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base: RK:1abfdfadf843dc510b549d3568e1c795a5c2db81
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RK:master
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compare: RK:8db60a0c01c736ecb8a185f4dfa782fbf3dcb49e
Branches Tags
RK:master

2 Commits
1abfdfadf8 ... 8db60a0c01

Author SHA1 Message Date
Roz K
8db60a0c01
Rework environment. 2022-12-18 06:35:20 +01:00
Roz K
1e2b666af3
Rework camera. 2022-12-18 05:40:52 +01:00
3 changed files with 103 additions and 90 deletions
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38
game/camera.py
View File

@ -15,33 +15,29 @@
from engine import mat4, mat4_projection, mat4_lookat, resolve_input, set_input_mat4
class _Inputs:
__slots__ = 'projection', 'view'
def __init__(self, shader, projection, view):
self.projection = resolve_input(shader, projection)
self.view = resolve_input(shader, view)
class Camera:
__slots__ = '_projection_input', '_projection', '_view_input', '_view'
__slots__ = 'projection', 'view'
def __init__(self):
self._projection_input = None
self._projection = mat4()
self._view_input = None
self._view = mat4()
@property
def projection(self):
return self._projection
@property
def view(self):
return self._view
self.projection = mat4()
self.view = mat4()
def set_projection(self, half_fov, ratio, near_z, far_z):
mat4_projection(self._projection, half_fov, ratio, near_z, far_z)
mat4_projection(self.projection, half_fov, ratio, near_z, far_z)
def set_view(self, origin, lookat):
mat4_lookat(self._view, origin, lookat)
mat4_lookat(self.view, origin, lookat)
def resolve_inputs(self, shader, projection_input = b'u_projection', view_input = b'u_view'):
self._projection_input = resolve_input(shader, projection_input)
self._view_input = resolve_input(shader, view_input)
def resolve_inputs(self, shader, projection = b'u_projection', view = b'u_view'):
return _Inputs(shader, projection, view)
def update_inputs(self):
set_input_mat4(self._projection_input, self._projection)
set_input_mat4(self._view_input, self._view)
def update_inputs(self, inputs):
set_input_mat4(inputs.projection, self.projection)
set_input_mat4(inputs.view, self.view)

64
game/environment.py
View File

@ -14,9 +14,7 @@
# along with this program. If not, see <http://www.gnu.org/licenses/>.
from math import radians, cos
from engine import *
from engine import vec3, vec3_up, mat4_mul_vec3, resolve_input, set_input_vec3
from game.math import vec3_add, vec3_sub, vec3_scale, vec3_mul, vec3_dot
def _angles(start, end):
@ -30,6 +28,10 @@ def _floats(a, b):
def _colors(a, b):
return (a, vec3_sub(b, a))
_light_power = (
(_angles(180.0, 0.0), _floats(1.0, 1.0)),
)
_light_color = (
(_angles(180.0, 0.0), _colors((1.0, 1.0, 1.0), (1.0, 1.0, 1.0))),
)
@ -46,11 +48,6 @@ _sun_color = (
(_angles(180.0, 0.0), _colors((8.0, 8.0, 4.0), (8.0, 8.0, 4.0))),
)
_light_power = (
(_angles(180.0, 90.0), _floats(0.0, 0.0)),
(_angles( 90.0, 0.0), _floats(0.0, 1.0))
)
def _resolve(ranges, c):
for (cmin, cmax, crng), ab in ranges:
if c >= cmin and c <= cmax:
@ -65,24 +62,41 @@ def _resolve_color(ranges, c):
w, (a, b) = _resolve(ranges, c)
return vec3_add(a, vec3_scale(b, w))
def resolve_inputs(shader):
light_direction = resolve_input(shader, b'u_light_direction')
light_color = resolve_input(shader, b'u_light_color')
horizon_color = resolve_input(shader, b'u_horizon_color')
sky_color = resolve_input(shader, b'u_sky_color')
sun_color = resolve_input(shader, b'u_sun_color')
return (light_direction, light_color, horizon_color, sky_color, sun_color)
class _Inputs:
__slots__ = 'light_direction', 'light_color', 'horizon_color', 'sky_color', 'sun_color'
def from_sun(view, sun_direction, sun_power):
def __init__(self, shader):
self.light_direction = resolve_input(shader, b'u_light_direction')
self.light_color = resolve_input(shader, b'u_light_color')
self.horizon_color = resolve_input(shader, b'u_horizon_color')
self.sky_color = resolve_input(shader, b'u_sky_color')
self.sun_color = resolve_input(shader, b'u_sun_color')
class Environment:
__slots__ = 'light_direction', 'light_color', 'horizon_color', 'sky_color', 'sun_color'
def __init__(self):
self.light_direction = vec3()
self.light_color = vec3()
self.horizon_color = vec3()
self.sky_color = vec3()
self.sun_color = vec3()
def from_sun(self, view, sun_direction, sun_power):
c = vec3_dot(sun_direction, vec3_up)
light_power = _resolve_float(_light_power, c) * sun_power
light_color = vec3_scale(_resolve_color(_light_color, c), sun_power) # vec3_scale(_resolve_color(_light_color, c), light_power)
horizon_color = vec3_mul(_resolve_color(_horizon_color, c), light_color)
sky_color = vec3_mul(_resolve_color(_sky_color, c), light_color)
sun_color = _resolve_color(_sun_color, c)
light_direction = vec3()
mat4_mul_vec3(light_direction, view, sun_direction, 0.0)
return (light_direction, vec3(light_color), vec3(horizon_color), vec3(sky_color), vec3(sun_color))
mat4_mul_vec3(self.light_direction, view, sun_direction, 0.0)
self.light_color = vec3(vec3_scale(_resolve_color(_light_color, c), light_power))
self.horizon_color = vec3(vec3_scale(_resolve_color(_horizon_color, c), light_power))
self.sky_color = vec3(vec3_scale(_resolve_color(_sky_color, c), light_power))
self.sun_color = vec3(_resolve_color(_sun_color, c))
def update_inputs(inputs, values):
list(map(set_input_vec3, inputs, values))
def resolve_inputs(self, shader):
return _Inputs(shader)
def update_inputs(self, inputs):
set_input_vec3(inputs.light_direction, self.light_direction)
set_input_vec3(inputs.light_color, self.light_color)
set_input_vec3(inputs.horizon_color, self.horizon_color)
set_input_vec3(inputs.sky_color, self.sky_color)
set_input_vec3(inputs.sun_color, self.sun_color)

