def main(templateFile=None, inheritTemplateRotations=False, controlShapes=None, fbx=False, scale=1, radius=1): template(filepath=templateFile, scale=scale) root.main(name="assembly", fbx=fbx, radius=radius, body=False, pelvis=False) mc.parent("cog_jnt", "cog_ctrl") mc.connectAttr("assembly.joints", "cog_jnt.v") common.selectable("assembly.editJoints", "cog_jnt") common.sets("root", "cog_jnt", None, None) mc.delete("template") if fbx: mc.createNode("joint", n="root_fbx", p="skeleton_fbx") mc.setAttr("root_fbx.radius", radius * 0.25) c = mc.pointConstraint("cog_ctrl", "root_fbx", sk=["y"])[0] mc.parent(c, "constraints_fbx") c = mc.orientConstraint("cog_ctrl", "root_fbx", sk=["x", "z"])[0] mc.parent(c, "constraints_fbx") c = mc.scaleConstraint("cog_ctrl", "root_fbx")[0] mc.parent(c, "constraints_fbx") mc.createNode("joint", n="cog_fbx", p="root_fbx") mc.setAttr("cog_fbx.radius", radius * 0.25) c = mc.parentConstraint("cog_jnt", "cog_fbx")[0] mc.parent(c, "constraints_fbx") c = mc.scaleConstraint("cog_jnt", "cog_fbx")[0] mc.parent(c, "constraints_fbx") if controlShapes: if os.path.isfile(THIS_DIR + "/" + controlShapes): common.loadControlShapes(THIS_DIR + "/" + controlShapes) elif os.path.isfile(controlShapes): common.loadControlShapes(controlShapes) mc.select(cl=True) mc.dgdirty(a=True)
def main(name="arm", positions=None, inheritTemplateRotations=False, radius=1, ikShape="cube"): # create template joints if needed tmp = None if not positions: positions = template(name=name) tmp = positions[:] # copy # positions/orientations from template transforms/joints rotations = [None] * 4 for i in range(4): if type(positions[i]) == str or type(positions[i]) == unicode: if inheritTemplateRotations: rotations[i] = mc.xform(positions[i], q=True, ro=True, ws=True) positions[i] = mc.xform(positions[i], q=True, rp=True, ws=True) grp = mc.createNode("transform", n=name) # # ik joints # ik = [None] * 4 for i in range(1, 4): ik[i] = mc.createNode("joint", n=name + "_ik" + str(i + 1)) mc.setAttr(ik[i] + ".t", positions[i][0], positions[i][1], positions[i][2]) if inheritTemplateRotations: mc.setAttr(ik[i] + ".r", rotations[i][0], rotations[i][1], rotations[i][2]) if not inheritTemplateRotations: if positions[1][0] >= -0.001: mc.delete( mc.aimConstraint(ik[2], ik[1], aim=(1, 0, 0), u=(0, 0, -1), wut="object", wuo=ik[3])) mc.delete( mc.aimConstraint(ik[3], ik[2], aim=(1, 0, 0), u=(0, 0, -1), wut="object", wuo=ik[1])) mc.delete( mc.aimConstraint(ik[2], ik[3], aim=(-1, 0, 0), u=(0, 0, -1), wut="object", wuo=ik[1])) else: mc.delete( mc.aimConstraint(ik[2], ik[1], aim=(-1, 0, 0), u=(0, 0, 1), wut="object", wuo=ik[3])) mc.delete( mc.aimConstraint(ik[3], ik[2], aim=(-1, 0, 0), u=(0, 0, 1), wut="object", wuo=ik[1])) mc.delete( mc.aimConstraint(ik[2], ik[3], aim=(1, 0, 0), u=(0, 0, 1), wut="object", wuo=ik[1])) for i in range(1, 4): r = mc.getAttr(ik[i] + ".r")[0] mc.setAttr(ik[i] + ".jo", r[0], r[1], r[2]) mc.setAttr(ik[i] + ".r", 0, 0, 0) mc.setAttr(ik[i] + ".radius", radius * 0.5) # first ik joint ik[0] = mc.createNode("joint", n=name + "_ik1") mc.setAttr(ik[0] + ".t", positions[0][0], positions[0][1], positions[0][2]) if inheritTemplateRotations: mc.setAttr(ik[0] + ".r", rotations[0][0], rotations[0][1], rotations[0][2]) else: n = mc.createNode("transform") mc.delete(mc.pointConstraint(ik[0], n)) mc.setAttr(n + ".tz", mc.getAttr(n + ".tz") - 1) if positions[1][0] >= -0.001: mc.delete( mc.aimConstraint(ik[1], ik[0], aim=(1, 0, 0), u=(0, 0, 1), wut="object", wuo=n)) else: mc.delete( mc.aimConstraint(ik[1], ik[0], aim=(-1, 0, 0), u=(0, 0, -1), wut="object", wuo=n)) mc.delete(n) r = mc.getAttr(ik[0] + ".r")[0] mc.setAttr(ik[0] + ".jo", r[0], r[1], r[2]) mc.setAttr(ik[0] + ".r", 0, 0, 0) # # ik controls # ik_ctrl_grp = [None] * 3 ik_ctrl = [None] * 3 ik_ctrl_grp[1], ik_ctrl[1] = common.control( name=name + "_ik2", parent=grp, position=ik[3], normal=(1, 0, 0), color=6, radius=radius, shape=ikShape, lockAttr=["s", "v"], hideAttr=["sx", "sy", "sz", "v"]) mc.addAttr(ik_ctrl[1], ln="joints", at="bool", dv=True, k=True) mc.addAttr(ik_ctrl[1], ln="editJoints", at="bool", k=True) mc.addAttr(ik_ctrl[1], ln="fkControls", at="bool", dv=True, k=True) mc.addAttr(ik_ctrl[1], ln="ikControls", at="bool", dv=True, k=True) mc.addAttr(ik_ctrl[1], ln="stretch", at="bool", k=True) ik_ctrl_grp[2], ik_ctrl[2] = common.control(name=name+"_pv", parent=grp, position=ik[2], rotation=ik[2], normal=(0,0,1), color=6, radius=radius*0.25, shape=ikShape, lockAttr=["r","s"], \ hideAttr=["rx","ry","rz","sx","sy","sz","v"]) if positions[0][0] <= -0.001: mc.move(0, 0, -3 * radius, ik_ctrl_grp[2], os=True, r=True, wd=True) else: direction = -1 if inheritTemplateRotations else 1 mc.move(0, 0, direction * 3 * radius, ik_ctrl_grp[2], os=True, r=True, wd=True) mc.connectAttr(ik_ctrl[1] + ".ikControls", ik_ctrl[2] + ".v") # # ik stretch joints # ik2 = [None] * 4 for i in range(4): ik2[i] = mc.duplicate(ik[i])[0] ik2[i] = mc.rename(ik2[i], name + "_ik" + str(i + 1) + "_str") if not i: ik2[i] = mc.parent(ik2[i], grp)[0] else: ik2[i] = mc.parent(ik2[i], ik2[i - 1])[0] if i < 3: c = mc.parentConstraint(ik[i], ik2[i])[0] mc.rename(c, name + "_ik" + str(i + 1) + "_str_parcon") else: c = mc.pointConstraint(ik[i], ik2[i])[0] mc.rename(c, name + "_ik" + str(i + 1) + "_str_pntcon") if i == 2: mc.connectAttr(ik[2] + ".r", ik2[2] + ".r") mc.setAttr(ik2[i] + ".jo", 0, 0, 0) mc.delete(mc.orientConstraint(ik[3], ik2[3])) c = mc.orientConstraint(ik_ctrl[1], ik2[3], mo=True)[0] mc.rename(c, ik2[3].split("|")[-1] + "_oricon") # # fk joints and controls # fk_ctrl = [None] * 4 jnt = [None] * 4 for i in range(4): fk_ctrl[i] = mc.duplicate(ik[i])[0] if i: fk_ctrl[i] = mc.rename(fk_ctrl[i], name + "_fk" + str(i + 1) + "_ctrl") mc.connectAttr(ik2[i] + ".t", fk_ctrl[i] + ".t") mc.connectAttr(ik2[i] + ".r", fk_ctrl[i] + ".jo") mc.setAttr(fk_ctrl[i] + ".r", 0, 0, 0) if inheritTemplateRotations: common.control(addShapeTo=fk_ctrl[i], normal=(1, 0, 0), color=13, radius=radius * 0.7) else: common.control(addShapeTo=fk_ctrl[i], normal=(1, 0, 0), color=13, radius=radius * 0.7) mc.connectAttr( ik_ctrl[1] + ".fkControls", mc.listRelatives(fk_ctrl[i], pa=True, s=True)[0] + ".v") else: # the first fk control becomes ik one fk_ctrl[i] = mc.rename(fk_ctrl[i], name + "_ik1_ctrl") common.control(addShapeTo=fk_ctrl[i], normal=(1, 0, 0), color=6, radius=radius) mc.connectAttr( ik_ctrl[1] + ".ikControls", mc.listRelatives(fk_ctrl[i], pa=True, s=True)[0] + ".v") if i == 1: fk_ctrl[i] = mc.parent(fk_ctrl[i], grp)[0] elif i > 1: fk_ctrl[i] = mc.parent(fk_ctrl[i], fk_ctrl[i - 1])[0] mc.setAttr(fk_ctrl[i] + ".drawStyle", 2) # fk joints jnt[i] = mc.duplicate(ik[i])[0] if i: jnt[i] = mc.parent(jnt[i], fk_ctrl[i])[0] else: jnt[i] = mc.parent(jnt[i], ik[0])[0] jnt[i] = mc.rename(jnt[i], name + "_jnt" + str(i + 1)) for a in ["t", "r", "jo"]: mc.setAttr(jnt[i] + "." + a, 0, 0, 0) mc.connectAttr(ik_ctrl[1] + ".joints", jnt[i] + ".v") if i: mc.setAttr(jnt[i] + ".drawStyle", 