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Simplify some GUI code (#96)

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Rafał Mikrut 2020-11-04 18:15:06 +01:00 committed by GitHub
parent 1fb66b32f0
commit 5d4f4db8c1
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GPG key ID: 4AEE18F83AFDEB23
17 changed files with 488 additions and 600 deletions
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8
czkawka_core/src/big_file.rs
View file

@ -73,9 +73,9 @@ impl BigFile {
}
}
pub fn find_big_files(&mut self, rx: Option<&Receiver<()>>) {
pub fn find_big_files(&mut self, stop_receiver: Option<&Receiver<()>>) {
self.optimize_directories();
if !self.look_for_big_files(rx) {
if !self.look_for_big_files(stop_receiver) {
self.stopped_search = true;
return;
}
@ -111,7 +111,7 @@ impl BigFile {
self.allowed_extensions.set_allowed_extensions(allowed_extensions, &mut self.text_messages);
}
fn look_for_big_files(&mut self, rx: Option<&Receiver<()>>) -> bool {
fn look_for_big_files(&mut self, stop_receiver: Option<&Receiver<()>>) -> bool {
let start_time: SystemTime = SystemTime::now();
let mut folders_to_check: Vec<PathBuf> = Vec::with_capacity(1024 * 2); // This should be small enough too not see to big difference and big enough to store most of paths without needing to resize vector
@ -122,7 +122,7 @@ impl BigFile {
self.information.number_of_checked_folders += folders_to_check.len();
while !folders_to_check.is_empty() {
if rx.is_some() && rx.unwrap().try_recv().is_ok() {
if stop_receiver.is_some() && stop_receiver.unwrap().try_recv().is_ok() {
return false;
}
let current_folder = folders_to_check.pop().unwrap();

24
czkawka_core/src/duplicate.rs
View file

@ -114,28 +114,28 @@ impl DuplicateFinder {
}
}
pub fn find_duplicates(&mut self, rx: Option<&Receiver<()>>) {
pub fn find_duplicates(&mut self, stop_receiver: Option<&Receiver<()>>) {
self.directories.optimize_directories(self.recursive_search, &mut self.text_messages);
match self.check_method {
CheckingMethod::Name => {
if !self.check_files_name(rx) {
if !self.check_files_name(stop_receiver) {
self.stopped_search = true;
return;
}
}
CheckingMethod::Size => {
if !self.check_files_size(rx) {
if !self.check_files_size(stop_receiver) {
self.stopped_search = true;
return;
}
}
CheckingMethod::HashMB | CheckingMethod::Hash => {
if !self.check_files_size(rx) {
if !self.check_files_size(stop_receiver) {
self.stopped_search = true;
return;
}
if !self.check_files_hash(rx) {
if !self.check_files_hash(stop_receiver) {
self.stopped_search = true;
return;
}
@ -210,7 +210,7 @@ impl DuplicateFinder {
self.excluded_items.set_excluded_items(excluded_items, &mut self.text_messages);
}
fn check_files_name(&mut self, rx: Option<&Receiver<()>>) -> bool {
fn check_files_name(&mut self, stop_receiver: Option<&Receiver<()>>) -> bool {
// TODO maybe add multithreading checking files
let start_time: SystemTime = SystemTime::now();
let mut folders_to_check: Vec<PathBuf> = Vec::with_capacity(1024 * 2); // This should be small enough too not see to big difference and big enough to store most of paths without needing to resize vector
@ -222,7 +222,7 @@ impl DuplicateFinder {
self.information.number_of_checked_folders += folders_to_check.len();
while !folders_to_check.is_empty() {
if rx.is_some() && rx.unwrap().try_recv().is_ok() {
if stop_receiver.is_some() && stop_receiver.unwrap().try_recv().is_ok() {
return false;
}
let current_folder = folders_to_check.pop().unwrap();
@ -348,7 +348,7 @@ impl DuplicateFinder {
/// Read file length and puts it to different boxes(each for different lengths)
/// If in box is only 1 result, then it is removed
fn check_files_size(&mut self, rx: Option<&Receiver<()>>) -> bool {
fn check_files_size(&mut self, stop_receiver: Option<&Receiver<()>>) -> bool {
// TODO maybe add multithreading checking files
let start_time: SystemTime = SystemTime::now();
let mut folders_to_check: Vec<PathBuf> = Vec::with_capacity(1024 * 2); // This should be small enough too not see to big difference and big enough to store most of paths without needing to resize vector
@ -360,7 +360,7 @@ impl DuplicateFinder {
self.information.number_of_checked_folders += folders_to_check.len();
while !folders_to_check.is_empty() {
if rx.is_some() && rx.unwrap().try_recv().is_ok() {
if stop_receiver.is_some() && stop_receiver.unwrap().try_recv().is_ok() {
return false;
}
let current_folder = folders_to_check.pop().unwrap();
@ -486,7 +486,7 @@ impl DuplicateFinder {
}
/// The slowest checking type, which must be applied after checking for size
fn check_files_hash(&mut self, rx: Option<&Receiver<()>>) -> bool {
fn check_files_hash(&mut self, stop_receiver: Option<&Receiver<()>>) -> bool {
if self.hash_type != HashType::Blake3 {
panic!(); // TODO Add more hash types
}
@ -501,7 +501,7 @@ impl DuplicateFinder {
hashmap_with_hash = Default::default();
for file_entry in vector {
if rx.is_some() && rx.unwrap().try_recv().is_ok() {
if stop_receiver.is_some() && stop_receiver.unwrap().try_recv().is_ok() {
return false;
}
file_handler = match File::open(&file_entry.path) {
@ -547,7 +547,7 @@ impl DuplicateFinder {
hashmap_with_hash = Default::default();
for file_entry in vector {
if rx.is_some() && rx.unwrap().try_recv().is_ok() {
if stop_receiver.is_some() && stop_receiver.unwrap().try_recv().is_ok() {
return false;
}
file_handler = match File::open(&file_entry.path) {

8
czkawka_core/src/empty_files.rs
View file

@ -70,9 +70,9 @@ impl EmptyFiles {
}
/// Finding empty files, save results to internal struct variables
pub fn find_empty_files(&mut self, rx: Option<&Receiver<()>>) {
pub fn find_empty_files(&mut self, stop_receiver: Option<&Receiver<()>>) {
self.directories.optimize_directories(self.recursive_search, &mut self.text_messages);
if !self.check_files(rx) {
if !self.check_files(stop_receiver) {
self.stopped_search = true;
return;
}
@ -120,7 +120,7 @@ impl EmptyFiles {
}
/// Check files for any with size == 0
fn check_files(&mut self, rx: Option<&Receiver<()>>) -> bool {
fn check_files(&mut self, stop_receiver: Option<&Receiver<()>>) -> bool {
let start_time: SystemTime = SystemTime::now();
let mut folders_to_check: Vec<PathBuf> = Vec::with_capacity(1024 * 2); // This should be small enough too not see to big difference and big enough to store most of paths without needing to resize vector
@ -131,7 +131,7 @@ impl EmptyFiles {
self.information.number_of_checked_folders += folders_to_check.len();
while !folders_to_check.is_empty() {
if rx.is_some() && rx.unwrap().try_recv().is_ok() {
if stop_receiver.is_some() && stop_receiver.unwrap().try_recv().is_ok() {
return false;
}
let current_folder = folders_to_check.pop().unwrap();

8
czkawka_core/src/empty_folder.rs
View file

@ -88,9 +88,9 @@ impl EmptyFolder {
self.directories.set_excluded_directory(excluded_directory, &mut self.text_messages);
}
/// Public function used by CLI to search for empty folders
pub fn find_empty_folders(&mut self, rx: Option<&Receiver<()>>) {
pub fn find_empty_folders(&mut self, stop_receiver: Option<&Receiver<()>>) {
self.directories.optimize_directories(true, &mut self.text_messages);
if !self.check_for_empty_folders(rx) {
if !self.check_for_empty_folders(stop_receiver) {
self.stopped_search = true;
return;
}
@ -128,7 +128,7 @@ impl EmptyFolder {
/// Function to check if folder are empty.
/// Parameter initial_checking for second check before deleting to be sure that checked folder is still empty
fn check_for_empty_folders(&mut self, rx: Option<&Receiver<()>>) -> bool {
fn check_for_empty_folders(&mut self, stop_receiver: Option<&Receiver<()>>) -> bool {
let start_time: SystemTime = SystemTime::now();
let mut folders_to_check: Vec<PathBuf> = Vec::with_capacity(1024 * 2); // This should be small enough too not see to big difference and big enough to store most of paths without needing to resize vector
let mut folders_checked: BTreeMap<PathBuf, FolderEntry> = Default::default();
@ -147,7 +147,7 @@ impl EmptyFolder {
}
while !folders_to_check.is_empty() {
if rx.is_some() && rx.unwrap().try_recv().is_ok() {
if stop_receiver.is_some() && stop_receiver.unwrap().try_recv().is_ok() {
return false;
}
self.information.number_of_checked_folders += 1;

