py_hypercube/py_hypercube.py

#!/usr/bin/python
# -*- coding: iso8859-15 -*-
# projection variable d'un hypercube

# pour l'interaction avec le système
# pour sqrt() et pow()
import math
# pour les nombres aléatoires
from random import randint

# importe tout ce qui est contenu dans le package OpenGL
from OpenGL.GL import *
# GLU première couche au dessus d'OpenGL
from OpenGL.GLU import *

# couche supérieure, ressemble à la SDL, permet la gestion simplifiée de la configuration,
# des entrées (clavier souris) et des fonctions de plus haut niveau
from OpenGL.GLUT import *

##
# Constantes
##
MIN_INC = -100
MAX_INC = 100

##
# Variables globales
##

# points de l'hypercube dans l'hyperespace
hp = [0, 0, 0, 0,
      1, 0, 0, 0,
      0, 1, 0, 0,
      1, 1, 0, 0,
      0, 0, 1, 0,
      1, 0, 1, 0,
      0, 1, 1, 0,
      1, 1, 1, 0,
      0, 0, 0, 1,
      1, 0, 0, 1,
      0, 1, 0, 1,
      1, 1, 0, 1,
      0, 0, 1, 1,
      1, 0, 1, 1,
      0, 1, 1, 1,
      1, 1, 1, 1]

# flags
frepere = 0
flagsAnim = [1, 1, 1, 1]
fullscreen = 0

## coordonnées
# position
x = 0.0
y = 0.0
z = 3.0
# vue
cx = 0.0
cy = 0.0
cz = 0.0
# variables pour l'animation sur les coordonnées de l'espace de projection
# varAnim = [ -100, -33, 33, 100 ]

# variables de départ aléatoires
varAnim = [randint(-100, 100),
           randint(-100, 100),
           randint(-100, 100),
           randint(-100, 100)]

incAnim = [0.1, 0.1, 0.1, 0.1]


# fonction d'affichage principale
def draw():
    """ fonction d'affichage principale	appelée par GlutMainLoop"""
    global x, y, z
    global cx, cy, cz
    global varAnime
    global flagsAnime
    global incAnime
    global frepere

    # couleur par défaut (le fond entre autre)
    glClearColor(0.0, 0.0, 0.0, 0.0)
    glClear(GL_COLOR_BUFFER_BIT)

    glLoadIdentity()
    # positionne la vue
    gluLookAt(x, y, z,
              cx, cy, cz,
              0.0, 1.0, 0.0)

    if frepere == 1:
        draw_repere()

    # animation
    for i in range(0, 3):
        if flagsAnim[i]:
            varAnim[i] += incAnim[i]
            if (varAnim[i] > MAX_INC) or (varAnim[i] < MIN_INC):
                incAnim[i] *= -1

    draw_hypercube(varAnim[0], varAnim[1], varAnim[2], varAnim[3])

    # double buffer, on dessine en mémoire et on affiche quand c'est pret
    glutSwapBuffers()


# gestion du clavier
def keyboard(key, x, y):
    """ gère les touches normales"""
    global frepere
    global flagsAnim
    global fullscreen

    if key == chr(27):
        sys.exit(0)

    if key == 'f':
        if fullscreen:
            glutReshapeWindow(640, 480)
        else:
            glutFullScreen()
        fullscreen = 1 - fullscreen

    if key == 'a':
        frepere = 1 - frepere

    if key == 'u':
        flagsAnim[0] = 1 - flagsAnim[0]

    if key == 'i':
        flagsAnim[1] = 1 - flagsAnim[1]

    if key == 'o':
        flagsAnim[2] = 1 - flagsAnim[2]

    if key == 'p':
        flagsAnim[3] = 1 - flagsAnim[3]

    glutPostRedisplay()

def draw_line(x1, y1, z1, x2, y2, z2):
    """ dessine une ligne"""

    glBegin(GL_LINES)
    glVertex3f(x1, y1, z1)
    glVertex3f(x2, y2, z2)
    glEnd()

def draw_repere():
    """ dessine le repère orthogonal"""
    glBegin(GL_LINES)
    glColor3f(1.0, 0.0, 0.0)
    glVertex2i(0, 0)
    glVertex2i(0, 1)
    glColor3f(0.0, 1.0, 0.0)
    glVertex2i(0, 0)
    glVertex2i(1, 0)
    glColor3f(0.0, 0.0, 1.0)
    glVertex2i(0, 0)
    glVertex3i(0, 0, 1)
    glEnd()