0) mc.setAttr(jnt[i] + ".radius", radius * 0.5) # the first ik joint becomes fk control common.control(addShapeTo=ik[0], normal=(1, 0, 0), color=13, radius=radius * 0.7) mc.connectAttr(ik_ctrl[1] + ".fkControls", mc.listRelatives(ik[0], pa=True, s=True)[0] + ".v") ik[0] = mc.rename(ik[0], name + "_fk1_ctrl") mc.setAttr(ik[0] + ".drawStyle", 2) fk1_ctrl_grp = mc.createNode("joint", n=name + "_fk1_ctrl_grp", p=grp) mc.delete(mc.parentConstraint(ik[0], fk1_ctrl_grp)) r = mc.getAttr(ik[0] + ".jo")[0] mc.setAttr(fk1_ctrl_grp + ".jo", r[0], r[1], r[2]) mc.connectAttr(fk_ctrl[0] + ".r", fk1_ctrl_grp + ".r") mc.setAttr(fk1_ctrl_grp + ".drawStyle", 2) ik[0] = mc.parent(ik[0], fk1_ctrl_grp)[0] mc.setAttr(ik[0] + ".jo", 0, 0, 0) c = mc.orientConstraint(fk_ctrl[0], ik2[0], mo=True)[0] mc.rename(c, name + "_ik" + str(i + 1) + "_str_oricon") fk2_ctrl_grp = mc.createNode("joint", n=name + "_fk2_ctrl_grp") mc.setAttr(fk2_ctrl_grp + ".drawStyle", 2) # # ik handles # for i in range(2, 4): ik[i] = mc.parent(ik[i], ik[i - 1])[0] mc.select(ik[1:]) mc.SetPreferredAngle() ikh = common.ikHandle(name, ik[1], ik[3], parent=ik_ctrl[1])[0] pvc = mc.poleVectorConstraint(ik_ctrl[2], ikh)[0] mc.rename(pvc, name + "_pvcon") # # stretch math # n = mc.createNode("transform", n="str_grp", p=fk_ctrl[0]) mc.delete(mc.pointConstraint(ik[1], n)) db1 = mc.createNode("distanceBetween") mc.connectAttr(n + ".worldMatrix", db1 + ".inMatrix1") mc.connectAttr(ik_ctrl[1] + ".worldMatrix", db1 + ".inMatrix2") db2 = mc.createNode("distanceBetween") n2 = mc.duplicate(n)[0] mc.connectAttr(n2 + ".worldMatrix", db2 + ".inMatrix1") mc.connectAttr(ik_ctrl_grp[1] + ".worldMatrix", db2 + ".inMatrix2") md1 = mc.createNode("multiplyDivide") mc.setAttr(md1 + ".operation", 2) mc.connectAttr(db1 + ".distance", md1 + ".input1X") mc.connectAttr(db2 + ".distance", md1 + ".input2X") md2 = mc.createNode("multiplyDivide") mc.connectAttr(md1 + ".outputX", md2 + ".input1X") mc.connectAttr(ik_ctrl[1] + ".stretch", md2 + ".input2X") c = mc.createNode("condition") mc.setAttr(c + ".secondTerm", 1) mc.setAttr(c + ".operation", 3) mc.connectAttr(md1 + ".outputX", c + ".colorIfTrueR") mc.connectAttr(md2 + ".outputX", c + ".firstTerm") mc.connectAttr(c + ".outColorR", ik[1] + ".sx") mc.connectAttr(c + ".outColorR", ik[2] + ".sx") # offset the stretch group to enable full extension # of the leg before it starts stretching db3 = mc.createNode("distanceBetween") mc.connectAttr(fk_ctrl[1] + ".worldMatrix", db3 + ".inMatrix1") mc.connectAttr(fk_ctrl[2] + ".worldMatrix", db3 + ".inMatrix2") d = mc.getAttr(db3 + ".distance") mc.connectAttr(ik_ctrl[1] + ".worldMatrix", db3 + ".inMatrix1", f=True) d += mc.getAttr(db3 + ".distance") - mc.getAttr(db1 + ".distance") mc.delete(db3) p = mc.xform(n2, q=True, rp=True, ws=True) p2 = mc.xform(ik_ctrl[1], q=True, rp=True, ws=True) p[0] -= p2[0] p[1] -= p2[1] p[2] -= p2[2] m = math.sqrt(p[0] * p[0] + p[1] * p[1] + p[2] * p[2]) p[0] /= m p[1] /= m p[2] /= m p2 = mc.getAttr(n2 + ".t")[0] mc.setAttr(n2 + ".t", p2[0] - p[0] * d, p2[1] - p[1] * d, p2[2] - p[2] * d) # # lock and hide attributes # for i in range(4): for a in ["tx", "ty", "tz", "sx", "sy", "sz", "v", "radius"]: mc.setAttr(fk_ctrl[i] + "." + a, l=True, k=False, cb=False) mc.setAttr(fk_ctrl[2] + ".rx", l=True, k=False, cb=False) mc.setAttr(fk_ctrl[2] + ".rz", l=True, k=False, cb=False) for a in ["tx", "ty", "tz", "sx", "sy", "sz", "v", "radius"]: mc.setAttr(ik[0] + "." + a, l=True, k=False, cb=False) # selection sets ik_ctrl[0] = fk_ctrl.pop(0) fk_ctrl.insert(0, ik.pop(0)) common.sets(name, jnt, fk_ctrl, ik_ctrl) # selectable joints common.selectable(ik_ctrl[1] + ".editJoints", jnt) # fk to ik bake ready for i in range(4): mc.addAttr(ik_ctrl[1], ln="fk" + str(i + 1), at="message", h=True) mc.addAttr(fk_ctrl[i], ln="fk", at="message", h=True) mc.connectAttr(ik_ctrl[1] + ".fk" + str(i + 1), fk_ctrl[i] + ".fk") mc.addAttr(ik_ctrl[1], ln="ik1", at="message", h=True) mc.addAttr(ik_ctrl[0], ln="ik", at="message", h=True) mc.connectAttr(ik_ctrl[1] + ".ik1", ik_ctrl[0] + ".ik") mc.addAttr(ik_ctrl[1], ln="ik2", at="message", h=True) mc.addAttr(ik_ctrl[2], ln="ik", at="message", h=True) mc.connectAttr(ik_ctrl[1] + ".ik2", ik_ctrl[2] + ".ik") # organize if tmp: mc.delete(tmp) mc.parent(fk_ctrl[1], fk2_ctrl_grp)[0] fk2_ctrl_grp = mc.parent(fk2_ctrl_grp, fk_ctrl[0])[0] mc.setAttr(fk2_ctrl_grp + ".t", 0, 0, 0) mc.hide(ik[0], ik2[0]) mc.parent(ik[0], ik_ctrl[0]) mc.parent(ik_ctrl[0], grp) mc.select(grp) mc.dgdirty(a=True) return grp
def main(name="wheel", terrain=None, radius=1, scale=1): if terrain == None: l = mc.ls(sl=True, o=True) or [] for n in l: if mc.nodeType(n) == "mesh": terrain = n break else: l2 = mc.listRelatives(n, pa=True, s=True, ni=True) or [] for n2 in l2: if mc.nodeType(n2) == "mesh": terrain = n break if terrain: break grp, ctrl = common.control(name=name+"_placer", color=6, radius=radius*3, shape="square", hideAttr=["tx","tz","rx","ry","rz","sx","sy","sz","v"], lockAttr=["tx","tz","rx","ry","rz","sx","sy","sz"]) grp = mc.rename(grp, name+"_grp") susp = mc.curve(d=1, p=[(0,-0.5,0),(0,0.5,0)], k=(0,1), n=name+"_susp") mc.setAttr(susp+".template", True) susp = mc.parent(susp, ctrl)[0] grp2, ctrl2 = common.control(name=name, numOffsetGroups=1, color=13, radius=radius*1.25, normal=(1,0,0), parent=grp, lockAttr=["tx","tz","rx"], hideAttr=["tx","tz","rx","sx","sy","sz"]) tilt = mc.listRelatives(ctrl2, pa=True, p=True)[0] tilt = mc.rename(tilt, name+"_tilt_grp") mc.addAttr(ctrl2, ln="joints", at="bool", dv=True, k=True) mc.addAttr(ctrl2, ln="editJoints", at="bool", k=True) mc.addAttr(ctrl2, ln="placer", at="bool", dv=True, k=True) mc.addAttr(ctrl2, ln="wheel", at="bool", dv=True, k=True) mc.addAttr(ctrl2, ln="terrain", at="bool", dv=True, k=True) mc.addAttr(ctrl2, ln="editTerrain", at="bool", dv=False, k=True) mc.addAttr(ctrl2, ln="spin", at="double", k=True) mc.addAttr(ctrl2, ln="tilt", at="double", dv=1, k=True) mc.addAttr(ctrl2, ln="size", at="double", dv=1, min=0, k=True) mc.addAttr(ctrl2, ln="terrainDetection", at="bool", dv=True, k=True) mc.addAttr(ctrl2, ln="suspensionOffset", at="double", min=0, k=True) mc.addAttr(ctrl2, ln="suspensionLength", at="double", dv=1, min=0, k=True) mc.connectAttr(ctrl2+".placer", ctrl+"Shape.v") wheel = mc.polyCylinder(h=0.5, ax=(1,0,0), sc=1, ch=False, n=name+"_pxy")[0] mc.select(wheel+".e[0:19]", wheel+".e[20:39]") mc.polyBevel(wheel+".e[0:39]", o=0.1, ch=False) mc.setAttr(wheel+"Shape.overrideEnabled", True) mc.setAttr(wheel+"Shape.overrideDisplayType", 2) mc.setAttr(wheel+"Shape.overrideShading", 0) mc.setAttr(wheel+"Shape.overrideColor", 1) mc.setAttr(wheel+".castsShadows", 0) mc.setAttr(wheel+".receiveShadows", 0) mc.setAttr(wheel+".primaryVisibility", 0) mc.setAttr(wheel+".visibleInReflections", 0) mc.setAttr(wheel+".visibleInRefractions", 0) mc.setAttr(wheel+".doubleSided", 0) mc.connectAttr(ctrl2+".wheel", wheel+"Shape.v") mc.parent(wheel, ctrl) jnt = mc.createNode("joint", n=name+"_jnt", p=ctrl, ss=True) mc.connectAttr(wheel+".t", jnt+".t") mc.connectAttr(wheel+".r", jnt+".r") mc.connectAttr(ctrl2+".joints", jnt+".v") mc.setAttr(jnt+".radius", radius*0.5) common.selectable(ctrl2+".editJoints", jnt) common.sets("wheel", jnt, None, None) if terrain == None: terrain = _terrain.main(name=name, parent=grp) mc.connectAttr(ctrl2+".terrain", terrain+".v") r = mc.createNode("reverse", ss=True) mc.connectAttr(ctrl2+".editTerrain", r+".inputX") mc.connectAttr(r+".outputX", terrain+".template") ter_ted = mc.createNode("transform", p=ctrl, n=name+"_terrain_detection", ss=True) pc = mc.parentConstraint(ctrl2, wheel)[0] mc.pointConstraint(susp, ter_ted) gc = mc.geometryConstraint(terrain, ter_ted)[0] mc.connectAttr(ctrl2+".terrainDetection", gc+"."