/* * Mr. 4th Dimention - Allen Webster * * 19.08.2015 * * File editing view for 4coder * */ // TOP #include "buffer/4coder_shared.cpp" #if BUFFER_EXPERIMENT_SCALPEL == 0 #include "buffer/4coder_golden_array.cpp" #define Buffer_Type Buffer #elif BUFFER_EXPERIMENT_SCALPEL == 1 #include "buffer/4coder_gap_buffer.cpp" #define Buffer_Type Gap_Buffer #elif BUFFER_EXPERIMENT_SCALPEL == 2 #include "buffer/4coder_multi_gap_buffer.cpp" #define Buffer_Type Multi_Gap_Buffer #else #include "buffer/4coder_rope_buffer.cpp" #define Buffer_Type Rope_Buffer #endif #include "buffer/4coder_buffer_abstract.cpp" struct Range{ i32 start, end; }; enum Edit_Type{ ED_NORMAL, ED_REVERSE_NORMAL, ED_UNDO, ED_REDO, }; struct Edit_Step{ Edit_Type type; union{ struct{ b32 can_merge; Buffer_Edit edit; i32 pre_pos; i32 post_pos; i32 next_block, prev_block; }; struct{ i32 first_child; i32 inverse_first_child; i32 inverse_child_count; i32 special_type; }; }; i32 child_count; }; struct Edit_Stack{ u8 *strings; i32 size, max; Edit_Step *edits; i32 edit_count, edit_max; }; struct Small_Edit_Stack{ u8 *strings; i32 size, max; Buffer_Edit *edits; i32 edit_count, edit_max; }; struct Undo_Data{ Edit_Stack undo; Edit_Stack redo; Edit_Stack history; Small_Edit_Stack children; i32 history_block_count, history_head_block; i32 edit_history_cursor; b32 current_block_normal; }; struct Editing_File{ Buffer_Type buffer; Font *font; i32 cursor_pos; b32 is_dummy; char live_name_[256]; String live_name; i32 base_map_id; char source_path_[256]; char extension_[16]; String source_path; String extension; Undo_Data undo; b32 super_locked; Cpp_Token_Stack token_stack; b32 tokens_complete; b32 tokens_exist; b32 still_lexing; u32 lex_job; i32 dos_write_mode; u64 last_4ed_write_time; u64 last_4ed_edit_time; u64 last_sys_write_time; }; struct File_Table_Entry{ String name; u32 hash; i32 id; }; struct File_Table{ File_Table_Entry *table; i32 count, max; }; internal u32 get_file_hash(String name){ u32 x = 5381; int i = 0; char c; while (i < name.size){ c = name.str[i++]; x = ((x << 5) + x) + c; } return x; } internal b32 table_add(File_Table *table, String name, i32 id){ Assert(table->count * 3 < table->max * 2); File_Table_Entry entry, e; i32 i; entry.name = name; entry.id = id; entry.hash = get_file_hash(name); i = entry.hash % table->max; while ((e = table->table[i]).name.str){ if (e.hash == entry.hash && match(e.name, entry.name)){ return 1; } i = (i + 1) % table->max; } table->table[i] = entry; ++table->count; return 0; } internal bool32 table_find_pos(File_Table *table, String name, i32 *index){ File_Table_Entry e; i32 i; u32 hash; hash = get_file_hash(name); i = hash % table->max; while ((e = table->table[i]).name.size){ if (e.name.str && e.hash == hash && match(e.name, name)){ *index = i; return 1; } i = (i + 1) % table->max; } return 0; } inline b32 table_find(File_Table *table, String name, i32 *id){ i32 pos; b32 r = table_find_pos(table, name, &pos); if (r) *id = table->table[pos].id; return r; } inline b32 table_remove(File_Table *table, String name){ i32 pos; b32 r = table_find_pos(table, name, &pos); if (r){ table->table[pos].name.str = 0; --table->count; } return r; } struct Working_Set{ Editing_File *files; i32 file_index_count, file_max_count; File_Table table; String clipboards[64]; i32 clipboard_size, clipboard_max_size; i32 clipboard_current, clipboard_rolling; }; struct Text_Effect{ i32 start, end; u32 color; i32 tick_down, tick_max; }; struct File_View_Mode{ bool8 rewrite; }; struct Incremental_Search{ String str; bool32 reverse; i32 pos; }; enum Action_Type{ DACT_OPEN, DACT_SAVE_AS, DACT_SAVE, DACT_NEW, DACT_SWITCH, DACT_TRY_KILL, DACT_KILL, DACT_CLOSE_MINOR, DACT_CLOSE_MAJOR, DACT_THEME_OPTIONS }; struct Delayed_Action{ Action_Type type; String string; Panel *panel; }; struct Delay{ Delayed_Action acts[8]; i32 count, max; }; inline void delayed_action(Delay *delay, Action_Type type, String string, Panel *panel){ Assert(delay->count < delay->max); Delayed_Action action; action.type = type; action.string = string; action.panel = panel; delay->acts[delay->count++] = action; } // Hot Directory struct Hot_Directory{ String string; File_List file_list; }; internal void hot_directory_init(Hot_Directory *hot_directory, String base){ hot_directory->string = base; hot_directory->string.str[255] = 0; i32 dir_size = system_get_working_directory((u8*)hot_directory->string.str, hot_directory->string.memory_size); if (dir_size <= 0){ dir_size = system_get_easy_directory((u8*)hot_directory->string.str); } hot_directory->string.size = dir_size; append(&hot_directory->string, "\\"); } internal void hot_directory_clean_end(Hot_Directory *hot_directory){ String *str = &hot_directory->string; if (str->size != 0 && str->str[str->size-1] != '\\'){ str->size = reverse_seek_slash(*str) + 1; str->str[str->size] = 0; } } internal i32 hot_directory_quick_partition(File_Info *infos, i32 start, i32 pivot){ File_Info *p = infos + pivot; File_Info *a = infos + start; for (i32 i = start; i < pivot; ++i, ++a){ i32 comp = 0; comp = p->folder - a->folder; if (comp == 0) comp = compare(a->filename, p->filename); if (comp < 0){ Swap(*a, infos[start]); ++start; } } Swap(*p, infos[start]); return start; } internal void hot_directory_quick_sort(File_Info *infos, i32 start, i32 pivot){ i32 mid = hot_directory_quick_partition(infos, start, pivot); if (start < mid-1) hot_directory_quick_sort(infos, start, mid-1); if (mid+1 < pivot) hot_directory_quick_sort(infos, mid+1, pivot); } inline void hot_directory_fixup(Hot_Directory *hot_directory, Working_Set *working_set){ File_List *files = &hot_directory->file_list; if (files->count >= 2) hot_directory_quick_sort(files->infos, 0, files->count - 1); } inline void hot_directory_set(Hot_Directory *hot_directory, String str, Working_Set *working_set){ bool32 success = copy_checked(&hot_directory->string, str); terminate_with_null(&hot_directory->string); if (success){ system_free_file_list(hot_directory->file_list); hot_directory->file_list = system_get_files(str); } hot_directory_fixup(hot_directory, working_set); } inline void hot_directory_reload(Hot_Directory *hot_directory, Working_Set *working_set){ if (hot_directory->file_list.block){ system_free_file_list(hot_directory->file_list); } hot_directory->file_list = system_get_files(hot_directory->string); hot_directory_fixup(hot_directory, working_set); } struct Hot_Directory_Match{ String filename; bool32 is_folder; }; internal bool32 filename_match(String query, Absolutes *absolutes, String filename){ bool32 result; result = (query.size == 0); if (!result) result = wildcard_match(absolutes, filename); return result; } internal Hot_Directory_Match hot_directory_first_match(Hot_Directory *hot_directory, String str, bool32 include_files, bool32 exact_match){ Hot_Directory_Match result = {}; Absolutes absolutes; if (!exact_match) get_absolutes(str, &absolutes, 1, 1); File_List *files = &hot_directory->file_list; File_Info *info, *end; end = files->infos + files->count; for (info = files->infos; info != end; ++info){ String filename = info->filename; bool32 is_match = 0; if (exact_match){ if (match(filename, str)) is_match = 1; } else{ if (filename_match(str, &absolutes, filename)) is_match = 1; } if (is_match){ result.is_folder = info->folder; result.filename = filename; break; } } return result; } struct Single_Line_Input_Step{ bool32 hit_newline; bool32 hit_ctrl_newline; bool32 hit_a_character; bool32 hit_backspace; bool32 hit_esc; bool32 made_a_change; bool32 did_command; }; enum Single_Line_Input_Type{ SINGLE_LINE_STRING, SINGLE_LINE_FILE }; struct Single_Line_Mode{ Single_Line_Input_Type type; String *string; Hot_Directory *hot_directory; bool32 fast_folder_select; }; internal Single_Line_Input_Step app_single_line_input_core(Key_Codes *codes, Working_Set *working_set, Key_Single key, Single_Line_Mode mode){ Single_Line_Input_Step result = {}; if (key.key.keycode == codes->back){ result.hit_backspace = 1; if (mode.string->size > 0){ result.made_a_change = 1; --mode.string->size; switch (mode.type){ case SINGLE_LINE_STRING: mode.string->str[mode.string->size] = 0; break; case SINGLE_LINE_FILE: { char end_character = mode.string->str[mode.string->size]; if (char_is_slash(end_character)){ mode.string->size = reverse_seek_slash(*mode.string) + 1; mode.string->str[mode.string->size] = 0; hot_directory_set(mode.hot_directory, *mode.string, working_set); } else{ mode.string->str[mode.string->size] = 0; } }break; } } } else if (key.key.character == '\n' || key.key.character == '\t'){ result.made_a_change = 1; if (key.modifiers[CONTROL_KEY_CONTROL] || key.modifiers[CONTROL_KEY_ALT]){ result.hit_ctrl_newline = 1; } else{ result.hit_newline = 1; if (mode.fast_folder_select){ char front_name_space[256]; String front_name = make_string(front_name_space, 0, ArrayCount(front_name_space)); get_front_of_directory(&front_name, *mode.string); Hot_Directory_Match match; match = hot_directory_first_match(mode.hot_directory, front_name, 1, 1); if (!match.filename.str){ match = hot_directory_first_match(mode.hot_directory, front_name, 1, 0); } if (match.filename.str){ if (match.is_folder){ set_last_folder(mode.string, match.filename); hot_directory_set(mode.hot_directory, *mode.string, working_set); result.hit_newline = 0; } else{ mode.string->size = reverse_seek_slash(*mode.string) + 1; append(mode.string, match.filename); result.hit_newline = 1; } } } } } else if (key.key.keycode == codes->esc){ result.hit_esc = 1; result.made_a_change = 1; } else if (key.key.character){ result.hit_a_character = 1; if (!key.modifiers[CONTROL_KEY_CONTROL] && !key.modifiers[CONTROL_KEY_ALT]){ if (mode.string->size+1 < mode.string->memory_size){ u8 new_character = (u8)key.key.character; mode.string->str[mode.string->size] = new_character; mode.string->size++; mode.string->str[mode.string->size] = 0; if (mode.type == SINGLE_LINE_FILE && char_is_slash(new_character)){ hot_directory_set(mode.hot_directory, *mode.string, working_set); } result.made_a_change = 1; } } else{ result.did_command = 1; result.made_a_change = 1; } } return result; } inline Single_Line_Input_Step app_single_line_input_step(Key_Codes *codes, Key_Single key, String *string){ Single_Line_Mode mode = {}; mode.type = SINGLE_LINE_STRING; mode.string = string; return app_single_line_input_core(codes, 0, key, mode); } inline Single_Line_Input_Step app_single_file_input_step(Key_Codes *codes, Working_Set *working_set, Key_Single key, String *string, Hot_Directory *hot_directory, bool32 fast_folder_select){ Single_Line_Mode mode = {}; mode.type = SINGLE_LINE_FILE; mode.string = string; mode.hot_directory = hot_directory; mode.fast_folder_select = fast_folder_select; return app_single_line_input_core(codes, working_set, key, mode); } inline Single_Line_Input_Step app_single_number_input_step(Key_Codes *codes, Key_Single key, String *string){ Single_Line_Input_Step result = {}; Single_Line_Mode mode = {}; mode.type = SINGLE_LINE_STRING; mode.string = string; char c = (char)key.key.character; if (c == 0 || c == '\n' || char_is_numeric(c)) result = app_single_line_input_core(codes, 0, key, mode); return result; } struct Widget_ID{ i32 id; i32 sub_id0; i32 sub_id1; i32 sub_id2; }; inline bool32 widget_match(Widget_ID s1, Widget_ID s2){ return (s1.id == s2.id && s1.sub_id0 == s2.sub_id0 && s1.sub_id1 == s2.sub_id1 && s1.sub_id2 == s2.sub_id2); } struct UI_State{ Render_Target *target; Style *style; Font *font; Mouse_Summary *mouse; Key_Summary *keys; Key_Codes *codes; Working_Set *working_set; Widget_ID selected, hover, hot; bool32 activate_me; bool32 redraw; bool32 input_stage; i32 sub_id1_change; real32 height, view_y; }; inline Widget_ID make_id(UI_State *state, i32 id){ Widget_ID r = state->selected; r.id = id; return r; } inline Widget_ID make_sub0(UI_State *state, i32 id){ Widget_ID r = state->selected; r.sub_id0 = id; return r; } inline Widget_ID make_sub1(UI_State *state, i32 id){ Widget_ID r = state->selected; r.sub_id1 = id; return r; } inline Widget_ID make_sub2(UI_State *state, i32 id){ Widget_ID r = state->selected; r.sub_id2 = id; return r; } inline bool32 is_selected(UI_State *state, Widget_ID id){ return widget_match(state->selected, id); } inline bool32 is_hot(UI_State *state, Widget_ID id){ return widget_match(state->hot, id); } inline bool32 is_hover(UI_State *state, Widget_ID id){ return widget_match(state->hover, id); } struct UI_Layout{ i32 row_count; i32 row_item_width; i32 row_max_item_height; i32_Rect rect; i32 x, y; }; struct UI_Layout_Restore{ UI_Layout layout; UI_Layout *dest; }; inline void begin_layout(UI_Layout *layout, i32_Rect rect){ layout->rect = rect; layout->x = rect.x0; layout->y = rect.y0; layout->row_count = 0; layout->row_max_item_height = 0; } inline void begin_row(UI_Layout *layout, i32 count){ layout->row_count = count; layout->row_item_width = (layout->rect.x1 - layout->x) / count; } inline i32_Rect layout_rect(UI_Layout *layout, i32 height){ i32_Rect rect; rect.x0 = layout->x; rect.y0 = layout->y; rect.x1 = rect.x0; rect.y1 = rect.y0 + height; if (layout->row_count > 0){ --layout->row_count; rect.x1 = rect.x0 + layout->row_item_width; layout->x += layout->row_item_width; layout->row_max_item_height = Max(height, layout->row_max_item_height); } if (layout->row_count == 0){ rect.x1 = layout->rect.x1; layout->row_max_item_height = Max(height, layout->row_max_item_height); layout->y += layout->row_max_item_height; layout->x = layout->rect.x0; layout->row_max_item_height = 0; } return rect; } inline UI_Layout_Restore begin_sub_layout(UI_Layout *layout, i32_Rect area){ UI_Layout_Restore restore; restore.layout = *layout; restore.dest = layout; begin_layout(layout, area); return restore; } inline void end_sub_layout(UI_Layout_Restore restore){ *restore.dest = restore.layout; } struct UI_Style{ u32 dark, dim, bright; u32 base, pop1, pop2; }; internal UI_Style get_ui_style(Style *style){ UI_Style ui_style; ui_style.dark = style->main.back_color; ui_style.dim = style->main.margin_color; ui_style.bright = style->main.margin_active_color; ui_style.base = style->main.default_color; ui_style.pop1 = style->main.file_info_style.pop1_color; ui_style.pop2 = style->main.file_info_style.pop2_color; return ui_style; } internal UI_Style get_ui_style_upper(Style *style){ UI_Style ui_style; ui_style.dark = style->main.margin_color; ui_style.dim = style->main.margin_hover_color; ui_style.bright = style->main.margin_active_color; ui_style.base = style->main.default_color; ui_style.pop1 = style->main.file_info_style.pop1_color; ui_style.pop2 = style->main.file_info_style.pop2_color; return ui_style; } inline void get_colors(UI_State *state, u32 *back, u32 *fore, Widget_ID wid, UI_Style style){ bool32 hover = is_hover(state, wid); bool32 hot = is_hot(state, wid); i32 level = hot + hover; switch (level){ case 2: *back = style.bright; *fore = style.dark; break; case 1: *back = style.dim; *fore = style.bright; break; case 0: *back = style.dark; *fore = style.bright; break; } } inline void get_pop_color(UI_State *state, u32 *pop, Widget_ID wid, UI_Style style){ bool32 hover = is_hover(state, wid); bool32 hot = is_hot(state, wid); i32 level = hot + hover; switch (level){ case 2: *pop = style.pop1; break; case 1: *pop = style.pop1; break; case 0: *pop = style.pop1; break; } } internal UI_State ui_state_init(UI_State *state_in, Render_Target *target, Input_Summary *user_input, Style *style, Working_Set *working_set, bool32 input_stage){ UI_State state = {}; state.target = target; state.style = style; state.font = style->font; state.working_set = working_set; if (user_input){ state.mouse = &user_input->mouse; state.keys = &user_input->keys; state.codes = user_input->codes; } state.selected = state_in->selected; state.hot = state_in->hot; if (input_stage) state.hover = {}; else state.hover = state_in->hover; state.redraw = 0; state.activate_me = 0; state.input_stage = input_stage; state.height = state_in->height; state.view_y = state_in->view_y; return state; } inline bool32 ui_state_match(UI_State a, UI_State b){ return (widget_match(a.selected, b.selected) && widget_match(a.hot, b.hot) && widget_match(a.hover, b.hover)); } internal bool32 ui_finish_frame(UI_State *persist_state, UI_State *state, UI_Layout *layout, i32_Rect rect, bool32 do_wheel, bool32 *did_activation){ bool32 result = 0; real32 h = layout->y + persist_state->view_y - rect.y0; real32 max_y = h - (rect.y1 - rect.y0); persist_state->height = h; persist_state->view_y = state->view_y; if (state->input_stage){ Mouse_Summary *mouse = state->mouse; if (mouse->wheel_used && do_wheel){ persist_state->view_y += mouse->wheel_amount*state->font->height; result = 1; } if (mouse->release_l && widget_match(state->hot, state->hover)){ if (did_activation) *did_activation = 1; if (state->activate_me){ state->selected = state->hot; } } if (!mouse->l && !mouse->r){ state->hot = {}; } if (!ui_state_match(*persist_state, *state) || state->redraw){ result = 1; } *persist_state = *state; } if (persist_state->view_y >= max_y) persist_state->view_y = max_y; if (persist_state->view_y < 0) persist_state->view_y = 0; return result; } internal bool32 ui_do_button_input(UI_State *state, i32_Rect rect, Widget_ID id, bool32 activate, bool32 *right = 0){ bool32 result = 0; Mouse_Summary *mouse = state->mouse; bool32 hover = hit_check(mouse->mx, mouse->my, rect); if (hover){ state->hover = id; if (activate) state->activate_me = 1; if (mouse->press_l || (mouse->press_r && right)) state->hot = id; if (mouse->l && mouse->r) state->hot = {}; } bool32 is_match = is_hot(state, id); if (mouse->release_l && is_match){ if (hover) result = 1; state->redraw = 1; } if (right && mouse->release_r && is_match){ if (hover) *right = 1; state->redraw = 1; } return result; } internal bool32 ui_do_subdivided_button_input(UI_State *state, i32_Rect rect, i32 parts, Widget_ID id, bool32 activate, i32 *indx_out, bool32 *right = 0){ bool32 result = 0; real32 x0, x1; i32_Rect sub_rect; Widget_ID sub_widg = id; real32 sub_width = (rect.x1 - rect.x0) / (real32)parts; sub_rect.y0 = rect.y0; sub_rect.y1 = rect.y1; x1 = (real32)rect.x0; for (i32 i = 0; i < parts; ++i){ x0 = x1; x1 = x1 + sub_width; sub_rect.x0 = TRUNC32(x0); sub_rect.x1 = TRUNC32(x1); sub_widg.sub_id2 = i; if (ui_do_button_input(state, sub_rect, sub_widg, activate, right)){ *indx_out = i; break; } } return result; } internal real32 ui_do_vscroll_input(UI_State *state, i32_Rect top, i32_Rect bottom, i32_Rect slider, Widget_ID id, real32 val, real32 step_amount, real32 smin, real32 smax, real32 vmin, real32 vmax){ Mouse_Summary *mouse = state->mouse; i32 mx = mouse->mx; i32 my = mouse->my; if (hit_check(mx, my, top)){ state->hover = id; state->hover.sub_id2 = 1; } if (hit_check(mx, my, bottom)){ state->hover = id; state->hover.sub_id2 = 2; } if (hit_check(mx, my, slider)){ state->hover = id; state->hover.sub_id2 = 3; } if (mouse->press_l) state->hot = state->hover; if (id.id == state->hot.id){ if (mouse->release_l){ Widget_ID wid1, wid2; wid1 = wid2 = id; wid1.sub_id2 = 1; wid2.sub_id2 = 2; if (state->hot.sub_id2 == 1 && is_hover(state, wid1)) val -= step_amount; if (state->hot.sub_id2 == 2 && is_hover(state, wid2)) val += step_amount; state->redraw = 1; } if (state->hot.sub_id2 == 3){ real32 S, L; S = (real32)mouse->my - (slider.y1 - slider.y0) / 2; if (S < smin) S = smin; if (S > smax) S = smax; L = unlerp(smin, S, smax); val = lerp(vmin, L, vmax); state->redraw = 1; } } return val; } internal bool32 ui_do_text_field_input(UI_State *state, String *str){ bool32 result = 0; Key_Summary *keys = state->keys; for (i32 key_i = 0; key_i < keys->count; ++key_i){ Key_Single key = get_single_key(keys, key_i); char c = (char)key.key.character; if (char_is_basic(c) && str->size < str->memory_size-1){ str->str[str->size++] = c; str->str[str->size] = 0; } else if (c == '\n'){ result = 1; } else if (key.key.keycode == state->codes->back && str->size > 0){ str->str[--str->size] = 0; } } return result; } internal bool32 ui_do_file_field_input(UI_State *state, Hot_Directory *hot_dir){ bool32 result = 0; Key_Summary *keys = state->keys; for (i32 key_i = 0; key_i < keys->count; ++key_i){ Key_Single key = get_single_key(keys, key_i); String *str = &hot_dir->string; terminate_with_null(str); Single_Line_Input_Step step = app_single_file_input_step(state->codes, state->working_set, key, str, hot_dir, 1); if (step.hit_newline || step.hit_ctrl_newline) result = 1; } return result; } internal bool32 ui_do_line_field_input(UI_State *state, String *string){ bool32 result = 0; Key_Summary *keys = state->keys; for (i32 key_i = 0; key_i < keys->count; ++key_i){ Key_Single key = get_single_key(keys, key_i); terminate_with_null(string); Single_Line_Input_Step step = app_single_line_input_step(state->codes, key, string); if (step.hit_newline || step.hit_ctrl_newline) result = 1; } return result; } internal bool32 ui_do_slider_input(UI_State *state, i32_Rect rect, Widget_ID wid, real32 min, real32 max, real32 *v){ bool32 result = 0; ui_do_button_input(state, rect, wid, 0); Mouse_Summary *mouse = state->mouse; if (is_hot(state, wid)){ result = 1; *v = unlerp(min, (real32)mouse->mx, max); state->redraw = 1; } return result; } internal bool32 do_text_field(Widget_ID wid, UI_State *state, UI_Layout *layout, String prompt, String dest){ bool32 result = 0; Font *font = state->font; i32 character_h = font->height; i32_Rect rect = layout_rect(layout, character_h); if (state->input_stage){ ui_do_button_input(state, rect, wid, 1); if (is_selected(state, wid)){ if (ui_do_text_field_input(state, &dest)){ result = 1; } } } else{ Render_Target *target = state->target; UI_Style ui_style = get_ui_style_upper(state->style); u32 back, fore, prompt_pop; get_colors(state, &back, &fore, wid, ui_style); get_pop_color(state, &prompt_pop, wid, ui_style); draw_rectangle(target, rect, back); i32 x = rect.x0; x = draw_string(target, font, prompt, x, rect.y0, prompt_pop); draw_string(target, font, dest, x, rect.y0, ui_style.base); } return result; } enum File_View_Widget_Type{ FWIDG_NONE, FWIDG_SEARCH, FWIDG_GOTO_LINE, FWIDG_TIMELINES, // never below this FWIDG_TYPE_COUNT }; struct File_View_Widget{ UI_State state; File_View_Widget_Type type; i32 height; struct{ bool32 undo_line; bool32 history_line; } timeline; }; enum Link_Type{ link_result, link_related, link_error, link_warning, // never below this link_type_count }; struct Hyper_Link{ char *file_name; i32 line_number; i32 start, end; Link_Type link_type; }; struct File_View{ View view_base; Editing_File *file; Style *style; Editing_Layout *layout; i32 font_advance; i32 font_height; Full_Cursor cursor; i32 mark; f32 scroll_y, target_y, vel_y; f32 scroll_x, target_x, vel_x; f32 preferred_x; Full_Cursor scroll_y_cursor; union{ Incremental_Search isearch; struct{ String str; } gotoline; }; Full_Cursor temp_highlight; i32 temp_highlight_end_pos; b32 show_temp_highlight; File_View_Mode mode, next_mode; File_View_Widget widget; f32 rewind_amount, rewind_speed; i32 rewind_max, scrub_max; b32 unwrapped_lines; b32 show_whitespace; b32 locked; i32 line_count, line_max; f32 *line_wrap_y; Text_Effect paste_effect; Hyper_Link *links; i32 link_count, link_max; }; inline File_View* view_to_file_view(View *view){ File_View* result = 0; if (view && view->type == VIEW_TYPE_FILE){ result = (File_View*)view; } return result; } internal Range get_range(i32 a, i32 b){ Range result = {}; if (a < b){ result.start = a; result.end = b; } else{ result.start = b; result.end = a; } return result; } inline bool32 starts_new_line(u8 character){ return (character == '\n'); } inline void file_init_strings(Editing_File *file){ file->source_path = make_fixed_width_string(file->source_path_); file->live_name = make_fixed_width_string(file->live_name_); file->extension = make_fixed_width_string(file->extension_); } inline void file_set_name(Editing_File *file, char *filename){ file->live_name = make_fixed_width_string(file->live_name_); if (filename[0] == '*'){ copy(&file->live_name, filename); } else{ String f, ext; f = make_string_slowly(filename); copy_checked(&file->source_path, f); get_front_of_directory(&file->live_name, f); ext = file_extension(f); copy(&file->extension, ext); } } inline void file_synchronize_times(Editing_File *file, u8 *filename){ Time_Stamp stamp = system_file_time_stamp(filename); if (stamp.success){ file->last_4ed_write_time = stamp.time; file->last_4ed_edit_time = stamp.time; file->last_sys_write_time = stamp.time; } } internal b32 file_save(Partition *part, Editing_File *file, char *filename){ b32 result = 0; #if BUFFER_EXPERIMENT_SCALPEL <= 3 Temp_Memory temp = begin_temp_memory(part); i32 max = partition_remaining(part); if (file->dos_write_mode){ char *data = push_array(part, char, max); i32 size = buffer_convert_out(&file->buffer, data, max); result = system_save_file((u8*)filename, data, size); } else{ char *data = push_array(part, char, max); i32 size = buffer_size(&file->buffer); Assert(size <= max); buffer_stringify(&file->buffer, 0, size, data); result = system_save_file((u8*)filename, data, size); } end_temp_memory(temp); file_synchronize_times(file, (u8*)filename); #endif return result; } inline bool32 file_save_and_set_names(Partition *part, Editing_File *file, char *filename){ bool32 result = 0; if (file_save(part, file, filename)){ result = 1; file_set_name(file, filename); } return result; } enum File_Bubble_Type{ BUBBLE_BUFFER = 1, BUBBLE_STARTS, BUBBLE_WIDTHS, BUBBLE_WRAPS, BUBBLE_TOKENS, BUBBLE_UNDO_STRING, BUBBLE_UNDO, BUBBLE_UNDO_CHILDREN, // FILE_BUBBLE_TYPE_END, }; #define GROW_FAILED 0 #define GROW_NOT_NEEDED 1 #define GROW_SUCCESS 2 internal i32 file_grow_starts_as_needed(General_Memory *general, Buffer_Type *buffer, i32 additional_lines){ bool32 result = GROW_NOT_NEEDED; #if BUFFER_EXPERIMENT_SCALPEL <= 3 i32 max = buffer->line_max; i32 count = buffer->line_count; i32 target_lines = count + additional_lines; if (target_lines > max || max == 0){ max = LargeRoundUp(target_lines + max, Kbytes(1)); i32 *new_lines = (i32*) general_memory_reallocate(general, buffer->line_starts, sizeof(i32)*count, sizeof(i32)*max, BUBBLE_STARTS); if (new_lines){ buffer->line_starts = new_lines; buffer->line_max = max; result = GROW_SUCCESS; } else{ result = GROW_FAILED; } } #endif return result; } internal void file_measure_starts_widths(General_Memory *general, Buffer_Type *buffer, Font *font){ ProfileMomentFunction(); if (!buffer->line_starts){ i32 max = buffer->line_max = Kbytes(1); buffer->line_starts = (i32*)general_memory_allocate(general, max*sizeof(i32), BUBBLE_STARTS); TentativeAssert(buffer->line_starts); // TODO(allen): when unable to allocate? } if (!buffer->line_widths){ i32 max = buffer->widths_max = Kbytes(1); buffer->line_widths = (f32*)general_memory_allocate(general, max*sizeof(f32), BUBBLE_STARTS); TentativeAssert(buffer->line_starts); // TODO(allen): when unable to allocate? } Buffer_Measure_Starts state = {}; while (buffer_measure_starts_widths(&state, buffer, font->advance_data)){ i32 count = state.count; i32 max = buffer->line_max; max = ((max + 1) << 1); { i32 *new_lines = (i32*) general_memory_reallocate(general, buffer->line_starts, sizeof(i32)*count, sizeof(i32)*max, BUBBLE_STARTS); // TODO(allen): when unable to grow? TentativeAssert(new_lines); buffer->line_starts = new_lines; buffer->line_max = max; } { f32 *new_lines = (f32*) general_memory_reallocate(general, buffer->line_widths, sizeof(f32)*count, sizeof(f32)*max, BUBBLE_WIDTHS); // TODO(allen): when unable to grow? TentativeAssert(new_lines); buffer->line_widths = new_lines; buffer->widths_max = max; } } buffer->line_count = state.count; buffer->widths_count = state.count; } #if 0 internal void file_measure_starts(General_Memory *general, Buffer_Type *buffer){ #if BUFFER_EXPERIMENT_SCALPEL <= 3 ProfileMomentFunction(); if (!buffer->line_starts){ i32 max = buffer->line_max = Kbytes(1); buffer->line_starts = (i32*)general_memory_allocate(general, max*sizeof(i32), BUBBLE_STARTS); TentativeAssert(buffer->line_starts); // TODO(allen): when unable to allocate? } Buffer_Measure_Starts state = {}; while (buffer_measure_starts(&state, buffer)){ i32 max = buffer->line_max; i32 count = state.count; i32 target_lines = count + 1; max = (target_lines << 1); i32 *new_lines = (i32*) general_memory_reallocate(general, buffer->line_starts, sizeof(i32)*count, sizeof(i32)*max, BUBBLE_STARTS); // TODO(allen): when unable to grow? TentativeAssert(new_lines); buffer->line_starts = new_lines; buffer->line_max = max; } buffer->line_count = state.count; #endif } #endif internal void file_remeasure_starts(General_Memory *general, Buffer_Type *buffer, i32 line_start, i32 line_end, i32 line_shift, i32 character_shift){ #if BUFFER_EXPERIMENT_SCALPEL <= 3 ProfileMomentFunction(); Assert(buffer->line_starts); file_grow_starts_as_needed(general, buffer, line_shift); buffer_remeasure_starts(buffer, line_start, line_end, line_shift, character_shift); #endif } struct Opaque_Font_Advance{ void *data; int stride; }; inline Opaque_Font_Advance get_opaque_font_advance(Font *font){ Opaque_Font_Advance result; result.data = (char*)font->chardata + OffsetOfPtr(font->chardata, xadvance); result.stride = sizeof(*font->chardata); return result; } internal void file_grow_widths_as_needed(General_Memory *general, Buffer_Type *buffer){ #if BUFFER_EXPERIMENT_SCALPEL <= 3 i32 line_count = buffer->line_count; if (line_count > buffer->widths_max || buffer->widths_max == 0){ i32 new_max = LargeRoundUp(line_count, Kbytes(1)); if (new_max < Kbytes(1)) new_max = Kbytes(1); if (buffer->line_widths){ buffer->line_widths = (f32*) general_memory_reallocate(general, buffer->line_widths, sizeof(f32)*buffer->widths_count, sizeof(f32)*new_max, BUBBLE_WIDTHS); } else{ buffer->line_widths = (f32*) general_memory_allocate(general, sizeof(f32)*new_max, BUBBLE_WIDTHS); } buffer->widths_max = new_max; } #endif } #if 0 internal void file_measure_widths(General_Memory *general, Buffer_Type *buffer, Font *font){ #if BUFFER_EXPERIMENT_SCALPEL <= 3 ProfileMomentFunction(); file_grow_widths_as_needed(general, buffer); Opaque_Font_Advance opad = get_opaque_font_advance(font); buffer_measure_widths(buffer, opad.data, opad.stride); #endif } #endif internal void file_remeasure_widths(General_Memory *general, Buffer_Type *buffer, Font *font, i32 line_start, i32 line_end, i32 line_shift){ #if BUFFER_EXPERIMENT_SCALPEL <= 3 ProfileMomentFunction(); file_grow_widths_as_needed(general, buffer); buffer_remeasure_widths(buffer, font->advance_data, line_start, line_end, line_shift); #endif } inline i32 view_wrapped_line_span(real32 line_width, real32 max_width){ i32 line_count = CEIL32(line_width / max_width); if (line_count == 0) line_count = 1; return line_count; } internal i32 view_compute_lowest_line(File_View *view){ i32 lowest_line = 0; #if BUFFER_EXPERIMENT_SCALPEL <= 3 i32 last_line = view->line_count - 1; if (last_line > 0){ if (view->unwrapped_lines){ lowest_line = last_line; } else{ Style *style = view->style; Font *font = style->font; real32 wrap_y = view->line_wrap_y[last_line]; lowest_line = FLOOR32(wrap_y / font->height); f32 max_width = view_compute_width(view); Editing_File *file = view->file; Assert(!file->is_dummy); f32 width = file->buffer.line_widths[last_line]; i32 line_span = view_wrapped_line_span(width, max_width); lowest_line += line_span - 1; } } #endif return lowest_line; } internal void view_measure_wraps(General_Memory *general, File_View *view){ #if BUFFER_EXPERIMENT_SCALPEL <= 3 ProfileMomentFunction(); Buffer_Type *buffer; buffer = &view->file->buffer; i32 line_count = buffer->line_count; if (view->line_max < line_count){ i32 max = view->line_max = LargeRoundUp(line_count, Kbytes(1)); if (view->line_wrap_y){ view->line_wrap_y = (real32*) general_memory_reallocate_nocopy(general, view->line_wrap_y, sizeof(real32)*max, BUBBLE_WRAPS); } else{ view->line_wrap_y = (real32*) general_memory_allocate(general, sizeof(real32)*max, BUBBLE_WRAPS); } } Font *font = view->style->font; real32 line_height = (real32)font->height; real32 max_width = view_compute_width(view); buffer_measure_wrap_y(buffer, view->line_wrap_y, line_height, max_width); view->line_count = line_count; #endif } internal void* alloc_for_buffer(void *context, int *size){ *size = LargeRoundUp(*size, Kbytes(4)); void *data = general_memory_allocate((General_Memory*)context, *size, BUBBLE_BUFFER); return data; } internal void file_create_from_string(Mem_Options *mem, Editing_File *file, u8 *filename, Font *font, String val, b32 super_locked = 0){ *file = {}; General_Memory *general = &mem->general; #if BUFFER_EXPERIMENT_SCALPEL <= 3 Buffer_Init_Type init = buffer_begin_init(&file->buffer, val.str, val.size); for (; buffer_init_need_more(&init); ){ i32 page_size = buffer_init_page_size(&init); page_size = LargeRoundUp(page_size, Kbytes(4)); if (page_size < Kbytes(4)) page_size = Kbytes(4); void *data = general_memory_allocate(general, page_size, BUBBLE_BUFFER); buffer_init_provide_page(&init, data, page_size); } Partition *part = &mem->part; i32 scratch_size = partition_remaining(part); Assert(scratch_size > 0); i32 init_success = buffer_end_init(&init, part->base + part->pos, scratch_size); Assert(init_success); #endif file_init_strings(file); file_set_name(file, (char*)filename); file->base_map_id = mapid_file; file->font = font; file_synchronize_times(file, filename); file_measure_starts_widths(general, &file->buffer, font); file->super_locked = super_locked; if (!super_locked){ i32 request_size = Kbytes(64); file->undo.undo.max = request_size; file->undo.undo.strings = (u8*)general_memory_allocate(general, request_size, BUBBLE_UNDO_STRING); file->undo.undo.edit_max = request_size / sizeof(Edit_Step); file->undo.undo.edits = (Edit_Step*)general_memory_allocate(general, request_size, BUBBLE_UNDO); file->undo.redo.max = request_size; file->undo.redo.strings = (u8*)general_memory_allocate(general, request_size, BUBBLE_UNDO_STRING); file->undo.redo.edit_max = request_size / sizeof(Edit_Step); file->undo.redo.edits = (Edit_Step*)general_memory_allocate(general, request_size, BUBBLE_UNDO); file->undo.history.max = request_size; file->undo.history.strings = (u8*)general_memory_allocate(general, request_size, BUBBLE_UNDO_STRING); file->undo.history.edit_max = request_size / sizeof(Edit_Step); file->undo.history.edits = (Edit_Step*)general_memory_allocate(general, request_size, BUBBLE_UNDO); file->undo.children.max = request_size; file->undo.children.strings = (u8*)general_memory_allocate(general, request_size, BUBBLE_UNDO_STRING); file->undo.children.edit_max = request_size / sizeof(Buffer_Edit); file->undo.children.edits = (Buffer_Edit*)general_memory_allocate(general, request_size, BUBBLE_UNDO); file->undo.history_block_count = 1; file->undo.history_head_block = 0; file->undo.current_block_normal = 1; } } internal bool32 file_create(Mem_Options *mem, Editing_File *file, u8 *filename, Font *font){ bool32 result = 0; File_Data raw_file = system_load_file(filename); if (raw_file.data){ result = 1; String val = make_string((char*)raw_file.data, raw_file.size); file_create_from_string(mem, file, filename, font, val); system_free_file(raw_file); } return result; } internal b32 file_create_empty(Mem_Options *mem, Editing_File *file, u8 *filename, Font *font){ b32 result = 1; String empty_str = {}; file_create_from_string(mem, file, filename, font, empty_str); return result; } internal b32 file_create_super_locked(Mem_Options *mem, Editing_File *file, u8 *filename, Font *font){ b32 result = 1; String empty_str = {}; file_create_from_string(mem, file, filename, font, empty_str, 1); return result; } struct Get_File_Result{ Editing_File *file; i32 index; }; internal Get_File_Result working_set_get_available_file(Working_Set *working_set){ Get_File_Result result = {}; for (i32 buffer_index = 1; buffer_index < working_set->file_max_count; ++buffer_index){ if (buffer_index == working_set->file_index_count || working_set->files[buffer_index].is_dummy){ result.index = buffer_index; result.file = working_set->files + buffer_index; if (buffer_index == working_set->file_index_count){ ++working_set->file_index_count; } break; } } Assert(result.file); return result; } internal void file_close(General_Memory *general, Editing_File *file){ if (file->still_lexing){ system_cancel_job(BACKGROUND_THREADS, file->lex_job); } if (file->token_stack.tokens){ general_memory_free(general, file->token_stack.tokens); } #if BUFFER_EXPERIMENT_SCALPEL <= 1 Buffer_Type *buffer = &file->buffer; if (buffer->data){ general_memory_free(general, buffer->data); general_memory_free(general, buffer->line_starts); general_memory_free(general, buffer->line_widths); } #elif BUFFER_EXPERIMENT_SCALPEL == 2 // TODO #endif if (file->undo.undo.edits){ general_memory_free(general, file->undo.undo.strings); general_memory_free(general, file->undo.undo.edits); general_memory_free(general, file->undo.redo.strings); general_memory_free(general, file->undo.redo.edits); general_memory_free(general, file->undo.history.strings); general_memory_free(general, file->undo.history.edits); general_memory_free(general, file->undo.children.strings); general_memory_free(general, file->undo.children.edits); } } inline void file_get_dummy(Editing_File *file){ *file = {}; file->is_dummy = 1; } struct Shift_Information{ i32 start, end, amount; }; #if BUFFER_EXPERIMENT_SCALPEL <= 0 internal JOB_CALLBACK(job_full_lex){ Editing_File *file = (Editing_File*)data[0]; General_Memory *general = (General_Memory*)data[1]; Cpp_File cpp_file; cpp_file.data = file->buffer.data; cpp_file.size = file->buffer.size; Cpp_Token_Stack tokens; tokens.tokens = (Cpp_Token*)memory->data; tokens.max_count = memory->size / sizeof(Cpp_Token); tokens.count = 0; Cpp_Lex_Data status; status = cpp_lex_file_nonalloc(cpp_file, &tokens); while (!status.complete){ system_grow_thread_memory(memory); tokens.tokens = (Cpp_Token*)memory->data; tokens.max_count = memory->size / sizeof(Cpp_Token); status = cpp_lex_file_nonalloc(cpp_file, &tokens, status); } i32 new_max = LargeRoundUp(tokens.count, Kbytes(1)); system_aquire_lock(FRAME_LOCK); if (file->token_stack.tokens){ file->token_stack.tokens = (Cpp_Token*) general_memory_reallocate_nocopy(general, file->token_stack.tokens, new_max*sizeof(Cpp_Token), BUBBLE_TOKENS); } else{ file->token_stack.tokens = (Cpp_Token*) general_memory_allocate(general, new_max*sizeof(Cpp_Token), BUBBLE_TOKENS); } system_release_lock(FRAME_LOCK); i32 copy_amount = Kbytes(8); i32 uncoppied = tokens.count*sizeof(Cpp_Token); if (copy_amount > uncoppied) copy_amount = uncoppied; u8 *dest = (u8*)file->token_stack.tokens; u8 *src = (u8*)tokens.tokens; while (uncoppied > 0){ system_aquire_lock(FRAME_LOCK); memcpy(dest, src, copy_amount); system_release_lock(FRAME_LOCK); dest += copy_amount; src += copy_amount; uncoppied -= copy_amount; if (copy_amount > uncoppied) copy_amount = uncoppied; } file->token_stack.count = tokens.count; file->token_stack.max_count = new_max; system_force_redraw(); // NOTE(allen): These are outside the locked section because I don't // think getting these out of order will cause critical bugs, and I // want to minimize what's done in locked sections. file->tokens_complete = 1; file->still_lexing = 0; } #endif internal void file_kill_tokens(General_Memory *general, Editing_File *file){ if (file->still_lexing){ system_cancel_job(BACKGROUND_THREADS, file->lex_job); } if (file->token_stack.tokens){ general_memory_free(general, file->token_stack.tokens); } file->tokens_exist = 0; file->tokens_complete = 0; file->token_stack = {}; } #if BUFFER_EXPERIMENT_SCALPEL <= 0 internal void file_first_lex_parallel(General_Memory *general, Editing_File *file){ Assert(file->token_stack.tokens == 0); file->tokens_complete = 0; file->tokens_exist = 1; file->still_lexing = 1; Job_Data job; job.callback = job_full_lex; job.data[0] = file; job.data[1] = general; job.memory_request = Kbytes(64); file->lex_job = system_post_job(BACKGROUND_THREADS, job); } internal void file_relex_parallel(Mem_Options *mem, Editing_File *file, i32 start_i, i32 end_i, i32 amount){ General_Memory *general = &mem->general; Partition *part = &mem->part; if (file->token_stack.tokens == 0){ file_first_lex_parallel(general, file); return; } bool32 inline_lex = !file->still_lexing; if (inline_lex){ Cpp_File cpp_file; cpp_file.data = file->buffer.data; cpp_file.size = file->buffer.size; Cpp_Token_Stack *stack = &file->token_stack; Cpp_Relex_State state = cpp_relex_nonalloc_start(cpp_file, stack, start_i, end_i, amount, 100); Temp_Memory temp = begin_temp_memory(part); i32 relex_end; Cpp_Token_Stack relex_space; relex_space.count = 0; relex_space.max_count = state.space_request; relex_space.tokens = push_array(part, Cpp_Token, relex_space.max_count); if (cpp_relex_nonalloc_main(&state, &relex_space, &relex_end)){ inline_lex = 0; } else{ i32 delete_amount = relex_end - state.start_token_i; i32 shift_amount = relex_space.count - delete_amount; if (shift_amount != 0){ int new_count = stack->count + shift_amount; if (new_count > stack->max_count){ int new_max = LargeRoundUp(new_count, Kbytes(1)); stack->tokens = (Cpp_Token*) general_memory_reallocate(general, stack->tokens, stack->count*sizeof(Cpp_Token), new_max*sizeof(Cpp_Token), BUBBLE_TOKENS); stack->max_count = new_max; } int shift_size = stack->count - relex_end; if (shift_size > 0){ Cpp_Token *old_base = stack->tokens + relex_end; memmove(old_base + shift_amount, old_base, sizeof(Cpp_Token)*shift_size); } stack->count += shift_amount; } memcpy(state.stack->tokens + state.start_token_i, relex_space.tokens, sizeof(Cpp_Token)*relex_space.count); } end_temp_memory(temp); } if (!inline_lex){ i32 end_token_i = cpp_get_end_token(&file->token_stack, end_i); cpp_shift_token_starts(&file->token_stack, end_token_i, amount); --end_token_i; if (end_token_i >= 0){ Cpp_Token *token = file->token_stack.tokens + end_token_i; if (token->start < end_i && token->start + token->size > end_i){ token->size += amount; } } file->still_lexing = 1; Job_Data job; job.callback = job_full_lex; job.data[0] = file; job.data[1] = general; job.memory_request = Kbytes(64); file->lex_job = system_post_job(BACKGROUND_THREADS, job); } } #endif internal bool32 file_grow_as_needed_(General_Memory *general, Editing_File *file, i32 new_size){ } internal void undo_stack_grow_string(General_Memory *general, Edit_Stack *stack, i32 extra_size){ i32 old_max = stack->max; u8 *old_str = stack->strings; i32 new_max = old_max*2 + extra_size; u8 *new_str = (u8*) general_memory_reallocate(general, old_str, old_max, new_max); stack->strings = new_str; stack->max = new_max; } internal void undo_stack_grow_edits(General_Memory *general, Edit_Stack *stack){ i32 old_max = stack->edit_max; Edit_Step *old_eds = stack->edits; i32 new_max = old_max*2 + 2; Edit_Step *new_eds = (Edit_Step*) general_memory_reallocate(general, old_eds, old_max*sizeof(Edit_Step), new_max*sizeof(Edit_Step)); stack->edits = new_eds; stack->edit_max = new_max; } internal void child_stack_grow_string(General_Memory *general, Small_Edit_Stack *stack, i32 extra_size){ i32 old_max = stack->max; u8 *old_str = stack->strings; i32 new_max = old_max*2 + extra_size; u8 *new_str = (u8*) general_memory_reallocate(general, old_str, old_max, new_max); stack->strings = new_str; stack->max = new_max; } internal void child_stack_grow_edits(General_Memory *general, Small_Edit_Stack *stack, i32 amount){ i32 old_max = stack->edit_max; Buffer_Edit *old_eds = stack->edits; i32 new_max = old_max*2 + amount; Buffer_Edit *new_eds = (Buffer_Edit*) general_memory_reallocate(general, old_eds, old_max*sizeof(Buffer_Edit), new_max*sizeof(Buffer_Edit)); stack->edits = new_eds; stack->edit_max = new_max; } internal i32 undo_children_push(General_Memory *general, Small_Edit_Stack *children, Buffer_Edit *edits, i32 edit_count, u8 *strings, i32 string_size){ i32 result = children->edit_count; if (children->edit_count + edit_count > children->edit_max) child_stack_grow_edits(general, children, edit_count); if (children->size + string_size > children->max) child_stack_grow_string(general, children, string_size); memcpy(children->edits + children->edit_count, edits, edit_count*sizeof(Buffer_Edit)); memcpy(children->strings + children->size, strings, string_size); Buffer_Edit *edit = children->edits + children->edit_count; i32 start_pos = children->size; for (i32 i = 0; i < edit_count; ++i, ++edit){ edit->str_start += start_pos; } children->edit_count += edit_count; children->size += string_size; return result; } struct Edit_Spec{ u8 *str; Edit_Step step; }; #if BUFFER_EXPERIMENT_SCALPEL <= 3 internal Edit_Step* file_post_undo(General_Memory *general, Editing_File *file, Edit_Step step, bool32 do_merge, bool32 can_merge){ if (step.type == ED_NORMAL){ file->undo.redo.size = 0; file->undo.redo.edit_count = 0; } Edit_Stack *undo = &file->undo.undo; Edit_Step *result = 0; if (step.child_count == 0){ if (step.edit.end - step.edit.start + undo->size > undo->max) undo_stack_grow_string(general, undo, step.edit.end - step.edit.start); Buffer_Edit inv; buffer_invert_edit(&file->buffer, step.edit, &inv, (char*)undo->strings, &undo->size, undo->max); Edit_Step inv_step = {}; inv_step.edit = inv; inv_step.pre_pos = step.pre_pos; inv_step.post_pos = step.post_pos; inv_step.can_merge = (b8)can_merge; inv_step.type = ED_UNDO; bool32 did_merge = 0; if (do_merge && undo->edit_count > 0){ Edit_Step prev = undo->edits[undo->edit_count-1]; if (prev.can_merge && inv_step.edit.len == 0 && prev.edit.len == 0){ if (prev.edit.end == inv_step.edit.start){ did_merge = 1; inv_step.edit.start = prev.edit.start; inv_step.pre_pos = prev.pre_pos; } } } if (did_merge){ result = undo->edits + (undo->edit_count-1); *result = inv_step; } else{ if (undo->edit_count == undo->edit_max) undo_stack_grow_edits(general, undo); result = undo->edits + (undo->edit_count++); *result = inv_step; } } else{ Edit_Step inv_step = {}; inv_step.type = ED_UNDO; inv_step.first_child = step.inverse_first_child; inv_step.inverse_first_child = step.first_child; inv_step.special_type = step.special_type; inv_step.child_count = step.inverse_child_count; inv_step.inverse_child_count = step.child_count; if (undo->edit_count == undo->edit_max) undo_stack_grow_edits(general, undo); result = undo->edits + (undo->edit_count++); *result = inv_step; } return result; } #endif inline void undo_stack_pop(Edit_Stack *stack){ if (stack->edit_count > 0){ Edit_Step *edit = stack->edits + (--stack->edit_count); stack->size -= edit->edit.len; } } #if BUFFER_EXPERIMENT_SCALPEL <= 3 internal void file_post_redo(General_Memory *general, Editing_File *file, Edit_Step step){ Edit_Stack *redo = &file->undo.redo; if (step.child_count == 0){ if (step.edit.end - step.edit.start + redo->size > redo->max) undo_stack_grow_string(general, redo, step.edit.end - step.edit.start); Buffer_Edit inv; buffer_invert_edit(&file->buffer, step.edit, &inv, (char*)redo->strings, &redo->size, redo->max); Edit_Step inv_step = {}; inv_step.edit = inv; inv_step.pre_pos = step.pre_pos; inv_step.post_pos = step.post_pos; inv_step.type = ED_REDO; if (redo->edit_count == redo->edit_max) undo_stack_grow_edits(general, redo); redo->edits[redo->edit_count++] = inv_step; } else{ Edit_Step inv_step = {}; inv_step.type = ED_REDO; inv_step.first_child = step.inverse_first_child; inv_step.inverse_first_child = step.first_child; inv_step.special_type = step.special_type; inv_step.child_count = step.inverse_child_count; inv_step.inverse_child_count = step.child_count; if (redo->edit_count == redo->edit_max) undo_stack_grow_edits(general, redo); redo->edits[redo->edit_count++] = inv_step; } } #endif inline void file_post_history_block(Editing_File *file, i32 pos){ Assert(file->undo.history_head_block < pos); Assert(pos < file->undo.history.edit_count); Edit_Step *history = file->undo.history.edits; Edit_Step *step = history + file->undo.history_head_block; step->next_block = pos; step = history + pos; step->prev_block = file->undo.history_head_block; file->undo.history_head_block = pos; ++file->undo.history_block_count; } inline void file_unpost_history_block(Editing_File *file){ Assert(file->undo.history_block_count > 1); --file->undo.history_block_count; Edit_Step *old_head = file->undo.history.edits + file->undo.history_head_block; file->undo.history_head_block = old_head->prev_block; } #if BUFFER_EXPERIMENT_SCALPEL <= 3 internal Edit_Step* file_post_history(General_Memory *general, Editing_File *file, Edit_Step step, b32 do_merge, b32 can_merge){ Edit_Stack *history = &file->undo.history; Edit_Step *result = 0; persist Edit_Type reverse_types[4]; if (reverse_types[ED_UNDO] == 0){ reverse_types[ED_NORMAL] = ED_REVERSE_NORMAL; reverse_types[ED_REVERSE_NORMAL] = ED_NORMAL; reverse_types[ED_UNDO] = ED_REDO; reverse_types[ED_REDO] = ED_UNDO; } if (step.child_count == 0){ if (step.edit.end - step.edit.start + history->size > history->max) undo_stack_grow_string(general, history, step.edit.end - step.edit.start); Buffer_Edit inv; buffer_invert_edit(&file->buffer, step.edit, &inv, (char*)history->strings, &history->size, history->max); Edit_Step inv_step = {}; inv_step.edit = inv; inv_step.pre_pos = step.pre_pos; inv_step.post_pos = step.post_pos; inv_step.can_merge = (b8)can_merge; inv_step.type = reverse_types[step.type]; bool32 did_merge = 0; if (do_merge && history->edit_count > 0){ Edit_Step prev = history->edits[history->edit_count-1]; if (prev.can_merge && inv_step.edit.len == 0 && prev.edit.len == 0){ if (prev.edit.end == inv_step.edit.start){ did_merge = 1; inv_step.edit.start = prev.edit.start; inv_step.pre_pos = prev.pre_pos; } } } if (did_merge){ result = history->edits + (history->edit_count-1); } else{ if (history->edit_count == history->edit_max) undo_stack_grow_edits(general, history); result = history->edits + (history->edit_count++); } *result = inv_step; } else{ Edit_Step inv_step = {}; inv_step.type = reverse_types[step.type]; inv_step.first_child = step.inverse_first_child; inv_step.inverse_first_child = step.first_child; inv_step.special_type = step.special_type; inv_step.inverse_child_count = step.child_count; inv_step.child_count = step.inverse_child_count; if (history->edit_count == history->edit_max) undo_stack_grow_edits(general, history); result = history->edits + (history->edit_count++); *result = inv_step; } return result; } #endif inline Full_Cursor view_compute_cursor_from_pos(File_View *view, i32 pos){ #if BUFFER_EXPERIMENT_SCALPEL <= 3 Editing_File *file = view->file; Style *style = view->style; Font *font = style->font; real32 max_width = view_compute_width(view); return buffer_cursor_from_pos(&file->buffer, pos, view->line_wrap_y, max_width, (real32)font->height, font->advance_data); #else return view->cursor; #endif } inline Full_Cursor view_compute_cursor_from_unwrapped_xy(File_View *view, real32 seek_x, real32 seek_y, bool32 round_down = 0){ #if BUFFER_EXPERIMENT_SCALPEL <= 3 Editing_File *file = view->file; Style *style = view->style; Font *font = style->font; real32 max_width = view_compute_width(view); return buffer_cursor_from_unwrapped_xy(&file->buffer, seek_x, seek_y, round_down, view->line_wrap_y, max_width, (real32)font->height, font->advance_data); #else return view->cursor; #endif } inline Full_Cursor view_compute_cursor_from_wrapped_xy(File_View *view, real32 seek_x, real32 seek_y, bool32 round_down = 0){ #if BUFFER_EXPERIMENT_SCALPEL <= 3 Editing_File *file = view->file; Style *style = view->style; Font *font = style->font; real32 max_width = view_compute_width(view); return buffer_cursor_from_wrapped_xy(&file->buffer, seek_x, seek_y, round_down, view->line_wrap_y, max_width, (real32)font->height, font->advance_data); #else return view->cursor; #endif } inline Full_Cursor view_compute_cursor_from_xy(File_View *view, real32 seek_x, real32 seek_y){ Full_Cursor result; if (view->unwrapped_lines) result = view_compute_cursor_from_unwrapped_xy(view, seek_x, seek_y); else result = view_compute_cursor_from_wrapped_xy(view, seek_x, seek_y); return result; } inline void view_set_temp_highlight(File_View *view, i32 pos, i32 end_pos){ view->temp_highlight = view_compute_cursor_from_pos(view, pos); view->temp_highlight_end_pos = end_pos; view->show_temp_highlight = 1; } inline i32 view_get_cursor_pos(File_View *view){ i32 result; if (view->show_temp_highlight){ result = view->temp_highlight.pos; } else{ result = view->cursor.pos; } return result; } inline real32 view_get_cursor_x(File_View *view){ real32 result; Full_Cursor *cursor; if (view->show_temp_highlight){ cursor = &view->temp_highlight; } else{ cursor = &view->cursor; } if (view->unwrapped_lines){ result = cursor->unwrapped_x; } else{ result = cursor->wrapped_x; } return result; } inline real32 view_get_cursor_y(File_View *view){ Full_Cursor *cursor; real32 result; if (view->show_temp_highlight) cursor = &view->temp_highlight; else cursor = &view->cursor; if (view->unwrapped_lines) result = cursor->unwrapped_y; else result = cursor->wrapped_y; return result; } internal void view_set_file(File_View *view, Editing_File *file, Style *style, Custom_Command_Function *open_hook, void *cmd_context, Application_Links app){ Panel *panel = view->view_base.panel; view->file = file; view->locked = file->super_locked; General_Memory *general = &view->view_base.mem->general; Font *font = style->font; view->style = style; view->font_advance = font->advance; view->font_height = font->height; view_measure_wraps(general, view); view->cursor = {}; view->cursor = view_compute_cursor_from_pos(view, file->cursor_pos); f32 cursor_x, cursor_y; f32 w, h; f32 target_x, target_y; cursor_x = view_get_cursor_x(view); cursor_y = view_get_cursor_y(view); w = (f32)(panel->inner.x1 - panel->inner.x0); h = (f32)(panel->inner.y1 - panel->inner.y0); target_x = 0; if (cursor_x < target_x){ target_x = (f32)Max(0, cursor_x - w*.5f); } else if (cursor_x >= target_x + w){ target_x = (f32)(cursor_x - w*.5f); } target_y = (f32)FLOOR32(cursor_y - h*.5f); if (target_y < 0) target_y = 0; view->target_x = target_x; view->target_y = target_y; view->scroll_x = target_x; view->scroll_y = target_y; view->vel_y = 1.f; view->vel_x = 1.f; if (open_hook) open_hook(cmd_context, app); } struct Relative_Scrolling{ real32 scroll_x, scroll_y; real32 target_x, target_y; }; internal Relative_Scrolling view_get_relative_scrolling(File_View *view){ Relative_Scrolling result; real32 cursor_x, cursor_y; cursor_x = view_get_cursor_x(view); cursor_y = view_get_cursor_y(view); result.scroll_x = cursor_x - view->scroll_x; result.scroll_y = cursor_y - view->scroll_y; result.target_x = cursor_x - view->target_x; result.target_y = cursor_y - view->target_y; return result; } internal void view_set_relative_scrolling(File_View *view, Relative_Scrolling scrolling){ real32 cursor_x, cursor_y; cursor_x = view_get_cursor_x(view); cursor_y = view_get_cursor_y(view); view->scroll_y = cursor_y - scrolling.scroll_y; view->target_y = cursor_y - scrolling.target_y; if (view->scroll_y < 0) view->scroll_y = 0; if (view->target_y < 0) view->target_y = 0; } inline void view_cursor_move(File_View *view, Full_Cursor cursor){ view->cursor = cursor; view->preferred_x = view_get_cursor_x(view); view->file->cursor_pos = view->cursor.pos; view->show_temp_highlight = 0; } inline void view_cursor_move(File_View *view, i32 pos){ view->cursor = view_compute_cursor_from_pos(view, pos); view->preferred_x = view_get_cursor_x(view); view->file->cursor_pos = view->cursor.pos; view->show_temp_highlight = 0; } inline void view_cursor_move(File_View *view, real32 x, real32 y, bool32 round_down = 0){ if (view->unwrapped_lines){ view->cursor = view_compute_cursor_from_unwrapped_xy(view, x, y, round_down); } else{ view->cursor = view_compute_cursor_from_wrapped_xy(view, x, y, round_down); } view->preferred_x = view_get_cursor_x(view); view->file->cursor_pos = view->cursor.pos; view->show_temp_highlight = 0; } inline void view_set_widget(File_View *view, File_View_Widget_Type type){ view->widget.type = type; } inline i32 view_widget_height(File_View *view, Font *font){ i32 result = 0; switch (view->widget.type){ case FWIDG_NONE: break; case FWIDG_SEARCH: result = font->height + 2; break; case FWIDG_GOTO_LINE: result = font->height + 2; break; case FWIDG_TIMELINES: result = view->widget.height; break; } return result; } inline i32_Rect view_widget_rect(File_View *view, Font *font){ Panel *panel = view->view_base.panel; i32_Rect whole = panel->inner; i32_Rect result; result.x0 = whole.x0; result.x1 = whole.x1; result.y0 = whole.y0 + font->height + 2; result.y1 = result.y0 + view_widget_height(view, font); return result; } #if FRED_SLOW inline b32 debug_edit_step_check(Edit_Step a, Edit_Step b){ Assert(a.type == b.type); Assert(a.can_merge == b.can_merge); Assert(a.pre_pos == b.pre_pos); Assert(a.post_pos == b.post_pos); Assert(a.edit.start == b.edit.start); Assert(a.edit.end == b.edit.end); Assert(a.edit.len == b.edit.len); return 1; } #endif enum History_Mode{ hist_normal, hist_backward, hist_forward }; internal void file_update_history_before_edit(Mem_Options *mem, Editing_File *file, Edit_Step step, u8 *str, History_Mode history_mode){ if (!file->undo.undo.edits) return; #if BUFFER_EXPERIMENT_SCALPEL <= 3 General_Memory *general = &mem->general; #if FRED_SLOW if (history_mode == hist_backward) debug_edit_step_check(step, file->undo.history.edits[file->undo.edit_history_cursor]); else if (history_mode == hist_forward) debug_edit_step_check(step, file->undo.history.edits[file->undo.history.edit_count]); switch (step.type){ case ED_UNDO: { Assert(file->undo.undo.edit_count > 0); debug_edit_step_check(step, file->undo.undo.edits[file->undo.undo.edit_count-1]); }break; case ED_REDO: { Assert(file->undo.redo.edit_count > 0); debug_edit_step_check(step, file->undo.redo.edits[file->undo.redo.edit_count-1]); }break; } #endif b32 can_merge = 0, do_merge = 0; switch (step.type){ case ED_NORMAL: { if (step.edit.len == 1 && str && char_is_alpha_numeric(*str)) can_merge = 1; if (step.edit.len == 1 && str && (can_merge || char_is_whitespace(*str))) do_merge = 1; if (history_mode != hist_forward) file_post_history(general, file, step, do_merge, can_merge); file_post_undo(general, file, step, do_merge, can_merge); }break; case ED_REVERSE_NORMAL: { if (history_mode != hist_forward) file_post_history(general, file, step, do_merge, can_merge); undo_stack_pop(&file->undo.undo); b32 restore_redos = 0; Edit_Step *redo_end = 0; if (history_mode == hist_backward && file->undo.edit_history_cursor > 0){ restore_redos = 1; redo_end = file->undo.history.edits + (file->undo.edit_history_cursor - 1); } else if (history_mode == hist_forward && file->undo.history.edit_count > 0){ restore_redos = 1; redo_end = file->undo.history.edits + (file->undo.history.edit_count - 1); } if (restore_redos){ Edit_Step *redo_start = redo_end; i32 steps_of_redo = 0; i32 strings_of_redo = 0; i32 undo_count = 0; while (redo_start->type == ED_REDO || redo_start->type == ED_UNDO){ if (redo_start->type == ED_REDO){ if (undo_count > 0) --undo_count; else{ ++steps_of_redo; strings_of_redo += redo_start->edit.len; } } else{ ++undo_count; } --redo_start; } if (redo_start < redo_end){ ++redo_start; ++redo_end; if (file->undo.redo.edit_count + steps_of_redo > file->undo.redo.edit_max) undo_stack_grow_edits(general, &file->undo.redo); if (file->undo.redo.size + strings_of_redo > file->undo.redo.max) undo_stack_grow_string(general, &file->undo.redo, strings_of_redo); u8 *str_src = file->undo.history.strings + redo_end->edit.str_start; u8 *str_dest_base = file->undo.redo.strings; i32 str_redo_pos = file->undo.redo.size + strings_of_redo; Edit_Step *edit_src = redo_end; Edit_Step *edit_dest = file->undo.redo.edits + file->undo.redo.edit_count + steps_of_redo; i32 undo_count = 0; for (i32 i = 0; i < steps_of_redo;){ --edit_src; str_src -= edit_src->edit.len; if (edit_src->type == ED_REDO){ if (undo_count > 0){ --undo_count; } else{ ++i; --edit_dest; *edit_dest = *edit_src; str_redo_pos -= edit_dest->edit.len; edit_dest->edit.str_start = str_redo_pos; memcpy(str_dest_base + str_redo_pos, str_src, edit_dest->edit.len); } } else{ ++undo_count; } } Assert(undo_count == 0); file->undo.redo.size += strings_of_redo; file->undo.redo.edit_count += steps_of_redo; } } }break; case ED_UNDO: { if (history_mode != hist_forward) file_post_history(general, file, step, do_merge, can_merge); file_post_redo(general, file, step); undo_stack_pop(&file->undo.undo); }break; case ED_REDO: { if (step.edit.len == 1 && str && char_is_alpha_numeric(*str)) can_merge = 1; if (step.edit.len == 1 && str && (can_merge || char_is_whitespace(*str))) do_merge = 1; if (history_mode != hist_forward) file_post_history(general, file, step, do_merge, can_merge); file_post_undo(general, file, step, do_merge, can_merge); undo_stack_pop(&file->undo.redo); }break; } if (history_mode != hist_forward){ if (step.type == ED_UNDO || step.type == ED_REDO){ if (file->undo.current_block_normal){ file_post_history_block(file, file->undo.history.edit_count - 1); file->undo.current_block_normal = 0; } } else{ if (!file->undo.current_block_normal){ file_post_history_block(file, file->undo.history.edit_count - 1); file->undo.current_block_normal = 1; } } } else{ if (file->undo.history_head_block == file->undo.history.edit_count){ file_unpost_history_block(file); file->undo.current_block_normal = !file->undo.current_block_normal; } } if (history_mode == hist_normal) file->undo.edit_history_cursor = file->undo.history.edit_count; #endif } inline b32 debug_step_match(Edit_Step a, Edit_Step b){ Assert(a.type == b.type); Assert(a.can_merge == b.can_merge); Assert(a.pre_pos == b.pre_pos); Assert(a.post_pos == b.post_pos); Assert(a.next_block == b.next_block); Assert(a.prev_block == b.prev_block); Assert(a.edit.start == b.edit.start); Assert(a.edit.end == b.edit.end); Assert(a.edit.len == b.edit.len); return 1; } inline void file_pre_edit_maintenance(Editing_File *file){ if (file->still_lexing) system_cancel_job(BACKGROUND_THREADS, file->lex_job); file->last_4ed_edit_time = system_get_now(); } internal void file_do_single_edit(Mem_Options *mem, Editing_File *file, Editing_Layout *layout, Edit_Spec spec, History_Mode history_mode){ ProfileMomentFunction(); // NOTE(allen): fixing stuff beforewards???? file_update_history_before_edit(mem, file, spec.step, spec.str, history_mode); file_pre_edit_maintenance(file); // NOTE(allen): actual text replacement #if BUFFER_EXPERIMENT_SCALPEL <= 3 i32 shift_amount = 0; General_Memory *general = &mem->general; Partition *part = &mem->part; char *str = (char*)spec.str; i32 start = spec.step.edit.start; i32 end = spec.step.edit.end; i32 str_len = spec.step.edit.len; i32 scratch_size = partition_remaining(part); Assert(scratch_size > 0); i32 request_amount = 0; while (buffer_replace_range(&file->buffer, start, end, str, str_len, &shift_amount, part->base + part->pos, scratch_size, &request_amount)){ void *new_data = 0; if (request_amount > 0){ new_data = general_memory_allocate(general, request_amount, BUBBLE_BUFFER); } void *old_data = buffer_edit_provide_memory(&file->buffer, new_data, request_amount); if (old_data) general_memory_free(general, old_data); } #if BUFFER_EXPERIMENT_SCALPEL == 3 buffer_rope_check(&file->buffer, part->base + part->pos, scratch_size); #endif #if BUFFER_EXPERIMENT_SCALPEL == 2 buffer_mugab_check(&file->buffer); #endif i32 line_start = buffer_get_line_index(&file->buffer, start); i32 line_end = buffer_get_line_index(&file->buffer, end); i32 replaced_line_count = line_end - line_start; i32 new_line_count = buffer_count_newlines(&file->buffer, start, start+str_len); i32 line_shift = new_line_count - replaced_line_count; file_remeasure_starts(general, &file->buffer, line_start, line_end, line_shift, shift_amount); file_remeasure_widths(general, &file->buffer, file->font, line_start, line_end, line_shift); i32 panel_count = layout->panel_count; Panel *current_panel = layout->panels; for (i32 i = 0; i < panel_count; ++i, ++current_panel){ File_View *current_view = view_to_file_view(current_panel->view); if (current_view && current_view->file == file){ view_measure_wraps(general, current_view); } } #endif #if BUFFER_EXPERIMENT_SCALPEL <= 0 // NOTE(allen): fixing stuff afterwards if (file->tokens_exist) file_relex_parallel(mem, file, start, end, shift_amount); #endif #if BUFFER_EXPERIMENT_SCALPEL <= 3 Temp_Memory cursor_temp = begin_temp_memory(&mem->part); i32 cursor_max = layout->panel_max_count * 2; Cursor_With_Index *cursors = push_array(&mem->part, Cursor_With_Index, cursor_max); i32 cursor_count = 0; current_panel = layout->panels; for (i32 i = 0; i < panel_count; ++i, ++current_panel){ File_View *current_view = view_to_file_view(current_panel->view); if (current_view && current_view->file == file){ view_measure_wraps(general, current_view); write_cursor_with_index(cursors, &cursor_count, current_view->cursor.pos); write_cursor_with_index(cursors, &cursor_count, current_view->mark); } } if (cursor_count > 0){ buffer_sort_cursors(cursors, cursor_count); buffer_update_cursors(cursors, cursor_count, start, end, shift_amount + (end - start)); buffer_unsort_cursors(cursors, cursor_count); } cursor_count = 0; current_panel = layout->panels; for (i32 i = 0; i < panel_count; ++i, ++current_panel){ File_View *current_view = view_to_file_view(current_panel->view); if (current_view && current_view->file == file){ view_cursor_move(current_view, cursors[cursor_count++].pos); current_view->mark = cursors[cursor_count++].pos; current_view->preferred_x = view_get_cursor_x(current_view); } } end_temp_memory(cursor_temp); #endif } internal void view_do_white_batch_edit(Mem_Options *mem, File_View *view, Editing_File *file, Editing_Layout *layout, Edit_Spec spec, History_Mode history_mode){ if (view->locked) return; #if BUFFER_EXPERIMENT_SCALPEL <= 3 Assert(file); ProfileMomentFunction(); // NOTE(allen): fixing stuff beforewards???? Assert(spec.str == 0); file_update_history_before_edit(mem, file, spec.step, 0, history_mode); file_pre_edit_maintenance(file); // NOTE(allen): actual text replacement General_Memory *general = &mem->general; Partition *part = &mem->part; u8 *str_base = file->undo.children.strings; i32 batch_size = spec.step.child_count; Buffer_Edit *batch = file->undo.children.edits + spec.step.first_child; Assert(spec.step.first_child < file->undo.children.edit_count); Assert(batch_size >= 0); i32 scratch_size = partition_remaining(part); Buffer_Batch_State state = {}; i32 request_amount; while (buffer_batch_edit_step(&state, &file->buffer, batch, (char*)str_base, batch_size, part->base + part->pos, scratch_size, &request_amount)){ void *new_data = 0; if (request_amount > 0){ new_data = general_memory_allocate(general, request_amount, BUBBLE_BUFFER); } void *old_data = buffer_edit_provide_memory(&file->buffer, new_data, request_amount); if (old_data) general_memory_free(general, old_data); } // NOTE(allen): token fixing if (file->tokens_complete){ Cpp_Token_Stack tokens = file->token_stack; Cpp_Token *token = tokens.tokens; Cpp_Token *end_token = tokens.tokens + tokens.count; Buffer_Edit *edit = batch; Buffer_Edit *end_edit = batch + batch_size; i32 shift_amount = 0; i32 local_shift = 0; for (; token < end_token && edit < end_edit; ++edit){ local_shift = (edit->len - (edit->end - edit->start)); for (; token->start < edit->start && edit->start < token->start + token->size && token < end_token; ++token){ token->size += local_shift; } for (; token->start < edit->start && token < end_token; ++token){ token->start += shift_amount; } shift_amount += local_shift; } for (; token < end_token; ++token){ token->start += shift_amount; } } // NOTE(allen): meta data { Buffer_Measure_Starts state = {}; buffer_measure_starts_widths(&state, &file->buffer, file->font->advance_data); } // NOTE(allen): cursor fixing { Temp_Memory cursor_temp = begin_temp_memory(part); i32 cursor_max = layout->panel_max_count * 2; Cursor_With_Index *cursors = push_array(part, Cursor_With_Index, cursor_max); i32 panel_count = layout->panel_count; i32 cursor_count = 0; Panel *current_panel = layout->panels; for (i32 i = 0; i < panel_count; ++i, ++current_panel){ File_View *current_view = view_to_file_view(current_panel->view); if (current_view && current_view->file == file){ view_measure_wraps(general, current_view); write_cursor_with_index(cursors, &cursor_count, current_view->cursor.pos); write_cursor_with_index(cursors, &cursor_count, current_view->mark); } } if (cursor_count > 0){ buffer_sort_cursors(cursors, cursor_count); buffer_batch_edit_update_cursors(cursors, cursor_count, batch, batch_size); buffer_unsort_cursors(cursors, cursor_count); } cursor_count = 0; current_panel = layout->panels; for (i32 i = 0; i < panel_count; ++i, ++current_panel){ File_View *current_view = view_to_file_view(current_panel->view); if (current_view && current_view->file == file){ view_cursor_move(current_view, cursors[cursor_count++].pos); current_view->mark = cursors[cursor_count++].pos; current_view->preferred_x = view_get_cursor_x(current_view); } } end_temp_memory(cursor_temp); } #endif } inline void view_replace_range(Mem_Options *mem, File_View *view, Editing_Layout *layout, i32 start, i32 end, u8 *str, i32 len, i32 next_cursor){ if (view->locked) return; Edit_Spec spec = {}; spec.step.type = ED_NORMAL; spec.step.edit.start = start; spec.step.edit.end = end; spec.step.edit.len = len; spec.step.pre_pos = view->cursor.pos; spec.step.post_pos = next_cursor; spec.str = str; file_do_single_edit(mem, view->file, layout, spec, hist_normal); } inline void view_post_paste_effect(File_View *view, i32 ticks, i32 start, i32 size, u32 color){ view->paste_effect.start = start; view->paste_effect.end = start + size; view->paste_effect.color = color; view->paste_effect.tick_down = ticks; view->paste_effect.tick_max = ticks; } internal void view_undo_redo(Mem_Options *mem, Editing_Layout *layout, File_View *view, Editing_File *file, Edit_Stack *stack, Edit_Type expected_type){ if (view->locked) return; if (file && stack->edit_count > 0){ Edit_Step step = stack->edits[stack->edit_count-1]; Assert(step.type == expected_type); Edit_Spec spec; spec.step = step; if (step.child_count == 0){ spec.step.edit.str_start = 0; spec.str = stack->strings + step.edit.str_start; file_do_single_edit(mem, file, layout, spec, hist_normal); if (expected_type == ED_UNDO) view_cursor_move(view, step.pre_pos); else view_cursor_move(view, step.post_pos); view->mark = view->cursor.pos; view_post_paste_effect(view, 10, step.edit.start, step.edit.len, view->style->main.undo_color); } else{ TentativeAssert(spec.step.special_type == 1); view_do_white_batch_edit(mem, view, file, layout, spec, hist_normal); } } } inline void view_undo(Mem_Options *mem, Editing_Layout *layout, File_View *view){ Editing_File *file = view->file; view_undo_redo(mem, layout, view, file, &file->undo.undo, ED_UNDO); } inline void view_redo(Mem_Options *mem, Editing_Layout *layout, File_View *view){ Editing_File *file = view->file; view_undo_redo(mem, layout, view, file, &file->undo.redo, ED_REDO); } inline u8* write_data(u8 *ptr, void *x, i32 size){ memcpy(ptr, x, size); return (ptr + size); } internal void file_dump_history(Mem_Options *mem, Editing_File *file, char *filename){ if (!file->undo.undo.edits) return; i32 size = 0; size += sizeof(i32); size += file->undo.undo.edit_count*sizeof(Edit_Step); size += sizeof(i32); size += file->undo.redo.edit_count*sizeof(Edit_Step); size += sizeof(i32); size += file->undo.history.edit_count*sizeof(Edit_Step); size += sizeof(i32); size += file->undo.children.edit_count*sizeof(Buffer_Edit); size += sizeof(i32); size += file->undo.undo.size; size += sizeof(i32); size += file->undo.redo.size; size += sizeof(i32); size += file->undo.history.size; size += sizeof(i32); size += file->undo.children.size; Partition *part = &mem->part; i32 remaining = partition_remaining(part); if (size < remaining){ u8 *data, *curs; data = (u8*)part->base + part->pos; curs = data; curs = write_data(curs, &file->undo.undo.edit_count, 4); curs = write_data(curs, &file->undo.redo.edit_count, 4); curs = write_data(curs, &file->undo.history.edit_count, 4); curs = write_data(curs, &file->undo.children.edit_count, 4); curs = write_data(curs, &file->undo.undo.size, 4); curs = write_data(curs, &file->undo.redo.size, 4); curs = write_data(curs, &file->undo.history.size, 4); curs = write_data(curs, &file->undo.children.size, 4); curs = write_data(curs, file->undo.undo.edits, sizeof(Edit_Step)*file->undo.undo.edit_count); curs = write_data(curs, file->undo.redo.edits, sizeof(Edit_Step)*file->undo.redo.edit_count); curs = write_data(curs, file->undo.history.edits, sizeof(Edit_Step)*file->undo.history.edit_count); curs = write_data(curs, file->undo.children.edits, sizeof(Buffer_Edit)*file->undo.children.edit_count); curs = write_data(curs, file->undo.undo.strings, file->undo.undo.size); curs = write_data(curs, file->undo.redo.strings, file->undo.redo.size); curs = write_data(curs, file->undo.history.strings, file->undo.history.size); curs = write_data(curs, file->undo.children.strings, file->undo.children.size); Assert((i32)(curs - data) == size); system_save_file((u8*)filename, data, size); } } internal void view_history_step(Mem_Options *mem, Editing_Layout *layout, File_View *view, History_Mode history_mode){ if (view->locked) return; Assert(history_mode != hist_normal); Editing_File *file = view->file; bool32 do_history_step = 0; Edit_Step step = {}; if (history_mode == hist_backward){ if (file->undo.edit_history_cursor > 0){ do_history_step = 1; step = file->undo.history.edits[--file->undo.edit_history_cursor]; } } else{ if (file->undo.edit_history_cursor < file->undo.history.edit_count){ Assert(((file->undo.history.edit_count - file->undo.edit_history_cursor) & 1) == 0); step = file->undo.history.edits[--file->undo.history.edit_count]; file->undo.history.size -= step.edit.len; ++file->undo.edit_history_cursor; do_history_step = 1; } } if (do_history_step){ Edit_Spec spec; spec.step = step; if (spec.step.child_count == 0){ spec.step.edit.str_start = 0; spec.str = file->undo.history.strings + step.edit.str_start; file_do_single_edit(mem, file, layout, spec, history_mode); switch (spec.step.type){ case ED_NORMAL: case ED_REDO: view_cursor_move(view, step.post_pos); break; case ED_REVERSE_NORMAL: case ED_UNDO: view_cursor_move(view, step.pre_pos); break; } view->mark = view->cursor.pos; } else{ TentativeAssert(spec.step.special_type == 1); view_do_white_batch_edit(mem, view, file, layout, spec, history_mode); } } } // TODO(allen): write these as streamed operations internal i32 view_find_end_of_line(File_View *view, i32 pos){ #if BUFFER_EXPERIMENT_SCALPEL <= 0 Editing_File *file = view->file; char *data = file->buffer.data; while (pos < file->buffer.size && data[pos] != '\n') ++pos; if (pos > file->buffer.size) pos = file->buffer.size; #endif return pos; } internal i32 view_find_beginning_of_line(File_View *view, i32 pos){ #if BUFFER_EXPERIMENT_SCALPEL <= 0 Editing_File *file = view->file; char *data = file->buffer.data; if (pos > 0){ --pos; while (pos > 0 && data[pos] != '\n') --pos; if (pos != 0) ++pos; } #endif return pos; } internal i32 view_find_beginning_of_next_line(File_View *view, i32 pos){ #if BUFFER_EXPERIMENT_SCALPEL <= 0 Editing_File *file = view->file; char *data = file->buffer.data; while (pos < file->buffer.size && !starts_new_line(data[pos])){ ++pos; } if (pos < file->buffer.size){ ++pos; } #endif return pos; } internal String* working_set_next_clipboard_string(General_Memory *general, Working_Set *working, i32 str_size){ String *result = 0; i32 clipboard_current = working->clipboard_current; if (working->clipboard_size == 0){ clipboard_current = 0; working->clipboard_size = 1; } else{ ++clipboard_current; if (clipboard_current >= working->clipboard_max_size){ clipboard_current = 0; } else if (working->clipboard_size <= clipboard_current){ working->clipboard_size = clipboard_current+1; } } result = &working->clipboards[clipboard_current]; working->clipboard_current = clipboard_current; working->clipboard_rolling = clipboard_current; char *new_str; if (result->str){ new_str = (char*)general_memory_reallocate(general, result->str, result->size, str_size); } else{ new_str = (char*)general_memory_allocate(general, str_size+1); } // TODO(allen): What if new_str == 0? *result = make_string(new_str, 0, str_size); return result; } internal String* working_set_clipboard_head(Working_Set *working){ String *result = 0; if (working->clipboard_size > 0){ i32 clipboard_index = working->clipboard_current; working->clipboard_rolling = clipboard_index; result = &working->clipboards[clipboard_index]; } return result; } internal String* working_set_clipboard_roll_down(Working_Set *working){ String *result = 0; if (working->clipboard_size > 0){ i32 clipboard_index = working->clipboard_rolling; --clipboard_index; if (clipboard_index < 0){ clipboard_index = working->clipboard_size-1; } working->clipboard_rolling = clipboard_index; result = &working->clipboards[clipboard_index]; } return result; } inline Editing_File* working_set_contains(Working_Set *working, String filename){ Editing_File *result = 0; i32 id; if (table_find(&working->table, filename, &id)){ if (id < working->file_max_count){ result = working->files + id; } } return result; } // TODO(allen): Find a way to choose an ordering for these so it picks better first options. internal Editing_File* working_set_lookup_file(Working_Set *working_set, String string){ Editing_File *file = working_set_contains(working_set, string); if (!file){ i32 file_i; i32 end = working_set->file_index_count; file = working_set->files; for (file_i = 0; file_i < end; ++file_i, ++file){ if (file->live_name.str && (string.size == 0 || has_substr(file->live_name, string))){ break; } } if (file_i == end) file = 0; } return file; } internal void clipboard_copy(General_Memory *general, Working_Set *working, Range range, Editing_File *file){ #if BUFFER_EXPERIMENT_SCALPEL <= 3 i32 size = range.end - range.start; String *dest = working_set_next_clipboard_string(general, working, size); buffer_stringify(&file->buffer, range.start, range.end, dest->str); dest->size = size; system_post_clipboard(*dest); #endif } internal Edit_Spec file_compute_whitespace_edit(Mem_Options *mem, Editing_File *file, i32 cursor_pos, Buffer_Edit *edits, char *str_base, i32 str_size, Buffer_Edit *inverse_array, char *inv_str, i32 inv_max, i32 edit_count){ #if BUFFER_EXPERIMENT_SCALPEL <= 3 General_Memory *general = &mem->general; i32 inv_str_pos = 0; Buffer_Invert_Batch state = {}; if (buffer_invert_batch(&state, &file->buffer, edits, edit_count, inverse_array, inv_str, &inv_str_pos, inv_max)) Assert(0); i32 first_child = undo_children_push(general, &file->undo.children, edits, edit_count, (u8*)(str_base), str_size); i32 inverse_first_child = undo_children_push(general, &file->undo.children, inverse_array, edit_count, (u8*)(inv_str), inv_str_pos); Edit_Spec spec = {}; spec.step.type = ED_NORMAL; spec.step.first_child = first_child; spec.step.inverse_first_child = inverse_first_child; spec.step.special_type = 1; spec.step.child_count = edit_count; spec.step.inverse_child_count = edit_count; spec.step.pre_pos = cursor_pos; spec.step.post_pos = cursor_pos; #else Edit_Spec spec = {}; #endif return spec; } internal void view_clean_whitespace(Mem_Options *mem, File_View *view, Editing_Layout *layout){ #if BUFFER_EXPERIMENT_SCALPEL <= 3 Editing_File *file = view->file; Assert(file && !file->is_dummy); Partition *part = &mem->part; i32 line_count = file->buffer.line_count; i32 edit_max = line_count * 2; i32 edit_count = 0; Temp_Memory temp = begin_temp_memory(part); Buffer_Edit *edits = push_array(part, Buffer_Edit, edit_max); char *str_base = (char*)part->base + part->pos; i32 str_size = 0; for (i32 line_i = 0; line_i < line_count; ++line_i){ i32 start = file->buffer.line_starts[line_i]; i32 preferred_indentation; bool32 all_whitespace = 0; bool32 all_space = 0; i32 hard_start = buffer_find_hard_start(&file->buffer, start, &all_whitespace, &all_space, &preferred_indentation, 4); if (all_whitespace) preferred_indentation = 0; if ((all_whitespace && hard_start > start) || !all_space){ Buffer_Edit new_edit; new_edit.str_start = str_size; str_size += preferred_indentation; char *str = push_array(part, char, preferred_indentation); for (i32 j = 0; j < preferred_indentation; ++j) str[j] = ' '; new_edit.len = preferred_indentation; new_edit.start = start; new_edit.end = hard_start; edits[edit_count++] = new_edit; } Assert(edit_count <= edit_max); } if (edit_count > 0){ Assert(buffer_batch_debug_sort_check(edits, edit_count)); // NOTE(allen): computing edit spec, doing batch edit Buffer_Edit *inverse_array = push_array(part, Buffer_Edit, edit_count); Assert(inverse_array); char *inv_str = (char*)part->base + part->pos; Edit_Spec spec = file_compute_whitespace_edit(mem, file, view->cursor.pos, edits, str_base, str_size, inverse_array, inv_str, part->max - part->pos, edit_count); view_do_white_batch_edit(mem, view, file, layout, spec, hist_normal); } end_temp_memory(temp); #endif } internal void view_auto_tab_tokens(Mem_Options *mem, File_View *view, Editing_Layout *layout, i32 start, i32 end, b32 empty_blank_lines){ #if BUFFER_EXPERIMENT_SCALPEL <= 0 Editing_File *file = view->file; Assert(file && !file->is_dummy); Partition *part = &mem->part; Buffer *buffer = &file->buffer; Cpp_Token_Stack tokens = file->token_stack; Assert(tokens.tokens); i32 line_start = buffer_get_line_index(buffer, start); i32 line_end = buffer_get_line_index(buffer, end) + 1; i32 edit_max = (line_end - line_start) * 2; i32 edit_count = 0; i32 indent_mark_count = line_end - line_start; Temp_Memory temp = begin_temp_memory(part); i32 *indent_marks = push_array(part, i32, indent_mark_count); { i32 current_indent = 0; i32 token_i; Cpp_Token *token, *self_token; { i32 start_pos = file->buffer.line_starts[line_start]; Cpp_Get_Token_Result result = cpp_get_token(&tokens, start_pos); token_i = result.token_index; if (result.in_whitespace) token_i += 1; self_token = tokens.tokens + token_i; } i32 line = line_start - 1; for (; line >= 0; --line){ i32 start = file->buffer.line_starts[line]; b32 all_whitespace = 0; b32 all_space = 0; buffer_find_hard_start(&file->buffer, start, &all_whitespace, &all_space, ¤t_indent, 4); if (!all_whitespace) break; } if (line < 0){ token_i = 0; token = tokens.tokens + token_i; } else{ i32 start_pos = file->buffer.line_starts[line]; Cpp_Get_Token_Result result = cpp_get_token(&tokens, start_pos); token_i = result.token_index; if (result.in_whitespace) token_i += 1; token = tokens.tokens + token_i; while (token >= tokens.tokens && token->flags & CPP_TFLAG_PP_DIRECTIVE || token->flags & CPP_TFLAG_PP_BODY){ --token; } if (token < tokens.tokens){ ++token; current_indent = 0; } else if (token->start < start_pos){ line = buffer_get_line_index(&file->buffer, token->start); i32 start = file->buffer.line_starts[line]; b32 all_whitespace = 0; b32 all_space = 0; buffer_find_hard_start(&file->buffer, start, &all_whitespace, &all_space, ¤t_indent, 4); Assert(!all_whitespace); } } indent_marks -= line_start; i32 line_i = line_start; i32 next_line_start = file->buffer.line_starts[line_i]; switch (token->type){ case CPP_TOKEN_BRACKET_OPEN: current_indent += 4; break; case CPP_TOKEN_PARENTHESE_OPEN: current_indent += 4; break; case CPP_TOKEN_BRACE_OPEN: current_indent += 4; break; } Cpp_Token *prev_token = token; ++token; for (; line_i < line_end; ++token_i, ++token){ for (; token->start >= next_line_start && line_i < line_end;){ i32 this_line_start = next_line_start; next_line_start = file->buffer.line_starts[line_i+1]; i32 this_indent; if (prev_token && prev_token->type == CPP_TOKEN_COMMENT && prev_token->start <= this_line_start && prev_token->start + prev_token->size > this_line_start){ this_indent = -1; } else{ this_indent = current_indent; if (token->start < next_line_start){ if (token->flags & CPP_TFLAG_PP_DIRECTIVE) this_indent = 0; else{ switch (token->type){ case CPP_TOKEN_BRACKET_CLOSE: this_indent -= 4; break; case CPP_TOKEN_PARENTHESE_CLOSE: this_indent -= 4; break; case CPP_TOKEN_BRACE_CLOSE: this_indent -= 4; break; case CPP_TOKEN_BRACE_OPEN: break; default: if (current_indent > 0 && prev_token){ if (!