22
czkawka_core/src/same_music.rs
View file

@ -101,13 +101,13 @@ impl SameMusic {
}
}
pub fn find_same_music(&mut self, rx: Option<&Receiver<()>>) {
pub fn find_same_music(&mut self, stop_receiver: Option<&Receiver<()>>) {
self.directories.optimize_directories(self.recursive_search, &mut self.text_messages);
if !self.check_files(rx) {
if !self.check_files(stop_receiver) {
self.stopped_search = true;
return;
}
if !self.check_for_duplicates(rx) {
if !self.check_for_duplicates(stop_receiver) {
self.stopped_search = true;
return;
}
@ -159,7 +159,7 @@ impl SameMusic {
}
/// Check files for any with size == 0
fn check_files(&mut self, rx: Option<&Receiver<()>>) -> bool {
fn check_files(&mut self, stop_receiver: Option<&Receiver<()>>) -> bool {
let start_time: SystemTime = SystemTime::now();
let mut folders_to_check: Vec<PathBuf> = Vec::with_capacity(1024 * 2); // This should be small enough too not see to big difference and big enough to store most of paths without needing to resize vector
@ -170,7 +170,7 @@ impl SameMusic {
self.information.number_of_checked_folders += folders_to_check.len();
while !folders_to_check.is_empty() {
if rx.is_some() && rx.unwrap().try_recv().is_ok() {
if stop_receiver.is_some() && stop_receiver.unwrap().try_recv().is_ok() {
return false;
}
let current_folder = folders_to_check.pop().unwrap();
@ -289,7 +289,7 @@ impl SameMusic {
true
}
fn check_for_duplicates(&mut self, rx: Option<&Receiver<()>>) -> bool {
fn check_for_duplicates(&mut self, stop_receiver: Option<&Receiver<()>>) -> bool {
if MusicSimilarity::NONE == self.music_similarity {
panic!("This can't be none");
}
@ -300,7 +300,7 @@ impl SameMusic {
if (self.music_similarity & MusicSimilarity::TITLE) == MusicSimilarity::TITLE {
for vec_file_entry in old_duplicates {
if rx.is_some() && rx.unwrap().try_recv().is_ok() {
if stop_receiver.is_some() && stop_receiver.unwrap().try_recv().is_ok() {
return false;
}
let mut hash_map: HashMap<String, Vec<FileEntry>> = Default::default();
@ -323,7 +323,7 @@ impl SameMusic {
if (self.music_similarity & MusicSimilarity::ARTIST) == MusicSimilarity::ARTIST {
for vec_file_entry in old_duplicates {
if rx.is_some() && rx.unwrap().try_recv().is_ok() {
if stop_receiver.is_some() && stop_receiver.unwrap().try_recv().is_ok() {
return false;
}
let mut hash_map: HashMap<String, Vec<FileEntry>> = Default::default();
@ -346,7 +346,7 @@ impl SameMusic {
if (self.music_similarity & MusicSimilarity::ALBUM_TITLE) == MusicSimilarity::ALBUM_TITLE {
for vec_file_entry in old_duplicates {
if rx.is_some() && rx.unwrap().try_recv().is_ok() {
if stop_receiver.is_some() && stop_receiver.unwrap().try_recv().is_ok() {
return false;
}
let mut hash_map: HashMap<String, Vec<FileEntry>> = Default::default();
@ -369,7 +369,7 @@ impl SameMusic {
if (self.music_similarity & MusicSimilarity::ALBUM_ARTIST) == MusicSimilarity::ALBUM_ARTIST {
for vec_file_entry in old_duplicates {
if rx.is_some() && rx.unwrap().try_recv().is_ok() {
if stop_receiver.is_some() && stop_receiver.unwrap().try_recv().is_ok() {
return false;
}
let mut hash_map: HashMap<String, Vec<FileEntry>> = Default::default();
@ -392,7 +392,7 @@ impl SameMusic {
if (self.music_similarity & MusicSimilarity::YEAR) == MusicSimilarity::YEAR {
for vec_file_entry in old_duplicates {
if rx.is_some() && rx.unwrap().try_recv().is_ok() {
if stop_receiver.is_some() && stop_receiver.unwrap().try_recv().is_ok() {
return false;
}
let mut hash_map: HashMap<i32, Vec<FileEntry>> = Default::default();

10
czkawka_core/src/similar_files.rs
View file

@ -129,9 +129,9 @@ impl SimilarImages {
}
/// Public function used by CLI to search for empty folders
pub fn find_similar_images(&mut self, rx: Option<&Receiver<()>>) {
pub fn find_similar_images(&mut self, stop_receiver: Option<&Receiver<()>>) {
self.directories.optimize_directories(true, &mut self.text_messages);
if !self.check_for_similar_images(rx) {
if !self.check_for_similar_images(stop_receiver) {
self.stopped_search = true;
return;
}
@ -147,7 +147,7 @@ impl SimilarImages {
/// Function to check if folder are empty.
/// Parameter initial_checking for second check before deleting to be sure that checked folder is still empty
fn check_for_similar_images(&mut self, rx: Option<&Receiver<()>>) -> bool {
fn check_for_similar_images(&mut self, stop_receiver: Option<&Receiver<()>>) -> bool {
let start_time: SystemTime = SystemTime::now();
let mut folders_to_check: Vec<PathBuf> = Vec::with_capacity(1024 * 2); // This should be small enough too not see to big difference and big enough to store most of paths without needing to resize vector
@ -158,7 +158,7 @@ impl SimilarImages {
self.information.number_of_checked_folders += folders_to_check.len();
while !folders_to_check.is_empty() {
if rx.is_some() && rx.unwrap().try_recv().is_ok() {
if stop_receiver.is_some() && stop_receiver.unwrap().try_recv().is_ok() {
return false;
}
let current_folder = folders_to_check.pop().unwrap();
@ -280,7 +280,7 @@ impl SimilarImages {
let mut new_vector: Vec<StructSimilar> = Vec::new();
for (hash, vec_file_entry) in &self.image_hashes {
if rx.is_some() && rx.unwrap().try_recv().is_ok() {
if stop_receiver.is_some() && stop_receiver.unwrap().try_recv().is_ok() {
return false;
}
let vector_with_found_similar_hashes = self.bktree.find(hash, 3).collect::<Vec<_>>();

8
czkawka_core/src/temporary.rs
View file

@ -67,9 +67,9 @@ impl Temporary {
}
/// Finding temporary files, save results to internal struct variables
pub fn find_temporary_files(&mut self, rx: Option<&Receiver<()>>) {
pub fn find_temporary_files(&mut self, stop_receiver: Option<&Receiver<()>>) {
self.directories.optimize_directories(self.recursive_search, &mut self.text_messages);
if !self.check_files(rx) {
if !self.check_files(stop_receiver) {
self.stopped_search = true;
return;
}
@ -111,7 +111,7 @@ impl Temporary {
self.excluded_items.set_excluded_items(excluded_items, &mut self.text_messages);
}
fn check_files(&mut self, rx: Option<&Receiver<()>>) -> bool {
fn check_files(&mut self, stop_receiver: Option<&Receiver<()>>) -> bool {
let start_time: SystemTime = SystemTime::now();
let mut folders_to_check: Vec<PathBuf> = Vec::with_capacity(1024 * 2); // This should be small enough too not see to big difference and big enough to store most of paths without needing to resize vector
@ -122,7 +122,7 @@ impl Temporary {
self.information.number_of_checked_folders += folders_to_check.len();
while !folders_to_check.is_empty() {
if rx.is_some() && rx.unwrap().try_recv().is_ok() {
if stop_receiver.is_some() && stop_receiver.unwrap().try_recv().is_ok() {
return false;
}

8
czkawka_core/src/zeroed.rs
View file

@ -72,9 +72,9 @@ impl ZeroedFiles {
}
}
pub fn find_zeroed_files(&mut self, rx: Option<&Receiver<()>>) {
pub fn find_zeroed_files(&mut self, stop_receiver: Option<&Receiver<()>>) {
self.directories.optimize_directories(self.recursive_search, &mut self.text_messages);
if !self.check_files(rx) {
if !self.check_files(stop_receiver) {
self.stopped_search = true;
return;
}
@ -129,7 +129,7 @@ impl ZeroedFiles {
}
/// Check files for files which have 0
fn check_files(&mut self, rx: Option<&Receiver<()>>) -> bool {
fn check_files(&mut self, stop_receiver: Option<&Receiver<()>>) -> bool {
let start_time: SystemTime = SystemTime::now();
let mut folders_to_check: Vec<PathBuf> = Vec::with_capacity(1024 * 2); // This should be small enough too not see to big difference and big enough to store most of paths without needing to resize vector
@ -140,7 +140,7 @@ impl ZeroedFiles {
self.information.number_of_checked_folders += folders_to_check.len();
while !folders_to_check.is_empty() {
if rx.is_some() && rx.unwrap().try_recv().is_ok() {
if stop_receiver.is_some() && stop_receiver.unwrap().try_recv().is_ok() {
return false;
}
let current_folder = folders_to_check.pop().unwrap();

