Printrun/printrun/stltool.py

# 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/>.

import sys, struct, math

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 genfacet(v):
    veca=[v[1][0]-v[0][0],v[1][1]-v[0][1],v[1][2]-v[0][2]]
    vecb=[v[2][0]-v[1][0],v[2][1]-v[1][1],v[2][2]-v[1][2]]
    vecx=cross(veca,vecb)
    vlen=math.sqrt(sum(map(lambda x:x*x,vecx)))
    if vlen==0:
        vlen=1
    normal=map(lambda x:x/vlen, vecx)
    return [normal,v]

I=[
    [1,0,0,0],
    [0,1,0,0],
    [0,0,1,0],
    [0,0,0,1]
]

def transpose(matrix):
    return zip(*matrix)
    #return [[v[i] for v in matrix] for i in xrange(len(matrix[0]))]
    
def multmatrix(vector,matrix):
    return map(sum, transpose(map(lambda x:[x[0]*p for p in x[1]], zip(vector, transpose(matrix)))))
    
def applymatrix(facet,matrix=I):
    #return facet
    #return [map(lambda x:-1.0*x,multmatrix(facet[0]+[1],matrix)[:3]),map(lambda x:multmatrix(x+[1],matrix)[:3],facet[1])]
    return genfacet(map(lambda x:multmatrix(x+[1],matrix)[:3],facet[1]))
    
f=[[0,0,0],[[-3.022642, 0.642482, -9.510565],[-3.022642, 0.642482, -9.510565],[-3.022642, 0.642482, -9.510565]]]
m=[
    [1,0,0,0],
    [0,1,0,0],
    [0,0,1,1],
    [0,0,0,1]
]

def emitstl(filename,facets=[],objname="stltool_export",binary=1):
    if filename is None:
        return
    if binary:
        f=open(filename,"wb")
        buf="".join(["\0"]*80)
        buf+=struct.pack("<I",len(facets))
        facetformat=struct.Struct("<ffffffffffffH")
        for i in facets:
            l=list(i[0][:])
            for j in i[1]:
                l+=j[:]
            l+=[0]
            #print len(l)
            buf+=facetformat.pack(*l)
        f.write(buf)
        f.close()
        return
        

    f=open(filename,"w")
    f.write("solid "+objname+"\n")
    for i in facets:
        f.write("  facet normal "+" ".join(map(str,i[0]))+"\n   outer loop\n")
        for j in i[1]:
            f.write("    vertex "+" ".join(map(str,j))+"\n")
        f.write("   endloop"+"\n")
        f.write("  endfacet"+"\n")
    f.write("endsolid "+objname+"\n")
    f.close()
        
        

class stl:
    def __init__(self, filename=None):
        self.facet=[[0,0,0],[[0,0,0],[0,0,0],[0,0,0]]]
        self.facets=[]
        self.facetsminz=[]
        self.facetsmaxz=[]
        
        self.name=""
        self.insolid=0
        self.infacet=0
        self.inloop=0
        self.facetloc=0
        if filename is None:
            return
        self.f=list(open(filename))
        if not self.f[0].startswith("solid"):
            print "Not an ascii stl solid - attempting to parse as binary"
            f=open(filename,"rb")
            buf=f.read(84)
            while(len(buf)<84):
                newdata=f.read(84-len(buf))
                if not len(newdata):
                    break
                buf+=newdata
            facetcount=struct.unpack_from("<I",buf,80)
            facetformat=struct.Struct("<ffffffffffffH")
            for i in xrange(facetcount[0]):
                buf=f.read(50)
                while(len(buf)<50):
                    newdata=f.read(50-len(buf))
                    if not len(newdata):
                        break
                    buf+=newdata
                fd=list(facetformat.unpack(buf))
                self.name="binary soloid"
                self.facet=[fd[:3],[fd[3:6],fd[6:9],fd[9:12]]]
                self.facets+=[self.facet]
                facet=self.facet
                self.facetsminz+=[(min(map(lambda x:x[2], facet[1])),facet)]
                self.facetsmaxz+=[(max(map(lambda x:x[2], facet[1])),facet)]
            f.close()
            return
        for i in self.f:
            if not self.parseline(i):
                return
        
