コード例 #1
0
def visionary_export(filename = "start.ve"):
	global hFile
	
	print "-------------------------------------------------------"
	print "                      start\n"
	
	if filename.find('.ve', -3) <= 0: filename += '.ve'

	start = time.clock()
	
	# Try getting the names of all of the selected items in the scene
	sceneObjects = Blender.Object.GetSelected()
	if not sceneObjects:
		meshtools.print_boxed("No objects are selected.")
		return
	
	dumpBuffer = ""
	processingObjects = sceneObjects[:]
	while len(processingObjects):
		object = processingObjects[0]
		(outputBuffer, additionalObjects) = ParseObject( object )
		print outputBuffer
		print additionalObjects
		processingObjects = processingObjects[1:] + additionalObjects

	end = time.clock()
	
	# Print status message
	seconds = " in %.2f %s" % (end-start, "seconds")
	message = "Successfully exported " + os.path.basename(filename) + seconds
	meshtools.print_boxed( message )
コード例 #2
0
def visionary_export(filename="start.ve"):
    global hFile

    print "-------------------------------------------------------"
    print "                      start\n"

    if filename.find('.ve', -3) <= 0: filename += '.ve'

    start = time.clock()

    # Try getting the names of all of the selected items in the scene
    sceneObjects = Blender.Object.GetSelected()
    if not sceneObjects:
        meshtools.print_boxed("No objects are selected.")
        return

    dumpBuffer = ""
    processingObjects = sceneObjects[:]
    while len(processingObjects):
        object = processingObjects[0]
        (outputBuffer, additionalObjects) = ParseObject(object)
        print outputBuffer
        print additionalObjects
        processingObjects = processingObjects[1:] + additionalObjects

    end = time.clock()

    # Print status message
    seconds = " in %.2f %s" % (end - start, "seconds")
    message = "Successfully exported " + os.path.basename(filename) + seconds
    meshtools.print_boxed(message)
コード例 #3
0
def read(filename):
    '''Read points in x, y, z format from file'''
	#start = time.clock()
	file = open(filename, "rb")
	objname = Blender.sys.splitext(Blender.sys.basename(filename))[0]
	me = NMesh.GetRaw()	
	# Collect data from RAW format
	for line in file.readlines():
		try:
			try:
				f1, f2, f3, f4  = map(float, line.split())
			except: # raw triangle so take first three only 
				#f1, f2, f3, f4, f5, f6, f7, f8, f9 = map(float, line.split())
				f1, f2, f3 = map(float, line.split())
			v = NMesh.Vert(f1, f2, f3)
			me.verts.append(v)
		except:
			continue
	NMesh.PutRaw(me, objname)
	Blender.Object.GetSelected()[0].name = objname
	Blender.Redraw()
	Blender.Window.DrawProgressBar(1.0, '')  # clear progressbar
	file.close()
	#end = time.clock()
	#seconds = " in %.2f %s" % (end-start, "seconds")
	message = "Successfully imported " + Blender.sys.basename(filename)# + seconds
	meshtools.print_boxed(message)
コード例 #4
0
def visionary_export(filename = "start.ve"):
	global hFile
	
	print "-------------------------------------------------------"
	print "                      start\n"
	
	if filename.find('.ve', -3) <= 0: filename += '.ve'

	start = time.clock()
	
	# Try getting the names of all of the selected items in the scene
	objects	= Blender.Object.GetSelected()
	if not objects:
		meshtools.print_boxed("No objects are selected.")
		return
	
	objects.sort(lambda a,b: cmp(a.name,b.name))	
	
	# Call iterator and Parse Function
	it = iter(objects)
	parentInstance = ParseObjects( it.next(), it )
	
	header = []
	
	def addtoheader( name, dmp, size ):
		if size > 0: header.append( (name,GenerateHashValue(name),dmp,size) ) 
	
	# Build the shared information 
	(dmp, dsize) = PackSharedObjects()
	addtoheader("shared", dmp, dsize)
	
	# Build the object information	
	(dmp, dsize) = PackObject( parentInstance, 0 )
	addtoheader("render", dmp, dsize)
	
	if len(header) > 0:
		# Build the header and offsets
		(dump, size) = BuildFileHeader( header )
	
	if len(dump) > 0:
		hFile = open( filename, 'wb' )
		if hFile is not None:

