Classes | |
class | Axes |
class | Curve |
class | CurveAxis |
class | Dots |
class | Ellipse |
class | Fig |
class | Frame |
class | Grid |
class | HGrid |
class | HLine |
class | Line |
class | LineAxis |
class | LineGlobal |
class | Path |
class | Plot |
class | Poly |
class | Rect |
class | SVG |
class | Text |
class | TextGlobal |
class | Ticks |
class | VGrid |
class | VLine |
class | XAxis |
class | XErrorBars |
class | YAxis |
class | YErrorBars |
Functions | |
def | attr_preprocess |
def | canvas |
def | canvas_outline |
def | funcRtoC |
def | funcRtoR |
def | funcRtoR2 |
def | load |
def | load_stream |
def | make_marker |
def | make_symbol |
def | pathtoPath |
def | rgb |
def | rotate |
def | template |
def | totrans |
def | unumber |
def | window |
Variables | |
dictionary | _canvas_defaults |
tuple | _circular_dot = make_symbol("circular_dot") |
tuple | _default_directory |
string | _default_fileName = "tmp.svg" |
int | _epsilon = 1 |
dictionary | _hacks = {} |
dictionary | _marker_templates |
dictionary | _symbol_templates |
all_whitespace | |
output | |
stack |
def svgfig::attr_preprocess | ( | attr | ) |
Definition at line 46 of file svgfig.py.
00047 : 00048 for name in attr.keys(): 00049 name_colon = re.sub("__", ":", name) 00050 if name_colon != name: 00051 attr[name_colon] = attr[name] 00052 del attr[name] 00053 name = name_colon 00054 00055 name_dash = re.sub("_", "-", name) 00056 if name_dash != name: 00057 attr[name_dash] = attr[name] 00058 del attr[name] 00059 name = name_dash 00060 00061 return attr
def svgfig::canvas | ( | sub, | |
attr | |||
) |
Creates a top-level SVG object, allowing the user to control the image size and aspect ratio. canvas(sub, sub, sub..., attribute=value) sub optional list nested SVG elements or text/Unicode attribute=value pairs optional keywords SVG attributes Default attribute values: width "400px" height "400px" viewBox "0 0 100 100" xmlns "http://www.w3.org/2000/svg" xmlns:xlink "http://www.w3.org/1999/xlink" version "1.1" style "stroke:black; fill:none; stroke-width:0.5pt; stroke-linejoin:round; text-anchor:middle" font-family "Helvetica,Arial,FreeSans?,Sans,sans,sans-serif"
Definition at line 481 of file svgfig.py.
00482 : 00483 """Creates a top-level SVG object, allowing the user to control the 00484 image size and aspect ratio. 00485 00486 canvas(sub, sub, sub..., attribute=value) 00487 00488 sub optional list nested SVG elements or text/Unicode 00489 attribute=value pairs optional keywords SVG attributes 00490 00491 Default attribute values: 00492 00493 width "400px" 00494 height "400px" 00495 viewBox "0 0 100 100" 00496 xmlns "http://www.w3.org/2000/svg" 00497 xmlns:xlink "http://www.w3.org/1999/xlink" 00498 version "1.1" 00499 style "stroke:black; fill:none; stroke-width:0.5pt; stroke-linejoin:round; text-anchor:middle" 00500 font-family "Helvetica,Arial,FreeSans?,Sans,sans,sans-serif" 00501 """ 00502 attributes = dict(_canvas_defaults) 00503 attributes.update(attr) 00504 00505 if sub == None or sub == (): 00506 return SVG("svg", **attributes) 00507 else: 00508 return SVG("svg", *sub, **attributes)
def svgfig::canvas_outline | ( | sub, | |
attr | |||
) |
Same as canvas(), but draws an outline around the drawable area, so that you know how close your image is to the edges.
Definition at line 509 of file svgfig.py.
