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machinery
Printrun
Commits
d23b511e
Commit
d23b511e
authored
Jul 03, 2013
by
Guillaume Seguin
Browse files
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Plain Diff
Factor our trackball into its own module, move things to printrun.gl
parent
f9e9a074
Changes
6
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Showing
6 changed files
with
91 additions
and
76 deletions
+91
-76
gcview.py
printrun/gcview.py
+3
-73
__init__.py
printrun/gl/__init__.py
+0
-0
__init__.py
printrun/gl/libtatlin/__init__.py
+0
-0
actors.py
printrun/gl/libtatlin/actors.py
+0
-0
panel.py
printrun/gl/panel.py
+0
-3
trackball.py
printrun/gl/trackball.py
+88
-0
No files found.
printrun/gcview.py
View file @
d23b511e
...
...
@@ -28,79 +28,9 @@ from pyglet.gl import *
from
pyglet
import
gl
from
.
import
gcoder
from
.glpanel
import
wxGLPanel
from
.libtatlin
import
actors
def
cross
(
v1
,
v2
):
return
[
v1
[
1
]
*
v2
[
2
]
-
v1
[
2
]
*
v2
[
1
],
v1
[
2
]
*
v2
[
0
]
-
v1
[
0
]
*
v2
[
2
],
v1
[
0
]
*
v2
[
1
]
-
v1
[
1
]
*
v2
[
0
]]
def
trackball
(
p1x
,
p1y
,
p2x
,
p2y
,
r
):
TRACKBALLSIZE
=
r
if
p1x
==
p2x
and
p1y
==
p2y
:
return
[
0.0
,
0.0
,
0.0
,
1.0
]
p1
=
[
p1x
,
p1y
,
project_to_sphere
(
TRACKBALLSIZE
,
p1x
,
p1y
)]
p2
=
[
p2x
,
p2y
,
project_to_sphere
(
TRACKBALLSIZE
,
p2x
,
p2y
)]
a
=
cross
(
p2
,
p1
)
d
=
map
(
lambda
x
,
y
:
x
-
y
,
p1
,
p2
)
t
=
math
.
sqrt
(
sum
(
map
(
lambda
x
:
x
*
x
,
d
)))
/
(
2.0
*
TRACKBALLSIZE
)
if
(
t
>
1.0
):
t
=
1.0
if
(
t
<
-
1.0
):
t
=
-
1.0
phi
=
2.0
*
math
.
asin
(
t
)
return
axis_to_quat
(
a
,
phi
)
def
axis_to_quat
(
a
,
phi
):
lena
=
math
.
sqrt
(
sum
(
map
(
lambda
x
:
x
*
x
,
a
)))
q
=
map
(
lambda
x
:
x
*
(
1
/
lena
),
a
)
q
=
map
(
lambda
x
:
x
*
math
.
sin
(
phi
/
2.0
),
q
)
q
.
append
(
math
.
cos
(
phi
/
2.0
))
return
q
def
build_rotmatrix
(
q
):
m
=
(
GLdouble
*
16
)()
m
[
0
]
=
1.0
-
2.0
*
(
q
[
1
]
*
q
[
1
]
+
q
[
2
]
*
q
[
2
])
m
[
1
]
=
2.0
*
(
q
[
0
]
*
q
[
1
]
-
q
[
2
]
*
q
[
3
])
m
[
2
]
=
2.0
*
(
q
[
2
]
*
q
[
0
]
+
q
[
1
]
*
q
[
3
])
m
[
3
]
=
0.0
m
[
4
]
=
2.0
*
(
q
[
0
]
*
q
[
1
]
+
q
[
2
]
*
q
[
3
])
m
[
5
]
=
1.0
-
2.0
*
(
q
[
2
]
*
q
[
2
]
+
q
[
0
]
*
q
[
0
])
m
[
6
]
=
2.0
*
(
q
[
1
]
*
q
[
2
]
-
q
[
0
]
*
q
[
3
])
m
[
7
]
=
0.0
m
[
8
]
=
2.0
*
(
q
[
2
]
*
q
[
0
]
-
q
[
1
]
*
q
[
3
])
m
[
9
]
=
2.0
*
(
q
[
1
]
*
q
[
2
]
+
q
[
0
]
*
q
[
3
])
m
[
10
]
=
1.0
-
2.0
*
(
q
[
1
]
*
q
[
1
]
+
q
[
0
]
*
q
[
0
])
m
[
11
]
=
0.0
m
[
12
]
=
0.0
m
[
13
]
=
0.0
m
[
14
]
=
0.0
m
[
15
]
=
1.0
return
m
def
project_to_sphere
(
r
,
x
,
y
):
d
=
math
.
