ono_sendai - wip

metro_holografix/cardtypes.py

@@ -32,7 +32,7 @@ class TaggedCards:
         return self.cards.__iter__()
 
     def __eq__(self, other):
-        assert type(other) is type(self)
+        assert type(other) is type(self), type(other)
         if len(other.cards) != len(self.cards) or self.tag != other.tag or self.tipo != other.tipo:
             return False
         else:
@@ -53,7 +53,6 @@ class TaggedCards:
             return False
 
 class Tavolo:
-    cards = list() # lista di taggedcards
     def __init__(self, cs):
         assert type(cs) is list
         self.cards = cs
@@ -83,6 +82,9 @@ class Tavolo:
     def punteggio(self):
         return len(self.getValide()) - len(self.getNonValide())
 
+    def singles(self):
+        return [c for c in self.cards if c.tipo == 'Singolo']
+
 # old ocaml work
 def flatten(lst):
     return sorted([s for subl in lst for s in subl], key=lambda x: x.value)

metro_holografix/scrapes/cardtypes.py

@@ -0,0 +1,156 @@
+from collections import namedtuple;
+
+Card = namedtuple('Card', 'seed value')
+
+class Mano:
+    cards = list() # lista di cards 
+    def __init__(self, carte):
+        assert type(carte) is list and type(carte[0]) is Card
+        self.cards = carte # lista di Carte
+
+class TaggedCards:
+    cards = None
+    tag = ''
+    tipo = ''
+    def __init__(self, carte):
+        assert type(carte) is list and type(carte[0]) is Card
+        self.cards = list(sorted(carte, key=lambda x: str(x))) # lista di Carte
+        self.tag = 'NonValido' if not is_valida(self.cards) else 'Valido'
+        self.tipo = 'Singolo' if len(carte) == 1 else 'Tris' if is_tris(carte) else 'Scala'
+
+    def __hash__(self):
+        import functools
+        def cmp(c1, c2):
+            return c1.value < c2.value if c1.seed == c2.seed else c1.seed < c2.seed
+        lst = tuple(sorted(self.cards, key=functools.cmp_to_key(cmp)))
+        return hash(lst)
+
+    def __repr__(self):
+        return "TaggedCards<%s, %s, %s>" % (self.cards, self.tag, self.tipo)
+
+    def __iter__(self):
+        return self.cards.__iter__()
+
+    def __eq__(self, other):
+        assert type(other) is type(self)
+        if len(other.cards) != len(self.cards) or self.tag != other.tag or self.tipo != other.tipo:
+            return False
+        else:
+            return set(self.cards) == set(other.cards)
+
+    def __gt__(self, other):
+        if self.tipo == 'Tris' and len(self.cards) == 4:
+            return False
+        if other.tipo == 'Tris' and len(other.cards) == 4:
+            return True
+        elif self.tipo != 'Singolo' and other.tipo == 'Singolo':
+            return True
+        elif self.tipo == 'Singolo' and other.tipo != 'Singolo':
+            return False
+        elif self.tag == 'NonValido' and other.tag == 'Valido':
+            return True
+        else:
+            return False
+
+class Tavolo:
+    cards = list() # lista di taggedcards
+    def __init__(self, cs):
+        assert type(cs) is list
+        self.cards = cs
+
+    def __hash__(self):
+        return sum([c.__hash__() for c in self.cards])
+
+    def __repr__(self):
+        return "Tavolo<%s>" % (self.cards,)
+
+    def getNonValide(self):
+        assert type(self.cards[0]) is TaggedCards
+        f = [c for c in self.cards if c.tag == 'NonValido']
+        return f
+
+    def getValide(self):
+        assert type(self.cards[0]) is TaggedCards
+        f = [c for c in self.cards if c.tag == 'Valido']
+        return f
+
+    def getAll(self):
+        return self.cards
+
+    def llen(self):
+        return len(flatten(self.getAll()))
+
+    def punteggio(self):
+        return len(self.getValide()) - len(self.getNonValide())
+
+# old ocaml work
+def flatten(lst):
+    return sorted([s for subl in lst for s in subl], key=lambda x: x.value)
+
+def no_double_seed(carte):
+   seeds = set([c.seed for c in carte])
+   return len(seeds) == len(carte)
+
+def is_only_one_seed(carte):
+   seeds = set([c.seed for c in carte])
+   return len(seeds) == 1
+
+def no_double_value(carte):
+   seeds = set([c.value for c in carte])
+   return len(seeds) == len(carte)
+
+def is_tris(carte):
+   values = set([c.value for c in carte])
+   if len(values) == 1:
+       return no_double_seed(carte)
+   else:
+       return False
+
+def split(values, accum=[]):
+    a = values[0]
+    if len(values) > 2:
+        b = values[1]
+        if a == b - 1:
+            return split(values[1:], accum + [a])
+        else:
+            return accum + [a], values[1:]
+    else:
+        return accum + [a], values[1:]
+
+def is_straight(carte):
+    assert type(carte) is list and type(carte[0]) is Card
+    def _is_straight(carte):
+        if len(carte) == 1:
+            return True
+        elif len(carte) == 0:
+            assert False
+        else:
+            a = carte[0]
+            b = carte[1]
+            if a == b - 1:
+                return _is_straight(carte[1:])
+            else:
+                return False
+
+    if not (no_double_value(carte) and is_only_one_seed(carte)):
+        return False
+    else:
+        values = [v for s, v in sorted(carte, key=lambda x:x.value)]
+        first, last = values[0], values[-1]
+        if last == 13 and first == 1:
+            head, tail = split(values)
+            return _is_straight(head) and _is_straight(tail)
+        else:
+            return _is_straight(values)
+
+def is_valida(carte):
+    carte = list(sorted(carte, key = lambda x : x[1]))
+    if len(carte) < 3:
+        return False
+    else:
+        a = carte[0][1]
+        b = carte[1][1]
+        if a == b:
+            return is_tris(carte)
+        else:
+            return is_straight(carte)