def draw_hypercube(a1, b1, c1, d1):
    """dessine l'hypercube """

    global hp
    # normalisation
    a = a1 / math.sqrt(pow(a1, 2) + pow(b1, 2) + pow(c1, 2) + pow(d1, 2))
    b = b1 / math.sqrt(pow(a1, 2) + pow(b1, 2) + pow(c1, 2) + pow(d1, 2))
    c = c1 / math.sqrt(pow(a1, 2) + pow(b1, 2) + pow(c1, 2) + pow(d1, 2))
    d = d1 / math.sqrt(pow(a1, 2) + pow(b1, 2) + pow(c1, 2) + pow(d1, 2))

    X = list()
    Y = list()
    Z = list()

    # parcours de la liste des points de l'hypercube
    for p in range(0,16):
        hx = hp[p * 4]
        hy = hp[p * 4 + 1]
        hz = hp[p * 4 + 2]
        ht = hp[p * 4 + 3]

        # calcul des coordonnées projetées
        X.append( ( b * (pow(b, 2) + pow(c, 2) + pow(d, 2)) + pow(a, 2) * b) * hx + (pow(-b, 2) * a - a * (pow(a, 2) + pow(c, 2) + pow(d, 2))) * hy + (d * (pow(a, 2) + pow(b, 2) + pow(d, 2)) + pow(c, 2) * d) * hz + (c * pow(d, 2) + c * (pow(a, 2) + pow(b, 2) + pow(c, 2))) * ht)

        Y.append( (c * (pow(b, 2) + pow(c, 2) + pow(d, 2)) + pow(a, 2) * c) * hx + (-d * (pow(a, 2) + pow(c, 2) + pow(d, 2) ) - pow(b, 2) * d) * hy + (pow(-c, 2) * a-a*(pow(a, 2) + pow(b, 2) + pow(d, 2))) * hz + (-b * pow(d, 2) - b * (pow(a, 2) + pow(b, 2) + pow(c, 2))) * ht)

        Z.append( ( d * (pow(b, 2) + pow(c,2) + pow(d, 2)) + pow(a, 2) * d) * hx + (c * (pow(a, 2) + pow(c, 2) + pow(d, 2)) + pow(b, 2) * c) * hy + (pow(-c, 2) * b - b * (pow(a, 2) + pow(b, 2) + pow(d, 2))) * hz + (a * pow(d, 2) + a * (pow(a, 2) + pow(b, 2) + pow(c, 2))) * ht)

    # dessine les lignes entre les points afin de dessiner l'hypercube
    glBegin(GL_LINES)
    glColor4f(1.0, 0.0, 0.0, 0.9)
    # A B
    glVertex3f(X[0], Y[0], Z[0])
    glVertex3f(X[1], Y[1], Z[1])
    # A C
    glVertex3f(X[0], Y[0], Z[0])
    glVertex3f(X[2], Y[2], Z[2])
    # B D
    glVertex3f(X[1], Y[1], Z[1])
    glVertex3f(X[3], Y[3], Z[3])
    # C D
    glVertex3f(X[2], Y[2], Z[2])
    glVertex3f(X[3], Y[3], Z[3])
    # A E
    glVertex3f(X[0], Y[0], Z[0])
    glVertex3f(X[4], Y[4], Z[4])
    # B F
    glVertex3f(X[1], Y[1], Z[1])
    glVertex3f(X[5], Y[5], Z[5])
    # E F
    glVertex3f(X[4], Y[4], Z[4])
    glVertex3f(X[5], Y[5], Z[5])
    # C G
    glVertex3f(X[2], Y[2], Z[2])
    glVertex3f(X[6], Y[6], Z[6])
    # E G
    glVertex3f(X[4], Y[4], Z[4])
    glVertex3f(X[6], Y[6], Z[6])
    # D H
    glVertex3f(X[3], Y[3], Z[3])
    glVertex3f(X[7], Y[7], Z[7])
    # F H
    glVertex3f(X[5], Y[5], Z[5])
    glVertex3f(X[7], Y[7], Z[7])
    # G H
    glVertex3f(X[7], Y[7], Z[7])
    glVertex3f(X[6], Y[6], Z[6])