			# Write to file
			hFile.write( dump )
	
			# Do Clean up
			hFile.close()
		# End If
	# End If
			
	end = time.clock()
	
	# Print status message
	seconds = " in %.2f %s" % (end-start, "seconds")
	message = "Successfully exported " + os.path.basename(filename) + seconds
	meshtools.print_boxed( message )
コード例 #5
0
ファイル: Practice.py プロジェクト: rwlaschin/Visionary
def main():
	
	print "-------------------------------------------------------"
	print "                      start (Practice.py)\n"
	
	start = time.clock()
	
	# Try getting the names of all of the selected items in the scene
	objects	= Blender.Object.GetSelected()
	if not objects:
		meshtools.print_boxed("No objects are selected.")
		return
	
	objects.sort(lambda a,b: cmp(a.name,b.name))	
		
	def NumUsers( o ):
		try: return o.users
		except: return 0
		
	global ObjectInstances
	
	# walk through list of selected objects and check
	for o in objects:
		print "%s, %s:\n\tdata: %s, %s, %s, [Users %s]"  % ( o.name, type(o), o.data, o.getData(True), type(o.data), NumUsers(o.data) )
		# o.getBoundBox(), o.getEuler(), o.getLocation(), o.getSize()

		if not o.data.name in ObjectInstances:
			ObjectInstances[o.data.name] = o.data # this will be the same so just add it?
		else:
			numUsers = NumUsers(o.data)
			if numUsers > 1:
				print "Found %s" % o.data.name
			elif numUsers:
				print "Error: %d, was used only once but found on list possible duplicate name!" % (o.data.name)
		
		# Create a list of verts by Material!
		if type(o.data) == Types.NMeshType:
			faceByMaterial = [[] for i in range(len(o.data.materials))]
	
			# create face listing by material!
			for face in o.data.faces: 
				# print "material", face.mat
				faceByMaterial[face.mat].append(face)
				
			for (indx, faces) in enumerate(faceByMaterial):
				# print indx, o.data.materials[indx], len(faces)
				for face in faces: print face,	
				# print
			
	end = time.clock()
	
	print
	
	# Print status message
	seconds = " in %.2f %s" % (end-start, "seconds")
	message = "Completed operation in " + seconds
	meshtools.print_boxed( message )
コード例 #6
0
def filesel_callback(filename):
    if read(filename) == 0:
        print "Invalid file"
        return

    objname = Blender.sys.splitext(Blender.sys.basename(filename))[0]
    if not meshtools.overwrite_mesh_name:
        objname = meshtools.versioned_name(objname)

    #Blender.NMesh.PutRaw(mesh, objname, 1)
    Blender.Object.GetSelected()[0].name = objname
    Blender.Redraw()
    Blender.Window.DrawProgressBar(1.0, '')
    message = "Successfully imported " + filename
    meshtools.print_boxed(message)
コード例 #7
0
ファイル: slp_import.py プロジェクト: animuxOS/Genesis64
def read(filename):
    #start = time.clock()
    file = open(filename, "rb")

    raw = []
    for line in file:  #.xreadlines():
        data = line.split()
        if data[0] == "vertex":
            vert = map(float, data[1:])
            raw.append(vert)

    tri = []
    for i in xrange(0, len(raw), 3):
        tri.append(raw[i] + raw[i + 1] + raw[i + 2])

    #$import pprint; pprint.pprint(tri)

    # Collect data from RAW format
    faces = []
    for line in tri:
        f1, f2, f3, f4, f5, f6, f7, f8, f9 = line
        faces.append([(f1, f2, f3), (f4, f5, f6), (f7, f8, f9)])

