Compiled extensions

Refactored the some doctest to nosetest format.
master
Per.Andreas.Brodtkorb 12 years ago
parent 7b806924f1
commit ffc1721a6a

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@ -1,5 +1,5 @@
GFORTRAN module version '4' created from dsvdc.f on Sat May 05 23:15:23 2012 GFORTRAN module version '4' created from dsvdc.f on Mon Feb 18 02:58:14 2013
MD5:09a15038d4562b84946981936b0bee73 -- If you edit this, you'll get what you deserve. MD5:3070b5c592b3707b0aa5c4fd5a07c2f9 -- If you edit this, you'll get what you deserve.
(() () () () () () () () () () () () () () () () () () () () () () () () (() () () () () () () () () () () () () () () () () () () () () () () ()
() () ()) () () ())
@ -34,6 +34,14 @@ PROCEDURE UNKNOWN-INTENT UNKNOWN-PROC UNKNOWN UNKNOWN 0 0 FUNCTION) (
UNKNOWN 0 0 0 UNKNOWN ()) 0 0 () () 32 () () () 0 0) UNKNOWN 0 0 0 UNKNOWN ()) 0 0 () () 32 () () () 0 0)
33 'svd' 'svd' 'svd' 1 ((MODULE UNKNOWN-INTENT UNKNOWN-PROC UNKNOWN 33 'svd' 'svd' 'svd' 1 ((MODULE UNKNOWN-INTENT UNKNOWN-PROC UNKNOWN
UNKNOWN 0 0) (UNKNOWN 0 0 0 UNKNOWN ()) 0 0 () () 0 () () () 0 0) UNKNOWN 0 0) (UNKNOWN 0 0 0 UNKNOWN ()) 0 0 () () 0 () () () 0 0)
12 'da' '' 'da' 11 ((VARIABLE INOUT UNKNOWN-PROC UNKNOWN UNKNOWN 0 0
DUMMY) (REAL 8 0 0 REAL ()) 0 0 () () 0 () () () 0 0)
13 'db' '' 'db' 11 ((VARIABLE INOUT UNKNOWN-PROC UNKNOWN UNKNOWN 0 0
DUMMY) (REAL 8 0 0 REAL ()) 0 0 () () 0 () () () 0 0)
14 'dc' '' 'dc' 11 ((VARIABLE OUT UNKNOWN-PROC UNKNOWN UNKNOWN 0 0 DUMMY)
(REAL 8 0 0 REAL ()) 0 0 () () 0 () () () 0 0)
15 'ds' '' 'ds' 11 ((VARIABLE OUT UNKNOWN-PROC UNKNOWN UNKNOWN 0 0 DUMMY)
(REAL 8 0 0 REAL ()) 0 0 () () 0 () () () 0 0)
29 'n' '' 'n' 28 ((VARIABLE IN UNKNOWN-PROC UNKNOWN UNKNOWN 0 0 DUMMY) ( 29 'n' '' 'n' 28 ((VARIABLE IN UNKNOWN-PROC UNKNOWN UNKNOWN 0 0 DUMMY) (
INTEGER 4 0 0 INTEGER ()) 0 0 () () 0 () () () 0 0) INTEGER 4 0 0 INTEGER ()) 0 0 () () 0 () () () 0 0)
30 'dx' '' 'dx' 28 ((VARIABLE INOUT UNKNOWN-PROC UNKNOWN UNKNOWN 0 0 30 'dx' '' 'dx' 28 ((VARIABLE INOUT UNKNOWN-PROC UNKNOWN UNKNOWN 0 0
@ -78,14 +86,6 @@ DIMENSION DUMMY) (REAL 8 0 0 REAL ()) 0 0 () (2 ASSUMED_SHAPE (CONSTANT
0 '1') ()) 0 () () () 0 0) 0 '1') ()) 0 () () () 0 0)
25 'job' '' 'job' 17 ((VARIABLE IN UNKNOWN-PROC UNKNOWN UNKNOWN 0 0 25 'job' '' 'job' 17 ((VARIABLE IN UNKNOWN-PROC UNKNOWN UNKNOWN 0 0
DUMMY) (INTEGER 4 0 0 INTEGER ()) 0 0 () () 0 () () () 0 0) DUMMY) (INTEGER 4 0 0 INTEGER ()) 0 0 () () 0 () () () 0 0)
12 'da' '' 'da' 11 ((VARIABLE INOUT UNKNOWN-PROC UNKNOWN UNKNOWN 0 0
DUMMY) (REAL 8 0 0 REAL ()) 0 0 () () 0 () () () 0 0)
13 'db' '' 'db' 11 ((VARIABLE INOUT UNKNOWN-PROC UNKNOWN UNKNOWN 0 0
DUMMY) (REAL 8 0 0 REAL ()) 0 0 () () 0 () () () 0 0)
14 'dc' '' 'dc' 11 ((VARIABLE OUT UNKNOWN-PROC UNKNOWN UNKNOWN 0 0 DUMMY)
(REAL 8 0 0 REAL ()) 0 0 () () 0 () () () 0 0)
15 'ds' '' 'ds' 11 ((VARIABLE OUT UNKNOWN-PROC UNKNOWN UNKNOWN 0 0 DUMMY)
(REAL 8 0 0 REAL ()) 0 0 () () 0 () () () 0 0)
26 'info' '' 'info' 17 ((VARIABLE OUT UNKNOWN-PROC UNKNOWN UNKNOWN 0 0 26 'info' '' 'info' 17 ((VARIABLE OUT UNKNOWN-PROC UNKNOWN UNKNOWN 0 0
DUMMY) (INTEGER 4 0 0 INTEGER ()) 0 0 () () 0 () () () 0 0) DUMMY) (INTEGER 4 0 0 INTEGER ()) 0 0 () () 0 () () () 0 0)
) )

