/* * Bind helper struct and functions */ struct Bind_Helper{ Binding_Unit *cursor, *start, *end; Binding_Unit *header, *group; int write_total; int error; }; #define BH_ERR_NONE 0 #define BH_ERR_MISSING_END 1 #define BH_ERR_MISSING_BEGIN 2 #define BH_ERR_OUT_OF_MEMORY 3 inline void copy(char *dest, const char *src, int len){ for (int i = 0; i < len; ++i){ *dest++ = *src++; } } inline Binding_Unit* write_unit(Bind_Helper *helper, Binding_Unit unit){ Binding_Unit *p = 0; helper->write_total += sizeof(*p); if (helper->error == 0 && helper->cursor != helper->end){ p = helper->cursor++; *p = unit; } return p; } inline char* write_inline_string(Bind_Helper *helper, char *value, int len){ char *dest = 0; helper->write_total += len; if (helper->error == 0){ dest = (char*)helper->cursor; int cursor_advance = len + sizeof(*helper->cursor) - 1; cursor_advance /= sizeof(*helper->cursor); cursor_advance *= sizeof(*helper->cursor); helper->cursor += cursor_advance; if (helper->cursor < helper->end){ copy(dest, value, len); } else{ helper->error = BH_ERR_OUT_OF_MEMORY; } } return dest; } inline Bind_Helper begin_bind_helper(void *data, int size){ Bind_Helper result; result.header = 0; result.group = 0; result.write_total = 0; result.error = 0; result.cursor = (Binding_Unit*)data; result.start = result.cursor; result.end = result.start + size / sizeof(*result.cursor); Binding_Unit unit; unit.type = unit_header; unit.header.total_size = sizeof(*result.header); result.header = write_unit(&result, unit); result.header->header.user_map_count = 0; return result; } inline void begin_map(Bind_Helper *helper, int mapid){ if (helper->group != 0 && helper->error == 0) helper->error = BH_ERR_MISSING_END; if (!helper->error && mapid < mapid_global) ++helper->header->header.user_map_count; Binding_Unit unit; unit.type = unit_map_begin; unit.map_begin.mapid = mapid; helper->group = write_unit(helper, unit); helper->group->map_begin.bind_count = 0; } inline void end_map(Bind_Helper *helper){ if (helper->group == 0 && helper->error == 0) helper->error = BH_ERR_MISSING_BEGIN; helper->group = 0; } inline void bind(Bind_Helper *helper, short code, unsigned char modifiers, int cmdid){ if (helper->group == 0 && helper->error == 0) helper->error = BH_ERR_MISSING_BEGIN; if (!helper->error) ++helper->group->map_begin.bind_count; Binding_Unit unit; unit.type = unit_binding; unit.binding.command_id = cmdid; unit.binding.code = code; unit.binding.modifiers = modifiers; write_unit(helper, unit); } inline void bind(Bind_Helper *helper, short code, unsigned char modifiers, Custom_Command_Function *func){ if (helper->group == 0 && helper->error == 0) helper->error = BH_ERR_MISSING_BEGIN; if (!helper->error) ++helper->group->map_begin.bind_count; Binding_Unit unit; unit.type = unit_callback; unit.callback.func = func; unit.callback.code = code; unit.callback.modifiers = modifiers; write_unit(helper, unit); } inline void bind_vanilla_keys(Bind_Helper *helper, int cmdid){ bind(helper, 0, 0, cmdid); } inline void bind_vanilla_keys(Bind_Helper *helper, Custom_Command_Function *func){ bind(helper, 0, 0, func); } inline void bind_vanilla_keys(Bind_Helper *helper, unsigned char modifiers, int cmdid){ bind(helper, 0, modifiers, cmdid); } inline void bind_vanilla_keys(Bind_Helper *helper, unsigned char modifiers, Custom_Command_Function *func){ bind(helper, 0, modifiers, func); } inline void inherit_map(Bind_Helper *helper, int mapid){ if (helper->group == 0 && helper->error == 0) helper->error = BH_ERR_MISSING_BEGIN; if (!helper->error && mapid < mapid_global) ++helper->header->header.user_map_count; Binding_Unit unit; unit.type = unit_inherit; unit.map_inherit.mapid = mapid; write_unit(helper, unit); } inline void set_hook(Bind_Helper *helper, int hook_id, Hook_Function *func){ Binding_Unit unit; unit.type = unit_hook; unit.hook.hook_id = hook_id; unit.hook.func = (void*) func; write_unit(helper, unit); } inline void set_scroll_rule(Bind_Helper *helper, Scroll_Rule_Function *func){ Binding_Unit unit; unit.type = unit_hook; unit.hook.hook_id = _hook_scroll_rule; unit.hook.func = (void*) func; write_unit(helper, unit); } inline void end_bind_helper(Bind_Helper *helper){ if (helper->header){ helper->header->header.total_size = (int)(helper->cursor - helper->start); helper->header->header.error = helper->error; } } // NOTE(allen): Useful functions and overloads on app links inline void push_parameter(Application_Links *app, int param, int value){ app->push_parameter(app, dynamic_int(param), dynamic_int(value)); } inline void push_parameter(Application_Links *app, int param, const char *value, int value_len){ char *value_copy = app->push_memory(app, value_len+1); copy(value_copy, value, value_len); value_copy[value_len] = 0; app->push_parameter(app, dynamic_int(param), dynamic_string(value_copy, value_len)); } inline void push_parameter(Application_Links *app, const char *param, int param_len, int value){ char *param_copy = app->push_memory(app, param_len+1); copy(param_copy, param, param_len); param_copy[param_len] = 0; app->push_parameter(app, dynamic_string(param_copy, param_len), dynamic_int(value)); } inline void push_parameter(Application_Links *app, const char *param, int param_len, const char *value, int value_len){ char *param_copy = app->push_memory(app, param_len+1); char *value_copy = app->push_memory(app, value_len+1); copy(param_copy, param, param_len); copy(value_copy, value, value_len); value_copy[value_len] = 0; param_copy[param_len] = 0; app->push_parameter(app, dynamic_string(param_copy, param_len), dynamic_string(value_copy, value_len)); } inline Range get_range(View_Summary *view){ Range range; range = make_range(view->cursor.pos, view->mark.pos); return(range); } inline void exec_command(Application_Links *app, Command_ID id){ app->exec_command_keep_stack(app, id); app->clear_parameters(app); } inline void exec_command(Application_Links *app, Custom_Command_Function *func){ func(app); app->clear_parameters(app); } inline void active_view_to_line(Application_Links *app, int line_number){ View_Summary view; view = app->get_active_view(app); // NOTE(allen|a3.4.4): We don't have to worry about whether this is a valid line number. // When it's not possible to place a cursor at the position for whatever reason it will set the // cursor to a nearby valid position. app->view_set_cursor(app, &view, seek_line_char(line_number, 0), 1); } inline View_Summary get_first_view_with_buffer(Application_Links *app, int buffer_id){ View_Summary result = {}; View_Summary test = {}; for(test = app->get_view_first(app); test.exists; app->get_view_next(app, &test)){ if(test.locked_buffer_id == buffer_id){ result = test; break; } } return(result); } inline int key_is_unmodified(Key_Event_Data *key){ char *mods = key->modifiers; int unmodified = !mods[MDFR_CONTROL_INDEX] && !mods[MDFR_ALT_INDEX]; return(unmodified); } static int query_user_general(Application_Links *app, Query_Bar *bar, int force_number){ User_Input in; int success = 1; int good_character = 0; // 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 (app->start_query_bar(app, bar, 0) == 0) return 0; while (1){ // 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. in = app->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 = 0; break; } good_character = 0; if (key_is_unmodified(&in.key)){ if (force_number){ if (in.key.character >= '0' && in.key.character <= '9'){ good_character = 1; } } else{ if (in.key.character != 0){ good_character = 1; } } } // 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){ --bar->string.size; } else if (good_character){ append(&bar->string, in.key.character); } } } return(success); } inline int query_user_string(Application_Links *app, Query_Bar *bar){ int success = query_user_general(app, bar, 0); return(success); } inline int query_user_number(Application_Links *app, Query_Bar *bar){ int success = query_user_general(app, bar, 1); return(success); } inline String empty_string() {String Result = {}; return(Result);}