    # Generate verts and faces lists, without duplicates
    verts = []
    coords = {}
    index = 0
    for i in xrange(len(faces)):
        for j in xrange(len(faces[i])):
            vertex = faces[i][j]
            if not coords.has_key(vertex):
                coords[vertex] = index
                index += 1
                verts.append(vertex)
            faces[i][j] = coords[vertex]

    objname = Blender.sys.splitext(Blender.sys.basename(filename))[0]

    meshtools.create_mesh(verts, faces, objname)
    Blender.Window.DrawProgressBar(1.0, '')  # clear progressbar
    file.close()
    #end = time.clock()
    #seconds = " in %.2f %s" % (end-start, "seconds")
    message = "Successfully imported " + Blender.sys.basename(
        filename)  # + seconds
    meshtools.print_boxed(message)
コード例 #8
0
ファイル: slp_import.py プロジェクト: Synric/synricproj
def read(filename):
	#start = time.clock()
	file = open(filename, "rb")

	raw = []
	for line in file: #.xreadlines():
		data = line.split()
		if data[0] == "vertex":
			vert = map(float, data[1:])
			raw.append(vert)
	
	tri = []
	for i in xrange(0, len(raw), 3):
		tri.append(raw[i] + raw[i+1] + raw[i+2])

	#$import pprint; pprint.pprint(tri)

	# Collect data from RAW format
	faces = []
	for line in tri:
		f1, f2, f3, f4, f5, f6, f7, f8, f9 = line
		faces.append([(f1, f2, f3), (f4, f5, f6), (f7, f8, f9)])

	# Generate verts and faces lists, without duplicates
	verts = []
	coords = {}
	index = 0
	for i in xrange(len(faces)):
		for j in xrange(len(faces[i])):
			vertex = faces[i][j]
			if not coords.has_key(vertex):
				coords[vertex] = index
				index += 1
				verts.append(vertex)
			faces[i][j] = coords[vertex]

	objname = Blender.sys.splitext(Blender.sys.basename(filename))[0]

	meshtools.create_mesh(verts, faces, objname)
	Blender.Window.DrawProgressBar(1.0, '')  # clear progressbar
	file.close()
	#end = time.clock()
	#seconds = " in %.2f %s" % (end-start, "seconds")
	message = "Successfully imported " + Blender.sys.basename(filename)# + seconds
	meshtools.print_boxed(message)
コード例 #9
0
ファイル: net_triangle.py プロジェクト: Angeldude/pd
	if not (mesh.faces.index(face) % 4):
		# finish off the last one, if this isn't the first one
		if mesh.faces.index(face):
			data += ";\n"
			s.send(data)
		# start a new buffer
		data = objname + " "
	
	if len(face.v) == 3:		# triangle
		v1, v2, v3 = face.v
		faceverts = tuple(v1.co) + tuple(v2.co) + tuple(v3.co)
		data += "%f %f %f %f %f %f %f %f %f " % faceverts
	else:						# quadrilateral
		v1, v2, v3, v4 = face.v
		faceverts1 = tuple(v1.co) + tuple(v2.co) + tuple(v3.co)
		faceverts2 = tuple(v3.co) + tuple(v4.co) + tuple(v1.co)
		data += "%.3f %.3f %.3f %.3f %.3f %.3f %.3f %.3f %.3f " % faceverts1
		data += "%.3f %.3f %.3f %.3f %.3f %.3f %.3f %.3f %.3f " % faceverts2

# finish off the very last one
data += ";\n"
s.send(data)

Blender.Window.DrawProgressBar(1.0, '')  # clear progressbar

s.close()

message = "Successfully sent " + objname
meshtools.print_boxed(message)

コード例 #10
0
    # send four faces at a time until we're done
    if not (mesh.faces.index(face) % 4):
        # finish off the last one, if this isn't the first one
        if mesh.faces.index(face):
            data += ";\n"
            s.send(data)
        # start a new buffer
        data = objname + " "

    if len(face.v) == 3:  # triangle
        v1, v2, v3 = face.v
        faceverts = tuple(v1.co) + tuple(v2.co) + tuple(v3.co)
        data += "%f %f %f %f %f %f %f %f %f " % faceverts
    else:  # quadrilateral
        v1, v2, v3, v4 = face.v
        faceverts1 = tuple(v1.co) + tuple(v2.co) + tuple(v3.co)
        faceverts2 = tuple(v3.co) + tuple(v4.co) + tuple(v1.co)
        data += "%.3f %.3f %.3f %.3f %.3f %.3f %.3f %.3f %.3f " % faceverts1
        data += "%.3f %.3f %.3f %.3f %.3f %.3f %.3f %.3f %.3f " % faceverts2

