I'm working on a choice based adventure game with python, and I'm using pygame to create some graphics for the game.

As I was trying to create a screen so the player can input his real name and the main character name I faced an issue: as I try to create both text inputs (using pygame_textinput module) on the same screen, it just clones what I write in one of them.

I thought I could solve this by putting the other input on a new screen but when I hit enter on the first screen it just passes through the rest of the code and the second input stays empty.

How could I solve this issue?

import contextlib
with contextlib.redirect_stdout(None):
    import pygame
import pickle
import time
import random
import pygame_textinput.pygame_textinput as textinput

#Really messy, I know#

#Save Stuff
Choices = {}

def save(to_save, save_filepath):
    pickle.dump(to_save, open(save_filepath, "wb"))

def load(save_filepath):
    return pickle.load(open(save_filepath, "rb"))


scrWidth = 640
scrHeight = 480
screen = pygame.display.set_mode((scrWidth, scrHeight))

startscreenbg = pygame.image.load('assets/Images/startscreen.jpg').convert()

#Text Input
real_nametxtinput = textinput.TextInput(text_color=(255,255,255))
char_nametxtinput = textinput.TextInput(text_color=(255,255,255))

clock = pygame.time.Clock()

#Game Constants
next = False
real_name = ''
char_name = ''
real_name_done = False
char_name_done = False

##### Global Functions #####

#Buttons stuff
buttonTextFont = pygame.font.SysFont("comicsansms", 20)
def createButton(msg, msgcolor,x,y,width,height,color1,color2,action=None):
    mouse = pygame.mouse.get_pos()
    click = pygame.mouse.get_pressed()
    if x+width > mouse[0] > x and y+height > mouse[1] > y:
        pygame.draw.rect(screen, color2,(x,y,width,height))

        if click[0] == 1 and action != None:
        pygame.draw.rect(screen, color1,(x,y,width,height))

    buttontext = buttonTextFont.render(msg, 1, msgcolor)
    screen.blit(buttontext, (x + (width//2) - (buttontext.get_width()//2), (y + (height//2) - (buttontext.get_height()//2))))

##### Screens/Chapters #####
def update_next1():
    global next
    next = True

def start_screen():
    screen.blit(startscreenbg, (0, 0))
    new_game = createButton('New Game',(255,255,255), 80, 100, 200, 50, (0,180,0), (0,255,0), update_next1)
    load_game = createButton('Load Game', (255,255,255), 360, 100, 200, 50, (0,0,180), (0,0,255))

def real_name_screen():
    global real_name, real_name_done
    screen.blit(startscreenbg, (0,0))
    pygame.draw.rect(screen, (102, 255, 102), (150, 90, 200, 50))
    screen.blit(real_nametxtinput.get_surface(), (150,100))
    if real_nametxtinput.update(events):
        real_name = real_nametxtinput.get_text()
        real_name_done = True

def char_name_screen():
    global char_name, char_name_done
    screen.blit(startscreenbg, (0, 0))
    pygame.draw.rect(screen, (255, 102, 255), (150, 90, 200, 50))
    screen.blit(char_nametxtinput.get_surface(), (150, 100))
    if char_nametxtinput.update(events):
        char_name = char_nametxtinput.get_text()
        if char_name != '':
            char_name_done = True

run = True
while run:


    events = pygame.event.get()
    for event in events:
        if event.type == pygame.QUIT:
            run = False

    if not next:
    if next:
        if real_name_done:
            if char_name_done:
                #This is just so I could test it
                print(real_name, char_name)
                run = False



You need a way to keep track if one of the text input widgets is active, and a way to switch between all widgets.

I hacked together this example, adjust as needed (there's a lot that could be improved):

import os.path

import pygame
import pygame.locals as pl


class WidgetManager:
    def __init__(self):
        self.widgets = []

    def update(self, events, dt):
        for e in events:
            if e.type == pygame.MOUSEBUTTONDOWN:
                for w in self.widgets:
                    w.active = False
                    if w.rect.collidepoint(e.pos):
                        w.active = True

        for w in self.widgets:
            w.update(events, dt)

    def draw(self, surface):
        for w in self.widgets:
            surface.blit(w.surface, w.rect)

class TextInput:
    This class lets the user input a piece of text, e.g. a name or a message.
    This class let's the user input a short, one-lines piece of text at a blinking cursor
    that can be moved using the arrow-keys. Delete, home and end work as well.
    def __init__(
            text_color=(0, 0, 0),
            rect=pygame.Rect(0, 0, 10, 10),
            cursor_color=(0, 0, 1),
        :param initial_string: Initial text to be displayed
        :param font_family: name or list of names for font (see pygame.font.match_font for precise format)
        :param font_size:  Size of font in pixels
        :param antialias: Determines if antialias is applied to font (uses more processing power)
        :param text_color: Color of text (duh)
        :param cursor_color: Color of cursor
        :param repeat_keys_initial_ms: Time in ms before keys are repeated when held
        :param repeat_keys_interval_ms: Interval between key press repetition when helpd

        # Text related vars:
        self.antialias = antialias
        self.text_color = text_color
        self.font_size = font_size
        self.input_string = initial_string  # Inputted text
        self.active = active
        self.rect = rect

        if not os.path.isfile(font_family):
            font_family = pygame.font.match_font(font_family)

        self.font_object = pygame.font.Font(font_family, font_size)

