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Create parsers module

pull/2/head
Vinayak Mehta 2018-09-06 06:13:58 +05:30
parent d0005101a7
commit b91df8a1b8
6 changed files with 527 additions and 511 deletions
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510
camelot/parsers.py
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from __future__ import division
import os
import sys
import copy
import types
import logging
import copy_reg
import warnings
import subprocess
import numpy as np
import pandas as pd
from .core import Table, Geometry
from .image_processing import (adaptive_threshold, find_lines, find_table_contours,
find_table_joints)
from .utils import (scale_image, scale_pdf, segments_in_bbox, text_in_bbox,
merge_close_values, get_table_index, compute_accuracy, count_empty,
get_text_objects, get_page_layout, encode_)
__all__ = ['Stream', 'Lattice']
logger = logging.getLogger('app_logger')
def _reduce_method(m):
if m.im_self is None:
return getattr, (m.im_class, m.im_func.func_name)
else:
return getattr, (m.im_self, m.im_func.func_name)
copy_reg.pickle(types.MethodType, _reduce_method)
class BaseParser(object):
"""
"""
def _generate_layout(self, filename):
self.filename = filename
self.layout, self.dimensions = get_page_layout(
self.filename,
char_margin=self.char_margin,
line_margin=self.line_margin,
word_margin=self.word_margin)
self.horizontal_text = get_text_objects(self.layout, ltype="lh")
self.vertical_text = get_text_objects(self.layout, ltype="lv")
self.pdf_width, self.pdf_height = self.dimensions
self.basename, __ = os.path.splitext(self.filename)
self.g = Geometry()
class Stream(BaseParser):
"""
"""
def __init__(self, table_area=None, columns=None, ytol=2, mtol=0,
margins=(1.0, 0.5, 0.1), split_text=False, flag_size=True,
debug=False):
self.table_area = table_area
self.columns = columns
self._validate_columns()
self.ytol = ytol
self.mtol = mtol
self.char_margin, self.line_margin, self.word_margin = margins
self.split_text = split_text
self.flag_size = flag_size
self.debug = debug
def _validate_columns(self):
if self.table_area is not None and self.columns is not None:
if len(self.table_area) != len(self.columns):
raise ValueError("Length of table_area and columns"
" should be equal.")
@staticmethod
def _text_bbox(t_bbox):
xmin = min([t.x0 for direction in t_bbox for t in t_bbox[direction]])
ymin = min([t.y0 for direction in t_bbox for t in t_bbox[direction]])
xmax = max([t.x1 for direction in t_bbox for t in t_bbox[direction]])
ymax = max([t.y1 for direction in t_bbox for t in t_bbox[direction]])
text_bbox = (xmin, ymin, xmax, ymax)
return text_bbox
@staticmethod
def _group_rows(text, ytol=2):
row_y = 0
rows = []
temp = []
for t in text:
# is checking for upright necessary?
# if t.get_text().strip() and all([obj.upright for obj in t._objs if
# type(obj) is LTChar]):
if t.get_text().strip():
if not np.isclose(row_y, t.y0, atol=ytol):
rows.append(sorted(temp, key=lambda t: t.x0))
temp = []
row_y = t.y0
temp.append(t)
rows.append(sorted(temp, key=lambda t: t.x0))
__ = rows.pop(0) # hacky
return rows
@staticmethod
def _merge_columns(l, mtol=0):
merged = []
for higher in l:
if not merged:
merged.append(higher)
else:
lower = merged[-1]
if mtol >= 0:
if (higher[0] <= lower[1] or
np.isclose(higher[0], lower[1], atol=mtol)):
upper_bound = max(lower[1], higher[1])
lower_bound = min(lower[0], higher[0])
merged[-1] = (lower_bound, upper_bound)
else:
merged.append(higher)
elif mtol < 0:
if higher[0] <= lower[1]:
if np.isclose(higher[0], lower[1], atol=abs(mtol)):
merged.append(higher)
else:
upper_bound = max(lower[1], higher[1])
lower_bound = min(lower[0], higher[0])
merged[-1] = (lower_bound, upper_bound)
else:
merged.append(higher)
return merged
@staticmethod
def _join_rows(rows_grouped, text_y_max, text_y_min):
row_mids = [sum([(t.y0 + t.y1) / 2 for t in r]) / len(r)
