Logo Search packages:      
Sourcecode: blender version File versions

disp_paint.py

#!BPY

""" Registration info for Blender menus: <- these words are ignored
Name: 'dispaint'
Blender: 233
Group: 'Mesh'
Tip: 'use vertex paint color value to modify shape displacing vertices along normal'
"""

__author__ = "Jean-Michel Soler (jms)"
__url__ = ("blender", "elysiun",
"Script's homepage, http://jmsoler.free.fr/didacticiel/blender/tutor/cpl_displacementpainting.htm",
"Communicate problems and errors, http://www.zoo-logique.org/3D.Blender/newsportal/thread.php?group=3D.Blender")
__version__ = "233i"

__bpydoc__ = """\
This script displaces mesh vertices according to vertex color values.

Usage:

Select the mesh, enter Edit Mode and run this script to open its GUI.  Options
include setting mode, orientation, size and number of repetitions of the
displacement.  You can enter Vertex Paint mode and alternate applying
displacements and painting parts of the mesh.

Orientation includes vertex normals, local coordinates and noise (you may need
to resize the scripts window to view the noise menu below the "Last Error:"
line.  This menu lets you define noise type from the many options available in
Blender.

Notes:<br>
    The "Create" button will make at any time a copy of the active mesh in its
current state, so you can keep it and continue working on the copy;<br>
    One of the great possible uses of this script is to "raise" terrain from a
subdivided plane, for example, with good control of the process by setting
options, defining orientation and alternating vertex painting with
displacements.
"""

#----------------------------------------------
# jm soler, displacement paint 03/2002 - > 05/2004:  disp_paintf
# Terrain Noise added suugered by Jimmy Haze  
#----------------------------------------------
# Page officielle :
#   http://jmsoler.free.fr/didacticiel/blender/tutor/cpl_displacementpainting.htm
# Communiquer les problemes et erreurs sur:
#   http://www.zoo-logique.org/3D.Blender/newsportal/thread.php?group=3D.Blender
#--------------------------------------------- 
# ce script est proposť sous licence GPL pour etre associe
# a la distribution de Blender 2.33
#----------------------------------------------
# this script is released under GPL licence
# for the Blender 2.33 scripts package
#----------------------------------------------
# ***** BEGIN GPL LICENSE BLOCK *****
#
# Copyright (C) 2003, 2004: Jean-Michel Soler
#
# This program 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 2
# of the License, or (at your option) any later version.
#
# This program 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 this program; if not, write to the Free Software Foundation,
# Inc., 59 Temple Place - Suite 330, Boston, MA  02111-1307, USA.
#
# ***** END GPL LICENCE BLOCK *****
# --------------------------------------------------------------------------
#  09/07/04 : Noise functions based on a piece of script by Jimmy Haze.
# --------------------------------------------------------------------------

import Blender
from Blender import *
from Blender.Draw import *
from Blender.BGL import *
from Blender.Noise import *
from Blender.Scene  import *
sc=Scene.getCurrent()

# niveau du deplacement
ng=0.5

# noise default
NOISE=1

# profondeur des couleurs primaires rgb
maxcol=255.0*3

# limitation de la zone de travail sur le
# le materiau numer mat du tableau d'indices 
# des materiaux. Par defaut mat =-1 ce qui signifie 
# que toute la surface est traitee
mat=[]
vindex=[]
ORIName=''
NEWName=''
ERROR=0
TextERROR=''

E_EXIT     = 1
E_MODE     = 2
E_ORIENT   = 3
E_NSIZE    = 4
E_REPEAT   = 5
E_ACTION   = 16
E_CREATE   = 17
E_DOCMAT   = 24
E_MATVAL   = [32,33,34,35,36,37,38,39,40,41,42,43,44]
E_AXESEL   = 45
E_AXESELX  = 46
E_AXESELY  = 47
E_AXESELZ  = 48