719
czkawka_gui/src/connect_button_delete.rs
View file

@ -2,14 +2,15 @@ extern crate gtk;
use crate::gui_data::GuiData;
use crate::help_functions::*;
use gtk::prelude::*;
use std::collections::BTreeMap;
use std::fs;
use std::fs::Metadata;
pub fn connect_button_delete(gui_data: &GuiData) {
let gui_data = gui_data.clone();
let buttons_delete = gui_data.buttons_delete.clone();
let shared_confirmation_dialog_delete_dialog_showing_state = gui_data.shared_confirmation_dialog_delete_dialog_showing_state.clone();
let scrolled_window_duplicate_finder = gui_data.scrolled_window_duplicate_finder.clone();
let text_view_errors = gui_data.text_view_errors.clone();
let notebook_main_children_names = gui_data.notebook_main_children_names.clone();
let notebook_main = gui_data.notebook_main.clone();
let window_main = gui_data.window_main.clone();
@ -55,380 +56,372 @@ pub fn connect_button_delete(gui_data: &GuiData) {
match notebook_main_children_names.get(notebook_main.get_current_page().unwrap() as usize).unwrap().as_str() {
"notebook_main_duplicate_finder_label" => {
let tree_view = scrolled_window_duplicate_finder.get_children().get(0).unwrap().clone().downcast::<gtk::TreeView>().unwrap();
let selection = tree_view.get_selection();
let (selection_rows, tree_model) = selection.get_selected_rows();
if selection_rows.is_empty() {
return;
}
let list_store = tree_model.clone().downcast::<gtk::ListStore>().unwrap();
// let new_tree_model = TreeModel::new(); // TODO - maybe create new model when inserting a new data, because this seems to be not optimal when using thousands of rows
let mut messages: String = "".to_string();
// Must be deleted from end to start, because when deleting entries, TreePath(and also TreeIter) will points to invalid data
for tree_path in selection_rows.iter().rev() {
let name = tree_model.get_value(&tree_model.get_iter(tree_path).unwrap(), ColumnsDuplicates::Name as i32).get::<String>().unwrap().unwrap();
let path = tree_model.get_value(&tree_model.get_iter(tree_path).unwrap(), ColumnsDuplicates::Path as i32).get::<String>().unwrap().unwrap();
match fs::remove_file(format!("{}/{}", path, name)) {
Ok(_) => {
list_store.remove(&list_store.get_iter(tree_path).unwrap());
}
Err(_) => messages += format!("Failed to remove file {}/{} because file doesn't exists or you don't have permissions.\n", path, name).as_str(),
}
}
text_view_errors.get_buffer().unwrap().set_text(messages.as_str());
selection.unselect_all();
tree_remove(
scrolled_window_duplicate_finder.clone(),
ColumnsDuplicates::Name as i32,
ColumnsDuplicates::Path as i32,
ColumnsDuplicates::Color as i32,
&gui_data,
false,
false,
);
}
"scrolled_window_main_empty_folder_finder" => {
let tree_view = scrolled_window_main_empty_folder_finder.get_children().get(0).unwrap().clone().downcast::<gtk::TreeView>().unwrap();
let selection = tree_view.get_selection();
empty_folder_remover(scrolled_window_main_empty_folder_finder.clone(), ColumnsEmptyFolders::Name as i32, ColumnsEmptyFolders::Path as i32, &gui_data);
}
"scrolled_window_main_empty_files_finder" => {
basic_remove(scrolled_window_main_empty_files_finder.clone(), ColumnsEmptyFiles::Name as i32, ColumnsEmptyFiles::Path as i32, &gui_data);
}
"scrolled_window_main_temporary_files_finder" => {
basic_remove(scrolled_window_main_temporary_files_finder.clone(), ColumnsTemporaryFiles::Name as i32, ColumnsTemporaryFiles::Path as i32, &gui_data);
}
"notebook_big_main_file_finder" => {
basic_remove(scrolled_window_big_files_finder.clone(), ColumnsBigFiles::Name as i32, ColumnsBigFiles::Path as i32, &gui_data);
}
"notebook_main_similar_images_finder_label" => {
tree_remove(
scrolled_window_similar_images_finder.clone(),
ColumnsSimilarImages::Name as i32,
ColumnsSimilarImages::Path as i32,
ColumnsSimilarImages::Color as i32,
&gui_data,
true,
true,
);
}
"notebook_main_zeroed_files_finder" => {
basic_remove(scrolled_window_zeroed_files_finder.clone(), ColumnsZeroedFiles::Name as i32, ColumnsZeroedFiles::Path as i32, &gui_data);
}
"notebook_main_same_music_finder" => {
tree_remove(
scrolled_window_same_music_finder.clone(),
ColumnsSameMusic::Name as i32,
ColumnsSameMusic::Path as i32,
ColumnsSameMusic::Color as i32,
&gui_data,
false,
false,
);
}
e => panic!("Not existent {}", e),
}
});
}
let (selection_rows, tree_model) = selection.get_selected_rows();
if selection_rows.is_empty() {
return;
fn empty_folder_remover(scrolled_window: gtk::ScrolledWindow, column_file_name: i32, column_path: i32, gui_data: &GuiData) {
let text_view_errors = gui_data.text_view_errors.clone();
let tree_view = scrolled_window.get_children().get(0).unwrap().clone().downcast::<gtk::TreeView>().unwrap();
let selection = tree_view.get_selection();
let (selection_rows, tree_model) = selection.get_selected_rows();
if selection_rows.is_empty() {
return;
}
let list_store = tree_model.clone().downcast::<gtk::ListStore>().unwrap();
// let new_tree_model = TreeModel::new(); // TODO - maybe create new model when inserting a new data, because this seems to be not optimal when using thousands of rows
let mut messages: String = "".to_string();
// Must be deleted from end to start, because when deleting entries, TreePath(and also TreeIter) will points to invalid data
for tree_path in selection_rows.iter().rev() {
let name = tree_model.get_value(&tree_model.get_iter(tree_path).unwrap(), column_file_name).get::<String>().unwrap().unwrap();
let path = tree_model.get_value(&tree_model.get_iter(tree_path).unwrap(), column_path).get::<String>().unwrap().unwrap();
// We must check if folder is really empty or contains only other empty folders
let mut error_happened = false;
let mut folders_to_check: Vec<String> = vec![format!("{}/{}", path, name)];
let mut current_folder: String;
let mut next_folder: String;
'dir: while !folders_to_check.is_empty() {
current_folder = folders_to_check.pop().unwrap();
let read_dir = match fs::read_dir(&current_folder) {
Ok(t) => t,
Err(_) => {
error_happened = true;
break 'dir;
}
let list_store = tree_model.clone().downcast::<gtk::ListStore>().unwrap();
};
// let new_tree_model = TreeModel::new(); // TODO - maybe create new model when inserting a new data, because this seems to be not optimal when using thousands of rows
let mut messages: String = "".to_string();
// Must be deleted from end to start, because when deleting entries, TreePath(and also TreeIter) will points to invalid data
for tree_path in selection_rows.iter().rev() {
let name = tree_model.get_value(&tree_model.get_iter(tree_path).unwrap(), ColumnsEmptyFolders::Name as i32).get::<String>().unwrap().unwrap();
let path = tree_model.get_value(&tree_model.get_iter(tree_path).unwrap(), ColumnsEmptyFolders::Path as i32).get::<String>().unwrap().unwrap();
// We must check if folder is really empty or contains only other empty folders
let mut error_happened = false;
let mut folders_to_check: Vec<String> = vec![format!("{}/{}", path, name)];
let mut current_folder: String;
let mut next_folder: String;
'dir: while !folders_to_check.is_empty() {
current_folder = folders_to_check.pop().unwrap();
let read_dir = match fs::read_dir(&current_folder) {
for entry in read_dir {
let entry_data = match entry {
Ok(t) => t,
Err(_) => {
error_happened = true;
break 'dir;
}
};
let metadata: Metadata = match entry_data.metadata() {
Ok(t) => t,
Err(_) => {
error_happened = true;
break 'dir;
}
};
if metadata.is_dir() {
next_folder = "".to_owned()
+ &current_folder
+ "/"
+ match &entry_data.file_name().into_string() {
Ok(t) => t,
Err(_) => {
error_happened = true;
break 'dir;
}
};
for entry in read_dir {
let entry_data = match entry {
Ok(t) => t,
Err(_) => {
error_happened = true;
break 'dir;
}
};
let metadata: Metadata = match entry_data.metadata() {
Ok(t) => t,
Err(_) => {
error_happened = true;
break 'dir;
}
};
if metadata.is_dir() {
next_folder = "".to_owned()
+ &current_folder
+ "/"
+ match &entry_data.file_name().into_string() {
Ok(t) => t,
Err(_) => {
error_happened = true;
break 'dir;
}
};
folders_to_check.push(next_folder.clone());
} else {
error_happened = true;
}
}
}
if !error_happened {
match fs::remove_dir_all(format!("{}/{}", path, name)) {
Ok(_) => {
list_store.remove(&list_store.get_iter(tree_path).unwrap());
}
Err(_) => error_happened = true,
}
}
if error_happened {
messages += format!("Failed to remove folder {}/{} because folder doesn't exists, you don't have permissions or isn't empty.\n", path, name).as_str()
}
folders_to_check.push(next_folder.clone());
} else {
error_happened = true;
}
text_view_errors.get_buffer().unwrap().set_text(messages.as_str());
selection.unselect_all();
}
"scrolled_window_main_empty_files_finder" => {
let tree_view = scrolled_window_main_empty_files_finder.get_children().get(0).unwrap().clone().downcast::<gtk::TreeView>().unwrap();
let selection = tree_view.get_selection();
let (selection_rows, tree_model) = selection.get_selected_rows();
if selection_rows.is_empty() {
return;
}
let list_store = tree_model.clone().downcast::<gtk::ListStore>().unwrap();
// let new_tree_model = TreeModel::new(); // TODO - maybe create new model when inserting a new data, because this seems to be not optimal when using thousands of rows
let mut messages: String = "".to_string();
// Must be deleted from end to start, because when deleting entries, TreePath(and also TreeIter) will points to invalid data
for tree_path in selection_rows.iter().rev() {
