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Added rotation support for P aperture.

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Changed the aperture parsing to regular expresion.
This commit is contained in:
Gonzalo Lopez
2014-03-07 01:04:11 +01:00
parent 09cdf619f6
commit 110fa976f6
1 changed files with 39 additions and 37 deletions
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80
camlib.py
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@@ -471,7 +471,7 @@ class Gerber (Geometry):
print "ERROR: Failed to buffer path: ", path print "ERROR: Failed to buffer path: ", path
print "Apertures: ", self.apertures print "Apertures: ", self.apertures
def aperture_parse(self, gline): def aperture_parse(self, apertureId, apertureType, apParameters):
""" """
Parse gerber aperture definition into dictionary of apertures. Parse gerber aperture definition into dictionary of apertures.
The following kinds and their attributes are supported: The following kinds and their attributes are supported:
@@ -479,51 +479,47 @@ class Gerber (Geometry):
* *Circular (C)*: size (float) * *Circular (C)*: size (float)
* *Rectangle (R)*: width (float), height (float) * *Rectangle (R)*: width (float), height (float)
* *Obround (O)*: width (float), height (float). * *Obround (O)*: width (float), height (float).
* *Polygon (P)*: diameter(float), vertices(int), [rotation(float)]
:param gline: Line of Gerber code known to have an aperture definition. :param apertureId: Id of the aperture being defined.
:param apertureType: Type of the aperture.
:param apParameters: Parameters of the aperture.
:type gline: str :type gline: str
:return: Identifier of the aperture. :return: Identifier of the aperture.
:rtype: str :rtype: str
""" """
indexstar = gline.find("*") # Found some Gerber with a leading zero in the aperture id and the
indexc = gline.find("C,") # referenced it without the zero, so this is a hack to handle that.
if indexc != -1: # Circle, example: %ADD11C,0.1*% apid = str(int(apertureId))
# Found some Gerber with a leading zero in the aperture id and the paramList = apParameters.split('X')
# referenced it without the zero, so this is a hack to handle that.
apid = str(int(gline[4:indexc])) if apertureType == "C" : # Circle, example: %ADD11C,0.1*%
self.apertures[apid] = {"type": "C", self.apertures[apid] = {"type": "C",
"size": float(gline[indexc+2:indexstar])} "size": float(paramList[0])}
return apid
indexr = gline.find("R,")
if indexr != -1: # Rectangle, example: %ADD15R,0.05X0.12*%
# Hack explained above
apid = str(int(gline[4:indexr]))
indexx = gline.find("X")
self.apertures[apid] = {"type": "R",
"width": float(gline[indexr+2:indexx]),
"height": float(gline[indexx+1:indexstar])}
return apid
indexo = gline.find("O,")
if indexo != -1: # Obround
# Hack explained above
apid = str(int(gline[4:indexo]))
indexx = gline.find("X")
self.apertures[apid] = {"type": "O",
"width": float(gline[indexo+2:indexx]),
"height": float(gline[indexx+1:indexstar])}
return apid
indexp = gline.find("P,")
if (indexp != -1):
# Hack explained above
apid = str(int(gline[4:indexp]))
indexx = gline.find("X")
self.apertures[apid] = {"type": "P",
"diam": float(gline[indexp+2:indexx]),
"nVertices": int(gline[indexx+1:indexstar])}
return apid return apid
print "WARNING: Aperture not implemented:", gline if apertureType == "R" : # Rectangle, example: %ADD15R,0.05X0.12*%
self.apertures[apid] = {"type": "R",
"width": float(paramList[0]),
"height": float(paramList[1])}
return apid
if apertureType == "O" : # Obround
self.apertures[apid] = {"type": "O",
"width": float(paramList[0]),
"height": float(paramList[1])}
return apid
if apertureType == "P" :
self.apertures[apid] = {"type": "P",
"diam": float(paramList[0]),
"nVertices": int(paramList[1])}
if len(paramList) >= 3 :
self.apertures[apid]["rotation"] = float(paramList[2])
return apid
print "WARNING: Aperture not implemented:", apertureId
return None return None
def parse_file(self, filename): def parse_file(self, filename):
@@ -722,10 +718,13 @@ class Gerber (Geometry):
path = [[current_x, current_y]] # Start new path path = [[current_x, current_y]] # Start new path
continue continue
if gline.find("%ADD") != -1: # aperture definition #Parse an aperture.
self.aperture_parse(gline) # adds element to apertures match = self.ad_re.search(gline)
if match:
self.aperture_parse(match.group(1),match.group(2),match.group(3))
continue continue
## G01/2/3* - Interpolation mode change ## G01/2/3* - Interpolation mode change
# Can occur along with coordinates and operation code but # Can occur along with coordinates and operation code but
# sometimes by itself (handled here). # sometimes by itself (handled here).
@@ -813,6 +812,7 @@ class Gerber (Geometry):
obround = cascaded_union([c1, c2]).convex_hull obround = cascaded_union([c1, c2]).convex_hull
self.flash_geometry.append(obround) self.flash_geometry.append(obround)
continue continue
if aperture['type'] == 'P': #Regular polygon if aperture['type'] == 'P': #Regular polygon
loc = flash['loc'] loc = flash['loc']
diam = aperture['diam'] diam = aperture['diam']
@@ -823,6 +823,8 @@ class Gerber (Geometry):
y = loc[1] + diam * (sin(2 * pi * i / nVertices)) y = loc[1] + diam * (sin(2 * pi * i / nVertices))
points.append((x,y)) points.append((x,y))
ply = Polygon(points) ply = Polygon(points)
if 'rotation' in aperture:
ply = affinity.rotate(ply, aperture['rotation'])
self.flash_geometry.append(ply) self.flash_geometry.append(ply)
continue continue