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|
#!runpy.sh
"""\
This module contains tools for manipulating the .anim files supported
for Second Life animation upload. Note that this format is unrelated
to any non-Second Life formats of the same name.
$LicenseInfo:firstyear=2016&license=viewerlgpl$
Second Life Viewer Source Code
Copyright (C) 2016, Linden Research, Inc.
This library is free software; you can redistribute it and/or
modify it under the terms of the GNU Lesser General Public
License as published by the Free Software Foundation;
version 2.1 of the License only.
This library 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
Lesser General Public License for more details.
You should have received a copy of the GNU Lesser General Public
License along with this library; if not, write to the Free Software
Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
Linden Research, Inc., 945 Battery Street, San Francisco, CA 94111 USA
$/LicenseInfo$
"""
import sys
import struct
import StringIO
import math
import argparse
import random
from lxml import etree
U16MAX = 65535
OOU16MAX = 1.0/(float)(U16MAX)
LL_MAX_PELVIS_OFFSET = 5.0
class FilePacker(object):
def __init__(self):
self.data = StringIO.StringIO()
self.offset = 0
def write(self,filename):
f = open(filename,"wb")
f.write(self.data.getvalue())
f.close()
def pack(self,fmt,*args):
buf = struct.pack(fmt, *args)
self.offset += struct.calcsize(fmt)
self.data.write(buf)
def pack_string(self,str,size=0):
buf = str + "\000"
if size and (len(buf) < size):
buf += "\000" * (size-len(buf))
self.data.write(buf)
class FileUnpacker(object):
def __init__(self, filename):
f = open(filename,"rb")
self.data = f.read()
self.offset = 0
def unpack(self,fmt):
result = struct.unpack_from(fmt, self.data, self.offset)
self.offset += struct.calcsize(fmt)
return result
def unpack_string(self, size=0):
result = ""
i = 0
while (self.data[self.offset+i] != "\000"):
result += self.data[self.offset+i]
i += 1
i += 1
if size:
# fixed-size field for the string
i = size
self.offset += i
return result
# translated from the C++ version in lldefs.h
def llclamp(a, minval, maxval):
if a<minval:
return minval
if a>maxval:
return maxval
return a
# translated from the C++ version in llquantize.h
def F32_to_U16(val, lower, upper):
val = llclamp(val, lower, upper);
# make sure that the value is positive and normalized to <0, 1>
val -= lower;
val /= (upper - lower);
# return the U16
return int(math.floor(val*U16MAX))
# translated from the C++ version in llquantize.h
def U16_to_F32(ival, lower, upper):
if ival < 0 or ival > U16MAX:
raise Exception("U16 out of range: "+ival)
val = ival*OOU16MAX
delta = (upper - lower)
val *= delta
val += lower
max_error = delta*OOU16MAX;
# make sure that zeroes come through as zero
if abs(val) < max_error:
val = 0.0
return val;
class BadFormat(Exception):
pass
class RotKey(object):
def __init__(self):
pass
def unpack(self, anim, fup):
(self.time_short, ) = fup.unpack("<H")
self.time = U16_to_F32(self.time_short, 0.0, anim.duration)
(x,y,z) = fup.unpack("<HHH")
self.rotation = [U16_to_F32(i, -1.0, 1.0) for i in (x,y,z)]
def dump(self, f):
print >>f, " rot_key: t",self.time,"st",self.time_short,"rot",",".join([str(f) for f in self.rotation])
def pack(self, anim, fp):
if not hasattr(self,"time_short"):
self.time_short = F32_to_U16(self.time, 0.0, anim.duration)
fp.pack("<H",self.time_short)
(x,y,z) = [F32_to_U16(v, -1.0, 1.0) for v in self.rotation]