00510 : 00511 """Same as canvas(), but draws an outline around the drawable area, 00512 so that you know how close your image is to the edges.""" 00513 svg = canvas(*sub, **attr) 00514 match = re.match("[, \t]*([0-9e.+\-]+)[, \t]+([0-9e.+\-]+)[, \t]+([0-9e.+\-]+)[, \t]+([0-9e.+\-]+)[, \t]*", svg["viewBox"]) 00515 if match == None: raise ValueError, "canvas viewBox is incorrectly formatted" 00516 x, y, width, height = [float(x) for x in match.groups()] 00517 svg.prepend(SVG("rect", x=x, y=y, width=width, height=height, stroke="none", fill="cornsilk")) 00518 svg.append(SVG("rect", x=x, y=y, width=width, height=height, stroke="black", fill="none")) 00519 return svg
def svgfig::funcRtoC | ( | expr, | |
var = "t" , |
|||
globals = None , |
|||
locals = None |
|||
) |
Converts a complex "z(t)" string to a function acceptable for Curve. expr required string in the form "z(t)" var default="t" name of the independent variable globals default=None dict of global variables used in the expression; you may want to use Python's builtin globals() locals default=None dict of local variables
Definition at line 1451 of file svgfig.py.
01452 : 01453 """Converts a complex "z(t)" string to a function acceptable for Curve. 01454 01455 expr required string in the form "z(t)" 01456 var default="t" name of the independent variable 01457 globals default=None dict of global variables used in the expression; 01458 you may want to use Python's builtin globals() 01459 locals default=None dict of local variables 01460 """ 01461 g = cmath.__dict__ 01462 if globals != None: g.update(globals) 01463 output = eval("lambda %s: (%s)" % (var, expr), g, locals) 01464 split = lambda z: (z.real, z.imag) 01465 output2 = lambda t: split(output(t)) 01466 output2.func_name = "%s -> %s" % (var, expr) 01467 return output2
def svgfig::funcRtoR | ( | expr, | |
var = "x" , |
|||
globals = None , |
|||
locals = None |
|||
) |
Converts a "f(x)" string to a function acceptable for Curve. expr required string in the form "f(x)" var default="x" name of the independent variable globals default=None dict of global variables used in the expression; you may want to use Python's builtin globals() locals default=None dict of local variables
Definition at line 1483 of file svgfig.py.
01484 : 01485 """Converts a "f(x)" string to a function acceptable for Curve. 01486 01487 expr required string in the form "f(x)" 01488 var default="x" name of the independent variable 01489 globals default=None dict of global variables used in the expression; 01490 you may want to use Python's builtin globals() 01491 locals default=None dict of local variables 01492 """ 01493 g = math.__dict__ 01494 if globals != None: g.update(globals) 01495 output = eval("lambda %s: (%s, %s)" % (var, var, expr), g, locals) 01496 output.func_name = "%s -> %s" % (var, expr) 01497 return output
def svgfig::funcRtoR2 | ( | expr, | |
var = "t" , |
|||
globals = None , |
|||
locals = None |
|||
) |
Converts a "f(t), g(t)" string to a function acceptable for Curve. expr required string in the form "f(t), g(t)" var default="t" name of the independent variable globals default=None dict of global variables used in the expression; you may want to use Python's builtin globals() locals default=None dict of local variables
Definition at line 1468 of file svgfig.py.
01469 : 01470 """Converts a "f(t), g(t)" string to a function acceptable for Curve. 01471 01472 expr required string in the form "f(t), g(t)" 01473 var default="t" name of the independent variable 01474 globals default=None dict of global variables used in the expression; 01475 you may want to use Python's builtin globals() 01476 locals default=None dict of local variables 01477 """ 01478 g = math.__dict__ 01479 if globals != None: g.update(globals) 01480 output = eval("lambda %s: (%s)" % (var, expr), g, locals) 01481 output.func_name = "%s -> %s" % (var, expr) 01482 return output
def svgfig::load | ( | fileName | ) |
Loads an SVG image from a file.
Definition at line 546 of file svgfig.py.
Referenced by edm::RootAutoLibraryLoader::GetClass(), ThePEGInterface::initRepository(), and L1MuDTExtrapolationUnit::run().
def svgfig::load_stream | ( | stream | ) |
Loads an SVG image from a stream (can be a string or a file object).
Definition at line 550 of file svgfig.py.