    def translate(self,v=[0,0,0]):
        matrix=[
        [1,0,0,v[0]],
        [0,1,0,v[1]],
        [0,0,1,v[2]],
        [0,0,0,1]
        ]
        return self.transform(matrix)
    
    def rotate(self,v=[0,0,0]):
        import math
        z=v[2]
        matrix1=[
        [math.cos(math.radians(z)),-math.sin(math.radians(z)),0,0],
        [math.sin(math.radians(z)),math.cos(math.radians(z)),0,0],
        [0,0,1,0],
        [0,0,0,1]
        ]
        y=v[0]
        matrix2=[
        [1,0,0,0],
        [0,math.cos(math.radians(y)),-math.sin(math.radians(y)),0],
        [0,math.sin(math.radians(y)),math.cos(math.radians(y)),0],
        [0,0,0,1]
        ]
        x=v[1]
        matrix3=[
        [math.cos(math.radians(x)),0,-math.sin(math.radians(x)),0],
        [0,1,0,0],
        [math.sin(math.radians(x)),0,math.cos(math.radians(x)),0],
        [0,0,0,1]
        ]
        return self.transform(matrix1).transform(matrix2).transform(matrix3)
    
    def scale(self,v=[0,0,0]):
        matrix=[
        [v[0],0,0,0],
        [0,v[1],0,0],
        [0,0,v[2],0],
        [0,0,0,1]
        ]
        return self.transform(matrix)
        
        
    def transform(self,m=I):
        s=stl()
        s.facets=[applymatrix(i,m) for i in self.facets]
        s.insolid=0
        s.infacet=0
        s.inloop=0
        s.facetloc=0
        s.name=self.name
        for facet in s.facets:
            s.facetsminz+=[(min(map(lambda x:x[2], facet[1])),facet)]
            s.facetsmaxz+=[(max(map(lambda x:x[2], facet[1])),facet)]
        return s
        
    def export(self,f=sys.stdout):
        f.write("solid "+self.name+"\n")
        for i in self.facets:
            f.write("  facet normal "+" ".join(map(str,i[0]))+"\n")
            f.write("   outer loop"+"\n")
            for j in i[1]:
                f.write("    vertex "+" ".join(map(str,j))+"\n")
            f.write("   endloop"+"\n")
            f.write("  endfacet"+"\n")
        f.write("endsolid "+self.name+"\n")
        f.flush()
        
    def parseline(self,l):
        l=l.strip()
        if l.startswith("solid"):
            self.insolid=1
            self.name=l[6:]
            #print self.name
            
        elif l.startswith("endsolid"):
            self.insolid=0
            return 0
        elif l.startswith("facet normal"):
            l=l.replace(",",".")
            self.infacet=11
            self.facetloc=0
            self.facet=[[0,0,0],[[0,0,0],[0,0,0],[0,0,0]]]
            self.facet[0]=map(float,l.split()[2:])
        elif l.startswith("endfacet"):
            self.infacet=0
            self.facets+=[self.facet]
            facet=self.facet
            self.facetsminz+=[(min(map(lambda x:x[2], facet[1])),facet)]
            self.facetsmaxz+=[(max(map(lambda x:x[2], facet[1])),facet)]
        elif l.startswith("vertex"):
            l=l.replace(",",".")
            self.facet[1][self.facetloc]=map(float,l.split()[1:])
            self.facetloc+=1
        return 1
if __name__=="__main__":
    s=stl("../../Downloads/frame-vertex-neo-foot-x4.stl")
    for i in xrange(11,11):
        working=s.facets[:]
        for j in reversed(sorted(s.facetsminz)):
            if(j[0]>i):
                working.remove(j[1])
            else:
                break
        for j in (sorted(s.facetsmaxz)):
            if(j[0]<i):
                working.remove(j[1])
            else:
                break
        
        print i,len(working)
    emitstl("../../Downloads/frame-vertex-neo-foot-x4-a.stl",s.facets,"emitted_object")
#stl("../prusamendel/stl/mendelplate.stl")
Full GPLv3 notice 2012-01-23 11:36:49 +00:00			`# 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/>.`