ono_sendai/animation/0.txt

@@ -20,3 +20,4 @@
 
 
 
+LOADING...

ono_sendai/animation/1.txt

@@ -20,3 +20,4 @@
                                       Φ╚╫╫╫╫`  ▀╬╫N╨▌
                                        ▒╩╫╫╫▌   ▀╫╫╧*
     
+LOADING...

ono_sendai/animation/2.txt

@@ -20,3 +20,4 @@
                                       "╩Ñ╬▌     ╙ÑÑ╨`
 
 
+LOADING...

ono_sendai/animation/3.txt

@@ -20,3 +20,4 @@
                             `       .╬]╫╫╫╫╛   ╙▓╫╫N╨╫⌐     `
                                       "╩Ñ╣▀      ╙ÑÑ"
 
+LOADING...    

ono_sendai/animation/4.txt

@@ -20,3 +20,4 @@
                      '╝╨'"╜▀ßM^`     ▒╨╫╫╫╫⌐   ▀╬╫Ñ╙╫⌐    └╝╧╙└` ╜┘
                                       "╩ÑÑ╩     ▀ÑÑ"`
     
+LOADING...

ono_sendai/animation/octopus.py

@@ -7,11 +7,12 @@ from os import system
 
 frames = []
 for i in range(5):
-    with open(str(i)+'.txt', 'r') as f:
+    with open('animation/'+str(i)+'.txt', 'r') as f:
         content = f.read()
     frames.append(f'{Fore.MAGENTA}'+content+f'{Style.RESET_ALL}')
 
 def animate(n):
+    system('clear')
     for i in range(n):
         print(frames[i%5])
         sleep(0.2)

ono_sendai/broker.py

@@ -1,4 +0,0 @@
-from colorama import Style,Fore
-from symbols import *
-
-print(big['hat'] + n + big['clovers'] + n + big[1] + n + clovers[2] + n + clovers[3] + n)

