Commit 5f8415c7 authored by Kliment Yanev's avatar Kliment Yanev

Merge branch 'experimental' of github.com:kliment/Printrun into experimental

parents 1ac50591 b5146672
...@@ -15,29 +15,49 @@ ...@@ -15,29 +15,49 @@
import xml.etree.ElementTree import xml.etree.ElementTree
import wx import wx
import time import svg.document as wxpsvgdocument
def parsesvg(name): def parsesvg(name):
et= xml.etree.ElementTree.ElementTree(file=name) et= xml.etree.ElementTree.ElementTree(file=name)
#xml.etree.ElementTree.dump(et)
slicer = 'Slic3r' if et.getroot().find('{http://www.w3.org/2000/svg}metadata') == None else 'Skeinforge'
zlast=0 zlast=0
zdiff=0 zdiff=0
ol=[] ol=[]
if (slicer == 'Slic3r'):
height = et.getroot().get('height')
width = et.getroot().get('width')
for i in et.findall("{http://www.w3.org/2000/svg}g"):
z=float(i.get('{http://slic3r.org/namespaces/slic3r}z'))
zdiff=z-zlast
zlast=z
svgSnippet = xml.etree.ElementTree.Element('{http://www.w3.org/2000/svg}svg')
svgSnippet.set('height', height+'mm')
svgSnippet.set('width', width+'mm')
svgSnippet.set('viewBox', '0 0 '+height+' '+width)
svgSnippet.append(i)
ol+=[svgSnippet]
else :
for i in et.findall("{http://www.w3.org/2000/svg}g")[0].findall("{http://www.w3.org/2000/svg}g"): for i in et.findall("{http://www.w3.org/2000/svg}g")[0].findall("{http://www.w3.org/2000/svg}g"):
z=float(i.get('id').split("z:")[-1]) z=float(i.get('id').split("z:")[-1])
zdiff=z-zlast zdiff=z-zlast
zlast=z zlast=z
path=i.find('{http://www.w3.org/2000/svg}path') path=i.find('{http://www.w3.org/2000/svg}path')
ol+=[(path.get("d").split("z"))[:-1]] ol+=[(path.get("d").split("z"))[:-1]]
return ol,zdiff return ol,zdiff,slicer
class dispframe(wx.Frame): class dispframe(wx.Frame):
def __init__(self, parent, title, res=(1600,1200),printer=None): def __init__(self, parent, title, res=(800,600),printer=None):
wx.Frame.__init__(self, parent=parent, title=title) wx.Frame.__init__(self, parent=parent, title=title)
self.p=printer self.p=printer
self.pic=wx.StaticBitmap(self) self.pic=wx.StaticBitmap(self)
self.bitmap=wx.EmptyBitmap(*res) self.bitmap=wx.EmptyBitmap(*res)
self.bbitmap=wx.EmptyBitmap(*res) self.bbitmap=wx.EmptyBitmap(*res)
self.slicer='Skeinforge'
dc=wx.MemoryDC() dc=wx.MemoryDC()
dc.SelectObject(self.bbitmap) dc.SelectObject(self.bbitmap)
dc.SetBackground(wx.Brush("black")) dc.SetBackground(wx.Brush("black"))
...@@ -50,6 +70,7 @@ class dispframe(wx.Frame): ...@@ -50,6 +70,7 @@ class dispframe(wx.Frame):
self.brush=wx.Brush("white") self.brush=wx.Brush("white")
self.SetDoubleBuffered(True) self.SetDoubleBuffered(True)
self.Show() self.Show()
def drawlayer(self,svg): def drawlayer(self,svg):
try: try:
dc=wx.MemoryDC() dc=wx.MemoryDC()
...@@ -58,18 +79,22 @@ class dispframe(wx.Frame): ...@@ -58,18 +79,22 @@ class dispframe(wx.Frame):
dc.Clear() dc.Clear()
dc.SetPen(self.pen) dc.SetPen(self.pen)
dc.SetBrush(self.brush) dc.SetBrush(self.brush)
if self.slicer == 'Skeinforge':
for i in svg: for i in svg:
#print i #print i
points=[wx.Point(*map(lambda x:int(round(float(x)*self.scale)),j.strip().split())) for j in i.strip().split("M")[1].split("L")] points=[wx.Point(*map(lambda x:int(round(float(x)*self.scale)),j.strip().split())) for j in i.strip().split("M")[1].split("L")]
dc.DrawPolygon(points,self.size[0]/2,self.size[1]/2) dc.DrawPolygon(points,self.size[0]/2,self.size[1]/2)
else:
gc = wx.GraphicsContext_Create(dc)
gc.Translate(*self.offset)
gc.Scale(self.scale, self.scale)
wxpsvgdocument.SVGDocument(svg).render(gc)
dc.SelectObject(wx.NullBitmap)
self.pic.SetBitmap(self.bitmap) self.pic.SetBitmap(self.bitmap)
self.pic.Show() self.pic.Show()
self.Refresh() self.Refresh()
#self.pic.SetBitmap(self.bitmap)
except: except:
raise raise
...@@ -79,19 +104,18 @@ class dispframe(wx.Frame): ...@@ -79,19 +104,18 @@ class dispframe(wx.Frame):
self.drawlayer(image) self.drawlayer(image)
self.pic.Show() self.pic.Show()
self.Refresh() self.Refresh()
# time.sleep(self.interval)
#self.pic.Hide()
self.Refresh() self.Refresh()
if self.p!=None and self.p.online: if self.p != None and self.p.online:
self.p.send_now("G91") self.p.send_now("G91")
