<?xml version="1.0" encoding="UTF-8"?>
<!-- 
     Copyright (C) 2016 The Android Open Source Project

     Licensed under the Apache License, Version 2.0 (the "License");
     you may not use this file except in compliance with the License.
     You may obtain a copy of the License at

          http://www.apache.org/licenses/LICENSE-2.0

     Unless required by applicable law or agreed to in writing, software
     distributed under the License is distributed on an "AS IS" BASIS,
     WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
     See the License for the specific language governing permissions and
     limitations under the License.
 -->

<resources xmlns:android="http://schemas.android.com/apk/res/android"
    xmlns:xliff="urn:oasis:names:tc:xliff:document:1.2">
    <string name="app_name" msgid="3551052199033657984">"Default print service"</string>
    <string name="printer_busy" msgid="8604311528104955859">"Busy"</string>
    <string name="printer_out_of_paper" msgid="4882186432807703877">"Out of paper"</string>
    <string name="printer_out_of_ink" msgid="7361897651097675464">"Out of ink"</string>
    <string name="printer_out_of_toner" msgid="2077516357225364154">"Out of toner"</string>
    <string name="printer_low_on_ink" msgid="3515015872393897705">"Low on ink"</string>
    <string name="printer_low_on_toner" msgid="8807858294038587130">"Low on toner"</string>
    <string name="printer_door_open" msgid="2446302931916940874">"Door open"</string>
    <string name="printer_jammed" msgid="5104099859384749499">"Jammed"</string>
    <string name="printer_offline" msgid="9196864753298645066">"Offline"</string>
    <string name="printer_check" msgid="6428369671197132828">"Check printer"</string>
    <string name="waiting_to_send" msgid="2022115199902822180">"Waiting to send"</string>
    <string name="unreadable_input" msgid="2199948329556527912">"Could not read document"</string>
    <string name="media_size_l" msgid="164416542021598181">"L"</string>
    <string name="media_size_5x7in" msgid="1275128379533195285">"5 x 7 in"</string>
    <string name="media_size_89x119mm" msgid="6828167243395807385">"89 x 119 mm"</string>
    <string name="media_size_54x86mm" msgid="1301991206183343895">"54 x 86 mm"</string>
    <string name="media_size_8x10in" msgid="1872576638522812402">"8 x 10 in"</string>
    <string name="media_size_4x6in" msgid="3093276425529958253">"4 x 6 in"</string>
    <string name="printer_description" msgid="8580767673213837142">"%1$s – %2$s"</string>
    <string name="title_activity_add_printer" msgid="9119216095769228566">"Add printer"</string>
    <string name="add_printer_by_ip" msgid="562864787592910327">"Add printer by IP address"</string>
    <string name="hostname_or_ip" msgid="3460546103553992915">"Hostname or IP address"</string>
    <string name="ip_hint" msgid="7939777481941979799">"192.168.0.4"</string>
    <string name="add" msgid="1950342261671100906">"Add"</string>
    <string name="add_named" msgid="9074106244018070583">"Add <xliff:g id="PRINTER">%1$s</xliff:g>"</string>
    <string name="no_printer_found" msgid="4777867380924351173">"No printer found at this address"</string>
    <string name="printer_not_supported" msgid="281955849350938408">"Printer not supported"</string>
    <string name="wifi_direct" msgid="4629404342852294985">"Wi-Fi Direct"</string>
    <string name="find_wifi_direct" msgid="5270504288829123954">"Find Wi-Fi Direct printers"</string>
    <string name="wifi_direct_printers" msgid="541168032444693191">"Wi-Fi Direct printers"</string>
    <string name="searching" msgid="2114018057619514587">"Searching…"</string>
    <string name="connect_hint_text" msgid="587112503851044234">"You may need to approve this connection on your printer\'s front panel"</string>
    <string name="connecting_to" msgid="2665161014972086194">"Connecting to <xliff:g id="PRINTER">%1$s</xliff:g>"</string>
    <string name="failed_printer_connection" msgid="4196305972749960362">"Could not connect to printer"</string>
    <string name="failed_connection" msgid="8068661997318286575">"Could not connect to <xliff:g id="PRINTER">%1$s</xliff:g>"</string>
    <string name="saved_printers" msgid="4567534965213125526">"Saved printers"</string>
    <string name="forget" msgid="892068061425802502">"Forget"</string>
    <string name="connects_via_wifi_direct" msgid="652300632780158437">"Connects via Wi-Fi Direct"</string>
    <string name="connects_via_network" msgid="5990041581556733898">"Connects via current network at <xliff:g id="IP_ADDRESS">%1$s</xliff:g>"</string>
</resources>