00551 : 00552 """Loads an SVG image from a stream (can be a string or a file object).""" 00553 00554 from xml.sax import handler, make_parser 00555 from xml.sax.handler import feature_namespaces, feature_external_ges, feature_external_pes 00556 00557 class ContentHandler(handler.ContentHandler): 00558 def __init__(self): 00559 self.stack = [] 00560 self.output = None 00561 self.all_whitespace = re.compile("^\s*$") 00562 00563 def startElement(self, name, attr): 00564 s = SVG(name) 00565 s.attr = dict(attr.items()) 00566 if len(self.stack) > 0: 00567 last = self.stack[-1] 00568 last.sub.append(s) 00569 self.stack.append(s) 00570 00571 def characters(self, ch): 00572 if not isinstance(ch, basestring) or self.all_whitespace.match(ch) == None: 00573 if len(self.stack) > 0: 00574 last = self.stack[-1] 00575 if len(last.sub) > 0 and isinstance(last.sub[-1], basestring): 00576 last.sub[-1] = last.sub[-1] + "\n" + ch 00577 else: 00578 last.sub.append(ch) 00579 00580 def endElement(self, name): 00581 if len(self.stack) > 0: 00582 last = self.stack[-1] 00583 if isinstance(last, SVG) and last.t == "style" and "type" in last.attr and last.attr["type"] == "text/css" and len(last.sub) == 1 and isinstance(last.sub[0], basestring): 00584 last.sub[0] = "<![CDATA[\n" + last.sub[0] + "]]>" 00585 00586 self.output = self.stack.pop() 00587 00588 ch = ContentHandler() 00589 parser = make_parser() 00590 parser.setContentHandler(ch) 00591 parser.setFeature(feature_namespaces, 0) 00592 parser.setFeature(feature_external_ges, 0) 00593 parser.parse(stream) 00594 return ch.output
def svgfig::make_marker | ( | id, | |
shape, | |||
attr | |||
) |
Creates a new instance of an SVG marker to avoid cross-linking objects. id required a new identifier (string/Unicode) shape required the shape name from _marker_templates attribute=value list keyword list modify the SVG attributes of the new marker
Definition at line 1964 of file svgfig.py.
01965 : 01966 """Creates a new instance of an SVG marker to avoid cross-linking objects. 01967 01968 id required a new identifier (string/Unicode) 01969 shape required the shape name from _marker_templates 01970 attribute=value list keyword list modify the SVG attributes of the new marker 01971 """ 01972 output = copy.deepcopy(_marker_templates[shape]) 01973 for i in output.sub: i.attr.update(attr_preprocess(attr)) 01974 output["id"] = id 01975 return output
def svgfig::make_symbol | ( | id, | |
shape = "dot" , |
|||
attr | |||
) |
Creates a new instance of an SVG symbol to avoid cross-linking objects. id required a new identifier (string/Unicode) shape default="dot" the shape name from _symbol_templates attribute=value list keyword list modify the SVG attributes of the new symbol
Definition at line 1893 of file svgfig.py.
01894 : 01895 """Creates a new instance of an SVG symbol to avoid cross-linking objects. 01896 01897 id required a new identifier (string/Unicode) 01898 shape default="dot" the shape name from _symbol_templates 01899 attribute=value list keyword list modify the SVG attributes of the new symbol 01900 """ 01901 output = copy.deepcopy(_symbol_templates[shape]) 01902 for i in output.sub: i.attr.update(attr_preprocess(attr)) 01903 output["id"] = id 01904 return output
def svgfig::pathtoPath | ( | svg | ) |
Converts SVG("path", d="...") into Path(d=[...]).
Definition at line 1006 of file svgfig.py.
01007 : 01008 """Converts SVG("path", d="...") into Path(d=[...]).""" 01009 if not isinstance(svg, SVG) or svg.t != "path": 01010 raise TypeError, "Only SVG <path /> objects can be converted into Paths" 01011 attr = dict(svg.attr) 01012 d = attr["d"] 01013 del attr["d"] 01014 for key in attr.keys(): 01015 if not isinstance(key, str): 01016 value = attr[key] 01017 del attr[key] 01018 attr[str(key)] = value 01019 return Path(d, **attr)
def svgfig::rgb | ( | r, | |
g, | |||
b, | |||
maximum = 1. |
|||
) |
Create an SVG color string "#xxyyzz" from r, g, and b. r,g,b = 0 is black and r,g,b = maximum is white.
def svgfig::rotate | ( | angle, | |
cx = 0 , |
|||
cy = 0 |
|||
) |
Creates and returns a coordinate transformation which rotates around (cx,cy) by "angle" degrees.
Definition at line 704 of file svgfig.py.