self.p.send_now("G1 Z%f F300"%(self.thickness,)) self.p.send_now("G1 Z%f F300"%(self.thickness,))
self.p.send_now("G90") self.p.send_now("G90")
def nextimg(self,event): def nextimg(self,event):
#print "b"
if self.index<len(self.layers): if self.index<len(self.layers):
i=self.index i=self.index
#print self.layers[i]
print i print i
wx.CallAfter(self.showimgdelay,self.layers[i]) wx.CallAfter(self.showimgdelay,self.layers[i])
wx.FutureCall(1000*self.interval,self.pic.Hide) wx.FutureCall(1000*self.interval,self.pic.Hide)
...@@ -104,7 +128,7 @@ class dispframe(wx.Frame): ...@@ -104,7 +128,7 @@ class dispframe(wx.Frame):
wx.CallAfter(self.timer.Stop) wx.CallAfter(self.timer.Stop)
def present(self,layers,interval=0.5,pause=0.2,thickness=0.4,scale=20,size=(800,600)): def present(self,layers,interval=0.5,pause=0.2,thickness=0.4,scale=20,size=(800,600),offset=(0,0)):
wx.CallAfter(self.pic.Hide) wx.CallAfter(self.pic.Hide)
wx.CallAfter(self.Refresh) wx.CallAfter(self.Refresh)
self.layers=layers self.layers=layers
...@@ -113,12 +137,11 @@ class dispframe(wx.Frame): ...@@ -113,12 +137,11 @@ class dispframe(wx.Frame):
self.index=0 self.index=0
self.size=size self.size=size
self.interval=interval self.interval=interval
self.offset=offset
self.timer=wx.Timer(self,1) self.timer=wx.Timer(self,1)
self.timer.Bind(wx.EVT_TIMER,self.nextimg) self.timer.Bind(wx.EVT_TIMER,self.nextimg)
self.Bind(wx.EVT_TIMER,self.nextimg) self.Bind(wx.EVT_TIMER,self.nextimg)
self.timer.Start(1000*interval+1000*pause) self.timer.Start(1000*interval+1000*pause)
#print "x"
class setframe(wx.Frame): class setframe(wx.Frame):
...@@ -129,29 +152,43 @@ class setframe(wx.Frame): ...@@ -129,29 +152,43 @@ class setframe(wx.Frame):
self.panel.SetBackgroundColour("orange") self.panel.SetBackgroundColour("orange")
self.bload=wx.Button(self.panel,-1,"Load",pos=(0,0)) self.bload=wx.Button(self.panel,-1,"Load",pos=(0,0))
self.bload.Bind(wx.EVT_BUTTON,self.loadfile) self.bload.Bind(wx.EVT_BUTTON,self.loadfile)
wx.StaticText(self.panel,-1,"Layer:",pos=(0,30)) wx.StaticText(self.panel,-1,"Layer:",pos=(0,30))
wx.StaticText(self.panel,-1,"mm",pos=(130,30)) wx.StaticText(self.panel,-1,"mm",pos=(130,30))
self.thickness=wx.TextCtrl(self.panel,-1,"0.5",pos=(50,30)) self.thickness=wx.TextCtrl(self.panel,-1,"0.5",pos=(50,30))
wx.StaticText(self.panel,-1,"Exposure:",pos=(0,60)) wx.StaticText(self.panel,-1,"Exposure:",pos=(0,60))
wx.StaticText(self.panel,-1,"s",pos=(130,60)) wx.StaticText(self.panel,-1,"s",pos=(130,60))
self.interval=wx.TextCtrl(self.panel,-1,"0.5",pos=(50,60)) self.interval=wx.TextCtrl(self.panel,-1,"0.5",pos=(50,60))
wx.StaticText(self.panel,-1,"Blank:",pos=(0,90)) wx.StaticText(self.panel,-1,"Blank:",pos=(0,90))
wx.StaticText(self.panel,-1,"s",pos=(130,90)) wx.StaticText(self.panel,-1,"s",pos=(130,90))
self.delay=wx.TextCtrl(self.panel,-1,"0.5",pos=(50,90)) self.delay=wx.TextCtrl(self.panel,-1,"0.5",pos=(50,90))
wx.StaticText(self.panel,-1,"Scale:",pos=(0,120)) wx.StaticText(self.panel,-1,"Scale:",pos=(0,120))
wx.StaticText(self.panel,-1,"x",pos=(130,120)) wx.StaticText(self.panel,-1,"x",pos=(130,120))
self.scale=wx.TextCtrl(self.panel,-1,"5",pos=(50,120)) self.scale=wx.TextCtrl(self.panel,-1,"5",pos=(50,120))
wx.StaticText(self.panel,-1,"X:",pos=(160,30)) wx.StaticText(self.panel,-1,"X:",pos=(160,30))
self.X=wx.TextCtrl(self.panel,-1,"1024",pos=(180,30)) self.X=wx.TextCtrl(self.panel,-1,"1024",pos=(210,30))
wx.StaticText(self.panel,-1,"Y:",pos=(160,60)) wx.StaticText(self.panel,-1,"Y:",pos=(160,60))
self.Y=wx.TextCtrl(self.panel,-1,"768",pos=(180,60)) self.Y=wx.TextCtrl(self.panel,-1,"768",pos=(210,60))
wx.StaticText(self.panel,-1,"OffsetX:",pos=(160,90))
self.offsetX=wx.TextCtrl(self.panel,-1,"50",pos=(210,90))
wx.StaticText(self.panel,-1,"OffsetY:",pos=(160,120))
self.offsetY=wx.TextCtrl(self.panel,-1,"50",pos=(210,120))
self.bload=wx.Button(self.panel,-1,"Present",pos=(0,150)) self.bload=wx.Button(self.panel,-1,"Present",pos=(0,150))
self.bload.Bind(wx.EVT_BUTTON,self.startdisplay) self.bload.Bind(wx.EVT_BUTTON,self.startdisplay)
self.Show() self.Show()
def loadfile(self,event): def loadfile(self,event):