ono_sendai/cards

@@ -1,25 +0,0 @@
- ___ 
-❘♠  ❘
-❘ ̲̲ ̲2̲❘   
-❘♠̲̲ ̲1̲❘    
-❘♠̲̲ ̲K̲❘
- ___ 
-❘♦  ❘
-❘ ̲̲ ̲3̲❘
-❘♦̲̲ ̲4̲❘
-❘♦̲̲ ̲5̲❘ 
-❘♦̲̲ ̲6̲❘ 
-❘♦̲̲ ̲7̲❘ 
-❘♦̲̲ ̲8̲❘ 
-❘♦̲̲ ̲9̲❘ 
-❘♦̲̲1̲0̲❘
- ___ 
-❘♥  ❘ 
-❘ ̲̲ ̲8̲❘ 
-❘♥̲̲ ̲9̲❘ 
-❘♥̲̲ ̲Q̲❘
- ___ 
-❘♣  ❘ 
-❘ ̲̲ ̲4̲❘
-❘♣̲̲ ̲5̲❘ 
-❘♣̲̲ ̲6̲❘ 

ono_sendai/demo.py

@@ -0,0 +1,23 @@
+
+    self.events = [ # list of tuples table-hand
+#     (Table([
+#         TaggedCards([
+#             Card("Pikes", 2),
+#             Card("Clovers", 2),
+#             Card("Tiles", 2),
+#             Card("Hearts", 2)]),
+#         TaggedCards([
+#             Card("Hearts", 1),
+#             Card("Clovers", 1),
+#             Card("Pikes", 1),
+#             Card("Tiles", 1)]),
+#     ]), Hand([
+#         Card("Pikes", 12),
+#         Card("Clovers", 12),
+#         Card("Tiles", 12),
+#         Card("Hearts", 12),
+#         Card("Hearts", 13),
+#         Card("Clovers", 13),
+#         Card("Pikes", 13),
+#         Card("Tiles", 13)
+#     ]))

ono_sendai/prova.py

@@ -2,12 +2,16 @@ from picotui.context import Context
 from picotui.screen import Screen
 
 from time import sleep
+import os
 
 from widgets import *
 import state
 
 action = ''
 exit = False
+ID = "tui"
+
+game = state.State([ID, "bot1"])
 
 class FrameFactory:
     titles = ['0x10', '0x11', '0x12', '0x13', '0x14', '0x15', '0x16', '0x17',
@@ -85,7 +89,7 @@ class FrameFactory:
     def newHandFrame(self, cards):
         assert type(cards) is list, type(cards)
         h = 27 # height ?
-        self.d.add(1, 1, WColoredFrame(12, h, 'HAND', blue)) 
+        self.d.add(1, 1, WColoredFrame(12, h, 'HAND: '+str(len(cards)), blue)) 
         coloredCards = [f'{Fore.BLUE}'+cards[0]] + cards[1:-1] + [cards[-1]+f'{Style.RESET_ALL}']
         w = WCardRadioButton(coloredCards, -1, self.constrainAllWidgets, isHand=True)
         self.d.add(2, 2, w)
@@ -151,9 +155,36 @@ def makeButtons(d):
         global action ; action = "BACK"
     buttonback.on_click = doBack
 
+def wrong_play():
+    from sys import stdout
+    os.system('clear')
+    print(f'{Fore.RED}'+'Wrong play. Retry...'+f'{Style.RESET_ALL}')
+    sleep(2)
 
+def make_auto_move():
+    import sys
+    from animation.octopus import animate
+    pid = os.fork()
+    if pid == 0:
+        # child
+        os.system('sleep 1')
+        os.system('echo DRAW')
+        sys.exit()
+    else:
+        p = os.waitpid(pid, os.WNOHANG)
+        while p == (0, 0):
+            animate(10)
+            p = os.waitpid(pid, os.WNOHANG)
+        game.draw()
+        game.next_turn()
+    
+
+game.next_turn()
 while not exit:
-    table, hand = state.next()
+    while game.cur_player != ID:
+        make_auto_move()
+        
+    table, hand = game.last()
     with Context():
 
