from esp_hadouken.levels.Level import *
from Void import *

class Tooth(Level):

    def __init__(self, parent):
        Level.__init__(self, parent)

    def set_void(self):
        self.void = Void(self)




from esp_hadouken.levels.Level import *
from Void import *

class Octo(Level):

    def __init__(self, parent):
        Level.__init__(self, parent)

    def set_void(self):
        self.void = Void(self)

    def set_dot(self):
        Level.set_dot(self, (None, (0, self.get_height())), (True, False))




from random import randint

from pygame import Surface

from esp_hadouken import levels
from Barrier import *

class Void(levels.Void.Void):

    def __init__(self, parent):
        levels.Void.Void.__init__(self, parent)
        self.frame_width = self.parent.get_width()
        self.read_configuration()
        self.init_barriers()

    def read_configuration(self):
        config = self.get_configuration()
        self.barrier_height = config["octo-level-barrier-height"]
        self.min_gap = config["octo-level-min-gap"]
        self.spawn_range = config["octo-level-spawn-range"]
        self.void_padding = config["octo-level-void-padding"]
        self.scroll_speed = config["octo-level-scroll-speed"]

    def init_barriers(self):
        self.set_y_range()
        y_range = self.y_range
        y = y_range[0]
        barriers = []
        y = self.generate_spawn_distance()
        while y < y_range[1]:
            barriers.append(Barrier(self, y))
            y += self.generate_spawn_distance()
        self.barriers = barriers
        self.next_spawn = self.generate_spawn_distance()

    def set_y_range(self):
        padding = self.void_padding
        parent = self.parent
        start = parent.bandit.rect.bottom + padding[0]
        end = parent.get_height() - padding[1]
        self.y_range = start, end

    def generate_spawn_distance(self):
        return randint(*self.spawn_range)

    def update_area(self):
        barriers = self.barriers
        if barriers[0].y - self.y_range[0] > self.next_spawn:
            barriers.insert(0, Barrier(self, self.y_range[0]))
            self.next_spawn = self.generate_spawn_distance()
        for barrier in barriers:
            if barrier.y > self.y_range[1]:
                barriers.remove(barrier)
            else:
                barrier.update()




from random import randint

from pygame import Surface, Color, Rect

from esp_hadouken.GameChild import *

class Barrier(GameChild, Surface):

    transparent_color = Color("magenta")

    def __init__(self, parent, y=0):
        GameChild.__init__(self, parent)
        Surface.__init__(self, (parent.frame_width, parent.barrier_height))
        self.set_colorkey(self.transparent_color)
        self.convert()
        self.y = y
        self.set_gap()

    def set_gap(self):
        gap = Surface(self.get_size())
        gap.fill(self.transparent_color)
        self.gap_center = randint(0, self.get_width())
        self.gap = gap.convert()

    def update(self):
        self.y += self.parent.scroll_speed
        self.blit_gap()
        self.draw()

    def blit_gap(self):
        gap = self.gap
        width = self.calculate_width()
        position = (self.gap_center - width / 2, 0)
        area = Rect(0, 0, width, gap.get_height())
        self.blit(gap, position, area)
        self.blit_overflow(width, position[0])

    def calculate_width(self):
        y_range = self.parent.y_range
        ratio = (self.y - y_range[0]) / float(y_range[1] - y_range[0])
        min_gap = self.parent.min_gap
        return int(min_gap + (self.get_width() - min_gap) * ratio)

    def blit_overflow(self, width, x):
        gap = self.gap
        frame_width = self.parent.frame_width
        if x < 0 or x + width > frame_width:
            if x < 0:
                overflow = 0 - x
                position = (frame_width - overflow, 0)
            else:
                overflow = x + width - frame_width
                position = (0, 0)
            self.blit(gap, position, Rect(0, 0, overflow, self.get_height()))

    def draw(self):
        self.parent.blit(self, (0, self.y))







from math import pi, sin, cos
from random import random, randint

from pygame import time, draw, Rect

from esp_hadouken import levels

class Trap(levels.Void.Void):