if len(r) > 0 else 0 for r in rows_grouped]
rows = [(row_mids[i] + row_mids[i - 1]) / 2 for i in range(1, len(row_mids))]
rows.insert(0, text_y_max)
rows.append(text_y_min)
rows = [(rows[i], rows[i + 1])
for i in range(0, len(rows) - 1)]
return rows
@staticmethod
def _add_columns(cols, text, ytol):
if text:
text = Stream._group_rows(text, ytol=ytol)
elements = [len(r) for r in text]
new_cols = [(t.x0, t.x1)
for r in text if len(r) == max(elements) for t in r]
cols.extend(Stream._merge_columns(sorted(new_cols)))
return cols
@staticmethod
def _join_columns(cols, text_x_min, text_x_max):
cols = sorted(cols)
cols = [(cols[i][0] + cols[i - 1][1]) / 2 for i in range(1, len(cols))]
cols.insert(0, text_x_min)
cols.append(text_x_max)
cols = [(cols[i], cols[i + 1])
for i in range(0, len(cols) - 1)]
return cols
def _generate_table_bbox(self):
if self.table_area is not None:
table_bbox = {}
for area in self.table_area:
x1, y1, x2, y2 = area.split(",")
x1 = float(x1)
y1 = float(y1)
x2 = float(x2)
y2 = float(y2)
table_bbox[(x1, y2, x2, y1)] = None
else:
table_bbox = {(0, 0, self.pdf_width, self.pdf_height): None}
self.table_bbox = table_bbox
def _generate_columns_and_rows(self, table_idx, tk):
# select elements which lie within table_bbox
t_bbox = {}
t_bbox['horizontal'] = text_in_bbox(tk, self.horizontal_text)
t_bbox['vertical'] = text_in_bbox(tk, self.vertical_text)
self.t_bbox = t_bbox
for direction in self.t_bbox:
self.t_bbox[direction].sort(key=lambda x: (-x.y0, x.x0))
text_x_min, text_y_min, text_x_max, text_y_max = self._text_bbox(self.t_bbox)
rows_grouped = self._group_rows(self.t_bbox['horizontal'], ytol=self.ytol)
rows = self._join_rows(rows_grouped, text_y_max, text_y_min)
elements = [len(r) for r in rows_grouped]
if self.columns is not None and self.columns[table_idx] != "":
# user has to input boundary columns too
# take (0, pdf_width) by default
# similar to else condition
# len can't be 1
cols = self.columns[table_idx].split(',')
cols = [float(c) for c in cols]
cols.insert(0, text_x_min)
cols.append(text_x_max)
cols = [(cols[i], cols[i + 1]) for i in range(0, len(cols) - 1)]
else:
ncols = max(set(elements), key=elements.count)
if ncols == 1:
# no tables condition
warnings.warn("No tables found on {}".format(
os.path.basename(self.basename)))
cols = [(t.x0, t.x1)
for r in rows_grouped if len(r) == ncols for t in r]
cols = self._merge_columns(sorted(cols), mtol=self.mtol)
inner_text = []
for i in range(1, len(cols)):
left = cols[i - 1][1]
right = cols[i][0]
inner_text.extend([t for direction in self.t_bbox
for t in self.t_bbox[direction]
if t.x0 > left and t.x1 < right])
outer_text = [t for direction in self.t_bbox
for t in self.t_bbox[direction]
if t.x0 > cols[-1][1] or t.x1 < cols[0][0]]
inner_text.extend(outer_text)
cols = self._add_columns(cols, inner_text, self.ytol)
cols = self._join_columns(cols, text_x_min, text_x_max)
return cols, rows
def _generate_table(self, table_idx, cols, rows, **kwargs):
table = Table(cols, rows)
table = table.set_all_edges()
pos_errors = []
for direction in self.t_bbox:
for t in self.t_bbox[direction]:
indices, error = get_table_index(
table, t, direction, split_text=self.split_text,
flag_size=self.flag_size)
if indices[:2] != (-1, -1):
pos_errors.append(error)
for r_idx, c_idx, text in indices:
table.cells[r_idx][c_idx].add_text(text)
accuracy = compute_accuracy([[100, pos_errors]])
data = table.data
data = encode_(data)
table.df = pd.DataFrame(data)
table.shape = table.df.shape
whitespace, __, __ = count_empty(data)
table.accuracy = accuracy
table.whitespace = whitespace
table.order = table_idx + 1
table.page = int(os.path.basename(self.basename).replace('page-', ''))
return table
def extract_tables(self, filename):
"""
Parameters
----------
filename
Returns
-------
"""
logger.info('Processing {}'.format(os.path.basename(filename)))
self._generate_layout(filename)
