diff options
Diffstat (limited to 'add_mesh_extra_objects/Blocks.py')
-rw-r--r-- | add_mesh_extra_objects/Blocks.py | 26 |
1 files changed, 13 insertions, 13 deletions
diff --git a/add_mesh_extra_objects/Blocks.py b/add_mesh_extra_objects/Blocks.py index bade30d0..31db7807 100644 --- a/add_mesh_extra_objects/Blocks.py +++ b/add_mesh_extra_objects/Blocks.py @@ -11,7 +11,7 @@ # note above. # if opening width == indent*2 the edge blocks fail (row of blocks cross opening). # if openings overlap fills inverse with blocks - see h/v slots. -# Negative grout width creates a pair of phantom blocks, seperated by grout +# Negative grout width creates a pair of phantom blocks, separated by grout # width, inside the edges. # if block width variance is 0, and edging is on, right edge blocks create a "vertical seam" @@ -401,7 +401,7 @@ def MakeAKeystone(xpos, width, zpos, ztop, zbtm, thick, bevel, vll=0, FaceExclud faces.append([5, 4, 0, 1]) faces.append([6, 5, 1, 2]) faces.append([7, 6, 2, 3]) - # Offset the vertex numbers by the number of verticies already in the list + # Offset the vertex numbers by the number of vertices already in the list for i in range(len(faces)): for j in range(len(faces[i])): faces[i][j] += vll @@ -415,7 +415,7 @@ def circ(offs=0., r=1.): __doc__ = """\ offs is the distance perpendicular to the line to the center of the circle r is the radius of the circle - circ returns the distance paralell to the line to the center of the circle at the intercept. + circ returns the distance parallel to the line to the center of the circle at the intercept. """ offs = abs(offs) if offs > r: @@ -769,7 +769,7 @@ class rowOb: self.h = float(rowheight) self.EdgeOffset = float(edgeoffset) - # THIS INITILIZATION IS IMPORTANT! OTHERWISE ALL OBJECTS WILL HAVE THE SAME LISTS! + # THIS INITIALIZATION IS IMPORTANT! OTHERWISE ALL OBJECTS WILL HAVE THE SAME LISTS! self.BlocksEdge = [] self.RowSegments = [] self.BlocksNorm = [] @@ -904,7 +904,7 @@ def sketch(): x['v'], x['t'], x['vl'], x['tl'], x['b'])) else: boundlist.append(opening(x['x'], x['z'], x['w'], x['h'], x['v'], x['t'], x['vl'], x['tl'], x['b'])) - # check for overlaping edges? + # check for overlapping edges? return boundlist @@ -946,7 +946,7 @@ def wedgeBlocks(row, opening, leftPos, rightPos, edgeBinary, r1): # Wedges are on btm = blank, off, blank, off ThisBlockOffsets = [[0, 0, LeftVertOffset]] * 2 + [[0] * 3] * 2 + [[0, 0, RightVertOffset]] * 2 - # Instert or append "blank" for top or bottom wedges. + # Insert or append "blank" for top or bottom wedges. if edgeBinary == 1: ThisBlockOffsets = ThisBlockOffsets + [[0] * 3] * 2 else: @@ -1086,7 +1086,7 @@ def rowProcessing(row, Thesketch, WallBoundaries): LDiff = LBtm - LTop RDiff = RTop - RBtm - # which is furthur out on each side, top or bottom? + # which is further out on each side, top or bottom? if LDiff > 0: LNerEdge = LBtm # the nearer edge left LEB = 1 # Left Edge Boolean, set to 1 if furthest edge is top, -1 if it is bottom @@ -1180,7 +1180,7 @@ def rowProcessing(row, Thesketch, WallBoundaries): # this row is just two blocks! Left block, then right block # div is the x position of the dividing point between the two bricks div = InnerMid + (rndd() * settings['wv']) / r1 - # set the grout distance, since we need grout seperation between the blocks + # set the grout distance, since we need grout separation between the blocks grt = (settings['g'] + rndc() * settings['gv']) / r1 # set the x position and width for the left block x = (div + LNerEdge) / 2 - grt / 4 @@ -1330,7 +1330,7 @@ def archGeneration(hole, vlist, flist, sideSign): example, Upper arch: archGeneration(hole, vlist, flist, 1) hole is the opening object that the arch is for - add the verticies to vlist + add the vertices to vlist add the faces to flist sideSign is + or - 1, for the top or bottom arch. Other values may cause errors. """ @@ -1410,7 +1410,7 @@ def archGeneration(hole, vlist, flist, sideSign): BtmHt = - (hole.btm() - MidZ) - Grout TopHt = nearCorner - # set the amout to bevel the keystone + # set the amount to bevel the keystone keystoneBevel = (bevHt - v) * sideSign if Wdth >= settings['hm']: avlist, aflist = MakeAKeystone(x, Wdth, MidZ, TopHt, BtmHt, Dpth, keystoneBevel, len(vlist)) @@ -1572,7 +1572,7 @@ def build(Aplan): else: r1 = 1 - Tollerance = settings['g'] / r1 + Tolerance = settings['g'] / r1 idxThis = len(rows[rowidx].BlocksNorm[:]) - 1 idxThat = len(rows[rowidx + 1].BlocksNorm[:]) - 1 @@ -1588,7 +1588,7 @@ def build(Aplan): cx, cz, cw, ch, cd = blockThis[:5] ox, oz, ow, oh, od = blockThat[:5] - if (abs(cw - ow) < Tollerance) and (abs(cx - ox) < Tollerance): + if (abs(cw - ow) < Tolerance) and (abs(cx - ox) < Tolerance): if cw > ow: BlockW = ow else: @@ -1781,7 +1781,7 @@ def build(Aplan): def createWall(radial, curve, openings, mergeBlox, shelf, shelfSide, steps, stepDir, stepBare, stepSide): __doc__ = """\ - Call all the funcitons you need to make a wall, return the verts and faces. + Call all the functions you need to make a wall, return the verts and faces. """ global radialized global slope |