dlg=wx.FileDialog(self,("Open file to print"),style=wx.FD_OPEN|wx.FD_FILE_MUST_EXIST) dlg=wx.FileDialog(self,("Open file to print"),style=wx.FD_OPEN|wx.FD_FILE_MUST_EXIST)
dlg.SetWildcard(("Skeinforge svg files (;*.svg;*.SVG;)")) dlg.SetWildcard(("Slic3r or Skeinforge svg files (;*.svg;*.SVG;)"))
if(dlg.ShowModal() == wx.ID_OK): if(dlg.ShowModal() == wx.ID_OK):
name=dlg.GetPath() name=dlg.GetPath()
import os import os
...@@ -162,6 +199,7 @@ class setframe(wx.Frame): ...@@ -162,6 +199,7 @@ class setframe(wx.Frame):
print "Layer thickness detected:",layers[1], "mm" print "Layer thickness detected:",layers[1], "mm"
print len(layers[0]), "layers found, total height", layers[1]*len(layers[0]), "mm" print len(layers[0]), "layers found, total height", layers[1]*len(layers[0]), "mm"
self.thickness.SetValue(str(layers[1])) self.thickness.SetValue(str(layers[1]))
self.f.slicer = layers[2]
self.layers=layers self.layers=layers
dlg.Destroy() dlg.Destroy()
...@@ -169,11 +207,15 @@ class setframe(wx.Frame): ...@@ -169,11 +207,15 @@ class setframe(wx.Frame):
self.f.Raise() self.f.Raise()
self.f.ShowFullScreen(1) self.f.ShowFullScreen(1)
l=self.layers[0][:] l=self.layers[0][:]
#l=list(reversed(l)) self.f.present(l,
self.f.present(l,thickness=float(self.thickness.GetValue()),interval=float(self.interval.GetValue()),scale=float(self.scale.GetValue()),pause=float(self.delay.GetValue()), size=(float(self.X.GetValue()),float(self.Y.GetValue()))) thickness=float(self.thickness.GetValue()),
interval=float(self.interval.GetValue()),
scale=float(self.scale.GetValue()),
pause=float(self.delay.GetValue()),
size=(float(self.X.GetValue()),float(self.Y.GetValue())),
offset=(float(self.offsetX.GetValue()),float(self.offsetY.GetValue())))
if __name__=="__main__": if __name__=="__main__":
a=wx.App() a=wx.App()
setframe(None).Show() setframe(None).Show()
a.MainLoop() a.MainLoop()
"""
"""
import wx
def AddEllipticalArc(self, x, y, w, h, startAngle, endAngle, clockwise=False):
""" Draws an arc of an ellipse within bounding rect (x,y,w,h)
from startArc to endArc (in radians, relative to the horizontal line of the eclipse)"""
if True:
import warnings
warnings.warn("elliptical arcs are not supported")
w = w/2.0
h = h/2.0
self.AddArc(x+w, y+h, ((w+h)/2), startAngle, endAngle, clockwise)
return
else:
#implement in terms of AddArc by applying a transformation matrix
#Sigh this can't work, still need to patch wx to allow
#either a) AddPath that's not a closed path or
#b) allow pushing and popping of states on a path, not just on a context
#a) is possible in GDI+, need to investigate other renderers.
#b) is possible in Quartz and Cairo, but not in GDI+. It could
#possibly be simulated by combining the current transform with option a.
mtx = wx.GraphicsRenderer_GetDefaultRenderer().CreateMatrix()
path = wx.GraphicsRenderer_GetDefaultRenderer().CreatePath()
mtx.Translate(x+(w/2.0), y+(h/2.0))
mtx.Scale(w/2.0, y/2.0)
path.AddArc(0, 0, 1, startAngle, endAngle, clockwise)
path.Transform(mtx)
self.AddPath(path)
self.MoveToPoint(path.GetCurrentPoint())
self.CloseSubpath()
if not hasattr(wx.GraphicsPath, "AddEllipticalArc"):
wx.GraphicsPath.AddEllipticalArc = AddEllipticalArc
del AddEllipticalArc
\ No newline at end of file
"""
Parsers for specific attributes
"""
import urlparse
from pyparsing import (Literal,
Optional, oneOf, Group, StringEnd, Combine, Word, alphas, hexnums,
CaselessLiteral, SkipTo
)
from css.colour import colourValue
import string
##Paint values
none = CaselessLiteral("none").setParseAction(lambda t: ["NONE", ()])
currentColor = CaselessLiteral("currentColor").setParseAction(lambda t: ["CURRENTCOLOR", ()])
def parsePossibleURL(t):
possibleURL, fallback = t[0]
return [urlparse.urlsplit(possibleURL), fallback]
#Normal color declaration
colorDeclaration = none | currentColor | colourValue
urlEnd = (
Literal(")").suppress() +
Optional(Group(colorDeclaration), default=()) +
StringEnd()
)
url = (
CaselessLiteral("URL")
+
Literal("(").suppress()+
Group(SkipTo(urlEnd, include=True).setParseAction(parsePossibleURL))
)
#paint value will parse into a (type, details) tuple.