let name = tree_model.get_value(&tree_model.get_iter(tree_path).unwrap(), ColumnsEmptyFiles::Name as i32).get::<String>().unwrap().unwrap();
let path = tree_model.get_value(&tree_model.get_iter(tree_path).unwrap(), ColumnsEmptyFiles::Path as i32).get::<String>().unwrap().unwrap();
match fs::remove_file(format!("{}/{}", path, name)) {
Ok(_) => {
list_store.remove(&list_store.get_iter(tree_path).unwrap());
}
Err(_) => messages += format!("Failed to remove file {}/{} because file doesn't exists or you don't have permissions.\n", path, name).as_str(),
}
}
text_view_errors.get_buffer().unwrap().set_text(messages.as_str());
selection.unselect_all();
}
"scrolled_window_main_temporary_files_finder" => {
let tree_view = scrolled_window_main_temporary_files_finder.get_children().get(0).unwrap().clone().downcast::<gtk::TreeView>().unwrap();
let selection = tree_view.get_selection();
let (selection_rows, tree_model) = selection.get_selected_rows();
if selection_rows.is_empty() {
return;
}
let list_store = tree_model.clone().downcast::<gtk::ListStore>().unwrap();
// let new_tree_model = TreeModel::new(); // TODO - maybe create new model when inserting a new data, because this seems to be not optimal when using thousands of rows
let mut messages: String = "".to_string();
// Must be deleted from end to start, because when deleting entries, TreePath(and also TreeIter) will points to invalid data
for tree_path in selection_rows.iter().rev() {
let name = tree_model.get_value(&tree_model.get_iter(tree_path).unwrap(), ColumnsTemporaryFiles::Name as i32).get::<String>().unwrap().unwrap();
let path = tree_model.get_value(&tree_model.get_iter(tree_path).unwrap(), ColumnsTemporaryFiles::Path as i32).get::<String>().unwrap().unwrap();
match fs::remove_file(format!("{}/{}", path, name)) {
Ok(_) => {
list_store.remove(&list_store.get_iter(tree_path).unwrap());
}
Err(_) => messages += format!("Failed to remove file {}/{} because file doesn't exists or you don't have permissions.\n", path, name).as_str(),
}
}
text_view_errors.get_buffer().unwrap().set_text(messages.as_str());
selection.unselect_all();
}
"notebook_big_main_file_finder" => {
let tree_view = scrolled_window_big_files_finder.get_children().get(0).unwrap().clone().downcast::<gtk::TreeView>().unwrap();
let selection = tree_view.get_selection();
let (selection_rows, tree_model) = selection.get_selected_rows();
if selection_rows.is_empty() {
return;
}
let list_store = tree_model.clone().downcast::<gtk::ListStore>().unwrap();
// let new_tree_model = TreeModel::new(); // TODO - maybe create new model when inserting a new data, because this seems to be not optimal when using thousands of rows
let mut messages: String = "".to_string();
// Must be deleted from end to start, because when deleting entries, TreePath(and also TreeIter) will points to invalid data
for tree_path in selection_rows.iter().rev() {
let name = tree_model.get_value(&tree_model.get_iter(tree_path).unwrap(), ColumnsBigFiles::Name as i32).get::<String>().unwrap().unwrap();
let path = tree_model.get_value(&tree_model.get_iter(tree_path).unwrap(), ColumnsBigFiles::Path as i32).get::<String>().unwrap().unwrap();
match fs::remove_file(format!("{}/{}", path, name)) {
Ok(_) => {
list_store.remove(&list_store.get_iter(tree_path).unwrap());
}
Err(_) => messages += format!("Failed to remove file {}/{} because file doesn't exists or you don't have permissions.\n", path, name).as_str(),
}
}
text_view_errors.get_buffer().unwrap().set_text(messages.as_str());
selection.unselect_all();
}
"notebook_main_similar_images_finder_label" => {
let tree_view = scrolled_window_similar_images_finder.get_children().get(0).unwrap().clone().downcast::<gtk::TreeView>().unwrap();
let selection = tree_view.get_selection();
let (selection_rows, tree_model) = selection.get_selected_rows();
if selection_rows.is_empty() {
return;
}
let list_store = tree_model.clone().downcast::<gtk::ListStore>().unwrap();
// let new_tree_model = TreeModel::new(); // TODO - maybe create new model when inserting a new data, because this seems to be not optimal when using thousands of rows
let mut messages: String = "".to_string();
let mut vec_path_to_delete: Vec<(String, String)> = Vec::new();
// Just remove file, later must be deleted list entry with all occurencies
for tree_path in selection_rows.iter().rev() {
let name = tree_model.get_value(&tree_model.get_iter(tree_path).unwrap(), ColumnsSimilarImages::Name as i32).get::<String>().unwrap().unwrap();
let path = tree_model.get_value(&tree_model.get_iter(tree_path).unwrap(), ColumnsSimilarImages::Path as i32).get::<String>().unwrap().unwrap();
if fs::remove_file(format!("{}/{}", path, name)).is_err() {
messages += format!(
"Failed to remove file {}/{}. It is possible that you already deleted it, because similar images shows all possible file doesn't exists or you don't have permissions.\n",
path, name
)
.as_str()
}
vec_path_to_delete.push((path, name));
}
// Must be deleted from end to start, because when deleting entries, TreePath(and also TreeIter) will points to invalid data
for path_to_delete in vec_path_to_delete {
let mut vec_tree_path_to_delete: Vec<gtk::TreePath> = Vec::new();
let iter = match list_store.get_iter_first() {
Some(t) => t,
None => break,
};
let mut take_child_mode = false; // When original image is searched one, we must remove all occurences of its children
let mut prepared_for_delete;
loop {
prepared_for_delete = false;
if take_child_mode {
let color = tree_model.get_value(&iter, ColumnsSimilarImages::Color as i32).get::<String>().unwrap().unwrap();
if color == HEADER_ROW_COLOR {
take_child_mode = false;
} else {
prepared_for_delete = true;
}
} else {
let path = tree_model.get_value(&iter, ColumnsSimilarImages::Path as i32).get::<String>().unwrap().unwrap();
if path == path_to_delete.0 {
let name = tree_model.get_value(&iter, ColumnsSimilarImages::Name as i32).get::<String>().unwrap().unwrap();
if name == path_to_delete.1 {
let color = tree_model.get_value(&iter, ColumnsSimilarImages::Color as i32).get::<String>().unwrap().unwrap();
if color == HEADER_ROW_COLOR {
take_child_mode = true;
}
prepared_for_delete = true;
}
}
}
if prepared_for_delete {
vec_tree_path_to_delete.push(list_store.get_path(&iter).unwrap());
}
if !list_store.iter_next(&iter) {
break;
}
}
for tree_path in vec_tree_path_to_delete.iter().rev() {
list_store.remove(&list_store.get_iter(&tree_path).unwrap());
}
}
// End run to remove single header rows(without duplicates)
if let Some(next_iter) = list_store.get_iter_first() {
let mut header_was_before = false;
let mut vec_tree_path_to_delete: Vec<gtk::TreePath> = Vec::new();
let mut current_iter = next_iter.clone();
loop {
let color = tree_model.get_value(&next_iter, ColumnsSimilarImages::Color as i32).get::<String>().unwrap().unwrap();
if color == HEADER_ROW_COLOR {
if header_was_before {
vec_tree_path_to_delete.push(list_store.get_path(&current_iter).unwrap());
} else {
header_was_before = true;
}
} else {
header_was_before = false;
}
current_iter = next_iter.clone();
if !list_store.iter_next(&next_iter) {
break;
}
}
}
// Last step, remove orphan header if exists
if let Some(iter) = list_store.get_iter_first() {
if !list_store.iter_next(&iter) {
list_store.clear();
}
}
text_view_errors.get_buffer().unwrap().set_text(messages.as_str());
selection.unselect_all();
}
"notebook_main_zeroed_files_finder" => {
let tree_view = scrolled_window_zeroed_files_finder.get_children().get(0).unwrap().clone().downcast::<gtk::TreeView>().unwrap();
let selection = tree_view.get_selection();
let (selection_rows, tree_model) = selection.get_selected_rows();
if selection_rows.is_empty() {
return;
}
let list_store = tree_model.clone().downcast::<gtk::ListStore>().unwrap();
// let new_tree_model = TreeModel::new(); // TODO - maybe create new model when inserting a new data, because this seems to be not optimal when using thousands of rows
let mut messages: String = "".to_string();
// Must be deleted from end to start, because when deleting entries, TreePath(and also TreeIter) will points to invalid data
for tree_path in selection_rows.iter().rev() {
let name = tree_model.get_value(&tree_model.get_iter(tree_path).unwrap(), ColumnsZeroedFiles::Name as i32).get::<String>().unwrap().unwrap();
let path = tree_model.get_value(&tree_model.get_iter(tree_path).unwrap(), ColumnsZeroedFiles::Path as i32).get::<String>().unwrap().unwrap();
match fs::remove_file(format!("{}/{}", path, name)) {
Ok(_) => {
list_store.remove(&list_store.get_iter(tree_path).unwrap());
}
Err(_) => messages += format!("Failed to remove file {}/{} because file doesn't exists or you don't have permissions.\n", path, name).as_str(),
}
}
text_view_errors.get_buffer().unwrap().set_text(messages.as_str());
selection.unselect_all();
}
"notebook_main_same_music_finder" => {
let tree_view = scrolled_window_same_music_finder.get_children().get(0).unwrap().clone().downcast::<gtk::TreeView>().unwrap();
let selection = tree_view.get_selection();
let (selection_rows, tree_model) = selection.get_selected_rows();
if selection_rows.is_empty() {
return;
}
let list_store = tree_model.clone().downcast::<gtk::ListStore>().unwrap();
// let new_tree_model = TreeModel::new(); // TODO - maybe create new model when inserting a new data, because this seems to be not optimal when using thousands of rows
let mut messages: String = "".to_string();