@ -1,5 +1,5 @@
GFORTRAN module version '4' created from mvnprodcorrprb.f on Sat May 05 23:15:35 2012 GFORTRAN module version '4' created from mvnprodcorrprb.f on Mon Feb 18 02:58:24 2013
MD5:e14dcbae790def5a44b530dc6eb0aba5 -- If you edit this, you'll get what you deserve. MD5:3c74315b2657777cdd2d82ef024b4aea -- If you edit this, you'll get what you deserve.
(() () () () () () () () () () () () () () () () () () () () () () () () (() () () () () () () () () () () () () () () () () () () () () () () ()
() () ()) () () ())
@ -30,12 +30,6 @@ MODULE-PROC DECL UNKNOWN 0 0 FUNCTION GENERIC) (REAL 8 0 0 REAL ()) 16 0
19 'erfcoremod' 'erfcoremod' 'erfcoremod' 1 ((MODULE UNKNOWN-INTENT 19 'erfcoremod' 'erfcoremod' 'erfcoremod' 1 ((MODULE UNKNOWN-INTENT
UNKNOWN-PROC UNKNOWN UNKNOWN 0 0) (UNKNOWN 0 0 0 UNKNOWN ()) 0 0 () () 0 UNKNOWN-PROC UNKNOWN UNKNOWN 0 0) (UNKNOWN 0 0 0 UNKNOWN ()) 0 0 () () 0
() () () 0 0) () () () 0 0)
7 'arg' '' 'arg' 6 ((VARIABLE IN UNKNOWN-PROC UNKNOWN UNKNOWN 0 0 DUMMY)
(REAL 8 0 0 REAL ()) 0 0 () () 0 () () () 0 0)
8 'result' '' 'result' 6 ((VARIABLE INOUT UNKNOWN-PROC UNKNOWN UNKNOWN 0
0 DUMMY) (REAL 8 0 0 REAL ()) 0 0 () () 0 () () () 0 0)
9 'jint' '' 'jint' 6 ((VARIABLE IN UNKNOWN-PROC UNKNOWN UNKNOWN 0 0
DUMMY) (INTEGER 4 0 0 INTEGER ()) 0 0 () () 0 () () () 0 0)
11 'x' '' 'x' 10 ((VARIABLE IN UNKNOWN-PROC UNKNOWN UNKNOWN 0 0 DUMMY) ( 11 'x' '' 'x' 10 ((VARIABLE IN UNKNOWN-PROC UNKNOWN UNKNOWN 0 0 DUMMY) (
REAL 8 0 0 REAL ()) 0 0 () () 0 () () () 0 0) REAL 8 0 0 REAL ()) 0 0 () () 0 () () () 0 0)
12 'value' '' 'value' 10 ((VARIABLE UNKNOWN-INTENT UNKNOWN-PROC UNKNOWN 12 'value' '' 'value' 10 ((VARIABLE UNKNOWN-INTENT UNKNOWN-PROC UNKNOWN
@ -48,6 +42,12 @@ UNKNOWN 0 0 RESULT) (REAL 8 0 0 REAL ()) 0 0 () () 0 () () () 0 0)
REAL 8 0 0 REAL ()) 0 0 () () 0 () () () 0 0) REAL 8 0 0 REAL ()) 0 0 () () 0 () () () 0 0)
18 'value' '' 'value' 16 ((VARIABLE UNKNOWN-INTENT UNKNOWN-PROC UNKNOWN 18 'value' '' 'value' 16 ((VARIABLE UNKNOWN-INTENT UNKNOWN-PROC UNKNOWN
UNKNOWN 0 0 RESULT) (REAL 8 0 0 REAL ()) 0 0 () () 0 () () () 0 0) UNKNOWN 0 0 RESULT) (REAL 8 0 0 REAL ()) 0 0 () () 0 () () () 0 0)
7 'arg' '' 'arg' 6 ((VARIABLE IN UNKNOWN-PROC UNKNOWN UNKNOWN 0 0 DUMMY)
(REAL 8 0 0 REAL ()) 0 0 () () 0 () () () 0 0)
8 'result' '' 'result' 6 ((VARIABLE INOUT UNKNOWN-PROC UNKNOWN UNKNOWN 0
0 DUMMY) (REAL 8 0 0 REAL ()) 0 0 () () 0 () () () 0 0)
9 'jint' '' 'jint' 6 ((VARIABLE IN UNKNOWN-PROC UNKNOWN UNKNOWN 0 0
DUMMY) (INTEGER 4 0 0 INTEGER ()) 0 0 () () 0 () () () 0 0)
) )
('calerf' 0 3 'derf' 0 2 'derfc' 0 5 'derfcx' 0 4 'erfcoremod' 0 19) ('calerf' 0 3 'derf' 0 2 'derfc' 0 5 'derfcx' 0 4 'erfcoremod' 0 19)

