extern crate gtk; use crate::gui_data::GuiData; use crate::help_functions::*; use crate::notebook_enums::*; use gtk::prelude::*; use gtk::{TreeIter, TreePath}; use std::fs; pub fn connect_button_symlink(gui_data: &GuiData) { let gui_data = gui_data.clone(); let buttons_symlink = gui_data.bottom_buttons.buttons_symlink.clone(); let notebook_main = gui_data.main_notebook.notebook_main.clone(); let tree_view_duplicate_finder = gui_data.main_notebook.tree_view_duplicate_finder.clone(); let tree_view_similar_images_finder = gui_data.main_notebook.tree_view_similar_images_finder.clone(); let tree_view_same_music_finder = gui_data.main_notebook.tree_view_same_music_finder.clone(); let image_preview_similar_images = gui_data.main_notebook.image_preview_similar_images.clone(); buttons_symlink.connect_clicked(move |_| match to_notebook_main_enum(notebook_main.current_page().unwrap()) { NotebookMainEnum::Duplicate => { symlink(tree_view_duplicate_finder.clone(), ColumnsDuplicates::Name as i32, ColumnsDuplicates::Path as i32, ColumnsDuplicates::Color as i32, &gui_data); } NotebookMainEnum::SameMusic => { symlink(tree_view_same_music_finder.clone(), ColumnsSameMusic::Name as i32, ColumnsSameMusic::Path as i32, ColumnsSameMusic::Color as i32, &gui_data); } NotebookMainEnum::SimilarImages => { symlink( tree_view_similar_images_finder.clone(), ColumnsSimilarImages::Name as i32, ColumnsSimilarImages::Path as i32, ColumnsSimilarImages::Color as i32, &gui_data, ); image_preview_similar_images.hide(); } e => panic!("Not existent {:?}", e), }); } fn symlink(tree_view: gtk::TreeView, column_file_name: i32, column_path: i32, column_color: i32, gui_data: &GuiData) { let text_view_errors = gui_data.text_view_errors.clone(); reset_text_view(&text_view_errors); let list_store = get_list_store(&tree_view); let selection = tree_view.selection(); let (selection_rows, tree_model) = selection.selected_rows(); if selection_rows.is_empty() { return; } struct SymlinkData { original_data: String, files_to_symlink: Vec, } let mut vec_tree_path_to_remove: Vec = Vec::new(); // List of symlinked files without its root let mut vec_symlink_data: Vec = Vec::new(); let current_iter: TreeIter = tree_model.iter_first().unwrap(); // Symlink button should be only visible when more than 1 element is visible, otherwise it needs to be fixed let mut current_symlink_data: Option = None; let mut current_selected_index = 0; loop { if tree_model.value(¤t_iter, column_color).get::().unwrap() == HEADER_ROW_COLOR { if let Some(current_symlink_data) = current_symlink_data { if !current_symlink_data.files_to_symlink.is_empty() { vec_symlink_data.push(current_symlink_data); } } current_symlink_data = None; if !tree_model.iter_next(¤t_iter) { panic!("HEADER, shouldn't be a last item."); } continue; } if tree_model.path(¤t_iter).unwrap() == selection_rows[current_selected_index] { let file_name = tree_model.value(¤t_iter, column_file_name).get::().unwrap(); let path = tree_model.value(¤t_iter, column_path).get::().unwrap(); let full_file_path = format!("{}/{}", path, file_name); if current_symlink_data.is_some() { vec_tree_path_to_remove.push(tree_model.path(¤t_iter).unwrap()); let mut temp_data = current_symlink_data.unwrap(); temp_data.files_to_symlink.push(full_file_path); current_symlink_data = Some(temp_data); } else { current_symlink_data = Some(SymlinkData { original_data: full_file_path, files_to_symlink: vec![], }); } if current_selected_index != selection_rows.len() - 1 { current_selected_index += 1; } else { if let Some(current_symlink_data) = current_symlink_data { if !current_symlink_data.files_to_symlink.is_empty() { vec_symlink_data.push(current_symlink_data); } } break; // There is no more selected items, so we just end checking } } if !tree_model.iter_next(¤t_iter) { if let Some(current_symlink_data) = current_symlink_data { if !current_symlink_data.files_to_symlink.is_empty() { vec_symlink_data.push(current_symlink_data); } } break; } } for symlink_data in vec_symlink_data { for file_to_symlink in symlink_data.files_to_symlink { match fs::remove_file(&file_to_symlink) { Ok(_) => (), Err(_) => { add_text_to_text_view(&text_view_errors, format!("Failed to remove file {} when creating symlink.", file_to_symlink).as_str()); continue; } }; #[cfg(target_family = "unix")] { match std::os::unix::fs::symlink(&symlink_data.original_data, &file_to_symlink) { Ok(_) => (), Err(_) => { add_text_to_text_view(&text_view_errors, format!("Failed to remove file {} when creating symlink.", file_to_symlink).as_str()); continue; } }; } // TODO Add this, because for now it not working () // #[cfg(target_family = "windows")] // { // match std::os::windows::fs::symlink(&symlink_data.original_data, &file_to_symlink) { // Ok(_) => (), // Err(_) => { // add_text_to_text_view(&text_view_errors, format!("Failed to remove file {} when creating symlink.", file_to_symlink).as_str()); // continue; // } // }; // } } println!(); } for tree_path in vec_tree_path_to_remove.iter().rev() { list_store.remove(&tree_model.iter(tree_path).unwrap()); } // Remove only child from header if let Some(first_iter) = list_store.iter_first() { let mut vec_tree_path_to_delete: Vec = Vec::new(); let mut current_iter = first_iter; if tree_model.value(¤t_iter, column_color).get::().unwrap() != HEADER_ROW_COLOR { panic!(); // First element should be header }; let mut next_iter; let mut next_next_iter; 'main: loop { if tree_model.value(¤t_iter, column_color).get::().unwrap() != HEADER_ROW_COLOR { panic!(); // First element should be header }; next_iter = current_iter.clone(); if !list_store.iter_next(&next_iter) { // There is only single header left (H1 -> END) -> (NOTHING) vec_tree_path_to_delete.push(list_store.path(¤t_iter).unwrap()); break 'main; } if tree_model.value(&next_iter, column_color).get::().unwrap() == HEADER_ROW_COLOR { // There are two headers each others(we remove just first) -> (H1 -> H2) -> (H2) vec_tree_path_to_delete.push(list_store.path(¤t_iter).unwrap()); current_iter = next_iter.clone(); continue 'main; } next_next_iter = next_iter.clone(); if !list_store.iter_next(&next_next_iter) { // There is only one child of header left, so we remove it with header (H1 -> C1 -> END) -> (NOTHING) vec_tree_path_to_delete.push(list_store.path(¤t_iter).unwrap()); vec_tree_path_to_delete.push(list_store.path(&next_iter).unwrap()); break 'main; } if tree_model.value(&next_next_iter, column_color).get::().unwrap() == HEADER_ROW_COLOR { // One child between two headers, we can remove them (H1 -> C1 -> H2) -> (H2) vec_tree_path_to_delete.push(list_store.path(¤t_iter).unwrap()); vec_tree_path_to_delete.push(list_store.path(&next_iter).unwrap()); current_iter = next_next_iter.clone(); continue 'main; } loop { // (H1 -> C1 -> C2 -> Cn -> END) -> (NO CHANGE, BECAUSE IS GOOD) if !list_store.iter_next(&next_next_iter) { break 'main; } // Move to next header if tree_model.value(&next_next_iter, column_color).get::().unwrap() == HEADER_ROW_COLOR { current_iter = next_next_iter.clone(); continue 'main; } } } for tree_path in vec_tree_path_to_delete.iter().rev() { list_store.remove(&list_store.iter(tree_path).unwrap()); } } selection.unselect_all(); }