87
game/game.py
View File

@ -18,8 +18,25 @@ from math import pi, tau, dist
from engine import *
from game import (
math, resources, shader, camera, batch, triangles, generator, environment, sea)
from game import math
from game import generator
from game import shader
from game import resources
from game import batch
from game import triangles
from game import sea
from game.camera import Camera
from game.environment import Environment
proj_hfov = pi * 0.25
proj_ratio = 16.0 / 9.0
proj_near_z = 8.0
proj_far_z = 3000.0
sun_direction = math.vec3_normalize((1.0, 0.0, 1.0))
sun_power = 1.0
camera_origin = (0.0, -1200.0, 500.0)
camera_lookat = (0.0, 500.0, -500.0)
def main():
print("Generating terrain...")
@ -108,36 +125,23 @@ def main():
cube_id = cube.spawn(tests_batch, cube_translation, cube_orientation)
clouds_id = clouds.spawn(tests_batch, (0.0, 0.0, 32.0), clouds_orientation)
proj_hfov = pi * 0.25
proj_ratio = 16.0 / 9.0
proj_near_z = 8.0
proj_far_z = 3000.0
terrain_environment_inputs = environment.resolve_inputs(terrain_shader)
terrain_camera = camera.Camera()
terrain_camera.set_projection(proj_hfov, proj_ratio, proj_near_z, proj_far_z)
terrain_camera.resolve_inputs(terrain_shader)
tests_environment_inputs = environment.resolve_inputs(tests_shader)
tests_camera = camera.Camera()
tests_camera.set_projection(proj_hfov, proj_ratio, proj_near_z, proj_far_z)
tests_camera.resolve_inputs(tests_shader)
sky_environment_inputs = environment.resolve_inputs(sky_shader)
sea_phase = resolve_input(sky_shader, b'u_sea_phase')
sea_polar_textures = sea.load_polar_textures(('data/sea_bump1.png', 'data/sea_bump2.png'))
sea_polar_sampler = resolve_input(sky_shader, b'u_sea_polar_sampler')
sea_detail_texture = sea.load_detail_texture('data/sea_bump.png')
sea_detail_sampler = resolve_input(sky_shader, b'u_sea_detail_sampler')
sky_triangles = create_triangles(triangles.sky_triangles(64, proj_far_z - 0.1, proj_ratio))
sky_camera = camera.Camera()
sky_camera.set_projection(proj_hfov, proj_ratio, proj_near_z, proj_far_z)
sky_camera.resolve_inputs(sky_shader)
sun_direction = vec3(math.vec3_normalize((1.0, 0.0, 1.0)))
sun_power = 1.0
origin = vec3((0.0, -1200.0, 500.0))
lookat = vec3((0.0, 500.0, -500.0))
camera = Camera()
camera.set_projection(proj_hfov, proj_ratio, proj_near_z, proj_far_z)
terrain_camera_inputs = camera.resolve_inputs(terrain_shader)
tests_camera_inputs = camera.resolve_inputs(tests_shader)
sky_camera_inputs = camera.resolve_inputs(sky_shader)
environment = Environment()
terrain_environment_inputs = environment.resolve_inputs(terrain_shader)
tests_environment_inputs = environment.resolve_inputs(tests_shader)
sky_environment_inputs = environment.resolve_inputs(sky_shader)
up = vec3(vec3_up)
_rotation = mat3()
@ -165,15 +169,6 @@ def main():
begin_frame()