#For none and currentColor, the details tuple will be the empty tuple
#for CSS color declarations, it will be (type, (R,G,B))
#for URLs, it will be ("URL", ((url tuple), fallback))
#The url tuple will be as returned by urlparse.urlsplit, and can be
#an empty tuple if the parser has an error
#The fallback will be another (type, details) tuple as a parsed
#colorDeclaration, but may be the empty tuple if it is not present
paintValue = url | colorDeclaration
from __future__ import absolute_import
from .transform import transformList
from .inline import inlineStyle
""" CSS at-rules"""
from pyparsing import Literal, Combine
from .identifier import identifier
atkeyword = Combine(Literal("@") + identifier)
\ No newline at end of file
"""
CSS blocks
"""
from pyparsing import nestedExpr
block = nestedExpr(opener="{", closer="}")
"""
Parsing for CSS colour values.
Supported formats:
hex literal short: #fff
hex literal long: #fafafa
rgb bytes: rgb(255,100,0)
rgb percent: rgb(100%,100%,0%)
named color: black
"""
import wx
import string
import urlparse
from pyparsing import nums, Literal, Optional, oneOf, Group, StringEnd, Combine, Word, alphas, hexnums
from ..pathdata import number, sign
number = number.copy()
integerConstant = Word(nums+"+-").setParseAction(lambda t:int(t[0]))
#rgb format parser
comma = Literal(",").suppress()
def clampColourByte(val):
val = int(val)
return min(max(0,val), 255)
def clampColourPerc(val):
val = float(val)
return min(max(0,val), 100)
def parseColorPerc(token):
val = token[0]
val = clampColourPerc(val)
#normalize to bytes
return int(255 * (val / 100.0))
colorByte = Optional(sign) + integerConstant.setParseAction(lambda t: clampColourByte(t[0]))
colorPerc = number.setParseAction(parseColorPerc) + Literal("%").suppress()
rgb = (
Literal("rgb(").setParseAction(lambda t: "RGB") +
(
#integer constants, ie 255,255,255
Group(colorByte + comma + colorByte + comma + colorByte) ^
#percentage values, ie 100%, 50%
Group(colorPerc + comma + colorPerc + comma + colorPerc)
)
+
Literal(")").suppress() + StringEnd()
)
def parseShortHex(t):
return tuple(int(x*2, 16) for x in t[0])
doubleHex = Word(hexnums, exact=2).setParseAction(lambda t: int(t[0], 16))
hexLiteral = (Literal("#").setParseAction(lambda t: "RGB") +
(
Group(doubleHex + doubleHex + doubleHex) |
Word(hexnums, exact=3).setParseAction(parseShortHex)
) + StringEnd()
)
def parseNamedColour(t):
try:
return ["RGB", NamedColours[t[0].lower()]]
except KeyError:
return ["RGB", (0,0,0)]
namedColour = Word(alphas).setParseAction(parseNamedColour)
colourValue = rgb | hexLiteral | namedColour
##constants
NamedColours = {
#~ #html named colours
#~ "black":(0,0,0),
#~ "silver": (0xc0, 0xc0, 0xc0, 255),
#~ "gray": (0x80, 0x80, 0x80),
#~ "white":(255,255,255),
#~ "maroon":(0x80, 0, 0),
#~ "red":(0xff, 0, 0),
#~ "purple":(0x80, 0, 0x80),
#~ "fuchsia":(0xff, 0, 0xff),
#~ "green": (0, 0x80, 0),
#~ "lime": (0, 0xff, 0),
#~ "olive": (0x80, 0x80, 00),
#~ "yellow":(0xff, 0xff, 00),
#~ "navy": (0, 0, 0x80),
#~ "blue": (0, 0, 0xff),
#~ "teal": (0, 0x80, 0x80),
#~ "aqua": (0, 0xff, 0xff),
#expanded named colors from SVG spc
'aliceblue' : (240, 248, 255) ,
'antiquewhite' : (250, 235, 215) ,
'aqua' : ( 0, 255, 255) ,
'aquamarine' : (127, 255, 212) ,
'azure' : (240, 255, 255) ,
'beige' : (245, 245, 220) ,
'bisque' : (255, 228, 196) ,
'black' : ( 0, 0, 0) ,
'blanchedalmond' : (255, 235, 205) ,
'blue' : ( 0, 0, 255) ,
'blueviolet' : (138, 43, 226) ,
'brown' : (165, 42, 42) ,
'burlywood' : (222, 184, 135) ,
'cadetblue' : ( 95, 158, 160) ,
