В итоге я установил Py4D, так как едва мог найти документацию по КОФЕ.
Мне нужно было экспортировать анимацию точечного уровня и анимацию морфинга в Blender, поэтому я написал небольшой скрипт, который это обрабатывает.
import c4d
from c4d import documents,UVWTag
from c4d.utils import Deg
from c4d import symbols as sy, plugins, utils, bitmaps, gui
import math
def BlenderExport():
if not op: return
if op.GetType() != 5100:
print 'Selected Object is not an editable mesh'
return
unit = 0.001#for scale
foffset = 1#for frames
bd = doc.GetRenderBaseDraw()
scr = bd.GetFrameScreen()
rd = doc.GetActiveRenderData()
sizeX = int(rd[sy.RDATA_XRES_VIRTUAL])
sizeY = int(rd[sy.RDATA_YRES_VIRTUAL])
name = op.GetName()
fps = doc.GetFps()
sFrame= doc.GetMinTime().GetFrame(fps)
eFrame= doc.GetMaxTime().GetFrame(fps)
code = 'import Blender\nfrom Blender import *\nimport bpy\nfrom Blender.Mathutils import *\n\nscn = bpy.data.scenes.active\ncontext=scn.getRenderingContext()\ncontext.fps = '+str(fps)+'\ncontext.sFrame = '+str(sFrame)+'\ncontext.eFrame = '+str(eFrame)+'\ncontext.sizeX = '+str(sizeX)+'\ncontext.sizeY = ' + str(sizeY) + '\n'
def GetMesh(code):
# goto 0
doc.SetTime(c4d.BaseTime(0, fps))
c4d.DrawViews( c4d.DA_ONLY_ACTIVE_VIEW|c4d.DA_NO_THREAD|c4d.DA_NO_REDUCTION|c4d.DA_STATICBREAK )
c4d.GeSyncMessage(c4d.EVMSG_TIMECHANGED)
doc.SetTime(doc.GetTime())
c4d.EventAdd(c4d.EVENT_ANIMATE)
code += 'editmode = Window.EditMode()\nif editmode:\tWindow.EditMode(0)\n'
coords4D = op.GetPointAll()
coords = 'coords = ['
uvw = 0
uvs = 'uvs = ['
for tag in op.GetTags():
if tag.GetName() == "UVW":
uvw = tag
for c in coords4D:
coords += '['+str(c.x*unit)+','+str(c.z*unit)+','+str(c.y*unit)+'],'
coords = coords.rpartition(',')[0] + ']\n'
faces4D = op.GetAllPolygons()
fcount = 0
faces = 'faces = ['
for f in faces4D:
faces += '['+str(f)+'],'
uv = uvw.Get(fcount);
uvs += '[Vector('+str(uv[0].x)+','+str(1.0-uv[0].y)+'),Vector('+str(uv[1].x)+','+str(1.0-uv[1].y)+'),Vector('+str(uv[2].x)+','+str(1.0-uv[2].y)+')],'
fcount += 1
faces = faces.rpartition(',')[0] + ']\n'
uvs = uvs.rpartition(',')[0] + ']\n'
code = code + coords + faces + uvs
code += "c4dmesh = bpy.data.meshes.new('"+name+"_mesh')\nc4dmesh.verts.extend(coords)\nc4dmesh.faces.extend(faces)\n\nob = scn.objects.new(c4dmesh,'"+name+"_obj')\nc4dmesh.flipNormals()\n\nif editmode:\tWindow.EditMode(1)\n\n"
code += "c4dmesh.quadToTriangle()\nc4dmesh.addUVLayer('c4duv')\n"
code += "for f in range(0,"+str(fcount)+"):\n\tc4dmesh.faces[f].uv = uvs[f]\n"
return code
def GetIPOKeys(code):
# store properties for tracks
tracks = op.GetCTracks()
# 0,1,2 = Position, 3,4,5 = Scale, 6,7,8 = Rotation, 9 = PLA
# props = [[lx,f],[ly,f],[lz,f],[sx,f],[sy,f],[sz,f],[rx,f],[ry,f],[rz,f]]
try:
props = []
trackIDs = [3,4,5,6,7,8,0,2,1]
propVals = ['LocX','LocZ','LocY','SizeX','SizeY','SizeZ','RotZ','RotX','RotY']
