コード例 #1
0
    def make_road(self, *args):
        #find out how to scale road to fit on face in case the size is changed
        #and this is optional. make it so that if two or more faces are selected in 1 direction, it automatically finds
        #out which direction to build the roads to

        sel_faces = cmds.ls(selection=True, flatten=True)
        for items in sel_faces:

            check5_value = cmds.checkBox(self.check5, query=True, value=True)
            check6_value = cmds.checkBox(self.check6, query=True, value=True)

            if check5_value == True and check6_value == True or check5_value == False and check6_value == False:
                sys.exit("Error! Pick one.")

            road = cmds.duplicate(u'road')

            cmds.parent(road, world=True)

            face = pm.MeshFace(items)
            pt = face.__apimfn__().center(OpenMaya.MSpace.kWorld)
            centerPoint = pm.datatypes.Point(pt)

            #moves road to the centre of a face
            cmds.move(centerPoint[0],
                      centerPoint[1],
                      centerPoint[2],
                      road[0],
                      scalePivotRelative=True,
                      worldSpace=True)

            if check5_value == True and check6_value == False:
                pass

            elif check5_value == False and check6_value == True:
                cmds.rotate(90, road[0], rotateY=True)
コード例 #2
0
def getFaceNormals():
    faceList = [pm.MeshFace(res) for res in pm.filterExpand(expand = True, sm = 34)]
    if len(faceList) == 0: cmds.error("no faces selected!")

    norm = pm.dt.Vector()
    for face in faceList: norm += face.getNormal(space = 'world').normal()

    return norm.normal()
コード例 #3
0
ファイル: scatter.py プロジェクト: CWSiggins/sfa_scripts
 def find_average_normal(faces):
     face_normals = []
     for face in faces:
         mesh_face = pmc.MeshFace(face)
         face_normals.append(mesh_face.getNormal())
     sum_of_normals = sum(face_normals)
     ave_vtx_normal = sum_of_normals / len(sum_of_normals)
     ave_vtx_normal.normalize()
     tangent = ave_vtx_normal.cross(pmc.dt.Vector(0, 1, 0))
     tangent.normalize()
     tangent2 = ave_vtx_normal.cross(tangent)
     tangent2.normalize()
     return ave_vtx_normal, tangent, tangent2
コード例 #4
0
def place_objects():

    cmds.select(mesh_name)
    number_of_faces = cmds.polyEvaluate(f=True)

    # we're comparing with up
    comparisonVector = OpenMaya.MVector(0, 1, 0)

    if len(tree_list) != 0:
        increment_age(tree_list)

    global seeds
    #print(seeds)
    for x in range(seeds):
        place = random.randint(0, number_of_faces)
        face = pm.MeshFace("{}.f[{}]".format(mesh_name, place))

        # check normal of face
        pm.select(face)
        polyInfo = pm.polyInfo(fn=True)
        polyInfoArray = re.findall(r"[\w.-]+", polyInfo[0])  # convert the string to array with regular expression
        polyInfoX = float(polyInfoArray[2])
        polyInfoY = float(polyInfoArray[3])
        polyInfoZ = float(polyInfoArray[4])
        face_normal = OpenMaya.MVector(polyInfoX, polyInfoY, polyInfoZ)

        deltaAngle = math.degrees(face_normal.angle(comparisonVector))

        # the angle is in degrees so the result is
        # "if the difference between this normal and 'up' is more then 20 degrees, turn the point off"
        global angle
        angle = cmds.intSliderGrp('input_angle', query=True, value=True)
        if abs(deltaAngle) > angle:
            continue

        # Get center of face
        pt = face.__apimfn__().center(OpenMaya.MSpace.kWorld)
        centerPoint = pm.datatypes.Point(pt)


        plant = cmds.textField(plant_name, query=True, text=True)
        cmds.select(plant)
        tree_list.append(TreeInfo(cmds.instance(plant)))
        cmds.move(centerPoint[0], centerPoint[1], centerPoint[2])

        tree_list[-1].update_fitness
コード例 #5
0
    def make_intersection(*args):

        sel_faces = cmds.ls(selection=True, flatten=True)

        for items in sel_faces:

            intersection = cmds.duplicate(u'intersection')

            face = pm.MeshFace(items)
            pt = face.__apimfn__().center(OpenMaya.MSpace.kWorld)
            centerPoint = pm.datatypes.Point(pt)

            #moves intersection to the centre of a face
            cmds.move(centerPoint[0],
                      centerPoint[1],
                      centerPoint[2],
                      intersection[0],
                      scalePivotRelative=True,
                      worldSpace=True)
            cmds.parent(intersection, world=True)
コード例 #6
0
    def place_buildings(self, *args):

        sel_faces = cmds.ls(selection=True, flatten=True)

        for items in sel_faces:

            #all make_building methods are places here without "()" so they don't all end up being called
            all_buildings = [
                self.make_building, self.make_building_2, self.make_building_3,
                self.make_building_4
            ]