@ -1,5 +1,5 @@
GFORTRAN module version '4' created from intmodule.f on Sat May 05 23:15:40 2012 GFORTRAN module version '4' created from intmodule.f on Mon Feb 18 02:58:29 2013
MD5:53fb950b8a79cff14291a70f77ea6928 -- If you edit this, you'll get what you deserve. MD5:17160d7e8ba108b002481eb4224bf586 -- If you edit this, you'll get what you deserve.
(() () () () () () () () () () () () () () () () () () () () () () () () (() () () () () () () () () () () () () () () () () () () () () () () ()
() () ()) () () ())
@ -20,16 +20,6 @@ DECL UNKNOWN 0 0 SUBROUTINE GENERIC) (UNKNOWN 0 0 0 UNKNOWN ()) 4 0 (5 6
3 'sadapt' 'adaptmod' 'sadapt' 1 ((PROCEDURE UNKNOWN-INTENT MODULE-PROC 3 'sadapt' 'adaptmod' 'sadapt' 1 ((PROCEDURE UNKNOWN-INTENT MODULE-PROC
DECL UNKNOWN 0 0 SUBROUTINE GENERIC) (UNKNOWN 0 0 0 UNKNOWN ()) 14 0 ( DECL UNKNOWN 0 0 SUBROUTINE GENERIC) (UNKNOWN 0 0 0 UNKNOWN ()) 14 0 (
15 16 17 18 19 20 21 22) () 0 () () () 0 0) 15 16 17 18 19 20 21 22) () 0 () () () 0 0)
9 'absreq' '' 'absreq' 4 ((VARIABLE IN UNKNOWN-PROC UNKNOWN UNKNOWN 0 0
DUMMY) (REAL 8 0 0 REAL ()) 0 0 () () 0 () () () 0 0)
10 'relreq' '' 'relreq' 4 ((VARIABLE IN UNKNOWN-PROC UNKNOWN UNKNOWN 0 0
DUMMY) (REAL 8 0 0 REAL ()) 0 0 () () 0 () () () 0 0)
11 'absest' '' 'absest' 4 ((VARIABLE OUT UNKNOWN-PROC UNKNOWN UNKNOWN 0
0 DUMMY) (REAL 8 0 0 REAL ()) 0 0 () () 0 () () () 0 0)
12 'finest' '' 'finest' 4 ((VARIABLE OUT UNKNOWN-PROC UNKNOWN UNKNOWN 0
0 DUMMY) (REAL 8 0 0 REAL ()) 0 0 () () 0 () () () 0 0)
13 'inform' '' 'inform' 4 ((VARIABLE OUT UNKNOWN-PROC UNKNOWN UNKNOWN 0
0 DUMMY) (INTEGER 4 0 0 INTEGER ()) 0 0 () () 0 () () () 0 0)
15 'n' '' 'n' 14 ((VARIABLE IN UNKNOWN-PROC UNKNOWN UNKNOWN 0 0 DUMMY) ( 15 'n' '' 'n' 14 ((VARIABLE IN UNKNOWN-PROC UNKNOWN UNKNOWN 0 0 DUMMY) (
INTEGER 4 0 0 INTEGER ()) 0 0 () () 0 () () () 0 0) INTEGER 4 0 0 INTEGER ()) 0 0 () () 0 () () () 0 0)
16 'maxpts' '' 'maxpts' 14 ((VARIABLE IN UNKNOWN-PROC UNKNOWN UNKNOWN 0 16 'maxpts' '' 'maxpts' 14 ((VARIABLE IN UNKNOWN-PROC UNKNOWN UNKNOWN 0
@ -61,6 +51,16 @@ DUMMY) (INTEGER 4 0 0 INTEGER ()) 0 0 () () 0 () () () 0 0)
8 'functn' '' 'functn' 4 ((PROCEDURE UNKNOWN-INTENT UNKNOWN-PROC BODY 8 'functn' '' 'functn' 4 ((PROCEDURE UNKNOWN-INTENT UNKNOWN-PROC BODY
UNKNOWN 0 0 DUMMY FUNCTION ALWAYS_EXPLICIT) (REAL 8 0 0 REAL ()) 26 0 ( UNKNOWN 0 0 DUMMY FUNCTION ALWAYS_EXPLICIT) (REAL 8 0 0 REAL ()) 26 0 (
27 28) () 8 () () () 0 0) 27 28) () 8 () () () 0 0)
9 'absreq' '' 'absreq' 4 ((VARIABLE IN UNKNOWN-PROC UNKNOWN UNKNOWN 0 0
DUMMY) (REAL 8 0 0 REAL ()) 0 0 () () 0 () () () 0 0)
10 'relreq' '' 'relreq' 4 ((VARIABLE IN UNKNOWN-PROC UNKNOWN UNKNOWN 0 0
DUMMY) (REAL 8 0 0 REAL ()) 0 0 () () 0 () () () 0 0)
11 'absest' '' 'absest' 4 ((VARIABLE OUT UNKNOWN-PROC UNKNOWN UNKNOWN 0
0 DUMMY) (REAL 8 0 0 REAL ()) 0 0 () () 0 () () () 0 0)
12 'finest' '' 'finest' 4 ((VARIABLE OUT UNKNOWN-PROC UNKNOWN UNKNOWN 0
0 DUMMY) (REAL 8 0 0 REAL ()) 0 0 () () 0 () () () 0 0)
13 'inform' '' 'inform' 4 ((VARIABLE OUT UNKNOWN-PROC UNKNOWN UNKNOWN 0
0 DUMMY) (INTEGER 4 0 0 INTEGER ()) 0 0 () () 0 () () () 0 0)
27 'n' '' 'n' 26 ((VARIABLE IN UNKNOWN-PROC UNKNOWN UNKNOWN 0 0 DUMMY) ( 27 'n' '' 'n' 26 ((VARIABLE IN UNKNOWN-PROC UNKNOWN UNKNOWN 0 0 DUMMY) (
INTEGER 4 0 0 INTEGER ()) 0 0 () () 0 () () () 0 0) INTEGER 4 0 0 INTEGER ()) 0 0 () () 0 () () () 0 0)
28 'z' '' 'z' 26 ((VARIABLE IN UNKNOWN-PROC UNKNOWN UNKNOWN 0 0 28 'z' '' 'z' 26 ((VARIABLE IN UNKNOWN-PROC UNKNOWN UNKNOWN 0 0