E_NOISEME  = 49
E_NOISEH   = 50
E_NOISELAC = 51
E_NOISEOCT = 52
E_NOISEOFF = 53
E_NOISEBAS = 54
E_NOISEVAL=[E_NOISEH,E_NOISELAC,E_NOISEOCT,E_NOISEOFF,E_NOISEBAS]
E_NOISEDIM = 55



def copy_transform(ozero,Obis):
         Obis.setSize(ozero.getSize());
         Obis.setEuler(ozero.getEuler());
         Obis.setLocation(ozero.getLocation())
         return Obis

def traite_face(f):
      global vindexm, ng, NOISE, NOISEDIM
      global H,lacunarity,octaves,offset,basis

      if ORIENTMenu.val==1:
         for z in range(len(f.v)):
            c=0.0
            if vindex[f.v[z].index]!=0:
               c=float(f.col[z].r+f.col[z].b+f.col[z].g)/maxcol*ng/vindex[f.v[z].index]
            else:
              c=0

            f.v[z].co[0]=f.v[z].co[0]+f.v[z].no[0]*c
            f.v[z].co[1]=f.v[z].co[1]+f.v[z].no[1]*c 
            f.v[z].co[2]=f.v[z].co[2]+f.v[z].no[2]*c

      elif ORIENTMenu.val==2:
          for z in range(len(f.v)): 
            c=0.0
            if vindex[f.v[z].index]!=0:
               c=float(f.col[z].r+f.col[z].b+f.col[z].g)/maxcol*ng/vindex[f.v[z].index]
            else:
              c=0
            for t in range(3):
               if TAXEList[1][t].val==1:
                  f.v[z].co[t]=f.v[z].co[t]+c
 
      elif ORIENTMenu.val==3 and NOISE<9:
         for z in range(len(f.v)):
            c=0.0
            if vindex[f.v[z].index]!=0:
               nx=f.v[z].co[0]/NOISEDIM
               ny=f.v[z].co[1]/NOISEDIM
               nz=f.v[z].co[2]/NOISEDIM
               nn = ng * noise((nx,ny,nz),NOISE)
               c=float(f.col[z].r+f.col[z].b+f.col[z].g)/maxcol*nn/vindex[f.v[z].index]
            else:
              c=0
            f.v[z].co[0]=f.v[z].co[0]+f.v[z].no[0]*c
            f.v[z].co[1]=f.v[z].co[1]+f.v[z].no[1]*c
            f.v[z].co[2]=f.v[z].co[2]+f.v[z].no[2]*c

      elif ORIENTMenu.val==3 and NOISE==9:
         for z in range(len(f.v)):
            c=0.0
            if vindex[f.v[z].index]!=0:
               nx=f.v[z].co[0]/NOISEDIM
               ny=f.v[z].co[1]/NOISEDIM
               nz=f.v[z].co[2]/NOISEDIM
               nn = ng * cellNoise((nx,ny,nz))
                   c=float(f.col[z].r+f.col[z].b+f.col[z].g)/maxcol*nn/vindex[f.v[z].index]
            else:
              c=0
            f.v[z].co[0]=f.v[z].co[0]+f.v[z].no[0]*c
            f.v[z].co[1]=f.v[z].co[1]+f.v[z].no[1]*c
            f.v[z].co[2]=f.v[z].co[2]+f.v[z].no[2]*c

      elif ORIENTMenu.val==3 and NOISE==10:
         for z in range(len(f.v)):
            c=0.0
            if vindex[f.v[z].index]!=0:
               nx=f.v[z].co[0]/NOISEDIM
               ny=f.v[z].co[1]/NOISEDIM
               nz=f.v[z].co[2]/NOISEDIM
               nn = ng * heteroTerrain((nx,ny,nz),H,lacunarity,octaves,offset,basis)
               c=float(f.col[z].r+f.col[z].b+f.col[z].g)/maxcol*nn/vindex[f.v[z].index]
            else:
              c=0
            f.v[z].co[0]=f.v[z].co[0]+f.v[z].no[0]*c
            f.v[z].co[1]=f.v[z].co[1]+f.v[z].no[1]*c
            f.v[z].co[2]=f.v[z].co[2]+f.v[z].no[2]*c

 
def paint():
      global MODEMenu, vindex,ng, mat, ORIName, NEWName
      global ERROR, TextERROR
         