if not self.horizontal_text:
warnings.warn("No tables found on {}".format(
os.path.basename(self.basename)))
return [], self.g
self._generate_table_bbox()
_tables = []
# sort tables based on y-coord
for table_idx, tk in enumerate(sorted(self.table_bbox.keys(),
key=lambda x: x[1], reverse=True)):
cols, rows = self._generate_columns_and_rows(table_idx, tk)
table = self._generate_table(table_idx, cols, rows)
_tables.append(table)
if self.debug:
text = []
text.extend([(t.x0, t.y0, t.x1, t.y1) for t in self.horizontal_text])
text.extend([(t.x0, t.y0, t.x1, t.y1) for t in self.vertical_text])
self.g.text = text
return _tables, self.g
class Lattice(BaseParser):
"""
"""
def __init__(self, table_area=None, fill=None, mtol=2, jtol=2,
blocksize=15, threshold_constant=-2, scale=15, iterations=0,
invert=False, margins=(1.0, 0.5, 0.1), split_text=False,
flag_size=True, shift_text=['l', 't'], debug=None):
self.table_area = table_area
self.fill = fill
self.mtol = mtol
self.jtol = jtol
self.blocksize = blocksize
self.threshold_constant = threshold_constant
self.scale = scale
self.iterations = iterations
self.invert = invert
self.char_margin, self.line_margin, self.word_margin = margins
self.split_text = split_text
self.flag_size = flag_size
self.shift_text = shift_text
self.debug = debug
@staticmethod
def _reduce_index(t, idx, shift_text):
indices = []
for r_idx, c_idx, text in idx:
for d in shift_text:
if d == 'l':
if t.cells[r_idx][c_idx].spanning_h:
while not t.cells[r_idx][c_idx].left:
c_idx -= 1
if d == 'r':
if t.cells[r_idx][c_idx].spanning_h:
while not t.cells[r_idx][c_idx].right:
c_idx += 1
if d == 't':
if t.cells[r_idx][c_idx].spanning_v:
while not t.cells[r_idx][c_idx].top:
r_idx -= 1
if d == 'b':
if t.cells[r_idx][c_idx].spanning_v:
while not t.cells[r_idx][c_idx].bottom:
r_idx += 1
indices.append((r_idx, c_idx, text))
return indices
@staticmethod
def _fill_spanning(t, fill=None):
for f in fill:
if f == "h":
for i in range(len(t.cells)):
for j in range(len(t.cells[i])):
if t.cells[i][j].get_text().strip() == '':
if t.cells[i][j].spanning_h and not t.cells[i][j].left:
t.cells[i][j].add_text(t.cells[i][j - 1].get_text())
elif f == "v":
for i in range(len(t.cells)):
for j in range(len(t.cells[i])):
if t.cells[i][j].get_text().strip() == '':
if t.cells[i][j].spanning_v and not t.cells[i][j].top:
t.cells[i][j].add_text(t.cells[i - 1][j].get_text())
return t
def _generate_image(self):
self.imagename = ''.join([self.basename, '.png'])
gs_call = [
"-q", "-sDEVICE=png16m", "-o", self.imagename, "-r600", self.filename
]
if "ghostscript" in subprocess.check_output(["gs", "-version"]).lower():
gs_call.insert(0, "gs")
else:
gs_call.insert(0, "gsc")
subprocess.call(gs_call, stdout=open(os.devnull, 'w'),
stderr=subprocess.STDOUT)
def _generate_table_bbox(self):
self.image, self.threshold = adaptive_threshold(self.imagename, invert=self.invert,
blocksize=self.blocksize, c=self.threshold_constant)
image_width = self.image.shape[1]
image_height = self.image.shape[0]
image_width_scaler = image_width / float(self.pdf_width)
image_height_scaler = image_height / float(self.pdf_height)
pdf_width_scaler = self.pdf_width / float(image_width)
pdf_height_scaler = self.pdf_height / float(image_height)
image_scalers = (image_width_scaler, image_height_scaler, self.pdf_height)
pdf_scalers = (pdf_width_scaler, pdf_height_scaler, image_height)
vertical_mask, vertical_segments = find_lines(self.threshold,
direction='vertical', scale=self.scale, iterations=self.iterations)
horizontal_mask, horizontal_segments = find_lines(self.threshold,
direction='horizontal', scale=self.scale, iterations=self.iterations)
if self.table_area is not None:
areas = []
for area in self.table_area:
x1, y1, x2, y2 = area.split(",")
x1 = float(x1)
y1 = float(y1)
x2 = float(x2)
y2 = float(y2)
x1, y1, x2, y2 = scale_pdf((x1, y1, x2, y2), image_scalers)