# finish off the very last one
data += ";\n"
s.send(data)

Blender.Window.DrawProgressBar(1.0, '')  # clear progressbar

s.close()

message = "Successfully sent " + objname
meshtools.print_boxed(message)
コード例 #11
0
def main():

    print "-------------------------------------------------------"
    print "                      start (Practice.py)\n"

    start = time.clock()

    # Try getting the names of all of the selected items in the scene
    objects = Blender.Object.GetSelected()
    if not objects:
        meshtools.print_boxed("No objects are selected.")
        return

    objects.sort(lambda a, b: cmp(a.name, b.name))

    def NumUsers(o):
        try:
            return o.users
        except:
            return 0

    global ObjectInstances

    # walk through list of selected objects and check
    for o in objects:
        print "%s, %s:\n\tdata: %s, %s, %s, [Users %s]" % (o.name, type(
            o), o.data, o.getData(True), type(o.data), NumUsers(o.data))
        # o.getBoundBox(), o.getEuler(), o.getLocation(), o.getSize()

        if not o.data.name in ObjectInstances:
            ObjectInstances[
                o.data.name] = o.data  # this will be the same so just add it?
        else:
            numUsers = NumUsers(o.data)
            if numUsers > 1:
                print "Found %s" % o.data.name
            elif numUsers:
                print "Error: %d, was used only once but found on list possible duplicate name!" % (
                    o.data.name)

        # Create a list of verts by Material!
        if type(o.data) == Types.NMeshType:
            faceByMaterial = [[] for i in range(len(o.data.materials))]

            # create face listing by material!
            for face in o.data.faces:
                # print "material", face.mat
                faceByMaterial[face.mat].append(face)

            for (indx, faces) in enumerate(faceByMaterial):
                # print indx, o.data.materials[indx], len(faces)
                for face in faces:
                    print face,
                # print

    end = time.clock()

    print

    # Print status message
    seconds = " in %.2f %s" % (end - start, "seconds")
    message = "Completed operation in " + seconds
    meshtools.print_boxed(message)
コード例 #12
0
def write(filename):
    global showProgress
    print showProgress
    start = time.clock()

    convertToTris = 0
    if Blender.sys.exists(filename) and (
            Blender.Draw.PupMenu("File exists, replace?%t|YES|NO") == 2):
        fileSelect()
        return

    file = open(filename, "wb")

    # ms3d header
    file.write("// MilkShape 3D ASCII\n\nFrames: 30\nFrame: 1\n\n")

    file.write("Meshes: " + str(len(Blender.Object.GetSelected())) + '\n')

    objects = Blender.Object.GetSelected()

    for obj in range(len(objects)):
        meshname = objects[obj].data.name
        mesh = Blender.NMesh.GetRaw(meshname)
        thismesh = meshname

        if dbg:
            print "\nDEBUG: Mesh", mesh, "Obj: ", obj, "Name: ", objects[
                obj].data.name
        if mesh:
            print "Mesh", objects[obj].data.name,
            meshname = "\"" + objects[obj].data.name + "\" 0 " + str(
                obj
            ) + "\n"  # Setting flags=0, mat index=object number for now, also note that I'm using object name, not meshname
            file.write(meshname)

            file.write(
                str(3 * len(mesh.faces)) + '\n'
            )  # should be better way to get # of verts, but this is fast
            for i in range(
                    len(mesh.faces
                        )):  # New in v 0.3 - getting verts from faces directly
                faceVerts = len(
                    mesh.faces[i].v
                )  # Reversing the winding to fix flipped normals problem
                for fv in range(faceVerts):  # Scan through each vert in face
                    line = '0 ' + str(
                        -round(mesh.faces[i].v[faceVerts - fv - 1][0], 4)
                    ) + ' ' + str(
                        round(mesh.faces[i].v[faceVerts - fv - 1][2], 4)
                    ) + ' ' + str(
                        round(-mesh.faces[i].v[faceVerts - fv - 1][1], 4)
                    ) + ' '  #+ str(round(mesh.faces[i].uv[fv][0],5)) + ' ' + str(round(mesh.faces[i].uv[fv][1],5))  + ' -1\n'
                    if (len(mesh.faces[i].uv)):
                        line += str(
                            round(mesh.faces[i].uv[faceVerts - fv - 1][0], 5)
                        ) + ' ' + str(
                            round(1 - mesh.faces[i].uv[faceVerts - fv - 1][1],
                                  5)) + ' -1\n'
                    else:
                        line += '0.0 0.0 -1\n'

                    if not i % 50 and showProgress.val:
                        Blender.Window.DrawProgressBar(
                            float(i) / len(mesh.faces), thismesh + "Verts")
                    file.write(line)

