Add a card_name parameter

[naja.git] / naja / tests / test_gameboard.py

diff --git a/naja/tests/test_gameboard.py b/naja/tests/test_gameboard.py
index bbc51284cfcb9847b6cfe8e8e194d482f126c802..5b383991273e9d20f919a54cfec4104913ffcbae 100644 (file)
--- a/naja/tests/test_gameboard.py
+++ b/naja/tests/test_gameboard.py
@@ -1,11 +1,20 @@
 from unittest import TestCase
 
-from naja.constants import BITS
+from naja.constants import BITS, MOVES, EXAMINE
 from naja.gameboard import GameBoard, LocationCard
+from naja.options import parse_args
 from naja import actions
 
 
 class TestGameBoard(TestCase):
+    def setUp(self):
+        parse_args([])
+
+    def make_deck(self, cards=None):
+        if cards is None:
+            cards = [{'card_name': 'card', 'actions': []}]
+        return {'cards': cards}
+
     def assert_state(self, state1, state2, exclude=(), player_exclude=()):
         def filter_dict(source, exclude_keys):
             return dict((k, v) for k, v in source.items()
@@ -21,10 +30,16 @@ class TestGameBoard(TestCase):
         self.assertEqual(state1, state2)
 
     def test_export_new_board(self):
-        board = GameBoard.new_game([{'actions': [{
+        board = GameBoard.new_game({'cards': [
+            {'card_name' : 'card1', 'actions': [
+            {
                 'action_class': 'LoseHealthOrMSB',
                 'required_bits': [],
-        }]}])
+            }, {
+                'action_class': 'GainHealth',
+                'required_bits': [BITS.RED],
+            },
+        ]}]})
         exported_state = board.export()
         board_locations = exported_state.pop('board_locations')
         self.assertEqual(exported_state, {
@@ -32,27 +47,42 @@ class TestGameBoard(TestCase):
             'health': 4,
             'wins_required': 4,
             'wins': 0,
-            'locations': [{'actions': [{
-                'action_class': 'LoseHealthOrMSB',
-                'required_bits': [],
-            }]}],
+            'locations': [{'card_name' : 'card1', 'actions': [
+                {
+                    'action_class': 'LoseHealthOrMSB',
+                    'required_bits': [],
+                }, {
+                    'action_class': 'GainHealth',
+                    'required_bits': [BITS.RED],
+                },
+            ]}],
             'player': board.player.export(),
+            'puzzle': False,
+            'player_mode': EXAMINE,
         })
-        self.assertEqual(
-            set(board_locations.keys()),
-            set((x, y) for x in range(5) for y in range(5)))
-        for location_state in board_locations.values():
+        positions = []
+        for position, location_state in board_locations:
+            positions.append(position)
             self.assertEqual(
-                sorted(location_state.keys()), ['actions', 'bitwise_operand'])
-            self.assertEqual(location_state['actions'], [{
-                'action_class': 'LoseHealthOrMSB',
-                'required_bits': [],
-                'data': {},
-            }])
+                sorted(location_state.keys()), ['actions', 'bitwise_operand',
+                                                'card_name'])
+            self.assertEqual(location_state['actions'], [
+                {
+                    'action_class': 'LoseHealthOrMSB',
+                    'required_bits': [],
+                    'data': {},
+                }, {
+                    'action_class': 'GainHealth',
+                    'required_bits': [BITS.RED],
+                    'data': {},
+                },
+            ])
             self.assertTrue(2 <= len(location_state['bitwise_operand']) <= 3)
+        self.assertEqual(
+            positions, sorted((x, y) for x in range(5) for y in range(5)))
 
     def test_lose_health(self):
-        board = GameBoard.new_game([{'actions': []}])
+        board = GameBoard.new_game(self.make_deck())
         self.assertEqual(board.health, 4)
         state_1 = board.export()
 