      Me=Object.GetSelected()
      if Me!=[]:
         if Me[0].getType()=='Mesh':   
                    
               vindex=[]
               ORIName=Me[0].getData().name
               me=NMesh.GetRaw(Me[0].getData().name)
                  
               try:  
                   for m in me.verts:
                      vindex.append(0)
                     
                   for f in me.faces:
                       for v in f.v:
                               if MODEMenu.val!=2:
                                  if MODEMenu.val==1:    
                                     vindex[v.index]+=1
                                  else:
                                     if v.sel==1:
                                         vindex[v.index]+=1                                       
                               else:
                                  #print mat 
                                  if f.mat in mat:
                                     vindex[v.index]+=1
                   for f in me.faces:
                     if MODEMenu.val==2: 
                       if f.mat in mat:
                          traite_face(f) 
                     else:
                          traite_face(f)
                   Me[0].link(me)
                   Me[0].makeDisplayList()
               except:
                  ERROR=2
                  TextERROR='No color on this Object.' 
                  
def NEWMEcreation(obj):
       
      if obj.getType()=='Mesh':
         nomdelobjet="";
         objnumber=-1; namelist=[]
         OBJ=Object.Get()

         for ozero in OBJ:
            if ozero.getType()=='Mesh': 
                namelist.append(ozero.getData().name)

         ozero=obj
         nomdelobjet=ozero.getName()
         Mesh=Blender.NMesh.GetRawFromObject(nomdelobjet)
         name=obj.getData().name
         n=0; name2=name[:];ok=0  

         while ok==0:
             for n0 in namelist:
                 if n0.find(name2)==0:
                    ok=0;name2=name[0:name.find('.')+1]+'%s'%(n+1) 
                 else: ok=1
                 n+=1

         Mesh.name=name2
         Obis = Blender.NMesh.PutRaw(Mesh,name2)
         copy_transform(ozero,Obis)
         Obis.makeDisplayList()

def DOCMat_list(TMATList):
    global mat    
    Me=Object.GetSelected()
    if Me!=[]:
       if Me[0].getType()=='Mesh':
            me=NMesh.GetRaw(Me[0].getData().name) 
            if len(me.materials)!=0: 
                n=0 
                for mat in me.materials:
                    TMATList[1][n][0]=mat.R
                    TMATList[1][n][1]=mat.G
                    TMATList[1][n][2]=mat.B
                    n+=1
                TMATList[0]=n
            else:
              TMATList[0]=0
            return TMATList
 
MOname = "MODE MENU %t|Normal %x1|Material %x2|Selected %x3"
ORname = "ORIENT MENU %t|From Normal %x1|Local Axes %x2| Noise %x3"
NOname = "NOISE MENU %t|BLENDER %x1|STDPERLIN %x2|NEWPERLIN %x3|VORONOI_F1%x4|VORONOI_F2%x5|VORONOI_F3%x6|VORONOI_F4%x7|VORONOI_F2F1%x8|VORONOI_CRACKLE%x9|CELLNOISE%x10|HETEROTENOISE%x11"

MODEMenu = Create(1)
ORIENTMenu = Create(1)
NOISEMenu = Create(1)

NSIZE = Create(1.0)
TDOCMat = Create(0)
NRepeat = Create(1)