areas.append((x1, y1, abs(x2 - x1), abs(y2 - y1)))
table_bbox = find_table_joints(areas, vertical_mask, horizontal_mask)
else:
contours = find_table_contours(vertical_mask, horizontal_mask)
table_bbox = find_table_joints(contours, vertical_mask, horizontal_mask)
self.table_bbox_unscaled = copy.deepcopy(table_bbox)
self.table_bbox, self.vertical_segments, self.horizontal_segments = scale_image(
table_bbox, vertical_segments, horizontal_segments, pdf_scalers)
def _generate_columns_and_rows(self, table_idx, tk):
# select elements which lie within table_bbox
t_bbox = {}
v_s, h_s = segments_in_bbox(
tk, self.vertical_segments, self.horizontal_segments)
t_bbox['horizontal'] = text_in_bbox(tk, self.horizontal_text)
t_bbox['vertical'] = text_in_bbox(tk, self.vertical_text)
self.t_bbox = t_bbox
for direction in t_bbox:
t_bbox[direction].sort(key=lambda x: (-x.y0, x.x0))
cols, rows = zip(*self.table_bbox[tk])
cols, rows = list(cols), list(rows)
cols.extend([tk[0], tk[2]])
rows.extend([tk[1], tk[3]])
# sort horizontal and vertical segments
cols = merge_close_values(sorted(cols), mtol=self.mtol)
rows = merge_close_values(sorted(rows, reverse=True), mtol=self.mtol)
# make grid using x and y coord of shortlisted rows and cols
cols = [(cols[i], cols[i + 1])
for i in range(0, len(cols) - 1)]
rows = [(rows[i], rows[i + 1])
for i in range(0, len(rows) - 1)]
return cols, rows, v_s, h_s
def _generate_table(self, table_idx, cols, rows, **kwargs):
v_s = kwargs.get('v_s')
h_s = kwargs.get('h_s')
if v_s is None or h_s is None:
raise ValueError('No segments found on {}'.format(self.basename))
table = Table(cols, rows)
# set table edges to True using ver+hor lines
table = table.set_edges(v_s, h_s, jtol=self.jtol)
# set spanning cells to True
table = table.set_spanning()
# set table border edges to True
table = table.set_border_edges()
pos_errors = []
for direction in self.t_bbox:
for t in self.t_bbox[direction]:
indices, error = get_table_index(
table, t, direction, split_text=self.split_text,
flag_size=self.flag_size)
if indices[:2] != (-1, -1):
pos_errors.append(error)
indices = Lattice._reduce_index(table, indices, shift_text=self.shift_text)
for r_idx, c_idx, text in indices:
table.cells[r_idx][c_idx].add_text(text)
accuracy = compute_accuracy([[100, pos_errors]])
if self.fill is not None:
table = Lattice._fill_spanning(table, fill=self.fill)
data = table.data
data = encode_(data)
table.df = pd.DataFrame(data)
table.shape = table.df.shape
whitespace, __, __ = count_empty(data)
table.accuracy = accuracy
table.whitespace = whitespace
table.order = table_idx + 1
table.page = int(os.path.basename(self.basename).replace('page-', ''))
return table
def extract_tables(self, filename):
"""
Parameters
----------
filename
Returns
-------
"""
logger.info('Processing {}'.format(os.path.basename(filename)))
self._generate_layout(filename)
if not self.horizontal_text:
warnings.warn("No tables found on {}".format(
os.path.basename(self.basename)))
return [], self.g
self._generate_image()
self._generate_table_bbox()
_tables = []
# sort tables based on y-coord
for table_idx, tk in enumerate(sorted(self.table_bbox.keys(),
key=lambda x: x[1], reverse=True)):
cols, rows, v_s, h_s = self._generate_columns_and_rows(table_idx, tk)
table = self._generate_table(table_idx, cols, rows, v_s=v_s, h_s=h_s)
_tables.append(table)
if self.debug:
self.g.images = (self.image, self.table_bbox_unscaled)
self.g.segments = (self.vertical_segments, self.horizontal_segments)
self.g.tables = _tables
return _tables, self.g

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camelot/parsers/__init__.py 100644
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from .stream import Stream
from .lattice import Lattice

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camelot/parsers/base.py 100644
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from ..core import Geometry
