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author | Brendon Murphy <meta.androcto1@gmail.com> | 2012-09-04 04:02:38 +0400 |
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committer | Brendon Murphy <meta.androcto1@gmail.com> | 2012-09-04 04:02:38 +0400 |
commit | a6f9e90eab356526151085d4f5c1d6419d75ec08 (patch) | |
tree | 74cbd4eb9f51926239c79bffc5bb28981b66918c /add_curve_extra_objects/add_curve_spirals.py | |
parent | 8c9bbbcbba535e3e0de1a359ecc790f4d9f529c2 (diff) |
merge of torus knots plus, curveaceous_galore & spirals addons.
this merge groups the main add curve object types under the one folder
Diffstat (limited to 'add_curve_extra_objects/add_curve_spirals.py')
-rw-r--r-- | add_curve_extra_objects/add_curve_spirals.py | 246 |
1 files changed, 246 insertions, 0 deletions
diff --git a/add_curve_extra_objects/add_curve_spirals.py b/add_curve_extra_objects/add_curve_spirals.py new file mode 100644 index 00000000..9e178812 --- /dev/null +++ b/add_curve_extra_objects/add_curve_spirals.py @@ -0,0 +1,246 @@ +'''bl_info = { + "name": "Spirals", + "description": "Make spirals", + "author": "Alejandro Omar Chocano Vasquez", + "version": (1, 2), + "blender": (2, 62, 0), + "location": "View3D > Add > Curve", + "warning": "", # used for warning icon and text in addons panel + "wiki_url": "http://wiki.blender.org/index.php/Extensions:2.4/Py/Scripts/Object/Spirals", + "tracker_url": "http://alexvaqp.googlepages.com?" + "func=detail&aid=<number>", + "category": "Add Curve"} +''' +import bpy, time +from bpy.props import * +from math import sin, cos, pi, exp +from bpy_extras.object_utils import AddObjectHelper, object_data_add + +#make normal spiral +#----------------------------------------------------------------------------- +def make_spiral(props, context): #archemedian and logarithmic can be plottet in zylindrical coordinates + #if props.spiral_type != 1 and props.spiral_type != 2: + # return None + + #INPUT: turns->degree->max_phi, steps, direction + #Initialise Polar Coordinate Enviroment + #------------------------------- + props.degree = 360*props.turns #If you want to make the slider for degree + steps = props.steps * props.turns #props.steps[per turn] -> steps[for the whole spiral] + props.z_scale = props.dif_z * props.turns + + max_phi = pi*props.degree/180 #max angle in radian + step_phi = max_phi/steps #angle in radians between two vertices + if props.spiral_direction == 1: + step_phi *= -1 #flip direction + max_phi *= -1 + step_z = props.z_scale/(steps-1) #z increase in one step + + verts = [] + verts.extend([props.radius,0,0,1]) + + cur_phi = 0 + cur_z = 0 + #------------------------------- + + #Archemedean: dif_radius, radius + cur_rad = props.radius + step_rad = props.dif_radius/(steps * 360/props.degree) #radius increase per angle for archemedean spiral| (steps * 360/props.degree)...Steps needed for 360 deg + #Logarithmic: radius, B_force, ang_div, dif_z + + #print("max_phi:",max_phi,"step_phi:",step_phi,"step_rad:",step_rad,"step_z:",step_z) + while abs(cur_phi) <= abs(max_phi): + cur_phi += step_phi + cur_z += step_z + + #------------------------------- + if props.spiral_type == 1: + cur_rad += step_rad + if props.spiral_type == 2: + #r = a*e^{|theta| * b} + cur_rad = props.radius * pow(props.B_force, abs(cur_phi)) + #------------------------------- + + px = cur_rad * cos(cur_phi) + py = cur_rad * sin(cur_phi) + verts.extend( [px,py,cur_z,1] ) + + return verts + + +#make Spheric spiral +#----------------------------------------------------------------------------- +def make_spiral_spheric(props, context): + #INPUT: turns, steps[per turn], radius + #use spherical Coordinates + step_phi = (2*pi) / props.steps #Step of angle in radians for one turn + steps = props.steps * props.turns #props.steps[per turn] -> steps[for the whole spiral] + + max_phi = 2*pi*props.turns #max angle in radian + step_phi = max_phi/steps #angle in radians between two vertices + if props.spiral_direction == 1: #flip direction + step_phi *= -1 + max_phi *= -1 + step_theta = pi / (steps-1) #theta increase in one step (pi == 180 deg) + + verts = [] + verts.extend([0,0,-props.radius,1]) #First vertex at south pole + + #cur_rad = props.radius = CONST + + cur_phi = 0 + cur_theta = -pi/2 #Beginning at south pole + + while abs(cur_phi) <= abs(max_phi): + #Coordinate Transformation sphere->rect + px = props.radius * cos(cur_theta) * cos(cur_phi) + py = props.radius * cos(cur_theta) * sin(cur_phi) + pz = props.radius * sin(cur_theta) + + verts.extend([px,py,pz,1]) + cur_theta += step_theta + cur_phi += step_phi + + return verts + +#make torus spiral +#----------------------------------------------------------------------------- + +def make_spiral_torus(props, context): + #INPUT: turns, steps, inner_radius, curves_number, mul_height, dif_inner_radius, cycles + max_phi = 2*pi*props.turns * props.cycles #max angle in radian + step_phi = 2*pi/props.steps #Step of angle in radians between two vertices + if props.spiral_direction == 1: #flip direction + step_phi *= -1 + max_phi *= -1 + step_theta = (2*pi / props.turns) / props.steps + step_rad = props.dif_radius / (props.steps * props.turns) + step_inner_rad = props.dif_inner_radius / props.steps + step_z = props.dif_z / (props.steps * props.turns) + + verts = [] + + cur_phi = 0 #Inner Ring Radius Angle + cur_theta = 0 #Ring Radius Angle + cur_rad = props.radius + cur_inner_rad = props.inner_radius + cur_z = 0 + n_cycle = 0 + + while abs(cur_phi) <= abs(max_phi): + #Torus Coordinates -> Rect + px = ( cur_rad + cur_inner_rad * cos(cur_phi) ) * cos(props.curves_number * cur_theta) + py = ( cur_rad + cur_inner_rad * cos(cur_phi) ) * sin(props.curves_number * cur_theta) + pz = cur_inner_rad * sin(cur_phi) + cur_z + + verts.extend([px,py,pz,1]) + + if props.touch == True and cur_phi >= n_cycle * 2*pi: + step_z = ( (n_cycle+1) * props.dif_inner_radius + props.inner_radius ) * 2 / (props.steps * props.turns) + n_cycle += 1 + + cur_theta += step_theta + cur_phi += step_phi + cur_rad += step_rad + cur_inner_rad += step_inner_rad + cur_z += step_z + + return verts +#----------------------------------------------------------------------------- + +def draw_curve(props, context): + if props.spiral_type == 1: + verts = make_spiral(props, context) + if props.spiral_type == 2: + verts = make_spiral(props, context) + if props.spiral_type == 3: + verts = make_spiral_spheric(props, context) + if props.spiral_type == 4: + verts = make_spiral_torus(props, context) + + curve_data = bpy.data.curves.new(name='Spiral', type='CURVE') + curve_data.dimensions = '3D' + + if props.curve_type == 0: + spline = curve_data.splines.new(type='POLY') + elif props.curve_type == 1: + spline = curve_data.splines.new(type='NURBS') + + spline.points.add( len(verts)*0.25-1 ) #Add only one quarter of points as elements in verts, because verts looks like: "x,y,z,?,x,y,z,?,x,..." + spline.points.foreach_set('co', verts) +# new_obj = object_data_add(bpy.context, curve_data) + new_obj = object_data_add(context, curve_data) + +class spirals(bpy.types.Operator): + bl_idname = "curve.spirals" + bl_label = "Spirals" + bl_options = {'REGISTER','UNDO', 