@@ -63,7 +93,7 @@ class TestGameBoard(TestCase):
         self.assert_state(state_1, state_2, exclude=['health'])
 
     def test_gain_health(self):
-        board = GameBoard.new_game([{'actions': []}])
+        board = GameBoard.new_game(self.make_deck())
         board.health = 2
         self.assertEqual(board.health, 2)
         state_1 = board.export()
@@ -75,7 +105,7 @@ class TestGameBoard(TestCase):
         self.assert_state(state_1, state_2, exclude=['health'])
 
     def test_gain_health_at_max(self):
-        board = GameBoard.new_game([{'actions': []}])
+        board = GameBoard.new_game(self.make_deck())
         self.assertEqual(board.health, 4)
         state_1 = board.export()
 
@@ -85,6 +115,118 @@ class TestGameBoard(TestCase):
 
         self.assert_state(state_1, state_2)
 
+    def generate_locations(self, override_dict=None):
+        locations_dict = dict(((x, y), '%s%s' % (x, y))
+                              for x in range(5) for y in range(5))
+        if override_dict:
+            locations_dict.update(override_dict)
+        return locations_dict
+
+    def test_shift_locations_north(self):
+        board = GameBoard.new_game(self.make_deck())
+        board.board_locations = self.generate_locations()
+        board.shift_locations('NORTH')
+        self.assertEqual(board.board_locations, self.generate_locations({
+            (2, 0): '21', (2, 1): '23', (2, 3): '24', (2, 4): '20',
+        }))
+
+    def test_shift_locations_south(self):
+        board = GameBoard.new_game(self.make_deck())
+        board.board_locations = self.generate_locations()
+        board.shift_locations('SOUTH')
+        self.assertEqual(board.board_locations, self.generate_locations({
+            (2, 0): '24', (2, 1): '20', (2, 3): '21', (2, 4): '23',
+        }))
+
+    def test_shift_locations_east(self):
+        board = GameBoard.new_game(self.make_deck())
+        board.board_locations = self.generate_locations()
+        board.shift_locations('EAST')
+        self.assertEqual(board.board_locations, self.generate_locations({
+            (0, 2): '42', (1, 2): '02', (3, 2): '12', (4, 2): '32',
+        }))
+
+    def test_shift_locations_west(self):
+        board = GameBoard.new_game(self.make_deck())
+        board.board_locations = self.generate_locations()
+        board.shift_locations('WEST')
+        self.assertEqual(board.board_locations, self.generate_locations({
+            (0, 2): '12', (1, 2): '32', (3, 2): '42', (4, 2): '02',
+        }))
+
+    def test_rotate_locations_anticlockwise(self):
+        board = GameBoard.new_game(self.make_deck())
+        board.board_locations = self.generate_locations()
+        board.rotate_locations('ANTICLOCKWISE')
+        self.assertEqual(board.board_locations, self.generate_locations({
+            (1, 1): '21', (2, 1): '31', (3, 1): '32',
+            (1, 2): '11',               (3, 2): '33',
+            (1, 3): '12', (2, 3): '13', (3, 3): '23',
+        }))
+
+    def test_rotate_locations_anticlockwise_top(self):
+        board = GameBoard.new_game(self.make_deck(), initial_pos=(2, 0))
+        board.board_locations = self.generate_locations()
+        board.rotate_locations('ANTICLOCKWISE')
+        self.assertEqual(board.board_locations, self.generate_locations({
+            (1, 0): '30',               (3, 0): '31',
+            (1, 1): '10', (2, 1): '11', (3, 1): '21',
+        }))
+
+    def test_rotate_locations_anticlockwise_right(self):
+        board = GameBoard.new_game(self.make_deck(), initial_pos=(0, 2))
+        board.board_locations = self.generate_locations()
+        board.rotate_locations('ANTICLOCKWISE')
+        self.assertEqual(board.board_locations, self.generate_locations({
+            (0, 1): '11', (1, 1): '12',
+                          (1, 2): '13',
+            (0, 3): '01', (1, 3): '03',
+        }))
+
+    def test_rotate_locations_anticlockwise_corner(self):
+        board = GameBoard.new_game(self.make_deck(), initial_pos=(0, 4))
+        board.board_locations = self.generate_locations()
+        board.rotate_locations('ANTICLOCKWISE')
+        self.assertEqual(board.board_locations, self.generate_locations({
+            (0, 3): '13', (1, 3): '14',
+                          (1, 4): '03',
+        }))
+
+    def test_rotate_locations_clockwise(self):
+        board = GameBoard.new_game(self.make_deck())
+        board.board_locations = self.generate_locations()
+        board.rotate_locations('CLOCKWISE')
+        self.assertEqual(board.board_locations, self.generate_locations({
+            (1, 1): '12', (2, 1): '11', (3, 1): '21',
+            (1, 2): '13',               (3, 2): '31',
+            (1, 3): '23', (2, 3): '33', (3, 3): '32',
+        }))
+
+    def test_rotate_locations_clockwise_1_3(self):
+        board = GameBoard.new_game(self.make_deck(), initial_pos=(1, 3))
+        board.board_locations = self.generate_locations()
+        board.rotate_locations('CLOCKWISE')
+        self.assertEqual(board.board_locations, self.generate_locations({
+            (0, 2): '03', (1, 2): '02', (2, 2): '12',
+            (0, 3): '04',               (2, 3): '22',
+            (0, 4): '14', (1, 4): '24', (2, 4): '23',
+        }))
+
+    def test_allow_chess_move_knight(self):
+        board = GameBoard.new_game(self.make_deck())
+        board.allow_chess_move(MOVES.KNIGHT)
+        self.assertEqual(board.player.movement_mode, MOVES.KNIGHT)
+
+    def test_allow_chess_move_bishop(self):
+        board = GameBoard.new_game(self.make_deck())
+        board.allow_chess_move(MOVES.BISHOP)
+        self.assertEqual(board.player.movement_mode, MOVES.BISHOP)
+
+    def test_allow_chess_move_castle(self):
+        board = GameBoard.new_game(self.make_deck())
+        board.allow_chess_move(MOVES.CASTLE)
+        self.assertEqual(board.player.movement_mode, MOVES.CASTLE)
+
 