'chartreuse' : (127, 255, 0) ,
'chocolate' : (210, 105, 30) ,
'coral' : (255, 127, 80) ,
'cornflowerblue' : (100, 149, 237) ,
'cornsilk' : (255, 248, 220) ,
'crimson' : (220, 20, 60) ,
'cyan' : ( 0, 255, 255) ,
'darkblue' : ( 0, 0, 139) ,
'darkcyan' : ( 0, 139, 139) ,
'darkgoldenrod' : (184, 134, 11) ,
'darkgray' : (169, 169, 169) ,
'darkgreen' : ( 0, 100, 0) ,
'darkgrey' : (169, 169, 169) ,
'darkkhaki' : (189, 183, 107) ,
'darkmagenta' : (139, 0, 139) ,
'darkolivegreen' : ( 85, 107, 47) ,
'darkorange' : (255, 140, 0) ,
'darkorchid' : (153, 50, 204) ,
'darkred' : (139, 0, 0) ,
'darksalmon' : (233, 150, 122) ,
'darkseagreen' : (143, 188, 143) ,
'darkslateblue' : ( 72, 61, 139) ,
'darkslategray' : ( 47, 79, 79) ,
'darkslategrey' : ( 47, 79, 79) ,
'darkturquoise' : ( 0, 206, 209) ,
'darkviolet' : (148, 0, 211) ,
'deeppink' : (255, 20, 147) ,
'deepskyblue' : ( 0, 191, 255) ,
'dimgray' : (105, 105, 105) ,
'dimgrey' : (105, 105, 105) ,
'dodgerblue' : ( 30, 144, 255) ,
'firebrick' : (178, 34, 34) ,
'floralwhite' : (255, 250, 240) ,
'forestgreen' : ( 34, 139, 34) ,
'fuchsia' : (255, 0, 255) ,
'gainsboro' : (220, 220, 220) ,
'ghostwhite' : (248, 248, 255) ,
'gold' : (255, 215, 0) ,
'goldenrod' : (218, 165, 32) ,
'gray' : (128, 128, 128) ,
'grey' : (128, 128, 128) ,
'green' : ( 0, 128, 0) ,
'greenyellow' : (173, 255, 47) ,
'honeydew' : (240, 255, 240) ,
'hotpink' : (255, 105, 180) ,
'indianred' : (205, 92, 92) ,
'indigo' : ( 75, 0, 130) ,
'ivory' : (255, 255, 240) ,
'khaki' : (240, 230, 140) ,
'lavender' : (230, 230, 250) ,
'lavenderblush' : (255, 240, 245) ,
'lawngreen' : (124, 252, 0) ,
'lemonchiffon' : (255, 250, 205) ,
'lightblue' : (173, 216, 230) ,
'lightcoral' : (240, 128, 128) ,
'lightcyan' : (224, 255, 255) ,
'lightgoldenrodyellow' : (250, 250, 210) ,
'lightgray' : (211, 211, 211) ,
'lightgreen' : (144, 238, 144) ,
'lightgrey' : (211, 211, 211) ,
'lightpink' : (255, 182, 193) ,
'lightsalmon' : (255, 160, 122) ,
'lightseagreen' : ( 32, 178, 170) ,
'lightskyblue' : (135, 206, 250) ,
'lightslategray' : (119, 136, 153) ,
'lightslategrey' : (119, 136, 153) ,
'lightsteelblue' : (176, 196, 222) ,
'lightyellow' : (255, 255, 224) ,
'lime' : ( 0, 255, 0) ,
'limegreen' : ( 50, 205, 50) ,
'linen' : (250, 240, 230) ,
'magenta' : (255, 0, 255) ,
'maroon' : (128, 0, 0) ,
'mediumaquamarine' : (102, 205, 170) ,
'mediumblue' : ( 0, 0, 205) ,
'mediumorchid' : (186, 85, 211) ,
'mediumpurple' : (147, 112, 219) ,
'mediumseagreen' : ( 60, 179, 113) ,
'mediumslateblue' : (123, 104, 238) ,
'mediumspringgreen' : ( 0, 250, 154) ,
'mediumturquoise' : ( 72, 209, 204) ,
'mediumvioletred' : (199, 21, 133) ,
'midnightblue' : ( 25, 25, 112) ,
'mintcream' : (245, 255, 250) ,
'mistyrose' : (255, 228, 225) ,
'moccasin' : (255, 228, 181) ,
'navajowhite' : (255, 222, 173) ,
'navy' : ( 0, 0, 128) ,
'oldlace' : (253, 245, 230) ,
'olive' : (128, 128, 0) ,
'olivedrab' : (107, 142, 35) ,
'orange' : (255, 165, 0) ,
'orangered' : (255, 69, 0) ,
'orchid' : (218, 112, 214) ,
'palegoldenrod' : (238, 232, 170) ,
'palegreen' : (152, 251, 152) ,
'paleturquoise' : (175, 238, 238) ,
'palevioletred' : (219, 112, 147) ,
'papayawhip' : (255, 239, 213) ,
'peachpuff' : (255, 218, 185) ,
'peru' : (205, 133, 63) ,
'pink' : (255, 192, 203) ,
'plum' : (221, 160, 221) ,
'powderblue' : (176, 224, 230) ,
'purple' : (128, 0, 128) ,
'red' : (255, 0, 0) ,
'rosybrown' : (188, 143, 143) ,
'royalblue' : ( 65, 105, 225) ,
'saddlebrown' : (139, 69, 19) ,
'salmon' : (250, 128, 114) ,
'sandybrown' : (244, 164, 96) ,
'seagreen' : ( 46, 139, 87) ,
'seashell' : (255, 245, 238) ,
