Briq
/
camelot-py
6
0
Fork 0
Code Issues Pull Requests Projects Releases Wiki Activity

Refactor core

pull/2/head
Vinayak Mehta 2018-09-06 07:42:41 +05:30
parent ffeb853c55
commit 557189da24
3 changed files with 97 additions and 142 deletions
Show Stats Download Patch File Download Diff File Expand all files Collapse all files

203
camelot/core.py
View File

@ -16,64 +16,47 @@ class Cell(object):
self.lt = (x1, y2)
self.rb = (x2, y1)
self.rt = (x2, y2)
self.bbox = (x1, y1, x2, y2)
self.left = False
self.right = False
self.top = False
self.bottom = False
self.text_objects = []
self.text = ''
self.spanning_h = False
self.spanning_v = False
self.hspan = False
self.vspan = False
self._text = ''
def __repr__(self):
pass
return '<Cell x1={} y1={} x2={} y2={}'.format(
self.x1, self.y1, self.x2, self.y2)
def add_text(self, text):
@property
def text(self):
"""
Returns
-------
"""
return self._text
@text.setter
def text(self, t):
"""
Parameters
----------
text
t
"""
self.text = ''.join([self.text, text])
self._text = ''.join([self._text, t])
def get_text(self):
@property
def bound(self):
"""
Returns
-------
"""
return self.text
def add_object(self, t_object):
"""
Parameters
----------
t_object
"""
self.text_objects.append(t_object)
def get_objects(self):
"""
Returns
-------
"""
return self.text_objects
def get_bounded_edges(self):
"""
Returns
-------
"""
self.bounded_edges = self.top + self.bottom + self.left + self.right
return self.bounded_edges
return self.top + self.bottom + self.left + self.right
class Table(object):
@ -95,22 +78,7 @@ class Table(object):
def __repr__(self):
return '<{} shape={}>'.format(self.__class__.__name__, self._shape)
def set_all_edges(self):
"""
Returns
-------
"""
for r in range(len(self.rows)):
for c in range(len(self.cols)):
self.cells[r][c].left = True
self.cells[r][c].right = True
self.cells[r][c].top = True
self.cells[r][c].bottom = True
return self
def set_border_edges(self):
def set_border(self):
"""
Returns
@ -125,6 +93,18 @@ class Table(object):
self.cells[len(self.rows) - 1][c].bottom = True
return self
def set_all_edges(self):
"""
Returns
-------
"""
for row in self.cells:
for cell in row:
cell.left = cell.right = cell.top = cell.bottom = True
return self
def set_edges(self, vertical, horizontal, jtol=2):
"""
@ -140,7 +120,7 @@ class Table(object):
"""
for v in vertical:
# find closest x coord
# iterate over y coords and find closest points
# iterate over y coords and find closest start and end points
i = [i for i, t in enumerate(self.cols)
if np.isclose(v[0], t[0], atol=jtol)]
j = [j for j, t in enumerate(self.rows)
@ -148,51 +128,50 @@ class Table(object):
k = [k for k, t in enumerate(self.rows)
if np.isclose(v[1], t[0], atol=jtol)]
if not j:
self.nocont_ += 1
continue
J = j[0]
if i == [0]: # only left edge
I = i[0]
L = i[0]
if k:
K = k[0]
while J < K:
self.cells[J][I].left = True
self.cells[J][L].left = True
J += 1
else:
K = len(self.rows)
while J < K:
self.cells[J][I].left = True
self.cells[J][L].left = True
J += 1
elif i == []: # only right edge
I = len(self.cols) - 1
L = len(self.cols) - 1
if k:
K = k[0]
while J < K:
self.cells[J][I].right = True
self.cells[J][L].right = True
J += 1
else:
K = len(self.rows)
while J < K:
self.cells[J][I].right = True
self.cells[J][L].right = True
J += 1
else: # both left and right edges
I = i[0]
L = i[0]
if k:
K = k[0]
while J < K:
self.cells[J][I].left = True
self.cells[J][I - 1].right = True
self.cells[J][L].left = True
self.cells[J][L - 1].right = True
J += 1
else:
K = len(self.rows)
while J < K:
self.cells[J][I].left = True
self.cells[J][I - 1].right = True
self.cells[J][L].left = True
self.cells[J][L - 1].right = True
J += 1
for h in horizontal:
# find closest y coord
# iterate over x coords and find closest points
# iterate over x coords and find closest start and end points
i = [i for i, t in enumerate(self.rows)
if np.isclose(h[1], t[0], atol=jtol)]
j = [j for j, t in enumerate(self.cols)
@ -200,93 +179,78 @@ class Table(object):
k = [k for k, t in enumerate(self.cols)
if np.isclose(h[2], t[0], atol=jtol)]
if not j:
self.nocont_ += 1
continue
J = j[0]
if i == [0]: # only top edge
I = i[0]
L = i[0]
if k:
K = k[0]
while J < K:
self.cells[I][J].top = True
self.cells[L][J].top = True
J += 1
else:
K = len(self.cols)
while J < K:
self.cells[I][J].top = True
self.cells[L][J].top = True
J += 1
elif i == []: # only bottom edge
I = len(self.rows) - 1
if k:
K = k[0]
while J < K:
self.cells[I][J].bottom = True
self.cells[L][J].bottom = True
J += 1
else:
K = len(self.cols)
while J < K:
self.cells[I][J].bottom = True
self.cells[L][J].bottom = True
J += 1
else: # both top and bottom edges
I = i[0]
L = i[0]
if k:
K = k[0]
while J < K:
self.cells[I][J].top = True
self.cells[I - 1][J].bottom = True
self.cells[L][J].top = True
self.cells[L - 1][J].bottom = True
J += 1
else:
K = len(self.cols)
while J < K:
self.cells[I][J].top = True
self.cells[I - 1][J].bottom = True
self.cells[L][J].top = True
self.cells[L - 1][J].bottom = True
J += 1
return self
def set_spanning(self):
def set_span(self):
"""
Returns
-------
"""
for r in range(len(self.rows)):
for c in range(len(self.cols)):
bound = self.cells[r][c].get_bounded_edges()
if bound == 4:
for row in self.cells:
for cell in row:
left = cell.left
right = cell.right
top = cell.top
bottom = cell.bottom
if cell.bound == 4:
continue
elif bound == 3:
if not self.cells[r][c].left:
if (self.cells[r][c].right and
self.cells[r][c].top and
self.cells[r][c].bottom):
self.cells[r][c].spanning_h = True
elif not self.cells[r][c].right:
if (self.cells[r][c].left and
self.cells[r][c].top and
self.cells[r][c].bottom):
self.cells[r][c].spanning_h = True
elif not self.cells[r][c].top:
if (self.cells[r][c].left and
self.cells[r][c].right and
self.cells[r][c].bottom):
self.cells[r][c].spanning_v = True
elif not self.cells[r][c].bottom:
if (self.cells[r][c].left and
self.cells[r][c].right and
self.cells[r][c].top):
self.cells[r][c].spanning_v = True
elif bound == 2:
if self.cells[r][c].left and self.cells[r][c].right:
if (not self.cells[r][c].top and
not self.cells[r][c].bottom):
self.cells[r][c].spanning_v = True
elif self.cells[r][c].top and self.cells[r][c].bottom:
if (not self.cells[r][c].left and
not self.cells[r][c].right):
self.cells[r][c].spanning_h = True
elif cell.bound == 3:
if not left and (right and top and bottom):
cell.hspan = True
elif not right and (left and top and bottom):
cell.hspan = True
elif not top and (left and right and bottom):
cell.vspan = True
elif not bottom and (left and right and top):
cell.vspan = True
elif cell.bound == 2:
if left and right and (not top and not bottom):
cell.vspan = True
elif top and bottom and (not left and not right):
cell.hspan = True
return self
@property
@ -298,9 +262,8 @@ class Table(object):
"""
d = []
for r in range(len(self.rows)):
d.append([self.cells[r][c].get_text().strip()
for c in range(len(self.cols))])
for row in self.cells:
d.append([cell.text.strip() for cell in row])
return d
@property
@ -405,7 +368,7 @@ class Table(object):
return report
class TableList(list):
class TableList(object):
"""
"""