Referenced by MagGeoBuilderFromDDD::bLayer::bLayer(), VZeroFinder::checkTrackPair(), and DetPositioner::rotateGeomDet().
def svgfig::template | ( | fileName, | |
svg, | |||
replaceme = "REPLACEME" |
|||
) |
Loads an SVG image from a file, replacing instances of <REPLACEME /> with a given svg object. fileName required name of the template SVG svg required SVG object for replacement replaceme default="REPLACEME" fake SVG element to be replaced by the given object >>> print load("template.svg") None <svg (2 sub) style=u'stroke:black; fill:none; stroke-width:0.5pt; stroke-linejoi [0] <rect height=u'100' width=u'100' stroke=u'none' y=u'0' x=u'0' fill=u'yellow' [1] <REPLACEME /> >>> >>> print template("template.svg", SVG("circle", cx=50, cy=50, r=30)) None <svg (2 sub) style=u'stroke:black; fill:none; stroke-width:0.5pt; stroke-linejoi [0] <rect height=u'100' width=u'100' stroke=u'none' y=u'0' x=u'0' fill=u'yellow' [1] <circle cy=50 cx=50 r=30 />
Definition at line 520 of file svgfig.py.
Referenced by dd_count(), dd_error_scan(), GenericMVAComputer::eval(), findNameSpaces(), edm::refitem::GetPtrImpl< C, T, F, KEY >::getPtr_(), edm::WorkerMaker< T >::implSwapModule(), edm::WorkerMaker< T >::makeWorker(), edm::RefProd< C >::operator*(), edm::RefProd< C >::operator->(), edm::Ref< C, T, F >::product(), edm::RefVector< C, T, F >::product(), and TrackerStablePhiSort().
00521 : 00522 """Loads an SVG image from a file, replacing instances of 00523 <REPLACEME /> with a given svg object. 00524 00525 fileName required name of the template SVG 00526 svg required SVG object for replacement 00527 replaceme default="REPLACEME" fake SVG element to be replaced by the given object 00528 00529 >>> print load("template.svg") 00530 None <svg (2 sub) style=u'stroke:black; fill:none; stroke-width:0.5pt; stroke-linejoi 00531 [0] <rect height=u'100' width=u'100' stroke=u'none' y=u'0' x=u'0' fill=u'yellow' 00532 [1] <REPLACEME /> 00533 >>> 00534 >>> print template("template.svg", SVG("circle", cx=50, cy=50, r=30)) 00535 None <svg (2 sub) style=u'stroke:black; fill:none; stroke-width:0.5pt; stroke-linejoi 00536 [0] <rect height=u'100' width=u'100' stroke=u'none' y=u'0' x=u'0' fill=u'yellow' 00537 [1] <circle cy=50 cx=50 r=30 /> 00538 """ 00539 output = load(fileName) 00540 for ti, s in output: 00541 if isinstance(s, SVG) and s.t == replaceme: 00542 output[ti] = svg 00543 return output
def svgfig::totrans | ( | expr, | |
vars = ("x", "y" , |
|||
globals = None , |
|||
locals = None |
|||
) |
Converts to a coordinate transformation (a function that accepts two arguments and returns two values). expr required a string expression or a function of two real or one complex value vars default=("x", "y") independent variable names; a singleton ("z",) is interpreted as complex globals default=None dict of global variables locals default=None dict of local variables
Definition at line 597 of file svgfig.py.
00598 : 00599 """Converts to a coordinate transformation (a function that accepts 00600 two arguments and returns two values). 00601 00602 expr required a string expression or a function 00603 of two real or one complex value 00604 vars default=("x", "y") independent variable names; 00605 a singleton ("z",) is interpreted 00606 as complex 00607 globals default=None dict of global variables 00608 locals default=None dict of local variables 00609 """ 00610 00611 if callable(expr): 00612 if expr.func_code.co_argcount == 2: 00613 return expr 00614 00615 elif expr.func_code.co_argcount == 1: 00616 split = lambda z: (z.real, z.imag) 00617 output = lambda x, y: split(expr(x + y*1j)) 00618 output.func_name = expr.func_name 00619 return output 00620 00621 else: 00622 raise TypeError, "must be a function of 2 or 1 variables" 00623 00624 if len(vars) == 2: 00625 g = math.__dict__ 00626 if globals != None: g.update(globals) 00627 output = eval("lambda %s, %s: (%s)" % (vars[0], vars[1], expr), g, locals) 00628 output.func_name = "%s,%s -> %s" % (vars[0], vars[1], expr) 00629 return output 00630 00631 elif len(vars) == 1: 00632 g = cmath.__dict__ 00633 if globals != None: g.update(globals) 00634 output = eval("lambda %s: (%s)" % (vars[0], expr), g, locals) 00635 split = lambda z: (z.real, z.imag) 00636 output2 = lambda x, y: split(output(x + y*1j)) 00637 output2.func_name = "%s -> %s" % (vars[0], expr) 00638 return output2 00639 00640 else: 00641 raise TypeError, "vars must have 2 or 1 elements"
def svgfig::unumber | ( | x | ) |
Converts numbers to a Unicode string, taking advantage of special Unicode characters to make nice minus signs and scientific notation.