from ..utils import get_page_layout, get_text_objects
class BaseParser(object):
"""
"""
def _generate_layout(self, filename):
self.filename = filename
self.layout, self.dimensions = get_page_layout(
self.filename,
char_margin=self.char_margin,
line_margin=self.line_margin,
word_margin=self.word_margin)
self.horizontal_text = get_text_objects(self.layout, ltype="lh")
self.vertical_text = get_text_objects(self.layout, ltype="lv")
self.pdf_width, self.pdf_height = self.dimensions
self.basename, __ = os.path.splitext(self.filename)
self.g = Geometry()

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camelot/parsers/lattice.py 100644
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from __future__ import division
import os
import sys
import copy
import types
import logging
import copy_reg
import warnings
import subprocess
import numpy as np
import pandas as pd
from .base import BaseParser
from ..core import Table
from ..utils import (scale_image, scale_pdf, segments_in_bbox, text_in_bbox,
merge_close_values, get_table_index, compute_accuracy,
count_empty, encode_)
from ..image_processing import (adaptive_threshold, find_lines,
find_table_contours, find_table_joints)
logger = logging.getLogger('camelot')
class Lattice(BaseParser):
"""
"""
def __init__(self, table_area=None, fill=None, mtol=2, jtol=2,
blocksize=15, threshold_constant=-2, scale=15, iterations=0,
invert=False, margins=(1.0, 0.5, 0.1), split_text=False,
flag_size=True, shift_text=['l', 't'], debug=None):
self.table_area = table_area
self.fill = fill
self.mtol = mtol
self.jtol = jtol
self.blocksize = blocksize
self.threshold_constant = threshold_constant
self.scale = scale
self.iterations = iterations
self.invert = invert
self.char_margin, self.line_margin, self.word_margin = margins
self.split_text = split_text
self.flag_size = flag_size
self.shift_text = shift_text
self.debug = debug
@staticmethod
def _reduce_index(t, idx, shift_text):
indices = []
for r_idx, c_idx, text in idx:
for d in shift_text:
if d == 'l':
if t.cells[r_idx][c_idx].spanning_h:
while not t.cells[r_idx][c_idx].left:
c_idx -= 1
if d == 'r':
if t.cells[r_idx][c_idx].spanning_h:
while not t.cells[r_idx][c_idx].right:
c_idx += 1
if d == 't':
if t.cells[r_idx][c_idx].spanning_v:
while not t.cells[r_idx][c_idx].top:
r_idx -= 1
if d == 'b':
if t.cells[r_idx][c_idx].spanning_v:
while not t.cells[r_idx][c_idx].bottom:
r_idx += 1
indices.append((r_idx, c_idx, text))
return indices
@staticmethod
def _fill_spanning(t, fill=None):
for f in fill:
if f == "h":
for i in range(len(t.cells)):
for j in range(len(t.cells[i])):
if t.cells[i][j].get_text().strip() == '':
if t.cells[i][j].spanning_h and not t.cells[i][j].left:
t.cells[i][j].add_text(t.cells[i][j - 1].get_text())
elif f == "v":
for i in range(len(t.cells)):
for j in range(len(t.cells[i])):
if t.cells[i][j].get_text().strip() == '':
if t.cells[i][j].spanning_v and not t.cells[i][j].top:
t.cells[i][j].add_text(t.cells[i - 1][j].get_text())
return t
def _generate_image(self):
self.imagename = ''.join([self.basename, '.png'])
gs_call = [
"-q", "-sDEVICE=png16m", "-o", self.imagename, "-r600", self.filename
]
if "ghostscript" in subprocess.check_output(["gs", "-version"]).lower():
gs_call.insert(0, "gs")
else:
gs_call.insert(0, "gsc")
subprocess.call(gs_call, stdout=open(os.devnull, 'w'),
stderr=subprocess.STDOUT)
def _generate_table_bbox(self):
self.image, self.threshold = adaptive_threshold(self.imagename, invert=self.invert,
blocksize=self.blocksize, c=self.threshold_constant)
image_width = self.image.shape[1]
image_height = self.image.shape[0]
image_width_scaler = image_width / float(self.pdf_width)
image_height_scaler = image_height / float(self.pdf_height)
pdf_width_scaler = self.pdf_width / float(image_width)
pdf_height_scaler = self.pdf_height / float(image_height)
image_scalers = (image_width_scaler, image_height_scaler, self.pdf_height)