+terrain+"W0") susp_orig = mc.createNode("transform", p=ctrl, n=name+"_suspension_origin", ss=True) mc.pointConstraint(ter_ted, susp_orig) mc.geometryConstraint(susp, susp_orig) sPntConst = mc.pointConstraint(susp_orig, grp2)[0] mc.connectAttr(ctrl2+".suspensionOffset", susp+".ty") mc.connectAttr(ctrl2+".suspensionLength", susp+".sy") mc.connectAttr(ctrl2+".placer", susp+".v") adl = mc.createNode("addDoubleLinear", ss=True) mc.connectAttr(ctrl2+".spin", adl+".input1") mc.connectAttr(adl+".output", pc+".target[0].targetOffsetRotateX") adl = mc.createNode("addDoubleLinear", ss=True) mc.connectAttr(ctrl2+".tilt", adl+".input1") md = mc.createNode("multiplyDivide", ss=True) mc.setAttr(md+".input2Y", -1) mc.connectAttr(ctrl2+".size", md+".input1Y") mc.connectAttr(md+".outputY", tilt+".rotatePivotY") mc.connectAttr(md+".outputY", tilt+".scalePivotY") mc.connectAttr(ctrl2+".s", wheel+".s") mc.connectAttr(ctrl2+".size", sPntConst+".oy") mc.connectAttr(ctrl2+".size", ctrl2+".sx") mc.connectAttr(ctrl2+".size", ctrl2+".sy") mc.connectAttr(ctrl2+".size", ctrl2+".sz") mc.setAttr(ctrl2+".s", l=True) mc.move(0, -1, 0, tilt+".scalePivot", tilt+".rotatePivot", r=True) mc.expression(s=tilt+".rz = "+ctrl2+".ry * -"+adl+".output * 0.25", o="", ae=True, uc="all", n=name+"_wheel_exp") common.sets("wheel", None, [ctrl, ctrl2], None) mc.select(grp) mc.dgdirty(a=True) return grp, ctrl, ctrl2, wheel
def main(name="head", control=None, parent=None, positions=None, radius=1, ikControlOffset=5, ikShape="cube"): # create template joints if needed tmp = None if not positions: positions = template(name=name) tmp = positions[:] # copy # positions from template transforms/joints for i in range(3): if type(positions[i]) == str or type(positions[i]) == unicode: positions[i] = mc.xform(positions[i], q=True, rp=True, ws=True) if not control: center = [0, 0, 0] c = len(positions) for i in range(3): center[0] += positions[i][0] center[1] += positions[i][1] center[2] += positions[i][2] center[0] /= c center[1] /= c center[2] /= c control = common.control(name=name, position=center, normal=(0, 1, 0), color=17, radius=radius * 2, lockAttr=("v"), hideAttr=("v"))[1] if not parent: parent = control if not mc.objExists(control + ".joints"): mc.addAttr(control, ln="joints", at="bool", dv=True, k=True) if not mc.objExists(control + ".editJoints"): mc.addAttr(control, ln="editJoints", at="bool", k=True) if not mc.objExists(control + ".fkControls"): mc.addAttr(control, ln="fkControls", at="bool", dv=True, k=True) if not mc.objExists(control + ".ikControls"): mc.addAttr(control, ln="ikControls", at="bool", dv=True, k=True) # # fk controls # fk_ctrl_grp = [None] * 3 fk_ctrl = [None] * 3 fk_ctrl_grp[0], fk_ctrl[0] = common.control( name=name + "_jaw_fk", parent=control, position=positions[0], normal=(1, 0, 0), color=13, radius=radius * 0.75, lockAttr=["t", "s", "v"], hideAttr=["tx", "ty", "tz", "sx", "sy", "sz", "v"]) c = mc.parentConstraint(parent, fk_ctrl_grp[0], mo=True)[0] mc.rename(c, fk_ctrl_grp[0] + "_parcon") fk_ctrl_grp[1], fk_ctrl[1] = common.control( name=name + "_eye_lf_fk", parent=control, position=positions[1], numOffsetGroups=1, normal=(0, 0, 1), color=13, radius=radius * 0.5, lockAttr=["t", "rz", "s", "v"], hideAttr=["tx", "ty", "tz", "rz", "sx", "sy", "sz", "v"]) mc.addAttr(fk_ctrl[1], ln="lookAt", at="float", min=0, max=10, dv=10, k=True) c = mc.parentConstraint(parent, fk_ctrl_grp[1], mo=True)[0] mc.rename(c, fk_ctrl_grp[1] + "_parcon") fk_ctrl_grp[2], fk_ctrl[2] = common.control( name=name + "_eye_rt_fk", parent=control, position=positions[2], numOffsetGroups=1, normal=(0, 0, 1), color=13, radius=radius * 0.5, lockAttr=["t", "rz", "s", "v"], hideAttr=["tx", "ty", "tz", "rz", "sx", "sy", "sz", "v"]) mc.addAttr(fk_ctrl[2], ln="lookAt", at="float", min=0, max=10, dv=10, k=True) c = mc.parentConstraint(parent, fk_ctrl_grp[2], mo=True)[0] mc.rename(c, fk_ctrl_grp[2] + "_parcon") for n in fk_ctrl: mc.connectAttr(control + ".fkControls", mc.listRelatives(n, pa=True, s=True)[0] + ".v") # # fk joints # jnt = [None] * 3 jnt[0] = mc.createNode("joint", n="jaw_jnt", p=fk_ctrl[0]) jnt[1] = mc.createNode("joint", n="eye_lf_jnt", p=fk_ctrl[1]) jnt[2] = mc.createNode("joint", n="eye_rt_jnt", p=fk_ctrl[2]) for n in jnt: mc.setAttr(n + ".radius", radius * 0.5) mc.connectAttr(control + ".joints", n + ".v") # # ik controls # positions[0] = [0, 0, 0] positions[0][0] = (positions[1][0] + positions[2][0]) * 0.5 positions[0][1] = (positions[1][1] + positions[2][1]) * 0.5 positions[0][2] = (positions[1][2] + positions[2][2]) * 0.5 + ikControlOffset * radius ik_ctrl_grp, ik_ctrl = common.control(name=name + "_eyes_ik", parent=control, position=positions[0], normal=(0, 0, 1), color=6, radius=radius * 0.5, shape=ikShape, lockAttr=["sy", "sz", "v"], hideAttr=["sy", "sz", "v"]) mc.connectAttr(control + ".ikControls", mc.listRelatives(ik_ctrl, pa=True, s=True)[0] + ".v") eye_lf_aim = mc.createNode("transform", n="eye_lf_aim", p=ik_ctrl) mc.delete(mc.pointConstraint(jnt[1], eye_lf_aim)) mc.setAttr(eye_lf_aim + ".tz", 0) eye_rt_aim = mc.createNode("transform", n="eye_rt_aim", p=ik_ctrl) mc.delete(mc.pointConstraint(jnt[2], eye_rt_aim)) mc.setAttr(eye_rt_aim + ".tz", 0) n = mc.listRelatives(fk_ctrl[1], pa=True, p=True)[0] n2 = mc.listRelatives(mc.listRelatives(fk_ctrl[1], pa=True, p=True)[0], pa=True, p=True)[0] n2 = mc.createNode("transform", n=name + "_lf_eye_base_dir", p=n2) mc.delete(mc.parentConstraint(fk_ctrl[1], n2)) mc.setAttr(n2 + ".tz", 1) c = mc.aimConstraint(n2, n, aim=(0, 0, 1), u=(0, 1, 0), wut="objectrotation", wu=(0, 1, 0), wuo=ik_ctrl, mo=True)[0] mc.aimConstraint(eye_lf_aim, n, aim=(0, 0, 1), u=(0, 1, 0), wut="objectrotation", wu=(0, 1, 0), wuo=ik_ctrl, mo=True) mc.setDrivenKeyframe(c + "." + n2 + "W0", v=1, dv=0, cd=fk_ctrl[1] + ".lookAt", itt="linear", ott="linear") mc.setDrivenKeyframe(c + "." + n2 + "W0", v=0, dv=10, cd=fk_ctrl[1] + ".lookAt", itt="linear", ott="linear") mc.setDrivenKeyframe(c + "." + eye_lf_aim + "W1", v=0, dv=0, cd=fk_ctrl[1] + ".lookAt", itt="linear", ott="linear") mc.setDrivenKeyframe(c + "." + eye_lf_aim + "W1", v=1, dv=10, cd=fk_ctrl[1] + ".lookAt", itt="linear", ott="linear") mc.rename(c, n + "_aimcon") n = mc.listRelatives(fk_ctrl[2], pa=True, p=True)[0] n2 = mc.listRelatives(mc.listRelatives(fk_ctrl[2], pa=True, p=True)[0], pa=True, p=True)[0] n2 = mc.createNode("transform", n=name + "_rt_eye_base_dir", p=n2) mc.delete(mc.parentConstraint(fk_ctrl[2], n2)) mc.setAttr(n2 + ".tz", 1) c = mc.aimConstraint(n2, n, aim=(0, 0, 1), u=(0, 1, 0), wut="objectrotation", wu=(0, 1, 0), wuo=ik_ctrl, mo=True)[0] mc.aimConstraint(eye_rt_aim, n, aim=(0, 0, 1), u=(0, 1, 0), wut="objectrotation", wu=(0, 1, 0), wuo=ik_ctrl, mo=True) mc.setDrivenKeyframe(c + "." + n2 + "W0", v=1, dv=0, cd=fk_ctrl[2] + ".lookAt", itt="linear", ott="linear") mc.setDrivenKeyframe(c + "." + n2 + "W0", v=0, dv=10, cd=fk_ctrl[2] + ".lookAt", itt="linear", ott="linear") mc.setDrivenKeyframe(c + "." + eye_rt_aim + "W1", v=0, dv=0, cd=fk_ctrl[2] + ".lookAt", itt="linear", ott="linear") mc.setDrivenKeyframe(c + "." + eye_rt_aim + "W1", v=1, dv=10, cd=fk_ctrl[2] + ".lookAt", itt="linear", ott="linear") mc.rename(c, n + "_aimcon") # selection sets common.sets(name, jnt, fk_ctrl, [ik_ctrl]) # selectable joints common.selectable(control + ".editJoints", jnt) if tmp: mc.delete(tmp) mc.select(control) mc.dgdirty(a=True) return control
def main(name="spine", positions=None, radius=1): # create template joints if needed tmp = None if not positions: positions = template() tmp = positions[:] # copy # positions from template transforms/joints for i in range(6): if type(positions[i]) == str or type(positions[i]) == unicode: positions[i] = mc.xform(positions[i], q=True, rp=True, ws=True) grp = mc.createNode("transform", n=name) # # joints, part 1 # ik = [None] * 9 mc.select(cl=True) ik[0] = mc.joint(p=positions[0], n=name + "_ik1_off") ik[2] = mc.joint(p=positions[1], n=name + "_ik2") mc.joint(ik[0], e=True, oj="xyz", sao="xup", ch=False, zso=True) # insert an "offset" joint for proper ik spline twist ik[3] = mc.joint(p=[i * 0.5 for i in map(add, positions[1], positions[2])], n=name + "_ik3_off") mc.joint(ik[2], e=True, oj="xyz", sao="xup", ch=False, zso=True) ik[4] = mc.joint(p=positions[2], n=name + "_ik3") mc.joint(ik[3], e=True, oj="xyz", sao="xup", ch=False, zso=True) ik[5] = mc.joint(p=positions[3], n=name + "_ik4") mc.joint(ik[4], e=True, oj="xyz", sao="xup", ch=False, zso=True) ik[6] = mc.joint(p=positions[4], n=name + "_ik5") mc.joint(ik[5], e=True, oj="xyz", sao="xup", ch=False, zso=True) mc.setAttr(ik[6] + ".jo", 0, 0, 0) # insert an "offset" joint for proper ik spline twist ik[7] = mc.joint(p=[i * 0.5 for i in map(add, positions[4], positions[5])], n=name + "_ik6_off") mc.joint(ik[6], e=True, oj="xyz", sao="xup", ch=False, zso=True) ik[8] = mc.joint(p=positions[5], n=name + "_ik6") mc.joint(ik[7], e=True, oj="xyz", sao="xup", ch=False, zso=True) ik[1] = mc.duplicate(ik[0])[0] ik[1] = mc.rename(ik[1], name + "_ik1") mc.delete(mc.listRelatives(ik[1], pa=True, ad=True)) ik[1] = mc.parent(ik[1], ik[0])[0] for n in ik: mc.setAttr(n + ".radius", radius * 0.5) for n in [ik[0], ik[3], ik[7]]: mc.setAttr(n + ".drawStyle", 2) # # controls # ctrl_grp = [None] * 5 ctrl = [None] * 5 ctrl_grp[0], ctrl[0] = common.control(name=name + "_ik1", parent=grp, position=ik[0], radius=radius * 2, lockAttr=["s", "v"], hideAttr=["sx", "sy", "sz", "v"]) mc.addAttr(ctrl[0], ln="joints", at="bool", dv=True, k=True) mc.addAttr(ctrl[0], ln="editJoints", at="bool", k=True) ctrl_grp[1], ctrl[1] = common.control(name=name + "_ik2", parent=ctrl[0], position=ik[2], radius=radius * 2, lockAttr=["s", "v"], hideAttr=["sx", "sy", "sz", "v"]) ctrl_grp[2], ctrl[2] = common.control(name=name + "_ik3", parent=ctrl[1], position=ik[4], radius=radius * 2, lockAttr=["s", "v"], hideAttr=["sx", "sy", "sz", "v"]) mc.addAttr(ctrl[2], ln="stretchAbove", at="bool", k=True) mc.addAttr(ctrl[2], ln="stretchBelow", at="bool", k=True) ctrl_grp[3], ctrl[3] = common.control(name=name + "_ik5", parent=ctrl[2], position=ik[6], radius=radius, lockAttr=["s", "v"], hideAttr=["sx", "sy", "sz", "v"]) anchor = mc.createNode("transform", n="spine_ik4_anchor", p=ik[4]) mc.delete(mc.parentConstraint(ik[5], anchor)) c = mc.parentConstraint(anchor, ctrl_grp[3], mo=True)[0] mc.rename(c, ctrl_grp[3] + "_parcon") ctrl_grp[4], ctrl[4] = common.control(name=name + "_ik6", parent=ctrl[3], position=ik[8], radius=radius, lockAttr=["s", "v"], hideAttr=["sx", "sy", "sz", "v"]) mc.addAttr(ctrl[4], ln="stretch", at="bool", k=True) md = mc.createNode("multiplyDivide") mc.setAttr(md + ".operation", 2) mc.setAttr(md + ".input1X", 1) mc.connectAttr(ik[4] + ".sx", md + ".input2X") mc.connectAttr(md + ".outputX", anchor + ".sx") # # joints, part 2 # c = mc.orientConstraint(ctrl[2], ik[4], mo=True)[0] mc.rename(c, ik[4] + "_oricon") # # ik handles # mc.select(ik[0], ik[4]) ikh, eff, crv = mc.ikHandle(sol="ikSplineSolver") crv = mc.parent(crv, grp)[0] mc.setAttr(crv + ".it", False) mc.setAttr(ikh + ".dTwistControlEnable", True) mc.setAttr(ikh + ".dWorldUpType", 4) mc.setAttr(ikh + ".dWorldUpAxis", 3) mc.setAttr(ikh + ".dWorldUpVector", 0, 0, -1) mc.setAttr(ikh + ".dWorldUpVectorEnd", 0, 0, -1) ikh = mc.parent(ikh, grp)[0] mc.hide(ikh, crv) ikh = mc.rename(ikh, name + "_ikh#") mc.rename(eff, name + "_eff#") # adjust "offset" joint position for proper ik spline twist mc.move(positions[2][0], positions[2][1], positions[2][2], ik[3] + ".scalePivot", ik[3] + ".rotatePivot") mc.move(0, -0.001, 0, ik[3] + ".scalePivot", ik[3] + ".rotatePivot", r=True) c1 = mc.cluster(crv + ".cv[0]")[1] c2 = mc.cluster(crv + ".cv[1]", crv + ".cv[2]")[1] c3 = mc.cluster(crv + ".cv[3]")[1] mc.hide(c1, c2, c3) mc.parent(c1, ctrl[0]) mc.parent(c2, ctrl[1]) mc.parent(c3, ctrl[2]) mc.connectAttr(ctrl[0] + ".worldMatrix", ikh + ".dWorldUpMatrix") mc.connectAttr(ctrl[2] + ".worldMatrix", ikh + ".dWorldUpMatrixEnd") mc.select(ik[5], ik[8]) ikh, eff, crv2 = mc.ikHandle(sol="ikSplineSolver") crv2 = mc.parent(crv2, grp)[0] mc.setAttr(crv2 + ".t", 0, 0, 0) mc.setAttr(crv2 + ".r", 0, 0, 0) mc.setAttr(crv2 + ".s", 1, 1, 1) mc.setAttr(crv2 + ".it", False) mc.setAttr(ikh + ".dTwistControlEnable", True) mc.setAttr(ikh + ".dWorldUpType", 4) mc.setAttr(ikh + ".dWorldUpAxis", 3) mc.setAttr(ikh + ".dWorldUpVector", 0, 0, -1) mc.setAttr(ikh + ".dWorldUpVectorEnd", 0, 0, -1) ikh = mc.parent(ikh, grp)[0] mc.hide(ikh, crv2) ikh = mc.rename(ikh, name + "_ikh#") mc.rename(eff, name + "_eff#") # adjust "offset" joint position for proper ik spline twist mc.move(positions[5][0], positions[5][1], positions[5][2], ik[7] + ".scalePivot", ik[7] + ".rotatePivot") mc.move(0, -0.001, 0, ik[7] + ".scalePivot", ik[7] + ".rotatePivot", r=True) c1 = mc.cluster(crv2 + ".cv[0]")[1] c2 = mc.cluster(crv2 + ".cv[1]", crv2 + ".cv[2]")[1] c3 = mc.cluster(crv2 + ".cv[3]")[1] mc.hide(c1, c2, c3) mc.parent(c1, ik[4]) mc.parent(c2, ctrl[3]) mc.parent(c3, ctrl[4]) mc.connectAttr(ctrl[2] + ".worldMatrix", ikh + ".dWorldUpMatrix") mc.connectAttr(ctrl[4] + ".worldMatrix", ikh + ".dWorldUpMatrixEnd") mc.delete(mc.ls(typ="tweak")) c = mc.orientConstraint(ctrl[0], ik[1], mo=True)[0] mc.rename(c, ik[1] + "_oricon") c = mc.orientConstraint(ctrl[4], ik[8], mo=True)[0] mc.rename(c, ik[8] + "_oricon") # # stretch math # ci = mc.createNode("curveInfo") mc.connectAttr(crv + ".worldSpace", ci + ".inputCurve") ci2 = mc.createNode("curveInfo") mc.connectAttr(crv2 + ".worldSpace", ci2 + ".inputCurve") n = mc.listRelatives(crv, pa=True, s=True)[1] tg = mc.createNode("transformGeometry") mc.connectAttr(n + ".worldSpace", tg + ".inputGeometry") mc.connectAttr(grp + ".worldMatrix", tg + ".transform") ci3 = mc.createNode("curveInfo") mc.connectAttr(tg + ".outputGeometry", ci3 + ".inputCurve") n = mc.listRelatives(crv2, pa=True, s=True)[1] tg = mc.createNode("transformGeometry") mc.connectAttr(n + ".worldSpace", tg + ".inputGeometry") mc.connectAttr(grp + ".worldMatrix", tg + ".transform") ci4 = mc.createNode("curveInfo") mc.connectAttr(tg + ".outputGeometry", ci4 + ".inputCurve") md1 = mc.createNode("multiplyDivide") mc.setAttr(md1 + ".operation", 2) mc.connectAttr(ci + ".arcLength", md1 + ".input1X") mc.connectAttr(ci3 + ".arcLength", md1 + ".input2X") md2 = mc.createNode("multiplyDivide") mc.connectAttr(md1 + ".outputX", md2 + ".input1X") mc.connectAttr(ctrl[2] + ".stretchBelow", md2 + ".input2X") c = mc.createNode("condition") mc.setAttr(c + ".secondTerm", 1) mc.setAttr(c + ".operation", 3) mc.connectAttr(md1 + ".outputX", c + ".colorIfTrueR") mc.connectAttr(md2 + ".outputX", c + ".firstTerm") mc.connectAttr(c + ".outColorR", ik[0] + ".sx") mc.connectAttr(c + ".outColorR", ik[2] + ".sx") md2 = mc.createNode("multiplyDivide") mc.connectAttr(md1 + ".outputX", md2 + ".input1X") mc.connectAttr(ctrl[2] + ".stretchAbove", md2 + ".input2X") c = mc.createNode("condition") mc.setAttr(c + ".secondTerm", 1) mc.setAttr(c + ".operation", 3) mc.connectAttr(md1 + ".outputX", c + ".colorIfTrueR") mc.connectAttr(md2 + ".outputX", c + ".firstTerm") mc.connectAttr(c + ".outColorR", ik[4] + ".sx") md1 = mc.createNode("multiplyDivide") mc.setAttr(md1 + ".operation", 2) mc.connectAttr(ci2 + ".arcLength", md1 + ".input1X") mc.connectAttr(ci4 + ".arcLength", md1 + ".input2X") md2 = mc.createNode("multiplyDivide") mc.connectAttr(md1 + ".outputX", md2 + ".input1X") mc.connectAttr(ctrl[4] + ".stretch", md2 + ".input2X") c = mc.createNode("condition") mc.setAttr(c + ".secondTerm", 1) mc.setAttr(c + ".operation", 3) mc.connectAttr(md1 + ".outputX", c + ".colorIfTrueR") mc.connectAttr(md2 + ".outputX", c + ".firstTerm") mc.connectAttr(c + ".outColorR", ik[5] + ".sx") mc.connectAttr(c + ".outColorR", ik[6] + ".sx") j = 0 jnt = [None] * 6 for i in range(1, 9): if i == 3 or i == 7: continue jnt[j] = mc.createNode("joint", n=name + "_jnt" + str(j + 1), p=grp) mc.setAttr(jnt[j] + ".radius", radius * 0.5) mc.connectAttr(ctrl[0] + ".joints", jnt[j] + ".v") c = mc.parentConstraint(ik[i], jnt[j])[0] mc.rename(c, name + "_jnt" + str(j) + "_parcon") j += 1 # selection sets common.sets(name, jnt, None, ctrl) # selectable joints common.selectable(ctrl[0] + ".editJoints", jnt) if tmp: mc.delete(tmp) ik[0] = mc.parent(ik[0], grp)[0] mc.hide(ik[0]) mc.select(grp) mc.dgdirty(a=True) return grp
def main(name="twist", control=None, parent=None, stable=None, _twist=None, scale=None, aim=(1, 0, 0), up=(0, 1, 0), wu=(0, 0, 0), wuo=None, count=4): if not control: control = common.control(name=name, color=13)[1] addControlToSets = True else: addControlToSets = False if not mc.objExists(control + ".joints"): mc.addAttr(control, ln="joints", at="bool", dv=True, k=True) if not mc.objExists(control + ".editJoints"): mc.addAttr(control, ln="editJoints", at="bool", k=True) if count < 1: count = 1 elif count > 4: count = 4 count += 1 tw = [None] * count tw[0] = mc.duplicate(stable)[0] try: mc.delete(mc.listRelatives(tw[0], pa=True, c=True)) except: pass l = mc.listConnections(tw[0] + ".message", s=False, d=True, p=True) or [] for na in l: mc.disconnectAttr(tw[0] + ".message", na) for a in [ "t", "tx", "ty", "tz", "r", "rx", "ry", "rz", "s", "sx", "sy", "sz", "v", "radius", "template" ]: mc.setAttr(tw[0] + "." + a, l=False, k=True) mc.setAttr(tw[0] + ".radius", mc.getAttr(tw[0] + ".radius")) mc.setAttr(tw[0] + ".drawStyle", 0) mc.setAttr(tw[0] + ".template", False) tw[0] = mc.rename(tw[0], name + "_twr#") try: tw[0] = mc.parent(tw[0], parent)[0] except: pass tw[1] = mc.duplicate(tw[0])[0] mc.setAttr(tw[1] + ".drawStyle", 2) for i in range(2, count): tw[i] = mc.duplicate(tw[0])[0] if not wuo: c = mc.aimConstraint(_twist, tw[0], aim=aim, u=up, wut="vector", wu=wu, mo=True)[0] else: c = mc.aimConstraint(_twist, tw[0], aim=aim, u=up, wut="objectrotation", wu=wu, wuo=wuo, mo=True)[0] mc.rename(c, tw[0] + "_aimcon") c = mc.aimConstraint(_twist, tw[1], aim=aim, u=up, wut="objectrotation", wu=(0, 1, 0), wuo=_twist, mo=True)[0] mc.rename(c, tw[0] + "_aimcon") if count == 5: wgt = [0.75, 0.5, 0.25] elif count == 4: wgt = [0.6666, 0.3333] else: # count == 3 wgt = [0.5] for i in range(2, count): tw[i] = mc.rename(tw[i], name + "_tw#") c = mc.pointConstraint(tw[0], _twist, tw[i])[0] mc.setAttr(c + "." + tw[0].split("|")[-1] + "W0", wgt[i - 2]) mc.setAttr(c + "." + _twist.split("|")[-1] + "W1", 1 - wgt[i - 2]) mc.delete(c) c = mc.orientConstraint(tw[0], tw[1], tw[i])[0] mc.setAttr(c + "." + tw[0].split("|")[-1] + "W0", wgt[i - 2]) mc.setAttr(c + "." + tw[1].split("|")[-1] + "W1", 1 - wgt[i - 2]) mc.setAttr(c + ".interpType", 2) mc.rename(c, tw[i] + "_oricon") if count > 2: mc.parent(tw[2:], tw[1]) mc.select(tw[0], tw[1]) mc.connectAttr(scale + ".s", tw[1] + ".s") mc.connectAttr(control + ".joints", tw[0] + ".v") mc.connectAttr(control + ".joints", tw[1] + ".v") tw.pop(1) # selection sets if addControlToSets: common.sets(name, tw, [control], None) else: common.sets(name, tw, None, None) # selectable joints common.selectable(control + ".editJoints", tw) mc.select(control) mc.dgdirty(a=True) return control
def main(name="leg", positions=None, inheritTemplateRotations=False, footWidth=1, radius=1, ikShape="cube"): # create template joints if needed tmp = None if not positions: positions = template(name=name) tmp = positions[:] # copy # positions/orientations from template transforms/joints rotations = [None] * 6 for i in range(6): if type(positions[i]) == str or type(positions[i]) == unicode: if inheritTemplateRotations: rotations[i] = mc.xform(positions[i], q=True, ro=True, ws=True) positions[i] = mc.xform(positions[i], q=True, rp=True, ws=True) grp = mc.createNode("transform", n=name) # # ik joints # ik = [None] * 5 for i in range(5): ik[i] = mc.createNode("joint", n=name + "_ik" + str(i + 1)) mc.setAttr(ik[i] + ".t", positions[i][0], positions[i][1], positions[i][2]) if inheritTemplateRotations: mc.setAttr(ik[i] + ".r", rotations[i][0], rotations[i][1], rotations[i][2]) if not inheritTemplateRotations: if positions[0][0] >= -0.001: mc.delete( mc.aimConstraint(ik[1], ik[0], aim=(1, 0, 0), u=(0, 0, -1), wut="object", wuo=ik[2])) mc.delete( mc.aimConstraint(ik[2], ik[1], aim=(1, 0, 0), u=(0, 0, -1), wut="object", wuo=ik[0])) mc.delete( mc.aimConstraint(ik[1], ik[2], aim=(-1, 0, 0), u=(0, 