dupeguru/core/app.py

# Created By: Virgil Dupras
# Created On: 2006/11/11
# Copyright 2010 Hardcoded Software (http://www.hardcoded.net)
# 
# This software is licensed under the "HS" License as described in the "LICENSE" file, 
# which should be included with this package. The terms are also available at 
# http://www.hardcoded.net/licenses/hs_license

from __future__ import unicode_literals

import os
import os.path as op
import logging
import subprocess
import re

from send2trash import send2trash
from hscommon.reg import RegistrableApplication, RegistrationRequired
from hscommon.notify import Broadcaster
from hsutil import io, files
from hsutil.path import Path
from hsutil.misc import flatten, first
from hsutil.str import escape

from . import directories, results, scanner, export, fs

JOB_SCAN = 'job_scan'
JOB_LOAD = 'job_load'
JOB_MOVE = 'job_move'
JOB_COPY = 'job_copy'
JOB_DELETE = 'job_delete'

class NoScannableFileError(Exception):
    pass

class AllFilesAreRefError(Exception):
    pass

class DupeGuru(RegistrableApplication, Broadcaster):
    DEMO_LIMIT_DESC = "In the demo version, only 10 duplicates per session can be sent to the recycle bin, moved or copied."
    
    def __init__(self, data_module, appdata, appid):
        RegistrableApplication.__init__(self, appid)
        Broadcaster.__init__(self)
        self.appdata = appdata
        if not op.exists(self.appdata):
            os.makedirs(self.appdata)
        self.data = data_module
        self.directories = directories.Directories()
        self.results = results.Results(data_module)
        self.scanner = scanner.Scanner()
        self.action_count = 0
        self.options = {
            'escape_filter_regexp': True,
            'clean_empty_dirs': False,
        }
        self.selected_dupes = []
    
    def _demo_check(self):
        if self.registered:
            return
        count = self.results.mark_count
        if count + self.action_count > 10:
            raise RegistrationRequired()
        else:
            self.action_count += count
    
    def _do_delete(self, j):
        def op(dupe):
            j.add_progress()
            return self._do_delete_dupe(dupe)
        
        j.start_job(self.results.mark_count)
        self.results.perform_on_marked(op, True)
    
    def _do_delete_dupe(self, dupe):
        if not io.exists(dupe.path):
            return
        send2trash(unicode(dupe.path)) # Raises OSError when there's a problem
        self.clean_empty_dirs(dupe.path[:-1])
    
    def _do_load(self, j):
        self.directories.load_from_file(op.join(self.appdata, 'last_directories.xml'))
        self.notify('directories_changed')
        j = j.start_subjob([1, 9])
        self.results.load_from_xml(op.join(self.appdata, 'last_results.xml'), self._get_file, j)
        files = flatten(g[:] for g in self.results.groups)
        try:
            for file in j.iter_with_progress(files, 'Reading metadata %d/%d'):
                file._read_all_info(attrnames=self.data.METADATA_TO_READ)
        except OSError:
            # If this error is raised, it means that a file was deleted while we were reading
            # metadata. Proper handling of this rare occurrence is complex because there's no easy
            # way to remove an arbitrary file from the Results. Thus, we simply clear them.
            self.results.groups = []
    
    def _get_display_info(self, dupe, group, delta=False):
        if (dupe is None) or (group is None):
            return ['---'] * len(self.data.COLUMNS)
        try:
            return self.data.GetDisplayInfo(dupe, group, delta)
        except Exception as e:
            logging.warning("Exception on GetDisplayInfo for %s: %s", unicode(dupe.path), unicode(e))
            return ['---'] * len(self.data.COLUMNS)
    
    def _get_file(self, str_path):
        path = Path(str_path)
        return fs.get_file(path, self.directories.fileclasses)    
    
    def _job_completed(self, jobid):
        # Must be called by subclasses when they detect that an async job is completed.
        if jobid == JOB_SCAN:
            self.notify('results_changed')
        elif jobid in (JOB_LOAD, JOB_MOVE, JOB_DELETE):
            self.notify('results_changed')
            self.notify('problems_changed')
    
    @staticmethod
    def _open_path(path):
        raise NotImplementedError()
    