pdf_scalers = (pdf_width_scaler, pdf_height_scaler, image_height)
vertical_mask, vertical_segments = find_lines(self.threshold,
direction='vertical', scale=self.scale, iterations=self.iterations)
horizontal_mask, horizontal_segments = find_lines(self.threshold,
direction='horizontal', scale=self.scale, iterations=self.iterations)
if self.table_area is not None:
areas = []
for area in self.table_area:
x1, y1, x2, y2 = area.split(",")
x1 = float(x1)
y1 = float(y1)
x2 = float(x2)
y2 = float(y2)
x1, y1, x2, y2 = scale_pdf((x1, y1, x2, y2), image_scalers)
areas.append((x1, y1, abs(x2 - x1), abs(y2 - y1)))
table_bbox = find_table_joints(areas, vertical_mask, horizontal_mask)
else:
contours = find_table_contours(vertical_mask, horizontal_mask)
table_bbox = find_table_joints(contours, vertical_mask, horizontal_mask)
self.table_bbox_unscaled = copy.deepcopy(table_bbox)
self.table_bbox, self.vertical_segments, self.horizontal_segments = scale_image(
table_bbox, vertical_segments, horizontal_segments, pdf_scalers)
def _generate_columns_and_rows(self, table_idx, tk):
# select elements which lie within table_bbox
t_bbox = {}
v_s, h_s = segments_in_bbox(
tk, self.vertical_segments, self.horizontal_segments)
t_bbox['horizontal'] = text_in_bbox(tk, self.horizontal_text)
t_bbox['vertical'] = text_in_bbox(tk, self.vertical_text)
self.t_bbox = t_bbox
for direction in t_bbox:
t_bbox[direction].sort(key=lambda x: (-x.y0, x.x0))
cols, rows = zip(*self.table_bbox[tk])
cols, rows = list(cols), list(rows)
cols.extend([tk[0], tk[2]])
rows.extend([tk[1], tk[3]])
# sort horizontal and vertical segments
cols = merge_close_values(sorted(cols), mtol=self.mtol)
rows = merge_close_values(sorted(rows, reverse=True), mtol=self.mtol)
# make grid using x and y coord of shortlisted rows and cols
cols = [(cols[i], cols[i + 1])
for i in range(0, len(cols) - 1)]
rows = [(rows[i], rows[i + 1])
for i in range(0, len(rows) - 1)]
return cols, rows, v_s, h_s
def _generate_table(self, table_idx, cols, rows, **kwargs):
v_s = kwargs.get('v_s')
h_s = kwargs.get('h_s')
if v_s is None or h_s is None:
raise ValueError('No segments found on {}'.format(self.basename))
table = Table(cols, rows)
# set table edges to True using ver+hor lines
table = table.set_edges(v_s, h_s, jtol=self.jtol)
# set spanning cells to True
table = table.set_spanning()
# set table border edges to True
table = table.set_border_edges()
pos_errors = []
for direction in self.t_bbox:
for t in self.t_bbox[direction]:
indices, error = get_table_index(
table, t, direction, split_text=self.split_text,
flag_size=self.flag_size)
if indices[:2] != (-1, -1):
pos_errors.append(error)
indices = Lattice._reduce_index(table, indices, shift_text=self.shift_text)
for r_idx, c_idx, text in indices:
table.cells[r_idx][c_idx].add_text(text)
accuracy = compute_accuracy([[100, pos_errors]])
if self.fill is not None:
table = Lattice._fill_spanning(table, fill=self.fill)
data = table.data
data = encode_(data)
table.df = pd.DataFrame(data)
table.shape = table.df.shape
whitespace, __, __ = count_empty(data)
table.accuracy = accuracy
table.whitespace = whitespace
table.order = table_idx + 1
table.page = int(os.path.basename(self.basename).replace('page-', ''))
return table
def extract_tables(self, filename):
"""
Parameters
----------
filename
Returns
-------
"""
logger.info('Processing {}'.format(os.path.basename(filename)))
self._generate_layout(filename)
if not self.horizontal_text:
warnings.warn("No tables found on {}".format(
os.path.basename(self.basename)))
return [], self.g
self._generate_image()
self._generate_table_bbox()
_tables = []
# sort tables based on y-coord
for table_idx, tk in enumerate(sorted(self.table_bbox.keys(),
key=lambda x: x[1], reverse=True)):
cols, rows, v_s, h_s = self._generate_columns_and_rows(table_idx, tk)
table = self._generate_table(table_idx, cols, rows, v_s=v_s, h_s=h_s)
