Exemplo n.º 1
0
def create_scaled_ncloth_auto(**kwargs):
	transforms = selected(transforms=True)
	kwargs['shared_transforms'] = transforms
	result = [ScaledNCloth(s, **kwargs) for s in selected() \
		if not isinstance(s, PolyBase)]
	select(result)
	return result
Exemplo n.º 2
0
def create_scaled_ncloth_auto(**kwargs):
    transforms = selected(transforms=True)
    kwargs['shared_transforms'] = transforms
    result = [ScaledNCloth(s, **kwargs) for s in selected() \
     if not isinstance(s, PolyBase)]
    select(result)
    return result
Exemplo n.º 3
0
def fk_ik_switch(sender, receiver, killjob):
	
	fk, ik = get_fk_ik_joints([sender, receiver])
	
	scriptJob(kill=killjob)
	ik_mode = sender.attr('FkIkMode').get()
	if ik_mode == receiver.attr('FkIkMode').get():
		# Attribute wasn't even changed.
		create_fk_ik_sj([sender, receiver])
		return
	
	if ik_mode:
		snap(sender, receiver)
		if ik['sj'] == ik['collar']:
			snap(fk['collar'], ik['collar'], translate=False)
		ik['pvc'] = ik['h'].attr('poleVectorX').connections()[0] \
			.attr('target[0].targetTranslate').connections()[0]
		ik['pvc'].setTranslation(calc_pv_loc(hand_joint=sender),
			space='world')
	else: # FK mode
		jtypes = fk['sj'] == fk['collar'] and ('collar',) or ()
		jtypes += ('shoulder', 'elbow', 'hand')
		[snap(ik[jtype], fk[jtype], translate=False) for jtype in jtypes]
	
	receiver.attr('FkIkMode').set(ik_mode)
	select(receiver)
	create_fk_ik_sj([sender, receiver])
Exemplo n.º 4
0
def fk_ik_switch(sender, receiver, killjob):

    fk, ik = get_fk_ik_joints([sender, receiver])

    scriptJob(kill=killjob)
    ik_mode = sender.attr('FkIkMode').get()
    if ik_mode == receiver.attr('FkIkMode').get():
        # Attribute wasn't even changed.
        create_fk_ik_sj([sender, receiver])
        return

    if ik_mode:
        snap(sender, receiver)
        if ik['sj'] == ik['collar']:
            snap(fk['collar'], ik['collar'], translate=False)
        ik['pvc'] = ik['h'].attr('poleVectorX').connections()[0] \
         .attr('target[0].targetTranslate').connections()[0]
        ik['pvc'].setTranslation(calc_pv_loc(hand_joint=sender), space='world')
    else:  # FK mode
        jtypes = fk['sj'] == fk['collar'] and ('collar', ) or ()
        jtypes += ('shoulder', 'elbow', 'hand')
        [snap(ik[jtype], fk[jtype], translate=False) for jtype in jtypes]

    receiver.attr('FkIkMode').set(ik_mode)
    select(receiver)
    create_fk_ik_sj([sender, receiver])
Exemplo n.º 5
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 def on_axesToggleButton_clicked(self):
     undoInfo(openChunk=True)
     sel = selected()
     select(self.get_affected_joints())
     toggle(localAxis=True)
     select(sel)
     undoInfo(closeChunk=True)
Exemplo n.º 6
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 def on_handlesToggleButton_clicked(self):
     undoInfo(openChunk=True)
     sel = selected()
     select(self.get_affected_joints())
     toggle(selectHandle=True)
     select(sel)
     undoInfo(closeChunk=True)
Exemplo n.º 7
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	def on_handlesToggleButton_clicked(self):
		undoInfo(openChunk=True)
		sel = selected()
		select(self.get_affected_joints())
		toggle(selectHandle=True)
		select(sel)
		undoInfo(closeChunk=True)
Exemplo n.º 8
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	def on_axesToggleButton_clicked(self):
		undoInfo(openChunk=True)
		sel = selected()
		select(self.get_affected_joints())
		toggle(localAxis=True)
		select(sel)
		undoInfo(closeChunk=True)
Exemplo n.º 9
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	def on_orientJointsButton_clicked(self):
		undoInfo(openChunk=True)
		sel = selected()
		
		kwargs = {}
		if self.zeroScaleOrientCB.isChecked():
			kwargs.update({'zeroScaleOrient': True})
		if self.aimAxisNoneRadio.isChecked():
			val = 'none'
		else:
			for i, radio in enumerate((self.aimAxisXRadio,
				self.aimAxisYRadio, self.aimAxisZRadio)):
				if radio.isChecked():
					xyz = 'xyz'
					if self.upAxisNoneRadio.isChecked():
						val = xyz[i:] + xyz[:i]
					else:
						val = str(radio.text()).lower()
						for up_radio in (self.upAxisXRadio,
							self.upAxisYRadio, self.upAxisZRadio):
							if up_radio.isChecked():
								val += str(up_radio.text()).lower()
								break
						for c in xyz:
							if c not in val:
								val += c
								break
						sao = self.worldUpYRadio.isChecked() and 'y' \
							or self.worldUpZRadio.isChecked() and 'z' \
							or upAxis(query=True, axis=True)
						sao += self.worldUpReverseCB.isChecked() \
							and 'down' or 'up'
						kwargs.update({'secondaryAxisOrient': sao})
					break
		
		reverse_aim = self.aimAxisReverseCB.isChecked() \
			and Vector([val[1] == c for c in 'xyz']) * 180 or None
		reverse_up = self.upAxisReverseCB.isChecked() \
			and Vector([val[0] == c for c in 'xyz']) * 180 or None
		
