I am an amateur programmer trying to making a game in python and pygame (I know, not the best, but I know how to use it better than Java and C++). I came across an interesting problem: locating a specific sprite onscreen using screen coordinates, and then moving that sprite to a different location.
For example, I have an inventory, and I'm coding in a way for the player to drop an item out of their inventory, back onto the two dimensional playing field so the player can pick it up later.
As there will be a varying amount of items, it is sort of inefficient to tack all their coordinates to a list and try to manage it that way. It just gets too messy trying to connect the constantly changing item list to the objects on field.
I have attached the code I have so far in case that helps. I've looked online but haven't found any suggestions on how to do this, and the only other solution I've found would be to somehow find the object using
spritecollide() and an invisible sprite, but I'd need help for that.
The drop function is the part I'm working on now.
pos() is a list of 2 items,
y, which are the mouse coordinates of where you click on the screen.
The class that creates the inventory:
import pygame from testRect import * class Inventory(pygame.sprite.Sprite): # Define colors white = (255,255,255) dgreen = (0,154,0)#useables dblue = (0,0,154)#throwables dred = (154,0,0)#holdables def __init__(self,surface,pos,grid,gridItems,handsUsed): for row in range(4): # Add an empty array that will hold each cell # in this row grid.append() for column in range(4): grid[row].append(0) # Append a cell gridItems.append() for column in range(4): gridItems[row].append(0) # Append a cell self.update(surface,pos,grid,gridItems,handsUsed) def update(self,surface,pos,grid,gridItems,handsUsed): width=40 height=40 margin=2 #convert click location to grid squares column=pos // (width+margin)-20 row=pos // (height+margin)-7 #make grid selection (toggle if selected or not) if row >-1 and row <4 and column >-1 and column < 4: if grid[row][column] == 0 and handsUsed < 2: grid[row][column] = 1 handsUsed += 1 elif grid[row][column] == 1 and handsUsed > 0: grid[row][column] = 0 handsUsed -= 1 # Draw the grid and determine type of object for row in range(4): for column in range(4): color = self.white if grid[row][column] == 1 and gridItems[row][column] == 1: color = self.dgreen elif grid[row][column] == 1 and gridItems[row][column] == 2: color = self.dblue elif grid[row][column] == 1 and gridItems[row][column] == 3: color = self.dred pygame.draw.rect(surface,color,[((margin+width)*column+margin)+840,((margin+height)*row+margin)+295,width,height]) return handsUsed#return the variable so that the master handsUsed var will also update def drop(self,pos,handsUsed,grid,staticsprites): moved = False if pos > 838 and pos < 1011 and pos > 491 and pos < 538 and handsUsed > 0: width=40 height=40 margin=2 row = 0 column = 0 while row < 4 and moved == False: if grid[row][column] == 1: #items selected will set their coordinates to a space near the player. #Will check to see if spot is open in this priority (high to low): below, above, left, right #finds the item to be moved itemSelectRow = row * (((height + margin)-7))+299 itemSelectColumn = (column * ((width + margin)+20))+845 collideList = pygame.sprite.spritecollide(testRect, staticsprites, False) if collideList != None: #will move the item to the location since nothing is in the way print collideList moved = True break elif row < 4 and column < 3: print "hi" column += 1 elif row < 4 and column >= 3: column = 0 row += 1 else: break return handsUsed#return the variable so that the master handsUsed var will also update