frame_begin = time.thread_time()
mat3_rotation(_rotation, up, (current_time * 0.05) % tau)
mat3_mul_vec3(_origin, _rotation, origin)
mat3_mul_vec3(_lookat, _rotation, lookat)
terrain_camera.set_view(_origin, _lookat)
tests_camera.set_view(_origin, _lookat)
sky_camera.set_view(vec3(math.vec3_scale(_origin, 0.001)), vec3(math.vec3_scale(_lookat, 0.001)))
environment_values = environment.from_sun(terrain_camera.view, sun_direction, sun_power)
mat3_rotation(_rotation, up, (current_time * 0.21) % tau)
mat3_mul_vec3(_blob_translation, _rotation, blob_translation)
tests_batch.set_param(0, blob_id, _blob_translation)
@ -187,9 +182,15 @@ def main():
mat3_mul_vec3(_clouds_orientation, _rotation, clouds_orientation)
tests_batch.set_param(1, clouds_id, _clouds_orientation)
mat3_rotation(_rotation, up, (current_time * 0.05) % tau)
mat3_mul_vec3(_origin, _rotation, vec3(camera_origin))
mat3_mul_vec3(_lookat, _rotation, vec3(camera_lookat))
camera.set_view(_origin, _lookat)
environment.from_sun(camera.view, vec3(sun_direction), sun_power)
select_shader(terrain_shader)
terrain_camera.update_inputs()
environment.update_inputs(terrain_environment_inputs, environment_values)
camera.update_inputs(terrain_camera_inputs)
environment.update_inputs(terrain_environment_inputs)
select_texture(tiles_texture, tiles_sampler)
select_texture(heightmap, terrain_heightmap_sampler)
select_texture(normalmap, terrain_normalmap_sampler)
@ -204,8 +205,8 @@ def main():
unselect_shader(terrain_shader)
select_shader(tests_shader)
tests_camera.update_inputs()
environment.update_inputs(tests_environment_inputs, environment_values)
camera.update_inputs(tests_camera_inputs)
environment.update_inputs(tests_environment_inputs)
select_texture(tests_texture, tests_sampler)
select_texture(heightmap, tests_heightmap_sampler)
select_texture(normalmap, tests_normalmap_sampler)
@ -217,9 +218,11 @@ def main():
unselect_texture(heightmap)
unselect_shader(tests_shader)
camera.set_view(vec3(math.vec3_scale(_origin, 0.001)), vec3(math.vec3_scale(_lookat, 0.001)))
select_shader(sky_shader)
sky_camera.update_inputs()
environment.update_inputs(sky_environment_inputs, environment_values)
camera.update_inputs(sky_camera_inputs)
environment.update_inputs(sky_environment_inputs)
set_input_float(sea_phase, (current_time * 0.023) % 1.0)
select_texture(sea_polar_textures, sea_polar_sampler)
select_texture(sea_detail_texture, sea_detail_sampler)
@ -255,8 +258,8 @@ def main():
", avg =", round((frame_avg / perf_count) * 1000.0, 2), "ms")
# seed 666
# origin = vec3((0.0, -1200.0, 500.0))
# lookat = vec3((0.0, 500.0, -500.0))
# camera_origin = vec3((0.0, -1200.0, 500.0))
# camera_lookat = vec3((0.0, 500.0, -500.0))
# for x in range(10000)
# current_time = 0
# Draw * 9999 : min = 0.2 , max = 2.16 , avg = 0.26 ms