'PRESET'} #UNDO needed for operator redo and therefore also to let the addobjecthelp appear!!! + bl_description = "adds different types of spirals" + + spiral_type = IntProperty(default=1, min=1, max=4, description="1:archemedian, 2:logarithmic, 3:spheric, 4:torus") + curve_type = IntProperty(default=0, min=0, max=1, description="0:Poly, 1:Nurb") + spiral_direction = IntProperty(default=0, min=0, max=1, description="0:counter-clockwise, 1:clockwise") + + turns = IntProperty(default=1, min=1, max=1000, description="Length of Spiral in 360 deg") + steps = IntProperty(default=24, min=2, max=1000, description="Number of Vertices per turn") + + + radius = FloatProperty(default=1.00, min=0.00, max=100.00, description="radius for first turn") + dif_z = FloatProperty(default=0, min=-10.00, max=100.00, description="increase in z axis per turn") #needed for 1 and 2 spiral_type + #ARCHMEDEAN variables + dif_radius = FloatProperty(default=0.00, min=-50.00, max=50.00, description="radius increment in each turn") #step between turns(one turn equals 360 deg) + #LOG variables + B_force = FloatProperty(default=1.00, min=0.00, max=30.00, description="factor of exponent") + #TORUS variables + inner_radius = FloatProperty(default=0.20, min=0.00, max=100, description="Inner Radius of Torus") + dif_inner_radius = FloatProperty(default=0, min=-10, max=100, description="Increase of inner Radius per Cycle") + dif_radius = FloatProperty(default=0, min=-10, max=100, description="Increase of Torus Radius per Cycle") + cycles = FloatProperty(default=1, min=0.00, max=1000, description="Number of Cycles") + curves_number = IntProperty(default=1, min=1, max=400, description="Number of curves of spiral") + touch = BoolProperty(default=False, description="No empty spaces between cycles") + + def draw(self, context): #Function used by Blender to draw the menu + layout = self.layout + layout.prop(self, 'spiral_type', text="Spiral Type") + layout.prop(self, 'curve_type', text="Curve Type") + layout.prop(self, 'spiral_direction', text="Spiral Direction") + + layout.label(text="Spiral Parameters:") + layout.prop(self, 'turns', text = "Turns") + layout.prop(self, 'steps', text = "Steps") + + box = layout.box() + if self.spiral_type == 1: + box.prop(self, 'dif_radius', text = "Radius Growth") + box.prop(self, 'radius', text = "Radius") + box.prop(self, 'dif_z', text = "Height") + if self.spiral_type == 2: + box.prop(self, 'radius', text = "Radius") + box.prop(self, 'B_force', text = "Expansion Force") + box.prop(self, 'dif_z', text = "Height") + if self.spiral_type == 3: + box.prop(self, 'radius', text = "Radius") + if self.spiral_type == 4: + box.prop(self, 'cycles', text = "Number of Cycles") + if self.dif_inner_radius == 0 and self.dif_z == 0: + self.cycles = 1 + box.prop(self, 'radius', text = "Radius") + if self.dif_z == 0: + box.prop(self, 'dif_z', text = "Height per Cycle") + else: + box2 = box.box() + box2.prop(self, 'dif_z', text = "Height per Cycle") + box2.prop(self, 'touch', text = "Make Snail") + box.prop(self, 'inner_radius', text = "Inner Radius") + box.prop(self, 'curves_number', text = "Curves Number") + box.prop(self, 'dif_radius', text = "Increase of Torus Radius") + box.prop(self, 'dif_inner_radius', text = "Increase of Inner Radius") + + @classmethod + def poll(cls, context): #method called by blender to check if the operator can be run + return context.scene != None + def execute(self, context): + time_start = time.time() + draw_curve(self, context) + print("Drawing Spiral Finished: %.4f sec", time.time() - time_start) + return {'FINISHED'} |