/* 4coder_default_hooks.cpp - Sets up the hooks for the default framework. */ // TOP #include "languages/4coder_language_cpp.h" #include "languages/4coder_language_rust.h" #include "languages/4coder_language_cs.h" #include "languages/4coder_language_java.h" CUSTOM_COMMAND_SIG(set_bindings_choose); CUSTOM_COMMAND_SIG(set_bindings_default); CUSTOM_COMMAND_SIG(set_bindings_mac_default); static Named_Mapping named_maps_values[] = { {make_lit_string("mac-default") , set_bindings_mac_default }, {make_lit_string("choose") , set_bindings_choose }, {make_lit_string("default") , set_bindings_default }, }; START_HOOK_SIG(default_start){ named_maps = named_maps_values; named_map_count = ArrayCount(named_maps_values); default_4coder_initialize(app); default_4coder_side_by_side_panels(app, files, file_count); if (global_config.automatically_load_project){ load_project(app); } // no meaning for return return(0); } // NOTE(allen|a4.0.9): All command calls can now go through this hook // If this hook is not implemented a default behavior of calling the // command is used. It is important to note that paste_next does not // work without this hook. // NOTE(allen|a4.0.10): As of this version the word_complete command // also relies on this particular command caller hook. COMMAND_CALLER_HOOK(default_command_caller){ View_Summary view = get_active_view(app, AccessAll); Managed_Scope scope = view_get_managed_scope(app, view.view_id); managed_variable_set(app, scope, view_next_rewrite_loc, 0); exec_command(app, cmd); uint64_t next_rewrite = 0; managed_variable_get(app, scope, view_next_rewrite_loc, &next_rewrite); managed_variable_set(app, scope, view_rewrite_loc, next_rewrite); return(0); } RENDER_CALLER_SIG(default_render_caller){ View_Summary view = get_view(app, view_id, AccessAll); Buffer_Summary buffer = get_buffer(app, view.buffer_id, AccessAll); Managed_Scope render_scope = create_user_managed_scope(app); // NOTE(allen): Line highlight setup if (highlight_line_at_cursor){ Theme_Color color = {0}; color.tag = Stag_Highlight_Cursor_Line; get_theme_colors(app, &color, 1); uint32_t line_color = color.color; Managed_Object o = alloc_buffer_markers_on_buffer(app, buffer.buffer_id, 1, &render_scope); buffer_markers_set_visuals(app, o, BufferMarkersType_LineHighlights, line_color, 0, 0); Marker marker = {0}; marker.pos = view.cursor.pos; managed_object_store_data(app, o, 0, 1, &marker); } // NOTE(allen): Token highlight setup bool32 do_token_highlight = false; if (do_token_highlight){ Theme_Color color = {0}; color.tag = Stag_Cursor; get_theme_colors(app, &color, 1); uint32_t token_color = (0x50 << 24) | (color.color&0xFFFFFF); uint32_t token_flags = BoundaryToken|BoundaryWhitespace; int32_t pos0 = view.cursor.pos; int32_t pos1 = buffer_boundary_seek(app, &buffer, pos0, DirLeft , token_flags); int32_t pos2 = buffer_boundary_seek(app, &buffer, pos1, DirRight, token_flags); Managed_Object token_highlight = alloc_buffer_markers_on_buffer(app, buffer.buffer_id, 2, &render_scope); buffer_markers_set_visuals(app, token_highlight, BufferMarkersType_CharacterHighlightRanges, token_color, 0, 0); Marker range_markers[2] = {0}; range_markers[0].pos = pos1; range_markers[1].pos = pos2; managed_object_store_data(app, token_highlight, 0, 2, range_markers); } // NOTE(allen): Matching enclosure highlight setup bool32 do_matching_enclosure_highlight = true; static uint32_t enclosure_colors[4] = { 0x70A00000, 0x7000A000, 0x700000A0, 0x70A0A000, }; int32_t color_count = ArrayCount(enclosure_colors); if (do_matching_enclosure_highlight){ Partition *scratch = &global_part; Temp_Memory temp = begin_temp_memory(scratch); Range *ranges = push_array(scratch, Range, 0); int32_t p = view.cursor.pos; for (;;){ Range range = {0}; if (find_scope_range(app, &buffer, p, &range)){ p = range.first; Range *r = push_array(scratch, Range, 1); *r = range; } else{ break; } } int32_t count = (int32_t)(push_array(scratch, Range, 0) - ranges); int32_t bucket_count = count/color_count; int32_t left_over_count = count%color_count; for (int32_t i = 0; i < color_count; i += 1){ int32_t sub_count = bucket_count + (i < left_over_count?1:0); if (sub_count > 0){ int32_t marker_count = sub_count*2; Temp_Memory marker_temp = begin_temp_memory(scratch); Marker *markers = push_array(scratch, Marker, marker_count); memset(markers, 0, sizeof(*markers)*marker_count); Range *range_ptr = ranges + i; for (int32_t j = 0; j < marker_count; j += 2, range_ptr += 4){ markers[j + 0].pos = range_ptr->first; markers[j + 1].pos = range_ptr->one_past_last - 1; } Managed_Object m = alloc_buffer_markers_on_buffer(app, buffer.buffer_id, marker_count, &render_scope); buffer_markers_set_visuals(app, m, BufferMarkersType_CharacterBlocks, enclosure_colors[i], 0, 0); managed_object_store_data(app, m, 0, marker_count, markers); end_temp_memory(marker_temp); } } end_temp_memory(temp); } do_core_render(app); destroy_user_managed_scope(app, render_scope); } HOOK_SIG(default_exit){ // If this returns zero it cancels the exit. if (allow_immediate_close_without_checking_for_changes){ return(1); } bool32 has_unsaved_changes = false; for (Buffer_Summary buffer = get_buffer_first(app, AccessAll); buffer.exists; get_buffer_next(app, &buffer, AccessAll)){ if (buffer.dirty == DirtyState_UnsavedChanges){ has_unsaved_changes = true; break; } } if (has_unsaved_changes){ View_Summary view = get_active_view(app, AccessAll); do_gui_sure_to_close_4coder(app, &view); return(0); } return(1); } HOOK_SIG(default_view_adjust){ int32_t count = 0; int32_t new_wrap_width = 0; for (View_Summary view = get_view_first(app, AccessAll); view.exists; get_view_next(app, &view, AccessAll)){ new_wrap_width += view.view_region.x1 - view.view_region.x0; ++count; } new_wrap_width /= count; new_wrap_width = (int32_t)(new_wrap_width * .9f); int32_t new_min_base_width = (int32_t)(new_wrap_width * .77f); if (global_config.automatically_adjust_wrapping){ adjust_all_buffer_wrap_widths(app, new_wrap_width, new_min_base_width); global_config.default_wrap_width = new_wrap_width; global_config.default_min_base_width = new_min_base_width; } // no meaning for return return(0); } BUFFER_NAME_RESOLVER_SIG(default_buffer_name_resolution){ if (conflict_count > 1){ // List of unresolved conflicts Partition *part = &global_part; Temp_Memory temp = begin_temp_memory(part); int32_t *unresolved = push_array(part, int32_t, conflict_count); if (unresolved == 0) return; int32_t unresolved_count = conflict_count; for (int32_t i = 0; i < conflict_count; ++i){ unresolved[i] = i; } // Resolution Loop int32_t x = 0; for (;;){ // Resolution Pass ++x; for (int32_t i = 0; i < unresolved_count; ++i){ int32_t conflict_index = unresolved[i]; Buffer_Name_Conflict_Entry *conflict = &conflicts[conflict_index]; int32_t len = conflict->base_name_len; if (len < 0){ len = 0; } if (len > conflict->unique_name_capacity){ len = conflict->unique_name_capacity; } conflict->unique_name_len_in_out = len; memcpy(conflict->unique_name_in_out, conflict->base_name, len); if (conflict->file_name != 0){ String s_file_name = make_string(conflict->file_name, conflict->file_name_len); s_file_name = path_of_directory(s_file_name); s_file_name.size -= 1; char *end = s_file_name.str + s_file_name.size; for (int32_t j = 0; j < x; ++j){ s_file_name = path_of_directory(s_file_name); if (j + 1 < x){ s_file_name.size -= 1; } if (s_file_name.size <= 0){ s_file_name.size = 0; break; } } char *start = s_file_name.str + s_file_name.size; String uniqueifier = make_string(start, (int32_t)(end - start)); String builder = make_string_cap(conflict->unique_name_in_out, conflict->unique_name_len_in_out, conflict->unique_name_capacity); append(&builder, " <"); append(&builder, uniqueifier); append(&builder, ">"); conflict->unique_name_len_in_out = builder.size; } } // Conflict Check Pass bool32 has_conflicts = false; for (int32_t i = 0; i < unresolved_count; ++i){ int32_t conflict_index = unresolved[i]; Buffer_Name_Conflict_Entry *conflict = &conflicts[conflict_index]; String conflict_name = make_string(conflict->unique_name_in_out, conflict->unique_name_len_in_out); bool32 hit_conflict = false; if (conflict->file_name != 0){ for (int32_t j = 0; j < unresolved_count; ++j){ if (i == j) continue; int32_t conflict_j_index = unresolved[j]; Buffer_Name_Conflict_Entry *conflict_j = &conflicts[conflict_j_index]; if (match(conflict_name, make_string(conflict_j->unique_name_in_out, conflict_j->unique_name_len_in_out))){ hit_conflict = true; break; } } } if (hit_conflict){ has_conflicts = true; } else{ --unresolved_count; unresolved[i] = unresolved[unresolved_count]; --i; } } if (!has_conflicts){ break; } } end_temp_memory(temp); } } OPEN_FILE_HOOK_SIG(default_file_settings){ // NOTE(allen|a4.0.8): The get_parameter_buffer was eliminated // and instead the buffer is passed as an explicit parameter through // the function call. That is where buffer_id comes from here. Buffer_Summary buffer = get_buffer(app, buffer_id, AccessAll); Assert(buffer.exists); bool32 treat_as_code = false; bool32 treat_as_todo = false; bool32 lex_without_strings = false; CString_Array extensions = get_code_extensions(&global_config.code_exts); Parse_Context_ID parse_context_id = 0; if (buffer.file_name != 0 && buffer.size < (16 << 20)){ String name = make_string(buffer.file_name, buffer.file_name_len); String ext = file_extension(name); for (int32_t i = 0; i < extensions.count; ++i){ if (match(ext, extensions.strings[i])){ treat_as_code = true; if (match(ext, "cs")){ if (parse_context_language_cs == 0){ init_language_cs(app); } parse_context_id = parse_context_language_cs; } if (match(ext, "java")){ if (parse_context_language_java == 0){ init_language_java(app); } parse_context_id = parse_context_language_java; } if (match(ext, "rs")){ if (parse_context_language_rust == 0){ init_language_rust(app); } parse_context_id = parse_context_language_rust; lex_without_strings = true; } if (match(ext, "cpp") || match(ext, "h") || match(ext, "c") || match(ext, "hpp") || match(ext, "cc")){ if (parse_context_language_cpp == 0){ init_language_cpp(app); } parse_context_id = parse_context_language_cpp; } // TODO(NAME): Real GLSL highlighting if (match(ext, "glsl")){ if (parse_context_language_cpp == 0){ init_language_cpp(app); } parse_context_id = parse_context_language_cpp; } // TODO(NAME): Real Objective-C highlighting if (match(ext, "m")){ if (parse_context_language_cpp == 0){ init_language_cpp(app); } parse_context_id = parse_context_language_cpp; } break; } } if (!treat_as_code){ treat_as_todo = match_insensitive(front_of_directory(name), "todo.txt"); } } int32_t map_id = (treat_as_code)?((int32_t)default_code_map):((int32_t)mapid_file); int32_t map_id_query = 0; buffer_set_setting(app, &buffer, BufferSetting_MapID, default_lister_ui_map); buffer_get_setting(app, &buffer, BufferSetting_MapID, &map_id_query); Assert(map_id_query == default_lister_ui_map); buffer_set_setting(app, &buffer, BufferSetting_WrapPosition, global_config.default_wrap_width); buffer_set_setting(app, &buffer, BufferSetting_MinimumBaseWrapPosition, global_config.default_min_base_width); buffer_set_setting(app, &buffer, BufferSetting_MapID, map_id); buffer_get_setting(app, &buffer, BufferSetting_MapID, &map_id_query); Assert(map_id_query == map_id); buffer_set_setting(app, &buffer, BufferSetting_ParserContext, parse_context_id); // NOTE(allen): Decide buffer settings bool32 wrap_lines = true; bool32 use_virtual_whitespace = false; bool32 use_lexer = false; if (treat_as_todo){ lex_without_strings = true; wrap_lines = true; use_virtual_whitespace = true; use_lexer = true; } else if (treat_as_code){ wrap_lines = global_config.enable_code_wrapping; use_virtual_whitespace = global_config.enable_virtual_whitespace; use_lexer = true; } if (match(make_string(buffer.buffer_name, buffer.buffer_name_len), "*compilation*")){ wrap_lines = false; } //if (buffer.size >= (192 << 10)){ if (buffer.size >= (128 << 10)){ wrap_lines = false; use_virtual_whitespace = false; } // NOTE(allen|a4.0.12): There is a little bit of grossness going on here. // If we set BufferSetting_Lex to true, it will launch a lexing job. // If a lexing job is active when we set BufferSetting_VirtualWhitespace, the call can fail. // Unfortunantely without tokens virtual whitespace doesn't really make sense. // So for now I have it automatically turning on lexing when virtual whitespace is turned on. // Cleaning some of that up is a goal for future versions. if (lex_without_strings){ buffer_set_setting(app, &buffer, BufferSetting_LexWithoutStrings, true); } if (wrap_lines){ buffer_set_setting(app, &buffer, BufferSetting_WrapLine, true); } if (use_virtual_whitespace){ buffer_set_setting(app, &buffer, BufferSetting_VirtualWhitespace, true); } if (use_lexer){ buffer_set_setting(app, &buffer, BufferSetting_Lex, true); } // no meaning for return