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211 lines
6.6 KiB
Python
211 lines
6.6 KiB
Python
#!/usr/bin/env python
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"""This file handles the writing of the fabrication drawing Gerber file
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--------------------------------------------------------------------
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This program is licensed under the GNU General Public License (GPL)
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Version 3. See http://www.fsf.org for details of the license.
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Rugged Circuits LLC
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http://ruggedcircuits.com/gerbmerge
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"""
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import string
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import config
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import makestroke
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import util
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def writeDrillHits(fid, Place, Tools):
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toolNumber = -1
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for tool in Tools:
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toolNumber += 1
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try:
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size = config.GlobalToolMap[tool]
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except:
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raise RuntimeError, "INTERNAL ERROR: Tool code %s not found in global tool list" % tool
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#for row in Layout:
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# row.writeDrillHits(fid, size, toolNumber)
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for job in Place.jobs:
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job.writeDrillHits(fid, size, toolNumber)
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def writeBoundingBox(fid, OriginX, OriginY, MaxXExtent, MaxYExtent):
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x = util.in2gerb(OriginX)
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y = util.in2gerb(OriginY)
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X = util.in2gerb(MaxXExtent)
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Y = util.in2gerb(MaxYExtent)
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makestroke.drawPolyline(fid, [(x,y), (X,y), (X,Y), (x,Y), (x,y)], 0, 0)
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def writeDrillLegend(fid, Tools, OriginY, MaxXExtent):
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# This is the spacing from the right edge of the board to where the
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# drill legend is to be drawn, in inches. Remember we have to allow
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# for dimension arrows, too.
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dimspace = 0.5 # inches
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# This is the spacing from the drill hit glyph to the drill size
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# in inches.
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glyphspace = 0.1 # inches
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# Convert to Gerber 2.5 units
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dimspace = util.in2gerb(dimspace)
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glyphspace = util.in2gerb(glyphspace)
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# Construct a list of tuples (toolSize, toolNumber) where toolNumber
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# is the position of the tool in Tools and toolSize is in inches.
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L = []
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toolNumber = -1
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for tool in Tools:
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toolNumber += 1
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L.append((config.GlobalToolMap[tool], toolNumber))
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# Now sort the list from smallest to largest
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L.sort()
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# And reverse to go from largest to smallest, so we can write the legend
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# from the bottom up
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L.reverse()
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# For each tool, draw a drill hit marker then the size of the tool
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# in inches.
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posY = util.in2gerb(OriginY)
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posX = util.in2gerb(MaxXExtent) + dimspace
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maxX = 0
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for size,toolNum in L:
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# Determine string to write and midpoint of string
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s = '%.3f"' % size
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ll, ur = makestroke.boundingBox(s, posX+glyphspace, posY) # Returns lower-left point, upper-right point
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midpoint = (ur[1]+ll[1])/2
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# Keep track of maximum extent of legend
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maxX = max(maxX, ur[0])
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makestroke.drawDrillHit(fid, posX, midpoint, toolNum)
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makestroke.writeString(fid, s, posX+glyphspace, posY, 0)
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posY += int(round((ur[1]-ll[1])*1.5))
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# Return value is lower-left of user text area, without any padding.
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return maxX, util.in2gerb(OriginY)
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def writeDimensionArrow(fid, OriginX, OriginY, MaxXExtent, MaxYExtent):
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x = util.in2gerb(OriginX)
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y = util.in2gerb(OriginY)
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X = util.in2gerb(MaxXExtent)
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Y = util.in2gerb(MaxYExtent)
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# This constant is how far away from the board the centerline of the dimension
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# arrows should be, in inches.
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dimspace = 0.2
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# Convert it to Gerber (0.00001" or 2.5) units
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dimspace = util.in2gerb(dimspace)
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# Draw an arrow above the board, on the left side and right side
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makestroke.drawDimensionArrow(fid, x, Y+dimspace, makestroke.FacingLeft)
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makestroke.drawDimensionArrow(fid, X, Y+dimspace, makestroke.FacingRight)
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# Draw arrows to the right of the board, at top and bottom
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makestroke.drawDimensionArrow(fid, X+dimspace, Y, makestroke.FacingUp)
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makestroke.drawDimensionArrow(fid, X+dimspace, y, makestroke.FacingDown)
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# Now draw the text. First, horizontal text above the board.