		for j in self.get_affected_joints():
			if j.numChildren():
				j.orientJoint(val, **kwargs)
			else:
				p = j.getParent()
				if p:
					delete(orientConstraint(p, j))
				else:
					self.freeze(j, jointOrient=True)
				if self.zeroScaleOrientCB.isChecked():
					j.zeroScaleOrient()
			if reverse_aim:
				self.tweak_joint_orientation(1, rotateAxis=reverse_aim)
			if reverse_up:
				self.tweak_joint_orientation(1, rotateAxis=reverse_up)
		
		select(sel)
		undoInfo(closeChunk=True)
Exemplo n.º 10
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    def on_orientJointsButton_clicked(self):
        undoInfo(openChunk=True)
        sel = selected()

        kwargs = {}
        if self.zeroScaleOrientCB.isChecked():
            kwargs.update({'zeroScaleOrient': True})
        if self.aimAxisNoneRadio.isChecked():
            val = 'none'
        else:
            for i, radio in enumerate(
                (self.aimAxisXRadio, self.aimAxisYRadio, self.aimAxisZRadio)):
                if radio.isChecked():
                    xyz = 'xyz'
                    if self.upAxisNoneRadio.isChecked():
                        val = xyz[i:] + xyz[:i]
                    else:
                        val = str(radio.text()).lower()
                        for up_radio in (self.upAxisXRadio, self.upAxisYRadio,
                                         self.upAxisZRadio):
                            if up_radio.isChecked():
                                val += str(up_radio.text()).lower()
                                break
                        for c in xyz:
                            if c not in val:
                                val += c
                                break
                        sao = self.worldUpYRadio.isChecked() and 'y' \
                         or self.worldUpZRadio.isChecked() and 'z' \
                         or upAxis(query=True, axis=True)
                        sao += self.worldUpReverseCB.isChecked() \
                         and 'down' or 'up'
                        kwargs.update({'secondaryAxisOrient': sao})
                    break

        reverse_aim = self.aimAxisReverseCB.isChecked() \
         and Vector([val[1] == c for c in 'xyz']) * 180 or None
        reverse_up = self.upAxisReverseCB.isChecked() \
         and Vector([val[0] == c for c in 'xyz']) * 180 or None

        for j in self.get_affected_joints():
            if j.numChildren():
                j.orientJoint(val, **kwargs)
            else:
                p = j.getParent()
                if p:
                    delete(orientConstraint(p, j))
                else:
                    self.freeze(j, jointOrient=True)
                if self.zeroScaleOrientCB.isChecked():
                    j.zeroScaleOrient()
            if reverse_aim:
                self.tweak_joint_orientation(1, rotateAxis=reverse_aim)
            if reverse_up:
                self.tweak_joint_orientation(1, rotateAxis=reverse_up)

        select(sel)
        undoInfo(closeChunk=True)
Exemplo n.º 11
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def create_rig_controls(shape=shapes.Plus, driven=[], **kwargs):
	if not driven:
		driven = ls(selection=True, transforms=True)
	assert driven, "Must supply one or more transforms to drive."
	assert len(driven) == len(ls(driven, transforms=True)), \
		"Rig controls can only drive transforms."
	rcs = [RigControl(shape, d, **kwargs) for d in driven]
	select([rc.get_transform() for rc in rcs])
	return rcs
Exemplo n.º 12
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def create_rig_controls(shape=shapes.Plus, driven=[], **kwargs):
    if not driven:
        driven = ls(selection=True, transforms=True)
    assert driven, "Must supply one or more transforms to drive."
    assert len(driven) == len(ls(driven, transforms=True)), \
     "Rig controls can only drive transforms."
    rcs = [RigControl(shape, d, **kwargs) for d in driven]
    select([rc.get_transform() for rc in rcs])
    return rcs
Exemplo n.º 13
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 def __new__(cls, transform, **kwargs):
     if not isinstance(transform, Transform):
         transform = transform.getParent()
     select(transform, replace=True)
     nClothCreate()
     shape = selected()[0]
     nc_xform = shape.getParent()
     rename(nc_xform, transform.namespace() + 'snCloth' + \
      _util.capitalize(transform.name().split(':')[-1]))
     shape.__class__ = cls
     return shape
Exemplo n.º 14
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	def __new__(cls, transform, **kwargs):
		if not isinstance(transform, Transform):
			transform = transform.getParent()
		select(transform, replace=True)
		nClothCreate()
		shape = selected()[0]
		nc_xform = shape.getParent()
		rename(nc_xform, transform.namespace() + 'snCloth' + \
			_util.capitalize(transform.name().split(':')[-1]))
		shape.__class__ = cls
		return shape
Exemplo n.º 15
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def create_shapes(shape_cls=Plus, snaps=[], **kwargs):
	if not snaps:
		snaps = ls(selection=True, transforms=True)
	if snaps:
		return [shape_cls(snap_to=s) for s in snaps]
	verts = [v for v in ls(selection=True, flatten=True) if isinstance(v, MeshVertex)]
	[verts.extend(e.connectedVertices()) for e in ls(selection=True, flatten=True) \
		if isinstance(e, MeshEdge)]
	if verts:
		verts = uniquify(verts)
		select(verts, replace=True)
		transform = cluster()[1]
		shape = shape_cls(snap_to=transform)
		delete(transform)
		return [shape]
	return [shape_cls()]
Exemplo n.º 16
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	def freeze(self, node, **kwargs):
		
		sel = selected()
		
		kwargs['rotate'] = kwargs.pop('r', kwargs.pop('rotate', True))
		kwargs['scale'] = kwargs.pop('s', kwargs.pop('scale', True))
		skip_locked = kwargs.pop('skip_locked', True)
		
