new_selected_completion_idx = completion_infos.size() - 1;
            } else {
                new_selected_completion_idx = selected_completion_idx - 1;
            }
        } else {
            DIE("unknown non-cardinal direction");
        }
    } else {
        // Cardinal directions. We have a completion index; we wish to compute its row and column.
        size_t current_row = this->get_selected_row(rendering);
        size_t current_col = this->get_selected_column(rendering);
        size_t page_height = maxi(rendering.term_height - 1, (size_t)1);

        switch (direction) {
            case direction_page_north: {
                if (current_row > page_height)
                    current_row = current_row - page_height;
                else
                    current_row = 0;
                break;
            }
            case direction_north: {
                // Go up a whole row. If we cycle, go to the previous column.
                if (current_row > 0) {
                    current_row--;
                } else {
                    current_row = rendering.rows - 1;
                    if (current_col > 0) current_col--;
                }
                break;
            }
            case direction_page_south: {
                if (current_row + page_height < rendering.rows) {
                    current_row += page_height;
                } else {
                    current_row = rendering.rows - 1;
                    if (current_col * rendering.rows + current_row >= completion_infos.size()) {
                        current_row = (completion_infos.size() - 1) % rendering.rows;
                    }
                }
                break;
            }
            case direction_south: {
                // Go down, unless we are in the last row. Note that this means that we may set
                // selected_completion_idx to an out-of-bounds value if the last row is incomplete;
                // this is a feature (it allows "last column memory").
                if (current_row + 1 < rendering.rows) {
                    current_row++;
                } else {
                    current_row = 0;
                    if (current_col + 1 < rendering.cols) current_col++;
                }
                break;
            }
            case direction_east: {
                // Go east, wrapping to the next row. There is no "row memory," so if we run off the
                // end, wrap.
                if (current_col + 1 < rendering.cols &&
                    (current_col + 1) * rendering.rows + current_row < completion_infos.size()) {
                    current_col++;
                } else {
                    current_col = 0;
                    if (current_row + 1 < rendering.rows) current_row++;
                }
                break;
            }
            case direction_west: {
                // Go west, wrapping to the previous row.
                if (current_col > 0) {
                    current_col--;
                } else {
                    current_col = rendering.cols - 1;
                    if (current_row > 0) current_row--;
                }
                break;
            }
            default: {
                DIE("unknown cardinal direction");
                abort();
            }
        }

        // Compute the new index based on the changed row.
        new_selected_completion_idx = current_col * rendering.rows + current_row;
    }

    if (selected_completion_idx == new_selected_completion_idx) {
        return false;
    }
    selected_completion_idx = new_selected_completion_idx;

    // Update suggested_row_start to ensure the selection is visible. suggested_row_start *
    // rendering.cols is the first suggested visible completion; add the visible completion
    // count to that to get the last one.
    size_t visible_row_count = rendering.row_end - rendering.row_start;
    if (visible_row_count == 0 || selected_completion_idx == PAGER_SELECTION_NONE) {
        return true;  // this should never happen but be paranoid
    }

    // Ensure our suggested row start is not past the selected row.
    size_t row_containing_selection = this->get_selected_row(rendering);
    if (suggested_row_start > row_containing_selection) {
        suggested_row_start = row_containing_selection;
    }

    // Ensure our suggested row start is not too early before it.
    if (suggested_row_start + visible_row_count <= row_containing_selection) {
        // The user moved south past the bottom completion.
        if (!fully_disclosed && rendering.remaining_to_disclose > 0) {
            fully_disclosed = true;  // perform disclosure
        } else {
            // Scroll
            suggested_row_start = row_containing_selection - visible_row_count + 1;
            // Ensure fully_disclosed is set. I think we can hit this case if the user
            // resizes the window - we don't want to drop back to the disclosed style.
            fully_disclosed = true;
        }
    }

    return true;
}

size_t pager_t::visual_selected_completion_index(size_t rows, size_t cols) const {
    // No completions -> no selection.
    if (completion_infos.empty() || rows == 0 || cols == 0) {
        return PAGER_SELECTION_NONE;
    }

    size_t result = selected_completion_idx;
    if (result != PAGER_SELECTION_NONE) {
        // If the selected completion is beyond the last selection, go left by columns until it's
        // within it. This is how we implement "column memory".
        while (result >= completion_infos.size() && result >= rows) {
            result -= rows;
        }

        // If we are still beyond the last selection, clamp it.
        if (result >= completion_infos.size()) result = completion_infos.size() - 1;
    }
    assert(result == PAGER_SELECTION_NONE || result < completion_infos.size());
    return result;
}

// It's possible we have no visual selection but are still navigating the contents, e.g. every
// completion is filtered.
bool pager_t::is_navigating_contents() const {
    return selected_completion_idx != PAGER_SELECTION_NONE;
}

void pager_t::set_fully_disclosed(bool flag) { fully_disclosed = flag; }

const completion_t *pager_t::selected_completion(const page_rendering_t &rendering) const {
    const completion_t *result = NULL;
    size_t idx = visual_selected_completion_index(rendering.rows, rendering.cols);
    if (idx != PAGER_SELECTION_NONE) {
        result = &completion_infos.at(idx).representative;
    }
    return result;
}

/// Get the selected row and column. Completions are rendered column first, i.e. we go south before
/// we go west. So if we have N rows, and our selected index is N + 2, then our row is 2 (mod by N)
/// and our column is 1 (divide by N).
size_t pager_t::get_selected_row(const page_rendering_t &rendering) const {
    if (rendering.rows == 0) return PAGER_SELECTION_NONE;

    return selected_completion_idx == PAGER_SELECTION_NONE
               ? PAGER_SELECTION_NONE
               : selected_completion_idx % rendering.rows;
}

size_t pager_t::get_selected_column(const page_rendering_t &rendering) const {
    if (rendering.rows == 0) return PAGER_SELECTION_NONE;

    return selected_completion_idx == PAGER_SELECTION_NONE
               ? PAGER_SELECTION_NONE
               : selected_completion_idx / rendering.rows;
}

void pager_t::clear() {
    unfiltered_completion_infos.clear();
    completion_infos.clear();
    prefix.clear();
    selected_completion_idx = PAGER_SELECTION_NONE;
    fully_disclosed = false;
    search_field_shown = false;
    search_field_line.clear();
}

void pager_t::set_search_field_shown(bool flag) { this->search_field_shown = flag; }

bool pager_t::is_search_field_shown() const { return this->search_field_shown; }

size_t pager_t::cursor_position() const {
    size_t result = wcslen(SEARCH_FIELD_PROMPT) + this->search_field_line.position;
    // Clamp it to the right edge.
    if (available_term_width > 0 && result + 1 > available_term_width) {
        result = available_term_width - 1;
    }
    return result;
}

// Constructor
page_rendering_t::page_rendering_t()
    : term_width(-1),
      term_height(-1),
      rows(0),
      cols(0),
      row_start(0),
      row_end(0),
      selected_completion_idx(-1),
      remaining_to_disclose(0),
      search_field_shown(false) {}