_tables.append(table)
if self.debug:
self.g.images = (self.image, self.table_bbox_unscaled)
self.g.segments = (self.vertical_segments, self.horizontal_segments)
self.g.tables = _tables
return _tables, self.g

260
camelot/parsers/stream.py 100644
View File

@ -0,0 +1,260 @@
from __future__ import division
import os
import sys
import copy
import types
import logging
import copy_reg
import warnings
import subprocess
import numpy as np
import pandas as pd
from .base import BaseParser
from ..core import Table
from ..utils import (text_in_bbox, get_table_index, compute_accuracy,
count_empty, encode_)
logger = logging.getLogger('camelot')
class Stream(BaseParser):
"""
"""
def __init__(self, table_area=None, columns=None, ytol=2, mtol=0,
margins=(1.0, 0.5, 0.1), split_text=False, flag_size=True,
debug=False):
self.table_area = table_area
self.columns = columns
self._validate_columns()
self.ytol = ytol
self.mtol = mtol
self.char_margin, self.line_margin, self.word_margin = margins
self.split_text = split_text
self.flag_size = flag_size
self.debug = debug
def _validate_columns(self):
if self.table_area is not None and self.columns is not None:
if len(self.table_area) != len(self.columns):
raise ValueError("Length of table_area and columns"
" should be equal")
@staticmethod
def _text_bbox(t_bbox):
xmin = min([t.x0 for direction in t_bbox for t in t_bbox[direction]])
ymin = min([t.y0 for direction in t_bbox for t in t_bbox[direction]])
xmax = max([t.x1 for direction in t_bbox for t in t_bbox[direction]])
ymax = max([t.y1 for direction in t_bbox for t in t_bbox[direction]])
text_bbox = (xmin, ymin, xmax, ymax)
return text_bbox
@staticmethod
def _group_rows(text, ytol=2):
row_y = 0
rows = []
temp = []
for t in text:
# is checking for upright necessary?
# if t.get_text().strip() and all([obj.upright for obj in t._objs if
# type(obj) is LTChar]):
if t.get_text().strip():
if not np.isclose(row_y, t.y0, atol=ytol):
rows.append(sorted(temp, key=lambda t: t.x0))
temp = []
row_y = t.y0
temp.append(t)
rows.append(sorted(temp, key=lambda t: t.x0))
__ = rows.pop(0) # hacky
return rows
@staticmethod
def _merge_columns(l, mtol=0):
merged = []
for higher in l:
if not merged:
merged.append(higher)
else:
lower = merged[-1]
if mtol >= 0:
if (higher[0] <= lower[1] or
np.isclose(higher[0], lower[1], atol=mtol)):
upper_bound = max(lower[1], higher[1])
lower_bound = min(lower[0], higher[0])
merged[-1] = (lower_bound, upper_bound)
else:
merged.append(higher)
elif mtol < 0:
if higher[0] <= lower[1]:
if np.isclose(higher[0], lower[1], atol=abs(mtol)):
merged.append(higher)
else:
upper_bound = max(lower[1], higher[1])
lower_bound = min(lower[0], higher[0])
merged[-1] = (lower_bound, upper_bound)
else:
merged.append(higher)
return merged
@staticmethod
def _join_rows(rows_grouped, text_y_max, text_y_min):
row_mids = [sum([(t.y0 + t.y1) / 2 for t in r]) / len(r)
if len(r) > 0 else 0 for r in rows_grouped]
rows = [(row_mids[i] + row_mids[i - 1]) / 2 for i in range(1, len(row_mids))]
rows.insert(0, text_y_max)
rows.append(text_y_min)
rows = [(rows[i], rows[i + 1])
for i in range(0, len(rows) - 1)]
return rows
@staticmethod
def _add_columns(cols, text, ytol):
if text:
text = Stream._group_rows(text, ytol=ytol)
elements = [len(r) for r in text]
new_cols = [(t.x0, t.x1)
for r in text if len(r) == max(elements) for t in r]
cols.extend(Stream._merge_columns(sorted(new_cols)))
return cols
@staticmethod
def _join_columns(cols, text_x_min, text_x_max):
cols = sorted(cols)
cols = [(cols[i][0] + cols[i - 1][1]) / 2 for i in range(1, len(cols))]
cols.insert(0, text_x_min)
cols.append(text_x_max)
cols = [(cols[i], cols[i + 1])
for i in range(0, len(cols) - 1)]
return cols
def _generate_table_bbox(self):
if self.table_area is not None:
table_bbox = {}
for area in self.table_area:
x1, y1, x2, y2 = area.split(",")