		# Unparent all the joint's children to prevent any locked
		# attribute errors.
		children = dict([(c, c.listRelatives(allParents=True)) \
			for c in node.getChildren(type=['transform', 'joint'])])
		[c.setParent(world=True) for c in children.keys()]
		
		# Unlock any locked rotate or scale attributes, save their
		# values for later and set them to zero for now, so they
		# aren't affected by the freeze.
		atts = {}
		for rs in ('rotate', 'scale'):
			if not kwargs[rs]: continue
			for axis in 'xyz':
				a = node.attr(rs[0] + axis)
				if a.isLocked():
					atts[a] = a.get()
					a.unlock()
					if skip_locked: a.set(0)
		
		# Perform the freeze.
		select(node)
		makeIdentity(apply=True, **kwargs)
		
		# Restore and lock any rotate or scale attributes that
		# were locked before.
		for a, v in atts.items():
			if skip_locked: a.set(v)
			a.lock()
		
		# Restore children to their original parents and delete any
		# automatically-generated parent buffers.
		for c, parents in children.items():
			p = c.getParent()
			c.setParent(parents)
			if p: delete(p)
		
		select(sel)
Exemplo n.º 17
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    def freeze(self, node, **kwargs):

        sel = selected()

        kwargs['rotate'] = kwargs.pop('r', kwargs.pop('rotate', True))
        kwargs['scale'] = kwargs.pop('s', kwargs.pop('scale', True))
        skip_locked = kwargs.pop('skip_locked', True)

        # Unparent all the joint's children to prevent any locked
        # attribute errors.
        children = dict([(c, c.listRelatives(allParents=True)) \
         for c in node.getChildren(type=['transform', 'joint'])])
        [c.setParent(world=True) for c in children.keys()]

        # Unlock any locked rotate or scale attributes, save their
        # values for later and set them to zero for now, so they
        # aren't affected by the freeze.
        atts = {}
        for rs in ('rotate', 'scale'):
            if not kwargs[rs]: continue
            for axis in 'xyz':
                a = node.attr(rs[0] + axis)
                if a.isLocked():
                    atts[a] = a.get()
                    a.unlock()
                    if skip_locked: a.set(0)

        # Perform the freeze.
        select(node)
        makeIdentity(apply=True, **kwargs)

        # Restore and lock any rotate or scale attributes that
        # were locked before.
        for a, v in atts.items():
            if skip_locked: a.set(v)
            a.lock()

        # Restore children to their original parents and delete any
        # automatically-generated parent buffers.
        for c, parents in children.items():
            p = c.getParent()
            c.setParent(parents)
            if p: delete(p)

        select(sel)
Exemplo n.º 18
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def create_shapes(shape_cls=Plus, snaps=[], **kwargs):
    if not snaps:
        snaps = ls(selection=True, transforms=True)
    if snaps:
        return [shape_cls(snap_to=s) for s in snaps]
    verts = [
        v for v in ls(selection=True, flatten=True)
        if isinstance(v, MeshVertex)
    ]
    [verts.extend(e.connectedVertices()) for e in ls(selection=True, flatten=True) \
     if isinstance(e, MeshEdge)]
    if verts:
        verts = uniquify(verts)
        select(verts, replace=True)
        transform = cluster()[1]
        shape = shape_cls(snap_to=transform)
        delete(transform)
        return [shape]
    return [shape_cls()]
Exemplo n.º 19
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    def on_createSplineIKSystemButton_clicked(self):
        self.bottomWidget.show()
        self.topWidget.setEnabled(False)

        dj_chains, output_curves = (), ()
        for root in selected():
            dj_chain = (root, )
            while dj_chain[-1].numChildren():
                dj_chain += (dj_chain[-1].getChildren()[0], )
            dj_chains += (dj_chain, )

            # Assign a hair system to the driver joint chain.
            output_curves += ( \
             curve(p=[dj.getTranslation(space='world').get() \
             for dj in dj_chain]),)

        select(output_curves)
        mel.eval('assignNewHairSystem')
        follicle_curves = selected()

        hs = follicle_curves[0].getParent().getShape().attr('outHair') \
         .outputs()[0]

        [hs.attr(x).set(0) for x in \
         ('drag', 'friction', 'mass', 'gravity', 'dynamicsWeight')]

        hs.attr('startCurveAttract').set(0.25)

        for i, dj_chain in enumerate(dj_chains):
            oc = output_curves[i]
            select(dj_chain + (oc, ))
            SmoothBindSkin()
            bjs = [dj.attr('rotate').outputs()[0].attr('constraintRotateZ') \
             .outputs()[0] for dj in (dj_chain[0], dj_chain[-1])]
            ikHandle(startJoint=bjs[0],
                     endEffector=bjs[1],
                     curve=oc,
                     solver='ikSplineSolver',
                     parentCurve=False,
                     createCurve=False)

        self.topWidget.setEnabled(True)
        self.bottomWidget.hide()
Exemplo n.º 20
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	def __init__(self, **kwargs):
		"""
		Merge all shape nodes under a single transform and trash any
		left-over (empty) transforms.
		"""
		
		shapes = [n for n in self if not isinstance(n, nt.Joint)]
		empty_transforms = [s.getParent() for s in shapes if not \
			[sib for sib in s.getSiblings() if sib not in self]]
		self._transform = nt.Transform()
		parent(self, self._transform, relative=True, shape=True)
		#if empty_transforms:
		#	print('empty transforms:', empty_transforms)
		#	delete(empty_transforms)
		select(self)
		DeleteHistory()
		
