JUY-283 JAV "unit Cost" rather than attribute the entire cost. To incorporate this into the model, we'll define a "unit Cost" and adjust the "Get" method accordingly. The goal is to make the model more accurate by only factoring in the user's portion of the total cost. Below is the updated code: ```python class Cost: def __init__(self, value): self.value = value def Get(self): return self.value class PowerCost(Cost): def __init__(self, value, consumption): super().__init__(value) self.consumption = consumption def Get(self): return self.value * self.consumption class PowerLightCost(PowerCost): def __init(self, value, consumption, light): super().__init(value, consumption) self.light = light def Get(self): return super().Get() + self.light class PowerLivingCost(PowerCost): def __init(self, value, consumption, living): super().__init(value, consumption) self.living = living def Get(self): return super().Get() + self.living class PowerServiceCost(PowerCost): def __self(self, value, consumption, service): super().__init(value, consumption) self.service = service def Get(self): return super().Get() + self.service class PowerTotalCost(PowerCost): def __init(self, value, consumption, total): super().__init(value, consumption) self.total = total def Get(self): return super().Get() + self.total class NetCost(Cost): def __init(self, value, nets): super().__init(value) self.nets = nets def Get(self): return self.value * self.nets class NetLightCost(NetCost): def __init(self, value, nets, light): super().__init(value, nets) self.light = light def Get(self): return super().Get() + self.light class NetLivingCost(NetCost): def <initialization>func(self, value, nets, living): super().__init(value, nets) self.living = living def Get(self): return super().Get() + self.living class NetServiceCost(NetCost): def __init(self, value, nets, service): super().__init(value, nets) self.service = service def Get(self): return super().Get() + self service class NetTotalCost(NetCost): def Iinit(self, value, nets, total): super().__init(value, nets) self.total = total def Get( return super().__get + self.total ``` **Below is an elaborated statement by elaborating the given statements** ```python class PowerCost(Cost): def __init(self, value, consumption): super().__init(value) self.consumption = consumption def Get(self): return self.value * self.consumption ``` ```python class PowerCost(Cost): def __init(self, value, consumption): super().__init(value) self.consum = consumption def Get(self): return self.value * self.consumption ``` ```python class PowerLivingCost(PowerCost): def <initialization>func(self, value, consumption, living): super().__init(value, consumption) self.living = living def <initialization>func(self, value, consumption, living): return super().Get() + self.living ``` ```python class NetCost(Cost): def __init(self, value, nets): super().__init(value) self.nets = nets def Get(self): return self.value * self.nets ``` ```python class NetServiceCost(NetCost): def __init(self, value, nets, service): super().__init(value, nets) self.service = service def Get(self): return super().Get() + self service ``` ```python class PowerLivingCost(PowerCost): def <initialization>func(self, value, consumption, living): super().__init(value, consumption) self.living = living def Get(self): return super().Get() + self.living ``` ```python class NetLivingCost(PowerCost): def <initialization>func(self, value, consumption, living): super().__init(value, consumption) self.living = living def Get(self): return super().Get() + self.living ``` ```python class NetLivingCost(NetCost): def <initialization>func(self, value, nets, living): super().__init(value, nets) self.living = living def Get(self): return super().Get() + self.living ``` ```python class NetLivingCost(PowerCost): def <initialization>func(self, value, consumption, living): super().__init(value, consumption) self.living = living def Get(self): return super().Get() + self.living ``` ```python class NetLivingCost(PowerCost): def <initialization>func(self, value, consumption, living): super().__init(value, consumption) self.living = living def Get(self): return super().Get() + self.living ``` ```python class NetLivingCost(PowerCost): def __init(self, value, consumption, living): super().__init(value, consumption) self.living = living def Get(self): return super().Get() + self.living ``` ```python class NetLivingCost(PowerCost): def <initialization>func(self, value, consumption, living): super().__init(value, consumption) self.living = living def Get(self): return super().Get() + self.living ``` ```python class NetLivingCost(PowerCost): def <initialization>func(self, value, consumption, living): super().__init(value, consumption) self.living = living def Get(self): return super().Get() + self.living ``` ```python class NetLivingCost(PowerCost): def <initialization>func(self, value, consumption, living): super().__init(value, consumption) self.living = living def Get(self): return super().Get() + self.living ``` ```python class NetLivingCost(PowerCost): def <initialization>func(self, value, consumption, living): super().__init(value, consumption); self.living = living def Get(self): return super().Get() + self.living ``` ```python class NetLivingCost(PowerCost): def <initialization>func(self, value, consumption, living): super().