return(0); } OPEN_FILE_HOOK_SIG(default_new_file){ Buffer_Summary buffer = get_buffer(app, buffer_id, AccessOpen); char str[] = "/*\nNew File\n*/\n\n\n"; buffer_replace_range(app, &buffer, 0, 0, str, sizeof(str)-1); // no meaning for return return(0); } OPEN_FILE_HOOK_SIG(default_file_save){ Buffer_Summary buffer = get_buffer(app, buffer_id, AccessAll); Assert(buffer.exists); int32_t is_virtual = 0; if (global_config.automatically_indent_text_on_save && buffer_get_setting(app, &buffer, BufferSetting_VirtualWhitespace, &is_virtual)){ if (is_virtual){ buffer_auto_indent(app, &global_part, &buffer, 0, buffer.size, DEF_TAB_WIDTH, DEFAULT_INDENT_FLAGS | AutoIndent_FullTokens); } } // no meaning for return return(0); } OPEN_FILE_HOOK_SIG(default_end_file){ Buffer_Summary buffer = get_buffer(app, buffer_id, AccessAll); Assert(buffer.exists); char space[1024]; String str = make_fixed_width_string(space); append(&str, "Ending file: "); append(&str, make_string(buffer.buffer_name, buffer.buffer_name_len)); append(&str, "\n"); print_message(app, str.str, str.size); // no meaning for return return(0); } // NOTE(allen|a4.0.9): The input filter allows you to modify the input // to a frame before 4coder starts processing it at all. // // Right now it only has access to the mouse state, but it will be // extended to have access to the key presses soon. INPUT_FILTER_SIG(default_suppress_mouse_filter){ if (suppressing_mouse){ *mouse = null_mouse_state; mouse->x = -100; mouse->y = -100; } } // NOTE(allen|a4): scroll rule information // // The parameters: // target_x, target_y // This is where the view would like to be for the purpose of // following the cursor, doing mouse wheel work, etc. // // scroll_x, scroll_y // These are pointers to where the scrolling actually is. If you bind // the scroll rule it is you have to update these in some way to move // the actual location of the scrolling. // // view_id // This corresponds to which view is computing it's new scrolling position. // This id DOES correspond to the views that View_Summary contains. // This will always be between 1 and 16 (0 is a null id). // See below for an example of having state that carries across scroll udpates. // // is_new_target // If the target of the view is different from the last target in either x or y // this is true, otherwise it is false. // // The return: // Should be true if and only if scroll_x or scroll_y are changed. // // Don't try to use the app pointer in a scroll rule, you're asking for trouble. // // If you don't bind scroll_rule, nothing bad will happen, yo will get default // 4coder scrolling behavior. // struct Scroll_Velocity{ float x, y; }; Scroll_Velocity scroll_velocity_[16] = {0}; Scroll_Velocity *scroll_velocity = scroll_velocity_ - 1; static int32_t smooth_camera_step(float target, float *current, float *vel, float S, float T){ int32_t result = 0; float curr = *current; float v = *vel; if (curr != target){ if (curr > target - .1f && curr < target + .1f){ curr = target; v = 1.f; } else{ float L = curr + T*(target - curr); int32_t sign = (target > curr) - (target < curr); float V = curr + sign*v; if (sign > 0) curr = (LV)?(L):(V); if (curr == V){ v *= S; } } *current = curr; *vel = v; result = 1; } return(result); } SCROLL_RULE_SIG(smooth_scroll_rule){ Scroll_Velocity *velocity = scroll_velocity + view_id; int32_t result = 0; if (velocity->x == 0.f){ velocity->x = 1.f; velocity->y = 1.f; } if (smooth_camera_step(target_y, scroll_y, &velocity->y, 80.f, 1.f/2.f)){ result = 1; } if (smooth_camera_step(target_x, scroll_x, &velocity->x, 80.f, 1.f/2.f)){ result = 1; } return(result); } static void set_all_default_hooks(Bind_Helper *context){ set_hook(context, hook_exit, default_exit); set_hook(context, hook_view_size_change, default_view_adjust); set_start_hook(context, default_start); set_open_file_hook(context, default_file_settings); set_new_file_hook(context, default_new_file); set_save_file_hook(context, default_file_save); set_end_file_hook(context, end_file_close_jump_list); set_command_caller(context, default_command_caller); set_render_caller(context, default_render_caller); set_input_filter(context, default_suppress_mouse_filter); set_scroll_rule(context, smooth_scroll_rule); set_buffer_name_resolver(context, default_buffer_name_resolution); } // BOTTOM