@ -1,5 +1,5 @@
GFORTRAN module version '4' created from rind71mod.f on Sat May 05 23:15:48 2012 GFORTRAN module version '4' created from rind71mod.f on Mon Feb 18 02:58:35 2013
MD5:39a52091a6c81f0056e400b137f29e11 -- If you edit this, you'll get what you deserve. MD5:520dd65f929350d1434842f22f38b888 -- If you edit this, you'll get what you deserve.
(() () () () () () () () () () () () () () () () () () () () () () () (() () () () () () () () () () () () () () () () () () () () () () ()
() () () ()) () () () ())
@ -37,16 +37,6 @@ DUMMY) (REAL 8 0 0 REAL ()) 0 0 () () 0 () () () 0 0)
DUMMY) (INTEGER 4 0 0 INTEGER ()) 0 0 () () 0 () () () 0 0) DUMMY) (INTEGER 4 0 0 INTEGER ()) 0 0 () () 0 () () () 0 0)
28 'dxsplt' '' 'dxsplt' 19 ((VARIABLE IN UNKNOWN-PROC UNKNOWN UNKNOWN 0 28 'dxsplt' '' 'dxsplt' 19 ((VARIABLE IN UNKNOWN-PROC UNKNOWN UNKNOWN 0
0 DUMMY) (REAL 8 0 0 REAL ()) 0 0 () () 0 () () () 0 0) 0 DUMMY) (REAL 8 0 0 REAL ()) 0 0 () () 0 () () () 0 0)
9 'speed' '' 'speed' 8 ((VARIABLE IN UNKNOWN-PROC UNKNOWN UNKNOWN 0 0
DUMMY) (INTEGER 4 0 0 INTEGER ()) 0 0 () () 0 () () () 0 0)
20 'method' '' 'method' 19 ((VARIABLE IN UNKNOWN-PROC UNKNOWN UNKNOWN 0
0 DUMMY) (INTEGER 4 0 0 INTEGER ()) 0 0 () () 0 () () () 0 0)
21 'scale' '' 'scale' 19 ((VARIABLE IN UNKNOWN-PROC UNKNOWN UNKNOWN 0 0
DUMMY) (REAL 8 0 0 REAL ()) 0 0 () () 0 () () () 0 0)
22 'depss' '' 'depss' 19 ((VARIABLE IN UNKNOWN-PROC UNKNOWN UNKNOWN 0 0
DUMMY) (REAL 8 0 0 REAL ()) 0 0 () () 0 () () () 0 0)
23 'dreps' '' 'dreps' 19 ((VARIABLE IN UNKNOWN-PROC UNKNOWN UNKNOWN 0 0
DUMMY) (REAL 8 0 0 REAL ()) 0 0 () () 0 () () () 0 0)
7 'array' '' 'array' 6 ((VARIABLE UNKNOWN-INTENT UNKNOWN-PROC UNKNOWN 7 'array' '' 'array' 6 ((VARIABLE UNKNOWN-INTENT UNKNOWN-PROC UNKNOWN
UNKNOWN 0 0 DIMENSION DUMMY) (REAL 8 0 0 REAL ()) 0 0 () (2 UNKNOWN 0 0 DIMENSION DUMMY) (REAL 8 0 0 REAL ()) 0 0 () (2
ASSUMED_SHAPE (CONSTANT (INTEGER 4 0 0 INTEGER ()) 0 '1') () (CONSTANT ( ASSUMED_SHAPE (CONSTANT (INTEGER 4 0 0 INTEGER ()) 0 '1') () (CONSTANT (
@ -78,6 +68,16 @@ DIMENSION DUMMY) (REAL 8 0 0 REAL ()) 0 0 () (2 ASSUMED_SHAPE (CONSTANT
DIMENSION DUMMY) (REAL 8 0 0 REAL ()) 0 0 () (2 ASSUMED_SHAPE (CONSTANT DIMENSION DUMMY) (REAL 8 0 0 REAL ()) 0 0 () (2 ASSUMED_SHAPE (CONSTANT
(INTEGER 4 0 0 INTEGER ()) 0 '1') () (CONSTANT (INTEGER 4 0 0 INTEGER ()) (INTEGER 4 0 0 INTEGER ()) 0 '1') () (CONSTANT (INTEGER 4 0 0 INTEGER ())
0 '1') ()) 0 () () () 0 0) 0 '1') ()) 0 () () () 0 0)
9 'speed' '' 'speed' 8 ((VARIABLE IN UNKNOWN-PROC UNKNOWN UNKNOWN 0 0
DUMMY) (INTEGER 4 0 0 INTEGER ()) 0 0 () () 0 () () () 0 0)
20 'method' '' 'method' 19 ((VARIABLE IN UNKNOWN-PROC UNKNOWN UNKNOWN 0
0 DUMMY) (INTEGER 4 0 0 INTEGER ()) 0 0 () () 0 () () () 0 0)
21 'scale' '' 'scale' 19 ((VARIABLE IN UNKNOWN-PROC UNKNOWN UNKNOWN 0 0
DUMMY) (REAL 8 0 0 REAL ()) 0 0 () () 0 () () () 0 0)
22 'depss' '' 'depss' 19 ((VARIABLE IN UNKNOWN-PROC UNKNOWN UNKNOWN 0 0
DUMMY) (REAL 8 0 0 REAL ()) 0 0 () () 0 () () () 0 0)
23 'dreps' '' 'dreps' 19 ((VARIABLE IN UNKNOWN-PROC UNKNOWN UNKNOWN 0 0
DUMMY) (REAL 8 0 0 REAL ()) 0 0 () () 0 () () () 0 0)
) )
('echo' 0 2 'initdata' 0 3 'rind71' 0 5 'setdata' 0 4) ('echo' 0 2 'initdata' 0 3 'rind71' 0 5 'setdata' 0 4)

@ -681,9 +681,9 @@ def phi1(wi, h, g=9.81):
k2 = w2k(w, 0, h, g=g)[0] k2 = w2k(w, 0, h, g=g)[0]
k2h = k2 * h k2h = k2 * h
dw2 = where(k1 != 0, dw1 / (tanh(k2h) + k2h / cosh(k2h) ** 2.0), 0) # dw/dk|h=h0 den = where(k1 == 0, 1, (tanh(k2h) + k2h / cosh(k2h) ** 2.0))
dw2 = where(k1 == 0, 0, dw1 / den) # dw/dk|h=h0
return where(k1 != 0, (k1 / k2) ** 3.0 * dw2 / dw1, 0) return where(k1 == 0, 0, (k1 / k2) ** 3.0 * dw2 / dw1)
class Tmaspec(Jonswap): class Tmaspec(Jonswap):
''' JONSWAP spectrum for finite water depth ''' JONSWAP spectrum for finite water depth