Definition at line 2283 of file svgfig.py.
02284 : 02285 """Converts numbers to a Unicode string, taking advantage of special 02286 Unicode characters to make nice minus signs and scientific notation. 02287 """ 02288 output = u"%g" % x 02289 02290 if output[0] == u"-": 02291 output = u"\u2013" + output[1:] 02292 02293 index = output.find(u"e") 02294 if index != -1: 02295 uniout = unicode(output[:index]) + u"\u00d710" 02296 saw_nonzero = False 02297 for n in output[index+1:]: 02298 if n == u"+": pass # uniout += u"\u207a" 02299 elif n == u"-": uniout += u"\u207b" 02300 elif n == u"0": 02301 if saw_nonzero: uniout += u"\u2070" 02302 elif n == u"1": 02303 saw_nonzero = True 02304 uniout += u"\u00b9" 02305 elif n == u"2": 02306 saw_nonzero = True 02307 uniout += u"\u00b2" 02308 elif n == u"3": 02309 saw_nonzero = True 02310 uniout += u"\u00b3" 02311 elif u"4" <= n <= u"9": 02312 saw_nonzero = True 02313 if saw_nonzero: uniout += eval("u\"\\u%x\"" % (0x2070 + ord(n) - ord(u"0"))) 02314 else: uniout += n 02315 02316 if uniout[:2] == u"1\u00d7": uniout = uniout[2:] 02317 return uniout 02318 02319 return output
def svgfig::window | ( | xmin, | |
xmax, | |||
ymin, | |||
ymax, | |||
x = 0 , |
|||
y = 0 , |
|||
width = 100 , |
|||
height = 100 , |
|||
xlogbase = None , |
|||
ylogbase = None , |
|||
minusInfinity = -1000 , |
|||
flipx = False , |
|||
flipy = True |
|||
) |
Creates and returns a coordinate transformation (a function that accepts two arguments and returns two values) that transforms from (xmin, ymin), (xmax, ymax) to (x, y), (x + width, y + height). xlogbase, ylogbase default=None, None if a number, transform logarithmically with given base minusInfinity default=-1000 what to return if log(0 or negative) is attempted flipx default=False if true, reverse the direction of x flipy default=True if true, reverse the direction of y (When composing windows, be sure to set flipy=False.)
Definition at line 642 of file svgfig.py.
Referenced by LocalCacheFile::cache(), CSCStripElectronicsSim::channelsToRead(), TIBLayer::groupedCompatibleDetsV(), PixelForwardLayer::groupedCompatibleDetsV(), TOBRod::groupedCompatibleDetsV(), TOBLayer::groupedCompatibleDetsV(), PixelBlade::groupedCompatibleDetsV(), CompositeTECPetal::groupedCompatibleDetsV(), GeometricSearchDet::groupedCompatibleDetsV(), CompositeTECWedge::groupedCompatibleDetsV(), PixelBarrelLayer::groupedCompatibleDetsV(), MuonResidualsFitter::plotsimple(), and MuonResidualsFitter::plotweighted().
00643 : 00644 """Creates and returns a coordinate transformation (a function that 00645 accepts two arguments and returns two values) that transforms from 00646 (xmin, ymin), (xmax, ymax) 00647 to 00648 (x, y), (x + width, y + height). 00649 00650 xlogbase, ylogbase default=None, None if a number, transform 00651 logarithmically with given base 00652 minusInfinity default=-1000 what to return if 00653 log(0 or negative) is attempted 00654 flipx default=False if true, reverse the direction of x 00655 flipy default=True if true, reverse the direction of y 00656 00657 (When composing windows, be sure to set flipy=False.) 00658 """ 00659 00660 if flipx: 00661 ox1 = x + width 00662 ox2 = x 00663 else: 00664 ox1 = x 00665 ox2 = x + width 00666 if flipy: 00667 oy1 = y + height 00668 oy2 = y 00669 else: 00670 oy1 = y 00671 oy2 = y + height 00672 ix1 = xmin 00673 iy1 = ymin 00674 ix2 = xmax 00675 iy2 = ymax 00676 00677 if xlogbase != None and (ix1 <= 0. or ix2 <= 0.): raise ValueError, "x range incompatible with log scaling: (%g, %g)" % (ix1, ix2) 00678 00679 if ylogbase != None and (iy1 <= 0. or iy2 <= 0.): raise ValueError, "y range incompatible with log scaling: (%g, %g)" % (iy1, iy2) 00680 00681 def maybelog(t, it1, it2, ot1, ot2, logbase): 00682 if t <= 0.: return minusInfinity 00683 else: 00684 return ot1 + 1.*(math.log(t, logbase) - math.log(it1, logbase))/(math.log(it2, logbase) - math.log(it1, logbase)) * (ot2 - ot1) 00685 00686 xlogstr, ylogstr = "", "" 00687 00688 if xlogbase == None: 00689 xfunc = lambda x: ox1 + 1.*(x - ix1)/(ix2 - ix1) * (ox2 - ox1) 00690 else: 00691 xfunc = lambda x: maybelog(x, ix1, ix2, ox1, ox2, xlogbase) 00692 xlogstr = " xlog=%g" % xlogbase 00693 00694 if ylogbase == None: 00695 yfunc = lambda y: oy1 + 1.*(y - iy1)/(iy2 - iy1) * (oy2 - oy1) 00696 else: 00697 yfunc = lambda y: maybelog(y, iy1, iy2, oy1, oy2, ylogbase) 00698 ylogstr = " ylog=%g" % ylogbase 00699 00700 output = lambda x, y: (xfunc(x), yfunc(y)) 00701 00702 output.func_name = "(%g, %g), (%g, %g) -> (%g, %g), (%g, %g)%s%s" % (ix1, ix2, iy1, iy2, ox1, ox2, oy1, oy2, xlogstr, ylogstr) 00703 return output
dictionary svgfig::_canvas_defaults |
00001 {"width": "400px", "height": "400px", "viewBox": "0 0 100 100", \ 00002 "xmlns": "http://www.w3.org/2000/svg", "xmlns:xlink": "http://www.w3.org/1999/xlink", "version":"1.1", \ 00003 "style": {"stroke":"black", "fill":"none", "stroke-width":"0.5pt", "stroke-linejoin":"round", "text-anchor":"middle"}, \ 00004 "font-family": ["Helvetica", "Arial", "FreeSans", "Sans", "sans", "sans-serif"], \ 00005 }
tuple svgfig::_circular_dot = make_symbol("circular_dot") |
string svgfig::_default_fileName = "tmp.svg" |
int svgfig::_epsilon = 1 |
dictionary svgfig::_hacks = {} |
dictionary svgfig::_marker_templates |
00001 {"arrow_start": SVG("marker", SVG("path", d="M 9 3.6 L 10.5 0 L 0 3.6 L 10.5 7.2 L 9 3.6 Z"), viewBox="0 0 10.5 7.2", refX="9", refY="3.6", markerWidth="10.5", markerHeight="7.2", markerUnits="strokeWidth", orient="auto", stroke="none", fill="black"), \ 00002 "arrow_end": SVG("marker", SVG("path", d="M 1.5 3.6 L 0 0 L 10.5 3.6 L 0 7.2 L 1.5 3.6 Z"), viewBox="0 0 10.5 7.2", refX="1.5", refY="3.6", markerWidth="10.5", markerHeight="7.2", markerUnits="strokeWidth", orient="auto", stroke="none", fill="black"), \ 00003 }
dictionary svgfig::_symbol_templates |
00001 {"dot": SVG("symbol", SVG("circle", cx=0, cy=0, r=1, stroke="none", fill="black"), viewBox="0 0 1 1", overflow="visible"), \ 00002 "box": SVG("symbol", SVG("rect", x1=-1, y1=-1, x2=1, y2=1, stroke="none", fill="black"), viewBox="0 0 1 1", overflow="visible"), \ 00003 "uptri": SVG("symbol", SVG("path", d="M -1 0.866 L 1 0.866 L 0 -0.866 Z", stroke="none", fill="black"), viewBox="0 0 1 1", overflow="visible"), \ 00004 "downtri": SVG("symbol", SVG("path", d="M -1 -0.866 L 1 -0.866 L 0 0.866 Z", stroke="none", fill="black"), viewBox="0 0 1 1", overflow="visible"), \ 00005 }
Definition at line 550 of file svgfig.py.
Referenced by evf::Vulture::analyze(), CandCombinerBase< OutputCollection, CandPtr >::combine(), DQMHistPlotter::DQMHistPlotter(), and FWPSetTableManager::updateFilter().