689553c2e9
They are quite different use cases, and this allow moving InsertMode to input_handler.hh which is what uses it. This also cleans up the code as we can get rid of get_insert_pos and rely more on SelectionList::for_each.
198 lines
6.7 KiB
C++
198 lines
6.7 KiB
C++
#ifndef selection_hh_INCLUDED
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#define selection_hh_INCLUDED
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#include "buffer.hh"
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#include <limits>
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namespace Kakoune
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{
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using CaptureList = Vector<String, MemoryDomain::Selections>;
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constexpr ColumnCount max_column{std::numeric_limits<int>::max()};
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// A selection is a Selection, associated with a CaptureList
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struct Selection
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{
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static constexpr MemoryDomain Domain = MemoryDomain::Selections;
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Selection() = default;
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Selection(BufferCoord pos) : Selection(pos,pos) {}
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Selection(BufferCoord anchor, BufferCoordAndTarget cursor,
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CaptureList captures = {})
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: m_anchor{anchor}, m_cursor{cursor},
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m_captures(std::move(captures)) {}
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BufferCoord& anchor() { return m_anchor; }
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BufferCoordAndTarget& cursor() { return m_cursor; }
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const BufferCoord& anchor() const { return m_anchor; }
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const BufferCoordAndTarget& cursor() const { return m_cursor; }
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void set(BufferCoord anchor, BufferCoord cursor)
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{
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m_anchor = anchor;
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m_cursor = cursor;
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}
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void set(BufferCoord coord) { set(coord, coord); }
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CaptureList& captures() { return m_captures; }
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const CaptureList& captures() const { return m_captures; }
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bool operator== (const Selection& other) const
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{
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return m_anchor == other.m_anchor and m_cursor == other.m_cursor;
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}
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// When selections are single char, we want the anchor to be considered min, and cursor max
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const BufferCoord& min() const { return m_anchor <= m_cursor ? m_anchor : m_cursor; }
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const BufferCoord& max() const { return m_anchor <= m_cursor ? m_cursor : m_anchor; }
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BufferCoord& min() { return m_anchor <= m_cursor ? m_anchor : m_cursor; }
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BufferCoord& max() { return m_anchor <= m_cursor ? m_cursor : m_anchor; }
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private:
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BufferCoord m_anchor;
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BufferCoordAndTarget m_cursor;
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CaptureList m_captures;
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};
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inline bool overlaps(const Selection& lhs, const Selection& rhs)
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{
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return lhs.min() <= rhs.min() ? lhs.max() >= rhs.min()
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: lhs.min() <= rhs.max();
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}
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void update_selections(Vector<Selection>& selections, size_t& main,
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const Buffer& buffer, size_t timestamp, bool merge = true);
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bool compare_selections(const Selection& lhs, const Selection& rhs);
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void sort_selections(Vector<Selection>& selections, size_t& main);
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void merge_overlapping_selections(Vector<Selection>& selections, size_t& main);
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void clamp_selections(Vector<Selection>& sel, const Buffer& buffer);
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void replace(Buffer& buffer, Selection& sel, StringView content);
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void insert(Buffer& buffer, Selection& sel, BufferCoord pos, StringView content);
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struct SelectionList
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{
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static constexpr MemoryDomain Domain = MemoryDomain::Selections;
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SelectionList(Buffer& buffer, Selection s);
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SelectionList(Buffer& buffer, Selection s, size_t timestamp);
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SelectionList(Buffer& buffer, Vector<Selection> s);
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SelectionList(Buffer& buffer, Vector<Selection> s, size_t timestamp);
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void update(bool merge = true);
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void check_invariant() const;
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const Selection& main() const { return (*this)[m_main]; }
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Selection& main() { return (*this)[m_main]; }
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size_t main_index() const { return m_main; }
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void set_main_index(size_t main) { kak_assert(main < size()); m_main = main; }
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void push_back(const Selection& sel) { m_selections.push_back(sel); }
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void push_back(Selection&& sel) { m_selections.push_back(std::move(sel)); }
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Selection& operator[](size_t i) { return m_selections[i]; }
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const Selection& operator[](size_t i) const { return m_selections[i]; }
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void set(Vector<Selection> list, size_t main);
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SelectionList& operator=(Vector<Selection> list)
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{
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const size_t main_index = list.size()-1;
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set(std::move(list), main_index);
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return *this;
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}
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using iterator = Vector<Selection>::iterator;
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iterator begin() { return m_selections.begin(); }
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iterator end() { return m_selections.end(); }
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using const_iterator = Vector<Selection>::const_iterator;
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const_iterator begin() const { return m_selections.begin(); }
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const_iterator end() const { return m_selections.end(); }
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void remove(size_t index);
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void remove_from(size_t index);
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const Selection* data() const { return m_selections.data(); }
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size_t size() const { return m_selections.size(); }
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bool operator==(const SelectionList& other) const { return m_buffer == other.m_buffer and m_selections == other.m_selections; }
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bool operator!=(const SelectionList& other) const { return not ((*this) == other); }
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void sort();
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void merge_overlapping();
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void merge_consecutive();
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void sort_and_merge_overlapping();
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Buffer& buffer() const { return *m_buffer; }
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size_t timestamp() const { return m_timestamp; }
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void force_timestamp(size_t timestamp) { m_timestamp = timestamp; }
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using ApplyFunc = FunctionRef<void (size_t index, Selection& sel)>;
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void for_each(ApplyFunc apply);
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void replace(ConstArrayView<String> strings);
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void erase();
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private:
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size_t m_main = 0;
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Vector<Selection> m_selections;
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SafePtr<Buffer> m_buffer;
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size_t m_timestamp;
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};
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Vector<Selection> compute_modified_ranges(const Buffer& buffer, size_t timestamp);
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enum class ColumnType
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{
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Byte,
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Codepoint,
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DisplayColumn
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};
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Selection selection_from_string(ColumnType column_type, const Buffer& buffer, StringView desc, ColumnCount tabstop = -1);
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String selection_to_string(ColumnType column_type, const Buffer& buffer, const Selection& selection, ColumnCount tabstop = -1);
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String selection_list_to_string(ColumnType column_type, const SelectionList& selections, ColumnCount tabstop = -1);
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template<typename StringArray>
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SelectionList selection_list_from_strings(Buffer& buffer, ColumnType column_type, StringArray&& descs, size_t timestamp, size_t main, ColumnCount tabstop = -1)
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{
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if ((column_type != ColumnType::Byte and timestamp != buffer.timestamp()) or timestamp > buffer.timestamp())
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throw runtime_error{format("invalid timestamp '{}'", timestamp)};
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auto from_string = [&](StringView desc) {
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return selection_from_string(column_type, buffer, desc, tabstop);
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};
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auto sels = descs | transform(from_string) | gather<Vector<Selection>>();
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if (sels.empty())
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throw runtime_error{"empty selection description"};
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if (main >= sels.size())
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throw runtime_error{"invalid main selection index"};
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sort_selections(sels, main);
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merge_overlapping_selections(sels, main);
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if (timestamp < buffer.timestamp())
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update_selections(sels, main, buffer, timestamp);
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else
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clamp_selections(sels, buffer);
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SelectionList res{buffer, std::move(sels)};
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res.set_main_index(main);
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return res;
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}
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}
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#endif // selection_hh_INCLUDED
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