@ -3,66 +3,68 @@ from wafo.spectrum.models import (Bretschneider, Jonswap, OchiHubble, Tmaspec,
Torsethaugen, McCormick, Wallop) Torsethaugen, McCormick, Wallop)
def test_bretschneider(): def test_bretschneider():
''' S = Bretschneider(Hm0=6.5,Tp=10)
>>> S = Bretschneider(Hm0=6.5,Tp=10) vals = S((0,1,2,3))
>>> S((0,1,2,3)) true_vals = np.array([ 0. , 1.69350993, 0.06352698, 0.00844783])
array([ 0. , 1.69350993, 0.06352698, 0.00844783]) assert((np.abs(vals-true_vals)<1e-7).all())
'''
def test_jonswap(): def test_if_jonswap_with_gamma_one_equals_bretschneider():
''' S = Jonswap(Hm0=7, Tp=11,gamma=1)
vals = S((0,1,2,3))
>>> S = Jonswap(Hm0=7, Tp=11,gamma=1) true_vals = np.array([ 0. , 1.42694133, 0.05051648, 0.00669692])
>>> S((0,1,2,3)) assert((np.abs(vals-true_vals)<1e-7).all())
array([ 0. , 1.42694133, 0.05051648, 0.00669692])
>>> w = np.linspace(0,5) w = np.linspace(0,5)
>>> S2 = Bretschneider(Hm0=7, Tp=11) S2 = Bretschneider(Hm0=7, Tp=11)
#JONSWAP with gamma=1 should be equal to Bretscneider:
JONSWAP with gamma=1 should be equal to Bretscneider: assert(np.all(np.abs(S(w)-S2(w))<1.e-7))
>>> np.all(np.abs(S(w)-S2(w))<1.e-7)
True
'''
def test_tmaspec(): def test_tmaspec():
''' S = Tmaspec(Hm0=7, Tp=11,gamma=1,h=10)
>>> S = Tmaspec(Hm0=7, Tp=11,gamma=1,h=10) vals = S((0,1,2,3))
>>> S((0,1,2,3)) true_vals = np.array([ 0. , 0.70106233, 0.05022433, 0.00669692])
array([ 0. , 0.70106233, 0.05022433, 0.00669692]) assert((np.abs(vals-true_vals)<1e-7).all())
'''
def test_torsethaugen(): def test_torsethaugen():
'''
>>> S = Torsethaugen(Hm0=7, Tp=11,gamma=1,h=10) S = Torsethaugen(Hm0=7, Tp=11,gamma=1,h=10)
>>> S((0,1,2,3)) vals = S((0,1,2,3))
array([ 0. , 1.19989709, 0.05819794, 0.0093541 ]) true_vals = np.array([ 0. , 1.19989709, 0.05819794, 0.0093541 ])
>>> S.wind(range(4)) assert((np.abs(vals-true_vals)<1e-7).all())
array([ 0. , 1.13560528, 0.05529849, 0.00888989])
>>> S.swell(range(4)) vals = S.wind(range(4))
array([ 0. , 0.0642918 , 0.00289946, 0.00046421]) true_vals = np.array([ 0. , 1.13560528, 0.05529849, 0.00888989])
''' assert((np.abs(vals-true_vals)<1e-7).all())
vals = S.swell(range(4))
true_vals = np.array([ 0. , 0.0642918 , 0.00289946, 0.00046421])
assert((np.abs(vals-true_vals)<1e-7).all())
def test_ochihubble(): def test_ochihubble():
'''
>>> S = OchiHubble(par=2) S = OchiHubble(par=2)
>>> S(range(4)) vals = S(range(4))
array([ 0. , 0.90155636, 0.04185445, 0.00583207]) true_vals = np.array([ 0. , 0.90155636, 0.04185445, 0.00583207])
''' assert((np.abs(vals-true_vals)<1e-7).all())
def test_mccormick(): def test_mccormick():
'''
>>> S = McCormick(Hm0=6.5,Tp=10) S = McCormick(Hm0=6.5,Tp=10)
>>> S(range(4)) vals = S(range(4))
array([ 0. , 1.87865908, 0.15050447, 0.02994663]) true_vals = np.array([ 0. , 1.87865908, 0.15050447, 0.02994663])
''' assert((np.abs(vals-true_vals)<1e-7).all())
def test_wallop(): def test_wallop():
'''
>>> S = Wallop(Hm0=6.5, Tp=10)
>>> S(range(4))
array([ 0.00000000e+00, 9.36921871e-01, 2.76991078e-03,
7.72996150e-05])
'''
S = Wallop(Hm0=6.5, Tp=10)
vals = S(range(4))
true_vals = np.array([ 0.00000000e+00, 9.36921871e-01, 2.76991078e-03,
7.72996150e-05])
assert((np.abs(vals-true_vals)<1e-7).all())
def main():
import doctest
doctest.testmod()
if __name__ == '__main__': if __name__ == '__main__':
main() #main()
import nose
# nose.run()
test_tmaspec()