'sienna' : (160, 82, 45) ,
'silver' : (192, 192, 192) ,
'skyblue' : (135, 206, 235) ,
'slateblue' : (106, 90, 205) ,
'slategray' : (112, 128, 144) ,
'slategrey' : (112, 128, 144) ,
'snow' : (255, 250, 250) ,
'springgreen' : ( 0, 255, 127) ,
'steelblue' : ( 70, 130, 180) ,
'tan' : (210, 180, 140) ,
'teal' : ( 0, 128, 128) ,
'thistle' : (216, 191, 216) ,
'tomato' : (255, 99, 71) ,
'turquoise' : ( 64, 224, 208) ,
'violet' : (238, 130, 238) ,
'wheat' : (245, 222, 179) ,
'white' : (255, 255, 255) ,
'whitesmoke' : (245, 245, 245) ,
'yellow' : (255, 255, 0) ,
'yellowgreen' : (154, 205, 50) ,
}
def fillCSS2SystemColours():
#The system colours require a wxApp to be present to retrieve,
#so if you wnat support for them you'll need
#to call this function after your wxApp instance starts
systemColors = {
"ActiveBorder": wx.SYS_COLOUR_ACTIVEBORDER,
"ActiveCaption": wx.SYS_COLOUR_ACTIVECAPTION,
"AppWorkspace": wx.SYS_COLOUR_APPWORKSPACE,
"Background": wx.SYS_COLOUR_BACKGROUND,
"ButtonFace": wx.SYS_COLOUR_BTNFACE,
"ButtonHighlight": wx.SYS_COLOUR_BTNHIGHLIGHT,
"ButtonShadow": wx.SYS_COLOUR_BTNSHADOW,
"ButtonText": wx.SYS_COLOUR_BTNTEXT,
"CaptionText": wx.SYS_COLOUR_CAPTIONTEXT,
"GrayText": wx.SYS_COLOUR_GRAYTEXT,
"Highlight": wx.SYS_COLOUR_HIGHLIGHT,
"HighlightText": wx.SYS_COLOUR_HIGHLIGHTTEXT,
"InactiveBorder": wx.SYS_COLOUR_INACTIVEBORDER,
"InactiveCaption": wx.SYS_COLOUR_INACTIVECAPTION,
"InfoBackground": wx.SYS_COLOUR_INFOBK,
"InfoText": wx.SYS_COLOUR_INFOTEXT,
"Menu": wx.SYS_COLOUR_MENU,
"MenuText": wx.SYS_COLOUR_MENUTEXT,
"Scrollbar": wx.SYS_COLOUR_SCROLLBAR,
"ThreeDDarkShadow": wx.SYS_COLOUR_3DDKSHADOW,
"ThreeDFace": wx.SYS_COLOUR_3DFACE,
"ThreeDHighlight": wx.SYS_COLOUR_3DHIGHLIGHT,
"ThreeDLightShadow": wx.SYS_COLOUR_3DLIGHT,
"ThreeDShadow": wx.SYS_COLOUR_3DSHADOW,
"Window": wx.SYS_COLOUR_WINDOW,
"WindowFrame": wx.SYS_COLOUR_WINDOWFRAME,
"WindowText": wx.SYS_COLOUR_WINDOWTEXT
}
NamedColours.update(
#strip the alpha from the system colors. Is this really what we want to do?
(k.lower(), wx.SystemSettings.GetColour(v)[:3]) for (k,v) in systemColors.iteritems()
)
\ No newline at end of file
""" Parse CSS identifiers. More complicated than it sounds"""
from pyparsing import Word, Literal, Regex, Combine, Optional, White, oneOf, ZeroOrMore
import string
import re
class White(White):
""" Customize whitespace to match the CSS spec values"""
def __init__(self, ws=" \t\r\n\f", min=1, max=0, exact=0):
super(White, self).__init__(ws, min, max, exact)
escaped = (
Literal("\\").suppress() +
#chr(20)-chr(126) + chr(128)-unichr(sys.maxunicode)
Regex(u"[\u0020-\u007e\u0080-\uffff]", re.IGNORECASE)
)
def convertToUnicode(t):
return unichr(int(t[0], 16))
hex_unicode = (
Literal("\\").suppress() +
Regex("[0-9a-f]{1,6}", re.IGNORECASE) +
Optional(White(exact=1)).suppress()
).setParseAction(convertToUnicode)
escape = hex_unicode | escaped
#any unicode literal outside the 0-127 ascii range
nonascii = Regex(u"[^\u0000-\u007f]")
#single character for starting an identifier.
nmstart = Regex(u"[A-Z]", re.IGNORECASE) | nonascii | escape
nmchar = Regex(u"[0-9A-Z-]", re.IGNORECASE) | nonascii | escape
identifier = Combine(nmstart + ZeroOrMore(nmchar))
\ No newline at end of file
""" Parser for inline CSS in style attributes """
def inlineStyle(styleString):
if not styleString:
return {}
styles = styleString.split(";")
rv = dict(style.split(":") for style in styles if len(style) != 0)
return rv
\ No newline at end of file
"""
Parsing for CSS and CSS-style values, such as transform and filter attributes.