		snap_to = kwargs.pop('st', kwargs.pop('snap_to', None))
		if snap_to:
			snap(self._transform, snap_to)
Exemplo n.º 21
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    def __init__(self, **kwargs):
        """
		Merge all shape nodes under a single transform and trash any
		left-over (empty) transforms.
		"""

        shapes = [n for n in self if not isinstance(n, nt.Joint)]
        empty_transforms = [s.getParent() for s in shapes if not \
         [sib for sib in s.getSiblings() if sib not in self]]
        self._transform = nt.Transform()
        parent(self, self._transform, relative=True, shape=True)
        #if empty_transforms:
        #	print('empty transforms:', empty_transforms)
        #	delete(empty_transforms)
        select(self)
        DeleteHistory()

        snap_to = kwargs.pop('st', kwargs.pop('snap_to', None))
        if snap_to:
            snap(self._transform, snap_to)
Exemplo n.º 22
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	def on_createSplineIKSystemButton_clicked(self):
		self.bottomWidget.show()
		self.topWidget.setEnabled(False)
		
		dj_chains, output_curves = (), ()
		for root in selected():
			dj_chain = (root,)
			while dj_chain[-1].numChildren():
				dj_chain += (dj_chain[-1].getChildren()[0],)
			dj_chains += (dj_chain,)
			
			# Assign a hair system to the driver joint chain.
			output_curves += ( \
				curve(p=[dj.getTranslation(space='world').get() \
				for dj in dj_chain]),)
		
		select(output_curves)
		mel.eval('assignNewHairSystem')
		follicle_curves = selected()
		
		hs = follicle_curves[0].getParent().getShape().attr('outHair') \
			.outputs()[0]
		
		[hs.attr(x).set(0) for x in \
			('drag', 'friction', 'mass', 'gravity', 'dynamicsWeight')]
		
		hs.attr('startCurveAttract').set(0.25)
		
		for i, dj_chain in enumerate(dj_chains):
			oc = output_curves[i]
			select(dj_chain + (oc,))
			SmoothBindSkin()
			bjs = [dj.attr('rotate').outputs()[0].attr('constraintRotateZ') \
				.outputs()[0] for dj in (dj_chain[0], dj_chain[-1])]
			ikHandle(startJoint=bjs[0], endEffector=bjs[1],
				curve=oc, solver='ikSplineSolver',
				parentCurve=False, createCurve=False)
		
		self.topWidget.setEnabled(True)
		self.bottomWidget.hide()
Exemplo n.º 23
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 def createGizmo(self):
     ##All this needs to do is create a control square comprised of one transform and a bunch of shape objects parented to it.
     #First check to see if a gizmo exists that maybe got messed up or something.  Delete that and recreate it
     if general.objExists("WaffleSliceGizmo"):
         general.delete("WaffleSliceGizmo")
     
     general.group(n = "WaffleSliceGizmo", em = True)
     
     _deleteArray = []
     _shapesArray = []
     _c = []
     _c.append(modeling.nurbsSquare(n = "gizmoSquare1", nr = [0,0,1] ,c = [0, 0, 0], sl1 = 50, sl2 = 100))
     _c.append(modeling.nurbsSquare(n = "gizmoSquare2", nr = [0,1,0] ,c = [0, 0, 0], sl1 = 100, sl2 = 50))
     
     [general.parent(child, "WaffleSliceGizmo", r = True) for child in _c]
     for child in general.listRelatives("WaffleSliceGizmo", ad = True):
         if general.objectType(child)=="nurbsCurve":
             general.parent(child, "WaffleSliceGizmo", r = True, s = True)
     else:
         [general.delete(child) for child in general.listRelatives("WaffleSliceGizmo", type = "transform")]
     #WaffleSliceGizmo is the group that is created.  Iterate through it, find a useable transform, get all the shapes, and assign
     #All the shapes to a transform
     general.delete("WaffleSliceGizmo", ch = True)
     general.select("WaffleSliceGizmo")
Exemplo n.º 24
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	def export_mesh(self, **kwargs):
		
		format, ext = str(self.format.text()), str(self.formatExt.text())
		format = self.name_pat.sub( \
			lambda m: '%(name)' + m.group(1)[1:], format)
		format = self.frame_pat.sub( \
			lambda m: '%(frame)' + m.group(1)[1:], format)
		path = Path(self.path.text())
		
		if not self.animation.isChecked() and self.oneFilePerNode.isChecked():
			sel = ls(selection=True)
			for s in sel:
				select(s)
				name = format % dict(name=s.name().replace('|', '')) + ext
				self.write_mesh(path, name, **kwargs)
			select(sel)
		else:
			
			end, by = self.end.value(), self.by.value()
			frame, renum_frame, renum_by = (self.frame, self.renum_frame,
				self.renum_by)
			
			info('Exporting frames... Press Esc to cancel.')
			self.progress_init(1)
			while (by > 0 and frame <= end) or (by < 0 and frame >= end):
				
				if self.aborted: return
				
				setCurrentTime(frame)
				if self.oneFilePerNode.isChecked():
					sel = ls(selection=True)
					for s in sel:
						select(s)
						name = format % dict(name=s.shortName(),
							frame=renum_frame) + ext
						if not self.write_mesh(path, name):
							break
				else:
					name = format % dict(frame=renum_frame) + ext
					if not self.write_mesh(path, name, **kwargs):
						break
				
