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Taddeüs Kroes
trs
Commits
ef8ffd44
Commit
ef8ffd44
authored
Sep 13, 2012
by
Taddeüs Kroes
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Added new rule for eliminating fractions from fractions.
parent
015cd97f
Changes
4
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4 changed files
with
91 additions
and
13 deletions
+91
-13
src/rules/__init__.py
src/rules/__init__.py
+3
-2
src/rules/fractions.py
src/rules/fractions.py
+53
-0
tests/test_leiden_oefenopgave.py
tests/test_leiden_oefenopgave.py
+10
-10
tests/test_rules_fractions.py
tests/test_rules_fractions.py
+25
-1
No files found.
src/rules/__init__.py
View file @
ef8ffd44
...
...
@@ -26,7 +26,8 @@ from .numerics import match_add_numerics, match_divide_numerics, \
from
.fractions
import
match_constant_division
,
match_add_fractions
,
\
match_multiply_fractions
,
match_divide_fractions
,
\
match_extract_fraction_terms
,
match_division_in_denominator
,
\
match_combine_fractions
,
match_remove_division_negation
match_combine_fractions
,
match_remove_division_negation
,
\
match_fraction_in_division
from
.negation
import
match_negated_factor
,
match_negate_polynome
,
\
match_negated_division
from
.sort
import
match_sort_polynome
,
match_sort_monomial
...
...
@@ -59,7 +60,7 @@ RULES = {
OP_DIV
:
[
match_subtract_exponents
,
match_divide_numerics
,
match_constant_division
,
match_divide_fractions
,
match_negated_division
,
match_extract_fraction_terms
,
match_division_in_denominator
,
match_division_in_denominator
,
match_fraction_in_division
,
match_remove_division_negation
],
OP_POW
:
[
match_multiply_exponents
,
match_duplicate_exponent
,
match_raised_fraction
,
match_remove_negative_child
,
...
...
src/rules/fractions.py
View file @
ef8ffd44
...
...
@@ -534,3 +534,56 @@ def remove_division_negation(root, args):
MESSAGES
[
remove_division_negation
]
=
\
_
(
'Move negation from fraction {0} to polynome {2}.'
)
def
match_fraction_in_division
(
node
):
"""
(1 / a * b) / c -> b / (ac)
c / (1 / a * b) -> (ac) / b
"""
assert
node
.
is_op
(
OP_DIV
)
nom
,
denom
=
node
p
=
[]
if
nom
.
is_op
(
OP_MUL
):
scope
=
Scope
(
nom
)
for
n
in
scope
:
if
n
.
is_op
(
OP_DIV
)
and
n
[
0
]
==
1
:
p
.
append
(
P
(
node
,
fraction_in_division
,
(
True
,
scope
,
n
)))
if
denom
.
is_op
(
OP_MUL
):
scope
=
Scope
(
denom
)
for
n
in
scope
:
if
n
.
is_op
(
OP_DIV
)
and
n
[
0
]
==
1
:
p
.
append
(
P
(
node
,
fraction_in_division
,
(
False
,
scope
,
n
)))
return
p
def
fraction_in_division
(
root
,
args
):
"""
(1 / a * b) / c -> b / (ac)
c / (1 / a * b) -> (ac) / b
"""
is_nominator
,
scope
,
fraction
=
args
nom
,
denom
=
root
if
fraction
.
negated
:
scope
.
replace
(
fraction
,
fraction
[
0
].
negate
(
fraction
.
negated
))
else
:
scope
.
remove
(
fraction
)
if
is_nominator
:
nom
=
scope
.
as_nary_node
()
denom
=
fraction
[
1
]
*
denom
else
:
nom
=
fraction
[
1
]
*
nom
denom
=
scope
.
as_nary_node
()
return
negate
(
nom
/
denom
,
root
.
negated
)
MESSAGES
[
fraction_in_division
]
=
\
_
(
'Multiply both sides of fraction {0} with {3[1]}.'
)
tests/test_leiden_oefenopgave.py
View file @
ef8ffd44
...