// Must be deleted from end to start, because when deleting entries, TreePath(and also TreeIter) will points to invalid data
for tree_path in selection_rows.iter().rev() {
let name = tree_model.get_value(&tree_model.get_iter(tree_path).unwrap(), ColumnsSameMusic::Name as i32).get::<String>().unwrap().unwrap();
let path = tree_model.get_value(&tree_model.get_iter(tree_path).unwrap(), ColumnsSameMusic::Path as i32).get::<String>().unwrap().unwrap();
match fs::remove_file(format!("{}/{}", path, name)) {
Ok(_) => {
list_store.remove(&list_store.get_iter(tree_path).unwrap());
}
Err(_) => messages += format!("Failed to remove file {}/{} because file doesn't exists or you don't have permissions.\n", path, name).as_str(),
}
}
text_view_errors.get_buffer().unwrap().set_text(messages.as_str());
selection.unselect_all();
}
e => panic!("Not existent {}", e),
}
});
if !error_happened {
match fs::remove_dir_all(format!("{}/{}", path, name)) {
Ok(_) => {
list_store.remove(&list_store.get_iter(tree_path).unwrap());
}
Err(_) => error_happened = true,
}
}
if error_happened {
messages += format!("Failed to remove folder {}/{} because folder doesn't exists, you don't have permissions or isn't empty.\n", path, name).as_str()
}
}
text_view_errors.get_buffer().unwrap().set_text(messages.as_str());
selection.unselect_all();
}
fn basic_remove(scrolled_window: gtk::ScrolledWindow, column_file_name: i32, column_path: i32, gui_data: &GuiData) {
let text_view_errors = gui_data.text_view_errors.clone();
let tree_view = scrolled_window.get_children().get(0).unwrap().clone().downcast::<gtk::TreeView>().unwrap();
let selection = tree_view.get_selection();
let (selection_rows, tree_model) = selection.get_selected_rows();
if selection_rows.is_empty() {
return;
}
let list_store = tree_model.clone().downcast::<gtk::ListStore>().unwrap();
// let new_tree_model = TreeModel::new(); // TODO - maybe create new model when inserting a new data, because this seems to be not optimal when using thousands of rows
let mut messages: String = "".to_string();
// Must be deleted from end to start, because when deleting entries, TreePath(and also TreeIter) will points to invalid data
for tree_path in selection_rows.iter().rev() {
let name = tree_model.get_value(&tree_model.get_iter(tree_path).unwrap(), column_file_name).get::<String>().unwrap().unwrap();
let path = tree_model.get_value(&tree_model.get_iter(tree_path).unwrap(), column_path).get::<String>().unwrap().unwrap();
match fs::remove_file(format!("{}/{}", path, name)) {
Ok(_) => {
list_store.remove(&list_store.get_iter(tree_path).unwrap());
}
Err(_) => messages += format!("Failed to remove file {}/{} because file doesn't exists or you don't have permissions.\n", path, name).as_str(),
}
}
text_view_errors.get_buffer().unwrap().set_text(messages.as_str());
selection.unselect_all();
} // TODO, will replace simple remove of things
// Remove all ocurences - remove every element which have same path and name as even non selected ones
//
fn tree_remove(scrolled_window: gtk::ScrolledWindow, column_file_name: i32, column_path: i32, column_color: i32, gui_data: &GuiData, remove_all_occurences: bool, header_can_have_one_child: bool) {
let text_view_errors = gui_data.text_view_errors.clone();
let tree_view = scrolled_window.get_children().get(0).unwrap().clone().downcast::<gtk::TreeView>().unwrap();
let selection = tree_view.get_selection();
let (selection_rows, tree_model) = selection.get_selected_rows();
if selection_rows.is_empty() {
return;
}
let list_store = tree_model.clone().downcast::<gtk::ListStore>().unwrap();
// let new_tree_model = TreeModel::new(); // TODO - maybe create new model when inserting a new data, because this seems to be not optimal when using thousands of rows
let mut messages: String = "".to_string();
let mut vec_path_to_delete: Vec<(String, String)> = Vec::new();
let mut map_with_path_to_delete: BTreeMap<String, Vec<String>> = Default::default(); // BTreeMap<Path,Vec<FileName>>
// Save to variable paths of files, and remove it when not removing all ocureences.
for tree_path in selection_rows.iter().rev() {
let file_name = tree_model.get_value(&tree_model.get_iter(tree_path).unwrap(), column_file_name).get::<String>().unwrap().unwrap();
let path = tree_model.get_value(&tree_model.get_iter(tree_path).unwrap(), column_path).get::<String>().unwrap().unwrap();
if !remove_all_occurences {
list_store.remove(&list_store.get_iter(tree_path).unwrap());
}
map_with_path_to_delete.entry(path.clone()).or_insert_with(Vec::new);
map_with_path_to_delete.get_mut(path.as_str()).unwrap().push(file_name);
// vec_path_to_delete.push((path, file_name));
}
// Delete duplicated entries, and remove real files
for (path, mut vec_file_name) in map_with_path_to_delete {
vec_file_name.sort();
vec_file_name.dedup();
for file_name in vec_file_name {
if fs::remove_file(format!("{}/{}", path.clone(), file_name.clone())).is_err() {
messages += format!(
"Failed to remove file {}/{}. It is possible that you already deleted it, because similar images shows all possible file doesn't exists or you don't have permissions.\n",
path, file_name
)
.as_str()
}
vec_path_to_delete.push((path.clone(), file_name.clone()));
}
}
if remove_all_occurences {
// Must be deleted from end to start, because when deleting entries, TreePath(and also TreeIter) will points to invalid data
for path_to_delete in vec_path_to_delete {
let mut vec_tree_path_to_delete: Vec<gtk::TreePath> = Vec::new();
let iter = match list_store.get_iter_first() {
Some(t) => t,
None => break,
};
let mut take_child_mode = false; // When original image is searched one, we must remove all occurences of its children
let mut prepared_for_delete;
loop {
prepared_for_delete = false;
if take_child_mode {
let color = tree_model.get_value(&iter, column_color).get::<String>().unwrap().unwrap();
if color == HEADER_ROW_COLOR {
take_child_mode = false;
} else {
prepared_for_delete = true;
}
} else {
let path = tree_model.get_value(&iter, column_path).get::<String>().unwrap().unwrap();
if path == path_to_delete.0 {
let name = tree_model.get_value(&iter, column_file_name).get::<String>().unwrap().unwrap();
if name == path_to_delete.1 {
let color = tree_model.get_value(&iter, column_color).get::<String>().unwrap().unwrap();
if color == HEADER_ROW_COLOR {
take_child_mode = true;
}
prepared_for_delete = true;
}
}
}
if prepared_for_delete {
vec_tree_path_to_delete.push(list_store.get_path(&iter).unwrap());
}
if !list_store.iter_next(&iter) {
break;
}
}
for tree_path in vec_tree_path_to_delete.iter().rev() {
list_store.remove(&list_store.get_iter(&tree_path).unwrap());
}
}
}
// Remove only child from header
if !header_can_have_one_child {
if let Some(first_iter) = list_store.get_iter_first() {
let mut vec_tree_path_to_delete: Vec<gtk::TreePath> = Vec::new();
let mut current_iter = first_iter;
if tree_model.get_value(&current_iter, column_color).get::<String>().unwrap().unwrap() != HEADER_ROW_COLOR {
panic!(); // First element should be header
};
let mut next_iter;
let mut next_next_iter;
'main: loop {
if tree_model.get_value(&current_iter, column_color).get::<String>().unwrap().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
vec_tree_path_to_delete.push(list_store.get_path(&current_iter).unwrap());
break 'main;
}
if tree_model.get_value(&next_iter, column_color).get::<String>().unwrap().unwrap() == HEADER_ROW_COLOR {
// Only two headers
vec_tree_path_to_delete.push(list_store.get_path(&current_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 or two headers
vec_tree_path_to_delete.push(list_store.get_path(&current_iter).unwrap());
vec_tree_path_to_delete.push(list_store.get_path(&next_iter).unwrap());
break 'main;
}
if tree_model.get_value(&next_next_iter, column_color).get::<String>().unwrap().unwrap() == HEADER_ROW_COLOR {
// Only one child or two headers - but still are later files
vec_tree_path_to_delete.push(list_store.get_path(&current_iter).unwrap());
vec_tree_path_to_delete.push(list_store.get_path(&next_iter).unwrap());
current_iter = next_next_iter.clone();
continue 'main;
}
loop {
if !list_store.iter_next(&next_next_iter) {
break 'main;
}
if tree_model.get_value(&next_next_iter, column_color).get::<String>().unwrap().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.get_iter(&tree_path).unwrap());
}
}
} else {
// Remove header which doesn't have children
if let Some(next_iter) = list_store.get_iter_first() {
let mut header_was_before = false;
let mut vec_tree_path_to_delete: Vec<gtk::TreePath> = Vec::new();
let mut current_iter = next_iter.clone();
loop {
let color = tree_model.get_value(&next_iter, column_color).get::<String>().unwrap().unwrap();
if color == HEADER_ROW_COLOR {
if header_was_before {
vec_tree_path_to_delete.push(list_store.get_path(&current_iter).unwrap());
} else {
header_was_before = true;
}
} else {
header_was_before = false;
}
current_iter = next_iter.clone();
if !list_store.iter_next(&next_iter) {
break;
}
}
for tree_path in vec_tree_path_to_delete.iter().rev() {
list_store.remove(&list_store.get_iter(&tree_path).unwrap());
}
}
}
// Last step, remove orphan header if exists
if let Some(iter) = list_store.get_iter_first() {
if !list_store.iter_next(&iter) {
list_store.clear();
}
}
text_view_errors.get_buffer().unwrap().set_text(messages.as_str());
selection.unselect_all();
}
// fn basic_remove(tree_view: gtk::TreeView, column_name: i32, column_path: i32) {} // TODO, will replace simple remove of things