				# Prepare for the next iteration.
				frame += by
				renum_frame += renum_by
				self.export_count += 1
				self.progress_step()
Exemplo n.º 25
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    def export_mesh(self, **kwargs):

        format, ext = str(self.format.text()), str(self.formatExt.text())
        format = self.name_pat.sub( \
         lambda m: '%(name)' + m.group(1)[1:], format)
        format = self.frame_pat.sub( \
         lambda m: '%(frame)' + m.group(1)[1:], format)
        path = Path(self.path.text())

        if not self.animation.isChecked() and self.oneFilePerNode.isChecked():
            sel = ls(selection=True)
            for s in sel:
                select(s)
                name = format % dict(name=s.name().replace('|', '')) + ext
                self.write_mesh(path, name, **kwargs)
            select(sel)
        else:

            end, by = self.end.value(), self.by.value()
            frame, renum_frame, renum_by = (self.frame, self.renum_frame,
                                            self.renum_by)

            info('Exporting frames... Press Esc to cancel.')
            self.progress_init(1)
            while (by > 0 and frame <= end) or (by < 0 and frame >= end):

                if self.aborted: return

                setCurrentTime(frame)
                if self.oneFilePerNode.isChecked():
                    sel = ls(selection=True)
                    for s in sel:
                        select(s)
                        name = format % dict(name=s.shortName(),
                                             frame=renum_frame) + ext
                        if not self.write_mesh(path, name):
                            break
                else:
                    name = format % dict(frame=renum_frame) + ext
                    if not self.write_mesh(path, name, **kwargs):
                        break

                # Prepare for the next iteration.
                frame += by
                renum_frame += renum_by
                self.export_count += 1
                self.progress_step()
Exemplo n.º 26
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	def export_camera(self):
		
		start, end = self.start.value(), self.end.value()
		path = Path(self.path.text())
		
		# Validate the selection.
		sel = ls(selection=True, dagObjects=True, cameras=True)
		if not ls(selection=True):
			return error('No cameras in selection.')
		
		# Associate the camera shapes with their parents.
		cams = dict((s, s.getParent()) for s in sel)
		
		# Pull-out only the attributes that are checked.
		shape_atts = []
		for cb in self.cameraChannelsLayout.findChildren(QCheckBox):
			if cb.isChecked():
				[shape_atts.extend(str(cb.property(n).toString()).split('|')) \
					for n in cb.dynamicPropertyNames() if n == 'shortName']
		cam_atts = (cb.objectName() for cb \
			in self.translation.findChildren(QCheckBox) if cb.isChecked())
		attributes = (shape_atts, cam_atts)
		
		# Enable any locked or non-keyable channels.
		for shape, cam in cams.items():
			for i, obj in enumerate((shape, cam)):
				for att in attributes[i]:
					obj.attr(att).set('locked', False)
					obj.attr(att).set('keyable', True)
		
		# Initialize the progress bar.
		lc = len(cams)
		self.progress_init(lc + lc * len([x for x in (self.createStandIn.isChecked(),
			self.oneFile.isChecked() and self.oneFilePerNode.isChecked) if x]))
		
		# Bake the keys to the camera shape.
		frame_range = self.animation.isChecked() and (start, end) or (start,)
		for shape, cam in cams.items():
			if self.aborted: return
			
			info('Baking keys to %s: %d-%d...' % \
				((shape,) + frame_range))
			bakeResults(shape, time=frame_range, simulation=True,
				attribute=shape_atts)
			info('%s keys %d-%d baked.' % ((shape,) + frame_range))
			
			self.progress_step()
		
		# Disable the cycle check warning.
		cycleCheck(evaluation=False)
		
		# Create a null stand-in for the camera and bake keys to it.
		#mel.source('channelBoxCommand.mel')
		if self.createStandIn.isChecked():
			for cam in cams.values():
				if self.aborted: return
				
				stand_in = Transform(name='standInNull')
				parentConstraint(cam, stand_in, name='nullParentConstraint')
				info('Baking keys to the stand-in null...')
				bakeResults(stand_in, time=frame_range, shape=True,
					simulation=True, attribute=cam_atts)
				info('Null keys baked.')
				
				# If the camera is a child, parent it to the world.
				if cam.firstParent2():
					cam.setParent(world=True)
				
				# Break existing connections between the rotate or translate
				# attributes.
				for att in cam_atts:
					if connectionInfo(cam, isExactDestination=True):
						disconnectAttr(connectionInfo(cam,
							getExactDestination=True))
						#mel.CBdeleteConnection(getExactDestination=True)
				
				# Constrain the camera to the null.
				parentConstraint(stand_in, cam, name='cameraParentConstraint')
				
				# Bake the camera translate/rotate keys.
				info('Baking keys to the camera...')
				bakeResults(cam, time=frame_range, disableImplicitControl=True,
					simulation=True, attribute=cam_atts)
				info('Transform keys baked.')
				
				self.progress_step()
				
		# Remove excess elements unless optimize has been disabled.
		if self.optimize.isChecked():
			info('Optimizing scene...')
			delete([s for s in ls(dagObjects=True) if s not in cams.keys() + \
				cams.values() + ls(selection=True, type='animCurve')])
		
		# Save-out the cameras.
		kwargs = dict(force=True, constructionHistory=False, channels=True,
			constraints=False, expressions=False, shader=False,
			type='mayaAscii')
		ext = str(self.formatExt.text())
		if self.oneFile.isChecked():
			if self.oneFilePerNode.isChecked():
				for cam in cams.values():
					if self.aborted: return
					select(cam)
					exportSelected(path / cam.name() + ext, **kwargs)
					self.progress_step()
			else:
				select(cams.values())
				exportSelected(path / 'camera' + ext, **kwargs)
		else:
			error('Not implemented yet. Coming soon...')
Exemplo n.º 27
0
	def on_selectButton_clicked(self):
		select(self.get_affected_joints())
Exemplo n.º 28
0
    def __init__(self, driver=shapes.Plus, driven=None, **kwargs):

