def make_edge_key(i1, i2):
return (min(i1, i2), max(i1, i2))
+progress_range = (0.0, 1.0, "")
+
+def set_progress(value):
+ Blender.Window.DrawProgressBar(progress_range[0]+progress_range[1]*value, progress_range[2])
+
+def set_progress_range(low, high, text):
+ global progress_range
+ progress_range = (low, high-low, text)
+ set_progress(0.0)
+
class Edge:
def __init__(self, me):
def __getattr__(self, attr):
return getattr(self._medge, attr)
- def __cmp__(self, other):
- return self is other
-
def check_smooth(self, limit):
if len(self.faces)!=2:
return
else:
self._mvert = mv
self.uv = None
- self.orig_index = self._mvert.index
self.flag = False
self.faces = []
self.tan = None
__repr__ = __str__
- def pivot_vertices(self, reverse, *vt):
- verts = self.verts[:]
- if reverse:
- verts.reverse()
- flags = [(v in vt) for v in verts]
- l = len(verts)
+ def pivot_vertices(self, *vt):
+ flags = [(v in vt) for v in self.verts]
+ l = len(self.verts)
for i in range(l):
if flags[i] and not flags[(i+l-1)%l]:
- return verts[i:]+verts[:i]
+ return self.verts[i:]+self.verts[:i]
def get_edge(self, v1, v2):
key = make_edge_key(v1.index, v2.index)
self._mesh = m
self.verts = [Vertex(v) for v in m.verts]
self.faces = [Face(f) for f in m.faces]
+ self.materials = m.materials[:]
for f in self.faces:
for i in range(len(f.verts)):
smooth_limit = math.cos(m.degr*math.pi/180)
else:
smooth_limit = -1
+
for e in self.edges.itervalues():
e.v1 = self.verts[e.v1.index]
e.v2 = self.verts[e.v2.index]
def __getattr__(self, attr):
return getattr(self._mesh, attr)
+ def splice(self, other):
+ material_map = []
+ for m in other.materials:
+ if m in self.materials:
+ material_map.append(self.materials.index(m))
+ else:
+ material_map.append(len(self.materials))
+ self.materials.append(m)
+
+ offset = len(self.verts)
+ for v in other.verts:
+ v.index += offset
+ self.verts.append(v)
+
+ offset = len(self.faces)
+ for f in other.faces:
+ f.index += offset
+ f.mat = material_map[f.mat]
+ self.faces.append(f)
+
+ for e in other.edges.itervalues():
+ e.key = make_edge_key(e.v1.index, e.v2.index)
+ self.edges[e.key] = e
+
+ self.lines += other.lines
+
+ def generate_material_uv(self):
+ for f in self.faces:
+ f.uv = ([(f.mat+0.5)/len(self.materials), 0.5],)*len(f.verts)
+ self.faceUV = True
+
def split_vertices(self, find_group_func, debug):
groups = []
- for v in self.verts:
+ for i in range(len(self.verts)):
+ v = self.verts[i]
for f in v.faces:
f.flag = False
groups.append(vg)
+ set_progress(i*0.5/len(self.verts))
+
for i in range(len(self.verts)):
if len(groups[i])==1:
continue
f.verts[f.verts.index(self.verts[i])] = v
v.faces.append(f)
+ set_progress(0.5+i*0.5/len(self.verts))
+
def split_smooth(self, debug = False):
self.split_vertices(self.find_smooth_group, debug)
v.tan.normalize()
v.bino.normalize()
- def create_strip(self, face, reverse, debug):
+ def create_strip(self, face, max_len, debug):
edge = None
for e in face.edges:
other = e.other_face(face)
return None
if debug:
- print "Starting strip from %s, edge %s, reverse=%s"%([v.index for v in face.verts], (edge.v1.index, edge.v2.index), reverse)
+ print "Starting strip from %s, edge %s"%([v.index for v in face.verts], (edge.v1.index, edge.v2.index))
- verts = face.pivot_vertices(reverse, edge.v1, edge.v2)
+ verts = face.pivot_vertices(edge.v1, edge.v2)
if len(verts)==3:
result = [verts[-1], verts[0]]
else:
result = [verts[-2], verts[-1]]
while 1:
- verts = face.pivot_vertices(reverse, *result[-2:])
- k = len(result)%2
if debug:
print " Adding %s"%face
+ verts = face.pivot_vertices(*result[-2:])
+ k = len(result)%2
+
face.flag = True
if len(verts)==4 and not k:
result.append(verts[3])
if len(verts)==4 and k:
result.append(verts[3])
+ if len(result)>=max_len:
+ if debug:
+ print " Max length exceeded"
+ break
+
edge = face.get_edge(*result[-2:])
if debug:
return result
-class Exporter:
+class VertexCache:
+ def __init__(self, size):
+ self.size = size
+ self.slots = [-1]*self.size
+
+ def fetch(self, v):
+ hit = v.index in self.slots
+ if hit:
+ self.slots.remove(v.index)
+ self.slots.append(v.index)
+ if not hit:
+ del self.slots[0]
+ return hit
+
+ def fetch_strip(self, strip):
+ hits = 0
+ for v in strip:
+ if self.fetch(v):
+ hits += 1
+ return hits
+
+ def test_strip(self, strip):
+ hits = 0
+ for i in range(len(strip)):
+ if i>=self.size:
+ break
+ if strip[i].index in self.slots[i:]:
+ hits += 1
+ return hits
+
+
+class OutFile:
def __init__(self, fn):
- self.filename = fn
if fn==None:
- self.out_file = sys.stdout
+ self.file = sys.stdout
else:
- self.out_file = file(fn, "w")
+ self.file = open(fn, "w")
+ self.indent = 0
+
+ def make(self, kwd, *params):
+ pstr = ""
+ for p in params:
+ if type(p)==float:
+ pstr += " %.6g"%p
+ else:
+ pstr += " %s"%p
+ return "%s%s"%(kwd, pstr)
+
+ def write(self, kwd, *params):
+ self.file.write("%s%s;\n"%('\t'*self.indent, self.make(kwd, *params)))
+
+ def begin(self, kwd, *params):
+ i = '\t'*self.indent
+ self.file.write("%s%s\n%s{\n"%(i, self.make(kwd, *params), i))
+ self.indent += 1
+
+ def end(self):
+ self.indent -= 1
+ self.file.write("%s};\n"%('\t'*self.indent))
+
+
+class Exporter:
+ def __init__(self, fn):
+ self.out_file = OutFile(fn)
self.use_strips = True
self.use_degen_tris = True
- self.optimize_locality = True
+ self.max_strip_len = 1024
+ self.optimize_cache = False
+ self.cache_size = 64
self.export_lines = True
self.tbn_vecs = False
+ self.compound = False
+ self.object = False
+ self.material_tex = False
self.debug = False
self.strip_debug = False
self.split_debug = False
- def get_locality(self, strip):
- total = 0
- for i in range(1, len(strip)):
- if strip[i].index!=strip[i-1].index:
- total += 1.0/(abs(strip[i].index-strip[i-1].index))
- return total/len(strip)
-
- def get_followers(self, strip):
- result = {}
- for i in range(len(strip)-1):
- v = strip[i]
- n = strip[i+1]
- if v.index!=n.index:
- if v.index not in result:
- result[v.index] = {}
- if n.index not in result[v.index]:
- result[v.index][n.index] = 1
+ def stripify(self, mesh):
+ for f in mesh.faces:
+ f.flag = False
+
+ faces_done = 0
+ strips = []
+ loose = []
+
+ cache = None
+ if self.optimize_cache:
+ cache = VertexCache(self.cache_size)
+
+ island = []
+ island_strips = []
+ while 1:
+ if not island:
+ queue = []
+ for f in mesh.faces:
+ if not f.flag:
+ f.flag = True
+ queue.append(f)
+ break
+
+ if not queue:
+ break
+
+ while queue:
+ f = queue[0]
+ del queue[0]
+ island.append(f)
+
+ for e in f.edges:
+ other = e.other_face(f)
+ if other and not other.flag:
+ other.flag = True
+ queue.append(other)
+
+ for f in island:
+ f.flag = False
+
+ best = 5
+ face = None
+ for f in island:
+ if f.flag:
+ continue
+ score = 0
