test_duplicate_append_curve() - Code Metrics - Inspection of "Merge pull request #215 from kinverarity1/issue214..." - kinverarity1/lasio - Measure and Improve Code Quality continuously with Scrutinizer

Completed

Push — master ( 525852...81f879 )

by Kent

created 2017-12-30 11:56 UTC

test_duplicate_append_curve() A

↳ Parent: Project

Complexity

Conditions

Size

Total Lines

Duplication

Lines	0
Ratio	0 %

Importance

Changes	1
Bugs	0	Features	0

Metric	Value
cc	3
c	1
b	0
f	0
dl	0
loc	5
rs	9.4285

import os, sys; sys.path.insert(0, os.path.dirname(os.path.dirname(__file__)))

import fnmatch
from pprint import pformat

import numpy
import pytest
import math

import lasio
import lasio.las_items
from lasio import las, read, exceptions


test_dir = os.path.dirname(__file__)

egfn = lambda fn: os.path.join(os.path.dirname(__file__), "examples", fn)
stegfn = lambda vers, fn: os.path.join(
    os.path.dirname(__file__), "examples", vers, fn)


def test_autodepthindex():
    m = read(egfn("autodepthindex_M.las"))
    f = read(egfn("autodepthindex_F.las"))
    ft = read(egfn("autodepthindex_FT.las"))
    err = read(egfn("autodepthindex_M_FT.las"))


def test_autodepthindex_inconsistent():
    err = read(egfn("autodepthindex_M_FT.las"))
    with pytest.raises(exceptions.LASUnknownUnitError):
        print(err.depth_m)


def test_autodepthindex_m():
    l = read(egfn("autodepthindex_M.las"))
    assert (l.depth_ft[-1] * 0.3048 == l.index[-1])


def test_autodepthindex_f():
    l = read(egfn("autodepthindex_F.las"))
    assert (l.depth_m[-1] / 0.3048 == l.index[-1])


def test_autodepthindex_ft():
    l = read(egfn("autodepthindex_FT.las"))
    assert (l.depth_m[-1] / 0.3048 == l.index[-1])

def test_autodepthindex_feet():
    l = read(egfn("autodepthindex_FEET.las"))
    assert (l.depth_m[-1] / 0.3048 == l.index[-1])

def test_df_indexing():
    l = read(egfn("6038187_v1.2.las"))
    metres = 9.05
    spacing = l.well["STEP"].value
    calc_index = math.floor((metres / spacing) - (l.well["STRT"].value / spacing))
    calc_index = int(calc_index)
    assert l["GAMN"][calc_index] == l.df()["GAMN"][metres]


# TODO: make above test in reverse-ordered LAS (e.g. STRT > STOP)

def test_df_reverse():
    l = read(egfn("sample_rev.las"))
    metres = 1667
    spacing = l.well["STEP"].value
    calc_index = math.floor((metres // spacing) - (l.well["STRT"].value // spacing))
    calc_index = int(calc_index)
    assert l["DT"][calc_index] == l.df()["DT"][metres]

def test_df_curve_names():
    l = read(egfn("sample_rev.las"))
    assert l.keys()[1:] == list(l.df().columns.values)

def test_non_standard_section():
    l = read(egfn("non-standard-header-section.las"))
    assert "SPECIAL INFORMATION" in l.sections.keys()

def test_non_standard_sections():
    l = read(egfn("non-standard-header-sections.las"))
    assert "SPECIAL INFORMATION" in l.sections.keys()
    assert "extra special information" in l.sections.keys()

def test_repr():
    h = lasio.las_items.HeaderItem('MN', unit='m', value=20, descr='test testing')
    assert h.__repr__() == pformat(h)

def test_mnemonic_case_preserved():
    las = lasio.read(egfn('mnemonic_case.las'), mnemonic_case='preserve')
    assert [c.mnemonic for c in las.curves] == ['Dept', 'Sflu', 'NPHI', 'SFLU:1', 'SFLU:2', 'sflu', 'SfLu']

def test_mnemonic_case_upper():
    las = lasio.read(egfn('mnemonic_case.las'), mnemonic_case='upper')
    assert [c.mnemonic for c in las.curves] == ['DEPT', 'SFLU:1', 'NPHI', 'SFLU:2', 'SFLU:3', 'SFLU:4', 'SFLU:5']

def test_mnemonic_case_lower():
    las = lasio.read(egfn('mnemonic_case.las'), mnemonic_case='lower')
    assert [c.mnemonic for c in las.curves] == ['dept', 'sflu:1', 'nphi', 'sflu:2', 'sflu:3', 'sflu:4', 'sflu:5']

def test_duplicate_append_curve():
    las = lasio.read(egfn('sample.las'))
    las.append_curve('TEST', data=[1,2,3])
    las.append_curve('TEST', data=[4,5,6])
    assert [c.mnemonic for c in las.curves[-2:]] == ['TEST:1', 'TEST:2']