"""
from pyparsing import (Literal, Word, CaselessLiteral,
Optional, Combine, Forward, ZeroOrMore, nums, oneOf, Group, delimitedList)
#some shared definitions from pathdata
from ..pathdata import number, maybeComma
paren = Literal("(").suppress()
cparen = Literal(")").suppress()
def Parenthised(exp):
return Group(paren + exp + cparen)
skewY = Literal("skewY") + Parenthised(number)
skewX = Literal("skewX") + Parenthised(number)
rotate = Literal("rotate") + Parenthised(
number + Optional(maybeComma + number + maybeComma + number)
)
scale = Literal("scale") + Parenthised(
number + Optional(maybeComma + number)
)
translate = Literal("translate") + Parenthised(
number + Optional(maybeComma + number)
)
matrix = Literal("matrix") + Parenthised(
#there's got to be a better way to write this
number + maybeComma +
number + maybeComma +
number + maybeComma +
number + maybeComma +
number + maybeComma +
number
)
transform = (skewY | skewX | rotate | scale | translate | matrix)
transformList = delimitedList(Group(transform), delim=maybeComma)
if __name__ == '__main__':
from tests.test_css import *
unittest.main()
\ No newline at end of file
"""
Parser for various kinds of CSS values as per CSS2 spec section 4.3
"""
from pyparsing import Word, Combine, Optional, Literal, oneOf, CaselessLiteral, StringEnd
def asInt(s,l,t):
return int(t[0])
def asFloat(s,l,t):
return float(t[0])
def asFloatOrInt(s,l,t):
""" Return an int if possible, otherwise a float"""
v = t[0]
try:
return int(v)
except ValueError:
return float(v)
integer = Word("0123456789").setParseAction(asInt)
number = Combine(
Optional(Word("0123456789")) + Literal(".") + Word("01234567890")
| integer
)
number.setName('number')
sign = oneOf("+ -")
signedNumber = Combine(Optional(sign) + number).setParseAction(asFloat)
lengthValue = Combine(Optional(sign) + number).setParseAction(asFloatOrInt)
lengthValue.setName('lengthValue')
#TODO: The physical units like in, mm
lengthUnit = oneOf(['em', 'ex', 'px', 'pt', '%'], caseless=True)
#the spec says that the unit is only optional for a 0 length, but
#there are just too many places where a default is permitted.
#TODO: Maybe should use a ctor like optional to let clients declare it?
length = lengthValue + Optional(lengthUnit, default=None) + StringEnd()
length.leaveWhitespace()
#set the parse action aftward so it doesn't "infect" the parsers that build on it
number.setParseAction(asFloat)
\ No newline at end of file
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"""
SVG path data parser
Usage:
steps = svg.parseString(pathdata)
for command, arguments in steps:
pass
"""
from pyparsing import (ParserElement, Literal, Word, CaselessLiteral,
Optional, Combine, Forward, ZeroOrMore, nums, oneOf, Group, ParseException, OneOrMore)
#ParserElement.enablePackrat()
def Command(char):
""" Case insensitive but case preserving"""
return CaselessPreservingLiteral(char)
def Arguments(token):
return Group(token)
class CaselessPreservingLiteral(CaselessLiteral):
""" Like CaselessLiteral, but returns the match as found
instead of as defined.
"""
def __init__( self, matchString ):
super(CaselessPreservingLiteral,self).__init__( matchString.upper() )
self.name = "'%s'" % matchString
self.errmsg = "Expected " + self.name
self.myException.msg = self.errmsg
def parseImpl( self, instring, loc, doActions=True ):
test = instring[ loc:loc+self.matchLen ]
if test.upper() == self.match:
return loc+self.matchLen, test
#~ raise ParseException( instring, loc, self.errmsg )
exc = self.myException
exc.loc = loc
exc.pstr = instring
raise exc
def Sequence(token):
""" A sequence of the token"""
return OneOrMore(token+maybeComma)
digit_sequence = Word(nums)
sign = oneOf("+ -")
def convertToFloat(s, loc, toks):
try:
return float(toks[0])
except:
raise ParseException(loc, "invalid float format %s"%toks[0])
exponent = CaselessLiteral("e")+Optional(sign)+Word(nums)
#note that almost all these fields are optional,
#and this can match almost anything. We rely on Pythons built-in
#float() function to clear out invalid values - loosely matching like this
#speeds up parsing quite a lot
floatingPointConstant = Combine(
Optional(sign) +
Optional(Word(nums)) +
Optional(Literal(".") + Optional(Word(nums)))+
Optional(exponent)
)
floatingPointConstant.setParseAction(convertToFloat)
number = floatingPointConstant
#same as FP constant but don't allow a - sign
nonnegativeNumber = Combine(
Optional(Word(nums)) +
Optional(Literal(".") + Optional(Word(nums)))+
Optional(exponent)
)
nonnegativeNumber.setParseAction(convertToFloat)
coordinate = number
#comma or whitespace can seperate values all over the place in SVG
maybeComma = Optional(Literal(',')).suppress()
coordinateSequence = Sequence(coordinate)