+ for e in f.edges:
+ other = e.other_face(f)
+ if other and not other.flag:
+ score += 1
+ if score>0 and score<best:
+ face = f
+ best = score
+
+ if not face:
+ while island_strips:
+ best = 0
+ if cache:
+ best_hits = 0
+ for i in range(len(island_strips)):
+ hits = cache.test_strip(island_strips[i])
+ if hits>best_hits:
+ best = i
+ best_hits = hits
+
+ s = island_strips[best]
+ del island_strips[best]
+ strips.append(s)
+
+ if cache:
+ cache.fetch_strip(s)
+
+ faces_done += len(island)
+ set_progress(float(faces_done)/len(mesh.faces))
+
+ loose += [f for f in island if not f.flag]
+ for f in island:
+ f.flag = True
+
+ island = []
+ island_strips = []
+ continue
+
+ strip = mesh.create_strip(face, self.max_strip_len, self.strip_debug)
+ if strip:
+ island_strips.append(strip)
+
+ if self.debug:
+ print "%d strips:"%len(strips)
+ for i in range(len(strips)):
+ print " %d: %d indices"%(i, len(strips[i]))
+ print "%d loose faces"%len(loose)
+ nind = sum([len(s) for s in strips])+sum([len(f.verts) for f in loose])
+ print "%d indices total"%nind
+
+ if cache:
+ cache = VertexCache(self.cache_size)
+ total_hits = 0
+
+ if self.use_degen_tris and strips:
+ big_strip = []
+
+ for s in strips:
+ if big_strip:
+ glue = [big_strip[-1], s[0]]
+ if len(big_strip)%2:
+ glue += [s[0]]
+
+ big_strip += glue
+ if cache:
+ total_hits += cache.fetch_strip(glue)
+
+ big_strip += s
+ if cache:
+ total_hits += cache.fetch_strip(s)
+
+ for f in loose:
+ if len(big_strip)%2:
+ order = (-1, -2, 0, 1)
else:
- result[v.index][n.index] += 1
- return result
+ order = (0, 1, -1, -2)
+ verts = [f.verts[i] for i in order[:len(f.verts)]]
+
+ if big_strip:
+ glue = [big_strip[-1], verts[0]]
+ big_strip += glue
+ if cache:
+ total_hits += cache.fetch_strip(glue)
+
+ big_strip += verts
+ if cache:
+ total_hits += cache.fetch_strip(verts)
+
+ strips = [big_strip]
+ loose = []
+
+ if self.debug:
+ nind = len(big_strip)
+ print "Big strip has %d indices"%nind
+ if self.optimize_cache:
+ print "%d cache hits"%total_hits
+
+ if self.debug:
+ ntris = sum([len(f.verts)-2 for f in mesh.faces])
+ print "%.2f indices per triangle"%(float(nind)/max(ntris, 1))
+
+ return strips, loose
def export(self):
scene = bpy.data.scenes.active
- obj = scene.objects.active
- if obj.getType()!="Mesh":
- raise Exception, "Can only export Mesh data"
+ objs = Blender.Object.GetSelected()
+ if not objs:
+ raise Exception, "Nothing to export"
+ for o in objs:
+ if o.getType()!="Mesh":
+ raise Exception, "Can only export Mesh data"
+
+ Blender.Window.DrawProgressBar(0.0, "Preparing");
mesh = Blender.Mesh.New("export_tmp")
- mesh.getFromObject(obj)
+ mesh.getFromObject(objs[0])
mesh = Mesh(mesh)
+ if self.compound:
+ # Must keep a ref to each Blender mesh
+ bmeshes = []
+ for o in objs[1:]:
+ bmesh = Blender.Mesh.New("export_tmp")
+ bmesh.getFromObject(o)
+ bmeshes.append(bmesh)
+ mesh.splice(Mesh(bmesh))
if self.debug:
ntris = sum([len(f.verts)-2 for f in mesh.faces])
print "Starting with %d vertices, %d faces (%d triangles) and %d edges"%(len(mesh.verts), len(mesh.faces), ntris, len(mesh.edges))
+ set_progress_range(0.05, 0.35, "Smoothing")
mesh.split_smooth(self.split_debug)
if self.debug:
mesh.compute_normals()
+ if self.material_tex:
+ mesh.generate_material_uv()
+
if mesh.faceUV:
+ set_progress_range(0.35, 0.65, "Splitting UVs")
