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import numpy
from string import Template
from simulation import Lattice, Geometry
from symbolic.generator import LBM
import symbolic.D2Q9 as D2Q9
from OpenGL.GL import *
from OpenGL.GLUT import *
from OpenGL.GL import shaders
from pyrr import matrix44
from utility.opengl import MomentsTexture
lattice_x = 480
lattice_y = 300
updates_per_frame = 200
lid_speed = 0.1
relaxation_time = 0.515
def get_cavity_material_map(geometry):
return [
(lambda x, y: x > 0 and x < geometry.size_x-1 and y > 0 and y < geometry.size_y-1, 1), # bulk fluid
(lambda x, y: x == 1 or y == 1 or x == geometry.size_x-2, 2), # left, right, bottom walls
(lambda x, y: y == geometry.size_y-2, 3), # lid
(lambda x, y: x == 0 or x == geometry.size_x-1 or y == 0 or y == geometry.size_y-1, 0) # ghost cells
]
boundary = Template("""
if ( m == 2 ) {
u_0 = 0.0;
u_1 = 0.0;
}
if ( m == 3 ) {
u_0 = $lid_speed;
u_1 = 0.0;
}
""").substitute({
'lid_speed': lid_speed
})
def get_projection(width, height):
world_width = lattice_x
world_height = world_width / width * height
projection = matrix44.create_orthogonal_projection(-world_width/2, world_width/2, -world_height/2, world_height/2, -1, 1)
translation = matrix44.create_from_translation([-lattice_x/2, -lattice_y/2, 0])
point_size = width / world_width
return numpy.matmul(translation, projection), point_size
def glut_window(fullscreen = False):
glutInit(sys.argv)
glutInitDisplayMode(GLUT_RGBA | GLUT_DOUBLE | GLUT_DEPTH)
if fullscreen:
window = glutEnterGameMode()
else:
glutInitWindowSize(800, 500)
glutInitWindowPosition(0, 0)
window = glutCreateWindow("LBM")
return window
lbm = LBM(D2Q9)
window = glut_window(fullscreen = False)
vertex_shader = shaders.compileShader("""
#version 430
layout (location=0) in vec4 vertex;
out vec2 frag_pos;
uniform mat4 projection;
void main() {
gl_Position = projection * vertex;
frag_pos = vertex.xy;
}""", GL_VERTEX_SHADER)
fragment_shader = shaders.compileShader(Template("""
#version 430
in vec2 frag_pos;
uniform sampler2D moments;
out vec4 result;
vec2 unit(vec2 v) {
return vec2(v[0] / $size_x, v[1] / $size_y);
}
vec3 blueRedPalette(float x) {
return mix(
vec3(0.0, 0.0, 1.0),
vec3(1.0, 0.0, 0.0),
x
);
}
void main(){
const vec2 sample_pos = unit(frag_pos);
const vec4 data = texture(moments, sample_pos);
result.a = 1.0;
result.rgb = blueRedPalette(data[3] / $lid_speed);
}
""").substitute({
"size_x": lattice_x,
"size_y": lattice_y,
"lid_speed": lid_speed
}), GL_FRAGMENT_SHADER)
shader_program = shaders.compileProgram(vertex_shader, fragment_shader)
projection_id = shaders.glGetUniformLocation(shader_program, 'projection')
lattice = Lattice(
descriptor = D2Q9,
geometry = Geometry(lattice_x, lattice_y),
moments = lbm.moments(optimize = True),
collide = lbm.bgk(f_eq = lbm.equilibrium(), tau = relaxation_time),
boundary_src = boundary,
opengl = True
)
lattice.apply_material_map(
get_cavity_material_map(lattice.geometry))
lattice.sync_material()
moments_texture = MomentsTexture(lattice)
cube_vertices, cube_edges = lattice.geometry.wireframe()
def on_display():
for i in range(0,updates_per_frame):
lattice.evolve()
moments_texture.collect()
glClear(GL_COLOR_BUFFER_BIT | GL_DEPTH_BUFFER_BIT)
shaders.glUseProgram(shader_program)
glUniformMatrix4fv(projection_id, 1, False, numpy.asfortranarray(projection))
moments_texture.bind()
glBegin(GL_POLYGON)
glVertex(0,0,0)
glVertex(lattice.geometry.size_x,0,0)
glVertex(lattice.geometry.size_x,lattice.geometry.size_y,0)
glVertex(0,lattice.geometry.size_y,0)
glEnd()
glutSwapBuffers()
def on_reshape(width, height):
global projection, point_size
glViewport(0,0,width,height)
projection, point_size = get_projection(width, height)
def on_timer(t):
glutTimerFunc(t, on_timer, t)
glutPostRedisplay()
glutDisplayFunc(on_display)
glutReshapeFunc(on_reshape)
glutTimerFunc(10, on_timer, 10)
glutMainLoop()
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