sqrt
(
x
*
x
+
y
*
y
)
if
(
d
<
r
*
0.70710678118654752440
):
return
math
.
sqrt
(
r
*
r
-
d
*
d
)
else
:
t
=
r
/
1.41421356237309504880
return
t
*
t
/
d
def
mulquat
(
q1
,
rq
):
return
[
q1
[
3
]
*
rq
[
0
]
+
q1
[
0
]
*
rq
[
3
]
+
q1
[
1
]
*
rq
[
2
]
-
q1
[
2
]
*
rq
[
1
],
q1
[
3
]
*
rq
[
1
]
+
q1
[
1
]
*
rq
[
3
]
+
q1
[
2
]
*
rq
[
0
]
-
q1
[
0
]
*
rq
[
2
],
q1
[
3
]
*
rq
[
2
]
+
q1
[
2
]
*
rq
[
3
]
+
q1
[
0
]
*
rq
[
1
]
-
q1
[
1
]
*
rq
[
0
],
q1
[
3
]
*
rq
[
3
]
-
q1
[
0
]
*
rq
[
0
]
-
q1
[
1
]
*
rq
[
1
]
-
q1
[
2
]
*
rq
[
2
]]
from
.gl.panel
import
wxGLPanel
from
.gl.trackball
import
trackball
,
mulquat
,
build_rotmatrix
from
.gl.libtatlin
import
actors
class
GcodeViewPanel
(
wxGLPanel
):
...
...
printrun/
libtatlin
/__init__.py
→
printrun/
gl
/__init__.py
View file @
d23b511e
File moved
printrun/gl/libtatlin/__init__.py
0 → 100644
View file @
d23b511e
printrun/libtatlin/actors.py
→
printrun/
gl/
libtatlin/actors.py
View file @
d23b511e
File moved
printrun/glpanel.py
→
printrun/gl
/
panel.py
View file @
d23b511e
#!/usr/bin/env python
# This file is part of the Printrun suite.
...
...
@@ -28,8 +27,6 @@ pyglet.options['debug_gl'] = True
from
pyglet.gl
import
*
from
pyglet
import
gl
from
.
import
gcoder
class
wxGLPanel
(
wx
.
Panel
):
'''A simple class for using OpenGL with wxPython.'''
...
...
printrun/gl/trackball.py
0 → 100644
View file @
d23b511e
#!/usr/bin/env python
# This file is part of the Printrun suite.
#
# Printrun 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 3 of the License, or
# (at your option) any later version.
#
# Printrun 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 Printrun. If not, see <http://www.gnu.org/licenses/>.
from
pyglet.gl
import
*
def
cross
(
v1
,
v2
):
return
[
v1
[
1
]
*
v2
[
2
]
-
v1
[
2
]
*
v2
[
1
],
v1
[
2
]
*
v2
[
0
]
-
v1
[
0
]
*
v2
[
2
],
v1
[
0
]
*
v2
[
1
]
-
v1
[
1
]
*
v2
[
0
]]
def
trackball
(
p1x
,
p1y
,
p2x
,
p2y
,
r
):
TRACKBALLSIZE
=
r
if
p1x
==
p2x
and
p1y
==
p2y
:
return
[
0.0
,
0.0
,
0.0
,
1.0
]
p1
=
[
p1x
,
p1y
,
project_to_sphere
(
TRACKBALLSIZE
,
p1x
,
p1y
)]
p2
=
[
p2x
,
p2y
,
project_to_sphere
(
TRACKBALLSIZE
,
p2x
,
p2y
)]
a
=
cross
(
p2
,
p1
)
d
=
map
(
lambda
x
,
y
:
x
-
y
,
p1
,
p2
)
t
=
math
.