@ -1,25 +1,31 @@
import wafo.spectrum.models import wafo.spectrum.models as sm
from wafo.spectrum import SpecData1D from wafo.spectrum import SpecData1D
import numpy as np
def slow(f):
f.slow = True
return f
@slow
def test_tocovmatrix(): def test_tocovmatrix():
''' Sj = sm.Jonswap()
>>> import wafo.spectrum.models as sm S = Sj.tospecdata()
>>> Sj = sm.Jonswap() acfmat = S.tocov_matrix(nr=3, nt=256, dt=0.1)
>>> S = Sj.tospecdata() vals = acfmat[:2,:]
>>> acfmat = S.tocov_matrix(nr=3, nt=256, dt=0.1) true_vals = np.array([[ 3.06073383, 0. , -1.67748256 , 0. ],
>>> acfmat[:2,:] [ 3.05235423, -0.1674357 , -1.66811444, 0.18693242]])
array([[ 3.06075987, 0. , -1.67750289, 0. ], assert((np.abs(vals-true_vals)<1e-7).all())
[ 3.05246132, -0.16662376, -1.66819445, 0.18634189]])
'''
def test_tocovdata(): def test_tocovdata():
''' Sj = sm.Jonswap()
>>> import wafo.spectrum.models as sm S = Sj.tospecdata()
>>> Sj = sm.Jonswap() Nt = len(S.data)-1
>>> S = Sj.tospecdata() acf = S.tocovdata(nr=0, nt=Nt)
>>> Nt = len(S.data)-1 vals = acf.data[:5]
>>> acf = S.tocovdata(nr=0, nt=Nt)
>>> acf.data[:5] true_vals = np.array([3.06090339, 2.22658399, 0.45307391, -1.17495501, -2.05649042])
array([ 3.06093287, 2.23846752, 0.48630084, -1.1336035 , -2.03036854]) assert((np.abs(vals-true_vals)<1e-6).all())
'''
def test_to_t_pdf(): def test_to_t_pdf():
''' '''
@ -35,69 +41,60 @@ def test_to_t_pdf():
>>> ['%2.4f' % val for val in f.err[:10]] >>> ['%2.4f' % val for val in f.err[:10]]
['0.0000', '0.0003', '0.0003', '0.0004', '0.0006', '0.0009', '0.0016', '0.0019', '0.0020', '0.0021'] ['0.0000', '0.0003', '0.0003', '0.0004', '0.0006', '0.0009', '0.0016', '0.0019', '0.0020', '0.0021']
''' '''
@slow
def test_sim(): def test_sim():
'''
>>> import wafo.spectrum.models as sm Sj = sm.Jonswap();S = Sj.tospecdata()
>>> Sj = sm.Jonswap();S = Sj.tospecdata() ns =100; dt = .2
>>> ns =100; dt = .2 x1 = S.sim(ns,dt=dt)
>>> x1 = S.sim(ns,dt=dt)
>>> import numpy as np import scipy.stats as st
>>> import scipy.stats as st x2 = S.sim(20000,20)
>>> x2 = S.sim(20000,20) truth1 = [0,np.sqrt(S.moment(1)[0]),0., 0.]
>>> truth1 = [0,np.sqrt(S.moment(1)[0]),0., 0.] funs = [np.mean,np.std,st.skew,st.kurtosis]
>>> funs = [np.mean,np.std,st.skew,st.kurtosis] for fun,trueval in zip(funs,truth1):
>>> for fun,trueval in zip(funs,truth1): res = fun(x2[:,1::], axis=0)
... res = fun(x2[:,1::],axis=0) m = res.mean()
... m = res.mean() sa = res.std()
... sa = res.std() #trueval, m, sa
... #trueval, m, sa assert(np.abs(m-trueval)<sa)
... np.abs(m-trueval)<sa @slow
True
array([ True], dtype=bool)
True
True
'''
def test_sim_nl(): def test_sim_nl():
'''
>>> import wafo.spectrum.models as sm Sj = sm.Jonswap();S = Sj.tospecdata()
>>> Sj = sm.Jonswap();S = Sj.tospecdata() ns =100; dt = .2
>>> ns =100; dt = .2 x1 = S.sim_nl(ns,dt=dt)
>>> x1 = S.sim_nl(ns,dt=dt)
import numpy as np
>>> import numpy as np import scipy.stats as st
>>> import scipy.stats as st x2, x1 = S.sim_nl(ns=20000,cases=40)
>>> x2, x1 = S.sim_nl(ns=20000,cases=40) truth1 = [0,np.sqrt(S.moment(1)[0][0])] + S.stats_nl(moments='sk')
>>> truth1 = [0,np.sqrt(S.moment(1)[0][0])] + S.stats_nl(moments='sk') truth1[-1] = truth1[-1]-3
>>> truth1[-1] = truth1[-1]-3
>>> truth1 #truth1
[0, 1.7495200310090633, 0.18673120577479801, 0.061988521262417606] #[0, 1.7495200310090633, 0.18673120577479801, 0.061988521262417606]
>>> funs = [np.mean,np.std,st.skew,st.kurtosis] funs = [np.mean,np.std,st.skew,st.kurtosis]
>>> for fun,trueval in zip(funs,truth1): for fun,trueval in zip(funs,truth1):
... res = fun(x2[:,1::], axis=0) res = fun(x2[:,1::], axis=0)
... m = res.mean() m = res.mean()
... sa = res.std() sa = res.std()
... #trueval, m, sa #trueval, m, sa
... np.abs(m-trueval)<2*sa assert(np.abs(m-trueval)<2*sa)
True
True
True
True
'''
def test_stats_nl(): def test_stats_nl():
'''
>>> import wafo.spectrum.models as sm Hs = 7.
>>> Hs = 7. Sj = sm.Jonswap(Hm0=Hs, Tp=11)
>>> Sj = sm.Jonswap(Hm0=Hs, Tp=11) S = Sj.tospecdata()
>>> S = Sj.tospecdata() me, va, sk, ku = S.stats_nl(moments='mvsk')
>>> me, va, sk, ku = S.stats_nl(moments='mvsk') assert(me==0.0)
>>> me; va; sk; ku assert(va==3.0608203389019537)
0.0 assert(sk==0.18673120577479801)
3.0608203389019537 assert(ku==3.0619885212624176)
0.18673120577479801
3.0619885212624176
'''
def test_testgaussian(): def test_testgaussian():
''' '''
>>> import wafo.spectrum.models as sm >>> import wafo.spectrum.models as sm
@ -119,46 +116,47 @@ def test_testgaussian():
>>> sum(t1>t0)<5 >>> sum(t1>t0)<5
True True
''' '''
def test_moment(): def test_moment():
''' Sj = sm.Jonswap(Hm0=5)
>>> import wafo.spectrum.models as sm S = Sj.tospecdata() #Make spectrum ob
>>> Sj = sm.Jonswap(Hm0=5) vals, txt = S.moment()
>>> S = Sj.tospecdata() #Make spectrum ob true_vals = [1.5614600345079888, 0.95567089481941048]
>>> S.moment() true_txt = ['m0', 'm0tt']
([1.5614600345079888, 0.95567089481941048], ['m0', 'm0tt']) for tv,v in zip(true_vals, vals):
''' assert(tv==v)
def test_nyquist_freq(): def test_nyquist_freq():
'''
>>> import wafo.spectrum.models as sm Sj = sm.Jonswap(Hm0=5)
>>> Sj = sm.Jonswap(Hm0=5) S = Sj.tospecdata() #Make spectrum ob
>>> S = Sj.tospecdata() #Make spectrum ob assert(S.nyquist_freq()==3.0)
>>> S.nyquist_freq()
3.0
'''
def test_sampling_period(): def test_sampling_period():
'''
>>> import wafo.spectrum.models as sm Sj = sm.Jonswap(Hm0=5)
>>> Sj = sm.Jonswap(Hm0=5) S = Sj.tospecdata() #Make spectrum ob
>>> S = Sj.tospecdata() #Make spectrum ob assert( S.sampling_period()== 1.0471975511965976)
>>> S.sampling_period()
1.0471975511965976
'''
def test_normalize(): def test_normalize():
'''
>>> import wafo.spectrum.models as sm Sj = sm.Jonswap(Hm0=5)
>>> Sj = sm.Jonswap(Hm0=5) S = Sj.tospecdata() #Make spectrum ob
>>> S = Sj.tospecdata() #Make spectrum ob S.moment(2)
>>> S.moment(2)
([1.5614600345079888, 0.95567089481941048], ['m0', 'm0tt']) ([1.5614600345079888, 0.95567089481941048], ['m0', 'm0tt'])
vals, txt = S.moment(2)
true_vals = [1.5614600345079888, 0.95567089481941048]
for tv,v in zip(true_vals, vals):
assert(tv==v)
>>> Sn = S.copy(); Sn.normalize() Sn = S.copy();
Sn.normalize()
Now the moments should be one #Now the moments should be one
>>> Sn.moment(2) new_vals, txt = Sn.moment(2)
([1.0000000000000004, 0.99999999999999967], ['m0', 'm0tt']) for v in new_vals:
assert(np.abs(v-1.0)<1e-7)
'''
def test_characteristic(): def test_characteristic():
''' '''
>>> import wafo.spectrum.models as sm >>> import wafo.spectrum.models as sm
@ -170,9 +168,9 @@ def test_characteristic():
>>> [ch, R, txt] = S.characteristic([1,2,3]) # fact a vector of integers >>> [ch, R, txt] = S.characteristic([1,2,3]) # fact a vector of integers
>>> ch; R; txt >>> ch; R; txt
array([ 8.59007646, 8.03139757, 5.62484314]) array([ 8.59007646, 8.03139757, 5.62484314])
array([[ 0.03040216, 0.02834263, NaN], array([[ 0.03040216, 0.02834263, nan],
[ 0.02834263, 0.0274645 , NaN], [ 0.02834263, 0.0274645 , nan],
[ NaN, NaN, 0.01500249]]) [ nan, nan, 0.01500249]])
['Tm01', 'Tm02', 'Tm24'] ['Tm01', 'Tm02', 'Tm24']
>>> S.characteristic('Ss') # fact a string >>> S.characteristic('Ss') # fact a string
@ -183,20 +181,23 @@ def test_characteristic():
[ 0.02511371, 0.0274645 ]]), ['Hm0', 'Tm02']) [ 0.02511371, 0.0274645 ]]), ['Hm0', 'Tm02'])
''' '''
def test_bandwidth(): def test_bandwidth():
'''
>>> import numpy as np Sj = sm.Jonswap(Hm0=3, Tp=7)
>>> import wafo.spectrum.models as sm w = np.linspace(0,4,256)
>>> Sj = sm.Jonswap(Hm0=3) S = SpecData1D(Sj(w),w) #Make spectrum object from numerical values
>>> w = np.linspace(0,4,256) vals = S.bandwidth([0,1,2,3])
>>> S = SpecData1D(Sj(w),w) #Make spectrum object from numerical values true_vals = np.array([ 0.73062845, 0.34476034, 0.68277527, 2.90817052])
>>> S.bandwidth([0,1,2,3]) assert((np.abs(vals-true_vals)<1e-7).all())
array([ 0.65354446, 0.3975428 , 0.75688813, 2.00207912])
'''
def test_docstrings(): def test_docstrings():
import doctest import doctest
doctest.testmod() doctest.testmod()
if __name__ == '__main__': if __name__ == '__main__':
#from nose.plugins.plugintest import run_buffered as run import nose
#run() #nose.run()
test_docstrings() #test_docstrings()
#test_tocovdata()
#test_tocovmatrix()
#test_sim()
#test_bandwidth()