0, -1), wut="object", wuo=ik[0])) mc.delete( mc.aimConstraint(ik[4], ik[3], aim=(1, 0, 0), u=(0, 0, 1), wut="object", wuo=ik[1])) mc.delete( mc.aimConstraint(ik[3], ik[4], aim=(-1, 0, 0), u=(0, 0, 1), wut="object", wuo=ik[1])) else: mc.delete( mc.aimConstraint(ik[1], ik[0], aim=(-1, 0, 0), u=(0, 0, 1), wut="object", wuo=ik[2])) mc.delete( mc.aimConstraint(ik[2], ik[1], aim=(-1, 0, 0), u=(0, 0, 1), wut="object", wuo=ik[0])) mc.delete( mc.aimConstraint(ik[1], ik[2], aim=(1, 0, 0), u=(0, 0, 1), wut="object", wuo=ik[0])) mc.delete( mc.aimConstraint(ik[4], ik[3], aim=(-1, 0, 0), u=(0, 0, -1), wut="object", wuo=ik[1])) mc.delete( mc.aimConstraint(ik[3], ik[4], aim=(1, 0, 0), u=(0, 0, -1), wut="object", wuo=ik[1])) for i in range(5): r = mc.getAttr(ik[i] + ".r")[0] mc.setAttr(ik[i] + ".jo", r[0], r[1], r[2]) mc.setAttr(ik[i] + ".r", 0, 0, 0) mc.setAttr(ik[i] + ".radius", radius * 0.5) # # ik controls # ik_ctrl_grp = [None] * 2 ik_ctrl = [None] * 2 ik_ctrl_grp[0], ik_ctrl[0] = common.control( name=name + "_ik1", parent=grp, position=ik[2], color=6, radius=radius, shape=ikShape, lockAttr=["s", "v"], hideAttr=["sx", "sy", "sz", "v"]) mc.addAttr(ik_ctrl[0], ln="joints", at="bool", dv=True, k=True) mc.addAttr(ik_ctrl[0], ln="editJoints", at="bool", k=True) mc.addAttr(ik_ctrl[0], ln="fkControls", at="bool", dv=True, k=True) mc.addAttr(ik_ctrl[0], ln="ikControls", at="bool", dv=True, k=True) mc.addAttr(ik_ctrl[0], ln="stretch", at="bool", k=True) mc.addAttr(ik_ctrl[0], ln="footRoll", at="double", k=True) mc.addAttr(ik_ctrl[0], ln="footSide", at="double", k=True) mc.addAttr(ik_ctrl[0], ln="heelTwist", at="double", k=True) mc.addAttr(ik_ctrl[0], ln="ballLift", at="double", k=True) mc.addAttr(ik_ctrl[0], ln="toeLift", at="double", k=True) mc.addAttr(ik_ctrl[0], ln="toeTwist", at="double", k=True) heel = mc.createNode("transform", n=name + "_heel_grp") mc.setAttr(heel + ".t", positions[5][0], positions[5][1], positions[5][2]) heel = mc.parent(heel, ik_ctrl[0])[0] mc.setAttr(heel + ".r", 0, 0, 0) mc.connectAttr(ik_ctrl[0] + ".footRoll", heel + ".rx") mc.connectAttr(ik_ctrl[0] + ".heelTwist", heel + ".ry") mc.transformLimits(heel, rx=(0, 0), erx=(False, True)) mc.hide(heel) side_rt = mc.createNode("transform", n=name + "_side_rt_grp", p=heel) mc.setAttr(side_rt + ".r", 0, 0, 0) mc.delete(mc.pointConstraint(ik[3], side_rt)) mc.setAttr(side_rt + ".tx", -footWidth) mc.connectAttr(ik_ctrl[0] + ".footSide", side_rt + ".rz") mc.transformLimits(side_rt, rz=(0, 0), erz=(True, False)) side_lf = mc.createNode("transform", n=name + "_side_lf_grp", p=side_rt) mc.delete(mc.pointConstraint(ik[3], side_lf)) mc.setAttr(side_lf + ".r", 0, 0, 0) mc.setAttr(side_lf + ".tx", footWidth * 2) mc.connectAttr(ik_ctrl[0] + ".footSide", side_lf + ".rz") mc.transformLimits(side_lf, rz=(0, 0), erz=(False, True)) toe = mc.createNode("transform", n=name + "_toe_grp", p=side_lf) mc.delete(mc.pointConstraint(ik[4], toe)) mc.setAttr(toe + ".r", 0, 0, 0) mc.connectAttr(ik_ctrl[0] + ".toeTwist", toe + ".ry") mc.setDrivenKeyframe(toe + ".rx", v=0, dv=45, cd=ik_ctrl[0] + ".footRoll", itt="linear", ott="linear") mc.setDrivenKeyframe(toe + ".rx", v=45, dv=90, cd=ik_ctrl[0] + ".footRoll", itt="linear", ott="linear") ball = mc.createNode("transform", n=name + "_ball_grp", p=toe) mc.delete(mc.pointConstraint(ik[3], ball)) mc.setAttr(ball + ".r", 0, 0, 0) # mc.connectAttr(ik_ctrl[0]+".ballLift", ball+".rax") mc.setDrivenKeyframe(ball + ".rx", v=0, dv=0, cd=ik_ctrl[0] + ".footRoll", itt="linear", ott="linear") mc.setDrivenKeyframe(ball + ".rx", v=45, dv=45, cd=ik_ctrl[0] + ".footRoll", itt="linear", ott="linear") ik_ctrl_grp[1], ik_ctrl[1] = common.control( name=name + "_pv", parent=grp, position=ik[1], rotation=ik[1], normal=(0, 0, 1), color=6, radius=radius * 0.25, shape=ikShape, lockAttr=["r", "s"], hideAttr=["rx", "ry", "rz", "sx", "sy", "sz", "v"]) if positions[0][0] <= -0.001: direction = 1 if inheritTemplateRotations else -1 mc.move(0, 0, direction * 3 * radius, ik_ctrl_grp[1], os=True, r=True, wd=True) else: mc.move(0, 0, 3 * radius, ik_ctrl_grp[1], os=True, r=True, wd=True) mc.setAttr(ik_ctrl_grp[1] + ".r", 0, 0, 0) mc.connectAttr(ik_ctrl[0] + ".ikControls", ik_ctrl_grp[1] + ".v") # # ik stretch joints # ik2 = [None] * 3 for i in range(3): ik2[i] = mc.duplicate(ik[i])[0] ik2[i] = mc.rename(ik2[i], name + "_ik" + str(i + 1) + "_str") if i == 0: ik2[i] = mc.parent(ik2[i], grp)[0] else: ik2[i] = mc.parent(ik2[i], ik2[i - 1])[0] c = mc.parentConstraint(ik[i], ik2[i])[0] mc.rename(c, name + "_ik" + str(i + 1) + "_parcon") mc.setAttr(ik2[i] + ".jo", 0, 0, 0) # # fk joints and controls # fk_ctrl = [None] * 4 jnt = [None] * 4 for i in range(4): # fk controls fk_ctrl[i] = mc.duplicate(ik[i])[0] fk_ctrl[i] = mc.rename(fk_ctrl[i], name + "_fk" + str(i + 1) + "_ctrl") if i != 3: mc.connectAttr(ik2[i] + ".t", fk_ctrl[i] + ".t") mc.connectAttr(ik2[i] + ".r", fk_ctrl[i] + ".jo") else: mc.connectAttr(ik[i] + ".t", fk_ctrl[i] + ".t") mc.connectAttr(ik[i] + ".jo", fk_ctrl[i] + ".jo") mc.setAttr(fk_ctrl[i] + ".r", 0, 0, 0) common.control(addShapeTo=fk_ctrl[i], normal=(1, 0, 0), color=13, radius=radius * 0.7) mc.connectAttr(ik_ctrl[0] + ".fkControls", mc.listRelatives(fk_ctrl[i], pa=True, s=True)[0] + ".v") if i: fk_ctrl[i] = mc.parent(fk_ctrl[i], fk_ctrl[i - 1])[0] else: fk_ctrl[i] = mc.parent(fk_ctrl[i], grp)[0] mc.setAttr(fk_ctrl[i] + ".drawStyle", 2) # fk joints jnt[i] = mc.duplicate(ik[i])[0] jnt[i] = mc.parent(jnt[i], fk_ctrl[i])[0] jnt[i] = mc.rename(jnt[i], name + "_jnt" + str(i + 1)) for a in ["t", "r", "jo"]: mc.setAttr(jnt[i] + "." + a, 0, 0, 0) mc.connectAttr(ik_ctrl[0] + ".joints", jnt[i] + ".v") mc.setAttr(fk_ctrl[i] + ".drawStyle", 2) rev = mc.createNode("reverse") mc.connectAttr(ik_ctrl[0] + ".toeLift", rev + ".inputX") mc.connectAttr(rev + ".outputX", jnt[3] + ".ry") mc.setDrivenKeyframe(fk_ctrl[3] + ".ray", v=30, dv=-30, cd=ik_ctrl[0] + ".footRoll", itt="linear", ott="linear") mc.setDrivenKeyframe(fk_ctrl[3] + ".ray", v=0, dv=0, cd=ik_ctrl[0] + ".footRoll", itt="linear", ott="linear") mc.setDrivenKeyframe(fk_ctrl[3] + ".ray", v=-45, dv=45, cd=ik_ctrl[0] + ".footRoll", itt="linear", ott="linear") # # ik handles # for i in range(1, 5): ik[i] = mc.parent(ik[i], ik[i - 1])[0] mc.select(ik) mc.SetPreferredAngle() common.ikHandle(name + "_ball", ik[2], ik[3], parent=ball) common.ikHandle(name + "_toe", ik[3], ik[4], parent=toe) ikh = common.ikHandle(name, ik[0], ik[2], parent=ball)[0] pvc = mc.poleVectorConstraint(ik_ctrl[1], ikh)[0] mc.rename(pvc, name + "_pvcon") # # stretch math # ik1_jnt_grp = mc.createNode("transform", n=ik[0] + "_grp", p=grp) mc.delete(mc.pointConstraint(ik[0], ik1_jnt_grp)) n = mc.duplicate(ik1_jnt_grp)[0] n = mc.rename(n, "str_grp") db1 = mc.createNode("distanceBetween") mc.connectAttr(ik1_jnt_grp + ".worldMatrix", db1 + ".inMatrix1") mc.connectAttr(ik_ctrl[0] + ".worldMatrix", db1 + ".inMatrix2") db2 = mc.createNode("distanceBetween") mc.connectAttr(n + ".worldMatrix", db2 + ".inMatrix1") mc.connectAttr(ik_ctrl_grp[0] + ".worldMatrix", db2 + ".inMatrix2") md1 = mc.createNode("multiplyDivide") mc.setAttr(md1 + ".operation", 2) mc.connectAttr(db1 + ".distance", md1 + ".input1X") mc.connectAttr(db2 + ".distance", md1 + ".input2X") md2 = mc.createNode("multiplyDivide") mc.connectAttr(md1 + ".outputX", md2 + ".input1X") mc.connectAttr(ik_ctrl[0] + ".stretch", md2 + ".input2X") c = mc.createNode("condition") mc.setAttr(c + ".secondTerm", 1) mc.setAttr(c + ".operation", 3) mc.connectAttr(md1 + ".outputX", c + ".colorIfTrueR") mc.connectAttr(md2 + ".outputX", c + ".firstTerm") mc.connectAttr(c + ".outColorR", ik[0] + ".sx") mc.connectAttr(c + ".outColorR", ik[1] + ".sx") # offset the stretch group to enable full extension # of the leg before it starts stretching db3 = mc.createNode("distanceBetween") mc.connectAttr(ik[0] + ".worldMatrix", db3 + ".inMatrix1") mc.connectAttr(ik[1] + ".worldMatrix", db3 + ".inMatrix2") d = mc.getAttr(db3 + ".distance") mc.connectAttr(ik[2] + ".worldMatrix", db3 + ".inMatrix1", f=True) d += mc.getAttr(db3 + ".distance") - mc.getAttr(db1 + ".distance") mc.delete(db3) p = mc.xform(ik[0], q=True, rp=True, ws=True) p2 = mc.xform(ik[2], q=True, rp=True, ws=True) p[0] -= p2[0] p[1] -= p2[1] p[2] -= p2[2] m = math.sqrt(p[0] * p[0] + p[1] * p[1] + p[2] * p[2]) p[0] /= m p[1] /= m p[2] /= m p2 = mc.getAttr(n + ".t")[0] mc.setAttr(n + ".t", p2[0] + p[0] * d, p2[1] + p[1] * d, p2[2] + p[2] * d) # # lock and hide attributes # for i in range(4): if i == 0 or i == 2: for a in ["tx", "ty", "tz", "sx", "sy", "sz", "v", "radius"]: mc.setAttr(fk_ctrl[i] + "." + a, l=True, k=False, cb=False) else: for a in [ "tx", "ty", "tz", "rx", "rz", "sx", "sy", "sz", "v", "radius" ]: mc.setAttr(fk_ctrl[i] + "." + a, l=True, k=False, cb=False) # selection sets common.sets(name, jnt, fk_ctrl, ik_ctrl) # selectable joints common.selectable(ik_ctrl[0] + ".editJoints", jnt) # fk to ik bake ready for i in range(3): mc.addAttr(ik_ctrl[0], ln="fk" + str(i + 1), at="message", h=True) mc.addAttr(fk_ctrl[i], ln="fk", at="message", h=True) mc.connectAttr(ik_ctrl[0] + ".fk" + str(i + 1), fk_ctrl[i] + ".fk") mc.addAttr(ik_ctrl[0], ln="ik1", at="message", h=True) mc.addAttr(ik_ctrl[1], ln="ik", at="message", h=True) mc.connectAttr(ik_ctrl[0] + ".ik1", ik_ctrl[1] + ".ik") # organize if tmp: mc.delete(tmp) mc.hide(ik[0], ik2[0]) mc.parent(ik[0], ik1_jnt_grp) mc.select(grp) mc.dgdirty(a=True) return grp
def main(wheels=None, parent=None, radius=1): if wheels == None: wheels = mc.ls(sl=True, o=True) or [] if len(wheels) < 2: return grp = mc.createNode("transform", n="chassis", ss=True) bb = mc.exactWorldBoundingBox(wheels) tx = (bb[3] + bb[0]) * 0.5 ty = (bb[4] + bb[1]) * 0.5 tz = (bb[5] + bb[2]) * 0.5 sx = (bb[3] - bb[0]) * 2 * radius sz = (bb[5] - bb[2]) * 2 * radius grp2, ctrl = common.control(name="chassis", position=[tx, ty, tz], radius=[sx, sz], shape="square", parent=grp, lockAttr="v", hideAttr="v") mc.addAttr(ctrl, ln="joints", at="bool", dv=True, k=True) mc.addAttr(ctrl, ln="editJoints", at="bool", k=True) mc.addAttr(ctrl, ln="controls", at="bool", dv=True, k=True) mc.addAttr(ctrl, ln="placers", at="bool", k=True) mc.addAttr(ctrl, ln="wheels", at="bool", dv=True, k=True) mc.addAttr(ctrl, ln="terrain", at="bool", dv=True, k=True) mc.addAttr(ctrl, ln="editTerrain", at="bool", k=True) mc.addAttr(ctrl, ln="terrainDetection", at="bool", dv=True, k=True) jnt = mc.createNode("joint", n="chassis_jnt", p=ctrl, ss=True) mc.setAttr(jnt + ".radius", radius * 0.5) mc.connectAttr(ctrl + ".joints", jnt + ".v") common.selectable(ctrl + ".editJoints", jnt) common.sets("chassis", jnt, None, None) fr_wheels = [] bk_wheels = [] lf_wheels = [] rt_wheels = [] for n in wheels: name = n.replace("_grp", "") mc.connectAttr(ctrl + ".joints", name + "_ctrl.joints") mc.setAttr(name + "_ctrl.joints", k=False) mc.connectAttr(ctrl + ".editJoints", name + "_ctrl.editJoints") mc.setAttr(name + "_ctrl.editJoints", k=False) mc.connectAttr(ctrl + ".controls", name + "_ctrl.v") mc.setAttr(name + "_ctrl.v", k=False) mc.connectAttr(ctrl + ".controls", name + "_placer_ctrlShape.overrideVisibility") mc.connectAttr(ctrl + ".placers", name + "_ctrl.placer") mc.setAttr(name + "_ctrl.placer", k=False) mc.connectAttr(ctrl + ".wheels", name + "_ctrl.wheel") mc.setAttr(name + "_ctrl.wheel", k=False) mc.connectAttr(ctrl + ".terrain", name + "_ctrl.terrain") mc.setAttr(name + "_ctrl.terrain", k=False) mc.connectAttr(ctrl + ".editTerrain", name + "_ctrl.editTerrain") mc.setAttr(name + "_ctrl.editTerrain", k=False) mc.connectAttr(ctrl + ".terrainDetection", name + "_ctrl.terrainDetection") mc.setAttr(name + "_ctrl.terrainDetection", k=False) p = mc.xform(n, q=True, ws=True, rp=True) if p[0] >= 0: lf_wheels.append(n) else: rt_wheels.append(n) if p[2] >= 0: fr_wheels.append(n) else: bk_wheels.append(n) bb = mc.exactWorldBoundingBox(fr_wheels) tx = (bb[3] + bb[0]) * 0.5 ty = bb[4] * 1.25 tz = (bb[5] + bb[2]) * 0.5 r = (bb[3] + bb[0]) * 0.25 if r < (bb[4] + bb[1]) * 0.25: r = (bb[4] + bb[1]) * 0.25 if r < (bb[5] + bb[2]) * 0.25: r = (bb[5] + bb[2]) * 0.25 grp3, ctrl2 = common.control( name="steering", position=[tx, ty, tz], radius=radius * r, parent=grp, lockAttr=["tx", "ty", "tz", "rx", "rz", "sx", "sy", "sz"], hideAttr=["tx", "ty", "tz", "rx", "rz", "sx", "sy", "sz", "v"]) mc.connectAttr(ctrl + ".controls", ctrl2 + ".v") mc.transformLimits(ctrl2, ry=(-55, 55), ery=(1, 1)) fr_pos_grp = mc.createNode("transform", p=grp, n=name + "_fr_pos_grp", ss=True) bk_pos_grp = mc.createNode("transform", p=grp, n=name + "_bk_pos_grp", ss=True) lf_pos_grp = mc.createNode("transform", p=grp, n=name + "_lf_pos_grp", ss=True) rt_pos_grp = mc.createNode("transform", p=grp, n=name + "_rt_pos_grp", ss=True) fr_lf_pos_grp = mc.createNode("transform", p=grp, n=name + "_fr_lf_aim_grp", ss=True) bk_lf_pos_grp = mc.createNode("transform", p=grp, n=name + "_bk_lf_aim_grp", ss=True) bk_rt_pos_grp = mc.createNode("transform", p=grp, n=name + "_bk_rt_aim_grp", ss=True) fr_rt_pos_grp = mc.createNode("transform", p=grp, n=name + "_fr_rt_aim_grp", ss=True) for n in wheels: wheel_ctrl = n.replace("_grp", "_ctrl") if n in fr_wheels: mc.connectAttr(ctrl2 + ".ry", wheel_ctrl + ".ry") mc.setAttr(wheel_ctrl + ".ry", k=False, l=True) else: mc.setAttr(wheel_ctrl + ".tilt", 0) mc.pointConstraint(wheel_ctrl, grp2, skip=("x")) if n in lf_wheels: mc.pointConstraint(wheel_ctrl, lf_pos_grp) elif n in rt_wheels: mc.pointConstraint(wheel_ctrl, rt_pos_grp) if n in fr_wheels: mc.pointConstraint(wheel_ctrl, fr_pos_grp, skip=("x")) elif n in bk_wheels: mc.pointConstraint(wheel_ctrl, bk_pos_grp) mc.setAttr(wheel_ctrl + ".ry", k=False, l=True) mc.connectAttr(grp2 + ".rz", wheel_ctrl + ".rz") mc.setAttr(wheel_ctrl + ".rz", k=False, l=True) mc.pointConstraint(fr_pos_grp, bk_pos_grp, lf_pos_grp, rt_pos_grp, fr_lf_pos_grp) mc.pointConstraint(fr_pos_grp, bk_pos_grp, lf_pos_grp, rt_pos_grp, bk_lf_pos_grp) mc.pointConstraint(fr_pos_grp, bk_pos_grp, lf_pos_grp, rt_pos_grp, bk_rt_pos_grp) mc.pointConstraint(fr_pos_grp, bk_pos_grp, lf_pos_grp, rt_pos_grp, fr_rt_pos_grp) mc.aimConstraint(fr_pos_grp, fr_lf_pos_grp, aim=[0, 0, 1], u=[1, 0, 0], wut="object", wuo=lf_pos_grp) mc.aimConstraint(lf_pos_grp, bk_lf_pos_grp, aim=[1, 0, 0], u=[0, 0, -1], wut="object", wuo=bk_pos_grp) mc.aimConstraint(bk_pos_grp, bk_rt_pos_grp, aim=[0, 0, -1], u=[-1, 0, 0], wut="object", wuo=rt_pos_grp) mc.aimConstraint(rt_pos_grp, fr_rt_pos_grp, aim=[-1, 0, 0], u=[1, 0, 0], wut="object", wuo=fr_pos_grp) mc.orientConstraint(fr_lf_pos_grp, bk_lf_pos_grp, bk_rt_pos_grp, fr_rt_pos_grp, grp2, mo=True) common.sets("chassis", None, [ctrl, ctrl2], None) mc.select(grp) mc.dgdirty(a=True) return grp, ctrl