(prev_token->flags & CPP_TFLAG_PP_BODY || prev_token->flags & CPP_TFLAG_PP_DIRECTIVE)){ switch (prev_token->type){ case CPP_TOKEN_BRACKET_OPEN: case CPP_TOKEN_PARENTHESE_OPEN: case CPP_TOKEN_BRACE_OPEN: case CPP_TOKEN_BRACE_CLOSE: case CPP_TOKEN_SEMICOLON: case CPP_TOKEN_COLON: break; case CPP_TOKEN_COMMA: case CPP_TOKEN_COMMENT: break; default: this_indent += 4; } } } } } } if (this_indent < 0) this_indent = 0; } indent_marks[line_i] = this_indent; ++line_i; } switch (token->type){ case CPP_TOKEN_BRACKET_OPEN: current_indent += 4; break; case CPP_TOKEN_BRACKET_CLOSE: current_indent -= 4; break; case CPP_TOKEN_PARENTHESE_OPEN: current_indent += 4; break; case CPP_TOKEN_PARENTHESE_CLOSE: current_indent -= 4; break; case CPP_TOKEN_BRACE_OPEN: current_indent += 4; break; case CPP_TOKEN_BRACE_CLOSE: current_indent -= 4; break; } prev_token = token; } } Buffer_Edit *edits = push_array(part, Buffer_Edit, edit_max); char *str_base = (char*)part->base + part->pos; i32 str_size = 0; for (i32 line_i = line_start; line_i < line_end; ++line_i){ i32 start = file->buffer.line_starts[line_i]; i32 preferred_indentation; i32 correct_indentation; bool32 all_whitespace = 0; bool32 all_space = 0; i32 hard_start = buffer_find_hard_start(&file->buffer, start, &all_whitespace, &all_space, &preferred_indentation, 4); correct_indentation = indent_marks[line_i]; if (all_whitespace && empty_blank_lines) correct_indentation = 0; if (correct_indentation == -1) correct_indentation = preferred_indentation; if ((all_whitespace && hard_start > start) || !all_space || correct_indentation != preferred_indentation){ Buffer_Edit new_edit; new_edit.str_start = str_size; str_size += correct_indentation; char *str = push_array(part, char, correct_indentation); for (i32 j = 0; j < correct_indentation; ++j) str[j] = ' '; new_edit.len = correct_indentation; new_edit.start = start; new_edit.end = hard_start; edits[edit_count++] = new_edit; } Assert(edit_count <= edit_max); } if (edit_count > 0){ Assert(buffer_batch_debug_sort_check(edits, edit_count)); // NOTE(allen): computing edit spec, doing batch edit Buffer_Edit *inverse_array = push_array(part, Buffer_Edit, edit_count); Assert(inverse_array); char *inv_str = (char*)part->base + part->pos; Edit_Spec spec = file_compute_whitespace_edit(mem, file, view->cursor.pos, edits, str_base, str_size, inverse_array, inv_str, part->max - part->pos, edit_count); view_do_white_batch_edit(mem, view, file, layout, spec, hist_normal); } end_temp_memory(temp); #endif } struct Get_Link_Result{ b32 in_link; i32 index; }; internal Get_Link_Result get_link(Hyper_Link *links, i32 link_count, i32 pos){ Get_Link_Result result = {}; // TODO TODO TODO TODO TODO TODO TODO TODO return result; } internal u32* style_get_link_color(Style *style, Link_Type type){ u32 *result; switch (type){ case link_result: result = &style->main.result_link_color; break; case link_related: result = &style->main.related_link_color; break; case link_error: result = &style->main.error_link_color; break; case link_warning: result = &style->main.warning_link_color; break; default: result = &style->main.default_color; } return result; } internal u32* style_get_color(Style *style, Cpp_Token token){ u32 *result; if (token.flags & CPP_TFLAG_IS_KEYWORD){ if (token.type == CPP_TOKEN_BOOLEAN_CONSTANT){ result = &style->main.bool_constant_color; } else{ result = &style->main.keyword_color; } } else if(token.flags & CPP_TFLAG_PP_DIRECTIVE){ result = &style->main.preproc_color; } else{ switch (token.type){ case CPP_TOKEN_COMMENT: result = &style->main.comment_color; break; case CPP_TOKEN_STRING_CONSTANT: result = &style->main.str_constant_color; break; case CPP_TOKEN_CHARACTER_CONSTANT: result = &style->main.char_constant_color; break; case CPP_TOKEN_INTEGER_CONSTANT: result = &style->main.int_constant_color; break; case CPP_TOKEN_FLOATING_CONSTANT: result = &style->main.float_constant_color; break; case CPP_TOKEN_INCLUDE_FILE: result = &style->main.include_color; break; default: result = &style->main.default_color; } } return result; } internal bool32 smooth_camera_step(real32 *target, real32 *current, real32 *vel, real32 S, real32 T){ bool32 result = 0; real32 targ = *target; real32 curr = *current; real32 v = *vel; if (curr != targ){ if (curr > targ - .1f && curr < targ + .1f){ curr = targ; v = 1.f; } else{ real32 L = lerp(curr, T, targ); i32 sign = (targ > curr) - (targ < curr); real32 V = curr + sign*v; if (sign > 0) curr = Min(L, V); else curr = Max(L, V); if (curr == V){ v *= S; } } *target = targ; *current = curr; *vel = v; result = 1; } return result; } inline real32 view_compute_max_target_y(i32 lowest_line, i32 line_height, real32 view_height){ real32 max_target_y = ((lowest_line+.5f)*line_height) - view_height*.5f; return max_target_y; } internal real32 view_compute_max_target_y(File_View *view){ i32 lowest_line = view_compute_lowest_line(view); i32 line_height = view->style->font->height; real32 view_height = view_compute_height(view); real32 max_target_y = view_compute_max_target_y( lowest_line, line_height, view_height); return max_target_y; } internal void remeasure_file_view(View *view_, i32_Rect rect){ File_View *view = (File_View*)view_; Relative_Scrolling relative = view_get_relative_scrolling(view); view_measure_wraps(&view->view_base.mem->general, view); view_cursor_move(view, view->cursor.pos); view->preferred_x = view_get_cursor_x(view); view_set_relative_scrolling(view, relative); } internal bool32 do_button(i32 id, UI_State *state, UI_Layout *layout, char *text, i32 height_mult, bool32 is_toggle = 0, bool32 on = 0){ bool32 result = 0; Font *font = state->font; i32 character_h = font->height; i32_Rect btn_rect = layout_rect(layout, character_h * height_mult); if (height_mult > 1) btn_rect = get_inner_rect(btn_rect, 2); else{ btn_rect.x0 += 2; btn_rect.x1 -= 2; } Widget_ID wid = make_id(state, id); if (state->input_stage){ if (ui_do_button_input(state, btn_rect, wid, 0)){ result = 1; } } else{ Render_Target *target = state->target; UI_Style ui_style = get_ui_style(state->style); u32 back, fore, outline; outline = ui_style.bright; get_colors(state, &back, &fore, wid, ui_style); draw_rectangle(target, btn_rect, back); draw_rectangle_outline(target, btn_rect, outline); real32 text_width = font_string_width(font, text); i32 box_width = btn_rect.x1 - btn_rect.x0; i32 box_height = btn_rect.y1 - btn_rect.y0; i32 x_pos = TRUNC32(btn_rect.x0 + (box_width - text_width)*.5f); draw_string(target, font, text, x_pos, btn_rect.y0 + (box_height - character_h) / 2, fore); if (is_toggle){ i32_Rect on_box = get_inner_rect(btn_rect, character_h/2); on_box.x1 = on_box.x0 + (on_box.y1 - on_box.y0); if (on) draw_rectangle(target, on_box, fore); else draw_rectangle(target, on_box, back); draw_rectangle_outline(target, on_box, fore); } } return result; } internal bool32 do_undo_slider(Widget_ID wid, UI_State *state, UI_Layout *layout, i32 max, i32 v, Undo_Data *undo, i32 *out){ bool32 result = 0; Font *font = state->font; i32 character_h = font->height; i32_Rect containing_rect = layout_rect(layout, character_h); i32_Rect click_rect; click_rect.x0 = containing_rect.x0 + character_h - 1; click_rect.x1 = containing_rect.x1 - character_h + 1; click_rect.y0 = containing_rect.y0 + 2; click_rect.y1 = containing_rect.y1 - 2; if (state->input_stage){ real32 l; if (ui_do_slider_input(state, click_rect, wid, (real32)click_rect.x0, (real32)click_rect.x1, &l)){ real32 v_new = lerp(0.f, l, (real32)max); v = ROUND32(v_new); result = 1; if (out) *out = v; } } else{ if (max > 0){ Render_Target *target = state->target; UI_Style ui_style = get_ui_style_upper(state->style); real32 L = unlerp(0.f, (real32)v, (real32)max); i32 x = FLOOR32(lerp((real32)click_rect.x0, L, (real32)click_rect.x1)); i32 bar_top = ((click_rect.y0 + click_rect.y1) >> 1) - 1; i32 bar_bottom = bar_top + 2; bool32 show_bar = 1; real32 tick_step = (click_rect.x1 - click_rect.x0) / (real32)max; bool32 show_ticks = 1; if (tick_step <= 5.f) show_ticks = 0; if (undo == 0){ if (show_bar){ i32_Rect slider_rect; slider_rect.x0 = click_rect.x0; slider_rect.x1 = x; slider_rect.y0 = bar_top; slider_rect.y1 = bar_bottom; draw_rectangle(target, slider_rect, ui_style.dim); slider_rect.x0 = x; slider_rect.x1 = click_rect.x1; draw_rectangle(target, slider_rect, ui_style.pop1); } if (show_ticks){ real32_Rect tick; tick.x0 = (real32)click_rect.x0 - 1; tick.x1 = (real32)click_rect.x0 + 1; tick.y0 = (real32)bar_top - 3; tick.y1 = (real32)bar_bottom + 3; for (i32 i = 0; i < v; ++i){ draw_rectangle(target, tick, ui_style.dim); tick.x0 += tick_step; tick.x1 += tick_step; } for (i32 i = v; i <= max; ++i){ draw_rectangle(target, tick, ui_style.pop1); tick.x0 += tick_step; tick.x1 += tick_step; } } } else{ if (show_bar){ i32_Rect slider_rect; slider_rect.x0 = click_rect.x0; slider_rect.y0 = bar_top; slider_rect.y1 = bar_bottom; Edit_Step *history = undo->history.edits; i32 block_count = undo->history_block_count; Edit_Step *step = history; for (i32 i = 0; i < block_count; ++i){ u32 color; if (step->type == ED_REDO || step->type == ED_UNDO) color = ui_style.pop1; else color = ui_style.dim; real32 L; if (i + 1 == block_count){ L = 1.f; }else{ step = history + step->next_block; L = unlerp(0.f, (real32)(step - history), (real32)max); } if (L > 1.f) L = 1.f; i32 x = FLOOR32(lerp((real32)click_rect.x0, L, (real32)click_rect.x1)); slider_rect.x1 = x; draw_rectangle(target, slider_rect, color); slider_rect.x0 = slider_rect.x1; if (L == 1.f) break; } } if (show_ticks){ real32_Rect tick; tick.x0 = (real32)click_rect.x0 - 1; tick.x1 = (real32)click_rect.x0 + 1; tick.y0 = (real32)bar_top - 3; tick.y1 = (real32)bar_bottom + 3; Edit_Step *history = undo->history.edits; u32 color = ui_style.dim; for (i32 i = 0; i <= max; ++i){ if (i != max){ if (history[i].type == ED_REDO) color = ui_style.pop1; else if (history[i].type == ED_UNDO || history[i].type == ED_NORMAL) color = ui_style.pop2; else color = ui_style.dim; } draw_rectangle(target, tick, color); tick.x0 += tick_step; tick.x1 += tick_step; } } } i32_Rect slider_handle; slider_handle.x0 = x - 2; slider_handle.x1 = x + 2; slider_handle.y0 = click_rect.y0; slider_handle.y1 = click_rect.y1; draw_rectangle(target, slider_handle, ui_style.bright); } } return result; } internal i32 step_file_view(Thread_Context *thread, View *view_, i32_Rect rect, bool32 is_active, Input_Summary *user_input){ view_->mouse_cursor_type = APP_MOUSE_CURSOR_IBEAM; i32 result = 0; File_View *view = (File_View*)view_; Editing_File *file = view->file; Style *style = view->style; Font *font = style->font; f32 line_height = (f32)font->height; f32 cursor_y = view_get_cursor_y(view); f32 target_y = view->target_y; f32 max_y = view_compute_height(view) - line_height*2; i32 lowest_line = view_compute_lowest_line(view); f32 max_target_y = view_compute_max_target_y(lowest_line, font->height, max_y); f32 delta_y = 3.f*line_height; f32 extra_top = 0.f; extra_top += view_widget_height(view, font); f32 taken_top_space = line_height + extra_top; if (user_input->mouse.my < rect.y0 + taken_top_space){ view_->mouse_cursor_type = APP_MOUSE_CURSOR_ARROW; } else{ view_->mouse_cursor_type = APP_MOUSE_CURSOR_IBEAM; } if (user_input->mouse.wheel_used){ real32 wheel_multiplier = 3.f; real32 delta_target_y = delta_y*user_input->mouse.wheel_amount*wheel_multiplier; target_y += delta_target_y; if (target_y < -taken_top_space) target_y = -taken_top_space; if (target_y > max_target_y) target_y = max_target_y; real32 old_cursor_y = cursor_y; if (cursor_y >= target_y + max_y) cursor_y = target_y + max_y; if (cursor_y < target_y + taken_top_space) cursor_y = target_y + taken_top_space; if (cursor_y != old_cursor_y){ view->cursor = view_compute_cursor_from_xy(view, view->preferred_x, cursor_y); } result = 1; } if (cursor_y > target_y + max_y){ target_y = cursor_y - max_y + delta_y; } if (cursor_y < target_y + taken_top_space){ target_y = cursor_y - delta_y - taken_top_space; } if (target_y > max_target_y) target_y = max_target_y; if (target_y < -extra_top) target_y = -extra_top; view->target_y = target_y; real32 cursor_x = view_get_cursor_x(view); real32 target_x = view->target_x; real32 max_x = view_compute_width(view); if (cursor_x < target_x){ target_x = (real32)Max(0, cursor_x - max_x/2); } else if (cursor_x >= target_x + max_x){ target_x = (real32)(cursor_x - max_x/2); } view->target_x = target_x; if (smooth_camera_step(&view->target_y, &view->scroll_y, &view->vel_y, 40.f, 1.f/4.f)){ result = 1; } if (smooth_camera_step(&view->target_x, &view->scroll_x, &view->vel_x, 40.f, 1.f/4.f)){ result = 1; } if (view->paste_effect.tick_down > 0){ --view->paste_effect.tick_down; result = 1; } if (is_active && user_input->mouse.press_l){ real32 max_y = view_compute_height(view); real32 rx = (real32)(user_input->mouse.mx - rect.x0); real32 ry = (real32)(user_input->mouse.my - rect.y0 - line_height - 2); if (ry >= extra_top){ view_set_widget(view, FWIDG_NONE); if (rx >= 0 && rx < max_x && ry >= 0 && ry < max_y){ view_cursor_move(view, rx + view->scroll_x, ry + view->scroll_y, 1); view->mode = {}; } } result = 1; } if (!is_active) view_set_widget(view, FWIDG_NONE); // NOTE(allen): framely undo stuff if (file){ i32 scrub_max = view->scrub_max; i32 undo_count, redo_count, total_count; undo_count = file->undo.undo.edit_count; redo_count = file->undo.redo.edit_count; total_count = undo_count + redo_count; switch (view->widget.type){ case FWIDG_TIMELINES: { i32_Rect widg_rect = view_widget_rect(view, font); UI_State state = ui_state_init(&view->widget.state, 0, user_input, view->style, 0, 1); UI_Layout layout; begin_layout(&layout, widg_rect); if (view->widget.timeline.undo_line){ if (do_button(1, &state, &layout, "- Undo", 1)){ view->widget.timeline.undo_line = 0; } if (view->widget.timeline.undo_line){ Widget_ID wid = make_id(&state, 2); i32 new_count; if (do_undo_slider(wid, &state, &layout, total_count, undo_count, 0, &new_count)){ view->rewind_speed = 0; view->rewind_amount = 0; for (i32 i = 0; i < scrub_max && new_count < undo_count; ++i){ view_undo(view_->mem, view->layout, view); --undo_count; } for (i32 i = 0; i < scrub_max && new_count > undo_count; ++i){ view_redo(view_->mem, view->layout, view); ++undo_count; } } } } else{ if (do_button(1, &state, &layout, "+ Undo", 1)){ view->widget.timeline.undo_line = 1; } } if (view->widget.timeline.history_line){ if (do_button(3, &state, &layout, "- History", 1)){ view->widget.timeline.history_line = 0; } Widget_ID wid = make_id(&state, 4); if (view->widget.timeline.history_line){ i32 new_count; i32 mid = ((file->undo.history.edit_count + file->undo.edit_history_cursor) >> 1); i32 count = file->undo.edit_history_cursor; if (do_undo_slider(wid, &state, &layout, mid, count, &file->undo, &new_count)){ for (i32 i = 0; i < scrub_max && new_count < count; ++i){ view_history_step(view_->mem, view->layout, view, hist_backward); } for (i32 i = 0; i < scrub_max && new_count > count; ++i){ view_history_step(view_->mem, view->layout, view, hist_forward); } } } } else{ if (do_button(3, &state, &layout, "+ History", 1)){ view->widget.timeline.history_line = 1; } } view->widget.height = layout.y - widg_rect.y0; if (ui_finish_frame(&view->widget.state, &state, &layout, widg_rect, 0, 0)){ result = 1; } }break; } i32 rewind_max = view->rewind_max; view->rewind_amount += view->rewind_speed; for (i32 i = 0; view->rewind_amount <= -1.f; ++i, view->rewind_amount += 1.f){ if (i < rewind_max) view_undo(view_->mem, view->layout, view); } for (i32 i = 0; view->rewind_amount >= 1.f; ++i, view->rewind_amount -= 1.f){ if (i < rewind_max) view_redo(view_->mem, view->layout, view); } if (view->rewind_speed < 0.f && undo_count == 0){ view->rewind_speed = 0.f; view->rewind_amount = 0.f; } if (view->rewind_speed > 0.f && redo_count == 0){ view->rewind_speed = 0.f; view->rewind_amount = 0.f; } } return result; } enum File_Sync_State{ SYNC_GOOD, SYNC_BEHIND_OS, SYNC_UNSAVED }; inline File_Sync_State buffer_get_sync(Editing_File *file){ File_Sync_State result = SYNC_GOOD; if (file->last_4ed_write_time != file->last_sys_write_time) result = SYNC_BEHIND_OS; else if (file->last_4ed_edit_time > file->last_sys_write_time) result = SYNC_UNSAVED; return result; } internal i32 draw_file_view(Thread_Context *thread, View *view_, i32_Rect rect, bool32 is_active, Render_Target *target){ File_View *view = (File_View*)view_; Editing_File *file = view->file; Style *style = view->style; Font *font = style->font; Interactive_Bar bar; bar.style = style->main.file_info_style; bar.font = style->font; bar.pos_x = (real32)rect.x0; bar.pos_y = (real32)rect.y0; bar.text_shift_y = 2; bar.text_shift_x = 0; bar.rect = rect; bar.rect.y1 = bar.rect.y0 + font->height + 2; rect.y0 += font->height + 2; #if BUFFER_EXPERIMENT_SCALPEL <= 3 i32 max_x = rect.x1 - rect.x0; i32 max_y = rect.y1 - rect.y0 + font->height; Assert(file && !file->is_dummy && buffer_good(&file->buffer)); b32 tokens_use = 0; Cpp_Token_Stack token_stack = {}; if (file){ tokens_use = file->tokens_complete && (file->token_stack.count > 0); token_stack = file->token_stack; } b32 links_use = 0; Hyper_Link *links = 0; i32 link_count = 0; if (view->links){ if (view->link_count > 0){ links_use = 1; links = view->links; link_count = view->link_count; } } Partition *part = &view_->mem->part; Temp_Memory temp = begin_temp_memory(part); partition_align(part, 4); i32 max = partition_remaining(part) / sizeof(Buffer_Render_Item); Buffer_Render_Item *items = push_array(part, Buffer_Render_Item, max); i32 count; buffer_get_render_data(&file->buffer, view->line_wrap_y, items, max, &count, (real32)rect.x0, (real32)rect.y0, view->scroll_x, view->scroll_y, !view->unwrapped_lines, (real32)max_x, (real32)max_y, font->advance_data, (real32)font->height); Assert(count > 0); i32 cursor_begin, cursor_end; u32 cursor_color, at_cursor_color; if (view->show_temp_highlight){ cursor_begin = view->temp_highlight.pos; cursor_end = view->temp_highlight_end_pos; cursor_color = style->main.highlight_color; at_cursor_color = style->main.at_highlight_color; } else{ cursor_begin = view->cursor.pos; cursor_end = cursor_begin + 1; cursor_color = style->main.cursor_color; at_cursor_color = style->main.at_cursor_color; } i32 token_i = 0; i32 link_i = 0; u32 main_color = style->main.default_color; u32 link_color = 0; if (tokens_use){ Cpp_Get_Token_Result result = cpp_get_token(&token_stack, items->index); main_color = *style_get_color(style, token_stack.tokens[result.token_index]); token_i = result.token_index + 1; } if (links_use){ Get_Link_Result result = get_link(links, link_count, items->index); if (result.in_link){ link_color = *style_get_link_color(style, links[result.index].link_type); } link_i = result.index; } u32 mark_color = style->main.mark_color; Buffer_Render_Item *item = items; i32 prev_ind = -1; u32 highlight_color = 0; for (i32 i = 0; i < count; ++i, ++item){ i32 ind = item->index; if (tokens_use && ind != prev_ind){ Cpp_Token current_token = token_stack.tokens[token_i-1]; if (token_i < token_stack.count){ if (ind >= token_stack.tokens[token_i].start){ main_color = *style_get_color(style, token_stack.tokens[token_i]); current_token = token_stack.tokens[token_i]; ++token_i; } else if (ind >= current_token.start + current_token.size){ main_color = 0xFFFFFFFF; } } if (current_token.type == CPP_TOKEN_JUNK && i >= current_token.start && i <= current_token.start + current_token.size){ highlight_color = style->main.highlight_junk_color; } } u32 char_color = main_color; if (cursor_begin <= ind && ind < cursor_end && (ind != prev_ind || cursor_begin < ind)){ if (is_active) draw_rectangle(target, f32R(item->x0, item->y0, item->x1, item->y1), cursor_color); else draw_rectangle_outline(target, f32R(item->x0, item->y0, item->x1, item->y1), cursor_color); char_color = at_cursor_color; } else if (highlight_color){ draw_rectangle(target, f32R(item->x0, item->y0, item->x1, item->y1), highlight_color); } u32 fade_color = 0xFFFF00FF; f32 fade_amount = 0.f; if (view->paste_effect.tick_down > 0 && view->paste_effect.start <= i && i < view->paste_effect.end){ fade_color = view->paste_effect.color; fade_amount = (real32)(view->paste_effect.tick_down) / view->paste_effect.tick_max; } char_color = color_blend(char_color, fade_amount, fade_color); if (ind == view->mark && prev_ind != ind){ draw_rectangle_outline(target, f32R(item->x0, item->y0, item->x1, item->y1), mark_color); } if (item->glyphid != 0){ font_draw_glyph(target, font, (u16)item->glyphid, item->x0, item->y0, char_color); } prev_ind = ind; } end_temp_memory(temp); #endif if (view->widget.type != FWIDG_NONE){ UI_Style ui_style = get_ui_style_upper(style); Font *font = style->font; i32_Rect widg_rect = view_widget_rect(view, font); draw_rectangle(target, widg_rect, ui_style.dark); draw_rectangle_outline(target, widg_rect, ui_style.dim); UI_State state = ui_state_init(&view->widget.state, target, 0, view->style, 0, 0); UI_Layout layout; begin_layout(&layout, widg_rect); switch (view->widget.type){ case FWIDG_TIMELINES: { Assert(file); if (view->widget.timeline.undo_line){ do_button(1, &state, &layout, "- Undo", 1); Widget_ID wid = make_id(&state, 2); i32 undo_count, redo_count, total_count; undo_count = file->undo.undo.edit_count; redo_count = file->undo.redo.edit_count; total_count = undo_count + redo_count; do_undo_slider(wid, &state, &layout, total_count, undo_count, 0, 0); } else{ do_button(1, &state, &layout, "+ Undo", 1); } if (view->widget.timeline.history_line){ do_button(3, &state, &layout, "- History", 1); Widget_ID wid = make_id(&state, 4); i32 new_count; i32 mid = ((file->undo.history.edit_count + file->undo.edit_history_cursor) >> 1); do_undo_slider(wid, &state, &layout, mid, file->undo.edit_history_cursor, &file->undo, &new_count); } else{ do_button(3, &state, &layout, "+ History", 1); } }break; case FWIDG_SEARCH: { Widget_ID wid = make_id(&state, 1); persist String search_str = make_lit_string("I-Search: "); persist String rsearch_str = make_lit_string("Reverse-I-Search: "); if (view->isearch.reverse){ do_text_field(wid, &state, &layout, rsearch_str, view->isearch.str); } else{ do_text_field(wid, &state, &layout, search_str, view->isearch.str); } }break; case FWIDG_GOTO_LINE: { Widget_ID wid = make_id(&state, 1); persist String gotoline_str = make_lit_string("Goto Line: "); do_text_field(wid, &state, &layout, gotoline_str, view->isearch.str); }break; } ui_finish_frame(&view->widget.state, &state, &layout, widg_rect, 0, 0); } { u32 back_color = bar.style.bar_color; draw_rectangle(target, bar.rect, back_color); u32 base_color = bar.style.base_color; intbar_draw_string(target, &bar, file->live_name, base_color); intbar_draw_string(target, &bar, make_lit_string(" - "), base_color); char line_number_space[30]; String line_number = make_string(line_number_space, 0, 30); append(&line_number, "L#"); append_int_to_str(view->cursor.line, &line_number); intbar_draw_string(target, &bar, line_number, base_color); if (file){ switch (buffer_get_sync(file)){ case SYNC_BEHIND_OS: { persist String out_of_sync = make_lit_string(" BEHIND OS"); intbar_draw_string(target, &bar, out_of_sync, bar.style.pop2_color); }break; case SYNC_UNSAVED: { persist String out_of_sync = make_lit_string(" *"); intbar_draw_string(target, &bar, out_of_sync, bar.style.pop2_color); }break; } } } return 0; } internal void kill_file(General_Memory *general, Editing_File *file, Live_Views *live_set, Editing_Layout *layout){ i32 panel_count = layout->panel_count; Panel *panels = layout->panels, *panel; panel = panels; for (i32 i = 0; i < panel_count; ++i){ View *view = panel->view; if (view){ View *to_kill = view; if (view->is_minor) to_kill = view->major; File_View *fview = view_to_file_view(to_kill); if (fview && fview->file == file){ live_set_free_view(live_set, &fview->view_base); if (to_kill == view) panel->view = 0; else view->major = 0; } } ++panel; } file_close(general, file); file_get_dummy(file); } internal void command_search(Command_Data*,Command_Binding); internal void command_rsearch(Command_Data*,Command_Binding); internal HANDLE_COMMAND_SIG(handle_command_file_view){ File_View *file_view = (File_View*)(view); Editing_File *file = file_view->file; AllowLocal(file); switch (file_view->widget.type){ case FWIDG_NONE: case FWIDG_TIMELINES: { file_view->next_mode = {}; if (binding.function) binding.function(command, binding); file_view->mode = file_view->next_mode; if (key.key.keycode == codes->esc) view_set_widget(file_view, FWIDG_NONE); }break; case FWIDG_SEARCH: { #if BUFFER_EXPERIMENT_SCALPEL <= 3 String *string = &file_view->isearch.str; Single_Line_Input_Step result = app_single_line_input_step(codes, key, string); if (result.made_a_change || binding.function == command_search || binding.function == command_rsearch){ bool32 step_forward = 0; bool32 step_backward = 0; if (binding.function == command_search) step_forward = 1; if (binding.function == command_rsearch) step_backward = 1; i32 start_pos = file_view->isearch.pos; if (step_forward){ if (file_view->isearch.reverse){ start_pos = file_view->temp_highlight.pos + 1; file_view->isearch.pos = start_pos; file_view->isearch.reverse = 0; step_forward = 0; } } if (step_backward){ if (!file_view->isearch.reverse){ start_pos = file_view->temp_highlight.pos - 1; file_view->isearch.pos = start_pos; file_view->isearch.reverse = 1; step_backward = 0; } } Temp_Memory temp = begin_temp_memory(&view->mem->part); char *spare = push_array(&view->mem->part, char, string->size); i32 size = buffer_size(&file->buffer); i32 pos; if (!result.hit_backspace){ if (file_view->isearch.reverse){ pos = buffer_rfind_string(&file->buffer, start_pos - 1, string->str, string->size, spare); if (pos >= 0){ if (step_backward){ file_view->isearch.pos = pos; start_pos = pos; pos = buffer_rfind_string(&file->buffer, start_pos - 1, string->str, string->size, spare); if (pos == -1) pos = start_pos; } view_set_temp_highlight(file_view, pos, pos+string->size); } } else{ pos = buffer_find_string(&file->buffer, start_pos + 1, string->str, string->size, spare); if (pos < size){ if (step_forward){ file_view->isearch.pos = pos; start_pos = pos; pos = buffer_find_string(&file->buffer, start_pos + 1, string->str, string->size, spare); if (pos == size) pos = start_pos; } view_set_temp_highlight(file_view, pos, pos+string->size); } } } end_temp_memory(temp); } if (result.hit_newline || result.hit_ctrl_newline){ view_cursor_move(file_view, file_view->temp_highlight); view_set_widget(file_view, FWIDG_NONE); } if (result.hit_esc){ file_view->show_temp_highlight = 0; view_set_widget(file_view, FWIDG_NONE); } #endif }break; case FWIDG_GOTO_LINE: { String *string = &file_view->gotoline.str; Single_Line_Input_Step result = app_single_number_input_step(codes, key, string); if (result.hit_newline || result.hit_ctrl_newline){ i32 line_number = str_to_int(*string); Font *font = file_view->style->font; if (line_number < 1) line_number = 1; file_view->cursor = view_compute_cursor_from_unwrapped_xy(file_view, 0, (real32)(line_number-1)*font->height); file_view->preferred_x = view_get_cursor_x(file_view); view_set_widget(file_view, FWIDG_NONE); } if (result.hit_esc){ view_set_widget(file_view, FWIDG_NONE); } }break; } } inline void free_file_view(View *view){ File_View *fview = (File_View*)view; general_memory_free(&view->mem->general, fview->line_wrap_y); if (fview->links) general_memory_free(&view->mem->general, fview->links); } internal DO_VIEW_SIG(do_file_view){ i32 result = 0; switch (message){ case VMSG_RESIZE: case VMSG_STYLE_CHANGE: { remeasure_file_view(view, rect); }break; case VMSG_DRAW: { result = draw_file_view(thread, view, rect, (view == active), target); }break; case VMSG_STEP: { result = step_file_view(thread, view, rect, (view == active), user_input); }break; case VMSG_FREE: { free_file_view(view); }break; } return result; } internal File_View* file_view_init(View *view, Editing_Layout *layout){ view->type = VIEW_TYPE_FILE; view->do_view = do_file_view; view->handle_command = handle_command_file_view; File_View *result = (File_View*)view; result->layout = layout; result->rewind_max = 4; result->scrub_max = 1; return result; } // BOTTOM