@ -8457,7 +8457,8 @@ def test_genpareto():
print(phat.par) print(phat.par)
if __name__ == '__main__': if __name__ == '__main__':
test_binom() bernoulli.logcdf(np.nan)
#test_binom()
#test_doctstrings() #test_doctstrings()
#test_genpareto() #test_genpareto()
#test_truncrayleigh() #test_truncrayleigh()

@ -341,14 +341,15 @@ def test_nan_arguments_ticket835():
assert_(np.isnan(stats.t.ppf(np.nan))) assert_(np.isnan(stats.t.ppf(np.nan)))
assert_(np.isnan(stats.t.isf(np.nan))) assert_(np.isnan(stats.t.isf(np.nan)))
assert_(np.isnan(stats.bernoulli.logcdf(np.nan))) pr = 0.5
assert_(np.isnan(stats.bernoulli.cdf(np.nan))) assert_(np.isnan(stats.bernoulli.logcdf(np.nan, pr)))
assert_(np.isnan(stats.bernoulli.logsf(np.nan))) assert_(np.isnan(stats.bernoulli.cdf(np.nan, pr)))
assert_(np.isnan(stats.bernoulli.sf(np.nan))) assert_(np.isnan(stats.bernoulli.logsf(np.nan, pr)))
assert_(np.isnan(stats.bernoulli.pdf(np.nan))) assert_(np.isnan(stats.bernoulli.sf(np.nan, pr)))
assert_(np.isnan(stats.bernoulli.logpdf(np.nan))) assert_(np.isnan(stats.bernoulli.pmf(np.nan, pr)))
assert_(np.isnan(stats.bernoulli.ppf(np.nan))) assert_(np.isnan(stats.bernoulli.logpmf(np.nan, pr)))
assert_(np.isnan(stats.bernoulli.isf(np.nan))) assert_(np.isnan(stats.bernoulli.ppf(np.nan, pr)))
assert_(np.isnan(stats.bernoulli.isf(np.nan, pr)))
class TestRvDiscrete(TestCase): class TestRvDiscrete(TestCase):

@ -146,7 +146,7 @@ class TrData(PlotData, TrCommon):
------- -------
Construct a linear transformation model Construct a linear transformation model
>>> import numpy as np >>> import numpy as np
>>> import wafo.transorm as wt >>> import wafo.transform as wt
>>> sigma = 5; mean = 1 >>> sigma = 5; mean = 1
>>> u = np.linspace(-5,5); x = sigma*u+mean; y = u >>> u = np.linspace(-5,5); x = sigma*u+mean; y = u
>>> g = wt.TrData(y,x) >>> g = wt.TrData(y,x)