mesh.split_uv(self.split_debug)
if self.debug:
print "After UV splitting %d vertices and %d edges"%(len(mesh.verts), len(mesh.edges))
if self.tbn_vecs:
mesh.compute_tbn()
+ set_progress_range(0.65, 0.95, "Creating strips")
strips = []
+ loose = mesh.faces
if self.use_strips:
- for f in mesh.faces:
- f.flag = False
-
- while 1:
- best = 5
- face = None
- for f in mesh.faces:
- if f.flag:
- continue
- score = 0
- for e in f.edges:
- other = e.other_face(f)
- if other and not other.flag:
- score += 1
- if score>0 and score<best:
- face = f
- best = score
-
- if not face:
- break
-
- strip = mesh.create_strip(face, self.use_degen_tris and sum([len(s) for s in strips])%2, self.strip_debug)
- if strip:
- strips.append(strip)
-
- if self.debug:
- print "%d strips:"%len(strips)
- for i in range(len(strips)):
- print " %d: %d indices"%(i, len(strips[i]))
- print "%d loose faces"%len([f for f in mesh.faces if not f.flag])
- nind = sum([len(s) for s in strips])+sum([len(f.verts) for f in mesh.faces if not f.flag])
- print "%d indices total"%nind
-
- if self.use_degen_tris and strips:
- big_strip = []
- for s in strips:
- if big_strip:
- big_strip += [big_strip[-1], s[0]]
- big_strip += s
-
- for f in mesh.faces:
- if not f.flag:
- if len(big_strip)%2:
- order = (-1, -2, 0, 1)
- else:
- order = (0, 1, -1, -2)
- if big_strip:
- big_strip += [big_strip[-1], f.verts[order[0]]]
- big_strip += [f.verts[i] for i in order[:len(f.verts)]]
- f.flag = True
-
- strips = [big_strip]
-
- if self.debug:
- nind = len(big_strip)
- print "Big strip has %d indices"%len(big_strip)
-
- if self.debug:
- print "%.2f indices per triangle"%(float(nind)/max(ntris, 1))
- print "Locality before optimization: "+" ".join(["%.3f"%self.get_locality(s) for s in strips])
-
- if self.optimize_locality and self.use_strips and strips:
- followers = {}
- for s in strips:
- followers.update(self.get_followers(s))
+ strips, loose = self.stripify(mesh)
- verts2 = []
- vert = strips[0][0]
- while 1:
- vert.flag = True
- verts2.append(vert)
-
- next = None
- if vert.index in followers:
- flw = followers[vert.index]
- best = 0
- for n in flw:
- if flw[n]>best and not mesh.verts[n].flag:
- next = mesh.verts[n]
- best = flw[n]+0.9/abs(vert.index-n)
-
- if not next:
- for v in mesh.verts:
- if not v.flag:
- next = v
- break
- if not next:
- break
+ Blender.Window.DrawProgressBar(0.95, "Writing file");
- vert = next
+ if self.object:
+ self.out_file.begin("mesh")
- mesh.verts = verts2
-
- for i in range(len(mesh.verts)):
- mesh.verts[i].index = i
-
- if self.debug:
- print "Locality after optimization: "+" ".join(["%.3f"%self.get_locality(s) for s in strips])
-
- self.out_file.write("vertices NORMAL3")
+ fmt = "NORMAL3"
if mesh.faceUV:
- self.out_file.write("_TEXCOORD2")
+ fmt += "_TEXCOORD2"
if self.tbn_vecs:
- self.out_file.write("_ATTRIB33_ATTRIB34")
- self.out_file.write("_VERTEX3\n{\n")
+ fmt += "_ATTRIB33_ATTRIB34"
+ fmt += "_VERTEX3"
+ self.out_file.begin("vertices", fmt)
norm = None
uv = None
tan = None
bino = None
for v in mesh.verts:
if v.no!=norm:
- self.out_file.write("\tnormal3 %f %f %f;\n"%tuple(v.no))
+ self.out_file.write("normal3", *v.no)
norm = v.no
if v.uv!=uv:
- self.out_file.write("\ttexcoord2 %f %f;\n"%tuple(v.uv))
+ self.out_file.write("texcoord2", *v.uv)
uv = v.uv
if v.tan!=tan:
- self.out_file.write("\tattrib3 3 %f %f %f;\n"%tuple(v.tan))