98
czkawka_gui/src/connect_button_save.rs
View file

@ -4,10 +4,8 @@ use czkawka_core::common_traits::SaveResults;
use gtk::prelude::*;
pub fn connect_button_save(gui_data: &GuiData) {
let shared_buttons = gui_data.shared_buttons.clone();
let buttons_save_clone = gui_data.buttons_save.clone();
let gui_data = gui_data.clone();
let buttons_save = gui_data.buttons_save.clone();
let entry_info = gui_data.entry_info.clone();
let shared_duplication_state = gui_data.shared_duplication_state.clone();
let shared_empty_folders_state = gui_data.shared_empty_folders_state.clone();
let shared_big_files_state = gui_data.shared_big_files_state.clone();
@ -18,111 +16,75 @@ pub fn connect_button_save(gui_data: &GuiData) {
let shared_zeroed_files_state = gui_data.shared_zeroed_files_state.clone();
let notebook_main_children_names = gui_data.notebook_main_children_names.clone();
let notebook_main = gui_data.notebook_main.clone();
buttons_save_clone.connect_clicked(move |_| match notebook_main_children_names.get(notebook_main.get_current_page().unwrap() as usize).unwrap().as_str() {
buttons_save.connect_clicked(move |_| match notebook_main_children_names.get(notebook_main.get_current_page().unwrap() as usize).unwrap().as_str() {
"notebook_main_duplicate_finder_label" => {
let file_name = "results_duplicates.txt";
let mut df = shared_duplication_state.borrow_mut();
df.save_results_to_file(file_name);
shared_duplication_state.borrow_mut().save_results_to_file(file_name);
entry_info.set_text(format!("Saved results to file {}", file_name).as_str());
// Set state
{
buttons_save.hide();
*shared_buttons.borrow_mut().get_mut("duplicate").unwrap().get_mut("save").unwrap() = false;
}
post_save_things(file_name, "duplicate", &gui_data);
}
"scrolled_window_main_empty_folder_finder" => {
let file_name = "results_empty_folder.txt";
let mut ef = shared_empty_folders_state.borrow_mut();
ef.save_results_to_file(file_name);
shared_empty_folders_state.borrow_mut().save_results_to_file(file_name);
entry_info.set_text(format!("Saved results to file {}", file_name).as_str());
// Set state
{
buttons_save.hide();
*shared_buttons.borrow_mut().get_mut("empty_folder").unwrap().get_mut("save").unwrap() = false;
}
post_save_things(file_name, "empty_folder", &gui_data);
}
"scrolled_window_main_empty_files_finder" => {
let file_name = "results_empty_files.txt";
let mut df = shared_empty_files_state.borrow_mut();
df.save_results_to_file(file_name);
shared_empty_files_state.borrow_mut().save_results_to_file(file_name);
entry_info.set_text(format!("Saved results to file {}", file_name).as_str());
// Set state
{
buttons_save.hide();
*shared_buttons.borrow_mut().get_mut("empty_file").unwrap().get_mut("save").unwrap() = false;
}
post_save_things(file_name, "empty_file", &gui_data);
}
"scrolled_window_main_temporary_files_finder" => {
let file_name = "results_temporary_files.txt";
let mut df = shared_temporary_files_state.borrow_mut();
df.save_results_to_file(file_name);
shared_temporary_files_state.borrow_mut().save_results_to_file(file_name);
entry_info.set_text(format!("Saved results to file {}", file_name).as_str());
// Set state
{
buttons_save.hide();
*shared_buttons.borrow_mut().get_mut("temporary_file").unwrap().get_mut("save").unwrap() = false;
}
post_save_things(file_name, "temporary_file", &gui_data);
}
"notebook_big_main_file_finder" => {
let file_name = "results_big_files.txt";
let mut df = shared_big_files_state.borrow_mut();
df.save_results_to_file(file_name);
shared_big_files_state.borrow_mut().save_results_to_file(file_name);
entry_info.set_text(format!("Saved results to file {}", file_name).as_str());
// Set state
{
buttons_save.hide();
*shared_buttons.borrow_mut().get_mut("big_file").unwrap().get_mut("save").unwrap() = false;
}
post_save_things(file_name, "big_file", &gui_data);
}
"notebook_main_similar_images_finder_label" => {
let file_name = "results_similar_images.txt";
let mut df = shared_similar_images_state.borrow_mut();
df.save_results_to_file(file_name);
shared_similar_images_state.borrow_mut().save_results_to_file(file_name);
entry_info.set_text(format!("Saved results to file {}", file_name).as_str());
// Set state
{
buttons_save.hide();
*shared_buttons.borrow_mut().get_mut("similar_images").unwrap().get_mut("save").unwrap() = false;
}
post_save_things(file_name, "similar_images", &gui_data);
}
"notebook_main_zeroed_files_finder" => {
let file_name = "results_zeroed_files.txt";
let mut zf = shared_zeroed_files_state.borrow_mut();
zf.save_results_to_file(file_name);
shared_zeroed_files_state.borrow_mut().save_results_to_file(file_name);
entry_info.set_text(format!("Saved results to file {}", file_name).as_str());
// Set state
{
buttons_save.hide();
*shared_buttons.borrow_mut().get_mut("zeroed_files").unwrap().get_mut("save").unwrap() = false;
}
post_save_things(file_name, "zeroed_files", &gui_data);
}
"notebook_main_same_music_finder" => {
let file_name = "results_same_music.txt";
let mut mf = shared_same_music_state.borrow_mut();
mf.save_results_to_file(file_name);
shared_same_music_state.borrow_mut().save_results_to_file(file_name);
entry_info.set_text(format!("Saved results to file {}", file_name).as_str());
// Set state
{
buttons_save.hide();
*shared_buttons.borrow_mut().get_mut("zeroed_files").unwrap().get_mut("save").unwrap() = false;
}
post_save_things(file_name, "same_music", &gui_data);
}
e => panic!("Not existent {}", e),
});
}
fn post_save_things(file_name: &str, type_of_tab: &str, gui_data: &GuiData) {
let entry_info = gui_data.entry_info.clone();
let buttons_save = gui_data.buttons_save.clone();
let shared_buttons = gui_data.shared_buttons.clone();
entry_info.set_text(format!("Saved results to file {}", file_name).as_str());
// Set state
{
buttons_save.hide();
*shared_buttons.borrow_mut().get_mut(type_of_tab).unwrap().get_mut("save").unwrap() = false;
}
}

