__author__ = 'marble_xu' import pygame as pg from .. import tool from .. import constants as c PANEL_Y_START = 87 PANEL_X_START = 22 PANEL_Y_INTERNAL = 74 PANEL_X_INTERNAL = 53 CARD_LIST_NUM = 8 card_name_list = [c.CARD_SUNFLOWER, c.CARD_PEASHOOTER, c.CARD_SNOWPEASHOOTER, c.CARD_WALLNUT, c.CARD_CHERRYBOMB, c.CARD_THREEPEASHOOTER, c.CARD_REPEATERPEA, c.CARD_CHOMPER, c.CARD_PUFFSHROOM, c.CARD_POTATOMINE, c.CARD_SQUASH, c.CARD_SPIKEWEED, c.CARD_JALAPENO, c.CARD_SCAREDYSHROOM, c.CARD_SUNSHROOM, c.CARD_ICESHROOM, c.CARD_HYPNOSHROOM] plant_name_list = [c.SUNFLOWER, c.PEASHOOTER, c.SNOWPEASHOOTER, c.WALLNUT, c.CHERRYBOMB, c.THREEPEASHOOTER, c.REPEATERPEA, c.CHOMPER, c.PUFFSHROOM, c.POTATOMINE, c.SQUASH, c.SPIKEWEED, c.JALAPENO, c.SCAREDYSHROOM, c.SUNSHROOM, c.ICESHROOM, c.HYPNOSHROOM] plant_sun_list = [50, 100, 175, 50, 150, 325, 200, 150, 0, 25, 50, 100, 125, 25, 25, 75, 75] plant_frozen_time_list = [7500, 7500, 7500, 30000, 50000, 7500, 7500, 7500, 7500, 30000, 30000, 7500, 50000, 7500, 7500, 50000, 3000] all_card_list = [0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16] def getSunValueImage(sun_value): font = pg.font.SysFont(None, 22) width = 32 msg_image = font.render(str(sun_value), True, c.NAVYBLUE, c.LIGHTYELLOW) msg_rect = msg_image.get_rect() msg_w = msg_rect.width image = pg.Surface([width, 17]) x = width - msg_w image.fill(c.LIGHTYELLOW) image.blit(msg_image, (x, 0), (0, 0, msg_rect.w, msg_rect.h)) image.set_colorkey(c.BLACK) return image class Card(): def __init__(self, x, y, name_index, scale=0.78): self.loadFrame(card_name_list[name_index], scale) self.rect = self.orig_image.get_rect() self.rect.x = x self.rect.y = y self.name_index = name_index self.sun_cost = plant_sun_list[name_index] self.frozen_time = plant_frozen_time_list[name_index] self.frozen_timer = -self.frozen_time self.refresh_timer = 0 self.select = True def loadFrame(self, name, scale): frame = tool.GFX[name] rect = frame.get_rect() width, height = rect.w, rect.h self.orig_image = tool.get_image(frame, 0, 0, width, height, c.BLACK, scale) self.image = self.orig_image def checkMouseClick(self, mouse_pos): x, y = mouse_pos if(x >= self.rect.x and x <= self.rect.right and y >= self.rect.y and y <= self.rect.bottom): return True return False def canClick(self, sun_value, current_time): if self.sun_cost <= sun_value and (current_time - self.frozen_timer) > self.frozen_time: return True return False def canSelect(self): return self.select def setSelect(self, can_select): self.select = can_select if can_select: self.image.set_alpha(255) else: self.image.set_alpha(128) def setFrozenTime(self, current_time): self.frozen_timer = current_time def createShowImage(self, sun_value, current_time): '''create a card image to show cool down status or disable status when have not enough sun value''' time = current_time - self.frozen_timer if time < self.frozen_time: #cool down status image = pg.Surface([self.rect.w, self.rect.h]) frozen_image = self.orig_image.copy() frozen_image.set_alpha(128) frozen_height = (self.frozen_time - time)/self.frozen_time * self.rect.h image.blit(frozen_image, (0,0), (0, 0, self.rect.w, frozen_height)) image.blit(self.orig_image, (0,frozen_height), (0, frozen_height, self.rect.w, self.rect.h - frozen_height)) elif self.sun_cost > sun_value: #disable status image = self.orig_image.copy() image.set_alpha(192) else: image = self.orig_image return image def update(self, sun_value, current_time): if (current_time - self.refresh_timer) >= 250: self.image = self.createShowImage(sun_value, current_time) self.refresh_timer = current_time def draw(self, surface): surface.blit(self.image, self.rect) class MenuBar(): def __init__(self, card_list, sun_value): self.loadFrame(c.MENUBAR_BACKGROUND) self.rect = self.image.get_rect() self.rect.x = 10 self.rect.y = 0 self.sun_value = sun_value self.card_offset_x = 32 self.setupCards(card_list) def loadFrame(self, name): frame = tool.GFX[name] rect = frame.get_rect() frame_rect = (rect.x, rect.y, rect.w, rect.h) self.image = tool.get_image(tool.GFX[name], *frame_rect, c.WHITE, 1) def update(self, current_time): self.current_time = current_time for card in self.card_list: card.update(self.sun_value, self.current_time) def createImage(self, x, y, num): if num == 1: return img = self.image