fp.pack("<HHH",x,y,z)
class PosKey(object):
def __init__(self):
pass
def unpack(self, anim, fup):
(self.time_short, ) = fup.unpack("<H")
self.time = U16_to_F32(self.time_short, 0.0, anim.duration)
(x,y,z) = fup.unpack("<HHH")
self.position = [U16_to_F32(i, -LL_MAX_PELVIS_OFFSET, LL_MAX_PELVIS_OFFSET) for i in (x,y,z)]
def dump(self, f):
print >>f, " pos_key: t",self.time,"pos ",",".join([str(f) for f in self.position])
def pack(self, anim, fp):
if not hasattr(self,"time_short"):
self.time_short = F32_to_U16(self.time, 0.0, anim.duration)
fp.pack("<H",self.time_short)
(x,y,z) = [F32_to_U16(v, -LL_MAX_PELVIS_OFFSET, LL_MAX_PELVIS_OFFSET) for v in self.position]
fp.pack("<HHH",x,y,z)
class Constraint(object):
def __init__(self):
pass
def unpack(self, anim, fup):
(self.chain_length, self.constraint_type) = fup.unpack("<BB")
self.source_volume = fup.unpack_string(16)
self.source_offset = fup.unpack("<fff")
self.target_volume = fup.unpack_string(16)
self.target_offset = fup.unpack("<fff")
self.target_dir = fup.unpack("<fff")
fmt = "<ffff"
(self.ease_in_start, self.ease_in_stop, self.ease_out_start, self.ease_out_stop) = fup.unpack("<ffff")
def pack(self, anim, fp):
fp.pack("<BB", self.chain_length, self.constraint_type)
fp.pack_string(self.source_volume, 16)
fp.pack("<fff", *self.source_offset)
fp.pack_string(self.target_volume, 16)
fp.pack("<fff", *self.target_offset)
fp.pack("<fff", *self.target_dir)
fp.pack("<ffff", self.ease_in_start, self.ease_in_stop, self.ease_out_start, self.ease_out_stop)
def dump(self, f):
print >>f, " constraint:"
print >>f, " chain_length",self.chain_length
print >>f, " constraint_type",self.constraint_type
print >>f, " source_volume",self.source_volume
print >>f, " source_offset",self.source_offset
print >>f, " target_volume",self.target_volume
print >>f, " target_offset",self.target_offset
print >>f, " target_dir",self.target_dir
print >>f, " ease_in_start",self.ease_in_start
print >>f, " ease_in_stop",self.ease_in_stop
print >>f, " ease_out_start",self.ease_out_start
print >>f, " ease_out_stop",self.ease_out_stop
class Constraints(object):
def __init__(self):
pass
def unpack(self, anim, fup):
(self.num_constraints, ) = fup.unpack("<i")
self.constraints = []
for i in xrange(self.num_constraints):
constraint = Constraint()
constraint.unpack(anim, fup)
self.constraints.append(constraint)
def pack(self, anim, fp):
fp.pack("<i",self.num_constraints)
for c in self.constraints:
c.pack(anim,fp)
def dump(self, f):
print >>f, "constraints:",self.num_constraints
for c in self.constraints:
c.dump(f)
class PositionCurve(object):
def __init__(self):
self.num_pos_keys = 0
self.keys = []
def is_static(self):
if self.keys:
k0 = self.keys[0]
for k in self.keys:
if k.position != k0.position:
return False
return True
def unpack(self, anim, fup):
(self.num_pos_keys, ) = fup.unpack("<i")
self.keys = []
for k in xrange(0,self.num_pos_keys):
pos_key = PosKey()
pos_key.unpack(anim, fup)
self.keys.append(pos_key)
def pack(self, anim, fp):
fp.pack("<i",self.num_pos_keys)
for k in self.keys:
k.pack(anim, fp)
def dump(self, f):
print >>f, " position_curve:"
print >>f, " num_pos_keys", self.num_pos_keys
for k in xrange(0,self.num_pos_keys):
self.keys[k].dump(f)
class RotationCurve(object):
def __init__(self):
self.num_rot_keys = 0
self.keys = []
def is_static(self):
if self.keys:
k0 = self.keys[0]
for k in self.keys:
if k.rotation != k0.rotation:
return False
return True
def unpack(self, anim, fup):
(self.num_rot_keys, ) = fup.unpack("<i")
self.keys = []
for k in xrange(0,self.num_rot_keys):
rot_key = RotKey()
rot_key.unpack(anim, fup)
self.keys.append(rot_key)
def pack(self, anim, fp):
fp.pack("<i",self.num_rot_keys)
for k in self.keys:
k.pack(anim, fp)
def dump(self, f):
print >>f, " rotation_curve:"
print >>f, " num_rot_keys", self.num_rot_keys
for k in xrange(0,self.num_rot_keys):
self.keys[k].dump(f)
class JointInfo(object):
def __init__(self):
pass
def unpack(self, anim, fup):
self.joint_name = fup.unpack_string()
(self.joint_priority, ) = fup.unpack("<i")
self.rotation_curve = RotationCurve()
self.rotation_curve.unpack(anim, fup)
self.position_curve = PositionCurve()
self.position_curve.unpack(anim, fup)
def pack(self, anim, fp):
fp.pack_string(self.joint_name)
fp.pack("<i", self.joint_priority)
self.rotation_curve.pack(anim, fp)
self.position_curve.pack(anim, fp)
def dump(self, f):
print >>f, "joint:"
print >>f, " joint_name:",self.joint_name
print >>f, " joint_priority:",self.joint_priority
self.rotation_curve.dump(f)
self.position_curve.dump(f)
class Anim(object):
def __init__(self, filename=None):
if filename:
self.read(filename)
def read(self, filename):
fup = FileUnpacker(filename)
self.unpack(fup)
# various validity checks could be added - see LLKeyframeMotion::deserialize()
def unpack(self,fup):
(self.version, self.sub_version, self.base_priority, self.duration) = fup.unpack("@HHhf")
if self.version == 0 and self.sub_version == 1:
self.old_version = True
raise BadFormat("old version not supported")
elif self.version == 1 and self.sub_version == 0:
self.old_version = False
else:
raise BadFormat("Bad combination of version, sub_version: %d %d" % (self.version, self.sub_version))
self.emote_name = fup.unpack_string()
(self.loop_in_point, self.loop_out_point, self.loop, self.ease_in_duration, self.ease_out_duration, self.hand_pose, self.num_joints) = fup.unpack("@ffiffII")
self.joints = []
for j in xrange(0,self.num_joints):
joint_info = JointInfo()
joint_info.unpack(self, fup)
self.joints.append(joint_info)
print "unpacked joint",joint_info.joint_name
self.constraints = Constraints()
self.constraints.unpack(self, fup)
self.data = fup.data
def pack(self, fp):
fp.pack("@HHhf", self.version, self.sub_version, self.base_priority, self.duration)
fp.pack_string(self.emote_name, 0)
fp.pack("@ffiffII", self.loop_in_point, self.loop_out_point, self.loop, self.ease_in_duration, self.ease_out_duration, self.hand_pose, self.num_joints)
for j in self.joints:
j.pack(anim, fp)
self.constraints.pack(anim, fp)
def dump(self, filename="-"):
if filename=="-":
f = sys.stdout
else:
f = open(filename,"w")
print >>f, "versions: ", self.version, self.sub_version
print >>f, "base_priority: ", self.base_priority
print >>f, "duration: ", self.duration
print >>f, "emote_name: ", self.emote_name
print >>f, "loop_in_point: ", self.loop_in_point
print >>f, "loop_out_point: ", self.loop_out_point
print >>f, "loop: ", self.loop
print >>f, "ease_in_duration: ", self.ease_in_duration
print >>f, "ease_out_duration: ", self.ease_out_duration
print >>f, "hand_pose", self.hand_pose
print >>f, "num_joints", self.num_joints
for j in self.joints:
j.dump(f)
self.constraints.dump(f)
def write(self, filename):
fp = FilePacker()
self.pack(fp)
fp.write(filename)
def write_src_data(self, filename):
print "write file",filename
f = open(filename,"wb")