         Screen.attr_color(C_WHITE, C_GREEN)
@@ -179,15 +210,20 @@ while not exit:
                 exit = True
             elif action == 'MOVE':
                 # TODO: transition effect
-                state.update_table(table, hand, *f.getChoices()) # get them from next
+                game.advance(*f.getChoices()) # get them from next
             elif action == 'DRAW':
-                pass
+                game.draw()
+                game.next_turn()
             elif action == 'RESET':
-                while state.size() > 1:
-                    state.prev()
+                while game.size() > 1:
+                    game.backtrack()
             elif action == 'SEND':
-                pass
+                try:
+                    game.done()
+                    game.next_turn()
+                except state.WrongMoveException as e:
+                    wrong_play()
             elif action == 'BACK':
-                state.prev()
+                game.backtrack()
             else:
                 assert False

ono_sendai/state.py

@@ -1,15 +1,18 @@
 import sys
 sys.path.append('../')
 import json
+from copy import deepcopy as copy
+from functools import cmp_to_key
+
+from IPython import embed as fuck
 
 from metro_holografix.cardtypes import *
 import symbols as sym
 
-Hand = Tavolo
 class Table(Tavolo):
 
     def is_valid(self):
-        return len(self.getNonValide()) == 0
+        return len(self.singles()) == 0 and len(self.getNonValide()) == 0
 
     def widget_repr(self):
         for ts in self.cards:
@@ -25,7 +28,9 @@ class Table(Tavolo):
 
 class Hand:
     def __init__(self, cards):
-        self.cards = cards
+        def sortc(a, b):
+            return -1 if (a[1],a[0]) < (b[1],b[0]) else 1
+        self.cards = list(sorted(cards, key=cmp_to_key(sortc)))
 
     def widget_repr(self):
         yi = [sym.big['hat']]
@@ -37,30 +42,69 @@ class Hand:
             yi.append(sym.sym[seed][card[1]])
         return yi
 
+def make_deck():
+    from random import shuffle # TODO: mersenne
+    def make_set(seed):
+        for i in range(1, 14):
+            yield Card(seed, i)
+    odeck = [m for seed in ['Pikes', 'Hearts', 'Clovers', 'Tiles']  for m in make_set(seed)]
+    shuffle(odeck)
+    return odeck
 
-events = [ # list of tuples table-hand
-    (Table([
-        TaggedCards([
-            Card("Pikes", 2),
-            Card("Clovers", 2),
-            Card("Tiles", 2),
-            Card("Hearts", 2)]),
-        TaggedCards([
-            Card("Hearts", 1),
-            Card("Clovers", 1),
-            Card("Pikes", 1),
-            Card("Tiles", 1)]),
-    ]), Hand([
-        Card("Pikes", 12),
-        Card("Clovers", 12),
-        Card("Tiles", 12),
-        Card("Hearts", 12),
-        Card("Hearts", 13),
-        Card("Clovers", 13),
-        Card("Pikes", 13),
-        Card("Tiles", 13)
-    ]))
-]
+class WrongMoveException(Exception):
+    pass
+
+class State:
+    def __init__(self, ids):
+        self.deck = make_deck()
+        self.players = dict()
+        self.table = Table([])
+        self.round = None
+        self.ids = ids
+        self.cur_player = ids[0]
+        for i in ids:
+            cards = [self.deck.pop() for i in range(11)]
+            self.players[i] = Hand(cards)
+
+    def draw(self):
+        hand = self.players[self.cur_player] 
+        nhand = Hand(hand.cards + [self.deck.pop()])
+        self.players[self.cur_player] = nhand
+        self.round = None
+
+    def next_turn(self):
+        assert self.round is None
+        next_player = self.ids[(self.ids.index(self.cur_player) + 1) % len(self.ids)]
+        self.cur_player = next_player
+        self.round = [(copy(self.table), copy(self.players[self.cur_player]))]
+
+    def done(self):
+        assert self.round is not None
+        original = self.table
+        table, hand = self.last()
+        if not table.is_valid() or len(set(original.cards) - set(table.cards)) != 0:
+            raise WrongMoveException()
+        else:
+            self.table, self.players[self.cur_player] = table, hand
+            self.round = None
+        
+    def last(self):
+        return self.round[-1]
+
+    def backtrack(self):
+        if len(self.round) >= 2:
+            return self.round.pop()
+        else:
+            return self.round[0]
+
+    def size(self):
+        return len(self.round)
+
+    def advance(self, src, dst):
+        table, hand = self.last()
+        t, h = gioca(table, hand, src, dst)
+        self.round.append((t, h))
+        return t, h
 
