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Taddeüs Kroes
trs
Commits
0f16cb2c
Commit
0f16cb2c
authored
Mar 15, 2012
by
Taddeus Kroes
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Implemented last of the standard derivatives.
parent
48a85822
Changes
3
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Showing
3 changed files
with
120 additions
and
16 deletions
+120
-16
src/rules/__init__.py
src/rules/__init__.py
+3
-2
src/rules/derivatives.py
src/rules/derivatives.py
+73
-6
tests/test_rules_derivatives.py
tests/test_rules_derivatives.py
+44
-8
No files found.
src/rules/__init__.py
View file @
0f16cb2c
...
@@ -19,7 +19,8 @@ from .goniometry import match_add_quadrants, match_negated_parameter, \
...
@@ -19,7 +19,8 @@ from .goniometry import match_add_quadrants, match_negated_parameter, \
match_half_pi_subtraction
,
match_standard_radian
match_half_pi_subtraction
,
match_standard_radian
from
src.rules.derivatives
import
match_zero_derivative
,
\
from
src.rules.derivatives
import
match_zero_derivative
,
\
match_one_derivative
,
match_variable_power
,
\
match_one_derivative
,
match_variable_power
,
\
match_const_deriv_multiplication
,
match_logarithm
match_const_deriv_multiplication
,
match_logarithmic
,
\
match_goniometric
RULES
=
{
RULES
=
{
OP_ADD
:
[
match_add_numerics
,
match_add_constant_fractions
,
OP_ADD
:
[
match_add_numerics
,
match_add_constant_fractions
,
...
@@ -43,5 +44,5 @@ RULES = {
...
@@ -43,5 +44,5 @@ RULES = {
OP_TAN
:
[
match_standard_radian
],
OP_TAN
:
[
match_standard_radian
],
OP_DER
:
[
match_zero_derivative
,
match_one_derivative
,
OP_DER
:
[
match_zero_derivative
,
match_one_derivative
,
match_variable_power
,
match_const_deriv_multiplication
,
match_variable_power
,
match_const_deriv_multiplication
,
match_logarithm
],
match_logarithm
ic
,
match_goniometric
],
}
}
src/rules/derivatives.py
View file @
0f16cb2c
...
@@ -2,8 +2,9 @@ from itertools import combinations
...
@@ -2,8 +2,9 @@ from itertools import combinations
from
.utils
import
find_variables
from
.utils
import
find_variables
from
.logarithmic
import
ln
from
.logarithmic
import
ln
from
.goniometry
import
sin
,
cos
from
..node
import
ExpressionNode
as
N
,
ExpressionLeaf
as
L
,
Scope
,
OP_DER
,
\
from
..node
import
ExpressionNode
as
N
,
ExpressionLeaf
as
L
,
Scope
,
OP_DER
,
\
OP_MUL
,
OP_LOG
OP_MUL
,
OP_LOG
,
OP_SIN
,
OP_COS
,
OP_TAN
from
..possibilities
import
Possibility
as
P
,
MESSAGES
from
..possibilities
import
Possibility
as
P
,
MESSAGES
from
..translate
import
_
from
..translate
import
_
...
@@ -201,7 +202,7 @@ MESSAGES[variable_exponent] = \
...
@@ -201,7 +202,7 @@ MESSAGES[variable_exponent] = \
_
(
'Apply standard derivative d/dx g ^ x = g ^ x * ln g.'
)
_
(
'Apply standard derivative d/dx g ^ x = g ^ x * ln g.'
)
def
match_logarithm
(
node
):
def
match_logarithm
ic
(
node
):
"""
"""
der(log(x, g), x) -> 1 / (x * ln(g))
der(log(x, g), x) -> 1 / (x * ln(g))
der(log(f(x), g), x) -> 1 / (f(x) * ln(g)) * der(f(x), x)
der(log(f(x), g), x) -> 1 / (f(x) * ln(g)) * der(f(x), x)
...
@@ -215,15 +216,15 @@ def match_logarithm(node):
...