H=1.0
lacunarity=2.0
octaves=5.0
offset=1.0
basis=3

NOISEDIM=4
NOISEDIMbout=Create(NOISEDIM)
HBout=Create(H)
lacunarityBout=Create(lacunarity)
octavesBout=Create(octaves)
offsetBout=Create(offset)
basisBout=Create(basis)


noiseTYPE={0:'BLENDER',
           1:'STDPERLIN',
           2:'STDPERLIN',
           3:'NEWPERLIN',
           4:'VORONOI_F1',
           5:'VORONOI_F2',
           6:'VORONOI_F3',
           7:'VORONOI_F2F1',
           8:'VORONOI_CRACKLE',
           9:'CELLNOISE'}        
 
TMATList= [0,[],[]] 

for t in range(16):
    TMATList[1].append([0.0,0.0,0.0])
    TMATList[2].append(Create(0))

TAXEList=[['X','Y','Z'],[]]
for t in range(3):
    TAXEList[1].append(Create(0))

glCr=glRasterPos2d
glCl3=glColor3f
glCl4=glColor4f
glRct=glRectf



def draw():
    global MODEMenu, NSIZE, TDOCMat,TMATList, TAXEList
    global mat, ORIName, NEWName, ORIENTMenu 
    global NRepeat, ERROR, TextERROR , NOISE, NOISEMenu, NOISEDIMbout,NOISEDIM
    global HBout,lacunarityBout,octavesBout,offsetBout,basisBout
    global noiseTYPE
    
    size=Buffer(GL_FLOAT, 4)
    glGetFloatv(GL_SCISSOR_BOX, size)
    size= size.list

    for s in [0,1,2,3]: size[s]=int(size[s])
    
    glClear(GL_COLOR_BUFFER_BIT)

    glColor3f(0.0,0.0,0.0)
    glRectf(4,size[3],534,size[3]-32 )

    glColor3f(1.0,1.0,1.0)
    glRasterPos2f(20, size[3]-15)
    Text("Script Python de displacement paintingt")

    glRasterPos2f(20, size[3]-28)
    Text("Jean-michel Soler, juillet 2004")

   
    n0=70
    n1=55

    Button("Create"                ,E_CREATE  ,5  ,size[3]-n0+16  ,60 ,20)
    Button("Action"                ,E_ACTION  ,5  ,size[3]-n0-4  ,60 ,20)
    Button("Exit"                  ,E_EXIT   ,5  ,size[3]-n0-24  ,60 ,20)
    
    NRepeat=Number("repeat"        ,E_REPEAT   ,5  ,size[3]-n0-50     ,75 ,20, NRepeat.val,1,10)    
    
    glColor3f(0.0,0.0,0.0)
    glRasterPos2f(80  ,size[3]-n0+24)
    Text("MODE")

    MODEMenu= Menu(MOname,          E_MODE  ,80  ,size[3]-n0 ,100,20, MODEMenu.val, "MODE menu.")

    if MODEMenu.val==2:
       TDOCMat=Toggle("Doc Mat"     ,E_DOCMAT  ,180  ,size[3]-n0 ,60 ,20,TDOCMat.val)    
       if TDOCMat.val==1:
             #print TMATList 
             for t in range(TMATList[0]):
                 glCl3(TMATList[1][t][0],
                       TMATList[1][t][1],
                       TMATList[1][t][2]) 
                 glRct(80+t*40,
                       size[3]-n0-60,
                       80+t*40+40,
                       size[3]-n0-60+40)
                 TMATList[2][t]=Toggle("%s"%t , 32+t ,80+t*40+5  ,size[3]-n0-50  ,30 , 20,TMATList[2][t].val)
                 
    glColor3f(1.0,0.3,0.0)
    glRasterPos2f(80+40+5  ,size[3]-n0-80)
    if ERROR>1:
         Text('Last error : '+TextERROR)
    else:
         Text('Last error :                      ')

    glColor3f(0.0,0.0,0.0)
    glRasterPos2f(240  ,size[3]-n0+24)
    Text("ORIENTATION")
    ORIENTMenu= Menu(ORname,        E_ORIENT    ,240  ,size[3]-n0 ,100,20, ORIENTMenu.val, "ORIENT menu.")

