def draw_scene(args):
nfiles = len(args.files)
if nfiles == 0:
printc("No input files.", c='r')
return
humansort(args.files)
wsize = "auto"
if args.full_screen:
wsize = "full"
if args.ray_cast_mode:
if args.background == "":
args.background = "bb"
if args.background == "":
args.background = "white"
if args.background_grad:
args.background_grad = getColor(args.background_grad)
if nfiles == 1 and args.files[0].endswith(".gif"): ###can be improved
frames = load(args.files[0])
applications.Browser(frames).show(bg=args.background,
bg2=args.background_grad)
return ##########################################################
if args.scrolling_mode:
args.multirenderer_mode = False
N = None
if args.multirenderer_mode:
if nfiles < 201:
N = nfiles
if nfiles > 200:
printc("Warning: option '-n' allows a maximum of 200 files", c=1)
printc(" you are trying to load ",
nfiles,
" files.\n",
c=1)
N = 200
vp = Plotter(size=wsize,
N=N,
bg=args.background,
bg2=args.background_grad)
settings.immediateRendering = False
vp.axes = args.axes_type
for i in range(N):
vp.addHoverLegend(at=i)
if args.axes_type == 4 or args.axes_type == 5:
vp.axes = 0
else:
N = nfiles
vp = Plotter(size=wsize, bg=args.background, bg2=args.background_grad)
vp.axes = args.axes_type
vp.addHoverLegend()
vp.sharecam = not args.no_camera_share
wire = False
if args.wireframe:
wire = True
##########################################################
# special case of SLC/TIFF volumes with -g option
if args.ray_cast_mode:
# print('DEBUG special case of SLC/TIFF volumes with -g option')
vol = io.load(args.files[0], force=args.reload)
if not isinstance(vol, Volume):
printc("Type Error: expected a Volume but loaded",
type(vol),
'object.',
c=1)
return
sp = vol.spacing()
vol.spacing([
sp[0] * args.x_spacing, sp[1] * args.y_spacing,
sp[2] * args.z_spacing
])
vol.mode(int(args.mode)).color(args.cmap).jittering(True)
# if args.lighting !='default':
vol.lighting(args.lighting).jittering(True)
vp = applications.RayCastPlotter(vol)
vp.show(viewup="z", interactive=True)
vp.sliders[0][0].SetEnabled(False)
vp.sliders[1][0].SetEnabled(False)
vp.sliders[2][0].SetEnabled(False)
return
##########################################################
# special case of SLC/TIFF/DICOM volumes with --slicer option
elif args.slicer:
# print('DEBUG special case of SLC/TIFF/DICOM volumes with --slicer option')
useSlider3D = False
if args.axes_type == 4:
args.axes_type = 1
elif args.axes_type == 3:
args.axes_type = 1
useSlider3D = True
vol = io.load(args.files[0], force=args.reload)
sp = vol.spacing()
vol.spacing([
sp[0] * args.x_spacing, sp[1] * args.y_spacing,
sp[2] * args.z_spacing
])
settings.plotter_instance = None # reset
plt = applications.SlicerPlotter(
vol,
bg='white',
bg2='lb',
useSlider3D=useSlider3D,
cmaps=[args.cmap, "Spectral_r", "hot_r", "bone_r", "gist_ncar_r"],
alpha=args.alpha,
axes=args.axes_type,
clamp=True,
size=(1000, 800),
)
plt.show()
return
########################################################################
elif args.edit:
# print('edit mode for meshes and pointclouds')
settings.plotter_instance = None # reset
settings.useParallelProjection = True
try:
m = Mesh(args.files[0], alpha=args.alpha / 2, c=args.color)
except AttributeError:
printc(
"In edit mode, input file must be a point cloud or polygonal mesh. Exit.",
c='r')
return
vp = applications.FreeHandCutPlotter(m, splined=True)
vp.addHoverLegend()
if not args.background_grad:
args.background_grad = None
vp.start(axes=1, bg=args.background, bg2=args.background_grad)
########################################################################
elif args.slicer2d:
# print('DEBUG special case of SLC/TIFF/DICOM volumes with --slicer2d option')
vol = io.load(args.files[0], force=args.reload)
if not vol:
return
vol.cmap('bone_r')
sp = vol.spacing()
vol.spacing([
sp[0] * args.x_spacing, sp[1] * args.y_spacing,
sp[2] * args.z_spacing
])
settings.plotter_instance = None # reset
plt = applications.Slicer2d(vol)
plt.interactor.Start()
return
########################################################################
# normal mode for single VOXEL file with Isosurface Slider or LEGO mode
elif nfiles == 1 and (".slc" in args.files[0].lower()
or ".vti" in args.files[0].lower()
or ".tif" in args.files[0].lower()
or ".mhd" in args.files[0].lower()
or ".nrrd" in args.files[0].lower()
or ".dem" in args.files[0].lower()):
# print('DEBUG normal mode for single VOXEL file with Isosurface Slider or LEGO mode')
vol = io.load(args.files[0], force=args.reload)
sp = vol.spacing()
vol.spacing([
sp[0] * args.x_spacing, sp[1] * args.y_spacing,
sp[2] * args.z_spacing
])
if not args.color:
args.color = 'gold'
vp = applications.IsosurfaceBrowser(vol,
lego=args.lego,
c=args.color,
cmap=args.cmap,
delayed=args.lego)
vp.show(zoom=args.zoom, viewup="z")
return
########################################################################
# NORMAL mode for single or multiple files, or multiren mode, or numpy scene
elif nfiles == 1 or (not args.scrolling_mode):
