/* * Miscellaneous helpers for common operations. */ #if !defined(FCODER_HELPER_H) #define FCODER_HELPER_H #include "4coder_seek_types.h" #include "4coder_lib/4coder_utf8.h" static void exec_command(Application_Links *app, Custom_Command_Function *func){ func(app); } static void exec_command(Application_Links *app, Generic_Command cmd){ if (cmd.cmdid < cmdid_count){ exec_command(app, cmd.cmdid); } else{ exec_command(app, cmd.command); } } static int32_t key_is_unmodified(Key_Event_Data *key){ int8_t *mods = key->modifiers; int32_t unmodified = (!mods[MDFR_CONTROL_INDEX] && !mods[MDFR_ALT_INDEX]); return(unmodified); } static uint32_t to_writable_character(User_Input in, uint8_t *character){ uint32_t result = 0; if (in.type == UserInputKey){ if (in.key.character != 0){ u32_to_utf8_unchecked(in.key.character, character, &result); } } return(result); } static uint32_t to_writable_character(Key_Event_Data key, uint8_t *character){ uint32_t result = 0; if (key.character != 0){ u32_to_utf8_unchecked(key.character, character, &result); } return(result); } static bool32 backspace_utf8(String *str){ bool32 result = false; uint8_t *s = (uint8_t*)str->str; if (str->size > 0){ uint32_t i = str->size-1; for (; i > 0; --i){ if (s[i] <= 0x7F || s[i] >= 0xC0){ break; } } str->size = i; result = true; } return(result); } static bool32 query_user_general(Application_Links *app, Query_Bar *bar, bool32 force_number){ bool32 success = true; // NOTE(allen|a3.4.4): It will not cause an *error* if we continue on after failing to. // start a query bar, but it will be unusual behavior from the point of view of the // user, if this command starts intercepting input even though no prompt is shown. // This will only happen if you have a lot of bars open already or if the current view // doesn't support query bars. if (start_query_bar(app, bar, 0) == 0) return 0; for (;;){ // NOTE(allen|a3.4.4): This call will block until the user does one of the input // types specified in the flags. The first set of flags are inputs you'd like to intercept // that you don't want to abort on. The second set are inputs that you'd like to cause // the command to abort. If an event satisfies both flags, it is treated as an abort. User_Input in = get_user_input(app, EventOnAnyKey, EventOnEsc | EventOnButton); // NOTE(allen|a3.4.4): The responsible thing to do on abort is to end the command // without waiting on get_user_input again. if (in.abort){ success = false; break; } uint8_t character[4]; uint32_t length = 0; bool32 good_character = false; if (key_is_unmodified(&in.key)){ if (force_number){ if (in.key.character >= '0' && in.key.character <= '9'){ good_character = true; length = to_writable_character(in, character); } } else{ length = to_writable_character(in, character); if (length != 0){ good_character = true; } } } // NOTE(allen|a3.4.4): All we have to do to update the query bar is edit our // local Query_Bar struct! This is handy because it means our Query_Bar // is always correct for typical use without extra work updating the bar. if (in.type == UserInputKey){ if (in.key.keycode == '\n' || in.key.keycode == '\t'){ break; } else if (in.key.keycode == key_back){ backspace_utf8(&bar->string); } else if (good_character){ append_ss(&bar->string, make_string(character, length)); } } } terminate_with_null(&bar->string); return(success); } static int32_t query_user_string(Application_Links *app, Query_Bar *bar){ int32_t success = query_user_general(app, bar, false); return(success); } static int32_t query_user_number(Application_Links *app, Query_Bar *bar){ int32_t success = query_user_general(app, bar, true); return(success); } static void init_theme_zero(Theme *theme){ for (int32_t i = 0; i < Stag_COUNT; ++i){ theme->colors[i] = 0; } } static char buffer_get_char(Application_Links *app, Buffer_Summary *buffer, int32_t pos){ char result = ' '; *buffer = get_buffer(app, buffer->buffer_id, AccessAll); if (pos < buffer->size){ buffer_read_range(app, buffer, pos, pos+1, &result); } return(result); } static Buffer_Identifier buffer_identifier(char *str, int32_t len){ Buffer_Identifier identifier; identifier.name = str; identifier.name_len = len; identifier.id = 0; return(identifier); } static Buffer_Identifier buffer_identifier(Buffer_ID id){ Buffer_Identifier identifier; identifier.name = 0; identifier.name_len = 0; identifier.id = id; return(identifier); } static Range make_range(int32_t p1, int32_t p2){ Range range; if (p1 < p2){ range.min = p1; range.max = p2; } else{ range.min = p2; range.max = p1; } return(range); } static void adjust_all_buffer_wrap_widths(Application_Links *app, int32_t wrap_width, int32_t min_base_width){ for (Buffer_Summary buffer = get_buffer_first(app, AccessAll); buffer.exists; get_buffer_next(app, &buffer, AccessAll)){ buffer_set_setting(app, &buffer, BufferSetting_WrapPosition, wrap_width); buffer_set_setting(app, &buffer, BufferSetting_MinimumBaseWrapPosition, min_base_width); } } // TODO(allen): Setup buffer seeking to do character_pos