propIPOs = ['Ipo.OB_LOCX','Ipo.OB_LOCZ','Ipo.OB_LOCY','Ipo.OB_SCALEX','Ipo.OB_SCALEY','Ipo.OB_SCALEY','Ipo.OB_ROTZ','Ipo.OB_ROTX','Ipo.OB_ROTY']
for t in range(0,9):
props.append([[],[]])
curve = tracks[t].GetCurve()
keyCount = curve.GetKeyCount()
for k in range(0,keyCount):
key = curve.GetKey(k)
props[t][0].append(key.GetValue())
props[t][1].append(key.GetTime().GetFrame(fps))
# find the max key
maxProp = max(enumerate(props), key = lambda tup: len(tup[1]))[1][1]
maxKeys = len(maxProp)
# loop through tracks and keys
for key in range(0,maxKeys):
code += "Blender.Set('curframe',"+str(maxProp[key])+")\n"
for track in trackIDs:
if(key < len(props[track][0])):
code += "ob."+propVals[track] + " = " + str(props[track][0][key]) + '\n'
code += 'key = ob.insertIpoKey(' + propIPOs[track] + ')\n'
except:
pass
return code
# mesh/morph animation -> mesh always has the same number of verts
def GetShapeKeys(code):
track = 0;
tracks = op.GetCTracks()
for t in tracks:
if(t.GetName() == 'PLA'): track = t
# track = op.GetCTracks()[9]
if track != 0:
curve = track.GetCurve()
keyCount = curve.GetKeyCount()
verts = []
frames = []
vertsNum = op.GetPointCount()
ctime = doc.GetTime()
for k in range(1,keyCount):
key = curve.GetKey(k)
frames.append(key.GetTime().GetFrame(fps))
c4d.StatusSetBar(100*(k/keyCount))
doc.SetTime(key.GetTime())
c4d.DrawViews( c4d.DA_ONLY_ACTIVE_VIEW|c4d.DA_NO_THREAD|c4d.DA_NO_REDUCTION|c4d.DA_STATICBREAK )
c4dvecs = op.GetPointAll();
blendvecs = []
for v in c4dvecs:
blendvecs.append([v.x*unit,v.z*unit,v.y*unit])
verts.append(blendvecs)
c4d.GeSyncMessage(c4d.EVMSG_TIMECHANGED)
doc.SetTime(ctime)
c4d.EventAdd(c4d.EVENT_ANIMATE)
c4d.StatusClear()
code += '\n\n# shape keys\nverts = ' + str(verts) + '\n'
code += "if(ob.activeShape == 0):\n\tob.insertShapeKey()\n\n"
for f in range(0,len(frames)):
kNum = str(f+1)
code += "if editmode: Window.EditMode(0)\n"
code += "for v in range(0,"+str(vertsNum)+"):\n\tc4dmesh.verts[v].co.x = verts["+str(f)+"][v][0]\n\tc4dmesh.verts[v].co.y = verts["+str(f)+"][v][1]\n\tc4dmesh.verts[v].co.z = verts["+str(f)+"][v][2]\n"
code += "c4dmesh.calcNormals()\n"
code += "ob.insertShapeKey()\n"
code += "if editmode: Window.EditMode(1)\n"
code += "shapeKey = ob.getData().getKey()\n"
code += "newIpo = Ipo.New('Key','newIpo')\n"
code += "if(shapeKey.ipo == None): shapeKey.ipo = newIpo\n"
code += "if(shapeKey.ipo['Key "+kNum+"'] == None): shapeKey.ipo.addCurve('Key "+kNum+"')\n"
if(f == 0): code += "shapeKey.ipo['Key "+kNum+"'].append(BezTriple.New(1.0,0.0,0.0))\n"
if(f > 0): code += "shapeKey.ipo['Key "+kNum+"'].append(BezTriple.New("+str(float(frames[f-1]))+",0.0,0.0))\n"
code += "shapeKey.ipo['Key "+kNum+"'].append(BezTriple.New("+str(float(frames[f]))+",1.0,0.0))\n"
else:
#no PLA tracks, look for morph tag
vertsNum = op.GetPointCount()
for tag in op.GetTags():