rect = self.image.get_rect() width = rect.w height = rect.h self.image = pg.Surface((width * num, height)).convert() self.rect = self.image.get_rect() self.rect.x = x self.rect.y = y for i in range(num): x = i * width self.image.blit(img, (x,0)) self.image.set_colorkey(c.BLACK) def setupCards(self, card_list): self.card_list = [] x = self.card_offset_x y = 8 for index in card_list: x += 55 self.card_list.append(Card(x, y, index)) def checkCardClick(self, mouse_pos): result = None for card in self.card_list: if card.checkMouseClick(mouse_pos): if card.canClick(self.sun_value, self.current_time): result = (plant_name_list[card.name_index], card.sun_cost) break return result def checkMenuBarClick(self, mouse_pos): x, y = mouse_pos if(x >= self.rect.x and x <= self.rect.right and y >= self.rect.y and y <= self.rect.bottom): return True return False def decreaseSunValue(self, value): self.sun_value -= value def increaseSunValue(self, value): self.sun_value += value def setCardFrozenTime(self, plant_name): for card in self.card_list: if plant_name_list[card.name_index] == plant_name: card.setFrozenTime(self.current_time) break def drawSunValue(self): self.value_image = getSunValueImage(self.sun_value) self.value_rect = self.value_image.get_rect() self.value_rect.x = 21 self.value_rect.y = self.rect.bottom - 21 self.image.blit(self.value_image, self.value_rect) def draw(self, surface): self.drawSunValue() surface.blit(self.image, self.rect) for card in self.card_list: card.draw(surface) class Panel(): def __init__(self, card_list, sun_value): self.loadImages(sun_value) self.selected_cards = [] self.selected_num = 0 self.setupCards(card_list) def loadFrame(self, name): frame = tool.GFX[name] rect = frame.get_rect() frame_rect = (rect.x, rect.y, rect.w, rect.h) return tool.get_image(tool.GFX[name], *frame_rect, c.WHITE, 1) def loadImages(self, sun_value): self.menu_image = self.loadFrame(c.MENUBAR_BACKGROUND) self.menu_rect = self.menu_image.get_rect() self.menu_rect.x = 0 self.menu_rect.y = 0 self.panel_image = self.loadFrame(c.PANEL_BACKGROUND) self.panel_rect = self.panel_image.get_rect() self.panel_rect.x = 0 self.panel_rect.y = PANEL_Y_START self.value_image = getSunValueImage(sun_value) self.value_rect = self.value_image.get_rect() self.value_rect.x = 21 self.value_rect.y = self.menu_rect.bottom - 21 self.button_image = self.loadFrame(c.START_BUTTON) self.button_rect = self.button_image.get_rect() self.button_rect.x = 155 self.button_rect.y = 547 def setupCards(self, card_list): self.card_list = [] x = PANEL_X_START - PANEL_X_INTERNAL y = PANEL_Y_START + 43 - PANEL_Y_INTERNAL for i, index in enumerate(card_list): if i % 8 == 0: x = PANEL_X_START - PANEL_X_INTERNAL y += PANEL_Y_INTERNAL x += PANEL_X_INTERNAL self.card_list.append(Card(x, y, index, 0.75)) def checkCardClick(self, mouse_pos): delete_card = None for card in self.selected_cards: if delete_card: # when delete a card, move right cards to left card.rect.x -= 55 elif card.checkMouseClick(mouse_pos): self.deleteCard(card.name_index) delete_card = card if delete_card: self.selected_cards.remove(delete_card) self.selected_num -= 1 if self.selected_num == CARD_LIST_NUM: return for card in self.card_list: if card.checkMouseClick(mouse_pos): if card.canSelect(): self.addCard(card) break def addCard(self, card): card.setSelect(False) y = 8 x = 78 + self.selected_num * 55 self.selected_cards.append(Card(x, y, card.name_index)) self.selected_num += 1 def deleteCard(self, index): self.card_list[index].setSelect(True) def checkStartButtonClick(self, mouse_pos): if self.selected_num < CARD_LIST_NUM: return False x, y = mouse_pos if (x >= self.button_rect.x and x <= self.button_rect.right and y >= self.button_rect.y and y <= self.button_rect.bottom): return True return False def getSelectedCards(self): card_index_list = [] for card in self.selected_cards: card_index_list.append(card.name_index) return card_index_list def draw(self, surface): self.menu_image.blit(self.value_image, self.value_rect) surface.blit(self.menu_image, self.menu_rect) surface.blit(self.panel_image, self.panel_rect) for card in self.card_list: card.draw(surface) for card in self.selected_cards: card.draw(surface) if self.selected_num == CARD_LIST_NUM: surface.blit(self.button_image, self.button_rect)