        # Driver
        if not isinstance(driver, shapes.Shape) and issubclass(
                driver, shapes.Shape):
            driver = driver()
        assert isinstance(driver, shapes.Shape), \
         ("Parameter 'driver' must be an instance or subclass of %s." %
          shapes.Shape.__name__)
        self._driver = driver
        self._transform = driver.get_transform()
        self._shapes = self._transform.getShapes()

        # Driven
        if not driven:
            driven = ls(selection=True, transforms=True)
            assert len(
                driven
            ) == 1, "Parameter 'driven' requires exactly one transform."
            driven = driven[0]
        self._driven = driven

        # Face Axis
        face_x = kwargs.pop('fx', kwargs.pop('faceX', False))
        face_y = kwargs.pop('fy', kwargs.pop('faceY', False))
        face_z = kwargs.pop('fz', kwargs.pop('faceZ', False))
        face_sum = sum([face_x, face_y, face_z])
        if not face_sum:
            face_x = True
            face_sum = 1
        else:
            assert face_sum == 1, "Rig control can only face one axis."
        rotate(self._transform, [face_z and 90 or 0, 0, face_x and -90 or 0])
        select(self._transform)
        FreezeTransformations()

        # Constraints
        do_parent_constraint = kwargs.pop(
            'pc', kwargs.pop('parentConstraint', False))
        do_point_constraint = kwargs.pop('xc',
                                         kwargs.pop('pointConstraint', False))
        do_orient_constraint = kwargs.pop(
            'oc', kwargs.pop('orientConstraint', False))
        do_scale_constraint = kwargs.pop('sc',
                                         kwargs.pop('scaleConstraint', False))
        if do_parent_constraint or do_point_constraint or do_orient_constraint or \
         do_scale_constraint:
            self._buffer = Transform()
            snap(self._buffer, self._driven, scale=True)
            select(self._buffer)
            parent(self._transform, self._buffer)
            if do_parent_constraint:
                parentConstraint(self._transform, self._driven)
            else:
                if do_point_constraint:
                    pointConstraint(self._transform, self._driven)
                if do_orient_constraint:
                    orientConstraint(self._transform, self._driven)
            if do_scale_constraint:
                scaleConstraint(self._transform, self._driven)
        elif isinstance(self._driven, Joint):
            # Parent the drivers directly underneath the driven joint.
            parent(self._driver, self._driven, relative=True, shape=True)
            delete(self._transform)
            self._transform = self._driven
        elif isinstance(self._driven, IkHandle):
            self._buffer = self._transform
            self._transform = self._driven
            snap(self._ebuffer, self._transform)
            parent(self._transform, self._buffer)
            parent(self._driver, self._transform, relative=True, shape=True)
        else:
            # Parent the drivers underneath a new buffered transform.
            self._buffer = self._driven
            parent(self._transform, self._buffer)
            parent(self._buffer.getShapes(),
                   self._transform,
                   relative=True,
                   shape=True)
            # Pop the shape nodes out and back in to reorder the driven shape(s) to
            # the top. This way, the Outliner icons for this transform will reflect the
            # appropriate first-child shape node.
            parent(self._driver, self._buffer, relative=True, shape=True)
            parent(self._driver, self._transform, relative=True, shape=True)
        if self._buffer:
            select(self._transform)
            ResetTransformations()
            for trs in 'trs':
                for xyz in 'xyz':
                    self._buffer.attr(trs + xyz).lock()

        if isinstance(self._driven, IkHandle):
            self.__class__ = IkRigControl
            self.__init__()
Exemplo n.º 29
0
    def export_camera(self):

        start, end = self.start.value(), self.end.value()
        path = Path(self.path.text())

        # Validate the selection.
        sel = ls(selection=True, dagObjects=True, cameras=True)
        if not ls(selection=True):
            return error('No cameras in selection.')

        # Associate the camera shapes with their parents.
        cams = dict((s, s.getParent()) for s in sel)

        # Pull-out only the attributes that are checked.
        shape_atts = []
        for cb in self.cameraChannelsLayout.findChildren(QCheckBox):
            if cb.isChecked():
                [shape_atts.extend(str(cb.property(n).toString()).split('|')) \
                 for n in cb.dynamicPropertyNames() if n == 'shortName']
        cam_atts = (cb.objectName() for cb \
         in self.translation.findChildren(QCheckBox) if cb.isChecked())
        attributes = (shape_atts, cam_atts)

        # Enable any locked or non-keyable channels.
        for shape, cam in cams.items():
            for i, obj in enumerate((shape, cam)):
                for att in attributes[i]:
                    obj.attr(att).set('locked', False)
                    obj.attr(att).set('keyable', True)

        # Initialize the progress bar.
        lc = len(cams)
        self.progress_init(lc + lc * len([
            x
            for x in (self.createStandIn.isChecked(), self.oneFile.isChecked()
                      and self.oneFilePerNode.isChecked) if x
        ]))

        # Bake the keys to the camera shape.
        frame_range = self.animation.isChecked() and (start, end) or (start, )
        for shape, cam in cams.items():
            if self.aborted: return

            info('Baking keys to %s: %d-%d...' % \
             ((shape,) + frame_range))
            bakeResults(shape,
                        time=frame_range,
                        simulation=True,
                        attribute=shape_atts)
            info('%s keys %d-%d baked.' % ((shape, ) + frame_range))

            self.progress_step()

        # Disable the cycle check warning.
        cycleCheck(evaluation=False)

        # Create a null stand-in for the camera and bake keys to it.
        #mel.source('channelBoxCommand.mel')
        if self.createStandIn.isChecked():
            for cam in cams.values():
                if self.aborted: return

                stand_in = Transform(name='standInNull')
                parentConstraint(cam, stand_in, name='nullParentConstraint')
                info('Baking keys to the stand-in null...')
                bakeResults(stand_in,
                            time=frame_range,
                            shape=True,
                            simulation=True,
                            attribute=cam_atts)
                info('Null keys baked.')

