/usr/share/pyshared/pyx/pdfextra.py is in python-pyx 0.12.1-2.
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#
#
# Copyright (C) 2006 Michael Schindler <m-schindler@users.sourceforge.net>
#
# This file is part of PyX (http://pyx.sourceforge.net/).
#
# PyX is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation; either version 2 of the License, or
# (at your option) any later version.
#
# PyX is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with PyX; if not, write to the Free Software
# Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA
import cStringIO, math
import canvasitem, bbox, pdfwriter, color, unit
from font.font import PDFHelvetica, PDFZapfDingbats
# TODO:
# - discuss behaviour under transformations with André and Jörg
# - what about fillstyles here?
# - where should e.g. a font be added to the registry:
# in processPDF or in __init__ of the PDF-item?
# - test for double occurrance of field names:
# this leads to wrong/no display
#
# TODO horizontal alignment in textfields
# flags for annotations:
PDFannotflags = [("invisible", 0), ("hidden", 1), ("printable", 2),
("nozoom", 3), ("norotate", 4), ("noview", 5), ("readonly", 6)]
# flags for form fields
PDFformflags = [("readonly", 0), ("required", 1), ("noexport", 2),
# flags for the button field
("notoggletooff", 14), ("radio", 15), ("pushbutton", 16),
# flags for the choice list field
("combo", 17), ("edit", 18), ("sort", 19), ("multiselect", 21),
# flags for the text field
("multiline", 12), ("password", 13), ("fileselect", 20), ("donotspellcheck", 22),
("donotscroll", 23)]
class flag: # <<<
"""A helper class for handling flags in pdf forms and annotations"""
def __init__(self, value=None):
self.value = value
def is_set(self, bit):
return self.value is not None and (self.value & 1<<bit) == 1<<bit
def set(self, bit):
if self.value is None:
self.value = 1<<bit
else:
self.value = self.value | 1<<bit
def unset(self, bit):
if self.value is not None:
self.value = self.value & ~(1<<bit)
def __int__(self):
return self.value
def __str__(self):
return self.value.__str__()
# >>>
def _pdfflags(flags): # <<<
"""Splits flags into annotation/form part
the flag for the annotation dictionary
the flag for the form (field) dictionary
All flags are handled equally here, independent of their use
for the specific form field.
"""
# we initialize with 0 and set only those flags which are not 0
annotflag = flag(value=0)
formflag = flag(value=0)
for key, value in PDFannotflags:
if flags.has_key(key) and flags[key]:
annotflag.set(value)
for key, value in PDFformflags:
if flags.has_key(key) and flags[key]:
formflag.set(value)
return int(annotflag), int(formflag)
# >>>
def _pdfalignment(string): # <<<
alignflag = 0
if string == "c":
alignflag = 1
elif string == "r":
alignflag = 2
return alignflag
# >>>
def _topt(value, type="u", un="cm"): # <<<
if isinstance(value, unit.length):
return unit.topt(value)
else:
return unit.topt(unit.length(value, type, un))
# >>>
def _simplestring(text): # <<<
result = ""
for x in text:
if x.isalnum():
result += x
return result
# >>>
def _sizetrafo(s, tr): # <<<
x1, y1 = tr.apply_pt(s, s)
x0, y0 = tr.apply_pt(0, 0)
return math.hypot(x1 - x0, y1 - y0) * math.sqrt(0.5)
# >>>
class formfield(canvasitem.canvasitem): # <<<
"""Base class for acroforms"""
defaultflags = dict()
def selectflags(self, flags):
newflags = dict(**self.defaultflags)
# overwrite the default flags with given values:
for key, value in flags.items():
if newflags.has_key(key):
newflags[key] = value
else:
raise RuntimeError("unknown argument \"%s\" to formfield" % key)
return newflags
def bbox(self):
return bbox.bbox_pt(self.llx_pt, self.lly_pt, self.urx_pt, self.ury_pt)
def processPS(self, file, writer, context, registry, bbox):
raise RuntimeError("postscript output of forms is not supported")
# >>>
class textfield(formfield): # <<<
"""An interactive pdf form field for text input.
The "name" is used for the graphical user interface and for exporing the input data.
Note that the behaviour under rotations is undefined."""
defaultflags = dict(invisible=0, hidden=0, printable=1, nozoom=0, norotate=0, noview=0,
readonly=0, required=0, noexport=0, multiline=0, password=0, fileselect=0,
donotspellcheck=1, donotscroll=0)
def __init__(self, x, y, width, height, name, defaultvalue="", fontsize=10, font=PDFHelvetica,
fontrelleading=1.16, borderwidth=0, align="l", **flags):
self.llx_pt, self.lly_pt = _topt(x), _topt(y)
self.urx_pt, self.ury_pt = _topt(x+width), _topt(y+height)
self.name = name
self.defaultvalue = defaultvalue
self.fontsize_pt = _topt(fontsize, "x", "pt")
self.font = font
self.fontrelleading = fontrelleading
self.borderwidth_pt = _topt(borderwidth, "x", "pt")
self.align = align
self.flags = self.selectflags(flags)
def processPDF(self, file, writer, context, registry, bbox):
# the bounding box is transformed by the canvas
bbox += self.bbox()
# the annotation rectangle must be transformed separately:
llx_pt, lly_pt = context.trafo.apply_pt(self.llx_pt, self.lly_pt)
urx_pt, ury_pt = context.trafo.apply_pt(self.urx_pt, self.ury_pt)
fontsize_pt = _sizetrafo(self.fontsize_pt, context.trafo)
borderwidth_pt = _sizetrafo(self.borderwidth_pt, context.trafo)
# we create numbers from the flags given
annotflag, formflag = _pdfflags(self.flags)
alignflag = _pdfalignment(self.align)
registry.add(PDFtextfield((llx_pt, lly_pt, urx_pt, ury_pt), self.name, self.defaultvalue,
fontsize_pt, self.font, self.fontrelleading*fontsize_pt,
borderwidth_pt, (not self.flags["multiline"]),
alignflag, annotflag, formflag, context.fillstyles, writer, registry))
# >>>
class PDFtextfield(pdfwriter.PDFobject): # <<<
def __init__(self, bb_pt, name, defaultvalue, fontsize, font, fontleading,
borderwidth, vcenter,
alignflag, annotflag, formflag, fillstyles, writer, registry):
pdfwriter.PDFobject.__init__(self, "formfield_text")
# append this formfield to the global document form
# and to the annotation list of the page:
self.PDFform = None
for object in registry.objects:
if object.type == "form":
object.append(self)
self.PDFform = object
elif object.type == "annotations":
object.append(self)
self.name = name
self.bb_pt = bb_pt
self.defaultvalue = defaultvalue
self.fontsize = fontsize
self.font = font
if self.font is None:
self.font = PDFHelvetica
self.fontleading = fontleading
self.borderwidth = borderwidth
self.alignflag = alignflag
self.formflag = formflag
self.annotflag = annotflag
self.registry = pdfwriter.PDFregistry()
self.registry.addresource("Font", self.font.name, self.font, procset="Text")
self.registry.add(self.font)
if self.defaultvalue:
text = self.defaultvalue.split("\n")
self.defaulttext = PDFdefaulttext(writer, registry, self.fontsize, self.font,
self.fontleading, text, self.bb_pt, self.borderwidth, vcenter)
self.registry.add(self.defaulttext)
else:
self.defaulttext = None
# process some fillstyles:
fillstring = cStringIO.StringIO()
for attr in fillstyles:
if 1:#isinstance(attr, color.color):
cont = pdfwriter.context()
cont.fillattr = 1
cont.strokeattr = 0
attr.processPDF(fillstring, writer, cont, self.registry, bbox)
self.fillstyles = fillstring.getvalue()
fillstring.close()
registry.mergeregistry(self.registry)
def write(self, file, writer, registry):
### the dictionary entries for the annotation
file.write("<</Type /Annot\n")
file.write("/P %d 0 R\n" % registry.getrefno(self.PDFform)) # reference to the page objects
file.write("/Rect [%f %f %f %f]\n" % self.bb_pt) # the annotation rectangle
#ile.write("/BS <</W 0 /S /S>>\n") # border style dictionary
file.write("/Border [0 0 %f]\n" % self.borderwidth) # border style
file.write("/F %d\n" % self.annotflag)
### the dictionary entries for the widget annotations
file.write("/Subtype /Widget\n")
file.write("/H /N\n") # highlight behaviour
if self.defaulttext:
file.write("/AP <</N %d 0 R >>\n" % registry.getrefno(self.defaulttext)) # appearance dictionary
### the dictionary entries for the form field
file.write("/FT /Tx\n") # type of the form field
file.write("/T (%s)\n" % self.name) # partial field name
file.write("/TU (%s)\n" % self.name) # field name for the user-interface
file.write("/TM (%s)\n" % self.name) # field name for exporting the data
file.write("/V (%s)\n" % self.defaultvalue) # starting value
file.write("/DV (%s)\n" % self.defaultvalue) # reset value
file.write("/Ff %d\n" % self.formflag) # flags for various purposes
### the dictionary entries for the text field
file.write("/DR ")
self.registry.writeresources(file) # default resources for appearance
file.write("/DA (%s /%s %f Tf %f TL)\n" % (self.fillstyles, self.font.name, self.fontsize, self.fontleading)) # default appearance string
file.write("/Q %d\n" % self.alignflag)
file.write(">>\n")
# >>>
class PDFdefaulttext(pdfwriter.PDFobject): # <<<
def __init__(self, writer, registry, fontsize, font, fontleading, texts, bb, borderwidth, vcenter):
pdfwriter.PDFobject.__init__(self, "defaulttext")
self.font = font
self.fontsize = fontsize
self.fontleading = fontleading
self.registry = pdfwriter.PDFregistry()
self.registry.addresource("Font", self.font.name, self.font, procset="Text")
self.registry.add(self.font)
self.bb = (0, 0, bb[2] - bb[0], bb[3] - bb[1])
self.texts = [t for t in texts if t]
self.borderwidth = borderwidth
# try to imitate the shifting of PDF:
# the font orientation point is on the baseline of the text
self.hshift = 2*self.borderwidth
if vcenter:
baselinevrel = 0.215
self.vshift = 0.5 * (bb[3] - bb[1]) + (len(self.texts) / 2.0 - 1)*self.fontleading + baselinevrel*self.fontsize
elif (bb[3] - bb[1]) < self.fontleading + 4*self.borderwidth:
baselinevrel = 0.215
self.vshift = 2*self.borderwidth + baselinevrel * self.fontsize
#self.vshift = 0.5 * (bb[3] - bb[1]) - (0.5 - baselinevrel - 0.5*addrelshift)*self.fontsize
else:
baselinevrel = 0.215
addrelshift = 0.215
self.vshift = (bb[3] - bb[1]) - 2*self.borderwidth - self.fontleading + (baselinevrel - addrelshift)*self.fontsize
registry.mergeregistry(self.registry)
def write(self, file, writer, registry):
content = "/Tx BMC q BT /%s %f Tf %f TL %f %f Td (%s) Tj" % (self.font.name, self.fontsize, self.fontleading, self.hshift, self.vshift, self.texts[0])
for text in self.texts[1:]:
content += " (%s)'" % (text)
content += " ET Q EMC\n"
if writer.compress:
import zlib
content = zlib.compress(content)
file.write("<<\n")
file.write("/Type /XObject\n")
file.write("/Subtype /Form\n")
file.write("/BBox [%f %f %f %f]\n" % self.bb)
#ile.write("/Matrix [0.98 0.17 -0.17 0.98 0 0]\n")
file.write("/Resources ")
self.registry.writeresources(file) # default resources for appearance
file.write("/Length %i\n" % len(content))
if writer.compress:
file.write("/Filter /FlateDecode\n")
file.write(">>\n"
"stream\n")
file.write(content)
file.write("endstream\n")
# >>>
class radiobuttons(formfield): # <<<
"""A set of related buttons that can each be on or off.
Typically, at most one radio button in a set may be on at any
given time, and selecting any one of the buttons
automatically deselects all the others.
Note that the behaviour under rotations is undefined."""
defaultflags = dict(invisible=0, hidden=0, printable=1, nozoom=0,
norotate=0, noview=0, readonly=0, required=0, noexport=0, notoggletooff=0)
def __init__(self, positions, name, values, defaultvalue=None, size=10, baselinerelpos=0.2, **flags):
self.name = name
self.size_pt = _topt(size, "x", "pt")
self.positions_pt = [(_topt(x), _topt(y) - baselinerelpos*self.size_pt) for x, y in positions]
self.flags = self.selectflags(flags)
self.flags["radio"] = 1
self.values = values
self.defaultvalue = defaultvalue
def bbox(self):
llx = min([x[0] for x in self.positions_pt])
lly = min([x[1] for x in self.positions_pt])
urx = max([x[0] for x in self.positions_pt]) + self.size_pt
ury = max([x[1] for x in self.positions_pt]) + self.size_pt
return bbox.bbox_pt(llx, lly, urx, ury)
def processPDF(self, file, writer, context, registry, bbox):
# the bbox is transformed by the canvas
bbox += self.bbox()
# the annotation rectangle must be transformed separately:
positions_pt = [context.trafo.apply_pt(x, y) for x, y in self.positions_pt]
size_pt = _sizetrafo(self.size_pt, context.trafo)
# we create numbers from the flags given
annotflag, formflag = _pdfflags(self.flags)
onstate = PDFButtonState(writer, registry,
10, PDFZapfDingbats, bgchar="m", fgchar="8",
bgscale=1.1, bgrelshift=(0, 0.18), fgrelshift=(0.12, 0.26))
offstate = PDFButtonState(writer, registry,
10, PDFZapfDingbats, bgchar="m", fgchar=None,
bgscale=1.1, bgrelshift=(0, 0.18))
registry.add(onstate)
registry.add(offstate)
registry.add(PDFbuttonlist(positions_pt, self.name, size_pt, self.values, self.defaultvalue,
annotflag, formflag, onstate, offstate, writer, registry))
# >>>
class checkbox(formfield): # <<<
"""Toggles between two states, on and off
Note that the behaviour under rotations is undefined."""
defaultflags = dict(invisible=0, hidden=0, printable=1, nozoom=0,
norotate=0, noview=0, readonly=0, required=0, noexport=0)
def __init__(self, x, y, name, defaulton=0, size=10, baselinerelpos=0.2, **flags):
self.name = name
self.size_pt = _topt(size, "x", "pt")
self.llx_pt, self.lly_pt = _topt(x), _topt(y) - baselinerelpos*self.size_pt
self.urx_pt, self.ury_pt = self.llx_pt + self.size_pt, self.lly_pt + self.size_pt
self.flags = self.selectflags(flags)
self.defaulton = defaulton
def processPDF(self, file, writer, context, registry, bbox):
# the bbox is transformed by the canvas
bbox += self.bbox()
# the annotation rectangle must be transformed separately:
positions_pt = [context.trafo.apply_pt(self.llx_pt, self.lly_pt)]
size_pt = _sizetrafo(self.size_pt, context.trafo)
# we create numbers from the flags given
annotflag, formflag = _pdfflags(self.flags)
onstate = PDFButtonState(writer, registry,
10, PDFZapfDingbats, bgchar="o", fgchar="4",
bgscale=1.2, bgrelshift=(0, 0.08), fgscale=0.9, fgrelshift=(0.15, 0.25))
offstate = PDFButtonState(writer, registry,
10, PDFZapfDingbats, bgchar="o", fgchar=None,
bgscale=1.2, bgrelshift=(0, 0.08))
registry.add(onstate)
registry.add(offstate)
if self.defaulton:
default = "Yes"
else:
default = "Off"
registry.add(PDFbuttonlist(positions_pt, self.name, size_pt, ["Yes"], default,
annotflag, formflag, onstate, offstate, writer, registry))
# >>>
class PDFbuttonlist(pdfwriter.PDFobject): # <<<
def __init__(self, positions_pt, name, size_pt, values, defaultvalue, annotflag, formflag,
onstate, offstate, writer, registry):
pdfwriter.PDFobject.__init__(self, "formfield_buttonlist")
# append this formfield to the global document form
# but we do not treat this as a fully valid annotation field
for object in registry.objects:
if object.type == "form":
object.append(self)
self.name = name
self.formflag = formflag
self.annotflag = annotflag
self.size_pt = size_pt
self.defaultvalue = defaultvalue
self.onstate = onstate
self.offstate = offstate
self.checkboxes = []
for i, pos_pt, value in zip(range(len(values)), positions_pt, values):
chbox = PDFcheckboxfield(pos_pt, value, size_pt, _simplestring(value), (value == defaultvalue),
self, self.onstate, self.offstate, self.annotflag, self.formflag, writer, registry)
self.checkboxes.append(chbox)
registry.add(chbox)
def write(self, file, writer, registry):
### implementation note: There are some (undocumented) PDF flaws which
### do not allow to inherit certain variables:
### * The parent button may not have /Ff (otherwise, notoggletooff fails)
### * The Kids of a radio button may not have a /T on their own (otherwise, they are not displayed)
### * The /BS and /Border do not draw anything.
### Nevertheless, the border width of /Border is used
### the dictionary entries for the annotation
file.write("<<\n")
### the dictionary entries for the form field
file.write("/FT /Btn\n") # type of the form field
file.write("/Kids [%s]\n" % " ".join(["%d 0 R" % registry.getrefno(x) for x in self.checkboxes]))
file.write("/T (%s)\n" % self.name) # partial field name
file.write("/TU (%s)\n" % self.name) # field name for the user-interface
file.write("/TM (%s)\n" % self.name) # field name for exporting the data
### the dictionary entries for the radiobuttons field
file.write("/V /%s\n" % self.defaultvalue)
file.write(">>\n")
# >>>
class PDFcheckboxfield(pdfwriter.PDFobject): # <<<
def __init__(self, pos_pt, name, size_pt, valuename, defaulton, parent, onstate, offstate, annotflag, formflag, writer, registry):
pdfwriter.PDFobject.__init__(self, "formfield_checkbox")
# we treat this as an annotation only, since the parent is
# already in the form field
self.PDFform = None
for object in registry.objects:
if object.type == "form":
assert self.PDFform is None
self.PDFform = object
if object.type == "annotations":
object.append(self)
self.bb_pt = (pos_pt[0], pos_pt[1], pos_pt[0] + size_pt, pos_pt[1] + size_pt)
self.name = name
self.size_pt = size_pt
self.valuename = valuename
if defaulton:
self.defaultvalue = self.valuename
else:
self.defaultvalue = "Off"
self.parent = parent
self.onstate = onstate
self.offstate = offstate
self.annotflag = annotflag
self.formflag = formflag
def write(self, file, writer, registry):
### the dictionary entries for the annotation
file.write("<<\n")
file.write("/Type /Annot\n")
file.write("/Subtype /Widget\n")
file.write("/P %d 0 R\n" % registry.getrefno(self.PDFform)) # reference to the page objects
file.write("/Rect [%f %f %f %f]\n" % self.bb_pt) # the annotation rectangle
file.write("/F %d\n" % self.annotflag) # flags
### the dictionary entries for the widget annotations
file.write("/H /N\n") # hightlight behaviour
### the dictionary entries for the form field
file.write("/FT /Btn\n") # type of the form field
file.write("/Parent %d 0 R\n" % registry.getrefno(self.parent)) # only for hierarchy
file.write("/AP << /N << /%s %d 0 R /Off %d 0 R >> >>\n" % (self.valuename, registry.getrefno(self.onstate), registry.getrefno(self.offstate)))
file.write("/AS /%s\n" % self.defaultvalue)
file.write("/Ff %d\n" % self.formflag) # Ff may not come from parent!
file.write(">>\n")
# >>>
class PDFButtonState(pdfwriter.PDFobject): # <<<
def __init__(self, writer, registry, fontsize, font, bgchar, fgchar,
bgscale=None, bgrelshift=None, fgscale=None, fgrelshift=None):
pdfwriter.PDFobject.__init__(self, "buttonstate", "buttonstate" + "_".join(map(str, map(id, [fontsize, font, bgchar, fgchar, bgscale, bgrelshift, fgscale, fgrelshift]))))
self.font = font
self.fontsize = fontsize
registry.addresource("Font", self.font.name, self.font, procset="Text")
registry.add(self.font)
self.bb = 0, 0, fontsize, fontsize
self.bgchar = bgchar
self.fgchar = fgchar
if bgscale is None and bgrelshift is not None:
bgscale = 1
if bgscale is not None and bgrelshift is None:
bgrelshift = 0, 0
if bgscale is not None:
self.bgtrafo = "%f 0 0 %f %f %f Tm" % (bgscale, bgscale, bgrelshift[0]*self.fontsize, bgrelshift[1]*self.fontsize)
else:
self.bgtrafo = ""
if fgscale is None and fgrelshift is not None:
fgscale = 1
if fgscale is not None and fgrelshift is None:
fgrelshift = 0, 0
if fgscale is not None:
self.fgtrafo = "%f 0 0 %f %f %f Tm" % (fgscale, fgscale, fgrelshift[0]*self.fontsize, fgrelshift[1]*self.fontsize)
else:
self.fgtrafo = ""
def write(self, file, writer, registry):
content = ""
if self.bgchar:
content += "q BT /%s %f Tf %s (%s) Tj ET Q\n" % (self.font.name, self.fontsize, self.bgtrafo, self.bgchar)
if self.fgchar:
content += "q BT /%s %f Tf %s (%s) Tj ET Q\n" % (self.font.name, self.fontsize, self.fgtrafo, self.fgchar)
if writer.compress:
import zlib
content = zlib.compress(content)
file.write("<<\n")
file.write("/Type /XObject\n")
file.write("/Subtype /Form\n")
file.write("/BBox [%f %f %f %f]\n" % self.bb)
#ile.write("/Matrix [0.98 0.17 -0.17 0.98 0 0]\n")
file.write("/Resources <</Font << /%s %d 0 R >> /ProcSet [/PDF /Text] >>\n" %
(self.font.name, registry.getrefno(self.font)))
file.write("/Length %i\n" % len(content))
if writer.compress:
file.write("/Filter /FlateDecode\n")
file.write(">>\n"
"stream\n")
file.write(content)
file.write("endstream\n")
## Zapf Dingbats symbols for further buttonstates:
# "3" = thin checkmark
# "4" = thick checkmark
# "5" = thin large cross
# "6" = thick large cross
# "7" = thin small cross
# "8" = thick small cross
# "l" = filled circle
# "m" = empty circle
# "n" = filled rectangle
# "o" = empty rectangle (shadow bottom right)
# "p" = empty rectangle (shadow top right)
# "q" = empty box (to bottom right)
# "r" = empty box (to top right)
# >>>
class choicefield(formfield): # <<<
"""An interactive pdf form field for text input.
The name is used for the graphical user interface and for exporing the input data.
Note that the behaviour under rotations is undefined."""
defaultflags = dict(invisible=0, hidden=0, printable=1, nozoom=0,
norotate=0, noview=0, readonly=0, required=0, noexport=0, combo=1,
edit=0, sort=0, multiselect=0, donotspellcheck=1)
def __init__(self, x, y, width, height, name, values, defaultvalue=None, fontsize=10, font=None,
borderwidth=0, align="l", **flags):
self.llx_pt, self.lly_pt = _topt(x), _topt(y)
self.urx_pt, self.ury_pt = _topt(x+width), _topt(y+height)
self.name = name
self.values = values
self.defaultvalue = defaultvalue
self.fontsize_pt = _topt(fontsize, "x", "pt")
self.font = font # TODO: add the generic fonts
self.borderwidth_pt = _topt(borderwidth, "x", "pt")
self.flags = self.selectflags(flags)
self.align = align
def processPDF(self, file, writer, context, registry, bbox):
# the bounding box is transformed by the canvas
bbox += self.bbox()
# the annotation rectangle must be transformed separately:
llx_pt, lly_pt = context.trafo.apply_pt(self.llx_pt, self.lly_pt)
urx_pt, ury_pt = context.trafo.apply_pt(self.urx_pt, self.ury_pt)
fontsize_pt = _sizetrafo(self.fontsize_pt, context.trafo)
borderwidth_pt = _sizetrafo(self.borderwidth_pt, context.trafo)
# we create numbers from the flags given
annotflag, formflag = _pdfflags(self.flags)
alignflag = _pdfalignment(self.align)
registry.add(PDFchoicefield((llx_pt, lly_pt, urx_pt, ury_pt),
self.name, self.values, self.defaultvalue, fontsize_pt, self.font,
borderwidth_pt, alignflag, annotflag, formflag, writer, registry))
# >>>
class PDFchoicefield(pdfwriter.PDFobject): # <<<
def __init__(self, bb_pt, name, values, defaultvalue, fontsize, font,
borderwidth_pt, alignflag, annotflag, formflag, writer, registry):
pdfwriter.PDFobject.__init__(self, "formfield_choice")
# append this formfield to the global document form
# and to the annotation list of the page:
self.PDFform = None
for object in registry.objects:
if object.type == "form":
object.append(self)
self.PDFform = object
elif object.type == "annotations":
object.append(self)
self.name = name
self.bb_pt = bb_pt
self.values = values
self.defaultvalue = defaultvalue
self.fontsize = fontsize
self.font = font
if self.font is None:
self.font = PDFHelvetica
registry.addresource("Font", self.font.name, self.font, procset="Text")
registry.add(self.font)
self.borderwidth_pt = borderwidth_pt
self.alignflag = alignflag
self.formflag = formflag
self.annotflag = annotflag
def write(self, file, writer, registry):
### the dictionary entries for the annotation
file.write("<</Type /Annot\n")
file.write("/P %d 0 R\n" % registry.getrefno(self.PDFform)) # reference to the page objects
file.write("/Rect [%f %f %f %f]\n" % self.bb_pt) # the annotation rectangle
#ile.write("/BS << ... >>\n" # border style dictionary
file.write("/Border [0 0 %f]\n" % self.borderwidth_pt) # border style
file.write("/F %d\n" % self.annotflag)
### the dictionary entries for the widget annotations
file.write("/Subtype /Widget\n")
file.write("/H /N\n") # highlight behaviour
#ile.write("/AP <</N >>\n") # appearance dictionary TODO
### the dictionary entries for the form field
file.write("/FT /Ch\n") # type of the form field
file.write("/T (%s)\n" % self.name) # partial field name
file.write("/TU (%s)\n" % self.name) # field name for the user-interface
file.write("/TM (%s)\n" % self.name) # field name for exporting the data
if self.defaultvalue in self.values:
file.write("/V (%s)\n" % self.defaultvalue) # starting value
file.write("/Ff %d\n" % self.formflag) # flags for various purposes
### the dictionary entries for the text field
file.write("/DR <</Font <</%s %d 0 R >> >>\n" % (self.font.name, registry.getrefno(self.font))) # default resources for appearance
file.write("/DA (/%s %f Tf)\n" % (self.font.name, self.fontsize)) # default appearance string
file.write("/Q %d\n" % self.alignflag)
file.write("/Opt [")
for value in self.values:
file.write(" (%s)" % value)
file.write(" ]\n")
file.write(">>\n")
# >>>
# vim:foldmethod=marker:foldmarker=<<<,>>>
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