+ self.out_file.write("attrib3", 3, *v.tan)
tan = v.tan
if v.bino!=bino:
- self.out_file.write("\tattrib3 4 %f %f %f;\n"%tuple(v.bino))
+ self.out_file.write("attrib3", 4, *v.bino)
bino = v.bino
- self.out_file.write("\tvertex3 %f %f %f;\n"%tuple(v.co))
- self.out_file.write("};\n")
+ self.out_file.write("vertex3", *v.co)
+ self.out_file.end()
for s in strips:
- self.out_file.write("batch TRIANGLE_STRIP\n{\n\tindices")
+ self.out_file.begin("batch", "TRIANGLE_STRIP")
+ indices = []
n = 0
for v in s:
- self.out_file.write(" %u"%v.index)
- n += 1;
- if n%32==0:
- self.out_file.write(";\n\tindices")
- self.out_file.write(";\n};\n")
-
- first = True
- for f in mesh.faces:
- if not f.flag:
- if first:
- self.out_file.write("batch TRIANGLES\n{\n")
- first = False
+ indices.append(v.index)
+ if len(indices)>=32:
+ self.out_file.write("indices", *indices)
+ indices = []
+ if indices:
+ self.out_file.write("indices", *indices)
+ self.out_file.end()
+
+ if loose:
+ self.out_file.begin("batch", "TRIANGLES")
+ for f in loose:
for i in range(2, len(f.verts)):
- self.out_file.write("\tindices %u %u %u;\n"%(f.verts[0].index, f.verts[i-1].index, f.verts[i].index))
- if not first:
- self.out_file.write("};\n")
+ self.out_file.write("indices", f.verts[0].index, f.verts[i-1].index, f.verts[i].index)
+ self.out_file.end()
if self.export_lines and mesh.lines:
- self.out_file.write("batch LINES\n{\n")
+ self.out_file.write("batch", "LINES")
for l in mesh.lines:
- self.out_file.write("\tindices %u %u;\n"%(l.verts[0].index, l.verts[1].index))
- self.out_file.write("};\n")
+ self.out_file.write("indices", l.verts[0].index, l.verts[1].index)
+ self.out_file.end()
+
+ if self.object:
+ self.out_file.end()
+ self.out_file.begin("technique")
+ self.out_file.begin("pass", '""')
+ if self.material_tex:
+ self.out_file.begin("material")
+ self.out_file.write("diffuse", 1.0, 1.0, 1.0, 1.0)
+ self.out_file.end()
+ self.out_file.begin("texunit", 0)
+ self.out_file.begin("texture2d")
+ self.out_file.write("min_filter", "NEAREST")
+ self.out_file.write("mag_filter", "NEAREST")
+ self.out_file.write("storage", "RGB", len(mesh.materials), 1)
+ texdata = '"'
+ for m in mesh.materials:
+ texdata += "\\x%02X\\x%02X\\x%02X"%(int(m.R*255), int(m.G*255), int(m.B*255))
+ texdata += '"'
+ self.out_file.write("raw_data", texdata)
+ self.out_file.end()
+ self.out_file.end()
+ elif mesh.materials:
+ m = mesh.materials[0]
+ self.out_file.begin("material")
+ self.out_file.write("diffuse", m.R, m.G, m.B, 1.0)
+ self.out_file.write("ambient", m.R*m.amb, m.G*m.amb, m.B*m.amb, 1.0)
+ self.out_file.write("specular", m.specR*m.spec, m.specG*m.spec, m.specB*m.spec, 1.0)
+ self.out_file.write("shininess", m.hard);
+ self.out_file.end()
+ self.out_file.end()
+ self.out_file.end()
+
+ Blender.Window.DrawProgressBar(1.0, "Done")
class FrontEnd:
def run(self):
self.use_strips = Blender.Draw.Create(self.config.get('use_strips', True))
self.use_degen_tris = Blender.Draw.Create(self.config.get('use_degen_tris', True))
- self.optimize_locality = Blender.Draw.Create(self.config.get('optimize_locality', True))
+ self.max_strip_len = Blender.Draw.Create(self.config.get('max_strip_len', 1024))
+ self.optimize_cache = Blender.Draw.Create(self.config.get('optimize_cache', False))
+ self.cache_size = Blender.Draw.Create(self.config.get('cache_size', 64))