                # If the camera is a child, parent it to the world.
                if cam.firstParent2():
                    cam.setParent(world=True)

                # Break existing connections between the rotate or translate
                # attributes.
                for att in cam_atts:
                    if connectionInfo(cam, isExactDestination=True):
                        disconnectAttr(
                            connectionInfo(cam, getExactDestination=True))
                        #mel.CBdeleteConnection(getExactDestination=True)

                # Constrain the camera to the null.
                parentConstraint(stand_in, cam, name='cameraParentConstraint')

                # Bake the camera translate/rotate keys.
                info('Baking keys to the camera...')
                bakeResults(cam,
                            time=frame_range,
                            disableImplicitControl=True,
                            simulation=True,
                            attribute=cam_atts)
                info('Transform keys baked.')

                self.progress_step()

        # Remove excess elements unless optimize has been disabled.
        if self.optimize.isChecked():
            info('Optimizing scene...')
            delete([s for s in ls(dagObjects=True) if s not in cams.keys() + \
             cams.values() + ls(selection=True, type='animCurve')])

        # Save-out the cameras.
        kwargs = dict(force=True,
                      constructionHistory=False,
                      channels=True,
                      constraints=False,
                      expressions=False,
                      shader=False,
                      type='mayaAscii')
        ext = str(self.formatExt.text())
        if self.oneFile.isChecked():
            if self.oneFilePerNode.isChecked():
                for cam in cams.values():
                    if self.aborted: return
                    select(cam)
                    exportSelected(path / cam.name() + ext, **kwargs)
                    self.progress_step()
            else:
                select(cams.values())
                exportSelected(path / 'camera' + ext, **kwargs)
        else:
            error('Not implemented yet. Coming soon...')
Exemplo n.º 30
0
 def saveFile(self, type=0):
     #So this function needs to look into the proper component folder (if it exists), find the Working folder (if it exists, if not make it)
     #Then save an iteration of this file.
     project = self.getSelectedProject()
     if project!="None":
         if windows.optionMenu("partOptionMenu", q=True, v=True)!="None":
             part_index = int(windows.optionMenu("partOptionMenu", q=True, v=True).split(":")[0]) - 1
             part_directory, part_name, part_numname = project.modelingComponents[part_index]
             if os.path.isdir(part_directory):
                 #part_name = project.modelingComponents[part_index][1]
                 
                 working_dir = os.path.join(part_directory, "Working")
                 qa_dir = os.path.join(part_directory, "QA")
                 publish_dir = os.path.join(part_directory, "Publish")
                 
                 if os.path.isdir(working_dir)==False:
                     os.makedirs(working_dir)
                 if os.path.isdir(qa_dir)==False:
                     os.makedirs(qa_dir)
                 if os.path.isdir(publish_dir)==False:
                     os.makedirs(publish_dir)
                 
                 #If save type is 0 (which is a regular work file incremental save)
                 #Save format: part_modeler_v001.mb
                 if type==0:
                     if self.username!="":
                         files = glob.glob(working_dir+"/*")
                         if len(files)>0:
                             highest_num=0
                             for file in files:
                                 if os.path.isfile(file):
                                     filenum = int(os.path.split(file)[1].split(".")[0][-3:])
                                     if filenum>highest_num:
                                         highest_num = filenum
                             else:
                                 highest_num+=1
                                 num = ("0"*max(0,3-len(str(highest_num)))+str(highest_num))
                                 print("Num: " + num)
                         else:
                             num = "001"
                         
                         if num=="001":
                             if windows.confirmDialog(title = "Save Part File?", message = "Save the first version of this part? You will not be prompted when saving new versions after this.", button = ['Yes', 'No'], defaultButton='Yes', cancelButton='No', dismissString='No')=='Yes':
                                 file_name = os.path.join(working_dir , part_name + "_" + self.username + "_" + "v" + num + ".mb")
                                 system.saveAs(file_name)
                         else:
                             file_name = os.path.join(working_dir , part_name + "_" + self.username + "_" + "v" + num + ".mb")
                             system.saveAs(file_name)
                     else:
                         windows.confirmDialog(title="No username entered.", message="Please enter a valid username to save with.",button="Dismiss")
                 