and get View_Summary out of this parameter list. static int32_t character_pos_to_pos(Application_Links *app, View_Summary *view, Buffer_Summary *buffer, int32_t character_pos){ int32_t result = 0; Full_Cursor cursor = {0}; if (view_compute_cursor(app, view, seek_character_pos(character_pos), &cursor)){ result = cursor.pos; } return(result); } struct Buffer_Rect{ int32_t char0, line0; int32_t char1, line1; }; #ifndef Swap # define Swap(T,a,b) do{ T t = a; a = b; b = t; } while(0) #endif static Buffer_Rect get_rect(View_Summary *view){ Buffer_Rect rect = {0}; rect.char0 = view->mark.character; rect.line0 = view->mark.line; rect.char1 = view->cursor.character; rect.line1 = view->cursor.line; if (rect.line0 > rect.line1){ Swap(int32_t, rect.line0, rect.line1); } if (rect.char0 > rect.char1){ Swap(int32_t, rect.char0, rect.char1); } return(rect); } static i32_Rect get_line_x_rect(View_Summary *view){ i32_Rect rect = {0}; if (view->unwrapped_lines){ rect.x0 = (int32_t)view->mark.unwrapped_x; rect.x1 = (int32_t)view->cursor.unwrapped_x; } else{ rect.x0 = (int32_t)view->mark.wrapped_x; rect.x1 = (int32_t)view->cursor.wrapped_x; } rect.y0 = view->mark.line; rect.y1 = view->cursor.line; if (rect.y0 > rect.y1){ Swap(int32_t, rect.y0, rect.y1); } if (rect.x0 > rect.x1){ Swap(int32_t, rect.x0, rect.x1); } return(rect); } static View_Summary get_first_view_with_buffer(Application_Links *app, int32_t buffer_id){ View_Summary result = {0}; View_Summary test = {0}; if (buffer_id != 0){ uint32_t access = AccessAll; for(test = get_view_first(app, access); test.exists; get_view_next(app, &test, access)){ Buffer_Summary buffer = get_buffer(app, test.buffer_id, access); if(buffer.buffer_id == buffer_id){ result = test; break; } } } return(result); } static bool32 open_file(Application_Links *app, Buffer_Summary *buffer_out, char *filename, int32_t filename_len, bool32 background, bool32 never_new){ bool32 result = false; Buffer_Summary buffer = get_buffer_by_name(app, filename, filename_len, AccessProtected|AccessHidden); if (buffer.exists){ if (buffer_out){ *buffer_out = buffer; } result = true; } else{ Buffer_Create_Flag flags = 0; if (background){ flags |= BufferCreate_Background; } if (never_new){ flags |= BufferCreate_NeverNew; } buffer = create_buffer(app, filename, filename_len, flags); if (buffer.exists){ if (buffer_out){ *buffer_out = buffer; } result = true; } } return(result); } static Buffer_ID buffer_identifier_to_id(Application_Links *app, Buffer_Identifier identifier){ Buffer_ID id = 0; if (identifier.id != 0){ id = identifier.id; } else{ Buffer_Summary buffer = get_buffer_by_name(app, identifier.name, identifier.name_len, AccessAll); id = buffer.buffer_id; if (id == 0){ buffer = get_buffer_by_file_name(app, identifier.name, identifier.name_len, AccessAll); id = buffer.buffer_id; } } return(id); } static bool32 view_open_file(Application_Links *app, View_Summary *view, char *filename, int32_t filename_len, bool32 never_new){ bool32 result = false; if (view != 0){ Buffer_Summary buffer = {0}; if (open_file(app, &buffer, filename, filename_len, false, never_new)){ view_set_buffer(app, view, buffer.buffer_id, 0); result = true; } } return(result); } static void get_view_prev(Application_Links *app, View_Summary *view, uint32_t access){ if (view->exists){ View_ID original_id = view->view_id; View_ID check_id = original_id; View_Summary new_view = {0}; for (;;){ --check_id; if (check_id <= 0){ check_id = 16; } if (check_id == original_id){ new_view = *view; break; } new_view = get_view(app, check_id, access); if (new_view.exists){ break; } } *view = new_view; } } static View_Summary get_view_last(Application_Links *app, uint32_t access){ View_Summary view = {0}; view.exists = true; get_view_prev(app, &view, access); if (view.view_id < 1 || view.view_id > 16){ view = null_view_summary; } return(view); } static void get_view_next_looped(Application_Links *app, View_Summary *view, uint32_t access){ get_view_next(app, view, access); if (!view->exists){ *view = get_view_first(app, access); } } static void get_view_prev_looped(Application_Links *app, View_Summary *view, uint32_t access){ get_view_prev(app, view, access); if (!view->exists){ *view = get_view_last(app, access); } } static void refresh_buffer(Application_Links *app, Buffer_Summary *buffer){ *buffer = get_buffer(app, buffer->buffer_id, AccessAll); } static void refresh_view(Application_Links *app, View_Summary *view){ *view = get_view(app, view->view_id, AccessAll); } static float get_view_y(View_Summary *view){ float y = view->cursor.wrapped_y; if (view->unwrapped_lines){ y = view->cursor.unwrapped_y; } return(y); } static float get_view_x(View_Summary *view){ float x = view->cursor.wrapped_x; if (view->unwrapped_lines){ x = view->cursor.unwrapped_x; } return(x); } static Range get_range(View_Summary *view){ Range range = make_range(view->cursor.pos, view->mark.pos); return(range); } #if !defined(ArrayCount) # define ArrayCount(a) (sizeof(a)/sizeof(a[0])) #endif #endif