            # Normals
            #print "Norms: ",len(mesh.faces),  #FIX! Temp only using # of faces
            file.write(str(3 * len(mesh.faces)))
            for i in range(len(mesh.faces)):
                if not i % 50 and showProgress.val:
                    Blender.Window.DrawProgressBar(
                        float(i) / len(mesh.faces), thismesh + "Normals")
                #file.write('\n' + str(round(mesh.faces[i].no[0],4)) + ' ' + str(round(mesh.faces[i].no[2],4)) + ' ' + str(round(mesh.faces[i].no[1],4)))
                faceVerts = len(mesh.faces[i].v)
                for fv in range(faceVerts):  # Scan through each vert in face
                    # Check if the face is smoothed or not:
                    if (mesh.faces[i].smooth):
                        file.write('\n' + str(
                            round(-mesh.faces[i].v[faceVerts - fv -
                                                   1].no[0], 4)))
                        file.write(' ' + str(
                            round(mesh.faces[i].v[faceVerts - fv -
                                                  1].no[2], 4)))
                        file.write(' ' + str(
                            round(-mesh.faces[i].v[faceVerts - fv -
                                                   1].no[1], 4)))
                    else:
                        file.write('\n' + str(round(-mesh.faces[i].no[0], 4)) +
                                   ' ' + str(round(mesh.faces[i].no[2], 4)) +
                                   ' ' + str(round(-mesh.faces[i].no[1], 4)))

            # Faces
            print "Triangles: ", len(mesh.faces)
            file.write('\n' + str(len(mesh.faces)) + '\n')
            idx = 0
            line = ""
            for i in range(len(mesh.faces)):  # one face at a time
                if not i % 50 and showProgress.val:
                    Blender.Window.DrawProgressBar(
                        float(i) / len(mesh.faces), thismesh + "Triangles")
                if (len(mesh.faces[i].v) !=
                        3):  #Ensure each face is a triangle!
                    print "\n\n*********** Error!   **********\n"
                    print "Object", objects[obj].data.name, "has", len(
                        mesh.faces[i].v
                    ), "vertices in face", i, "Must have THREE verts per face - convert to triangles with CTRL-T!"
                    Blender.Window.WaitCursor(0)
                    exitmsg = 'MS3D Export Error:|Mesh \"' + objects[
                        obj].data.name + '\" has ' + str(
                            len(mesh.faces[i].v)
                        ) + ' verts in a face, needs to be converted to triangles with CTRL-T!'
                    Blender.Draw.PupMenu(exitmsg)
                    return
                    ######## Keeping depricated (and broken) tri2quad for future reference
                    #if convertToTris==0:	#only ask once
                    #	print "Object",objects[obj].data.name, "has", len(mesh.faces[i].v), "vertices in face", i, "Must have THREE verts per face"
                    #	convertToTris=Blender.Draw.PupMenu("Model not made entirely out of Triangles-Convert?%t|YES|NO")
                    #if convertToTris==1:
                    #	for f in mesh.faces:
                    #		f.sel = 1
                    #	Blender.Mesh.Mode(3)
                    #	mesh.quadToTriangle(0)
                    #elif convertToTris==2:
                    #	exitmsg = 'MS3D Export Error:|Mesh \"' + objects[obj].data.name + '\" has ' + str(len(mesh.faces[i].v)) + ' verts in a face, needs to be converted to triangles with CTRL-T!'
                    #	Blender.Draw.PupMenu(exitmsg)
                    #	return