...
@@ -208,16 +208,16 @@ class TestLeidenOefenopgave(TestCase):
'1 / (4x)'
,
])
#
def test_4_6(self):
#
self.assertRewrite([
#
'(3 / x^2) / (x / 7)',
#
'3 / x ^ 2 / (1 / 7 * x)',
# '3 / (x ^ 2 * 1 / 7 *
x)',
#
'3 / (x ^ (2 + 1)1 / 7)',
#
'3 / (x ^ 3 * 1 / 7)',
# '3 / (1 / 7 * x ^ 3)
',
# '21 / x^
3',
#
])
def
test_4_6
(
self
):
self
.
assertRewrite
([
'(3 / x^2) / (x / 7)'
,
'3 / x ^ 2 / (1 / 7 * x)'
,
'3 / (x ^ 2 * 1 / 7
x)'
,
'3 / (x ^ (2 + 1)1 / 7)'
,
'3 / (x ^ 3 * 1 / 7)'
,
'(7 * 3) / x ^ 3
'
,
'21 / x ^
3'
,
])
def
test_4_7
(
self
):
self
.
assertEvaluates
(
'1 / x + 2 / (x + 1)'
,
'(3x + 1) / (x(x + 1))'
)
tests/test_rules_fractions.py
View file @
ef8ffd44
...
...
@@ -20,7 +20,8 @@ from src.rules.fractions import match_constant_division, division_by_one, \
constant_to_fraction
,
extract_nominator_term
,
extract_fraction_terms
,
\
match_division_in_denominator
,
multiply_with_term
,
\
divide_fraction_by_term
,
match_combine_fractions
,
combine_fractions
,
\
match_remove_division_negation
,
remove_division_negation
match_remove_division_negation
,
remove_division_negation
,
\
match_fraction_in_division
,
fraction_in_division
from
src.node
import
ExpressionNode
as
N
,
Scope
,
OP_MUL
from
src.possibilities
import
Possibility
as
P
from
tests.rulestestcase
import
RulesTestCase
,
tree
...
...
@@ -359,3 +360,26 @@ class TestRulesFractions(RulesTestCase):
a
,
(
b
,
c
)
=
root
=
tree
(
'-a / (-b + c)'
)
self
.
assertEqual
(
remove_division_negation
(
root
,
(
False
,
root
[
1
])),
+
a
/
(
-
b
-
c
))
def
test_match_fraction_in_division
(
self
):
(
fr
,
b
),
c
=
root
=
tree
(
'(1 / a * b) / c'
)
self
.
assertEqualPos
(
match_fraction_in_division
(
root
),
[
P
(
root
,
fraction_in_division
,
(
True
,
Scope
(
root
[
0
]),
fr
))])
c
,
(
fr
,
b
)
=
root
=
tree
(
'c / (1 / a * b)'
)
self
.
assertEqualPos
(
match_fraction_in_division
(
root
),
[
P
(
root
,
fraction_in_division
,
(
False
,
Scope
(
root
[
1
]),
fr
))])
(
fr0
,
b
),
(
fr1
,
d
)
=
root
=
tree
(
'(1 / a * b) / (1 / c * d)'
)
self
.
assertEqualPos
(
match_fraction_in_division
(
root
),
[
P
(
root
,
fraction_in_division
,
(
True
,
Scope
(
root
[
0
]),
fr0
)),
P
(
root
,
fraction_in_division
,
(
False
,
Scope
(
root
[
1
]),
fr1
))])
def
test_fraction_in_division
(
self
):
root
,
expected
=
tree
(
'(1 / a * b) / c, b / (ac)'
)
self
.
assertEqual
(
fraction_in_division
(
root
,
(
True
,
Scope
(
root
[
0
]),
root
[
0
][
0
])),
expected
)
root
,
expected
=
tree
(
'c / (1 / a * b), (ac) / b'
)
self
.
assertEqual
(
fraction_in_division
(
root
,
(
False
,
Scope
(
root
[
1
]),
root
[
1
][
0
])),
expected
)
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