if tag.GetType() == 1019633:
# print tag[sy.MORPHTAG_MORPHS]
'''
work around
1. store first key for each track curve
2. set the first key value to 1 for the 1st track and 0 for the others
3. store the mesh vertices -> track name verts = []
4. after all track verts are stored, restore the original values
5. write the the curve keys for blender shape keys
'''
code += "if(ob.activeShape == 0):\n\tob.insertShapeKey()\n\n"
tc = 0
tcs = str(tc+1)
for track in tag.GetCTracks():
curve = track.GetCurve()
value = curve.GetKey(0).GetValue()
curve.GetKey(0).SetValue(curve,1.0)
print track.GetName()
doc.SetTime(c4d.BaseTime(0, fps))
c4d.DrawViews( c4d.DA_ONLY_ACTIVE_VIEW|c4d.DA_NO_THREAD|c4d.DA_NO_REDUCTION|c4d.DA_STATICBREAK )
c4dvecs = op.GetPointAll();
blendverts = []
for v in c4dvecs:
blendverts.append([v.x*unit,v.z*unit,v.y*unit])
code += "Key"+tcs+"verts = " + str(blendverts)+"\n"
code += "if editmode: Window.EditMode(0)\n"
code += "for v in range(0,"+str(vertsNum)+"):\n\tc4dmesh.verts[v].co.x = Key"+tcs+"verts[v][0]\n\tc4dmesh.verts[v].co.y = Key"+tcs+"verts[v][1]\n\tc4dmesh.verts[v].co.z = Key"+tcs+"verts[v][2]\n"
code += "c4dmesh.calcNormals()\n"
code += "ob.insertShapeKey()\n"
code += "if editmode: Window.EditMode(1)\n"
code += "shapeKey = ob.getData().getKey()\n"
code += "newIpo = Ipo.New('Key','newIpo')\n"
code += "if(shapeKey.ipo == None): shapeKey.ipo = newIpo\n"
code += "if(shapeKey.ipo['Key "+tcs+"'] == None): shapeKey.ipo.addCurve('Key "+tcs+"')\n"
print op.GetPointAll()
c4d.GeSyncMessage(c4d.EVMSG_TIMECHANGED)
curve.GetKey(0).SetValue(curve,value)
keyCount = curve.GetKeyCount()
for k in range(0,keyCount):
key = curve.GetKey(k)
value = key.GetValue()
frame = key.GetTime().GetFrame(fps)
code += "shapeKey.ipo['Key "+tcs+"'].append(BezTriple.New("+str(float(frame))+","+str(value)+",0.0))\n"
tc += 1
tcs = str(tc+1)
c4d.EventAdd(c4d.EVENT_ANIMATE)
return code
def GetCamera(code):
bd = doc.GetRenderBaseDraw()
cp = bd.GetSceneCamera(doc)
if cp is None: cp = bd.GetEditorCamera()
fov = Deg(cp[sy.CAMERAOBJECT_FOV])
pos = cp.GetPos()
rot = cp.GetRot()
code += "\nc4dCam = Camera.New('persp','c4d_"+cp.GetName()+"')\nc4dCam.drawPassepartout = True\nc4dCam.alpha = 0.5\nc4dCam.drawLimits = 1\nc4dCam.dofDist = 100.0\n"
code += "c4dCam.angle = "+str(fov)+"\nc4dCamLens = c4dCam.lens\nc4dCam.lens = c4dCamLens\nWindow.RedrawAll()\nc4dCamObj = scn.objects.new(c4dCam)\n"
code += "c4dCamObj.setLocation("+str([pos.x,pos.z,pos.y])+")\n"
code += "c4dCamObj.setEuler("+str([rot.x+(math.pi*.5),rot.y,rot.z])+")\n"
code += "scn.setCurrentCamera(c4dCamObj)\n"
return code
code = GetMesh(code)
code = GetIPOKeys(code)
code = GetShapeKeys(code)
code = GetCamera(code)
file = open(doc.GetDocumentPath()+'/'+op.GetName()+'_export.py','w')
file.write(code)
file.close()
BlenderExport()
Следуйте за этим и это для деталей.