22
czkawka_gui/src/connect_button_search.rs
View file

@ -33,7 +33,7 @@ pub fn connect_button_search(gui_data: &GuiData, sender: Sender<Message>) {
let radio_button_hashmb = gui_data.radio_button_hashmb.clone();
let radio_button_hash = gui_data.radio_button_hash.clone();
let entry_duplicate_minimal_size = gui_data.entry_duplicate_minimal_size.clone();
let rx = gui_data.rx.clone();
let stop_receiver = gui_data.stop_receiver.clone();
let entry_big_files_number = gui_data.entry_big_files_number.clone();
let entry_similar_images_minimal_size = gui_data.entry_similar_images_minimal_size.clone();
let check_button_music_title: gtk::CheckButton = gui_data.check_button_music_title.clone();
@ -75,10 +75,9 @@ pub fn connect_button_search(gui_data: &GuiData, sender: Sender<Message>) {
Ok(t) => t,
Err(_) => 1024, // By default
};
let delete_method = duplicate::DeleteMethod::None;
let sender = sender.clone();
let receiver_stop = rx.clone();
let receiver_stop = stop_receiver.clone();
// Find duplicates
thread::spawn(move || {
let mut df = DuplicateFinder::new();
@ -89,26 +88,27 @@ pub fn connect_button_search(gui_data: &GuiData, sender: Sender<Message>) {
df.set_allowed_extensions(allowed_extensions);
df.set_minimal_file_size(minimal_file_size);
df.set_check_method(check_method);
df.set_delete_method(delete_method);
df.find_duplicates(Option::from(&receiver_stop));
let _ = sender.send(Message::Duplicates(df));
});
}
"scrolled_window_main_empty_folder_finder" => {
let sender = sender.clone();
let receiver_stop = rx.clone();
let receiver_stop = stop_receiver.clone();
// Find empty folders
thread::spawn(move || {
let mut ef = EmptyFolder::new();
ef.set_included_directory(included_directories);
ef.set_excluded_directory(excluded_directories);
ef.set_excluded_items(excluded_items);
ef.find_empty_folders(Option::from(&receiver_stop));
let _ = sender.send(Message::EmptyFolders(ef));
});
}
"scrolled_window_main_empty_files_finder" => {
let sender = sender.clone();
let receiver_stop = rx.clone();
let receiver_stop = stop_receiver.clone();
// Find empty files
thread::spawn(move || {
@ -125,7 +125,7 @@ pub fn connect_button_search(gui_data: &GuiData, sender: Sender<Message>) {
}
"scrolled_window_main_temporary_files_finder" => {
let sender = sender.clone();
let receiver_stop = rx.clone();
let receiver_stop = stop_receiver.clone();
// Find temporary files
thread::spawn(move || {
@ -146,7 +146,7 @@ pub fn connect_button_search(gui_data: &GuiData, sender: Sender<Message>) {
};
let sender = sender.clone();
let receiver_stop = rx.clone();
let receiver_stop = stop_receiver.clone();
// Find big files
thread::spawn(move || {
@ -164,7 +164,7 @@ pub fn connect_button_search(gui_data: &GuiData, sender: Sender<Message>) {
"notebook_main_similar_images_finder_label" => {
let sender = sender.clone();
let receiver_stop = rx.clone();
let receiver_stop = stop_receiver.clone();
let minimal_file_size = match entry_similar_images_minimal_size.get_text().as_str().parse::<u64>() {
Ok(t) => t,
@ -186,7 +186,7 @@ pub fn connect_button_search(gui_data: &GuiData, sender: Sender<Message>) {
}
"notebook_main_zeroed_files_finder" => {
let sender = sender.clone();
let receiver_stop = rx.clone();
let receiver_stop = stop_receiver.clone();
// Find zeroed files
thread::spawn(move || {
@ -226,7 +226,7 @@ pub fn connect_button_search(gui_data: &GuiData, sender: Sender<Message>) {
if music_similarity != MusicSimilarity::NONE {
let sender = sender.clone();
let receiver_stop = rx.clone();
let receiver_stop = stop_receiver.clone();
// Find temporary files
thread::spawn(move || {

1
czkawka_gui/src/connect_button_select.rs
View file

@ -14,6 +14,7 @@ pub fn connect_button_select(gui_data: &GuiData) {
popover_select.set_relative_to(Some(&buttons_select));
popover_select.popup();
}
// TODO add for all basic selection popup
e => panic!("Not existent {}", e),
});
}

4
czkawka_gui/src/connect_button_stop.rs
View file

@ -4,8 +4,8 @@ use gtk::prelude::*;
pub fn connect_button_stop(gui_data: &GuiData) {
let buttons_stop = gui_data.buttons_stop.clone();
let sx = gui_data.sx.clone();
let stop_sender = gui_data.stop_sender.clone();
buttons_stop.connect_clicked(move |_| {
sx.send(()).unwrap();
stop_sender.send(()).unwrap();
});
}

8
czkawka_gui/src/connect_notebook_tabs.rs
View file

@ -18,12 +18,8 @@ pub fn connect_notebook_tabs(gui_data: &GuiData) {
notebook_main_clone.connect_switch_page(move |_, _, number| {
let page: &str;
match notebook_main_children_names.get(number as usize).unwrap().as_str() {
"notebook_main_duplicate_finder_label" => {
page = "duplicate";
}
"scrolled_window_main_empty_folder_finder" => {
page = "empty_folder";
}
"notebook_main_duplicate_finder_label" => page = "duplicate",
"scrolled_window_main_empty_folder_finder" => page = "empty_folder",
"scrolled_window_main_empty_files_finder" => page = "empty_file",
"scrolled_window_main_temporary_files_finder" => page = "temporary_file",
"notebook_big_main_file_finder" => page = "big_file",