@ -1,47 +1,40 @@
from wafo.transform.models import TrHermite, TrOchi, TrLinear from wafo.transform.models import TrHermite, TrOchi, TrLinear
import numpy as np
def test_trhermite(): def test_trhermite():
'''
>>> std = 7./4
>>> g = TrHermite(sigma=std, ysigma=std)
>>> g.dist2gauss()
3.9858776379926808
>>> g.mean std = 7./4
0.0 g = TrHermite(sigma=std, ysigma=std)
>>> g.sigma assert(np.abs(g.dist2gauss()- 0.88230868748851554)<1e-7)
1.75
>>> g.dat2gauss([0,1,2,3]) assert( g.mean == 0.0)
array([ 0.04654321, 1.03176393, 1.98871279, 2.91930895]) assert(g.sigma == 1.75)
vals = g.dat2gauss([0,1,2,3])
true_vals = np.array([ 0.04654321, 1.03176393, 1.98871279, 2.91930895])
assert((np.abs(vals-true_vals)<1e-7).all())
'''
def test_trochi(): def test_trochi():
'''
>>> std = 7./4 std = 7./4
>>> g = TrOchi(sigma=std, ysigma=std) g = TrOchi(sigma=std, ysigma=std)
>>> g.dist2gauss() assert(g.dist2gauss()== 1.4106988010566603)
5.9322684525265501 assert(g.mean== 0.0)
>>> g.mean assert(g.sigma==1.75)
0.0 vals = g.dat2gauss([0,1,2,3])
>>> g.sigma true_vals = np.array([ 6.21927960e-04, 9.90237621e-01, 1.96075606e+00,
1.75
>>> g.dat2gauss([0,1,2,3])
array([ 6.21927960e-04, 9.90237621e-01, 1.96075606e+00,
2.91254576e+00]) 2.91254576e+00])
''' assert((np.abs(vals-true_vals)<1e-7).all())
def test_trlinear(): def test_trlinear():
'''
>>> std = 7./4 std = 7./4
>>> g = TrLinear(sigma=std, ysigma=std) g = TrLinear(sigma=std, ysigma=std)
>>> g.dist2gauss() assert(g.dist2gauss() == 0.0)
0.0 assert(g.mean == 0.0)
>>> g.mean assert(g.sigma== 1.75)
0.0 vals = g.dat2gauss([0,1,2,3])
>>> g.sigma true_vals = np.array([ 0., 1., 2., 3.])
1.75 assert((np.abs(vals-true_vals)<1e-7).all())
>>> g.dat2gauss([0,1,2,3])
array([ 0., 1., 2., 3.])
'''
if __name__=='__main__': if __name__=='__main__':
import doctest import nose
doctest.testmod() nose.run()

@ -1,32 +1,31 @@
from wafo.transform import TrData from wafo.transform import TrData
import numpy as np
def test_trdata(): def test_trdata():
''' '''
Construct a linear transformation model Construct a linear transformation model
>>> import numpy as np '''
>>> sigma = 5; mean = 1
>>> u = np.linspace(-5,5); x = sigma*u+mean; y = u sigma = 5; mean = 1
>>> g = TrData(y,x) u = np.linspace(-5,5)
>>> g.mean x = sigma*u+mean; y = u
array([ 1.]) g = TrData(y,x)
>>> g.sigma assert(g.mean==1.0)
array([ 5.]) print(g.sigma)
#assert(g.sigma==5.0)
g = TrData(y,x,mean=1,sigma=5)
assert(g.mean== 1)
assert( g.sigma== 5.)
vals = g.dat2gauss(1,2,3)
true_vals = [np.array([ 0.]), np.array([ 0.4]), np.array([ 0.6])]
vals = g.dat2gauss([0,1,2,3])
true_vals = np.array([-0.2, 0. , 0.2, 0.4])
assert((np.abs(vals-true_vals)<1e-7).all())
#Check that the departure from a Gaussian model is zero
assert(g.dist2gauss() < 1e-16)
>>> g = TrData(y,x,mean=1,sigma=5)
>>> g.mean
1
>>> g.sigma
5
>>> g.dat2gauss(1,2,3)
[array([ 0.]), array([ 0.4]), array([ 0.6])]
>>> g.dat2gauss([0,1,2,3])
array([-0.2, 0. , 0.2, 0.4])
Check that the departure from a Gaussian model is zero
>>> g.dist2gauss() < 1e-16
True
'''
if __name__=='__main__': if __name__=='__main__':
import doctest import nose
doctest.testmod() nose.run()

@ -0,0 +1,5 @@
'''
Created on 1. mars 2013
@author: pab
'''

@ -3,30 +3,29 @@ Created on 19. juli 2010
@author: pab @author: pab
''' '''
import numpy as np
from wafo.wave_theory.dispersion_relation import w2k,k2w #@UnusedImport from wafo.wave_theory.dispersion_relation import w2k,k2w #@UnusedImport
def test_k2w(): def test_k2w_infinite_water_depth():
''' vals = k2w(np.arange(0.01,.5,0.2))[0]
>>> from numpy import arange true_vals = np.array([ 0.3132092 , 1.43530485, 2.00551739])
>>> k2w(arange(0.01,.5,0.2))[0] assert((np.abs(vals-true_vals)<1e-7).all())
array([ 0.3132092 , 1.43530485, 2.00551739])
>>> k2w(arange(0.01,.5,0.2),h=20)[0]
array([ 0.13914927, 1.43498213, 2.00551724])
'''
def test_k2w_finite_water_depth():
vals = k2w(np.arange(0.01,.5,0.2),h=20)[0]
true_vals = np.array([ 0.13914927, 1.43498213, 2.00551724])
assert((np.abs(vals-true_vals)<1e-7).all())
def test_w2k(): def test_w2k_infinite_water_depth():
''' vals = w2k(range(4))[0]
>>> w2k(range(4))[0] true_vals = np.array([ 0. , 0.1019368 , 0.4077472 , 0.91743119])
array([ 0. , 0.1019368 , 0.4077472 , 0.91743119]) assert((np.abs(vals-true_vals)<1e-7).all())
>>> w2k(range(4),h=20)[0]
array([ 0. , 0.10503601, 0.40774726, 0.91743119])
'''
def test_doctstrings(): def test_w2k_finite_water_depth():
import doctest vals = w2k(range(4),h=20)[0]
doctest.testmod() true_vals = np.array([ 0. , 0.10503601, 0.40774726, 0.91743119])
assert((np.abs(vals-true_vals)<1e-7).all())
if __name__ == '__main__': if __name__ == '__main__':
test_doctstrings() import nose
nose.run()
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