# Copyright ReportLab Europe Ltd. 2000-2008
# see license.txt for license details
# history http://www.reportlab.co.uk/cgi-bin/viewcvs.cgi/public/reportlab/trunk/reportlab/platypus/paragraph.py
# Modifications by Dirk Holtwick, 2008
from __future__ import annotations
import re
import sys
from copy import deepcopy
from operator import truth
from string import whitespace
from typing import Callable
from reportlab.graphics import renderPDF
from reportlab.lib.abag import ABag
from reportlab.lib.colors import Color
from reportlab.lib.enums import TA_CENTER, TA_JUSTIFY, TA_LEFT, TA_RIGHT
from reportlab.lib.textsplit import ALL_CANNOT_START
from reportlab.pdfbase.pdfmetrics import getAscentDescent, stringWidth
from reportlab.platypus.flowables import Flowable
from reportlab.platypus.paraparser import ParaParser
from reportlab.rl_settings import _FUZZ
from xhtml2pdf.util import getSize
PARAGRAPH_DEBUG = False
LEADING_FACTOR = 1.0
_wsc_re_split = re.compile(
"[%s]+"
% re.escape(
"\t\n\x0b\x0c\r\x1c\x1d\x1e\x1f"
" \x85\u1680\u2000\u2001\u2002\u2003\u2004\u2005\u2006\u2007\u2008\u2009\u200a\u200b\u2028\u2029\u202f\u205f\u3000"
)
).split
def split(text, delim=None):
if isinstance(text, bytes):
text = text.decode("utf8")
if isinstance(delim, bytes):
delim = delim.decode("utf8")
elif delim is None and "\xa0" in text:
return [uword.encode("utf8") for uword in _wsc_re_split(text)]
return [uword.encode("utf8") for uword in text.split(delim)]
def strip(text):
if isinstance(text, bytes):
text = text.decode("utf8")
return text.strip().encode("utf8")
class ParaLines(ABag):
"""
class ParaLines contains the broken into lines representation of Paragraphs
kind=0 Simple
fontName, fontSize, textColor apply to whole Paragraph
lines [(extraSpace1,words1),....,(extraspaceN,wordsN)].
kind==1 Complex
lines [FragLine1,...,FragLineN]
"""
class FragLine(ABag):
"""
class FragLine contains a styled line (ie a line with more than one style)::
extraSpace unused space for justification only
wordCount 1+spaces in line for justification purposes
words [ParaFrags] style text lumps to be concatenated together
fontSize maximum fontSize seen on the line; not used at present,
but could be used for line spacing.
"""
# our one and only parser
# XXXXX if the parser has any internal state using only one is probably a BAD idea!
_parser = ParaParser()
def _lineClean(L):
return b" ".join(filter(truth, split(strip(L))))
def cleanBlockQuotedText(text, joiner=b" "):
"""
This is an internal utility which takes triple-
quoted text form within the document and returns
(hopefully) the paragraph the user intended originally.
"""
L = filter(truth, map(_lineClean, split(text, "\n")))
return joiner.join(L)
def setXPos(tx, dx):
if dx > 1e-6 or dx < -1e-6:
tx.setXPos(dx)
def _leftDrawParaLine(tx, offset, _extraspace, words, _last=0):
setXPos(tx, offset)
tx._textOut(b" ".join(words), 1)
setXPos(tx, -offset)
return offset
def _centerDrawParaLine(tx, offset, extraspace, words, _last=0):
m = offset + 0.5 * extraspace
setXPos(tx, m)
tx._textOut(b" ".join(words), 1)
setXPos(tx, -m)
return m
def _rightDrawParaLine(tx, offset, extraspace, words, _last=0):
m = offset + extraspace
setXPos(tx, m)
tx._textOut(b" ".join(words), 1)
setXPos(tx, -m)
return m
def _justifyDrawParaLine(tx, offset, extraspace, words, last=0):
setXPos(tx, offset)
text = b" ".join(words)
if last:
# last one, left align
tx._textOut(text, 1)
else:
nSpaces = len(words) - 1
if nSpaces:
tx.setWordSpace(extraspace / float(nSpaces))
tx._textOut(text, 1)
tx.setWordSpace(0)
else:
tx._textOut(text, 1)
setXPos(tx, -offset)
return offset
def imgVRange(h, va, fontSize):
"""Return bottom,top offsets relative to baseline(0)."""
if va == "baseline":
iyo = 0
elif va in ("text-top", "top"):
iyo = fontSize - h
elif va == "middle":
iyo = fontSize - (1.2 * fontSize + h) * 0.5
elif va in ("text-bottom", "bottom"):
iyo = fontSize - 1.2 * fontSize
elif va == "super":
iyo = 0.5 * fontSize
elif va == "sub":
iyo = -0.5 * fontSize
elif hasattr(va, "normalizedValue"):
iyo = va.normalizedValue(fontSize)
else:
iyo = va
return iyo, iyo + h
_56 = 5.0 / 6
_16 = 1.0 / 6
def _putFragLine(cur_x, tx, line):
xs = tx.XtraState
cur_y = xs.cur_y
x0 = tx._x0
autoLeading = xs.autoLeading
leading = xs.leading
cur_x += xs.leftIndent
dal = autoLeading in ("min", "max")
if dal:
if autoLeading == "max":
ascent = max(_56 * leading, line.ascent)
descent = max(_16 * leading, -line.descent)
else:
ascent = line.ascent
descent = -line.descent
leading = ascent + descent
if tx._leading != leading:
tx.setLeading(leading)
if dal:
olb = tx._olb
if olb is not None:
xcy = olb - ascent
if tx._oleading != leading:
cur_y += leading - tx._oleading
if abs(xcy - cur_y) > 1e-8:
cur_y = xcy
tx.setTextOrigin(x0, cur_y)
xs.cur_y = cur_y
tx._olb = cur_y - descent
tx._oleading = leading
# Letter spacing
if xs.style.letterSpacing != "normal":
tx.setCharSpace(getSize("".join(xs.style.letterSpacing)))
ws = getattr(tx, "_wordSpace", 0)
nSpaces = 0
words = line.words
for f in words:
if hasattr(f, "cbDefn"):
cbDefn = f.cbDefn
kind = cbDefn.kind
if kind == "img":
# draw image cbDefn,cur_y,cur_x
w = cbDefn.width
h = cbDefn.height
txfs = tx._fontsize
if txfs is None:
txfs = xs.style.fontSize
iy0, iy1 = imgVRange(h, cbDefn.valign, txfs)
cur_x_s = cur_x + nSpaces * ws
drawing = cbDefn.image.getDrawing(w, h)
if drawing:
renderPDF.draw(drawing, tx._canvas, cur_x_s, cur_y + iy0)
else:
tx._canvas.drawImage(
cbDefn.image.getImage(), cur_x_s, cur_y + iy0, w, h, mask="auto"
)
cur_x += w
cur_x_s += w
setXPos(tx, cur_x_s - tx._x0)
elif kind == "barcode":
barcode = cbDefn.barcode
w = cbDefn.width
h = cbDefn.height
txfs = tx._fontsize
if txfs is None:
txfs = xs.style.fontSize
iy0, iy1 = imgVRange(h, cbDefn.valign, txfs)
cur_x_s = cur_x + nSpaces * ws
barcode.draw(canvas=tx._canvas, xoffset=cur_x_s)
cur_x += w
cur_x_s += w
setXPos(tx, cur_x_s - tx._x0)
else:
name = cbDefn.name
if kind == "anchor":
tx._canvas.bookmarkHorizontal(name, cur_x, cur_y + leading)
else:
func = getattr(tx._canvas, name, None)
if not func:
msg = f"Missing {kind} callback attribute '{name}'"
raise AttributeError(msg)
func(tx._canvas, kind, cbDefn.label)
if f is words[-1]:
if not tx._fontname:
tx.setFont(xs.style.fontName, xs.style.fontSize)
tx._textOut("", 1)
elif kind == "img":
tx._textOut("", 1)
else:
cur_x_s = cur_x + nSpaces * ws
if (tx._fontname, tx._fontsize) != (f.fontName, f.fontSize):
tx._setFont(f.fontName, f.fontSize)
if xs.textColor != f.textColor:
xs.textColor = f.textColor
tx.setFillColor(f.textColor)
if xs.rise != f.rise:
xs.rise = f.rise
tx.setRise(f.rise)
text = f.text
tx._textOut(text, f is words[-1]) # cheap textOut
# XXX Modified for XHTML2PDF
# Background colors (done like underline)
if hasattr(f, "backColor") and (
xs.backgroundColor != f.backColor or xs.backgroundFontSize != f.fontSize
):
if xs.backgroundColor is not None:
xs.backgrounds.append(
(
xs.background_x,
cur_x_s,
xs.backgroundColor,
xs.backgroundFontSize,
)
)
xs.background_x = cur_x_s
xs.backgroundColor = f.backColor
xs.backgroundFontSize = f.fontSize
# Underline
if not (hasattr(xs, "underline") and xs.underline) and (
hasattr(f, "underline") and f.underline
):
xs.underline = 1
xs.underline_x = cur_x_s
xs.underlineColor = f.textColor
elif xs.underline:
if not f.underline:
xs.underline = 0
xs.underlines.append((xs.underline_x, cur_x_s, xs.underlineColor))
xs.underlineColor = None
elif xs.textColor != xs.underlineColor:
xs.underlines.append((xs.underline_x, cur_x_s, xs.underlineColor))
xs.underlineColor = xs.textColor
xs.underline_x = cur_x_s
# Strike
if not (hasattr(xs, "strike") and xs.strike) and (
hasattr(f, "strike") and f.strike
):
xs.strike = 1
xs.strike_x = cur_x_s
xs.strikeColor = f.textColor
# XXX Modified for XHTML2PDF
xs.strikeFontSize = f.fontSize
elif xs.strike:
if not f.strike:
xs.strike = 0
# XXX Modified for XHTML2PDF
xs.strikes.append(
(xs.strike_x, cur_x_s, xs.strikeColor, xs.strikeFontSize)
)
xs.strikeColor = None
xs.strikeFontSize = None
elif xs.textColor != xs.strikeColor:
xs.strikes.append(
(xs.strike_x, cur_x_s, xs.strikeColor, xs.strikeFontSize)
)
xs.strikeColor = xs.textColor
xs.strikeFontSize = f.fontSize
xs.strike_x = cur_x_s
if f.link and not xs.link:
if not xs.link:
xs.link = f.link
xs.link_x = cur_x_s
xs.linkColor = xs.textColor
elif xs.link:
if not f.link:
xs.links.append((xs.link_x, cur_x_s, xs.link, xs.linkColor))
xs.link = None
xs.linkColor = None
elif f.link != xs.link or xs.textColor != xs.linkColor:
xs.links.append((xs.link_x, cur_x_s, xs.link, xs.linkColor))
xs.link = f.link
xs.link_x = cur_x_s
xs.linkColor = xs.textColor
txtlen = tx._canvas.stringWidth(text, tx._fontname, tx._fontsize)
cur_x += txtlen
try:
nSpaces += text.count(" ")
except Exception:
nSpaces += text.decode("utf8").count(" ")
cur_x_s = cur_x + (nSpaces - 1) * ws
# XXX Modified for XHTML2PDF
# Underline
if xs.underline:
xs.underlines.append((xs.underline_x, cur_x_s, xs.underlineColor))
# XXX Modified for XHTML2PDF
# Backcolor
if words and hasattr(f, "backColor") and xs.backgroundColor is not None:
xs.backgrounds.append(
(xs.background_x, cur_x_s, xs.backgroundColor, xs.backgroundFontSize)
)
# XXX Modified for XHTML2PDF
# Strike
if xs.strike:
xs.strikes.append((xs.strike_x, cur_x_s, xs.strikeColor, xs.strikeFontSize))
if xs.link:
xs.links.append((xs.link_x, cur_x_s, xs.link, xs.linkColor))
if tx._x0 != x0:
setXPos(tx, x0 - tx._x0)
def _leftDrawParaLineX(tx, offset, line, _last=0):
setXPos(tx, offset)
_putFragLine(offset, tx, line)
setXPos(tx, -offset)
def _centerDrawParaLineX(tx, offset, line, _last=0):
m = offset + 0.5 * line.extraSpace
setXPos(tx, m)
_putFragLine(m, tx, line)
setXPos(tx, -m)
def _rightDrawParaLineX(tx, offset, line, _last=0):
m = offset + line.extraSpace
setXPos(tx, m)
_putFragLine(m, tx, line)
setXPos(tx, -m)
def _justifyDrawParaLineX(tx, offset, line, last=0):
setXPos(tx, offset)
extraSpace = line.extraSpace
nSpaces = line.wordCount - 1
if (
last
or not nSpaces
or abs(extraSpace) <= 1e-8
or (hasattr(line, "lineBreak") and line.lineBreak)
):
_putFragLine(offset, tx, line) # no space modification
else:
tx.setWordSpace(extraSpace / float(nSpaces))
_putFragLine(offset, tx, line)
tx.setWordSpace(0)
setXPos(tx, -offset)
def _sameFrag(f, g):
"""Returns 1 if two ParaFrags map out the same."""
if (
hasattr(f, "cbDefn")
or hasattr(g, "cbDefn")
or hasattr(f, "lineBreak")
or hasattr(g, "lineBreak")
):
return 0
for a in (
"fontName",
"fontSize",
"textColor",
"backColor",
"rise",
"underline",
"strike",
"link",
):
if getattr(f, a, None) != getattr(g, a, None):
return 0
return 1
def reverse_sentence(sentence):
words = str(sentence).split(" ")
reverse_sentence = " ".join(reversed(words))
return reverse_sentence[::-1]
def _getFragWords(frags, *, reverse=False):
"""
Given a Parafrag list return a list of fragwords
[[size, (f00,w00), ..., (f0n,w0n)],....,[size, (fm0,wm0), ..., (f0n,wmn)]]
each pair f,w represents a style and some string
each sublist represents a word.
"""
R = []
W = []
n = 0
hangingStrip = False
for f in frags:
text = f.text
if isinstance(text, bytes):
text = text.decode("utf8")
if reverse:
text = reverse_sentence(text)
# of paragraphs
if text:
if hangingStrip:
hangingStrip = False
text = text.lstrip()
S = split(text)
if reverse:
S.reverse()
if [] == S:
S = [""]
if [] != W and text[0] in whitespace:
W.insert(0, n)
R.append(W)
W = []
n = 0
for w in S[:-1]:
W.append((f, w))
n += stringWidth(w, f.fontName, f.fontSize)
W.insert(0, n)
R.append(W)
W = []
n = 0
w = S[-1]
W.append((f, w))
n += stringWidth(w, f.fontName, f.fontSize)
if text and text[-1] in whitespace:
W.insert(0, n)
R.append(W)
W = []
n = 0
elif hasattr(f, "cbDefn"):
w = getattr(f.cbDefn, "width", 0)
if w:
if [] != W:
W.insert(0, n)
R.append(W)
W = []
n = 0
R.append([w, (f, "")])
else:
W.append((f, ""))
elif hasattr(f, "lineBreak"):
# pass the frag through. The line breaker will scan for it.
if [] != W:
W.insert(0, n)
R.append(W)
W = []
n = 0
R.append([0, (f, "")])
hangingStrip = True
if [] != W:
W.insert(0, n)
R.append(W)
return R
def _split_blParaSimple(blPara, start: int, stop: int) -> list:
f = blPara.clone()
for a in ("lines", "kind", "text"):
if hasattr(f, a):
delattr(f, a)
f.words = []
for line in blPara.lines[start:stop]:
for w in line[1]:
f.words.append(w)
return [f]
def _split_blParaHard(blPara, start: int, stop: int) -> list:
f = []
lines = blPara.lines[start:stop]
for line in lines:
for w in line.words:
f.append(w) # noqa: PERF402
if line is not lines[-1]:
i = len(f) - 1
while (
i >= 0
and hasattr(f[i], "cbDefn")
and not getattr(f[i].cbDefn, "width", 0)
):
i -= 1
if i >= 0:
g = f[i]
if not g.text:
g.text = " "
else:
if isinstance(g.text, bytes):
g.text = g.text.decode("utf8")
if g.text[-1] != " ":
g.text += " "
return f
def _drawBullet(canvas, offset, cur_y, bulletText, style):
"""Draw a bullet text could be a simple string or a frag list."""
tx2 = canvas.beginText(
style.bulletIndent, cur_y + getattr(style, "bulletOffsetY", 0)
)
tx2.setFont(style.bulletFontName, style.bulletFontSize)
tx2.setFillColor(
hasattr(style, "bulletColor") and style.bulletColor or style.textColor
)
if isinstance(bulletText, str):
tx2.textOut(bulletText)
else:
for f in bulletText:
if hasattr(f, "image"):
image = f.image
width = image.drawWidth
height = image.drawHeight
gap = style.bulletFontSize * 0.25
img = image.getImage()
# print style.bulletIndent, offset, width
canvas.drawImage(
img,
style.leftIndent - width - gap,
cur_y + getattr(style, "bulletOffsetY", 0),
width,
height,
)
else:
tx2.setFont(f.fontName, f.fontSize)
tx2.setFillColor(f.textColor)
tx2.textOut(f.text)
canvas.drawText(tx2)
# AR making definition lists a bit less ugly
# bulletEnd = tx2.getX()
bulletEnd = tx2.getX() + style.bulletFontSize * 0.6
return max(offset, bulletEnd - style.leftIndent)
def _handleBulletWidth(bulletText, style, maxWidths):
"""Work out bullet width and adjust maxWidths[0] if neccessary."""
if bulletText:
if isinstance(bulletText, str):
bulletWidth = stringWidth(
bulletText, style.bulletFontName, style.bulletFontSize
)
else:
# it's a list of fragments
bulletWidth = 0
for f in bulletText:
bulletWidth = bulletWidth + stringWidth(f.text, f.fontName, f.fontSize)
bulletRight = style.bulletIndent + bulletWidth + 0.6 * style.bulletFontSize
indent = style.leftIndent + style.firstLineIndent
if bulletRight > indent:
# ..then it overruns, and we have less space available on line 1
maxWidths[0] -= bulletRight - indent
def splitLines0(frags, widths):
"""
Given a list of ParaFrags we return a list of ParaLines.
each ParaLine has
1) ExtraSpace
2) blankCount
3) [textDefns....]
each text definition is a (ParaFrag, start, limit) triplet
"""
# initialise the algorithm
lineNum = 0
maxW = widths[lineNum]
i = -1
line = len(frags)
lim = start = 0
text = frags[0]
while 1:
# find a non whitespace character
while i < line:
while start < lim and text[start] == " ":
start += 1
if start == lim:
i += 1
if i == line:
break
start = 0
f = frags[i]
text = f.text
lim = len(text)
else:
break # we found one
if start == lim:
break # if we didn't find one we are done
# start of a line
g = (None, None, None)
line = []
cLen = 0
nSpaces = 0
while cLen < maxW:
j = text.find(" ", start)
if j < 0:
j = lim
w = stringWidth(text[start:j], f.fontName, f.fontSize)
cLen += w
if cLen > maxW and line != []:
cLen = cLen - w
# this is the end of the line
while g.text[lim] == " ":
lim -= 1
nSpaces -= 1
break
if j < 0:
j = lim
if g[0] is f:
g[2] = j # extend
else:
g = (f, start, j)
line.append(g)
if j == lim:
i += 1
def _do_under_line(i, t_off, ws, tx, lm=-0.125):
y = (
tx.XtraState.cur_y
- i * tx.XtraState.style.leading
+ lm * tx.XtraState.f.fontSize
)
textlen = tx._canvas.stringWidth(
b" ".join(tx.XtraState.lines[i][1]), tx._fontname, tx._fontsize
)
tx._canvas.line(t_off, y, t_off + textlen + ws, y)
_scheme_re = re.compile("^[a-zA-Z][-+a-zA-Z0-9]+$")
def _doLink(tx, link, rect):
parts = link.split(":", 1)
scheme = len(parts) == 2 and parts[0].lower() or ""
if _scheme_re.match(scheme) and scheme != "document":
kind = scheme.lower() == "pdf" and "GoToR" or "URI"
if kind == "GoToR":
link = parts[1]
tx._canvas.linkURL(link, rect, relative=1, kind=kind)
else:
if link[0] == "#":
link = link[1:]
scheme = ""
tx._canvas.linkRect(
"", scheme != "document" and link or parts[1], rect, relative=1
)
def _do_link_line(i, t_off, ws, tx):
xs = tx.XtraState
leading = xs.style.leading
y = xs.cur_y - i * leading - xs.f.fontSize / 8.0 # 8.0 factor copied from para.py
text = b" ".join(xs.lines[i][1])
textlen = tx._canvas.stringWidth(text, tx._fontname, tx._fontsize)
_doLink(tx, xs.link, (t_off, y, t_off + textlen + ws, y + leading))
# XXX Modified for XHTML2PDF
def _do_post_text(tx):
"""
Try to find out what the variables mean:
tx A structure containing more informations about paragraph ???
leading Height of lines
ff 1/8 of the font size
y0 The "baseline" postion ???
y 1/8 below the baseline
"""
xs = tx.XtraState
leading = xs.style.leading
autoLeading = xs.autoLeading
f = xs.f
if autoLeading == "max":
# leading = max(leading, f.fontSize)
leading = max(leading, LEADING_FACTOR * f.fontSize)
elif autoLeading == "min":
leading = LEADING_FACTOR * f.fontSize
ff = 0.125 * f.fontSize
y0 = xs.cur_y
y = y0 - ff
# Background
for x1, x2, c, fs in xs.backgrounds:
inlineFF = fs * 0.125
gap = inlineFF * 1.25
tx._canvas.setFillColor(c)
tx._canvas.rect(x1, y - gap, x2 - x1, fs + 1, fill=1, stroke=0)
xs.backgrounds = []
xs.background = 0
xs.backgroundColor = None
xs.backgroundFontSize = None
# Underline
yUnderline = y0 - 1.5 * ff
tx._canvas.setLineWidth(ff * 0.75)
csc = None
for x1, x2, c in xs.underlines:
if c != csc:
tx._canvas.setStrokeColor(c)
csc = c
tx._canvas.line(x1, yUnderline, x2, yUnderline)
xs.underlines = []
xs.underline = 0
xs.underlineColor = None
# Strike
for x1, x2, c, fs in xs.strikes:
inlineFF = fs * 0.125
ys = y0 + 2 * inlineFF
if c != csc:
tx._canvas.setStrokeColor(c)
csc = c
tx._canvas.setLineWidth(inlineFF * 0.75)
tx._canvas.line(x1, ys, x2, ys)
xs.strikes = []
xs.strike = 0
xs.strikeColor = None
yl = y + leading
for x1, x2, link, _c in xs.links:
# No automatic underlining for links, never!
_doLink(tx, link, (x1, y, x2, yl))
xs.links = []
xs.link = None
xs.linkColor = None
xs.cur_y -= leading
def textTransformFrags(frags, style):
tt = style.textTransform
if tt:
tt = tt.lower()
if tt == "lowercase":
tt = str.lower
elif tt == "uppercase":
tt = str.upper
elif tt == "capitalize":
tt = str.title
elif tt == "none":
return
else:
raise ValueError(
"ParaStyle.textTransform value %r is invalid" % style.textTransform
)
n = len(frags)
if n == 1:
# single fragment the easy case
frags[0].text = tt(frags[0].text.decode("utf8")).encode("utf8")
elif tt is str.title:
pb = True
for f in frags:
t = f.text
if not t:
continue
u = t.decode("utf8")
if u.startswith(" ") or pb:
u = tt(u)
else:
i = u.find(" ")
if i >= 0:
u = u[:i] + tt(u[i:])
pb = u.endswith(" ")
f.text = u.encode("utf8")
else:
for f in frags:
t = f.text
if not t:
continue
f.text = tt(t.decode("utf8")).encode("utf8")
class cjkU(str): # noqa: SLOT000
"""simple class to hold the frag corresponding to a str."""
def __new__(cls, value, frag, _encoding):
self = str.__new__(cls, value)
self._frag = frag
if hasattr(frag, "cbDefn"):
w = getattr(frag.cbDefn, "width", 0)
self._width = w
else:
self._width = stringWidth(value, frag.fontName, frag.fontSize)
return self
frag = property(lambda self: self._frag)
width = property(lambda self: self._width)
def makeCJKParaLine(U, extraSpace, calcBounds):
words = []
CW = []
f0 = FragLine()
maxSize = maxAscent = minDescent = 0
for u in U:
f = u.frag
fontSize = f.fontSize
if calcBounds:
cbDefn = getattr(f, "cbDefn", None)
if getattr(cbDefn, "width", 0):
descent, ascent = imgVRange(cbDefn.height, cbDefn.valign, fontSize)
else:
ascent, descent = getAscentDescent(f.fontName, fontSize)
else:
ascent, descent = getAscentDescent(f.fontName, fontSize)
maxSize = max(maxSize, fontSize)
maxAscent = max(maxAscent, ascent)
minDescent = min(minDescent, descent)
if not _sameFrag(f0, f):
f0 = f0.clone()
f0.text = "".join(CW)
words.append(f0)
CW = []
f0 = f
CW.append(u)
if CW:
f0 = f0.clone()
f0.text = "".join(CW)
words.append(f0)
return FragLine(
kind=1,
extraSpace=extraSpace,
wordCount=1,
words=words[1:],
fontSize=maxSize,
ascent=maxAscent,
descent=minDescent,
)
def cjkFragSplit(frags, maxWidths, calcBounds, encoding="utf8"):
"""This attempts to be wordSplit for frags using the dumb algorithm."""
U = [] # get a list of single glyphs with their widths etc etc
for f in frags:
text = f.text
if not isinstance(text, str):
text = text.decode(encoding)
if text:
U.extend([cjkU(t, f, encoding) for t in text])
else:
U.append(cjkU(text, f, encoding))
lines = []
widthUsed = lineStartPos = 0
maxWidth = maxWidths[0]
for i, u in enumerate(U):
w = u.width
widthUsed += w
lineBreak = hasattr(u.frag, "lineBreak")
endLine = (widthUsed > maxWidth + _FUZZ and widthUsed > 0) or lineBreak
if endLine:
if lineBreak:
continue
extraSpace = maxWidth - widthUsed + w
# This is the most important of the Japanese typography rules.
# if next character cannot start a line, wrap it up to this line so it hangs
# in the right margin. We won't do two or more though - that's unlikely and
# would result in growing ugliness.
nextChar = U[i]
if nextChar in ALL_CANNOT_START:
extraSpace -= w
i += 1
lines.append(makeCJKParaLine(U[lineStartPos:i], extraSpace, calcBounds))
try:
maxWidth = maxWidths[len(lines)]
except IndexError:
maxWidth = maxWidths[-1] # use the last one
lineStartPos = i
widthUsed = w
i -= 1
# any characters left?
if widthUsed > 0:
lines.append(
makeCJKParaLine(U[lineStartPos:], maxWidth - widthUsed, calcBounds)
)
return ParaLines(kind=1, lines=lines)
class Paragraph(Flowable):
"""
Paragraph(text, style, bulletText=None, caseSensitive=1)
text a string of stuff to go into the paragraph.
style is a style definition as in reportlab.lib.styles.
bulletText is an optional bullet defintion.
caseSensitive set this to 0 if you want the markup tags and their attributes to be case-insensitive.
This class is a flowable that can format a block of text
into a paragraph with a given style.
The paragraph Text can contain XML-like markup including the tags:
... - bold
... - italics
... - underline
... - strike through
... - superscript
... - subscript
link text
attributes of links
size/fontSize=num
name/face/fontName=name
fg/textColor/color=color
backcolor/backColor/bgcolor=color
dest/destination/target/href/link=target
anchor text
attributes of anchors
fontSize=num
fontName=name
fg/textColor/color=color
backcolor/backColor/bgcolor=color
href=href
The whole may be surrounded by tags
The and tags will work for the built-in fonts (Helvetica
/Times / Courier). For other fonts you need to register a family
of 4 fonts using reportlab.pdfbase.pdfmetrics.registerFont; then
use the addMapping function to tell the library that these 4 fonts
form a family e.g.
from reportlab.lib.fonts import addMapping
addMapping('Vera', 0, 0, 'Vera') #normal
addMapping('Vera', 0, 1, 'Vera-Italic') #italic
addMapping('Vera', 1, 0, 'Vera-Bold') #bold
addMapping('Vera', 1, 1, 'Vera-BoldItalic') #italic and bold
It will also be able to handle any MathML specified Greek characters.
"""
def __init__(
self,
text,
style,
bulletText=None,
frags=None,
caseSensitive=1,
encoding="utf8",
dir="ltr", # noqa: A002
) -> None:
self.dir = dir
self.caseSensitive = caseSensitive
self.encoding = encoding
self._setup(text, style, bulletText, frags, cleanBlockQuotedText)
def __repr__(self) -> str:
n = type(self).__name__
L = [n + "("]
keys = self.__dict__.keys()
for k in keys:
v = getattr(self, k)
rk = repr(k)
rv = repr(v)
rk = " " + rk.replace("\n", "\n ")
rv = " " + rk.replace("\n", "\n ")
L.extend((rk, rv))
L.append(") #" + n)
return "\n".join(L)
def _setup(self, text, style, bulletText, frags, cleaner):
if frags is None:
text = cleaner(text)
_parser.caseSensitive = self.caseSensitive
style, frags, bulletTextFrags = _parser.parse(text, style)
if frags is None:
msg = "xml parser error ({}) in paragraph beginning\n'{}'".format(
_parser.errors[0], text[: min(30, len(text))]
)
raise ValueError(msg)
textTransformFrags(frags, style)
if bulletTextFrags:
bulletText = bulletTextFrags
# AR hack
self.text = text
self.frags = frags
self.style = style
self.bulletText = bulletText
self.debug = PARAGRAPH_DEBUG # turn this on to see a pretty one with all the margins etc.
def wrap(self, availWidth, availHeight):
if self.debug:
print(id(self), "wrap")
try:
print(repr(self.getPlainText()[:80]))
except Exception:
print("???")
# work out widths array for breaking
self.width = availWidth
style = self.style
leftIndent = style.leftIndent
first_line_width = (
availWidth - (leftIndent + style.firstLineIndent) - style.rightIndent
)
later_widths = availWidth - leftIndent - style.rightIndent
if style.wordWrap == "CJK":
# use Asian text wrap algorithm to break characters
blPara = self.breakLinesCJK([first_line_width, later_widths])
else:
blPara = self.breakLines([first_line_width, later_widths])
self.blPara = blPara
autoLeading = getattr(self, "autoLeading", getattr(style, "autoLeading", ""))
leading = style.leading
if blPara.kind == 1 and autoLeading not in ("", "off"):
height = 0
if autoLeading == "max":
for line in blPara.lines:
height += max(line.ascent - line.descent, leading)
elif autoLeading == "min":
for line in blPara.lines:
height += line.ascent - line.descent
else:
raise ValueError("invalid autoLeading value %r" % autoLeading)
else:
if autoLeading == "max":
leading = max(leading, LEADING_FACTOR * style.fontSize)
elif autoLeading == "min":
leading = LEADING_FACTOR * style.fontSize
height = len(blPara.lines) * leading
self.height = height
return self.width, height
def minWidth(self):
"""Attempt to determine a minimum sensible width."""
frags = self.frags
nFrags = len(frags)
if not nFrags:
return 0
if nFrags == 1:
f = frags[0]
fS = f.fontSize
fN = f.fontName
words = hasattr(f, "text") and split(f.text, " ") or f.words
def func(w: list, fS=fS, fN=fN) -> int:
return stringWidth(w, fN, fS)
else:
words = _getFragWords(frags)
def func(w: list, fS=None, fN=None) -> int: # noqa: ARG001
return w[0]
return max(map(func, words))
def _get_split_blParaFunc(self) -> Callable:
return _split_blParaSimple if self.blPara.kind == 0 else _split_blParaHard
def split(self, availWidth, availHeight):
if self.debug:
print(id(self), "split")
if len(self.frags) <= 0:
return []
# the split information is all inside self.blPara
if not hasattr(self, "blPara"):
self.wrap(availWidth, availHeight)
blPara = self.blPara
style = self.style
autoLeading = getattr(self, "autoLeading", getattr(style, "autoLeading", ""))
leading = style.leading
lines = blPara.lines
if blPara.kind == 1 and autoLeading not in ("", "off"):
s = height = 0
if autoLeading == "max":
for i, line in enumerate(blPara.lines):
h = max(line.ascent - line.descent, leading)
n = height + h
if n > availHeight + 1e-8:
break
height = n
s = i + 1
elif autoLeading == "min":
for i, line in enumerate(blPara.lines):
n = height + line.ascent - line.descent
if n > availHeight + 1e-8:
break
height = n
s = i + 1
else:
raise ValueError("invalid autoLeading value %r" % autoLeading)
else:
line = leading
if autoLeading == "max":
line = max(leading, LEADING_FACTOR * style.fontSize)
elif autoLeading == "min":
line = LEADING_FACTOR * style.fontSize
s = int(availHeight / line)
height = s * line
n = len(lines)
allowWidows = getattr(self, "allowWidows", getattr(self, "allowWidows", 1))
allowOrphans = getattr(self, "allowOrphans", getattr(self, "allowOrphans", 0))
if not allowOrphans and s <= 1: # orphan?
del self.blPara
return []
if n <= s:
return [self]
if not allowWidows and n == s + 1: # widow?
if (allowOrphans and n == 3) or n > 3:
s -= 1 # give the widow some company
else:
del self.blPara # no room for adjustment; force the whole para onwards
return []
func = self._get_split_blParaFunc()
P1 = type(self)(
None, style, bulletText=self.bulletText, frags=func(blPara, 0, s)
)
# this is a major hack
P1.blPara = ParaLines(
kind=1, lines=blPara.lines[0:s], aH=availHeight, aW=availWidth
)
P1._JustifyLast = 1
P1._splitpara = 1
P1.height = height
P1.width = availWidth
if style.firstLineIndent != 0:
style = deepcopy(style)
style.firstLineIndent = 0
P2 = type(self)(None, style, bulletText=None, frags=func(blPara, s, n))
for a in (
"autoLeading", # possible attributes that might be directly on self.
):
if hasattr(self, a):
setattr(P1, a, getattr(self, a))
setattr(P2, a, getattr(self, a))
return [P1, P2]
def draw(self):
# call another method for historical reasons. Besides, I
# suspect I will be playing with alternate drawing routines
# so not doing it here makes it easier to switch.
self.drawPara(self.debug)
def breakLines(self, width):
"""
Returns a broken line structure. There are two cases.
A) For the simple case of a single formatting input fragment the output is
A fragment specifier with
- kind = 0
- fontName, fontSize, leading, textColor
- lines= A list of lines
Each line has two items.
1. unused width in points
2. word list
B) When there is more than one input formatting fragment the output is
A fragment specifier with
- kind = 1
- lines= A list of fragments each having fields
- extraspace (needed for justified)
- fontSize
- words=word list
each word is itself a fragment with
various settings
This structure can be used to easily draw paragraphs with the various alignments.
You can supply either a single width or a list of widths; the latter will have its
last item repeated until necessary. A 2-element list is useful when there is a
different first line indent; a longer list could be created to facilitate custom wraps
around irregular objects.
"""
if self.debug:
print(id(self), "breakLines")
maxWidths = [width] if not isinstance(width, (tuple, list)) else width
lines = []
lineno = 0
style = self.style
# for bullets, work out width and ensure we wrap the right amount onto line one
_handleBulletWidth(self.bulletText, style, maxWidths)
maxWidth = maxWidths[0]
self.height = 0
autoLeading = getattr(self, "autoLeading", getattr(style, "autoLeading", ""))
calcBounds = autoLeading not in ("", "off")
frags = self.frags
nFrags = len(frags)
if nFrags == 1 and not hasattr(frags[0], "cbDefn"):
f = frags[0]
fontSize = f.fontSize
fontName = f.fontName
ascent, descent = getAscentDescent(fontName, fontSize)
words = hasattr(f, "text") and split(f.text, " ") or f.words
spaceWidth = stringWidth(" ", fontName, fontSize, self.encoding)
cLine = []
currentWidth = -spaceWidth # hack to get around extra space for word 1
for word in words:
# this underscores my feeling that Unicode throughout would be easier!
wordWidth = stringWidth(word, fontName, fontSize, self.encoding)
newWidth = currentWidth + spaceWidth + wordWidth
if newWidth <= maxWidth or not len(cLine):
# fit one more on this line
cLine.append(word)
currentWidth = newWidth
else:
if currentWidth > self.width:
self.width = currentWidth
# end of line
lines.append((maxWidth - currentWidth, cLine))
cLine = [word]
currentWidth = wordWidth
lineno += 1
try:
maxWidth = maxWidths[lineno]
except IndexError:
maxWidth = maxWidths[-1] # use the last one
# deal with any leftovers on the final line
if cLine != []:
if currentWidth > self.width:
self.width = currentWidth
lines.append((maxWidth - currentWidth, cLine))
return f.clone(
kind=0, lines=lines, ascent=ascent, descent=descent, fontSize=fontSize
)
if nFrags <= 0:
return ParaLines(
kind=0,
fontSize=style.fontSize,
fontName=style.fontName,
textColor=style.textColor,
ascent=style.fontSize,
descent=-0.2 * style.fontSize,
lines=[],
)
if hasattr(self, "blPara") and getattr(self, "_splitpara", 0):
# NB this is an utter hack that awaits the proper information
# preserving splitting algorithm
return self.blPara
n = 0
words = []
frag_words = _getFragWords(frags, reverse=self.dir == "rtl")
if self.dir == "rtl":
frag_words.reverse()
for w in frag_words:
f = w[-1][0]
fontName = f.fontName
fontSize = f.fontSize
spaceWidth = stringWidth(" ", fontName, fontSize)
if not words:
currentWidth = -spaceWidth # hack to get around extra space for word 1
maxSize = fontSize
maxAscent, minDescent = getAscentDescent(fontName, fontSize)
wordWidth = w[0]
f = w[1][0]
if wordWidth > 0:
newWidth = currentWidth + spaceWidth + wordWidth
else:
newWidth = currentWidth
# test to see if this frag is a line break. If it is we will only act on it
# if the current width is non-negative or the previous thing was a deliberate lineBreak
lineBreak = hasattr(f, "lineBreak")
endLine = (newWidth > maxWidth and n > 0) or lineBreak
if not endLine:
if lineBreak:
continue # throw it away
nText = w[1][1] if isinstance(w[1][1], str) else str(w[1][1], "utf-8")
if nText:
n += 1
fontSize = f.fontSize
if calcBounds:
cbDefn = getattr(f, "cbDefn", None)
if getattr(cbDefn, "width", 0):
descent, ascent = imgVRange(
cbDefn.height, cbDefn.valign, fontSize
)
else:
ascent, descent = getAscentDescent(f.fontName, fontSize)
else:
ascent, descent = getAscentDescent(f.fontName, fontSize)
maxSize = max(maxSize, fontSize)
maxAscent = max(maxAscent, ascent)
minDescent = min(minDescent, descent)
if not words:
g = f.clone()
words = [g]
g.text = nText
elif not _sameFrag(g, f):
if currentWidth > 0 and (
(nText and not nText.startswith(" ")) or hasattr(f, "cbDefn")
):
if hasattr(g, "cbDefn"):
i = len(words) - 1
while i >= 0:
wi = words[i]
cbDefn = getattr(wi, "cbDefn", None)
if cbDefn and not getattr(cbDefn, "width", 0):
i -= 1
continue
if not wi.text.endswith(" "):
wi.text += " "
break
else:
space = " " if isinstance(g.text, str) else b" "
if not g.text.endswith(space):
g.text += space
g = f.clone()
words.append(g)
g.text = nText
else:
if isinstance(g.text, bytes):
g.text = g.text.decode("utf8")
if isinstance(nText, bytes):
nText = nText.decode("utf8")
if nText and not nText.startswith(" "):
g.text += " " + nText
for i in w[2:]:
g = i[0].clone()
g.text = i[1]
words.append(g)
fontSize = g.fontSize
if calcBounds:
cbDefn = getattr(g, "cbDefn", None)
if getattr(cbDefn, "width", 0):
descent, ascent = imgVRange(
cbDefn.height, cbDefn.valign, fontSize
)
else:
ascent, descent = getAscentDescent(g.fontName, fontSize)
else:
ascent, descent = getAscentDescent(g.fontName, fontSize)
maxSize = max(maxSize, fontSize)
maxAscent = max(maxAscent, ascent)
minDescent = min(minDescent, descent)
currentWidth = newWidth
else: # either it won't fit, or it's a lineBreak tag
if lineBreak:
g = f.clone()
words.append(g)
if currentWidth > self.width:
self.width = currentWidth
# end of line
lines.append(
FragLine(
extraSpace=maxWidth - currentWidth,
wordCount=n,
lineBreak=lineBreak,
words=words,
fontSize=maxSize,
ascent=maxAscent,
descent=minDescent,
)
)
# start new line
lineno += 1
try:
maxWidth = maxWidths[lineno]
except IndexError:
maxWidth = maxWidths[-1] # use the last one
if lineBreak:
n = 0
words = []
continue
currentWidth = wordWidth
n = 1
g = f.clone()
maxSize = g.fontSize
if calcBounds:
cbDefn = getattr(g, "cbDefn", None)
if getattr(cbDefn, "width", 0):
minDescent, maxAscent = imgVRange(
cbDefn.height, cbDefn.valign, maxSize
)
else:
maxAscent, minDescent = getAscentDescent(g.fontName, maxSize)
else:
maxAscent, minDescent = getAscentDescent(g.fontName, maxSize)
words = [g]
g.text = w[1][1]
for i in w[2:]:
g = i[0].clone()
g.text = i[1]
words.append(g)
fontSize = g.fontSize
if calcBounds:
cbDefn = getattr(g, "cbDefn", None)
if getattr(cbDefn, "width", 0):
descent, ascent = imgVRange(
cbDefn.height, cbDefn.valign, fontSize
)
else:
ascent, descent = getAscentDescent(g.fontName, fontSize)
else:
ascent, descent = getAscentDescent(g.fontName, fontSize)
maxSize = max(maxSize, fontSize)
maxAscent = max(maxAscent, ascent)
minDescent = min(minDescent, descent)
# deal with any leftovers on the final line
if words != []:
if currentWidth > self.width:
self.width = currentWidth
lines.append(
ParaLines(
extraSpace=(maxWidth - currentWidth),
wordCount=n,
words=words,
fontSize=maxSize,
ascent=maxAscent,
descent=minDescent,
)
)
return ParaLines(kind=1, lines=lines)
def breakLinesCJK(self, width):
"""
Initially, the dumbest possible wrapping algorithm.
Cannot handle font variations.
"""
if self.debug:
print(id(self), "breakLinesCJK")
maxWidths = width if isinstance(width, (list, tuple)) else [width]
style = self.style
# for bullets, work out width and ensure we wrap the right amount onto line one
_handleBulletWidth(self.bulletText, style, maxWidths)
if len(self.frags) > 1:
autoLeading = getattr(
self, "autoLeading", getattr(style, "autoLeading", "")
)
calcBounds = autoLeading not in ("", "off")
return cjkFragSplit(self.frags, maxWidths, calcBounds, self.encoding)
if not len(self.frags):
return ParaLines(
kind=0,
fontSize=style.fontSize,
fontName=style.fontName,
textColor=style.textColor,
lines=[],
ascent=style.fontSize,
descent=-0.2 * style.fontSize,
)
f = self.frags[0]
if 1 and hasattr(self, "blPara") and getattr(self, "_splitpara", 0):
# NB this is an utter hack that awaits the proper information
# preserving splitting algorithm
return f.clone(kind=0, lines=self.blPara.lines)
lines = []
self.height = 0
f = self.frags[0]
text = f.text if hasattr(f, "text") else "".join(getattr(f, "words", []))
from reportlab.lib.textsplit import wordSplit
lines = wordSplit(text, maxWidths[0], f.fontName, f.fontSize)
# the paragraph drawing routine assumes multiple frags per line, so we need an
# extra list like this
# [space, [text]]
#
wrappedLines = [(sp, [line]) for (sp, line) in lines]
return f.clone(
kind=0, lines=wrappedLines, ascent=f.fontSize, descent=-0.2 * f.fontSize
)
def beginText(self, x, y):
return self.canv.beginText(x, y)
def drawPara(self, debug=0):
"""
Draws a paragraph according to the given style.
Returns the final y position at the bottom. Not safe for
paragraphs without spaces e.g. Japanese; wrapping
algorithm will go infinite.
"""
if self.debug:
print(id(self), "drawPara", self.blPara.kind)
# stash the key facts locally for speed
canvas = self.canv
style = self.style
blPara = self.blPara
lines = blPara.lines
leading = style.leading
autoLeading = getattr(self, "autoLeading", getattr(style, "autoLeading", ""))
# work out the origin for line 1
leftIndent = style.leftIndent
cur_x = leftIndent
if debug:
bw = 0.5
bc = Color(1, 1, 0)
bg = Color(0.9, 0.9, 0.9)
else:
bw = getattr(style, "borderWidth", None)
bc = getattr(style, "borderColor", None)
bg = style.backColor
# if has a background or border, draw it
if bg or (bc and bw):
canvas.saveState()
op = canvas.rect
kwds = {"fill": 0, "stroke": 0}
if bc and bw:
canvas.setStrokeColor(bc)
canvas.setLineWidth(bw)
kwds["stroke"] = 1
br = getattr(style, "borderRadius", 0)
if br and not debug:
op = canvas.roundRect
kwds["radius"] = br
if bg:
canvas.setFillColor(bg)
kwds["fill"] = 1
bp = getattr(style, "borderPadding", 0)
op(
leftIndent - bp,
-bp,
self.width - (leftIndent + style.rightIndent) + 2 * bp,
self.height + 2 * bp,
**kwds,
)
canvas.restoreState()
nLines = len(lines)
bulletText = self.bulletText
if nLines > 0:
_offsets = getattr(self, "_offsets", [0])
_offsets += (nLines - len(_offsets)) * [_offsets[-1]]
canvas.saveState()
alignment = style.alignment
offset = style.firstLineIndent + _offsets[0]
lim = nLines - 1
noJustifyLast = not (hasattr(self, "_JustifyLast") and self._JustifyLast)
if blPara.kind == 0:
if alignment == TA_LEFT:
dpl = _leftDrawParaLine
elif alignment == TA_CENTER:
dpl = _centerDrawParaLine
elif self.style.alignment == TA_RIGHT:
dpl = _rightDrawParaLine
elif self.style.alignment == TA_JUSTIFY:
dpl = _justifyDrawParaLine
f = blPara
cur_y = self.height - getattr(
f, "ascent", f.fontSize
) # TODO fix XPreformatted to remove this hack
if bulletText:
offset = _drawBullet(canvas, offset, cur_y, bulletText, style)
# set up the font etc.
canvas.setFillColor(f.textColor)
tx = self.beginText(cur_x, cur_y)
if autoLeading == "max":
leading = max(leading, LEADING_FACTOR * f.fontSize)
elif autoLeading == "min":
leading = LEADING_FACTOR * f.fontSize
# now the font for the rest of the paragraph
tx.setFont(f.fontName, f.fontSize, leading)
ws = getattr(tx, "_wordSpace", 0)
t_off = dpl(tx, offset, ws, lines[0][1], noJustifyLast and nLines == 1)
if (
(hasattr(f, "underline") and f.underline)
or f.link
or (hasattr(f, "strike") and f.strike)
):
xs = tx.XtraState = ABag()
xs.cur_y = cur_y
xs.f = f
xs.style = style
xs.lines = lines
xs.underlines = []
xs.underlineColor = None
# XXX Modified for XHTML2PDF
xs.backgrounds = []
xs.backgroundColor = None
xs.backgroundFontSize = None
xs.strikes = []
xs.strikeColor = None
# XXX Modified for XHTML2PDF
xs.strikeFontSize = None
xs.links = []
xs.link = f.link
canvas.setStrokeColor(f.textColor)
dx = t_off + leftIndent
if dpl != _justifyDrawParaLine:
ws = 0
# XXX Never underline!
underline = f.underline
strike = f.strike
link = f.link
if underline:
_do_under_line(0, dx, ws, tx)
if strike:
_do_under_line(0, dx, ws, tx, lm=0.125)
if link:
_do_link_line(0, dx, ws, tx)
# now the middle of the paragraph, aligned with the left margin which is our origin.
for i in range(1, nLines):
ws = lines[i][0]
t_off = dpl(
tx, _offsets[i], ws, lines[i][1], noJustifyLast and i == lim
)
if dpl != _justifyDrawParaLine:
ws = 0
if underline:
_do_under_line(i, t_off + leftIndent, ws, tx)
if strike:
_do_under_line(i, t_off + leftIndent, ws, tx, lm=0.125)
if link:
_do_link_line(i, t_off + leftIndent, ws, tx)
else:
for i in range(1, nLines):
dpl(
tx,
_offsets[i],
lines[i][0],
lines[i][1],
noJustifyLast and i == lim,
)
else:
f = lines[0]
cur_y = self.height - getattr(
f, "ascent", f.fontSize
) # TODO fix XPreformatted to remove this hack
# default?
dpl = _leftDrawParaLineX
if bulletText:
offset = _drawBullet(canvas, offset, cur_y, bulletText, style)
if alignment == TA_LEFT:
dpl = _leftDrawParaLineX
elif alignment == TA_CENTER:
dpl = _centerDrawParaLineX
elif self.style.alignment == TA_RIGHT:
dpl = _rightDrawParaLineX
elif self.style.alignment == TA_JUSTIFY:
dpl = _justifyDrawParaLineX
else:
raise ValueError("bad align %s" % repr(alignment))
# set up the font etc.
tx = self.beginText(cur_x, cur_y)
xs = tx.XtraState = ABag()
xs.textColor = None
# XXX Modified for XHTML2PDF
xs.backColor = None
xs.rise = 0
xs.underline = 0
xs.underlines = []
xs.underlineColor = None
# XXX Modified for XHTML2PDF
xs.background = 0
xs.backgrounds = []
xs.backgroundColor = None
xs.backgroundFontSize = None
xs.strike = 0
xs.strikes = []
xs.strikeColor = None
# XXX Modified for XHTML2PDF
xs.strikeFontSize = None
xs.links = []
xs.link = None
xs.leading = style.leading
xs.leftIndent = leftIndent
tx._leading = None
tx._olb = None
xs.cur_y = cur_y
xs.f = f
xs.style = style
xs.autoLeading = autoLeading
tx._fontname, tx._fontsize = None, None
dpl(tx, offset, lines[0], noJustifyLast and nLines == 1)
_do_post_text(tx)
# now the middle of the paragraph, aligned with the left margin which is our origin.
for i in range(1, nLines):
f = lines[i]
dpl(tx, _offsets[i], f, noJustifyLast and i == lim)
_do_post_text(tx)
canvas.drawText(tx)
canvas.restoreState()
def getPlainText(self, identify=None):
"""
Convenience function for templates which want access
to the raw text, without XML tags.
"""
frags = getattr(self, "frags", None)
if frags:
return "".join([frag.text] for frag in frags if hasattr(frag, "text"))
if identify:
text = getattr(self, "text", None)
if text is None:
text = repr(self)
return text
return ""
def getActualLineWidths0(self):
"""
Convenience function; tells you how wide each line
actually is. For justified styles, this will be
the same as the wrap width; for others it might be
useful for seeing if paragraphs will fit in spaces.
"""
assert hasattr(self, "width"), "Cannot call this method before wrap()"
if self.blPara.kind:
def func(frag, w=self.width):
return w - frag.extraSpace
else:
def func(frag, w=self.width):
return w - frag[0]
return map(func, self.blPara.lines)
if __name__ == "__main__": # NORUNTESTS
def dumpParagraphLines(P):
print(f"dumpParagraphLines()")
lines = P.blPara.lines
for i, line in enumerate(lines):
line = lines[i]
words = line.words if hasattr(line, "words") else line[1]
nwords = len(words)
wordcount = getattr(line, "wordCount", "Unknown")
print(f"line{i}: {nwords}({wordcount})\n ")
for w in range(nwords):
text = getattr(words[w], "text", words[w])
print(f"{w}:'{text}'")
print()
def fragDump(w):
attrs = (
"fontName",
"fontSize",
"textColor",
"rise",
"underline",
"strike",
"link",
"cbDefn",
"lineBreak",
)
attr_list = [f"'{w[1]}'"] + [
f"{a}={getattr(w[0], a)!r}" for a in attrs if hasattr(w[0], a)
]
return ", ".join(attr_list)
def dumpParagraphFrags(P):
print(
f"dumpParagraphFrags() minWidth() = {P.minWidth():.2f}"
)
frags = P.frags
n = len(frags)
for frag in range(n):
detail = " ".join(
[
f"{k}={getattr(frags[frag], k)}"
for k in frags[frag].__dict__
if k != text
]
)
print(f"frag{frag}: '{frags[frag].text}' {detail}")
fragword = 0
cum = 0
for W in _getFragWords(frags):
cum += W[0]
print(f"fragword{fragword}: cum={cum:3d} size={W[0]}")
for w in W[1:]:
print(f"({fragDump(w)})")
print()
fragword += 1
from reportlab.lib.styles import ParagraphStyle, getSampleStyleSheet
from reportlab.lib.units import cm
TESTS = sys.argv[1:]
if [] == TESTS:
TESTS = ["4"]
def flagged(i, TESTS=TESTS):
return "all" in TESTS or "*" in TESTS or str(i) in TESTS
styleSheet = getSampleStyleSheet()
B = styleSheet["BodyText"]
style = ParagraphStyle("discussiontext", parent=B)
style.fontName = "Helvetica"
if flagged(1):
text = """The CMYK or subtractive method follows the way a printer
mixes three pigments (cyan, magenta, and yellow) to form colors.
Because mixing chemicals is more difficult than combining light there
is a fourth parameter for darkness. For example a chemical
combination of the CMY pigments generally never makes a perfect
black -- instead producing a muddy color -- so, to get black printers
don't use the CMY pigments but use a direct black ink. Because
CMYK maps more directly to the way printer hardware works it may
be the case that &| & | colors specified in CMYK will provide better fidelity
and better control when printed.
"""
P = Paragraph(text, style)
dumpParagraphFrags(P)
aW, aH = 456.0, 42.8
w, h = P.wrap(aW, aH)
dumpParagraphLines(P)
S = P.split(aW, aH)
for s in S:
s.wrap(aW, aH)
dumpParagraphLines(s)
aH = 500
if flagged(2):
P = Paragraph(
"""Price*""", styleSheet["Normal"]
)
dumpParagraphFrags(P)
w, h = P.wrap(24, 200)
dumpParagraphLines(P)
if flagged(3):
text = """Dieses Kapitel bietet eine schnelle Programme :: startenEingabeaufforderung :: (>>>)>>> (Eingabeaufforderung)
Einführung in Python Python :: Einführung.
Das Ziel ist, die grundlegenden Eigenschaften von Python darzustellen, ohne
sich zu sehr in speziellen Regeln oder Details zu verstricken. Dazu behandelt
dieses Kapitel kurz die wesentlichen Konzepte wie Variablen, Ausdrücke,
Kontrollfluss, Funktionen sowie Ein- und Ausgabe. Es erhebt nicht den Anspruch,
umfassend zu sein."""
P = Paragraph(text, styleSheet["Code"])
dumpParagraphFrags(P)
w, h = P.wrap(6 * 72, 9.7 * 72)
dumpParagraphLines(P)
if flagged(4):
text = """Die eingebaute Funktion range(i, j [, stride]) erzeugt eine Liste von Ganzzahlen und füllt sie mit Werten k, für die gilt: i <= k < j. Man kann auch eine optionale Schrittweite angeben. Die eingebaute Funktion xrange() erfüllt einen ähnlichen Zweck, gibt aber eine unveränderliche Sequenz vom Typ XRangeType zurück. Anstatt alle Werte in der Liste abzuspeichern, berechnet diese Liste ihre Werte, wann immer sie angefordert werden. Das ist sehr viel speicherschonender, wenn mit sehr langen Listen von Ganzzahlen gearbeitet wird. XRangeType kennt eine einzige Methode, s.tolist(), die seine Werte in eine Liste umwandelt."""
aW = 420
aH = 64.4
P = Paragraph(text, B)
dumpParagraphFrags(P)
w, h = P.wrap(aW, aH)
print("After initial wrap", w, h)
dumpParagraphLines(P)
S = P.split(aW, aH)
dumpParagraphFrags(S[0])
w0, h0 = S[0].wrap(aW, aH)
print("After split wrap", w0, h0)
dumpParagraphLines(S[0])
if flagged(5):
text = f" {chr(163)} & {chr(163)} < >]]>"
P = Paragraph(text, styleSheet["Code"])
dumpParagraphFrags(P)
w, h = P.wrap(6 * 72, 9.7 * 72)
dumpParagraphLines(P)
if flagged(6):
for text in [
"""Here comes Helvetica 14 with strongemphasis.""",
"""Here comes Helvetica 14 with strongemphasis.""",
"""Here comes Courier 3cm and normal again.""",
]:
P = Paragraph(text, styleSheet["Normal"], caseSensitive=0)
dumpParagraphFrags(P)
w, h = P.wrap(6 * 72, 9.7 * 72)
dumpParagraphLines(P)
if flagged(7):
text = """Generated by:Dilbert"""
P = Paragraph(text, styleSheet["Code"])
dumpParagraphFrags(P)
w, h = P.wrap(6 * 72, 9.7 * 72)
dumpParagraphLines(P)
if flagged(8):
text = """- bullet 0 - bullet 1 - bullet 2 - bullet 3 - bullet 4 - bullet 5"""
P = Paragraph(text, styleSheet["Normal"])
dumpParagraphFrags(P)
w, h = P.wrap(6 * 72, 9.7 * 72)
dumpParagraphLines(P)
S = P.split(6 * 72, h / 2.0)
print(len(S))
dumpParagraphLines(S[0])
dumpParagraphLines(S[1])
if flagged(9):
text = """Furthermore, the fundamental error of
regarding functional notions as
categorial delimits a general
convention regarding the forms of the
grammar. I suggested that these results
would follow from the assumption that"""
P = Paragraph(
text, ParagraphStyle("aaa", parent=styleSheet["Normal"], align=TA_JUSTIFY)
)
dumpParagraphFrags(P)
w, h = P.wrap(6 * cm - 12, 9.7 * 72)
dumpParagraphLines(P)
if flagged(10):
text = """a b c\xc2\xa0d e f"""
P = Paragraph(
text, ParagraphStyle("aaa", parent=styleSheet["Normal"], align=TA_JUSTIFY)
)
dumpParagraphFrags(P)
w, h = P.wrap(6 * cm - 12, 9.7 * 72)
dumpParagraphLines(P)
functional notions as
categorial delimits a general
convention regarding the forms of the