# print('DEBUG NORMAL mode for single or multiple files, or multiren mode')
interactor_mode = 0
if args.image:
interactor_mode = 'image'
##########################################################
# loading a full scene
if ".npy" in args.files[0] or ".npz" in args.files[0] and nfiles == 1:
objct = io.load(args.files[0], force=args.reload)
if "Plotter" in str(type(objct)): # loading a full scene
objct.show(mode=interactor_mode)
return
else: # loading a set of meshes
vp.show(objct, mode=interactor_mode)
return
#########################################################
ds = 0
actors = []
for i in range(N):
f = args.files[i]
colb = args.color
if args.color is None and N > 1:
colb = i
actor = load(f, force=args.reload)
if isinstance(actor, (TetMesh, UGrid)):
actor = actor.tomesh().shrink(0.975).c(colb).alpha(args.alpha)
if isinstance(actor, Mesh):
actors.append(actor)
actor.c(colb).alpha(args.alpha).wireframe(wire).lighting(
args.lighting)
if args.flat:
actor.flat()
else:
actor.phong()
if i == 0 and args.texture_file:
actor.texture(args.texture_file)
if args.point_size > 0:
try:
actor.GetProperty().SetPointSize(args.point_size)
actor.GetProperty().SetRepresentationToPoints()
except AttributeError:
pass
if args.showedges:
try:
actor.GetProperty().SetEdgeVisibility(1)
actor.GetProperty().SetLineWidth(0.1)
actor.GetProperty().SetRepresentationToSurface()
except AttributeError:
pass
else:
actors.append(actor)
if args.multirenderer_mode:
try:
ds = actor.diagonalSize() * 3
vp.camera.SetClippingRange(0, ds)
vp.show(actor,
at=i,
interactive=False,
zoom=args.zoom,
mode=interactor_mode)
vp.actors = actors
except AttributeError:
# wildcards in quotes make glob return actor as a list :(
printc(
"Please do not use wildcards within single or double quotes!",
c='r')
if args.multirenderer_mode:
vp.interactor.Start()
else:
# scene is empty
if all(a is None for a in actors):
printc("..could not load file(s). Quit.", c='r')
return
vp.show(actors,
interactive=True,
zoom=args.zoom,
mode=interactor_mode)
return
########################################################################
# scrolling mode -s
else:
#print("DEBUG simple browser mode -s")
if vp.axes == 4:
vp.axes = 1
acts = vp.load(args.files, force=args.reload)
for a in acts:
if hasattr(a, 'c'): #Picture doesnt have it
a.c(args.color)
a.alpha(args.alpha)
applications.Browser(acts)
vp.show(interactive=True, zoom=args.zoom)
def exe_eog(args):
# print("EOG emulator")
settings.immediateRendering = False
settings.useParallelProjection = True
settings.enableDefaultMouseCallbacks = False
settings.enableDefaultKeyboardCallbacks = False
if args.background == "":
args.background = "white"
if args.background_grad:
args.background_grad = getColor(args.background_grad)
files = []
for s in sys.argv:
if '--' in s or s.endswith('.py') or s.endswith('vedo'):
continue
if s.endswith('.gif'):
continue
files.append(s)
def vfunc(event):
# print(event.keyPressed)
for p in pics:
if event.keyPressed == "r":
p.window(win).level(lev)
elif event.keyPressed == "Up":
p.level(p.level() + 10)
elif event.keyPressed == "Down":
p.level(p.level() - 10)
if event.keyPressed == "Right":
p.window(p.window() + 10)
elif event.keyPressed == "Down":
p.window(p.window() - 10)
elif event.keyPressed == "m":
p.mirror()
elif event.keyPressed == "t":
p.rotate(90)
elif event.keyPressed == "k":
p.enhance()
elif event.keyPressed == "s":
p.smooth(sigma=1)
elif event.keyPressed == "S":
ahl = plt.hoverLegends[-1]
plt.remove(ahl)
plt.screenshot() # writer
printc("Picture saved as screenshot.png")
plt.add(ahl, render=False)
return
elif event.keyPressed == "h":
printc('---------------------------------------------')
printc('Press:')
printc(' up/down to modify level (or drag mouse)')
printc(' left/right to modify window')
printc(' m to mirror image')
printc(' t to rotate image by 90 deg')
printc(' k to enhance b&w image')
printc(' s to apply gaussian smoothing')
printc(' S to save image as png')
printc('---------------------------------------------')
plt.render()
pics = load(files)
if isinstance(pics, Picture):
pics = [pics]
if pics is None:
return
n = len(pics)
pic = pics[0]
if pic is None:
printc("Could not load image.", c='r')
return
lev, win = pic.level(), pic.window()
if n > 1:
plt = Plotter(N=n,
sharecam=True,
bg=args.background,
bg2=args.background_grad)
plt.addCallback('key press', vfunc)
for i in range(n):
p = pics[i].pickable(True)
pos = [-p.shape[0] / 2, -p.shape[1] / 2, 0]
p.pos(pos)
plt.addHoverLegend(at=i, c='k8', bg='k2', alpha=0.4)
plt.show(p, axes=0, at=i, mode='image')
plt.show(interactive=False)
plt.resetCamera(xypad=0.05)
plt.interactor.Start()
else:
shape = pic.shape
if shape[0] > 1500:
shape[1] = shape[1] / shape[0] * 1500
shape[0] = 1500
if shape[1] > 1200:
shape[0] = shape[0] / shape[1] * 1200
shape[1] = 1200
plt = Plotter(title=files[0],
size=shape,
bg=args.background,
bg2=args.background_grad)
plt.addCallback('key press', vfunc)
plt.addHoverLegend(c='k8', bg='k2', alpha=0.4)
plt.show(pic, mode='image', interactive=False)
plt.resetCamera(xypad=0.0)
plt.interactor.Start()
plt.close()