        # Text-surface will be created during the first update call:
        self.surface = pygame.Surface((1, 1))

        # Vars to make keydowns repeat after user pressed a key for some time:
        self.keyrepeat_counters = {}  # {event.key: (counter_int, event.unicode)} (look for "***")
        self.keyrepeat_intial_interval_ms = repeat_keys_initial_ms
        self.keyrepeat_interval_ms = repeat_keys_interval_ms

        # Things cursor:
        self.cursor_surface = pygame.Surface((int(self.font_size/20+1), self.font_size))
        self.cursor_position = len(initial_string)  # Inside text
        self.cursor_visible = True  # Switches every self.cursor_switch_ms ms
        self.cursor_switch_ms = 500  # /|\
        self.cursor_ms_counter = 0

    def update(self, events, dt):
        for event in events:
            if event.type == pygame.KEYDOWN and self.active:
                self.cursor_visible = True  # So the user sees where he writes

                # If none exist, create counter for that key:
                if event.key not in self.keyrepeat_counters:
                    self.keyrepeat_counters[event.key] = [0, event.unicode]

                if event.key == pl.K_BACKSPACE:
                    self.input_string = (
                        self.input_string[:max(self.cursor_position - 1, 0)]
                        + self.input_string[self.cursor_position:]

                    # Subtract one from cursor_pos, but do not go below zero:
                    self.cursor_position = max(self.cursor_position - 1, 0)
                elif event.key == pl.K_DELETE:
                    self.input_string = (
                        + self.input_string[self.cursor_position + 1:]

                elif event.key == pl.K_RETURN:
                    return True

                elif event.key == pl.K_RIGHT:
                    # Add one to cursor_pos, but do not exceed len(input_string)
                    self.cursor_position = min(self.cursor_position + 1, len(self.input_string))

                elif event.key == pl.K_LEFT:
                    # Subtract one from cursor_pos, but do not go below zero:
                    self.cursor_position = max(self.cursor_position - 1, 0)

                elif event.key == pl.K_END:
                    self.cursor_position = len(self.input_string)

                elif event.key == pl.K_HOME:
                    self.cursor_position = 0

                    # If no special key is pressed, add unicode of key to input_string
                    self.input_string = (
                        + event.unicode
                        + self.input_string[self.cursor_position:]
                    self.cursor_position += len(event.unicode)  # Some are empty, e.g. K_UP

            elif event.type == pl.KEYUP:
                # *** Because KEYUP doesn't include event.unicode, this dict is stored in such a weird way
                if event.key in self.keyrepeat_counters:
                    del self.keyrepeat_counters[event.key]

        # Update key counters:
        for key in self.keyrepeat_counters:
            self.keyrepeat_counters[key][0] += dt  # Update clock

            # Generate new key events if enough time has passed:
            if self.keyrepeat_counters[key][0] >= self.keyrepeat_intial_interval_ms:
                self.keyrepeat_counters[key][0] = (
                    - self.keyrepeat_interval_ms

                event_key, event_unicode = key, self.keyrepeat_counters[key][1]
                pygame.event.post(pygame.event.Event(pl.KEYDOWN, key=event_key, unicode=event_unicode))

        # Re-render text surface:
        self.surface = pygame.Surface(self.rect.size)
        self.surface.blit(self.font_object.render(self.input_string, self.antialias, self.text_color), (0, 0))
        pygame.draw.rect(self.surface, self.text_color, (0, 0, *self.rect.size), 1)

        # Update self.cursor_visible
        self.cursor_ms_counter += dt
        if self.cursor_ms_counter >= self.cursor_switch_ms:
            self.cursor_ms_counter %= self.cursor_switch_ms
            self.cursor_visible = not self.cursor_visible

        if self.cursor_visible and self.active:
            cursor_y_pos = self.font_object.size(self.input_string[:self.cursor_position])[0]
            # Without this, the cursor is invisible when self.cursor_position > 0:
            if self.cursor_position > 0:
                cursor_y_pos -= self.cursor_surface.get_width()
            self.surface.blit(self.cursor_surface, (cursor_y_pos, 0))

        return False

    def get_surface(self):
        return self.surface

    def get_text(self):
        return self.input_string

    def get_cursor_position(self):
        return self.cursor_position

    def set_text_color(self, color):
        self.text_color = color

    def set_cursor_color(self, color):

    def clear_text(self):
        self.input_string = ""
        self.cursor_position = 0

def main():
    screen = pygame.display.set_mode((800, 600))
    clock = pygame.time.Clock()
    manager = WidgetManager()
    manager.widgets.append(TextInput(text_color=pygame.Color('grey'), cursor_color=pygame.Color('grey'), rect=pygame.Rect(5, 5, 790, 35)))
    manager.widgets.append(TextInput(text_color=pygame.Color('orange'), cursor_color=pygame.Color('orange'), rect=pygame.Rect(5, 55, 790, 35), active=True))
    dt = 0
    while True:
        events = pygame.event.get()
        for e in events:
            if e.type == pygame.QUIT:
        screen.fill((30, 30, 30))
        manager.update(events, dt)
        dt = clock.tick()

if __name__ == '__main__':

You see TextInput now has an active flag. If it's not set, the key input is ignored. Also, we store the position and size of TextInput in the new attribute rect, so the new class WidgetManager can switch between the widgets by clicking one with the mouse.

I also removed the Clock from the TextInput class, since calling self.clock.tick() is something the main loop should do.

enter image description here

  • It seems to work really well but I have 2 questions: how can I implement it on my previous code and set the place that I want the textinput box to appear? And how do I set the value that the player inputs to a var? (Sorry if it is an obvious answer, but I'm not a really advanced python user) – Bunshock Jan 11 at 15:59

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