29
camelot/parsers/lattice.py
View File

@ -1,10 +1,7 @@
from __future__ import division
import os
import sys
import copy
import types
import logging
import copy_reg
import warnings
import subprocess
@ -52,19 +49,19 @@ class Lattice(BaseParser):
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:
if t.cells[r_idx][c_idx].hspan:
while not t.cells[r_idx][c_idx].left:
c_idx -= 1
if d == 'r':
if t.cells[r_idx][c_idx].spanning_h:
if t.cells[r_idx][c_idx].hspan:
while not t.cells[r_idx][c_idx].right:
c_idx += 1
if d == 't':
if t.cells[r_idx][c_idx].spanning_v:
if t.cells[r_idx][c_idx].vspan:
while not t.cells[r_idx][c_idx].top:
r_idx -= 1
if d == 'b':
if t.cells[r_idx][c_idx].spanning_v:
if t.cells[r_idx][c_idx].vspan:
while not t.cells[r_idx][c_idx].bottom:
r_idx += 1
indices.append((r_idx, c_idx, text))
@ -76,15 +73,15 @@ class Lattice(BaseParser):
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())
if t.cells[i][j].text.strip() == '':
if t.cells[i][j].hspan and not t.cells[i][j].left:
t.cells[i][j].text = t.cells[i][j - 1].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())
if t.cells[i][j].text.strip() == '':
if t.cells[i][j].vspan and not t.cells[i][j].top:
t.cells[i][j].text = t.cells[i - 1][j].text
return t
def _generate_image(self):
@ -173,9 +170,9 @@ class Lattice(BaseParser):
# 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()
table = table.set_span()
# set table border edges to True
table = table.set_border_edges()
table = table.set_border()
pos_errors = []
for direction in self.t_bbox:
@ -187,7 +184,7 @@ class Lattice(BaseParser):
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)
table.cells[r_idx][c_idx].text = text
accuracy = compute_accuracy([[100, pos_errors]])
if self.fill is not None:

7
camelot/parsers/stream.py
View File

@ -1,12 +1,7 @@
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
@ -206,7 +201,7 @@ class Stream(BaseParser):
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)
table.cells[r_idx][c_idx].text = text
accuracy = compute_accuracy([[100, pos_errors]])
data = table.data