coordinatePair = (coordinate + maybeComma + coordinate).setParseAction(lambda t: tuple(t))
coordinatePairSequence = Sequence(coordinatePair)
coordinatePairPair = coordinatePair + maybeComma + coordinatePair
coordinatePairPairSequence = Sequence(Group(coordinatePairPair))
coordinatePairTriple = coordinatePair + maybeComma + coordinatePair + maybeComma + coordinatePair
coordinatePairTripleSequence = Sequence(Group(coordinatePairTriple))
#commands
lineTo = Group(Command("L") + Arguments(coordinatePairSequence))
moveTo = Group(Command("M") + Arguments(coordinatePairSequence))
closePath = Group(Command("Z")).setParseAction(lambda t: ('Z', (None,)))
flag = oneOf("1 0").setParseAction(lambda t: bool(int((t[0]))))
arcRadius = (
nonnegativeNumber + maybeComma + #rx
nonnegativeNumber #ry
).setParseAction(lambda t: tuple(t))
arcFlags = (flag + maybeComma + flag).setParseAction(lambda t: tuple(t))
ellipticalArcArgument = Group(
arcRadius + maybeComma + #rx, ry
number + maybeComma +#rotation
arcFlags + #large-arc-flag, sweep-flag
coordinatePair #(x,y)
)
ellipticalArc = Group(Command("A") + Arguments(Sequence(ellipticalArcArgument)))
smoothQuadraticBezierCurveto = Group(Command("T") + Arguments(coordinatePairSequence))
quadraticBezierCurveto = Group(Command("Q") + Arguments(coordinatePairPairSequence))
smoothCurve = Group(Command("S") + Arguments(coordinatePairPairSequence))
curve = Group(Command("C") + Arguments(coordinatePairTripleSequence))
horizontalLine = Group(Command("H") + Arguments(coordinateSequence))
verticalLine = Group(Command("V") + Arguments(coordinateSequence))
drawToCommand = (
lineTo | moveTo | closePath | ellipticalArc | smoothQuadraticBezierCurveto |
quadraticBezierCurveto | smoothCurve | curve | horizontalLine | verticalLine
)
#~ number.debug = True
moveToDrawToCommands = moveTo + ZeroOrMore(drawToCommand)
svg = ZeroOrMore(moveToDrawToCommands)
svg.keepTabs = True
def profile():
import cProfile
p = cProfile.Profile()
p.enable()
ptest()
ptest()
ptest()
p.disable()
p.print_stats()
bpath = """M204.33 139.83 C196.33 133.33 206.68 132.82 206.58 132.58 C192.33 97.08 169.35
81.41 167.58 80.58 C162.12 78.02 159.48 78.26 160.45 76.97 C161.41 75.68 167.72 79.72 168.58
80.33 C193.83 98.33 207.58 132.33 207.58 132.33 C207.58 132.33 209.33 133.33 209.58 132.58
C219.58 103.08 239.58 87.58 246.33 81.33 C253.08 75.08 256.63 74.47 247.33 81.58 C218.58 103.58
210.34 132.23 210.83 132.33 C222.33 134.83 211.33 140.33 211.83 139.83 C214.85 136.81 214.83 145.83 214.83
145.83 C214.83 145.83 231.83 110.83 298.33 66.33 C302.43 63.59 445.83 -14.67 395.83 80.83 C393.24 85.79 375.83
105.83 375.83 105.83 C375.83 105.83 377.33 114.33 371.33 121.33 C370.3 122.53 367.83 134.33 361.83 140.83 C360.14 142.67
361.81 139.25 361.83 140.83 C362.33 170.83 337.76 170.17 339.33 170.33 C348.83 171.33 350.19 183.66 350.33 183.83 C355.83
190.33 353.83 191.83 355.83 194.83 C366.63 211.02 355.24 210.05 356.83 212.83 C360.83 219.83 355.99 222.72 357.33 224.83
C360.83 230.33 354.75 233.84 354.83 235.33 C355.33 243.83 349.67 240.73 349.83 244.33 C350.33 255.33 346.33 250.83 343.83 254.83
C336.33 266.83 333.46 262.38 332.83 263.83 C329.83 270.83 325.81 269.15 324.33 270.83 C320.83 274.83 317.33 274.83 315.83 276.33
C308.83 283.33 304.86 278.39 303.83 278.83 C287.83 285.83 280.33 280.17 277.83 280.33 C270.33 280.83 271.48 279.67 269.33 277.83
C237.83 250.83 219.33 211.83 215.83 206.83 C214.4 204.79 211.35 193.12 212.33 195.83 C214.33 201.33 213.33 250.33 207.83 250.33
C202.33 250.33 201.83 204.33 205.33 195.83 C206.43 193.16 204.4 203.72 201.79 206.83 C196.33 213.33 179.5 250.83 147.59 277.83
C145.42 279.67 146.58 280.83 138.98 280.33 C136.46 280.17 128.85 285.83 112.65 278.83 C111.61 278.39 107.58 283.33 100.49 276.33
C98.97 274.83 95.43 274.83 91.88 270.83 C90.39 269.15 86.31 270.83 83.27 263.83 C82.64 262.38 79.73 266.83 72.13 254.83 C69.6 250.83
65.54 255.33 66.05 244.33 C66.22 240.73 60.48 243.83 60.99 235.33 C61.08 233.84 54.91 230.33 58.45 224.83 C59.81 222.72 54.91 219.83
58.96 212.83 C60.57 210.05 49.04 211.02 59.97 194.83 C62 191.83 59.97 190.33 65.54 183.83 C65.69 183.66 67.06 171.33 76.69 170.33
C78.28 170.17 53.39 170.83 53.9 140.83 C53.92 139.25 55.61 142.67 53.9 140.83 C47.82 134.33 45.32 122.53 44.27 121.33 C38.19 114.33
39.71 105.83 39.71 105.83 C39.71 105.83 22.08 85.79 19.46 80.83 C-31.19 -14.67 114.07 63.59 118.22 66.33 C185.58 110.83 202 145.83
202 145.83 C202 145.83 202.36 143.28 203 141.83 C203.64 140.39 204.56 140.02 204.33 139.83 z"""
def ptest():
svg.parseString(bpath)
if __name__ == '__main__':
#~ from tests.test_pathdata import *
#~ unittest.main()
profile()
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