 class TestLocationCard(TestCase):
     def test_generate_bitwise_operand(self):
@@ -104,15 +246,27 @@ class TestLocationCard(TestCase):
         self.assertEqual(bits, set(BITS.values()))
 
     def test_new_location_no_actions(self):
-        location = LocationCard.new_location({'actions': []})
+        location = LocationCard.new_location({'card_name': 'card',
+                                              'actions': []})
         [action] = location.actions
         self.assertEqual(type(action), actions.DoNothing)
         self.assertEqual(action.required_bits, set())
 
     def test_new_location_one_action(self):
-        location = LocationCard.new_location({'actions': [
-            {'required_bits': [], 'action_class': 'DoNothing'},
+        location = LocationCard.new_location({'card_name': 'card1',
+            'actions': [{'required_bits': [], 'action_class': 'DoNothing'},
         ]})
         [action] = location.actions
         self.assertEqual(type(action), actions.DoNothing)
         self.assertEqual(action.required_bits, set())
+
+    def test_parse_bits(self):
+        self.assertEqual(
+            LocationCard.parse_bits([]), frozenset([]))
+        self.assertEqual(
+            LocationCard.parse_bits(['RED']), frozenset([BITS.RED]))
+        self.assertEqual(
+            LocationCard.parse_bits([BITS.BLUE]), frozenset([BITS.BLUE]))
+        self.assertEqual(
+            LocationCard.parse_bits([BITS.NORTH, 'MSB']),
+            frozenset([BITS.NORTH, BITS.MSB]))