                 #If the save file is type 1, its a publish attempt 
                 elif type==1:
                     if windows.confirmDialog(title = "Publish File", message = "Publish this scene file?", button = ['Yes', 'No'], defaultButton='Yes', cancelButton='No', dismissString='No')=='Yes':
                         file_name = os.path.join(publish_dir, part_name + "_publish.mb")
                         if os.path.isfile(file_name):
                             ctime = os.path.getctime(file_name)
                             moveFolder = os.path.join(publish_dir,"_old",time.strftime("%b%d_%Y %H-%M-%S",time.localtime(ctime)))
                             if not os.path.isdir(moveFolder):
                                 os.makedirs(moveFolder)
                             shutil.move(file_name, moveFolder)
                         #Save the current file, then move on to cleaning up this file in preparation for publishing
                         current_filename = system.sceneName()
                         system.saveAs(current_filename)
                         #Clean up all references
                         reference_files = []
                         references = general.ls(type = "reference")
                         if len(references)>0:
                             for reference in references:
                                 if "sharedReferenceNode"!=reference:
                                     reference_files.append(system.referenceQuery(reference, filename=True))
                             else:
                                 for file in reference_files:
                                     system.FileReference(pathOrRefNode = file).remove()
                         general.select(clear = True)
                         general.select(general.ls(geometry = True))
                         layerName = os.path.split(system.sceneName())[1].split("_")[0].replace(" ", "_")
                         general.createDisplayLayer(name = layerName)
                         system.saveAs(file_name)
                         system.openFile(current_filename, f = True)
                 #If its type 2, its a QA submit
                 elif type==2:
                     if windows.confirmDialog(title = "Submit for QA", message = "Submit this scene file for QA?", button = ['Yes', 'No'], defaultButton='Yes', cancelButton='No', dismissString='No')=='Yes':
                         _time = time.strftime("%b%d_%Y_%H-%M-%S", time.localtime(time.time()))
                         file_name = os.path.join(qa_dir, part_name + "_%s_%s.mb"%(self.username,_time))
                         _files = glob.glob(qa_dir+"/*.mb")
                         if len(_files)>0:
                             found=False
                             for i in _files:
                                 if file_name == i:
                                     found=True
                                     if windows.confirmDialog(title = "Overwrite?", message = "A QA file with this name already exists.  Overwrite it?", button = ['Yes', 'No'], defaultButton='Yes', cancelButton='No', dismissString='No')=='Yes': 
                                         current_filename = system.sceneName()
                                         system.saveAs(file_name)
                                         system.saveAs(current_filename)
                                         
                                 else:
                                     _folder = os.path.join(qa_dir,os.path.split(i)[1].split(".")[0])
                                     os.makedirs(_folder)
                                     shutil.move(i, _folder)
                             else:
                                 if found==False:
                                     current_filename = system.sceneName()
                                     system.saveAs(file_name)
                                     system.saveAs(current_filename)
                         else:
                             current_filename = system.sceneName()
                             system.saveAs(file_name)
                             system.saveAs(current_filename)
             else:
                 windows.confirmDialog(title = "Part Not Found", message = "The selected part folder cannot be found.", button=["Dismiss"])
Exemplo n.º 31
0
	def __init__(self, driver=shapes.Plus, driven=None, **kwargs):
		
		# Driver
		if not isinstance(driver, shapes.Shape) and issubclass(driver, shapes.Shape):
			driver = driver()
		assert isinstance(driver, shapes.Shape), \
			("Parameter 'driver' must be an instance or subclass of %s." %
			 shapes.Shape.__name__)
		self._driver = driver
		self._transform = driver.get_transform()
		self._shapes = self._transform.getShapes()
		
		# Driven
		if not driven:
			driven = ls(selection=True, transforms=True)
			assert len(driven) == 1, "Parameter 'driven' requires exactly one transform."
			driven = driven[0]
		self._driven = driven
		
		# Face Axis
		face_x = kwargs.pop('fx', kwargs.pop('faceX', False))
		face_y = kwargs.pop('fy', kwargs.pop('faceY', False))
		face_z = kwargs.pop('fz', kwargs.pop('faceZ', False))
		face_sum = sum([face_x, face_y, face_z])
		if not face_sum:
			face_x = True
			face_sum = 1
		else:
			assert face_sum == 1, "Rig control can only face one axis."
		rotate(self._transform, [face_z and 90 or 0, 0, face_x and -90 or 0])
		select(self._transform)
		FreezeTransformations()
		
		# Constraints
		do_parent_constraint = kwargs.pop('pc', kwargs.pop('parentConstraint', False))
		do_point_constraint = kwargs.pop('xc', kwargs.pop('pointConstraint', False))
		do_orient_constraint = kwargs.pop('oc', kwargs.pop('orientConstraint', False))
		do_scale_constraint = kwargs.pop('sc', kwargs.pop('scaleConstraint', False))
		if do_parent_constraint or do_point_constraint or do_orient_constraint or \
			do_scale_constraint:
			self._buffer = Transform()
			snap(self._buffer, self._driven, scale=True)
			select(self._buffer)
			parent(self._transform, self._buffer)
			if do_parent_constraint:
				parentConstraint(self._transform, self._driven)
			else:
				if do_point_constraint:
					pointConstraint(self._transform, self._driven)
				if do_orient_constraint:
					orientConstraint(self._transform, self._driven)
			if do_scale_constraint:
				scaleConstraint(self._transform, self._driven)
		elif isinstance(self._driven, Joint):
			# Parent the drivers directly underneath the driven joint.
			parent(self._driver, self._driven, relative=True, shape=True)
			delete(self._transform)
			self._transform = self._driven
		elif isinstance(self._driven, IkHandle):
			self._buffer = self._transform
			self._transform = self._driven
			snap(self._ebuffer, self._transform)
			parent(self._transform, self._buffer)
			parent(self._driver, self._transform, relative=True, shape=True)
		else:
			# Parent the drivers underneath a new buffered transform.
			self._buffer = self._driven
			parent(self._transform, self._buffer)
			parent(self._buffer.getShapes(), self._transform, relative=True, shape=True)
			# Pop the shape nodes out and back in to reorder the driven shape(s) to
			# the top. This way, the Outliner icons for this transform will reflect the
			# appropriate first-child shape node.
			parent(self._driver, self._buffer, relative=True, shape=True)
			parent(self._driver, self._transform, relative=True, shape=True)
		if self._buffer:
			select(self._transform)
			ResetTransformations()
			for trs in 'trs':
				for xyz in 'xyz':
					self._buffer.attr(trs + xyz).lock()
		
		if isinstance(self._driven, IkHandle):
			self.__class__ = IkRigControl
			self.__init__()
Exemplo n.º 32
0
 def on_selectButton_clicked(self):
     select(self.get_affected_joints())