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s = '%.3f"' % (MaxXExtent - OriginX)
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ll, ur = makestroke.boundingBox(s, 0, 0)
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s_width = ur[0]-ll[0] # Width in 2.5 units
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s_height = ur[1]-ll[1] # Height in 2.5 units
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# Compute the position in 2.5 units where we should draw this. It should be
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# centered horizontally and also vertically about the dimension arrow centerline.
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posX = x + (x+X)/2
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posX -= s_width/2
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posY = Y + dimspace - s_height/2
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makestroke.writeString(fid, s, posX, posY, 0)
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# Finally, draw the extending lines from the text to the arrows.
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posY = Y + dimspace
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posX1 = posX - util.in2gerb(0.1) # 1000
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posX2 = posX + s_width + util.in2gerb(0.1) # 1000
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makestroke.drawLine(fid, x, posY, posX1, posY)
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makestroke.drawLine(fid, posX2, posY, X, posY)
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# Now do the vertical text
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s = '%.3f"' % (MaxYExtent - OriginY)
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ll, ur = makestroke.boundingBox(s, 0, 0)
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s_width = ur[0]-ll[0]
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s_height = ur[1]-ll[1]
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# As above, figure out where to draw this. Rotation will be -90 degrees
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# so new origin will be top-left of bounding box after rotation.
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posX = X + dimspace - s_height/2
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posY = y + (y+Y)/2
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posY += s_width/2
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makestroke.writeString(fid, s, posX, posY, -90)
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# Draw extending lines
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posX = X + dimspace
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posY1 = posY + util.in2gerb(0.1) # 1000
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posY2 = posY - s_width - util.in2gerb(0.1) # 1000
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makestroke.drawLine(fid, posX, Y, posX, posY1)
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makestroke.drawLine(fid, posX, posY2, posX, y)
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def writeUserText(fid, X, Y):
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fname = config.Config['fabricationdrawingtext']
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if not fname: return
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try:
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tfile = file(fname, 'rt')
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except Exception, detail:
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raise RuntimeError, "Could not open fabrication drawing text file '%s':\n %s" % (fname,str(detail))
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lines = tfile.readlines()
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tfile.close()
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lines.reverse() # We're going to print from bottom up
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# Offset X position to give some clearance from drill legend
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X += util.in2gerb(0.2) # 2000
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for line in lines:
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# Get rid of CR
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line = string.replace(line, '\x0D', '')
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# Chop off \n
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#if line[-1] in string.whitespace:
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# line = line[:-1]
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# Strip off trailing whitespace
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line = string.rstrip(line)
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# Blank lines still need height, so must have at least one character
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if not line:
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line = ' '
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ll, ur = makestroke.boundingBox(line, X, Y)
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makestroke.writeString(fid, line, X, Y, 0)
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Y += int(round((ur[1]-ll[1])*1.5))
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# Main entry point. Gerber file has already been opened, header written
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# out, 1mil tool selected.
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def writeFabDrawing(fid, Place, Tools, OriginX, OriginY, MaxXExtent, MaxYExtent):
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# Write out all the drill hits
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writeDrillHits(fid, Place, Tools)
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# Draw a bounding box for the project
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writeBoundingBox(fid, OriginX, OriginY, MaxXExtent, MaxYExtent)
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# Write out the drill hit legend off to the side. This function returns
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# (X,Y) lower-left origin where user text is to begin, in Gerber units
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# and without any padding.
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X,Y = writeDrillLegend(fid, Tools, OriginY, MaxXExtent)
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# Write out the dimensioning arrows
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writeDimensionArrow(fid, OriginX, OriginY, MaxXExtent, MaxYExtent)
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# Finally, write out user text
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writeUserText(fid, X, Y)
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