                for v in range(
                        len(mesh.faces[i].v)
                ):  #Go through each vertex in face - only need triangles for MS3D, but this would allow for quads too for portability
                    line += str(idx) + " "
                    idx += 1
                    #print cnt  #debug info
                #file.write('1 ' + line + str( i) + ' ' + str(i) + ' ' + str(i) + ' 1\n')
                file.write('1 ' + line + line + ' 1\n')

                line = ""  # fresh start for next face

        ######### Materials! ##########
    numMats = 0
    for obj in range(
            len(objects)):  #FIXME! Stupid cludge for counting materials
        meshname = objects[obj].data.name
        mesh = Blender.NMesh.GetRaw(meshname)
        if (len(mesh.materials) == 0):  #Ensure the mesh has a material
            print '*** Error! ', meshname, 'must have a material & texture!'
            message = 'MS3D Export Error:|Mesh \"' + objects[
                obj].data.name + '\"needs to have a material!'
            meshtools.print_boxed(message)
            Blender.Window.WaitCursor(0)
            Blender.Draw.PupMenu(message)
            return

        if mesh.materials[0]:
            numMats += 1
    file.write("\nMaterials: " + str(numMats) + "\n")

    for obj in range(len(objects)):
        meshname = objects[obj].data.name
        mesh = Blender.NMesh.GetRaw(meshname)

        for material in mesh.materials:
            file.write("\"" + material.name + "\"\n")

            #file.write(str(round(material.ref,5))+ " " + str(round(material.ref,5))+ " " + str(round(material.ref,5)) + " " + str(round(material.alpha,5)) + "\n")
            #TODO Why are these values the same??? TODO
            # file.write(str("%5f %5f %5f %5f\n" % (material.ref,material.ref,material.ref,material.alpha)))
            file.write(
                str("%5f %5f %5f %5f\n" % (material.amb, material.amb,
                                           material.amb, material.alpha)))
            #file.write(str(round(material.rgbCol[0],5)) + " " + str(round(material.rgbCol[1],5)) + " " + str(round(material.rgbCol[2],5)) + " " + str(round(material.alpha,5)) + "\n")
            file.write(
                str("%5f %5f %5f %5f\n" %
                    (material.rgbCol[0], material.rgbCol[1],
                     material.rgbCol[2], material.alpha)))
            file.write(
                str("%5f %5f %5f %5f\n" % (material.spec, material.spec,
                                           material.spec, material.alpha)))

            #file.write(str(round(material.spec,5)) + " " + str(round(material.spec,5)) + " " + str(round(material.spec,5)) + " " + str(round(material.alpha,5)))
            file.write(
                str("%5f %5f %5f %5f\n" % (material.emit, material.emit,
                                           material.emit, material.alpha)))
            file.write(str(material.ref) + "\n")
            file.write(str(material.alpha) + "\n")
            # get the current texture image
            imageName = ""
            mytex = material.getTextures()
            if (dbg):
                print 'MyTex: ', mytex[0]
            if (mytex[0] != None):
                image = material.getTextures()[0].tex.getImage()
                imageName = Blender.sys.basename(image.getFilename())

                file.write("\".\\" + stripPath(imageName) + "\"")

            else:
                print 'Warning: Mesh ' + meshname + ' does not have a texture image!'
                message = 'MS3D Export Warning:|Mesh \"' + meshname + '\" does not have a texture image!'
                meshtools.print_boxed(message)
                Blender.Window.WaitCursor(0)
                Blender.Draw.PupMenu(message)

                file.write("\"\"")

            #file.write("\".\\" + imageName + "\"")
            file.write("\n\"\"\n")

    file.write(
        '\nBones: 0\n')  # we don't need no stinking bones for Scorched! ;)
    file.write('GroupComments: 0\n')
    file.write('MaterialComments: 0\n')
    file.write('BoneComments: 0\n')
    file.write('ModelComment: 0\n')
    Blender.Window.DrawProgressBar(1.0, '')  #clear progressbar
    file.close()
    end = time.clock()
    seconds = " in %.2f %s" % (end - start, "seconds")
    message = "Successfully exported " + os.path.basename(filename) + seconds
    meshtools.print_boxed(message)
    Blender.Window.WaitCursor(0)
    Blender.Draw.PupMenu(message)
    return