self.export_lines = Blender.Draw.Create(self.config.get('export_lines', False))
self.tbn_vecs = Blender.Draw.Create(self.config.get('tbn_vecs', False))
+ self.compound = Blender.Draw.Create(self.config.get('compound', False))
+ self.object = Blender.Draw.Create(self.config.get('object', False))
+ self.material_tex = Blender.Draw.Create(self.config.get('material_tex', False))
self.debug = Blender.Draw.Create(self.config.get('debug', False))
self.strip_debug = Blender.Draw.Create(self.config.get('strip_debug', False))
self.split_debug = Blender.Draw.Create(self.config.get('split_debug', False))
ret = Blender.Draw.PupBlock("Export MSP GL mesh",
[("Use strips", self.use_strips, "Generage OpenGL triangle strips"),
("Use degen tris", self.use_degen_tris, "Use degenerate triangles to combine triangle strips"),
- ("Optimize locality", self.optimize_locality),
+ ("Max strip len", self.max_strip_len, 4, 16384, "Maximum length of a triangle strip"),
+ ("Optimize cache", self.optimize_cache, "Optimize for vertex cache"),
+ ("Cache size", self.cache_size, 8, 1024, "Cache size to optimize for"),
("Export lines", self.export_lines, "Export lone edges as lines"),
("Compute T/B vecs", self.tbn_vecs, "Compute tangent/binormal vectors for bumpmapping"),
+ ("Compound", self.compound, "Create a compound mesh of all selected objects"),
+ ("Object", self.object, "Export as an object"),
+ ("Material texture", self.material_tex, "Create a texture from material data"),
("Debugging options"),
("Debug", self.debug),
("Debug strips", self.strip_debug),
("Debug splitting", self.split_debug)])
if ret:
dirname = self.temp_config.get("dirname", Blender.sys.dirname(Blender.Get("filename")))
- obj = bpy.data.scenes.active.objects.active
- Blender.Window.FileSelector(self.export, "Export MSP GL mesh", "%s/%s.mesh"%(dirname, obj.name))
+ obj = Blender.Object.GetSelected()[0]
+ ext = "mesh"
+ if self.object.val:
+ ext = "object"
+ Blender.Window.FileSelector(self.export, "Export MSP GL mesh", "%s/%s.%s"%(dirname, obj.name, ext))
def draw(self):
pass
def export(self, fn):
self.config['use_strips'] = self.use_strips.val
self.config['use_degen_tris'] = self.use_degen_tris.val
- self.config['optimize_locality'] = self.optimize_locality.val
+ self.config['max_strip_len'] = self.max_strip_len.val
+ self.config['optimize_cache'] = self.optimize_cache.val
+ self.config['cache_size'] = self.cache_size.val
self.config['export_lines'] = self.export_lines.val
self.config['tbn_vecs'] = self.tbn_vecs.val
+ self.config['compound'] = self.compound.val
+ self.config['object'] = self.object.val
+ self.config['material_tex'] = self.material_tex.val
self.config['debug'] = self.debug.val
self.config['strip_debug'] = self.strip_debug.val
self.config['split_debug'] = self.split_debug.val
exp = Exporter(fn)
exp.use_strips = self.use_strips.val
exp.use_degen_tris = self.use_degen_tris.val
- exp.optimize_locality = self.optimize_locality.val
+ exp.max_strip_len = self.max_strip_len.val
+ exp.optimize_cache = self.optimize_cache.val
+ exp.cache_size = self.cache_size.val
exp.export_lines = self.export_lines.val
exp.tbn_vecs = self.tbn_vecs.val
+ exp.compound = self.compound.val
+ exp.object = self.object.val
+ exp.material_tex = self.material_tex.val
exp.debug = self.debug.val
exp.strip_debug = self.strip_debug.val
exp.split_debug = self.split_debug.val