            #This gets/queries the value of the checkbox
            check1_value = cmds.checkBox(self.check1, query=True, value=True)
            #If check1 is checked off, it removes make_building from the list
            if check1_value == False:
                all_buildings.remove(self.make_building)

            check2_value = cmds.checkBox(self.check2, query=True, value=True)
            if check2_value == False:
                all_buildings.remove(self.make_building_2)

            check3_value = cmds.checkBox(self.check3, query=True, value=True)
            if check3_value == False:
                all_buildings.remove(self.make_building_3)

            check4_value = cmds.checkBox(self.check4, query=True, value=True)
            if check4_value == False:
                all_buildings.remove(self.make_building_4)

            #random.choice does not work unless there is 2 or more values to choose from.
            #the next couple of lines until after else works around this issue
            length = len(all_buildings)
            new_rand_bulding = 'nothing'
            if length == 1:
                new_rand_building = all_buildings[0]()

            elif length == 0:
                import sys
                sys.exit(
                    "Error! Can't have 0 buildings. Please check at least one."
                )

            else:
                #here it chooses a method and calls it, hence the "()" after "(all_buildings)"
                rand_building = random.choice(all_buildings)()
                new_rand_building = rand_building

            #gets the centre point of a face
            face = pm.MeshFace(items)
            pt = face.__apimfn__().center(OpenMaya.MSpace.kWorld)
            centerPoint = pm.datatypes.Point(pt)

            #moves building to the centre of a face
            cmds.move(centerPoint[0],
                      centerPoint[1],
                      centerPoint[2],
                      new_rand_building[0],
                      scalePivotRelative=True,
                      worldSpace=True)

            width_value = cmds.floatField(self.width_floatfield,
                                          query=True,
                                          value=True)
            height_value = cmds.floatField(self.height_floatfield,
                                           query=True,
                                           value=True)
            widthDiv_value = cmds.intField(self.widthDiv_intfield,
                                           query=True,
                                           value=True)
            heightDiv_value = cmds.intField(self.heightDiv_intfield,
                                            query=True,
                                            value=True)

            maxHeight_value = cmds.intField(self.maxHeight_intfield,
                                            query=True,
                                            value=True)
            minHeight_value = cmds.intField(self.minHeight_intfield,
                                            query=True,
                                            value=True)

            face_width = width_value / widthDiv_value
            face_height = height_value / heightDiv_value

            max_width = face_width - (face_width * 0.10)
            # max_depth(cube) = max_height(building)
            max_depth = face_height - (face_height * 0.10)
            min_width = face_width * 0.6
            min_depth = face_height * 0.6

            max_size = (1.005 * max_width) - max_width
            min_size = max_size * 0.6

            rand_size = random.uniform(min_size, max_size)

            cmds.scale(rand_size, rand_size, rand_size, new_rand_building[0])
            cmds.move(0.828,
                      new_rand_building[0],
                      moveY=True,
                      scalePivotRelative=True,
                      relative=True)

            block = cmds.polyCube(name="building_block",
                                  width=face_width,
                                  depth=face_height,
                                  height=0.85)
            block_pos = cmds.xform(block[0] + ".vtx[0]",
                                   query=True,
                                   translation=True)
            cmds.move(block_pos[1],
                      block[0] + ".scalePivot",
                      moveY=True,
                      worldSpace=True)
            cmds.move(block_pos[1],
                      block[0] + ".rotatePivot",
                      moveY=True,
                      worldSpace=True)
            cmds.move(centerPoint[0],
                      centerPoint[1],
                      centerPoint[2],
                      block[0],
                      scalePivotRelative=True,
                      worldSpace=True)
            #cmds.rename("building_block", "build_block")
            cmds.polyUnite(block[0],
                           new_rand_building[0],
                           name="building1",
                           constructionHistory=False)

        cmds.hide("modular")
コード例 #7
0
ファイル: scatter.py プロジェクト: Yamaterasen/sfa_scripts
    def scatter_objects(self, rand_rotation, rand_scale, align_to_normals):
        selection = cmds.ls(orderedSelection=True, flatten=True)
        vertex_names = cmds.filterExpand(selection, selectionMask=31,
                                         expand=True)
        face_names = cmds.polyListComponentConversion(vertex_names,
                                                      fromVertex=True,
                                                      toFace=True)
        face_names = cmds.filterExpand(face_names, selectionMask=34,
                                       expand=True)

        face_normals = []
        for face in face_names:
            meshface = pmc.MeshFace(face)
            face_normals.append(meshface.getNormal())

        sum_of_normals = sum(face_normals)
        ave_vtx_normal = sum_of_normals / len(sum_of_normals)
        tangent = ave_vtx_normal.cross(pmc.dt.Vector(0, 1, 0))
        tangent.normalize()
        tangent2 = ave_vtx_normal.cross(tangent)
        tangent2.normalize()
        pos = cmds.xform(vertex_names, query=True, worldSpace=True,
                         translation=True)

        matrix = [tangent2.x, tangent2.y, tangent2.z, 0.0,
                  ave_vtx_normal.x, ave_vtx_normal.y, ave_vtx_normal.z, 0.0,
                  tangent.x, tangent.y, tangent.z, 0.0,
                  pos[0], pos[1], pos[2], 1.0]