 def fromJson(j):
     hcards = [Card(seed, value) for seed, value in j['hand']]
@@ -77,17 +121,6 @@ def toJson(table, hand):
         j['table'].append(tc.cards)
     return json.dumps(j)
 
-def next():
-    return events[-1]
-
-def prev():
-    if len(events) >= 2:
-        return events.pop()
-    else:
-        return events[0]
-
-def size():
-    return len(events)
 
 # TODO: refactor language
 def gioca(tavolo, hand, src, dst):
@@ -116,7 +149,3 @@ def gioca(tavolo, hand, src, dst):
             news.append(t)
     return Table(news), Hand(hcards)
 
-def update_table(table, hand, src, dst):
-    t, h = gioca(table, hand, src, dst)
-    events.append((t, h))
-    return t, h

ono_sendai/symbols.py

@@ -7,7 +7,7 @@ pikes = {
     6:  '❘♠̲̲ ̲6̲❘',
     7:  '❘♠̲̲ ̲7̲❘',
     8:  '❘♠̲̲ ̲8̲❘',
-    8:  '❘♠̲̲ ̲9̲❘',
+    9:  '❘♠̲̲ ̲9̲❘',
     10: '❘♠̲̲1̲0̲❘',
     11: '❘♠̲̲ ̲J̲❘',
     12: '❘♠̲̲ ̲Q̲❘',
@@ -23,7 +23,7 @@ clovers = {
     6:  '❘♣̲̲ ̲6̲❘',
     7:  '❘♣̲̲ ̲7̲❘',
     8:  '❘♣̲̲ ̲8̲❘',
-    8:  '❘♣̲̲ ̲9̲❘',
+    9:  '❘♣̲̲ ̲9̲❘',
     10: '❘♣̲̲1̲0̲❘',
     11: '❘♣̲̲ ̲J̲❘',
     12: '❘♣̲̲ ̲Q̲❘',
@@ -39,7 +39,7 @@ hearts = {
     6:  '❘♥̲̲ ̲6̲❘',
     7:  '❘♥̲̲ ̲7̲❘',
     8:  '❘♥̲̲ ̲8̲❘',
-    8:  '❘♥̲̲ ̲9̲❘',
+    9:  '❘♥̲̲ ̲9̲❘',
     10: '❘♥̲̲1̲0̲❘',
     11: '❘♥̲̲ ̲J̲❘',
     12: '❘♥̲̲ ̲Q̲❘',
@@ -55,7 +55,7 @@ tiles = {
     6:  '❘♦̲̲ ̲6̲❘',
     7:  '❘♦̲̲ ̲7̲❘',
     8:  '❘♦̲̲ ̲8̲❘',
-    8:  '❘♦̲̲ ̲9̲❘',
+    9:  '❘♦̲̲ ̲9̲❘',
     10: '❘♦̲̲1̲0̲❘',
     11: '❘♦̲̲ ̲J̲❘',
     12: '❘♦̲̲ ̲Q̲❘',