    @staticmethod
    def _reveal_path(path):
        raise NotImplementedError()
    
    def _select_dupes(self, dupes):
        if dupes == self.selected_dupes:
            return
        self.selected_dupes = dupes
        self.notify('dupes_selected')
    
    def _start_job(self, jobid, func):
        # func(j)
        raise NotImplementedError()
    
    def add_directory(self, d):
        try:
            self.directories.add_path(Path(d))
            self.notify('directories_changed')
            return 0
        except directories.AlreadyThereError:
            return 1
        except directories.InvalidPathError:
            return 2
    
    def add_selected_to_ignore_list(self):
        dupes = self.without_ref(self.selected_dupes)
        for dupe in dupes:
            g = self.results.get_group_of_duplicate(dupe)
            for other in g:
                if other is not dupe:
                    self.scanner.ignore_list.Ignore(unicode(other.path), unicode(dupe.path))
        self.remove_duplicates(dupes)
    
    def apply_filter(self, filter):
        self.results.apply_filter(None)
        if self.options['escape_filter_regexp']:
            filter = escape(filter, '()[]\\.|+?^')
            filter = escape(filter, '*', '.')
        self.results.apply_filter(filter)
        self.notify('results_changed')
    
    def clean_empty_dirs(self, path):
        if self.options['clean_empty_dirs']:
            while files.delete_if_empty(path, ['.DS_Store']):
                path = path[:-1]
    
    def copy_or_move(self, dupe, copy, destination, dest_type):
        """
            copy: True = Copy False = Move
            destination: string.
            dest_type: 0 = right in destination.
                       1 = relative re-creation.
                       2 = absolute re-creation.
        """
        source_path = dupe.path
        location_path = first(p for p in self.directories if dupe.path in p)
        dest_path = Path(destination)
        if dest_type == 2:
            dest_path = dest_path + source_path[1:-1] #Remove drive letter and filename
        elif dest_type == 1:
            dest_path = dest_path + source_path[location_path:-1]
        if not io.exists(dest_path):
            io.makedirs(dest_path)
        # Raises an EnvironmentError if there's a problem
        if copy:
            files.copy(source_path, dest_path)
        else:
            files.move(source_path, dest_path)
            self.clean_empty_dirs(source_path[:-1])
    
    def copy_or_move_marked(self, copy, destination, recreate_path):
        def do(j):
            def op(dupe):
                j.add_progress()
                self.copy_or_move(dupe, copy, destination, recreate_path)
            
            j.start_job(self.results.mark_count)
            self.results.perform_on_marked(op, not copy)
        
        self._demo_check()
        jobid = JOB_COPY if copy else JOB_MOVE
        self._start_job(jobid, do)
    
    def delete_marked(self):
        self._demo_check()
        self._start_job(JOB_DELETE, self._do_delete)
    
    def export_to_xhtml(self, column_ids):
        column_ids = [colid for colid in column_ids if colid.isdigit()]
        column_ids = map(int, column_ids)
        column_ids.sort()
        colnames = [col['display'] for i, col in enumerate(self.data.COLUMNS) if i in column_ids]
        rows = []
        for group in self.results.groups:
            for dupe in group:
                data = self._get_display_info(dupe, group)
                row = [data[colid] for colid in column_ids]
                row.insert(0, dupe is not group.ref)
                rows.append(row)
        return export.export_to_xhtml(colnames, rows)
    
    def invoke_command(self, cmd):
        """Calls command `cmd` with %d and %r placeholders replaced.
        
        Using the current selection, %d is replaced with the currently selected dupe and %r is
        replaced with that dupe's ref file. If there's no selection, the command is not invoked.
        If the dupe is a ref, %d and %r will be the same.
        """
        if not self.selected_dupes:
            return
        dupe = self.selected_dupes[0]
        group = self.results.get_group_of_duplicate(dupe)
        ref = group.ref
        cmd = cmd.replace('%d', unicode(dupe.path))
        cmd = cmd.replace('%r', unicode(ref.path))
        match = re.match(r'"([^"]+)"(.*)', cmd)
        if match is not None:
            # This code here is because subprocess. Popen doesn't seem to accept, under Windows,
            # executable paths with spaces in it, *even* when they're enclosed in "". So this is
            # a workaround to make the damn thing work.
            exepath, args = match.groups()
            path, exename = op.split(exepath)
            subprocess.Popen(exename + args, shell=True, cwd=path)
        else:
            subprocess.Popen(cmd, shell=True)
    