    glColor4f(0.0, 1.0, 0.0, 0.9)
    # A I
    glVertex3f(X[0], Y[0], Z[0])
    glVertex3f(X[8], Y[8], Z[8])
    # B J
    glVertex3f(X[1], Y[1], Z[1])
    glVertex3f(X[9], Y[9], Z[9])
    # C K
    glVertex3f(X[2], Y[2], Z[2])
    glVertex3f(X[10], Y[10], Z[10])
    # D L
    glVertex3f(X[3], Y[3], Z[3])
    glVertex3f(X[11], Y[11], Z[11])
    # E M
    glVertex3f(X[4], Y[4], Z[4])
    glVertex3f(X[12], Y[12], Z[12])
    # F N
    glVertex3f(X[5], Y[5], Z[5])
    glVertex3f(X[13], Y[13], Z[13])
    # G O
    glVertex3f(X[6], Y[6], Z[6])
    glVertex3f(X[14], Y[14], Z[14])
    # H P
    glVertex3f(X[7], Y[7], Z[7])
    glVertex3f(X[15], Y[15], Z[15])

    glColor4f(0.0, 0.0, 1.0, 0.9)

    # I J
    glVertex3f(X[8], Y[8], Z[8])
    glVertex3f(X[9], Y[9], Z[9])
    # I K
    glVertex3f(X[8], Y[8], Z[8])
    glVertex3f(X[10], Y[10], Z[10])
    # I M
    glVertex3f(X[8], Y[8], Z[8])
    glVertex3f(X[12], Y[12], Z[12])
    # J L
    glVertex3f(X[9], Y[9], Z[9])
    glVertex3f(X[11], Y[11], Z[11])
    # J N
    glVertex3f(X[9], Y[9], Z[9])
    glVertex3f(X[13], Y[13], Z[13])
    # K L
    glVertex3f(X[10], Y[10], Z[10])
    glVertex3f(X[11], Y[11], Z[11])
    # K O
    glVertex3f(X[10], Y[10], Z[10])
    glVertex3f(X[14], Y[14], Z[14])
    # M N
    glVertex3f(X[12], Y[12], Z[12])
    glVertex3f(X[13], Y[13], Z[13])
    # M O
    glVertex3f(X[12], Y[12], Z[12])
    glVertex3f(X[14], Y[14], Z[14])
    # N P
    glVertex3f(X[13], Y[13], Z[13])
    glVertex3f(X[15], Y[15], Z[15])
    # O P
    glVertex3f(X[14], Y[14], Z[14])
    glVertex3f(X[15], Y[15], Z[15])
    # L P
    glVertex3f(X[11], Y[11], Z[11])
    glVertex3f(X[15], Y[15], Z[15])

    glEnd()


def specialkey(key, kx, ky):
    """ gère les touches spéciales"""

    global cx, cy, cz

    if key == GLUT_KEY_LEFT:
        cx = cx - 1
    elif key == GLUT_KEY_RIGHT:
        cx = cx + 1
    elif key == GLUT_KEY_UP:
        cy = cy + 1
    elif key == GLUT_KEY_DOWN:
        cy = cy - 1
    glutPostRedisplay()


def mouse_move(mx, my):
    """ gère les mouvements de la souris lorqu'aucun bouton n'est enfoncé """
    pass


def mouse_move_button(mx, my):
    """ gère les mouvements de la souris lorqu'au moins un bouton est enfoncé """
    pass


def mouse_button(boutton, etat, mx, my):
    """ gère les appuis et relachement de bouttons de la souris """
    pass


# main
# initialisation
glutInit([])
glutInitDisplayMode(GLUT_RGB | GLUT_DOUBLE)
glutInitWindowSize(640,480)
glutCreateWindow(sys.argv[0])
# glutFullScreen()
glutDisplayFunc(draw)
glutKeyboardFunc(keyboard)
glutSpecialFunc(specialkey)
glutPassiveMotionFunc(mouse_move)
glutMotionFunc(mouse_move_button)
glutMouseFunc(mouse_button)
glutIdleFunc(draw)

glMatrixMode(GL_PROJECTION)
glLoadIdentity()
glOrtho(-5, 5, -5, 5, -5, 5)
glMatrixMode(GL_MODELVIEW)

# boucle glut, gère les évènements, et appèle draw()
glutMainLoop()