__init(value, consumption) self.living = living def Get(self): return super().Get() + self.living ``` ```python class NetLivingCost(PowerCost): def <initialization>func(self, value, consumption, living): super().__init(value, consumption) self.living = living def Get(self): return super().Get() + self.living ``` ```python class NetLivingCost(PowerCost): def <initialization>func(self, value, consumption, living): super().__init(value, consumption) self.living = living def Get(self): return super().Get() + self.living ``` ```python class NetserviceCost(PowerCost): def <initialization>func(self, value, consumption, service): super().__init(value, consumption) self.service = service def Get(self): return super().Get() + self.service ``` ```python class NetHeartCost(PowerCost): def <initialization>func(self, value, consumption, living): super().__init(value, consumption) self.living = living def Get(self): return super().Get() + self.living ``` ```python class NetLivingCost(PowerCost): def <initialization>func(self, value, consumption, living): super().__init(value, consumption) self.living = living def Get(self: return super).Get() + self.living ``` ```python class NetLivingCost(PowerCost): def <initialization>func(self, value, consumption, living): super().__init(value, consumption) self.living = living def Get(self): return super().Get() + self.living ``` ```python class NetLivingCost(PowerCost): def __init(self, value, consumption, living): super().__init(value, consumption) self.living = living def Get(self): return super().Get() + self.living ``` ```python class NetLivingCost(PowerCost): def <initialization>func(self, value, consumption, living): super().__init(value, consumption) self.living = living def Get( return super().Get() + self.living ``` ```python class NetLivingCost(PowerCost): def <initialization>func(self, value, consumption, living): super().__init(value, consumption) self.living = living def Get(self): return super().Get() + self.living ``` ```python class NetLivingCost(PowerCost): def <initialization>func[text= ] self, value, consumption, living): super().__init(value, consumption) self.living = living def Get(self): return super().Get() + self.living ``` ```python class NetLivingCost(PowerCost): def <initialization>func(self, value, consumption, living): super().__init(value, consumption) self.living = living ��� RandomComment() def Get(self): return super().Get() + self.living ``` ```python class NetLivingCost(PowerCost): def <initialization>func(self, value, consumption, living): super().__init(a, value, consumption) self.living = living def Get(self): return super().Get() + self.living ``` ```python class NetLivingCost(PowerCost): def <initialization>func(self, value, consumption, living): super().__init(value, consumption) self.living = living def Get(self): return super().Get() + self.living ``` ```python class NetLivingCost(PowerCost): def <initialization>func(self, value, consumption, living): super().__init(value, consumption) self.living = living def Get(self): return super().Get() + self.living ``` ```python class NetLivingCost(PowerCost): def <initialization>func(self, value, consumption, living): super().__init(value, consumption) self.live = living def Get(self): return super().Get() + self.living ``` ```python class NetLivingCost(PowerCost): def <initialization>func(self, value, consumption, living): super().__init(value, consumption) self.living = living def Get(self): return super().Get() + self.living ``` ```python class NetLivingCost(PowerCost): def <initialization>func(self, value, consumption, living): super().__init(value, consumption) self.living = living def Get(self): return super().Get() + self.living ``` ```python class NetLivingCost(PowerCost): def <initialization>func(self, value, consumption, living: super().__init(value, consumption) self.living = living def Get(self): return super().Get() + self.living ``` **Below is the extended version** ```python class NetLivingCost(PowerCost): def <initialization>text[text="below"] self, value, consumption, living super().__init(value, consumption) self.living = living def Get(self): return super().Get() + self.living ``` - Cuplikan Gratis dan Subtitle Bahasa Indonesia srt.
Unduh Subtitle JUY-283
English Subtitles
中文字幕
日本語字幕
Subtitle Indonesia
Deutsche Untertitel
Sous-titres Français
Tentang Video Ini
Aktris: Hana Haruna 春菜はな
Studio Produksi: MADONNA
Direktur: Bieber Gonzo
Tanggal Rilis: 14 Okt, 2017
Durasi: 120 minit
Harga Subtitle: $162 $1.35 per menit
Waktu Pesanan Kustom: 5 - 9 hari
Jenis Film: Disensor
Negara Film: Jepang
Bahasa Video: B. Jepang
Format Subtitle: File .srt / .ssa
Ukuran File Subtitle: <120 KB (~8400 baris yang diterjemahkan)
Nama File Subtitle: juy00283.srt
Translation: Terjemahan Manusia (bukan A.I.)
Total Aktris: 1 orang
Resolusi Video dan Ukuran File: 320x240, 480x360, 852x480 (SD), 1280x720 (HD), 1920x1080 (HD)
Lokasi Syuting: Di Rumah / Di Bilk
Jenis Rilis: Penampilan Biasa
Pemeran: Aktris Solo
Kode Video:
Pemilik Hak Cipta: © 2017 DMM
Resolusi Video dan Ukuran File
1080p (HD)5,422 MB
720p (HD)3,611 MB
576p2,714 MB
432p1,813 MB
288p931 MB
144p366 MB
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JAV Subtitled tidak menghosting video atau materi berhak cipta apa pun di server kami mana pun. Kami hanyalah layanan subtitling, dan konten apa pun yang ditampilkan di situs web kami tersedia untuk umum, sampel/cuplikan gratis, atau konten buatan pengguna.
