mirror of https://github.com/python/cpython
623 lines
15 KiB
Python
623 lines
15 KiB
Python
# Text formatting abstractions
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# Note -- this module is obsolete, it's too slow anyway
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import string
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import Para
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# A formatter back-end object has one method that is called by the formatter:
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# addpara(p), where p is a paragraph object. For example:
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# Formatter back-end to do nothing at all with the paragraphs
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class NullBackEnd:
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#
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def __init__(self):
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pass
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#
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def addpara(self, p):
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pass
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#
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def bgn_anchor(self, id):
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pass
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#
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def end_anchor(self, id):
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pass
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# Formatter back-end to collect the paragraphs in a list
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class SavingBackEnd(NullBackEnd):
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#
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def __init__(self):
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self.paralist = []
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#
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def addpara(self, p):
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self.paralist.append(p)
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#
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def hitcheck(self, h, v):
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hits = []
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for p in self.paralist:
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if p.top <= v <= p.bottom:
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for id in p.hitcheck(h, v):
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if id not in hits:
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hits.append(id)
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return hits
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#
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def extract(self):
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text = ''
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for p in self.paralist:
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text = text + (p.extract())
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return text
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#
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def extractpart(self, long1, long2):
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if long1 > long2: long1, long2 = long2, long1
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para1, pos1 = long1
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para2, pos2 = long2
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text = ''
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while para1 < para2:
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ptext = self.paralist[para1].extract()
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text = text + ptext[pos1:]
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pos1 = 0
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para1 = para1 + 1
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ptext = self.paralist[para2].extract()
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return text + ptext[pos1:pos2]
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#
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def whereis(self, d, h, v):
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total = 0
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for i in range(len(self.paralist)):
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p = self.paralist[i]
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result = p.whereis(d, h, v)
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if result <> None:
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return i, result
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return None
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#
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def roundtowords(self, long1, long2):
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i, offset = long1
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text = self.paralist[i].extract()
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while offset > 0 and text[offset-1] <> ' ': offset = offset-1
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long1 = i, offset
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#
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i, offset = long2
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text = self.paralist[i].extract()
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n = len(text)
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while offset < n-1 and text[offset] <> ' ': offset = offset+1
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long2 = i, offset
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#
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return long1, long2
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#
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def roundtoparagraphs(self, long1, long2):
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long1 = long1[0], 0
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long2 = long2[0], len(self.paralist[long2[0]].extract())
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return long1, long2
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# Formatter back-end to send the text directly to the drawing object
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class WritingBackEnd(NullBackEnd):
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#
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def __init__(self, d, width):
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self.d = d
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self.width = width
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self.lineno = 0
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#
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def addpara(self, p):
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self.lineno = p.render(self.d, 0, self.lineno, self.width)
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# A formatter receives a stream of formatting instructions and assembles
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# these into a stream of paragraphs on to a back-end. The assembly is
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# parametrized by a text measurement object, which must match the output
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# operations of the back-end. The back-end is responsible for splitting
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# paragraphs up in lines of a given maximum width. (This is done because
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# in a windowing environment, when the window size changes, there is no
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# need to redo the assembly into paragraphs, but the splitting into lines
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# must be done taking the new window size into account.)
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# Formatter base class. Initialize it with a text measurement object,
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# which is used for text measurements, and a back-end object,
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# which receives the completed paragraphs. The formatting methods are:
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# setfont(font)
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# setleftindent(nspaces)
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# setjust(type) where type is 'l', 'c', 'r', or 'lr'
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# flush()
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# vspace(nlines)
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# needvspace(nlines)
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# addword(word, nspaces)
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class BaseFormatter:
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#
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def __init__(self, d, b):
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# Drawing object used for text measurements
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self.d = d
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#
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# BackEnd object receiving completed paragraphs
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self.b = b
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#
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# Parameters of the formatting model
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self.leftindent = 0
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self.just = 'l'
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self.font = None
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self.blanklines = 0
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#
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# Parameters derived from the current font
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self.space = d.textwidth(' ')
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self.line = d.lineheight()
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self.ascent = d.baseline()
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self.descent = self.line - self.ascent
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#
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# Parameter derived from the default font
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self.n_space = self.space
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#
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# Current paragraph being built
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self.para = None
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self.nospace = 1
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#
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# Font to set on the next word
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self.nextfont = None
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#
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def newpara(self):
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return Para.Para()
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#
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def setfont(self, font):
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if font == None: return
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self.font = self.nextfont = font
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d = self.d
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d.setfont(font)
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self.space = d.textwidth(' ')
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self.line = d.lineheight()
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self.ascent = d.baseline()
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self.descent = self.line - self.ascent
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#
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def setleftindent(self, nspaces):
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self.leftindent = int(self.n_space * nspaces)
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if self.para:
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hang = self.leftindent - self.para.indent_left
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if hang > 0 and self.para.getlength() <= hang:
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self.para.makehangingtag(hang)
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self.nospace = 1
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else:
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self.flush()
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#
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def setrightindent(self, nspaces):
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self.rightindent = int(self.n_space * nspaces)
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if self.para:
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self.para.indent_right = self.rightindent
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self.flush()
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#
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def setjust(self, just):
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self.just = just
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if self.para:
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self.para.just = self.just
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#
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def flush(self):
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if self.para:
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self.b.addpara(self.para)
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self.para = None
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if self.font <> None:
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self.d.setfont(self.font)
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self.nospace = 1
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#
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def vspace(self, nlines):
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self.flush()
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if nlines > 0:
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self.para = self.newpara()
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tuple = None, '', 0, 0, 0, int(nlines*self.line), 0
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self.para.words.append(tuple)
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self.flush()
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self.blanklines = self.blanklines + nlines
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#
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def needvspace(self, nlines):
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self.flush() # Just to be sure
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if nlines > self.blanklines:
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self.vspace(nlines - self.blanklines)
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#
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def addword(self, text, space):
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if self.nospace and not text:
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return
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self.nospace = 0
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self.blanklines = 0
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if not self.para:
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self.para = self.newpara()
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self.para.indent_left = self.leftindent
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self.para.just = self.just
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self.nextfont = self.font
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space = int(space * self.space)
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self.para.words.append(self.nextfont, text, \
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self.d.textwidth(text), space, space, \
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self.ascent, self.descent)
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self.nextfont = None
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#
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def bgn_anchor(self, id):
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if not self.para:
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self.nospace = 0
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self.addword('', 0)
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self.para.bgn_anchor(id)
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#
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def end_anchor(self, id):
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if not self.para:
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self.nospace = 0
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self.addword('', 0)
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self.para.end_anchor(id)
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# Measuring object for measuring text as viewed on a tty
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class NullMeasurer:
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#
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def __init__(self):
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pass
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#
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def setfont(self, font):
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pass
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#
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def textwidth(self, text):
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return len(text)
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#
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def lineheight(self):
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return 1
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#
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def baseline(self):
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return 0
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# Drawing object for writing plain ASCII text to a file
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class FileWriter:
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#
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def __init__(self, fp):
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self.fp = fp
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self.lineno, self.colno = 0, 0
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#
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def setfont(self, font):
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pass
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#
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def text(self, (h, v), str):
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if not str: return
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if '\n' in str:
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raise ValueError, 'can\'t write \\n'
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while self.lineno < v:
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self.fp.write('\n')
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self.colno, self.lineno = 0, self.lineno + 1
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while self.lineno > v:
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# XXX This should never happen...
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self.fp.write('\033[A') # ANSI up arrow
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self.lineno = self.lineno - 1
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if self.colno < h:
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self.fp.write(' ' * (h - self.colno))
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elif self.colno > h:
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self.fp.write('\b' * (self.colno - h))
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self.colno = h
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self.fp.write(str)
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self.colno = h + len(str)
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# Formatting class to do nothing at all with the data
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class NullFormatter(BaseFormatter):
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#
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def __init__(self):
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d = NullMeasurer()
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b = NullBackEnd()
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BaseFormatter.__init__(self, d, b)
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# Formatting class to write directly to a file
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class WritingFormatter(BaseFormatter):
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#
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def __init__(self, fp, width):
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dm = NullMeasurer()
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dw = FileWriter(fp)
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b = WritingBackEnd(dw, width)
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BaseFormatter.__init__(self, dm, b)
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self.blanklines = 1
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#
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# Suppress multiple blank lines
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def needvspace(self, nlines):
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BaseFormatter.needvspace(self, min(1, nlines))
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# A "FunnyFormatter" writes ASCII text with a twist: *bold words*,
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# _italic text_ and _underlined words_, and `quoted text'.
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# It assumes that the fonts are 'r', 'i', 'b', 'u', 'q': (roman,
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# italic, bold, underline, quote).
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# Moreover, if the font is in upper case, the text is converted to
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# UPPER CASE.
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class FunnyFormatter(WritingFormatter):
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#
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def flush(self):
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if self.para: finalize(self.para)
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WritingFormatter.flush(self)
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# Surrounds *bold words* and _italic text_ in a paragraph with
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# appropriate markers, fixing the size (assuming these characters'
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# width is 1).
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openchar = \
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{'b':'*', 'i':'_', 'u':'_', 'q':'`', 'B':'*', 'I':'_', 'U':'_', 'Q':'`'}
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closechar = \
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{'b':'*', 'i':'_', 'u':'_', 'q':'\'', 'B':'*', 'I':'_', 'U':'_', 'Q':'\''}
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def finalize(para):
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oldfont = curfont = 'r'
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para.words.append(('r', '', 0, 0, 0, 0)) # temporary, deleted at end
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for i in range(len(para.words)):
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fo, te, wi = para.words[i][:3]
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if fo <> None: curfont = fo
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if curfont <> oldfont:
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if closechar.has_key(oldfont):
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c = closechar[oldfont]
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j = i-1
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while j > 0 and para.words[j][1] == '': j = j-1
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fo1, te1, wi1 = para.words[j][:3]
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te1 = te1 + c
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wi1 = wi1 + len(c)
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para.words[j] = (fo1, te1, wi1) + \
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para.words[j][3:]
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if openchar.has_key(curfont) and te:
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c = openchar[curfont]
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te = c + te
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wi = len(c) + wi
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para.words[i] = (fo, te, wi) + \
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para.words[i][3:]
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if te: oldfont = curfont
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else: oldfont = 'r'
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if curfont in string.uppercase:
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te = string.upper(te)
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para.words[i] = (fo, te, wi) + para.words[i][3:]
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del para.words[-1]
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# Formatter back-end to draw the text in a window.
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# This has an option to draw while the paragraphs are being added,
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# to minimize the delay before the user sees anything.
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# This manages the entire "document" of the window.
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class StdwinBackEnd(SavingBackEnd):
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#
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def __init__(self, window, drawnow):
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self.window = window
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self.drawnow = drawnow
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self.width = window.getwinsize()[0]
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self.selection = None
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self.height = 0
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window.setorigin(0, 0)
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window.setdocsize(0, 0)
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self.d = window.begindrawing()
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SavingBackEnd.__init__(self)
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#
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def finish(self):
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self.d.close()
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self.d = None
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self.window.setdocsize(0, self.height)
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#
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def addpara(self, p):
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self.paralist.append(p)
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if self.drawnow:
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self.height = \
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p.render(self.d, 0, self.height, self.width)
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else:
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p.layout(self.width)
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p.left = 0
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p.top = self.height
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p.right = self.width
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p.bottom = self.height + p.height
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self.height = p.bottom
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#
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def resize(self):
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self.window.change((0, 0), (self.width, self.height))
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self.width = self.window.getwinsize()[0]
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self.height = 0
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for p in self.paralist:
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p.layout(self.width)
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p.left = 0
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p.top = self.height
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p.right = self.width
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p.bottom = self.height + p.height
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self.height = p.bottom
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self.window.change((0, 0), (self.width, self.height))
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self.window.setdocsize(0, self.height)
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#
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def redraw(self, area):
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d = self.window.begindrawing()
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(left, top), (right, bottom) = area
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d.erase(area)
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d.cliprect(area)
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for p in self.paralist:
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if top < p.bottom and p.top < bottom:
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v = p.render(d, p.left, p.top, p.right)
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if self.selection:
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self.invert(d, self.selection)
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d.close()
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#
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def setselection(self, new):
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if new:
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long1, long2 = new
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pos1 = long1[:3]
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pos2 = long2[:3]
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new = pos1, pos2
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if new <> self.selection:
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d = self.window.begindrawing()
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if self.selection:
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self.invert(d, self.selection)
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if new:
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self.invert(d, new)
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d.close()
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self.selection = new
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#
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def getselection(self):
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return self.selection
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#
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def extractselection(self):
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if self.selection:
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a, b = self.selection
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return self.extractpart(a, b)
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else:
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return None
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#
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def invert(self, d, region):
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long1, long2 = region
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if long1 > long2: long1, long2 = long2, long1
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para1, pos1 = long1
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para2, pos2 = long2
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while para1 < para2:
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self.paralist[para1].invert(d, pos1, None)
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pos1 = None
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para1 = para1 + 1
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self.paralist[para2].invert(d, pos1, pos2)
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#
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def search(self, prog):
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import regex, string
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if type(prog) == type(''):
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prog = regex.compile(string.lower(prog))
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if self.selection:
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iold = self.selection[0][0]
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else:
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iold = -1
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hit = None
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for i in range(len(self.paralist)):
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if i == iold or i < iold and hit:
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continue
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p = self.paralist[i]
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text = string.lower(p.extract())
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if prog.search(text) >= 0:
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a, b = prog.regs[0]
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long1 = i, a
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long2 = i, b
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hit = long1, long2
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if i > iold:
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break
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if hit:
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self.setselection(hit)
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i = hit[0][0]
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p = self.paralist[i]
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self.window.show((p.left, p.top), (p.right, p.bottom))
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return 1
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else:
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return 0
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#
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def showanchor(self, id):
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for i in range(len(self.paralist)):
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p = self.paralist[i]
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if p.hasanchor(id):
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long1 = i, 0
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long2 = i, len(p.extract())
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hit = long1, long2
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self.setselection(hit)
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self.window.show( \
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(p.left, p.top), (p.right, p.bottom))
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break
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# GL extensions
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class GLFontCache:
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#
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def __init__(self):
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self.reset()
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self.setfont('')
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#
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def reset(self):
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self.fontkey = None
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self.fonthandle = None
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self.fontinfo = None
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self.fontcache = {}
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#
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def close(self):
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self.reset()
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#
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def setfont(self, fontkey):
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if fontkey == '':
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fontkey = 'Times-Roman 12'
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elif ' ' not in fontkey:
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fontkey = fontkey + ' 12'
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if fontkey == self.fontkey:
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return
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if self.fontcache.has_key(fontkey):
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handle = self.fontcache[fontkey]
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else:
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import string
|
|
i = string.index(fontkey, ' ')
|
|
name, sizestr = fontkey[:i], fontkey[i:]
|
|
size = eval(sizestr)
|
|
key1 = name + ' 1'
|
|
key = name + ' ' + `size`
|
|
# NB key may differ from fontkey!
|
|
if self.fontcache.has_key(key):
|
|
handle = self.fontcache[key]
|
|
else:
|
|
if self.fontcache.has_key(key1):
|
|
handle = self.fontcache[key1]
|
|
else:
|
|
import fm
|
|
handle = fm.findfont(name)
|
|
self.fontcache[key1] = handle
|
|
handle = handle.scalefont(size)
|
|
self.fontcache[fontkey] = \
|
|
self.fontcache[key] = handle
|
|
self.fontkey = fontkey
|
|
if self.fonthandle <> handle:
|
|
self.fonthandle = handle
|
|
self.fontinfo = handle.getfontinfo()
|
|
handle.setfont()
|
|
|
|
|
|
class GLMeasurer(GLFontCache):
|
|
#
|
|
def textwidth(self, text):
|
|
return self.fonthandle.getstrwidth(text)
|
|
#
|
|
def baseline(self):
|
|
return self.fontinfo[6] - self.fontinfo[3]
|
|
#
|
|
def lineheight(self):
|
|
return self.fontinfo[6]
|
|
|
|
|
|
class GLWriter(GLFontCache):
|
|
#
|
|
# NOTES:
|
|
# (1) Use gl.ortho2 to use X pixel coordinates!
|
|
#
|
|
def text(self, (h, v), text):
|
|
import gl, fm
|
|
gl.cmov2i(h, v + self.fontinfo[6] - self.fontinfo[3])
|
|
fm.prstr(text)
|
|
#
|
|
def setfont(self, fontkey):
|
|
oldhandle = self.fonthandle
|
|
GLFontCache.setfont(fontkey)
|
|
if self.fonthandle <> oldhandle:
|
|
handle.setfont()
|
|
|
|
|
|
class GLMeasurerWriter(GLMeasurer, GLWriter):
|
|
pass
|
|
|
|
|
|
class GLBackEnd(SavingBackEnd):
|
|
#
|
|
def __init__(self, wid):
|
|
import gl
|
|
gl.winset(wid)
|
|
self.wid = wid
|
|
self.width = gl.getsize()[1]
|
|
self.height = 0
|
|
self.d = GLMeasurerWriter()
|
|
SavingBackEnd.__init__(self)
|
|
#
|
|
def finish(self):
|
|
pass
|
|
#
|
|
def addpara(self, p):
|
|
self.paralist.append(p)
|
|
self.height = p.render(self.d, 0, self.height, self.width)
|
|
#
|
|
def redraw(self):
|
|
import gl
|
|
gl.winset(self.wid)
|
|
width = gl.getsize()[1]
|
|
if width <> self.width:
|
|
setdocsize = 1
|
|
self.width = width
|
|
for p in self.paralist:
|
|
p.top = p.bottom = None
|
|
d = self.d
|
|
v = 0
|
|
for p in self.paralist:
|
|
v = p.render(d, 0, v, width)
|