122
czkawka_gui/src/double_click_opening.rs
View file

@ -1,136 +1,70 @@
use crate::help_functions::*;
use gtk::prelude::*;
pub fn opening_double_click_function_similar_images(tree_view: &gtk::TreeView, event: &gdk::EventButton) -> gtk::Inhibit {
if event.get_event_type() == gdk::EventType::DoubleButtonPress {
let selection = tree_view.get_selection();
let (selection_rows, tree_model) = selection.get_selected_rows();
for tree_path in selection_rows.iter().rev() {
let name = tree_model.get_value(&tree_model.get_iter(tree_path).unwrap(), ColumnsSimilarImages::Name as i32).get::<String>().unwrap().unwrap();
let path = tree_model.get_value(&tree_model.get_iter(tree_path).unwrap(), ColumnsSimilarImages::Path as i32).get::<String>().unwrap().unwrap();
if open::that(format!("{}/{}", path, name)).is_err() {
println!("Failed to open {}/{}", path, name);
}
}
}
gtk::Inhibit(false)
}
pub fn opening_double_click_function_duplicates(tree_view: &gtk::TreeView, event: &gdk::EventButton) -> gtk::Inhibit {
if event.get_event_type() == gdk::EventType::DoubleButtonPress {
let selection = tree_view.get_selection();
let (selection_rows, tree_model) = selection.get_selected_rows();
for tree_path in selection_rows.iter().rev() {
let name = tree_model.get_value(&tree_model.get_iter(tree_path).unwrap(), ColumnsDuplicates::Name as i32).get::<String>().unwrap().unwrap();
let path = tree_model.get_value(&tree_model.get_iter(tree_path).unwrap(), ColumnsDuplicates::Path as i32).get::<String>().unwrap().unwrap();
if open::that(format!("{}/{}", path, name)).is_err() {
println!("Failed to open {}/{}", path, name);
}
}
common_open_function(tree_view, ColumnsDuplicates::Name as i32, ColumnsDuplicates::Path as i32);
}
gtk::Inhibit(false)
}
pub fn opening_double_click_function_empty_folders(tree_view: &gtk::TreeView, event: &gdk::EventButton) -> gtk::Inhibit {
if event.get_event_type() == gdk::EventType::DoubleButtonPress {
let selection = tree_view.get_selection();
let (selection_rows, tree_model) = selection.get_selected_rows();
for tree_path in selection_rows.iter().rev() {
let name = tree_model.get_value(&tree_model.get_iter(tree_path).unwrap(), ColumnsEmptyFolders::Name as i32).get::<String>().unwrap().unwrap();
let path = tree_model.get_value(&tree_model.get_iter(tree_path).unwrap(), ColumnsEmptyFolders::Path as i32).get::<String>().unwrap().unwrap();
if open::that(format!("{}/{}", path, name)).is_err() {
println!("Failed to open {}/{}", path, name);
}
}
common_open_function(tree_view, ColumnsEmptyFolders::Name as i32, ColumnsEmptyFolders::Path as i32);
}
gtk::Inhibit(false)
}
pub fn opening_double_click_function_empty_files(tree_view: &gtk::TreeView, event: &gdk::EventButton) -> gtk::Inhibit {
if event.get_event_type() == gdk::EventType::DoubleButtonPress {
let selection = tree_view.get_selection();
let (selection_rows, tree_model) = selection.get_selected_rows();
for tree_path in selection_rows.iter().rev() {
let name = tree_model.get_value(&tree_model.get_iter(tree_path).unwrap(), ColumnsEmptyFiles::Name as i32).get::<String>().unwrap().unwrap();
let path = tree_model.get_value(&tree_model.get_iter(tree_path).unwrap(), ColumnsEmptyFiles::Path as i32).get::<String>().unwrap().unwrap();
if open::that(format!("{}/{}", path, name)).is_err() {
println!("Failed to open {}/{}", path, name);
}
}
common_open_function(tree_view, ColumnsEmptyFiles::Name as i32, ColumnsEmptyFiles::Path as i32);
}
gtk::Inhibit(false)
}
pub fn opening_double_click_function_temporary_files(tree_view: &gtk::TreeView, event: &gdk::EventButton) -> gtk::Inhibit {
if event.get_event_type() == gdk::EventType::DoubleButtonPress {
let selection = tree_view.get_selection();
let (selection_rows, tree_model) = selection.get_selected_rows();
for tree_path in selection_rows.iter().rev() {
let name = tree_model.get_value(&tree_model.get_iter(tree_path).unwrap(), ColumnsTemporaryFiles::Name as i32).get::<String>().unwrap().unwrap();
let path = tree_model.get_value(&tree_model.get_iter(tree_path).unwrap(), ColumnsTemporaryFiles::Path as i32).get::<String>().unwrap().unwrap();
if open::that(format!("{}/{}", path, name)).is_err() {
println!("Failed to open {}/{}", path, name);
}
}
common_open_function(tree_view, ColumnsTemporaryFiles::Name as i32, ColumnsTemporaryFiles::Path as i32);
}
gtk::Inhibit(false)
}
pub fn opening_double_click_function_big_files(tree_view: &gtk::TreeView, event: &gdk::EventButton) -> gtk::Inhibit {
if event.get_event_type() == gdk::EventType::DoubleButtonPress {
let selection = tree_view.get_selection();
let (selection_rows, tree_model) = selection.get_selected_rows();
for tree_path in selection_rows.iter().rev() {
let name = tree_model.get_value(&tree_model.get_iter(tree_path).unwrap(), ColumnsBigFiles::Name as i32).get::<String>().unwrap().unwrap();
let path = tree_model.get_value(&tree_model.get_iter(tree_path).unwrap(), ColumnsBigFiles::Path as i32).get::<String>().unwrap().unwrap();
if open::that(format!("{}/{}", path, name)).is_err() {
println!("Failed to open {}/{}", path, name);
}
}
common_open_function(tree_view, ColumnsBigFiles::Name as i32, ColumnsBigFiles::Path as i32);
}
gtk::Inhibit(false)
}
pub fn opening_double_click_function_zeroed_files(tree_view: &gtk::TreeView, event: &gdk::EventButton) -> gtk::Inhibit {
if event.get_event_type() == gdk::EventType::DoubleButtonPress {
let selection = tree_view.get_selection();
let (selection_rows, tree_model) = selection.get_selected_rows();
for tree_path in selection_rows.iter().rev() {
let name = tree_model.get_value(&tree_model.get_iter(tree_path).unwrap(), ColumnsZeroedFiles::Name as i32).get::<String>().unwrap().unwrap();
let path = tree_model.get_value(&tree_model.get_iter(tree_path).unwrap(), ColumnsZeroedFiles::Path as i32).get::<String>().unwrap().unwrap();
if open::that(format!("{}/{}", path, name)).is_err() {
println!("Failed to open {}/{}", path, name);
}
}
common_open_function(tree_view, ColumnsZeroedFiles::Name as i32, ColumnsZeroedFiles::Path as i32);
}
gtk::Inhibit(false)
}
pub fn opening_double_click_function_same_music(tree_view: &gtk::TreeView, event: &gdk::EventButton) -> gtk::Inhibit {
if event.get_event_type() == gdk::EventType::DoubleButtonPress {
let selection = tree_view.get_selection();
let (selection_rows, tree_model) = selection.get_selected_rows();
for tree_path in selection_rows.iter().rev() {
let name = tree_model.get_value(&tree_model.get_iter(tree_path).unwrap(), ColumnsSameMusic::Name as i32).get::<String>().unwrap().unwrap();
let path = tree_model.get_value(&tree_model.get_iter(tree_path).unwrap(), ColumnsSameMusic::Path as i32).get::<String>().unwrap().unwrap();
if open::that(format!("{}/{}", path, name)).is_err() {
println!("Failed to open {}/{}", path, name);
}
}
common_open_function(tree_view, ColumnsSameMusic::Name as i32, ColumnsSameMusic::Path as i32);
}
gtk::Inhibit(false)
}
pub fn opening_double_click_function_similar_images(tree_view: &gtk::TreeView, event: &gdk::EventButton) -> gtk::Inhibit {
if event.get_event_type() == gdk::EventType::DoubleButtonPress {
common_open_function(tree_view, ColumnsSimilarImages::Name as i32, ColumnsSimilarImages::Path as i32);
}
gtk::Inhibit(false)
}
pub fn common_open_function(tree_view: &gtk::TreeView, column_name: i32, column_path: i32) {
let selection = tree_view.get_selection();
let (selection_rows, tree_model) = selection.get_selected_rows();
for tree_path in selection_rows.iter().rev() {
let name = tree_model.get_value(&tree_model.get_iter(tree_path).unwrap(), column_name).get::<String>().unwrap().unwrap();
let path = tree_model.get_value(&tree_model.get_iter(tree_path).unwrap(), column_path).get::<String>().unwrap().unwrap();
if open::that(format!("{}/{}", path, name)).is_err() {
println!("Failed to open {}/{}", path, name);
}
}
}

10
czkawka_gui/src/gui_data.rs
View file

@ -129,8 +129,8 @@ pub struct GuiData {
//// Threads
// Used for sending stop signal to thread
pub sx: crossbeam_channel::Sender<()>,
pub rx: crossbeam_channel::Receiver<()>,
pub stop_sender: crossbeam_channel::Sender<()>,
pub stop_receiver: crossbeam_channel::Receiver<()>,
}
impl GuiData {
@ -310,7 +310,7 @@ impl GuiData {
// Types of messages to send to main thread where gui can be draw.
// Used for sending stop signal to thread
let (sx, rx): (crossbeam_channel::Sender<()>, crossbeam_channel::Receiver<()>) = unbounded();
let (stop_sender, stop_receiver): (crossbeam_channel::Sender<()>, crossbeam_channel::Receiver<()>) = unbounded();
Self {
glade_src,
@ -383,8 +383,8 @@ impl GuiData {
scrolled_window_same_music_finder,
scrolled_window_included_directories,
scrolled_window_excluded_directories,
sx,
rx,
stop_sender,
stop_receiver,
}
}
}

8
czkawka_gui/src/startup_configuration.rs
View file

@ -251,9 +251,11 @@ pub fn startup_configuration(gui_data: &GuiData) {
let col_indices = [0, 1];
for i in ["/proc", "/dev", "/sys", "/run", "/snap"].iter() {
let values: [&dyn ToValue; 2] = [&i, &(MAIN_ROW_COLOR.to_string())];
list_store.set(&list_store.append(), &col_indices, &values);
if cfg!(target_family = "unix") {
for i in ["/proc", "/dev", "/sys", "/run", "/snap"].iter() {
let values: [&dyn ToValue; 2] = [&i, &(MAIN_ROW_COLOR.to_string())];
list_store.set(&list_store.append(), &col_indices, &values);
}
}
scrolled_window_excluded_directories.add(&tree_view_excluded_directory);