x1 = float(x1)
y1 = float(y1)
x2 = float(x2)
y2 = float(y2)
table_bbox[(x1, y2, x2, y1)] = None
else:
table_bbox = {(0, 0, self.pdf_width, self.pdf_height): None}
self.table_bbox = table_bbox
def _generate_columns_and_rows(self, table_idx, tk):
# select elements which lie within table_bbox
t_bbox = {}
t_bbox['horizontal'] = text_in_bbox(tk, self.horizontal_text)
t_bbox['vertical'] = text_in_bbox(tk, self.vertical_text)
self.t_bbox = t_bbox
for direction in self.t_bbox:
self.t_bbox[direction].sort(key=lambda x: (-x.y0, x.x0))
text_x_min, text_y_min, text_x_max, text_y_max = self._text_bbox(self.t_bbox)
rows_grouped = self._group_rows(self.t_bbox['horizontal'], ytol=self.ytol)
rows = self._join_rows(rows_grouped, text_y_max, text_y_min)
elements = [len(r) for r in rows_grouped]
if self.columns is not None and self.columns[table_idx] != "":
# user has to input boundary columns too
# take (0, pdf_width) by default
# similar to else condition
# len can't be 1
cols = self.columns[table_idx].split(',')
cols = [float(c) for c in cols]
cols.insert(0, text_x_min)
cols.append(text_x_max)
cols = [(cols[i], cols[i + 1]) for i in range(0, len(cols) - 1)]
else:
ncols = max(set(elements), key=elements.count)
if ncols == 1:
# no tables condition
warnings.warn("No tables found on {}".format(
os.path.basename(self.basename)))
cols = [(t.x0, t.x1)
for r in rows_grouped if len(r) == ncols for t in r]
cols = self._merge_columns(sorted(cols), mtol=self.mtol)
inner_text = []
for i in range(1, len(cols)):
left = cols[i - 1][1]
right = cols[i][0]
inner_text.extend([t for direction in self.t_bbox
for t in self.t_bbox[direction]
if t.x0 > left and t.x1 < right])
outer_text = [t for direction in self.t_bbox
for t in self.t_bbox[direction]
if t.x0 > cols[-1][1] or t.x1 < cols[0][0]]
inner_text.extend(outer_text)
cols = self._add_columns(cols, inner_text, self.ytol)
cols = self._join_columns(cols, text_x_min, text_x_max)
return cols, rows
def _generate_table(self, table_idx, cols, rows, **kwargs):
table = Table(cols, rows)
table = table.set_all_edges()
pos_errors = []
for direction in self.t_bbox:
for t in self.t_bbox[direction]:
indices, error = get_table_index(
table, t, direction, split_text=self.split_text,
flag_size=self.flag_size)
if indices[:2] != (-1, -1):
pos_errors.append(error)
for r_idx, c_idx, text in indices:
table.cells[r_idx][c_idx].add_text(text)
accuracy = compute_accuracy([[100, pos_errors]])
data = table.data
data = encode_(data)
table.df = pd.DataFrame(data)
table.shape = table.df.shape
whitespace, __, __ = count_empty(data)
table.accuracy = accuracy
table.whitespace = whitespace
table.order = table_idx + 1
table.page = int(os.path.basename(self.basename).replace('page-', ''))
return table
def extract_tables(self, filename):
"""
Parameters
----------
filename
Returns
-------
"""
logger.info('Processing {}'.format(os.path.basename(filename)))
self._generate_layout(filename)
if not self.horizontal_text:
warnings.warn("No tables found on {}".format(
os.path.basename(self.basename)))
return [], self.g
self._generate_table_bbox()
_tables = []
# sort tables based on y-coord
for table_idx, tk in enumerate(sorted(self.table_bbox.keys(),
key=lambda x: x[1], reverse=True)):
cols, rows = self._generate_columns_and_rows(table_idx, tk)
table = self._generate_table(table_idx, cols, rows)
_tables.append(table)
if self.debug:
text = []
text.extend([(t.x0, t.y0, t.x1, t.y1) for t in self.horizontal_text])
text.extend([(t.x0, t.y0, t.x1, t.y1) for t in self.vertical_text])
self.g.text = text
return _tables, self.g

2
camelot/utils.py
View File

@ -154,7 +154,7 @@ def setup_logging(log_filepath):
-------
"""
logger = logging.getLogger("app_logger")
logger = logging.getLogger("camelot")
logger.setLevel(logging.DEBUG)
# Log File Handler (Associating one log file per webservice run)
log_file_handler = logging.FileHandler(log_filepath,