sqrt
(
sum
(
map
(
lambda
x
:
x
*
x
,
d
)))
/
(
2.0
*
TRACKBALLSIZE
)
if
(
t
>
1.0
):
t
=
1.0
if
(
t
<
-
1.0
):
t
=
-
1.0
phi
=
2.0
*
math
.
asin
(
t
)
return
axis_to_quat
(
a
,
phi
)
def
axis_to_quat
(
a
,
phi
):
lena
=
math
.
sqrt
(
sum
(
map
(
lambda
x
:
x
*
x
,
a
)))
q
=
map
(
lambda
x
:
x
*
(
1
/
lena
),
a
)
q
=
map
(
lambda
x
:
x
*
math
.
sin
(
phi
/
2.0
),
q
)
q
.
append
(
math
.
cos
(
phi
/
2.0
))
return
q
def
build_rotmatrix
(
q
):
m
=
(
GLdouble
*
16
)()
m
[
0
]
=
1.0
-
2.0
*
(
q
[
1
]
*
q
[
1
]
+
q
[
2
]
*
q
[
2
])
m
[
1
]
=
2.0
*
(
q
[
0
]
*
q
[
1
]
-
q
[
2
]
*
q
[
3
])
m
[
2
]
=
2.0
*
(
q
[
2
]
*
q
[
0
]
+
q
[
1
]
*
q
[
3
])
m
[
3
]
=
0.0
m
[
4
]
=
2.0
*
(
q
[
0
]
*
q
[
1
]
+
q
[
2
]
*
q
[
3
])
m
[
5
]
=
1.0
-
2.0
*
(
q
[
2
]
*
q
[
2
]
+
q
[
0
]
*
q
[
0
])
m
[
6
]
=
2.0
*
(
q
[
1
]
*
q
[
2
]
-
q
[
0
]
*
q
[
3
])
m
[
7
]
=
0.0
m
[
8
]
=
2.0
*
(
q
[
2
]
*
q
[
0
]
-
q
[
1
]
*
q
[
3
])
m
[
9
]
=
2.0
*
(
q
[
1
]
*
q
[
2
]
+
q
[
0
]
*
q
[
3
])
m
[
10
]
=
1.0
-
2.0
*
(
q
[
1
]
*
q
[
1
]
+
q
[
0
]
*
q
[
0
])
m
[
11
]
=
0.0
m
[
12
]
=
0.0
m
[
13
]
=
0.0
m
[
14
]
=
0.0
m
[
15
]
=
1.0
return
m
def
project_to_sphere
(
r
,
x
,
y
):
d
=
math
.
sqrt
(
x
*
x
+
y
*
y
)
if
(
d
<
r
*
0.70710678118654752440
):
return
math
.
sqrt
(
r
*
r
-
d
*
d
)
else
:
t
=
r
/
1.41421356237309504880
return
t
*
t
/
d
def
mulquat
(
q1
,
rq
):
return
[
q1
[
3
]
*
rq
[
0
]
+
q1
[
0
]
*
rq
[
3
]
+
q1
[
1
]
*
rq
[
2
]
-
q1
[
2
]
*
rq
[
1
],
q1
[
3
]
*
rq
[
1
]
+
q1
[
1
]
*
rq
[
3
]
+
q1
[
2
]
*
rq
[
0
]
-
q1
[
0
]
*
rq
[
2
],
q1
[
3
]
*
rq
[
2
]
+
q1
[
2
]
*
rq
[
3
]
+
q1
[
0
]
*
rq
[
1
]
-
q1
[
1
]
*
rq
[
0
],
q1
[
3
]
*
rq
[
3
]
-
q1
[
0
]
*
rq
[
0
]
-
q1
[
1
]
*
rq
[
1
]
-
q1
[
2
]
*
rq
[
2
]]
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