def main(name="hand", side="", control=None, parent=None, positions=None, inheritTemplateRotations=False, radius=1): # create template joints if needed tmp = None if not positions: positions = template(name=name) tmp = copy.deepcopy(positions) cnt = len(positions) if cnt == 0: return # positions from template transforms/joints rotations = {} for i in range(cnt): cnt2 = len(positions[i]) if cnt2 < 3: raise Exception("At least 3 joints are needed to form a finger.") for j in range(cnt2): if type(positions[i][j]) == str or type( positions[i][j]) == unicode: if inheritTemplateRotations: if i not in rotations.viewkeys(): rotations[i] = [None] * cnt2 rotations[i][j] = mc.xform(positions[i][j], q=True, ro=True, ws=True) positions[i][j] = mc.xform(positions[i][j], q=True, rp=True, ws=True) if not control: center = [0, 0, 0] for i in range(cnt): center[0] += positions[i][0][0] center[1] += positions[i][0][1] center[2] += positions[i][0][2] center[0] /= cnt center[1] /= cnt center[2] /= cnt control = common.control(name=name, position=center, normal=(1, 0, 0), color=17, radius=radius * 2, lockAttr=("v"), hideAttr=("v"))[1] parent = control if not mc.objExists(control + ".joints"): mc.addAttr(control, ln="joints", at="bool", dv=True, k=True) if not mc.objExists(control + ".editJoints"): mc.addAttr(control, ln="editJoints", at="bool", dv=True, k=True) if not mc.objExists(control + ".fingerControls"): mc.addAttr(control, ln="fingerControls", at="bool", dv=True, k=True) if not mc.objExists(control + ".bend"): mc.addAttr(control, ln="bend", at="double", min=-10, max=10, k=True) if not mc.objExists(control + ".splay"): mc.addAttr(control, ln="splay", at="double", min=-10, max=10, k=True) md1 = mc.createNode("multiplyDivide") mc.connectAttr(control + ".bend", md1 + ".input1.input1X") mc.connectAttr(control + ".bend", md1 + ".input1.input1Y") mc.connectAttr(control + ".bend", md1 + ".input1.input1Z") mc.setAttr(md1 + ".input2X", 6) mc.setAttr(md1 + ".input2Y", 9) mc.setAttr(md1 + ".input2Z", 9) md2 = mc.createNode("multiplyDivide") mc.connectAttr(control + ".bend", md2 + ".input1.input1X") mc.connectAttr(control + ".bend", md2 + ".input1.input1Y") mc.connectAttr(control + ".bend", md2 + ".input1.input1Z") mc.setAttr(md2 + ".input2X", 8) mc.setAttr(md2 + ".input2Y", 11) mc.setAttr(md2 + ".input2Z", 7.5) jnt = [None] * cnt ctrl_grp = [None] * cnt ctrl = [None] * cnt for i in range(cnt): mc.select(cl=True) cnt2 = len(positions[i]) jnt[i] = [None] * cnt2 if cnt2 == 3: j = 0 else: j = 1 jnt[i][0] = mc.createNode("joint", n="finger_" + side + str(i + 1) + "_jnt" + str(j + 1)) mc.setAttr(jnt[i][0] + ".t", positions[i][j][0], positions[i][j][1], positions[i][j][2]) jnt[i][1] = mc.createNode("joint", n="finger_" + side + str(i + 1) + "_jnt" + str(j + 2)) mc.setAttr(jnt[i][1] + ".t", positions[i][j + 1][0], positions[i][j + 1][1], positions[i][j + 1][2]) jnt[i][2] = mc.createNode("joint", n="finger_" + side + str(i + 1) + "_jnt" + str(j + 3)) mc.setAttr(jnt[i][2] + ".t", positions[i][j + 2][0], positions[i][j + 2][1], positions[i][j + 2][2]) if j: jnt[i][3] = mc.createNode("joint", n="finger_" + side + str(i + 1) + "_jnt1") mc.setAttr(jnt[i][3] + ".t", positions[i][0][0], positions[i][0][1], positions[i][0][2]) c = mc.aimConstraint(jnt[i][0], jnt[i][3], aim=(1, 0, 0), u=(0, 0, 1), wut="objectrotation", wuo=parent)[0] mc.rename(c, jnt[i][3] + "_aimcon") jnt[i][3] = mc.parent(jnt[i][3], parent)[0] mc.setAttr(jnt[i][3] + ".radius", radius * 0.3) mc.connectAttr(control + ".joints", jnt[i][3] + ".v") if not inheritTemplateRotations: n = mc.createNode("transform") mc.delete(mc.pointConstraint(jnt[i][0], jnt[i][2], n)) mc.delete( mc.aimConstraint(jnt[i][2], n, aim=(1, 0, 0), u=(0, 0, 1), wut="object", wuo=jnt[i][1])) mc.delete( mc.aimConstraint(jnt[i][1], jnt[i][0], aim=(1, 0, 0), u=(0, 0, -1), wut="object", wuo=n)) mc.delete( mc.aimConstraint(jnt[i][2], jnt[i][1], aim=(1, 0, 0), u=(0, 0, -1), wut="object", wuo=n)) mc.delete(mc.orientConstraint(jnt[i][1], jnt[i][2])) mc.delete(n) else: for j in range(cnt2): mc.setAttr(jnt[i][j] + ".r", rotations[i][j][0], rotations[i][j][1], rotations[i][j][2]) r = mc.getAttr(jnt[i][0] + ".r")[0] mc.setAttr(jnt[i][0] + ".jo", r[0], r[1], r[2]) mc.setAttr(jnt[i][0] + ".r", 0, 0, 0) r = mc.getAttr(jnt[i][1] + ".r")[0] mc.setAttr(jnt[i][1] + ".jo", r[0], r[1], r[2]) mc.setAttr(jnt[i][1] + ".r", 0, 0, 0) mc.parent(jnt[i][1], jnt[i][0]) r = mc.getAttr(jnt[i][2] + ".r")[0] mc.setAttr(jnt[i][2] + ".jo", r[0], r[1], r[2]) mc.setAttr(jnt[i][2] + ".r", 0, 0, 0) mc.parent(jnt[i][2], jnt[i][1]) ctrl_grp[i] = [None, None, None] ctrl[i] = [None, None, None] for j in range(3): if j: _parent = ctrl[i][j - 1] lockAttr = ("t", "rx", "rz", "s", "v") hideAttr = ("tx", "ty", "tz", "rx", "rz", "sx", "sy", "sz", "v") else: _parent = parent lockAttr = ("s", "v") hideAttr = ("sx", "sy", "sz", "v") ctrl_grp[i][j], ctrl[i][j] = common.control( name="finger_" + side + str(i + 1) + "_fk" + str(j + 1), parent=_parent, position=jnt[i][j], rotation=jnt[i][j], normal=(1, 0, 0), color=13, radius=radius * 0.3, lockAttr=lockAttr, hideAttr=hideAttr, numOffsetGroups=True) mc.connectAttr( control + ".fingerControls", mc.listRelatives(ctrl[i][j], pa=True, s=True)[0] + ".v") jnt[i][j] = mc.parent(jnt[i][j], ctrl[i][j])[0] mc.setAttr(jnt[i][j] + ".radius", radius * 0.3) mc.connectAttr(control + ".joints", jnt[i][j] + ".v") # bend mc.connectAttr(md2 + ".outputX", ctrl_grp[i][0] + ".ray") mc.connectAttr(md2 + ".outputY", ctrl_grp[i][1] + ".ray") mc.connectAttr(md2 + ".outputZ", ctrl_grp[i][2] + ".ray") # splay delta = 3.0 / (cnt * 0.5) for i in range(cnt): md = mc.createNode("multiplyDivide") mc.connectAttr(control + ".splay", md + ".input1.input1X") if mc.xform(ctrl_grp[i][0], q=True, rp=True, ws=True)[0] >= -0.001: mc.setAttr(md + ".input2X", -3 + delta * i) else: mc.setAttr(md + ".input2X", 3 - delta * i) if len(jnt[i]) == 4: mc.connectAttr(md + ".outputX", ctrl_grp[i][0] + ".raz") else: mc.connectAttr( md + ".outputX", mc.listRelatives(ctrl[i][0], pa=True, p=True)[0] + ".raz") # selection sets if side: name += "_" + side common.sets(name, sum(jnt, []), sum(ctrl, []), None) # selectable joints common.selectable(control + ".editJoints", sum(jnt, [])) if tmp: mc.delete(sum(tmp, [])) mc.select(control) mc.dgdirty(a=True) return control