Move normal calculation into stltool Fix inverted Y coordinates in normals 2011-09-22 10:10:27 +00:00			`import sys, struct, math`

			`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 genfacet(v):`
			`veca=[v[1][0]-v[0][0],v[1][1]-v[0][1],v[1][2]-v[0][2]]`
			`vecb=[v[2][0]-v[1][0],v[2][1]-v[1][1],v[2][2]-v[1][2]]`
			`vecx=cross(veca,vecb)`
			`vlen=math.sqrt(sum(map(lambda x:x*x,vecx)))`
Prevent division by zero in stltool, at the risk of non-normalized normals. 2011-09-28 13:10:09 +00:00			`if vlen==0:`
			`vlen=1`
Move normal calculation into stltool Fix inverted Y coordinates in normals 2011-09-22 10:10:27 +00:00			`normal=map(lambda x:x/vlen, vecx)`
			`return [normal,v]`
Plate generation tool and basic STL library 2011-07-11 10:27:58 +00:00
			`I=[`
			`[1,0,0,0],`
			`[0,1,0,0],`
			`[0,0,1,0],`
			`[0,0,0,1]`
			`]`

			`def transpose(matrix):`
Move normal calculation into stltool Fix inverted Y coordinates in normals 2011-09-22 10:10:27 +00:00			`return zip(*matrix)`
			`#return [[v[i] for v in matrix] for i in xrange(len(matrix[0]))]`
Plate generation tool and basic STL library 2011-07-11 10:27:58 +00:00
			`def multmatrix(vector,matrix):`
			`return map(sum, transpose(map(lambda x:[x[0]*p for p in x[1]], zip(vector, transpose(matrix)))))`

			`def applymatrix(facet,matrix=I):`
Move normal calculation into stltool Fix inverted Y coordinates in normals 2011-09-22 10:10:27 +00:00			`#return facet`
			`#return [map(lambda x:-1.0*x,multmatrix(facet[0]+[1],matrix)[:3]),map(lambda x:multmatrix(x+[1],matrix)[:3],facet[1])]`
			`return genfacet(map(lambda x:multmatrix(x+[1],matrix)[:3],facet[1]))`
Plate generation tool and basic STL library 2011-07-11 10:27:58 +00:00
			`f=[[0,0,0],[[-3.022642, 0.642482, -9.510565],[-3.022642, 0.642482, -9.510565],[-3.022642, 0.642482, -9.510565]]]`
			`m=[`
			`[1,0,0,0],`
			`[0,1,0,0],`
			`[0,0,1,1],`
			`[0,0,0,1]`
			`]`

Emit binary STLs by default 2011-09-22 10:43:27 +00:00			`def emitstl(filename,facets=[],objname="stltool_export",binary=1):`
First semi-working version of plater. Only works with ascii stl files for now 2011-07-12 12:25:48 +00:00			`if filename is None:`
			`return`
Emit binary STLs by default 2011-09-22 10:43:27 +00:00			`if binary:`
			`f=open(filename,"wb")`
			`buf="".join(["\0"]*80)`
			`buf+=struct.pack("<I",len(facets))`
			`facetformat=struct.Struct("<ffffffffffffH")`
			`for i in facets:`
			`l=list(i[0][:])`
			`for j in i[1]:`
			`l+=j[:]`
			`l+=[0]`
			`#print len(l)`
			`buf+=facetformat.pack(*l)`
			`f.write(buf)`
			`f.close()`
			`return`