    if ORIENTMenu.val==2 :
       for t in range(3):
          TAXEList[1][t]=Toggle("%s"%TAXEList[0][t],
                         E_AXESEL+t, 
                         240+100+t*30 , size[3]-n0  ,30 , 20,
                         TAXEList[1][t].val)

    
    if ORIENTMenu.val==3 :
       glRasterPos2f(240  ,size[3]-n0-90-4)
       Text("NOISE")
       NOISEMenu= Menu(NOname,         E_NOISEME    , 240  ,size[3]-n0-118 ,110,20, NOISEMenu.val, "NOISE menu.")
       NOISEDIMbout=Number(" Dim: "     ,E_NOISEDIM   , 240  ,size[3]-n0-138 ,110,20, NOISEDIMbout.val, 1,100)

       if NOISEMenu.val==11:
          basisBout=Slider(noiseTYPE[basisBout.val],   
                                              E_NOISEBAS  ,40  ,size[3]-n0-118 ,175,20, basisBout.val, 0,9,)
          HBout= Slider("H",                  E_NOISEH  ,40  ,size[3]-n0-138 ,175,20, HBout.val, -2.0,+2.0,0,)
          lacunarityBout=Slider("lacunarity", E_NOISELAC ,40  ,size[3]-n0-158 ,175,20, lacunarityBout.val, -4.0,+4.0,0,)
          octavesBout=Slider("octave",        E_NOISEOCT  ,40  ,size[3]-n0-178 ,175,20, octavesBout.val, -10.0,+10.0,0,)
          offsetBout=Slider("offset",         E_NOISEOFF  ,40  ,size[3]-n0-198 ,175,20, offsetBout.val, -5.0,+5.0,0,)

    NSIZE= Slider("Disp Size",      E_NSIZE  ,80  ,size[3]-n0-20 ,260,20, NSIZE.val, -4.0,+4.0,0,"SIZE.")


                 

def event(evt, val):    
    if (evt== QKEY and not val): Exit()

def bevent(evt):
    global MODEMenu, NSIZE, ng, TMATList
    global mat, ORIENTMenu, NRepeat, TAXEList 
    global ERROR,TextERROR, NOISE, NOISEMenu, NOISEDIMbout,NOISEDIM
    global HBout,lacunarityBout,octavesBout,offsetBout,basisBout
    global H,lacunarity,octaves,offset,basis
    
    if   (evt== E_EXIT):
        Exit()


    elif   (evt== E_ACTION):
       for n in range(NRepeat.val):
          paint()

    elif   (evt== E_NSIZE):
       ng=NSIZE.val

    elif   (evt== E_DOCMAT) or (evt in E_MATVAL):
      Me=Object.GetSelected()
      if Me!=[]:
         if Me[0].getType()=='Mesh':   
            TMATList=DOCMat_list(TMATList)
            mat=[]
            for TMat in TMATList[2]:
               if TMat.val==1.0:
                   mat.append(TMATList[2].index(TMat))  
            ERROR=0
         else:
            ERROR=1
            TextERROR='Selected Object is not a mesh.'    
      else:
          ERROR=1
          TextERROR='No Selected Object.'  
      

    elif   (evt== E_CREATE):
         
           NEWMEcreation(Blender.Object.GetSelected()[0])
           Blender.Draw.Redraw()
         
           ERROR=1
           TextERROR='No Selected Object.'

    elif   (evt== E_NOISEME):
       NOISE=NOISEMenu.val-1

    elif   (evt in E_NOISEVAL):
       H=HBout.val
       lacunarity=lacunarityBout.val
       octaves=octavesBout.val
       offset=offsetBout.val
       basis=basisBout.val

    elif (evt== E_NOISEDIM):
           NOISEDIM=NOISEDIMbout.val

    Blender.Draw.Redraw()
 
Register(draw, event, bevent)

Generated by  Doxygen 1.6.0   Back to index