@@ -215,15 +216,15 @@ def match_logarithm(node):
x
=
L
(
x
)
x
=
L
(
x
)
if
f
==
x
:
if
f
==
x
:
return
[
P
(
node
,
logarithm
,
())]
return
[
P
(
node
,
logarithm
ic
,
())]
if
f
.
contains
(
x
):
if
f
.
contains
(
x
):
return
[
P
(
node
,
chain_rule
,
(
f
,
logarithm
,
()))]
return
[
P
(
node
,
chain_rule
,
(
f
,
logarithm
ic
,
()))]
return
[]
return
[]
def
logarithm
(
root
,
args
):
def
logarithm
ic
(
root
,
args
):
"""
"""
der(log(x, g), x) -> 1 / (x * ln(g))
der(log(x, g), x) -> 1 / (x * ln(g))
"""
"""
...
@@ -232,5 +233,71 @@ def logarithm(root, args):
...
@@ -232,5 +233,71 @@ def logarithm(root, args):
return
L
(
1
)
/
(
x
*
ln
(
g
))
return
L
(
1
)
/
(
x
*
ln
(
g
))
MESSAGES
[
logarithm
]
=
\
MESSAGES
[
logarithm
ic
]
=
\
_
(
'Apply standard derivative d/dx log(x, g) = 1 / (x * ln(g)).'
)
_
(
'Apply standard derivative d/dx log(x, g) = 1 / (x * ln(g)).'
)
def
match_goniometric
(
node
):
"""
der(sin(x), x) -> cos(x)
der(sin(f(x)), x) -> cos(f(x)) * der(f(x), x)
der(cos(x), x) -> -sin(x)
der(cos(f(x)), x) -> -sin(f(x)) * der(f(x), x)
der(tan(x), x) -> der(sin(x) / cos(x), x)
"""
assert
node
.
is_op
(
OP_DER
)
x
=
get_derivation_variable
(
node
)
if
x
and
not
node
[
0
].
is_leaf
:
op
=
node
[
0
].
op
if
op
in
(
OP_SIN
,
OP_COS
):
f
=
node
[
0
][
0
]
x
=
L
(
x
)
handler
=
sinus
if
op
==
OP_SIN
else
cosinus
if
f
==
x
:
return
[
P
(
node
,
handler
)]
if
f
.
contains
(
x
):
return
[
P
(
node
,
chain_rule
,
(
f
,
handler
,
()))]
if
op
==
OP_TAN
:
return
[
P
(
node
,
tangens
)]
return
[]
def
sinus
(
root
,
args
):
"""
der(sin(x), x) -> cos(x)
"""
return
cos
(
root
[
0
][
0
])
MESSAGES
[
sinus
]
=
_
(
'Apply standard derivative d/dx sin(x) = cos(x).'
)
def
cosinus
(
root
,
args
):
"""
der(cos(x), x) -> -sin(x)
"""
return
-
sin
(
root
[
0
][
0
])
MESSAGES
[
cosinus
]
=
_
(
'Apply standard derivative d/dx cos(x) = -sin(x).'
)
def
tangens
(
root
,
args
):
"""
der(tan(x), x) -> der(sin(x) / cos(x), x)
"""
f
=
root
[
0
][
0
]
x
=
root
[
1
]
if
len
(
root
)
>
1
else
None
return
der
(
sin
(
f
)
/
cos
(
f
),
x
)
MESSAGES
[
tangens
]
=
\
_
(
'Convert the tanges to a division and apply the product rule.'
)
tests/test_rules_derivatives.py
View file @
0f16cb2c
...
@@ -2,8 +2,10 @@ from src.rules.derivatives import der, get_derivation_variable, \
...
@@ -2,8 +2,10 @@ from src.rules.derivatives import der, get_derivation_variable, \
match_zero_derivative
,
match_one_derivative
,
one_derivative
,
\
match_zero_derivative
,
match_one_derivative
,
one_derivative
,
\
zero_derivative
,
match_variable_power
,
variable_root
,
\
zero_derivative
,
match_variable_power
,
variable_root
,
\
variable_exponent
,
match_const_deriv_multiplication
,
\
variable_exponent
,
match_const_deriv_multiplication
,
\
const_deriv_multiplication
,
chain_rule
,
match_logarithm
,
logarithm
const_deriv_multiplication
,
chain_rule
,
match_logarithmic
,
\
logarithmic
,
match_goniometric
,
sinus
,
cosinus
,
tangens
from
src.rules.logarithmic
import
ln
from
src.rules.logarithmic
import
ln
from
src.rules.goniometry
import
sin
,
cos
from
src.node
import
Scope
from
src.node
import
Scope
from
src.possibilities
import
Possibility
as
P
from
src.possibilities
import
Possibility
as
P
from
tests.rulestestcase
import
RulesTestCase
,
tree
from
tests.rulestestcase
import
RulesTestCase
,
tree
...