1			import os, sys; sys.path.insert(0, os.path.dirname(os.path.dirname(__file__)))
2
3			import fnmatch
4			from pprint import pformat
5
6			import numpy
7			import pytest
8			import math
9
10			import lasio
11			import lasio.las_items
12			from lasio import las, read, exceptions
13
14
15			test_dir = os.path.dirname(__file__)
16
17			egfn = lambda fn: os.path.join(os.path.dirname(__file__), "examples", fn)
18			stegfn = lambda vers, fn: os.path.join(
19			os.path.dirname(__file__), "examples", vers, fn)
20
21
22			def test_autodepthindex():
23			m = read(egfn("autodepthindex_M.las"))
24			f = read(egfn("autodepthindex_F.las"))
25			ft = read(egfn("autodepthindex_FT.las"))
26			err = read(egfn("autodepthindex_M_FT.las"))
27
28
29			def test_autodepthindex_inconsistent():
30			err = read(egfn("autodepthindex_M_FT.las"))
31			with pytest.raises(exceptions.LASUnknownUnitError):
32			print(err.depth_m)
33
34
35			def test_autodepthindex_m():
36			l = read(egfn("autodepthindex_M.las"))
37			assert (l.depth_ft[-1] * 0.3048 == l.index[-1])
38
39
40			def test_autodepthindex_f():
41			l = read(egfn("autodepthindex_F.las"))
42			assert (l.depth_m[-1] / 0.3048 == l.index[-1])
43
44
45			def test_autodepthindex_ft():
46			l = read(egfn("autodepthindex_FT.las"))
47			assert (l.depth_m[-1] / 0.3048 == l.index[-1])
48
49			def test_autodepthindex_feet():
50			l = read(egfn("autodepthindex_FEET.las"))
51			assert (l.depth_m[-1] / 0.3048 == l.index[-1])
52
53			def test_df_indexing():
54			l = read(egfn("6038187_v1.2.las"))
55			metres = 9.05
56			spacing = l.well["STEP"].value
57			calc_index = math.floor((metres / spacing) - (l.well["STRT"].value / spacing))
58			calc_index = int(calc_index)
59			assert l["GAMN"][calc_index] == l.df()["GAMN"][metres]
60
61
62			# TODO: make above test in reverse-ordered LAS (e.g. STRT > STOP)
63
64			def test_df_reverse():
65			l = read(egfn("sample_rev.las"))
66			metres = 1667
67			spacing = l.well["STEP"].value
68			calc_index = math.floor((metres // spacing) - (l.well["STRT"].value // spacing))
69			calc_index = int(calc_index)
70			assert l["DT"][calc_index] == l.df()["DT"][metres]
71
72			def test_df_curve_names():
73			l = read(egfn("sample_rev.las"))
74			assert l.keys()[1:] == list(l.df().columns.values)
75
76			def test_non_standard_section():
77			l = read(egfn("non-standard-header-section.las"))
78			assert "SPECIAL INFORMATION" in l.sections.keys()
79
80			def test_non_standard_sections():
81			l = read(egfn("non-standard-header-sections.las"))
82			assert "SPECIAL INFORMATION" in l.sections.keys()
83			assert "extra special information" in l.sections.keys()
84
85			def test_repr():
86			h = lasio.las_items.HeaderItem('MN', unit='m', value=20, descr='test testing')
87			assert h.__repr__() == pformat(h)
88
89			def test_mnemonic_case_preserved():
90			las = lasio.read(egfn('mnemonic_case.las'), mnemonic_case='preserve')
91			assert [c.mnemonic for c in las.curves] == ['Dept', 'Sflu', 'NPHI', 'SFLU:1', 'SFLU:2', 'sflu', 'SfLu']
92
93			def test_mnemonic_case_upper():
94			las = lasio.read(egfn('mnemonic_case.las'), mnemonic_case='upper')
95			assert [c.mnemonic for c in las.curves] == ['DEPT', 'SFLU:1', 'NPHI', 'SFLU:2', 'SFLU:3', 'SFLU:4', 'SFLU:5']
96
97			def test_mnemonic_case_lower():
98			las = lasio.read(egfn('mnemonic_case.las'), mnemonic_case='lower')
99			assert [c.mnemonic for c in las.curves] == ['dept', 'sflu:1', 'nphi', 'sflu:2', 'sflu:3', 'sflu:4', 'sflu:5']
100
101			def test_duplicate_append_curve():
102			las = lasio.read(egfn('sample.las'))
103			las.append_curve('TEST', data=[1,2,3])
104			las.append_curve('TEST', data=[4,5,6])
105			assert [c.mnemonic for c in las.curves[-2:]] == ['TEST:1', 'TEST:2']

kinverarity1 / lasio

Push — master ( 525852...81f879 )

test_duplicate_append_curve() A

Complexity

Size

Duplication

Importance

Duplication Side-by-Side

Filter issues like