First semi-working version of plater. Only works with ascii stl files for now 2011-07-12 12:25:48 +00:00			`f=open(filename,"w")`
			`f.write("solid "+objname+"\n")`
			`for i in facets:`
			`f.write(" facet normal "+" ".join(map(str,i[0]))+"\n outer loop\n")`
			`for j in i[1]:`
			`f.write(" vertex "+" ".join(map(str,j))+"\n")`
			`f.write(" endloop"+"\n")`
			`f.write(" endfacet"+"\n")`
			`f.write("endsolid "+objname+"\n")`
			`f.close()`



Plate generation tool and basic STL library 2011-07-11 10:27:58 +00:00			`class stl:`
			`def __init__(self, filename=None):`
			`self.facet=[[0,0,0],[[0,0,0],[0,0,0],[0,0,0]]]`
			`self.facets=[]`
			`self.facetsminz=[]`
			`self.facetsmaxz=[]`

			`self.name=""`
			`self.insolid=0`
			`self.infacet=0`
			`self.inloop=0`
			`self.facetloc=0`
			`if filename is None:`
			`return`
			`self.f=list(open(filename))`
			`if not self.f[0].startswith("solid"):`
Binary STL read for plater 2011-07-29 22:11:17 +00:00			`print "Not an ascii stl solid - attempting to parse as binary"`
			`f=open(filename,"rb")`
			`buf=f.read(84)`
			`while(len(buf)<84):`
			`newdata=f.read(84-len(buf))`
			`if not len(newdata):`
			`break`
			`buf+=newdata`
			`facetcount=struct.unpack_from("<I",buf,80)`
			`facetformat=struct.Struct("<ffffffffffffH")`
			`for i in xrange(facetcount[0]):`
			`buf=f.read(50)`
			`while(len(buf)<50):`
			`newdata=f.read(50-len(buf))`
			`if not len(newdata):`
			`break`
			`buf+=newdata`
Fix rotation in plater 2011-07-29 22:23:12 +00:00			`fd=list(facetformat.unpack(buf))`
Binary STL read for plater 2011-07-29 22:11:17 +00:00			`self.name="binary soloid"`
			`self.facet=[fd[:3],[fd[3:6],fd[6:9],fd[9:12]]]`
			`self.facets+=[self.facet]`
			`facet=self.facet`
			`self.facetsminz+=[(min(map(lambda x:x[2], facet[1])),facet)]`
			`self.facetsmaxz+=[(max(map(lambda x:x[2], facet[1])),facet)]`
			`f.close()`
Plate generation tool and basic STL library 2011-07-11 10:27:58 +00:00			`return`
			`for i in self.f:`
			`if not self.parseline(i):`
			`return`

			`def translate(self,v=[0,0,0]):`
			`matrix=[`
			`[1,0,0,v[0]],`
			`[0,1,0,v[1]],`
			`[0,0,1,v[2]],`
			`[0,0,0,1]`
			`]`
			`return self.transform(matrix)`

			`def rotate(self,v=[0,0,0]):`
			`import math`
			`z=v[2]`
			`matrix1=[`
			`[math.cos(math.radians(z)),-math.sin(math.radians(z)),0,0],`
			`[math.sin(math.radians(z)),math.cos(math.radians(z)),0,0],`
			`[0,0,1,0],`
			`[0,0,0,1]`
			`]`
			`y=v[0]`
			`matrix2=[`
			`[1,0,0,0],`
			`[0,math.cos(math.radians(y)),-math.sin(math.radians(y)),0],`
			`[0,math.sin(math.radians(y)),math.cos(math.radians(y)),0],`
			`[0,0,0,1]`
			`]`
			`x=v[1]`
			`matrix3=[`
			`[math.cos(math.radians(x)),0,-math.sin(math.radians(x)),0],`
			`[0,1,0,0],`
			`[math.sin(math.radians(x)),0,math.cos(math.radians(x)),0],`
			`[0,0,0,1]`
			`]`
			`return self.transform(matrix1).transform(matrix2).transform(matrix3)`