    def __init__(self, parent):
        levels.Void.Void.__init__(self, parent)
        self.read_configuration()
        self.reset()

    def read_configuration(self):
        config = self.get_configuration()
        prefix = "circulor-level-"
        self.radius_range = config[prefix + "radius-range"]
        self.trap_duration = config[prefix + "trap-duration"]
        self.speed = config[prefix + "speed"]
        self.thickness = config[prefix + "trap-thickness"]

    def reset(self):
        self.center = None
        self.total_elapsed = 0
        self.last_ticks = time.get_ticks()
        self.angle = random() * pi * 2

    def update_area(self):
        if self.parent.trapped:
            self.place()
            self.collide()
            if self.total_elapsed >= self.trap_duration:
                self.parent.trapped = False
                self.parent.escaped = True
            else:
                self.update_total_elapsed()
            self.draw_circle()

    def place(self):
        center = self.get_center()
        x_del, y_del = self.calculate_deltas()
        self.center = center[0] + x_del, center[1] + y_del

    def get_center(self):
        center = self.center
        if not center:
            center = self.parent.dot.rect.center
        return center

    def calculate_deltas(self):
        ang, distance = self.angle, self.speed
        return sin(ang) * distance, cos(ang) * distance

    def collide(self):
        angle = self.angle
        x, y = self.center
        radius = self.get_radius()
        rect = Rect(x - radius, y - radius, radius * 2, radius * 2)
        bandit = self.parent.bandit.rect
        if rect.colliderect(bandit):
            if bandit.left - rect.right > rect.top - bandit.bottom:
                angle = -angle
                rect.right = bandit.left
            else:
                angle = pi - angle
                rect.top = bandit.bottom
        field = self.parent.rect
        if rect.right > field.w or rect.left < 0:
            angle = -angle
            if rect.right > field.w:
                rect.right = field.w
            else:
                rect.left = 0
        if rect.top < 0 or rect.bottom > field.h:
            angle = pi - angle
            if rect.top < 0:
                rect.top = 0
            else:
                rect.bottom = field.h
        self.angle = angle
        self.center = rect.center

    def update_total_elapsed(self):
        current_ticks = time.get_ticks()
        self.total_elapsed += current_ticks - self.last_ticks
        self.last_ticks = current_ticks

    def draw_circle(self):
        center = tuple(map(int, self.center))
        color = self.opaque_color
        draw.circle(self, color, center, self.get_radius(), self.thickness)

    def get_radius(self):
        radius_r = self.radius_range
        pos = float(self.total_elapsed) / self.trap_duration
        return int(pos * (radius_r[1] - radius_r[0]) + radius_r[0])



	


	

	  
	  

	    100.26.179.196
	  

	  
	

	

	  
	  

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	    100.26.179.196
	  

	  
	


      


      

      
 


      

        



September 13, 2013










from array import array
from time import sleep

import pygame
from pygame.mixer import Sound, get_init, pre_init

class Note(Sound):

    def __init__(self, frequency, volume=.1):
        self.frequency = frequency
        Sound.__init__(self, self.build_samples())
        self.set_volume(volume)

    def build_samples(self):
        period = int(round(get_init()[0] / self.frequency))
        samples = array("h", [0] * period)
        amplitude = 2 ** (abs(get_init()[1]) - 1) - 1
        for time in xrange(period):
            if time < period / 2:
                samples[time] = amplitude
            else:
                samples[time] = -amplitude
        return samples

if __name__ == "__main__":
    pre_init(44100, -16, 1, 1024)
    pygame.init()
    Note(440).play(-1)
    sleep(5)







This program generates and plays a 440 Hz tone for 5 seconds.  It can be extended to generate the spectrum of notes with a frequency table or the frequency formula.  Because the rewards in Send are idealized ocean waves, they can also be represented as tones.  Each level has a tone in its goal and a tone based on where the player's disc lands.  Both play at the end of a level, sounding harmonic for a close shot and discordant for a near miss.  The game can dynamically create these tones using the program as a basis.





I'm also building an algorithmically generated song: Silk Routes (Scissored).  Here is an example of how it sounds so far: