layout analysis improved
git-svn-id: https://pdfminerr.googlecode.com/svn/trunk/pdfminer@268 1aa58f4a-7d42-0410-adbc-911cccaed67cpull/1/head
parent
edbd3764a7
commit
9584845358
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@ -27,28 +27,26 @@ class PDFLayoutAnalyzer(PDFTextDevice):
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(x0,y0) = apply_matrix_pt(ctm, (x0,y0))
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(x1,y1) = apply_matrix_pt(ctm, (x1,y1))
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mediabox = (0, 0, abs(x0-x1), abs(y0-y1))
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self.cur_item = LTPage(self.pageno, mediabox)
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self.cur_item = LTPage(self.pageno, mediabox, laparams=self.laparams)
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return
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def end_page(self, page):
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assert not self.stack
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assert isinstance(self.cur_item, LTPage)
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self.cur_item.fixate()
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self.cur_item.analyze(self.laparams)
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self.cur_item.finish()
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self.pageno += 1
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self.receive_layout(self.cur_item)
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return
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def begin_figure(self, name, bbox, matrix):
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self.stack.append(self.cur_item)
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self.cur_item = LTFigure(name, bbox, mult_matrix(matrix, self.ctm))
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self.cur_item = LTFigure(name, bbox, mult_matrix(matrix, self.ctm), laparams=self.laparams)
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return
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def end_figure(self, _):
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fig = self.cur_item
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assert isinstance(self.cur_item, LTFigure)
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self.cur_item.fixate()
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self.cur_item.analyze(self.laparams)
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self.cur_item.finish()
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self.cur_item = self.stack.pop()
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self.cur_item.add(fig)
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return
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@ -175,7 +173,7 @@ class TextConverter(PDFConverter):
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for child in item:
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render(child)
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elif isinstance(item, LTText):
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self.write(item.get_text())
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self.write(item.text)
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if isinstance(item, LTTextBox):
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self.write('\n')
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if self.showpageno:
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@ -190,17 +188,17 @@ class TextConverter(PDFConverter):
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class HTMLConverter(PDFConverter):
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RECT_COLORS = {
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'char': 'green',
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'figure': 'yellow',
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'textline': 'magenta',
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'polygon': 'black',
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#'char': 'green',
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#'figure': 'yellow',
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#'textline': 'magenta',
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'textbox': 'cyan',
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'textgroup': 'red',
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'polygon': 'black',
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'page': 'gray',
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}
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TEXT_COLORS = {
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'textbox': 'blue',
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'char': 'black',
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'textbox': 'black',
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}
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def __init__(self, rsrcmgr, outfp, codec='utf-8', pageno=1, laparams=None,
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@ -275,7 +273,7 @@ class HTMLConverter(PDFConverter):
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item.width*self.scale, item.height*self.scale))
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return
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render(ltpage)
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if self.debug and ltpage.layout:
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if ltpage.layout:
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def show_layout(item):
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if isinstance(item, LTTextGroup):
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self.write_rect('textgroup', 1, item.x0, item.y1, item.width, item.height)
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@ -1,7 +1,7 @@
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#!/usr/bin/env python2
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import sys
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from utils import apply_matrix_pt, get_bound, INF
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from utils import bsearch, bbox2str, matrix2str
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from utils import bsearch, bbox2str, matrix2str, Plane
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from pdffont import PDFUnicodeNotDefined
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@ -55,8 +55,6 @@ class LTItem(object):
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(self.__class__.__name__, bbox2str(self.bbox)))
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def set_bbox(self, (x0,y0,x1,y1)):
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if x1 < x0: (x0,x1) = (x1,x0)
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if y1 < y0: (y0,y1) = (y1,y0)
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self.x0 = x0
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self.y0 = y0
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self.x1 = x1
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@ -169,10 +167,7 @@ class LTText(object):
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def __repr__(self):
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return ('<%s %r>' %
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(self.__class__.__name__, self.get_text()))
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def get_text(self):
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return self.text
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(self.__class__.__name__, self.text))
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## LTAnon
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@ -222,9 +217,13 @@ class LTChar(LTItem, LTText):
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bur = (self.adv, ty+height)
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(a,b,c,d,e,f) = self.matrix
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self.upright = (0 < a*d*scaling and b*c <= 0)
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bbox = (apply_matrix_pt(self.matrix, bll) +
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apply_matrix_pt(self.matrix, bur))
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LTItem.__init__(self, bbox)
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(x0,y0) = apply_matrix_pt(self.matrix, bll)
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(x1,y1) = apply_matrix_pt(self.matrix, bur)
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if x1 < x0:
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(x0,x1) = (x1,x0)
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if y1 < y0:
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(y0,y1) = (y1,y0)
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LTItem.__init__(self, (x0,y0,x1,y1))
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if self.font.is_vertical():
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self.size = self.width
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else:
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@ -236,11 +235,12 @@ class LTChar(LTItem, LTText):
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return ('<%s %s matrix=%s font=%r fontsize=%.1f adv=%s text=%r>' %
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(self.__class__.__name__, bbox2str(self.bbox),
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matrix2str(self.matrix), self.font, self.fontsize,
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self.adv, self.get_text()))
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self.adv, self.text))
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else:
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return '<char %r>' % self.text
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def is_compatible(self, obj):
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"""Returns True if two characters can coexist in the same line."""
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return True
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@ -248,81 +248,80 @@ class LTChar(LTItem, LTText):
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##
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class LTContainer(LTItem):
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def __init__(self, objs=None, bbox=(0,0,0,0)):
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def __init__(self, bbox):
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LTItem.__init__(self, bbox)
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if objs:
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self._objs = objs[:]
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else:
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self._objs = []
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return
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def __iter__(self):
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return iter(self.get_objs())
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return iter(self._objs)
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def __len__(self):
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return len(self.get_objs())
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return len(self._objs)
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def add(self, obj):
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self._objs.append(obj)
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return
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def merge(self, container):
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self._objs.extend(container._objs)
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def extend(self, objs):
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for obj in objs:
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self.add(obj)
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return
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def get_objs(self):
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return self._objs
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# fixate(): determines its boundery.
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def fixate(self):
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if not self.width and self._objs:
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(bx0, by0, bx1, by1) = (INF, INF, -INF, -INF)
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for obj in self._objs:
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bx0 = min(bx0, obj.x0)
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by0 = min(by0, obj.y0)
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bx1 = max(bx1, obj.x1)
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by1 = max(by1, obj.y1)
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self.set_bbox((bx0, by0, bx1, by1))
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## LTExpandableContainer
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##
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class LTExpandableContainer(LTContainer):
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def __init__(self):
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LTContainer.__init__(self, (+INF,+INF,-INF,-INF))
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return
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def add(self, obj):
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LTContainer.add(self, obj)
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self.set_bbox((min(self.x0, obj.x0), min(self.y0, obj.y0),
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max(self.x1, obj.x1), max(self.y1, obj.y1)))
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return
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def finish(self):
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return self
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## LTTextLine
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##
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class LTTextLine(LTContainer, LTText):
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class LTTextLine(LTExpandableContainer, LTText):
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def __init__(self, laparams=None):
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self.laparams = laparams
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LTContainer.__init__(self)
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def __init__(self, word_margin):
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LTExpandableContainer.__init__(self)
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self.word_margin = word_margin
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return
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def __repr__(self):
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return ('<%s %s %r>' %
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(self.__class__.__name__, bbox2str(self.bbox),
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self.get_text()))
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(self.__class__.__name__, bbox2str(self.bbox), self.text))
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def get_text(self):
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return ''.join( obj.text for obj in self.get_objs() if isinstance(obj, LTText) )
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def finish(self):
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LTContainer.add(self, LTAnon('\n'))
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self.text = ''.join( obj.text for obj in self if isinstance(obj, LTText) )
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return LTExpandableContainer.finish(self)
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def find_neighbors(self, plane, ratio):
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raise NotImplementedError
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class LTTextLineHorizontal(LTTextLine):
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def get_objs(self):
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if self.laparams is None:
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for obj in self._objs:
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yield obj
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def __init__(self, word_margin):
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LTTextLine.__init__(self, word_margin)
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self._x1 = +INF
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return
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word_margin = self.laparams.word_margin
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x1 = INF
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for obj in csort(self._objs, key=lambda obj: obj.x0):
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if isinstance(obj, LTChar) and word_margin:
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margin = word_margin * obj.width
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if x1 < obj.x0-margin:
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yield LTAnon(' ')
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yield obj
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x1 = obj.x1
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yield LTAnon('\n')
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def add(self, obj):
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if isinstance(obj, LTChar) and self.word_margin:
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margin = self.word_margin * obj.width
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if self._x1 < obj.x0-margin:
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LTContainer.add(self, LTAnon(' '))
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self._x1 = obj.x1
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LTTextLine.add(self, obj)
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return
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def find_neighbors(self, plane, ratio):
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@ -332,21 +331,18 @@ class LTTextLineHorizontal(LTTextLine):
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class LTTextLineVertical(LTTextLine):
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def get_objs(self):
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if self.laparams is None:
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for obj in self._objs:
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yield obj
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def __init__(self, word_margin):
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LTTextLine.__init__(self, word_margin)
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self._y0 = -INF
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return
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word_margin = self.laparams.word_margin
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y0 = -INF
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for obj in csort(self._objs, key=lambda obj: -obj.y1):
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if isinstance(obj, LTChar) and word_margin:
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margin = word_margin * obj.height
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if obj.y1+margin < y0:
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yield LTAnon(' ')
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yield obj
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y0 = obj.y0
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yield LTAnon('\n')
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def add(self, obj):
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if isinstance(obj, LTChar) and self.word_margin:
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margin = self.word_margin * obj.height
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if obj.y1+margin < self._y0:
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LTContainer.add(self, LTAnon(' '))
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self._y0 = obj.y0
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LTTextLine.add(self, obj)
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return
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def find_neighbors(self, plane, ratio):
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## A set of text objects that are grouped within
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## a certain rectangular area.
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##
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class LTTextBox(LTContainer):
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class LTTextBox(LTExpandableContainer):
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def __init__(self, objs):
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LTContainer.__init__(self, objs=objs)
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def __init__(self):
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LTExpandableContainer.__init__(self)
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self.index = None
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return
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def __repr__(self):
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return ('<%s(%s) %s %r...>' %
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(self.__class__.__name__, self.index,
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bbox2str(self.bbox), self.get_text()[:20]))
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bbox2str(self.bbox), self.text[:20]))
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def get_text(self):
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return ''.join( obj.get_text() for obj in self.get_objs() if isinstance(obj, LTTextLine) )
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def finish(self):
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self.text = ''.join( obj.text for obj in self if isinstance(obj, LTTextLine) )
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return LTExpandableContainer.finish(self)
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class LTTextBoxHorizontal(LTTextBox):
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def get_objs(self):
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return csort(self._objs, key=lambda obj: -obj.y1)
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def finish(self):
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self._objs = csort(self._objs, key=lambda obj: -obj.y1)
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return LTTextBox.finish(self)
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class LTTextBoxVertical(LTTextBox):
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def get_objs(self):
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return csort(self._objs, key=lambda obj: -obj.x1)
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def finish(self):
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self._objs = csort(self._objs, key=lambda obj: -obj.x1)
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return LTTextBox.finish(self)
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## LTTextGroup
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##
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class LTTextGroup(LTContainer):
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class LTTextGroup(LTExpandableContainer):
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def __init__(self, objs):
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LTContainer.__init__(self, objs=objs)
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LTContainer.fixate(self)
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LTExpandableContainer.__init__(self)
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self.extend(objs)
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return
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class LTTextGroupLRTB(LTTextGroup):
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def get_objs(self):
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def finish(self):
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# reorder the objects from top-left to bottom-right.
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return csort(self._objs, key=lambda obj: obj.x0+obj.x1-(obj.y0+obj.y1))
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self._objs = csort(self._objs, key=lambda obj: obj.x0+obj.x1-(obj.y0+obj.y1))
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return LTTextGroup.finish(self)
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class LTTextGroupTBRL(LTTextGroup):
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def get_objs(self):
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def finish(self):
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# reorder the objects from top-right to bottom-left.
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return csort(self._objs, key=lambda obj: -(obj.x0+obj.x1)-(obj.y0+obj.y1))
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self._objs = csort(self._objs, key=lambda obj: -(obj.x0+obj.x1)-(obj.y0+obj.y1))
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return LTTextGroup.finish(self)
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## Plane
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## LTLayoutContainer
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##
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## A data structure for objects placed on a plane.
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## Can efficiently find objects in a certain rectangular area.
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## It maintains two parallel lists of objects, each of
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## which is sorted by its x or y coordinate.
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##
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class Plane(object):
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class LTLayoutContainer(LTContainer):
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def __init__(self, objs):
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self.xobjs = []
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self.yobjs = []
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self.idxs = dict( (obj,i) for (i,obj) in enumerate(objs) )
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for obj in objs:
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self.place(obj)
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self.xobjs.sort()
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self.yobjs.sort()
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def __init__(self, bbox, laparams=None):
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LTContainer.__init__(self, bbox)
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self.laparams = laparams
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self.layout = None
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return
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# place(obj): place an object in a certain area.
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def place(self, obj):
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assert isinstance(obj, LTItem)
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self.xobjs.append((obj.x0, obj))
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self.xobjs.append((obj.x1, obj))
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self.yobjs.append((obj.y0, obj))
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self.yobjs.append((obj.y1, obj))
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return
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# find(): finds objects that are in a certain area.
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def find(self, (x0,y0,x1,y1)):
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i0 = bsearch(self.xobjs, x0)[0]
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i1 = bsearch(self.xobjs, x1)[1]
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xobjs = set( obj for (_,obj) in self.xobjs[i0:i1] )
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i0 = bsearch(self.yobjs, y0)[0]
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i1 = bsearch(self.yobjs, y1)[1]
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yobjs = set( obj for (_,obj) in self.yobjs[i0:i1] )
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xobjs.intersection_update(yobjs)
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return sorted(xobjs, key=lambda obj: self.idxs[obj])
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## LTAnalyzer
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##
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class LTAnalyzer(LTContainer):
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def analyze(self, laparams=None):
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def finish(self):
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"""Perform the layout analysis."""
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if laparams is None: return
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if self.laparams is None: return
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# textobjs is a list of LTChar objects, i.e.
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# it has all the individual characters in the page.
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(textobjs, otherobjs) = self.get_textobjs(self._objs, laparams)
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(textobjs, otherobjs) = self.get_textobjs(self._objs)
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if not textobjs: return
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textlines = list(self.get_textlines(textobjs, laparams))
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assert sum( len(line._objs) for line in textlines ) == len(textobjs)
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textboxes = list(self.get_textboxes(textlines, laparams))
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assert sum( len(box._objs) for box in textboxes ) == len(textlines)
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top = self.group_textboxes(textboxes, laparams)
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textlines = list(self.get_textlines(textobjs,
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self.laparams.line_overlap,
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self.laparams.char_margin,
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self.laparams.word_margin))
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assert len(textobjs) <= sum( len(line._objs) for line in textlines )
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textboxes = list(self.get_textboxes(textlines, self.laparams.line_margin))
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assert len(textlines) == sum( len(box._objs) for box in textboxes )
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top = self.group_textboxes(textboxes)
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def assign_index(obj, i):
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if isinstance(obj, LTTextBox):
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obj.index = i
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@ -476,9 +446,9 @@ class LTAnalyzer(LTContainer):
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textboxes.sort(key=lambda box:box.index)
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self._objs = textboxes + otherobjs
|
||||
self.layout = top
|
||||
return
|
||||
return self
|
||||
|
||||
def get_textobjs(self, objs, laparams):
|
||||
def get_textobjs(self, objs):
|
||||
"""Split all the objects in the page into text-related objects and others."""
|
||||
textobjs = []
|
||||
otherobjs = []
|
||||
|
@ -489,15 +459,15 @@ class LTAnalyzer(LTContainer):
|
|||
otherobjs.append(obj)
|
||||
return (textobjs, otherobjs)
|
||||
|
||||
def get_textlines(self, objs, laparams):
|
||||
def get_textlines(self, objs, line_overlap, char_margin, word_margin):
|
||||
obj0 = None
|
||||
line = None
|
||||
for obj1 in objs:
|
||||
if obj0 is not None:
|
||||
k = 0
|
||||
if (obj0.is_compatible(obj1) and obj0.is_voverlap(obj1) and
|
||||
min(obj0.height, obj1.height) * laparams.line_overlap < obj0.voverlap(obj1) and
|
||||
obj0.hdistance(obj1) < min(obj0.width, obj1.width) * laparams.char_margin):
|
||||
min(obj0.height, obj1.height) * line_overlap < obj0.voverlap(obj1) and
|
||||
obj0.hdistance(obj1) < max(obj0.width, obj1.width) * char_margin):
|
||||
# obj0 and obj1 is horizontally aligned:
|
||||
#
|
||||
# +------+ - - -
|
||||
|
@ -510,8 +480,8 @@ class LTAnalyzer(LTContainer):
|
|||
# (char_margin)
|
||||
k |= 1
|
||||
if (obj0.is_compatible(obj1) and obj0.is_hoverlap(obj1) and
|
||||
min(obj0.width, obj1.width) * laparams.line_overlap < obj0.hoverlap(obj1) and
|
||||
obj0.vdistance(obj1) < min(obj0.height, obj1.height) * laparams.char_margin):
|
||||
min(obj0.width, obj1.width) * line_overlap < obj0.hoverlap(obj1) and
|
||||
obj0.vdistance(obj1) < max(obj0.height, obj1.height) * char_margin):
|
||||
# obj0 and obj1 is vertically aligned:
|
||||
#
|
||||
# +------+
|
||||
|
@ -531,59 +501,59 @@ class LTAnalyzer(LTContainer):
|
|||
(k & 2 and isinstance(line, LTTextLineVertical)) ):
|
||||
line.add(obj1)
|
||||
elif line is not None:
|
||||
line.fixate()
|
||||
yield line
|
||||
yield line.finish()
|
||||
line = None
|
||||
else:
|
||||
if k == 2:
|
||||
line = LTTextLineVertical(laparams)
|
||||
line = LTTextLineVertical(word_margin)
|
||||
line.add(obj0)
|
||||
line.add(obj1)
|
||||
elif k == 1:
|
||||
line = LTTextLineHorizontal(laparams)
|
||||
line = LTTextLineHorizontal(word_margin)
|
||||
line.add(obj0)
|
||||
line.add(obj1)
|
||||
else:
|
||||
line = LTTextLineHorizontal(laparams)
|
||||
line = LTTextLineHorizontal(word_margin)
|
||||
line.add(obj0)
|
||||
line.fixate()
|
||||
yield line
|
||||
yield line.finish()
|
||||
line = None
|
||||
obj0 = obj1
|
||||
if line is None:
|
||||
line = LTTextLineHorizontal(laparams)
|
||||
line = LTTextLineHorizontal(word_margin)
|
||||
line.add(obj0)
|
||||
line.fixate()
|
||||
yield line
|
||||
yield line.finish()
|
||||
return
|
||||
|
||||
def get_textboxes(self, lines, laparams):
|
||||
def get_textboxes(self, lines, line_margin):
|
||||
plane = Plane(lines)
|
||||
groups = {}
|
||||
for line in lines:
|
||||
neighbors = line.find_neighbors(plane, laparams.line_margin)
|
||||
plane.add(line)
|
||||
plane.finish()
|
||||
boxes = {}
|
||||
for line in lines:
|
||||
neighbors = line.find_neighbors(plane, line_margin)
|
||||
assert line in neighbors, line
|
||||
members = neighbors[:]
|
||||
members = []
|
||||
for obj1 in neighbors:
|
||||
if obj1 in groups:
|
||||
members.extend(groups.pop(obj1))
|
||||
members = list(uniq(members))
|
||||
members.append(obj1)
|
||||
if obj1 in boxes:
|
||||
members.extend(boxes.pop(obj1))
|
||||
if isinstance(line, LTTextLineHorizontal):
|
||||
group = LTTextBoxHorizontal(members)
|
||||
box = LTTextBoxHorizontal()
|
||||
else:
|
||||
group = LTTextBoxVertical(members)
|
||||
for obj in members:
|
||||
groups[obj] = group
|
||||
box = LTTextBoxVertical()
|
||||
for obj in uniq(members):
|
||||
box.add(obj)
|
||||
boxes[obj] = box
|
||||
done = set()
|
||||
for line in lines:
|
||||
group = groups[line]
|
||||
if group in done: continue
|
||||
done.add(group)
|
||||
group.fixate()
|
||||
yield group
|
||||
box = boxes[line]
|
||||
if box in done: continue
|
||||
done.add(box)
|
||||
yield box.finish()
|
||||
return
|
||||
|
||||
def group_textboxes(self, textboxes, laparams):
|
||||
def group_textboxes(self, boxes):
|
||||
def dist(obj1, obj2):
|
||||
"""A distance function between two TextBoxes.
|
||||
|
||||
|
@ -599,43 +569,44 @@ class LTAnalyzer(LTContainer):
|
|||
return ((max(obj1.x1,obj2.x1) - min(obj1.x0,obj2.x0)) *
|
||||
(max(obj1.y1,obj2.y1) - min(obj1.y0,obj2.y0)) -
|
||||
(obj1.width*obj1.height + obj2.width*obj2.height))
|
||||
textboxes = textboxes[:]
|
||||
boxes = boxes[:]
|
||||
# XXX this is slow when there're many textboxes.
|
||||
while 2 <= len(textboxes):
|
||||
while 2 <= len(boxes):
|
||||
mindist = INF
|
||||
minpair = None
|
||||
textboxes = csort(textboxes, key=lambda obj: obj.width*obj.height)
|
||||
for i in xrange(len(textboxes)):
|
||||
for j in xrange(i+1, len(textboxes)):
|
||||
(obj1, obj2) = (textboxes[i], textboxes[j])
|
||||
boxes = csort(boxes, key=lambda obj: obj.width*obj.height)
|
||||
for i in xrange(len(boxes)):
|
||||
for j in xrange(i+1, len(boxes)):
|
||||
(obj1, obj2) = (boxes[i], boxes[j])
|
||||
d = dist(obj1, obj2)
|
||||
if d < mindist:
|
||||
mindist = d
|
||||
minpair = (obj1, obj2)
|
||||
assert minpair
|
||||
(obj1, obj2) = minpair
|
||||
textboxes.remove(obj1)
|
||||
textboxes.remove(obj2)
|
||||
if isinstance(obj1, LTTextBoxHorizontal):
|
||||
group = LTTextGroupLRTB([obj1, obj2])
|
||||
else:
|
||||
boxes.remove(obj1)
|
||||
boxes.remove(obj2)
|
||||
if (isinstance(obj1, LTTextBoxVertical) or
|
||||
isinstance(obj1, LTTextGroupTBRL)):
|
||||
group = LTTextGroupTBRL([obj1, obj2])
|
||||
textboxes.append(group)
|
||||
assert len(textboxes) == 1
|
||||
return textboxes.pop()
|
||||
else:
|
||||
group = LTTextGroupLRTB([obj1, obj2])
|
||||
boxes.append(group.finish())
|
||||
assert len(boxes) == 1
|
||||
return boxes.pop()
|
||||
|
||||
|
||||
## LTFigure
|
||||
##
|
||||
class LTFigure(LTAnalyzer):
|
||||
class LTFigure(LTLayoutContainer):
|
||||
|
||||
def __init__(self, name, bbox, matrix):
|
||||
def __init__(self, name, bbox, matrix, laparams=None):
|
||||
self.name = name
|
||||
self.matrix = matrix
|
||||
(x,y,w,h) = bbox
|
||||
bbox = get_bound( apply_matrix_pt(matrix, (p,q))
|
||||
for (p,q) in ((x,y), (x+w,y), (x,y+h), (x+w,y+h)) )
|
||||
LTAnalyzer.__init__(self, bbox=bbox)
|
||||
LTLayoutContainer.__init__(self, bbox, laparams=laparams)
|
||||
return
|
||||
|
||||
def __repr__(self):
|
||||
|
@ -643,21 +614,19 @@ class LTFigure(LTAnalyzer):
|
|||
(self.__class__.__name__, self.name,
|
||||
bbox2str(self.bbox), matrix2str(self.matrix)))
|
||||
|
||||
def analyze(self, laparams=None):
|
||||
if laparams is not None and laparams.all_texts:
|
||||
LTAnalyzer.analyze(self, laparams=laparams)
|
||||
return
|
||||
def finish(self):
|
||||
if self.laparams is None or not self.laparams.all_texts: return
|
||||
return LTLayoutContainer.finish(self)
|
||||
|
||||
|
||||
## LTPage
|
||||
##
|
||||
class LTPage(LTAnalyzer):
|
||||
class LTPage(LTLayoutContainer):
|
||||
|
||||
def __init__(self, pageid, bbox, rotate=0):
|
||||
LTAnalyzer.__init__(self, bbox=bbox)
|
||||
def __init__(self, pageid, bbox, rotate=0, laparams=None):
|
||||
LTLayoutContainer.__init__(self, bbox, laparams=laparams)
|
||||
self.pageid = pageid
|
||||
self.rotate = rotate
|
||||
self.layout = None
|
||||
return
|
||||
|
||||
def __repr__(self):
|
||||
|
|
|
@ -182,6 +182,54 @@ class ObjIdRange(object):
|
|||
return self.nobjs
|
||||
|
||||
|
||||
## Plane
|
||||
##
|
||||
## A data structure for objects placed on a plane.
|
||||
## Can efficiently find objects in a certain rectangular area.
|
||||
## It maintains two parallel lists of objects, each of
|
||||
## which is sorted by its x or y coordinate.
|
||||
##
|
||||
class Plane(object):
|
||||
|
||||
def __init__(self, objs):
|
||||
self._idxs = {}
|
||||
self._xobjs = []
|
||||
self._yobjs = []
|
||||
return
|
||||
|
||||
def __repr__(self):
|
||||
return ('<Plane objs=%r>' % list(self))
|
||||
|
||||
def __iter__(self):
|
||||
return self._idxs.iterkeys()
|
||||
|
||||
# add(obj): place an object in a certain area.
|
||||
def add(self, obj):
|
||||
self._idxs[obj] = len(self._idxs)
|
||||
self._xobjs.append((obj.x0, obj))
|
||||
self._xobjs.append((obj.x1, obj))
|
||||
self._yobjs.append((obj.y0, obj))
|
||||
self._yobjs.append((obj.y1, obj))
|
||||
return
|
||||
|
||||
# finish()
|
||||
def finish(self):
|
||||
self._xobjs.sort()
|
||||
self._yobjs.sort()
|
||||
return
|
||||
|
||||
# find(): finds objects that are in a certain area.
|
||||
def find(self, (x0,y0,x1,y1)):
|
||||
i0 = bsearch(self._xobjs, x0)[0]
|
||||
i1 = bsearch(self._xobjs, x1)[1]
|
||||
xobjs = set( obj for (_,obj) in self._xobjs[i0:i1] )
|
||||
i0 = bsearch(self._yobjs, y0)[0]
|
||||
i1 = bsearch(self._yobjs, y1)[1]
|
||||
yobjs = set( obj for (_,obj) in self._yobjs[i0:i1] )
|
||||
xobjs.intersection_update(yobjs)
|
||||
return sorted(xobjs, key=lambda obj: self._idxs[obj])
|
||||
|
||||
|
||||
# create_bmp
|
||||
def create_bmp(data, bits, width, height):
|
||||
info = pack('<IiiHHIIIIII', 40, width, height, 1, bits, 0, len(data), 0, 0, 0, 0)
|
||||
|
|
Loading…
Reference in New Issue