        # Create a group to contain scatter objects
        scatter_group = cmds.group(em=True, n='scatter_group')
        object_to_instance = selection[0]
        if cmds.objectType(object_to_instance) == 'transform':
            for vertex in vertex_names:
                new_instance = cmds.instance(object_to_instance)
                position = cmds.pointPosition(vertex, world=True)

                # Position and add random rotation and scale
                new_position = [x for x in position]
                new_rotation = [random.uniform(rand_rotation[0],
                                               rand_rotation[1])
                                for _ in range(3)]
                new_scale = [random.uniform(rand_scale[0], rand_scale[1])
                             for _ in range(3)]
                if align_to_normals:
                    cmds.xform(new_instance, worldSpace=True, matrix=matrix)
                # Move objects to position
                cmds.move(new_position[0],
                          new_position[1],
                          new_position[2],
                          new_instance,
                          absolute=True,
                          worldSpace=True)

                # Set object rotation
                cmds.rotate(new_rotation[0],
                            new_rotation[1],
                            new_rotation[2],
                            new_instance,
                            relative=True,
                            objectSpace=True)

                # Set object scale
                cmds.scale(new_scale[0],
                           new_scale[1],
                           new_scale[2],
                           new_instance,
                           relative=True)

                # Parent new instances to the scatter group from earlier
                cmds.parent(new_instance, scatter_group)

        else:
            print("Please ensure the first object you select is a transform.")
コード例 #8
0
    def create_snow():

        import pymel.core as pm

        selobj = maya.cmds.ls(sl=True)
        if len(selobj) <= 0:
            maya.cmds.warning(
                'Select one object to generate snow on top of it')
            return
        selobj = selobj[0]
        dup = maya.cmds.duplicate(selobj)
        maya.cmds.select(dup)
        obj = maya.cmds.ls(sl=True)[0]

        bbox = maya.cmds.xform(obj, q=True, ws=True, boundingBox=True)
        selection = maya.OpenMaya.MSelectionList()
        selection.add(obj)
        obj_mdagpath = maya.OpenMaya.MDagPath()
        selection.getDagPath(0, obj_mdagpath)
        obj_mfnMesh = maya.OpenMaya.MFnMesh(obj_mdagpath)

        face_ids = None
        tri_ids = None
        ids_sorted = False
        space = maya.OpenMaya.MSpace.kWorld
        max_param = 999999
        test_both_directions = False
        accel_params = None
        sort_hits = True
        hit_points = maya.OpenMaya.MFloatPointArray()
        hit_ray_params = maya.OpenMaya.MFloatArray()
        hit_faces = maya.OpenMaya.MIntArray()

        selection = maya.cmds.ls(sl=True)
        num_of_faces = maya.cmds.polyEvaluate(selection, f=True)

        window = maya.cmds.window(t="Adding snow ... Please wait!")
        maya.cmds.columnLayout()
        progress_control = maya.cmds.progressBar(maxValue=num_of_faces,
                                                 width=300)
        maya.cmds.showWindow(window)

        for i in range(num_of_faces):

            pselect = selection[0] + '.f[' + str(i) + ']'

            face = pm.MeshFace(pselect)
            pt = face.__apimfn__().center(maya.OpenMaya.MSpace.kWorld)
            center_point = pm.datatypes.Point(pt)

            pn = maya.cmds.polyInfo(pselect, fn=True)[0].split("\n")[0].split()

            maya.cmds.progressBar(progress_control, edit=True, pr=i + 1)

            ray_direction = maya.OpenMaya.MFloatVector(0, 0.25, 0)
            ray_source = maya.OpenMaya.MFloatPoint(center_point[0],
                                                   center_point[1] + 0.1,
                                                   center_point[2])
            hit_points.clear()
            if obj_mfnMesh.allIntersections(
                    ray_source, ray_direction, face_ids, tri_ids, ids_sorted,
                    space, max_param, test_both_directions, accel_params,
                    sort_hits, hit_points, hit_ray_params, hit_faces, None,
                    None, None, 0.000001):
                maya.cmds.select(pselect, add=True)
        maya.cmds.selectMode(co=True)
        maya.cmds.delete()
        maya.cmds.selectMode(o=True)
        maya.cmds.deleteUI(window)
        em = maya.cmds.emitter(type='surface', spd=0, rate=1000)
        prt = maya.cmds.nParticle()

        maya.cmds.connectDynamic(prt[0], em=em)
        maya.cmds.setAttr(prt[1] + '.ignoreSolverGravity', 1)
        maya.cmds.setAttr(prt[1] + '.ignoreSolverWind', 1)
        maya.cmds.setAttr(prt[1] + '.maxCount', 70000)
        maya.cmds.setAttr(prt[1] + '.radius', 1)
        maya.cmds.setAttr(prt[1] + '.particleRenderType', 7)

        maya.cmds.play()

        maya.mel.eval('doParticleToPoly;')