Soya/Python plein écran

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# -*- indent-tabs-mode: t -*-

# Soya 3D tutorial
# Copyright (C) 2001-2004 Jean-Baptiste LAMY
#
# This program is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation; either version 2 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program; if not, write to the Free Software
# Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA  02111-1307  USA


# fullscreen-1: Paramétrage : affichage d'un modèle 3D

# Soya peut afficher en plein écran.
# Attention : vous DEVEZ prévoir une manière pour quitter le programme, par un évenement SDL par exemple.


# Importation de sys, os modules et Soya.

import sys, os, os.path, soya, soya.sdlconst

# Initialisation de Soya en plein écran en 800x600 (le dernier argument, 1, commande le plein écran).
# Le premier argument est le nom de la fenêtre, qui est visible en mode fenêtré.

soya.init("Soya fullscreen tutorial", 800, 600, 1)

soya.path.append(os.path.join(os.path.dirname(sys.argv[0]), "data"))


# Le reste du tutorial est identique à basic-5.py

scene = soya.World()


class CaterpillarHead(soya.Body):
	def __init__(self, parent):
		soya.Body.__init__(self, parent, soya.Model.get("caterpillar_head"))
		self.speed                  = soya.Vector(self, 0.0, 0.0, 0.0)
		self.rotation_y_speed = 0.0
		
	def begin_round(self):
		soya.Body.begin_round(self)
		
		for event in soya.process_event():
			if event[0] == soya.sdlconst.KEYDOWN:
				if   event[1] == soya.sdlconst.K_UP:     self.speed.z = -0.2
				elif event[1] == soya.sdlconst.K_DOWN:   self.speed.z =  0.1
				
				elif event[1] == soya.sdlconst.K_LEFT:   self.rotation_y_speed =  10.0
				elif event[1] == soya.sdlconst.K_RIGHT:  self.rotation_y_speed = -10.0
				elif event[1] == soya.sdlconst.K_q:      soya.MAIN_LOOP.stop()
				elif event[1] == soya.sdlconst.K_ESCAPE: soya.MAIN_LOOP.stop()
			
			if event[0] == soya.sdlconst.KEYUP:
				if   event[1] == soya.sdlconst.K_UP:     self.speed.z = 0.0
				elif event[1] == soya.sdlconst.K_DOWN:   self.speed.z = 0.0
				elif event[1] == soya.sdlconst.K_LEFT:   self.rotation_y_speed = 0.0
				elif event[1] == soya.sdlconst.K_RIGHT:  self.rotation_y_speed = 0.0
		
		self.rotate_y(self.rotation_y_speed)
		
	def advance_time(self, proportion):
		soya.Body.advance_time(self, proportion)
		self.add_mul_vector(proportion, self.speed)


class CaterpillarPiece(soya.Body):
	def __init__(self, parent, previous):
		soya.Body.__init__(self, parent, soya.Model.get("caterpillar"))
		self.previous = previous
		self.speed = soya.Vector(self, 0.0, 0.0, -0.2)
		
	def begin_round(self):
		soya.Body.begin_round(self)
		self.look_at(self.previous)
		if self.distance_to(self.previous) < 1.5: self.speed.z =  0.0
		else:                                     self.speed.z = -0.2
		
	def advance_time(self, proportion):
		soya.Body.advance_time(self, proportion)
		self.add_mul_vector(proportion, self.speed)
		

# Création de la tête de la chenille et de 10 pièces de son corps.

caterpillar_head = CaterpillarHead(scene)
caterpillar_head.rotate_y(90.0)

previous_caterpillar_piece = caterpillar_head
for i in range(10):
	previous_caterpillar_piece = CaterpillarPiece(scene, previous_caterpillar_piece)
	previous_caterpillar_piece.x = i + 1
	
# Création d'une lampe.

light = soya.Light(scene)
light.set_xyz(2.0, 5.0, 0.0)

# Création d'une camera.

camera = soya.Camera(scene)
camera.set_xyz(0.0, 15.0, 15.0)
camera.look_at(caterpillar_head)
soya.set_root_widget(camera)

soya.MainLoop(scene).main_loop()