@@ -110,15 +112,49 @@ class TestRulesDerivatives(RulesTestCase):
...
@@ -110,15 +112,49 @@ class TestRulesDerivatives(RulesTestCase):
self
.
assertEqual
(
chain_rule
(
root
,
(
x3
,
variable_exponent
,
())),
self
.
assertEqual
(
chain_rule
(
root
,
(
x3
,
variable_exponent
,
())),
l2
**
x3
*
ln
(
l2
)
*
der
(
x3
))
l2
**
x3
*
ln
(
l2
)
*
der
(
x3
))
def
test_match_logarithm
(
self
):
def
test_match_logarithm
ic
(
self
):
root
=
tree
(
'der(log(x))'
)
root
=
tree
(
'der(log(x))'
)
self
.
assertEqualPos
(
match_logarithm
(
root
),
[
P
(
root
,
logarithm
)])
self
.
assertEqualPos
(
match_logarithm
ic
(
root
),
[
P
(
root
,
logarithmic
)])
def
test_match_logarithm_chain_rule
(
self
):
def
test_match_logarithm
ic
_chain_rule
(
self
):
root
,
f
=
tree
(
'der(log(x ^ 2)), x ^ 2'
)
root
,
f
=
tree
(
'der(log(x ^ 2)), x ^ 2'
)
self
.
assertEqualPos
(
match_logarithm
(
root
),
self
.
assertEqualPos
(
match_logarithm
ic
(
root
),
[
P
(
root
,
chain_rule
,
(
f
,
logarithm
,
()))])
[
P
(
root
,
chain_rule
,
(
f
,
logarithm
ic
,
()))])
def
test_logarithm
(
self
):
def
test_logarithm
ic
(
self
):
root
,
x
,
l1
,
l10
=
tree
(
'der(log(x)), x, 1, 10'
)
root
,
x
,
l1
,
l10
=
tree
(
'der(log(x)), x, 1, 10'
)
self
.
assertEqual
(
logarithm
(
root
,
()),
l1
/
(
x
*
ln
(
l10
)))
self
.
assertEqual
(
logarithmic
(
root
,
()),
l1
/
(
x
*
ln
(
l10
)))
def
test_match_goniometric
(
self
):
root
=
tree
(
'der(sin(x))'
)
self
.
assertEqualPos
(
match_goniometric
(
root
),
[
P
(
root
,
sinus
)])
root
=
tree
(
'der(cos(x))'
)
self
.
assertEqualPos
(
match_goniometric
(
root
),
[
P
(
root
,
cosinus
)])
root
=
tree
(
'der(tan(x))'
)
self
.
assertEqualPos
(
match_goniometric
(
root
),
[
P
(
root
,
tangens
)])
def
test_match_goniometric_chain_rule
(
self
):
root
,
x2
=
tree
(
'der(sin(x ^ 2)), x ^ 2'
)
self
.
assertEqualPos
(
match_goniometric
(
root
),
[
P
(
root
,
chain_rule
,
(
x2
,
sinus
,
()))])
root
=
tree
(
'der(cos(x ^ 2))'
)
self
.
assertEqualPos
(
match_goniometric
(
root
),
[
P
(
root
,
chain_rule
,
(
x2
,
cosinus
,
()))])
def
test_sinus
(
self
):
root
,
x
=
tree
(
'der(sin(x)), x'
)
self
.
assertEqual
(
sinus
(
root
,
()),
cos
(
x
))
def
test_cosinus
(
self
):
root
,
x
=
tree
(
'der(cos(x)), x'
)
self
.
assertEqual
(
cosinus
(
root
,
()),
-
sin
(
x
))
def
test_tangens
(
self
):
root
,
x
=
tree
(
'der(tan(x), x), x'
)
self
.
assertEqual
(
tangens
(
root
,
()),
der
(
sin
(
x
)
/
cos
(
x
),
x
))
root
=
tree
(
'der(tan(x))'
)
self
.
assertEqual
(
tangens
(
root
,
()),
der
(
sin
(
x
)
/
cos
(
x
)))
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