			`def scale(self,v=[0,0,0]):`
			`matrix=[`
			`[v[0],0,0,0],`
			`[0,v[1],0,0],`
			`[0,0,v[2],0],`
			`[0,0,0,1]`
			`]`
			`return self.transform(matrix)`


			`def transform(self,m=I):`
			`s=stl()`
			`s.facets=[applymatrix(i,m) for i in self.facets]`
			`s.insolid=0`
			`s.infacet=0`
			`s.inloop=0`
			`s.facetloc=0`
			`s.name=self.name`
			`for facet in s.facets:`
			`s.facetsminz+=[(min(map(lambda x:x[2], facet[1])),facet)]`
			`s.facetsmaxz+=[(max(map(lambda x:x[2], facet[1])),facet)]`
			`return s`

			`def export(self,f=sys.stdout):`
			`f.write("solid "+self.name+"\n")`
			`for i in self.facets:`
			`f.write(" facet normal "+" ".join(map(str,i[0]))+"\n")`
			`f.write(" outer loop"+"\n")`
			`for j in i[1]:`
			`f.write(" vertex "+" ".join(map(str,j))+"\n")`
			`f.write(" endloop"+"\n")`
			`f.write(" endfacet"+"\n")`
First semi-working version of plater. Only works with ascii stl files for now 2011-07-12 12:25:48 +00:00			`f.write("endsolid "+self.name+"\n")`
Plate generation tool and basic STL library 2011-07-11 10:27:58 +00:00			`f.flush()`

			`def parseline(self,l):`
			`l=l.strip()`
			`if l.startswith("solid"):`
			`self.insolid=1`
			`self.name=l[6:]`
			`#print self.name`

			`elif l.startswith("endsolid"):`
			`self.insolid=0`
			`return 0`
			`elif l.startswith("facet normal"):`
Deal with commas in ascii stl files correctly 2011-08-23 18:08:31 +00:00			`l=l.replace(",",".")`
Plate generation tool and basic STL library 2011-07-11 10:27:58 +00:00			`self.infacet=11`
			`self.facetloc=0`
			`self.facet=[[0,0,0],[[0,0,0],[0,0,0],[0,0,0]]]`
			`self.facet[0]=map(float,l.split()[2:])`
			`elif l.startswith("endfacet"):`
			`self.infacet=0`
			`self.facets+=[self.facet]`
			`facet=self.facet`
			`self.facetsminz+=[(min(map(lambda x:x[2], facet[1])),facet)]`
			`self.facetsmaxz+=[(max(map(lambda x:x[2], facet[1])),facet)]`
			`elif l.startswith("vertex"):`
Deal with commas in ascii stl files correctly 2011-08-23 18:08:31 +00:00			`l=l.replace(",",".")`
Plate generation tool and basic STL library 2011-07-11 10:27:58 +00:00			`self.facet[1][self.facetloc]=map(float,l.split()[1:])`
			`self.facetloc+=1`
			`return 1`
Move normal calculation into stltool Fix inverted Y coordinates in normals 2011-09-22 10:10:27 +00:00			`if __name__=="__main__":`
			`s=stl("../../Downloads/frame-vertex-neo-foot-x4.stl")`
			`for i in xrange(11,11):`
Plate generation tool and basic STL library 2011-07-11 10:27:58 +00:00			`working=s.facets[:]`
			`for j in reversed(sorted(s.facetsminz)):`
			`if(j[0]>i):`
			`working.remove(j[1])`
			`else:`
			`break`
			`for j in (sorted(s.facetsmaxz)):`
			`if(j[0]<i):`
			`working.remove(j[1])`
			`else:`
			`break`

			`print i,len(working)`
Move normal calculation into stltool Fix inverted Y coordinates in normals 2011-09-22 10:10:27 +00:00			`emitstl("../../Downloads/frame-vertex-neo-foot-x4-a.stl",s.facets,"emitted_object")`
Plate generation tool and basic STL library 2011-07-11 10:27:58 +00:00			`#stl("../prusamendel/stl/mendelplate.stl")`