    def load(self):
        self._start_job(JOB_LOAD, self._do_load)
        self.load_ignore_list()
    
    def load_ignore_list(self):
        p = op.join(self.appdata, 'ignore_list.xml')
        self.scanner.ignore_list.load_from_xml(p)
    
    def make_selected_reference(self):
        dupes = self.without_ref(self.selected_dupes)
        changed_groups = set()
        for dupe in dupes:
            g = self.results.get_group_of_duplicate(dupe)
            if g not in changed_groups:
                self.results.make_ref(dupe)
                changed_groups.add(g)
        self.notify('results_changed_but_keep_selection')
    
    def mark_all(self):
        self.results.mark_all()
        self.notify('marking_changed')
    
    def mark_none(self):
        self.results.mark_none()
        self.notify('marking_changed')
    
    def mark_invert(self):
        self.results.mark_invert()
        self.notify('marking_changed')
    
    def mark_dupe(self, dupe, marked):
        if marked:
            self.results.mark(dupe)
        else:
            self.results.unmark(dupe)
        self.notify('marking_changed')
    
    def open_selected(self):
        if self.selected_dupes:
            self._open_path(self.selected_dupes[0].path)
    
    def purge_ignore_list(self):
        self.scanner.ignore_list.Filter(lambda f,s:op.exists(f) and op.exists(s))
    
    def remove_directory(self,index):
        try:
            del self.directories[index]
            self.notify('directories_changed')
        except IndexError:
            pass
    
    def remove_duplicates(self, duplicates):
        self.results.remove_duplicates(self.without_ref(duplicates))
        self.notify('results_changed_but_keep_selection')
    
    def remove_marked(self):
        self.results.perform_on_marked(lambda x:None, True)
        self.notify('results_changed')
    
    def remove_selected(self):
        self.remove_duplicates(self.selected_dupes)
    
    def rename_selected(self, newname):
        try:
            d = self.selected_dupes[0]
            d.rename(newname)
            return True
        except (IndexError, fs.FSError) as e:
            logging.warning("dupeGuru Warning: %s" % unicode(e))
        return False
    
    def reveal_selected(self):
        if self.selected_dupes:
            self._reveal_path(self.selected_dupes[0].path)
    
    def save(self):
        if not op.exists(self.appdata):
            os.makedirs(self.appdata)
        self.directories.save_to_file(op.join(self.appdata, 'last_directories.xml'))
        self.results.save_to_xml(op.join(self.appdata, 'last_results.xml'))
    
    def save_ignore_list(self):
        if not op.exists(self.appdata):
            os.makedirs(self.appdata)
        p = op.join(self.appdata, 'ignore_list.xml')
        self.scanner.ignore_list.save_to_xml(p)
    
    def start_scanning(self):
        def do(j):
            j.set_progress(0, 'Collecting files to scan')
            files = list(self.directories.get_files())
            logging.info('Scanning %d files' % len(files))
            self.results.groups = self.scanner.GetDupeGroups(files, j)
        
        files = self.directories.get_files()
        first_file = first(files)
        if first_file is None:
            raise NoScannableFileError()
        if first_file.is_ref and all(f.is_ref for f in files):
            raise AllFilesAreRefError()
        self.results.groups = []
        self._start_job(JOB_SCAN, do)
    
    def toggle_selected_mark_state(self):
        for dupe in self.selected_dupes:
            self.results.mark_toggle(dupe)
        self.notify('marking_changed')
    
    def without_ref(self, dupes):
        return [dupe for dupe in dupes if self.results.get_group_of_duplicate(dupe).ref is not dupe]
    
    #--- Properties
    @property
    def stat_line(self):
        result = self.results.stat_line
        if self.scanner.discarded_file_count:
            result = '%s (%d discarded)' % (result, self.scanner.discarded_file_count)
        return result