f.write(self.data)
f.close()
def find_joint(self, name):
joints = [j for j in self.joints if j.joint_name == name]
if joints:
return joints[0]
else:
return None
def add_joint(self, name, priority):
if not self.find_joint(name):
j = JointInfo()
j.joint_name = name
j.joint_priority = priority
j.rotation_curve = RotationCurve()
j.position_curve = PositionCurve()
self.joints.append(j)
self.num_joints = len(self.joints)
def delete_joint(self, name):
j = self.find_joint(name)
if j:
anim.joints.remove(j)
anim.num_joints = len(self.joints)
def summary(self):
nj = len(self.joints)
nz = len([j for j in self.joints if j.joint_priority > 0])
nstatic = len([j for j in self.joints if j.rotation_curve.is_static() and j.position_curve.is_static()])
print "summary: %d joints, non-zero priority %d, static %d" % (nj, nz, nstatic)
def add_pos(self, joint_names, positions):
js = [joint for joint in self.joints if joint.joint_name in joint_names]
for j in js:
if args.verbose:
print "adding positions",j.joint_name,positions
j.joint_priority = 4
j.position_curve.num_pos_keys = len(positions)
j.position_curve.keys = []
for i,pos in enumerate(positions):
key = PosKey()
key.time = self.duration * i / (len(positions) - 1)
key.time_short = F32_to_U16(key.time, 0.0, self.duration)
key.position = pos
j.position_curve.keys.append(key)
def add_rot(self, joint_names, rotations):
js = [joint for joint in self.joints if joint.joint_name in joint_names]
for j in js:
print "adding rotations",j.joint_name
j.joint_priority = 4
j.rotation_curve.num_rot_keys = len(rotations)
j.rotation_curve.keys = []
for i,pos in enumerate(rotations):
key = RotKey()
key.time = self.duration * i / (len(rotations) - 1)
key.time_short = F32_to_U16(key.time, 0.0, self.duration)
key.rotation = pos
j.rotation_curve.keys.append(key)
def twistify(anim, joint_names, rot1, rot2):
js = [joint for joint in anim.joints if joint.joint_name in joint_names]
for j in js:
print "twisting",j.joint_name
print j.rotation_curve.num_rot_keys
j.joint_priority = 4
j.rotation_curve.num_rot_keys = 2
j.rotation_curve.keys = []
key1 = RotKey()
key1.time_short = 0
key1.time = U16_to_F32(key1.time_short, 0.0, anim.duration)
key1.rotation = rot1
key2 = RotKey()
key2.time_short = U16MAX
key2.time = U16_to_F32(key2.time_short, 0.0, anim.duration)
key2.rotation = rot2
j.rotation_curve.keys.append(key1)
j.rotation_curve.keys.append(key2)
def float_triple(arg):
vals = arg.split()
if len(vals)==3:
return [float(x) for x in vals]
else:
raise Exception("arg %s does not resolve to a float triple" % arg)
def get_joint_by_name(tree,name):
if tree is None:
return None
matches = [elt for elt in tree.getroot().iter() if \
elt.get("name")==name and elt.tag in ["bone", "collision_volume", "attachment_point"]]
if len(matches)==1:
return matches[0]
elif len(matches)>1:
print "multiple matches for name",name
return None
else:
return None
def get_elt_pos(elt):
if elt.get("pos"):
return float_triple(elt.get("pos"))
elif elt.get("position"):
return float_triple(elt.get("position"))
else:
return (0.0, 0.0, 0.0)
def resolve_joints(names, skel_tree, lad_tree):
print "resolve joints, no_hud is",args.no_hud
if skel_tree and lad_tree:
all_elts = [elt for elt in skel_tree.getroot().iter()]
all_elts.extend([elt for elt in lad_tree.getroot().iter()])
matches = []
for elt in all_elts:
if elt.get("name") is None:
continue
print elt.get("name"),"hud",elt.get("hud")
if args.no_hud and elt.get("hud"):
print "skipping hud joint", elt.get("name")
continue
if elt.get("name") in names or elt.tag in names:
matches.append(elt.get("name"))
return list(set(matches))
else:
return names
if __name__ == "__main__":
parser = argparse.ArgumentParser(description="process SL animations")
parser.add_argument("--verbose", help="verbose flag", action="store_true")
parser.add_argument("--dump", help="dump to specified file")
parser.add_argument("--rot", help="specify sequence of rotations", type=float_triple, nargs="+")
parser.add_argument("--rand_pos", help="request random positions", action="store_true")
parser.add_argument("--reset_pos", help="request original positions", action="store_true")
parser.add_argument("--pos", help="specify sequence of positions", type=float_triple, nargs="+")
parser.add_argument("--num_pos", help="number of positions to create", type=int, default=2)
parser.add_argument("--delete_joints", help="specify joints to be deleted", nargs="+")
parser.add_argument("--joints", help="specify joints to be added or modified", nargs="+")
parser.add_argument("--summary", help="print summary of the output animation", action="store_true")
parser.add_argument("--skel", help="name of the avatar_skeleton file", default="avatar_skeleton.xml")
parser.add_argument("--lad", help="name of the avatar_lad file", default="avatar_lad.xml")
parser.add_argument("--set_version", nargs=2, type=int, help="set version and sub-version to specified values")
parser.add_argument("--no_hud", help="omit hud joints from list of attachments", action="store_true")
parser.add_argument("infilename", help="name of a .anim file to input")
parser.add_argument("outfilename", nargs="?", help="name of a .anim file to output")
args = parser.parse_args()
print "anim_tool.py: " + " ".join(sys.argv)
print "dump is", args.dump
print "infilename",args.infilename,"outfilename",args.outfilename
print "rot",args.rot
print "pos",args.pos
print "joints",args.joints
try:
anim = Anim(args.infilename)
skel_tree = None
lad_tree = None
joints = []
if args.skel:
skel_tree = etree.parse(args.skel)
if skel_tree is None:
print "failed to parse",args.skel
exit(1)
if args.lad:
lad_tree = etree.parse(args.lad)
if lad_tree is None:
print "failed to parse",args.lad
exit(1)
if args.joints:
joints = resolve_joints(args.joints, skel_tree, lad_tree)
if args.verbose:
print "joints resolved to",joints
for name in joints:
anim.add_joint(name,0)
if args.delete_joints:
for name in args.delete_joints:
anim.delete_joint(name)
if joints and args.rot:
anim.add_rot(joints, args.rot)
if joints and args.pos:
anim.add_pos(joints, args.pos)
if joints and args.rand_pos:
for joint in joints:
pos_array = list(tuple(random.uniform(-1,1) for i in xrange(3)) for j in xrange(args.num_pos))
pos_array.append(pos_array[0])
anim.add_pos([joint], pos_array)
if joints and args.reset_pos:
for joint in joints:
elt = get_joint_by_name(skel_tree,joint)
if elt is None:
elt = get_joint_by_name(lad_tree,joint)
if elt is not None:
pos_array = []
pos_array.append(get_elt_pos(elt))
pos_array.append(pos_array[0])
anim.add_pos([joint], pos_array)
else:
print "no elt or no pos data for",joint
if args.set_version:
anim.version = args.set_version[0]
anim.sub_version = args.set_version[1]
if args.dump:
anim.dump(args.dump)
if args.summary:
anim.summary()
if args.outfilename:
anim.write(args.outfilename)
except:
raise
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