Skip to content
Projects
Groups
Snippets
Help
Loading...
Help
Support
Keyboard shortcuts
?
Submit feedback
Contribute to GitLab
Sign in
Toggle navigation
T
trs
Project overview
Project overview
Details
Activity
Releases
Repository
Repository
Files
Commits
Branches
Tags
Contributors
Graph
Compare
Issues
0
Issues
0
List
Boards
Labels
Milestones
Merge Requests
0
Merge Requests
0
CI / CD
CI / CD
Pipelines
Jobs
Schedules
Analytics
Analytics
CI / CD
Repository
Value Stream
Wiki
Wiki
Members
Members
Collapse sidebar
Close sidebar
Activity
Graph
Create a new issue
Jobs
Commits
Issue Boards
Open sidebar
Taddeüs Kroes
trs
Commits
f5e26d06
Commit
f5e26d06
authored
Nov 17, 2012
by
Taddeüs Kroes
Browse files
Options
Browse Files
Download
Email Patches
Plain Diff
Corrected mixed up definite/indefinite integral references
parent
c409356f
Changes
8
Show whitespace changes
Inline
Side-by-side
Showing
8 changed files
with
65 additions
and
65 deletions
+65
-65
TODO
TODO
+0
-2
src/node.py
src/node.py
+9
-8
src/parser.py
src/parser.py
+2
-2
src/rules/__init__.py
src/rules/__init__.py
+4
-4
src/rules/integrals.py
src/rules/integrals.py
+20
-20
tests/test_node.py
tests/test_node.py
+4
-4
tests/test_parser.py
tests/test_parser.py
+8
-8
tests/test_rules_integrals.py
tests/test_rules_integrals.py
+18
-17
No files found.
TODO
View file @
f5e26d06
...
@@ -44,5 +44,3 @@
...
@@ -44,5 +44,3 @@
- Missed rewrite possibility:
- Missed rewrite possibility:
(4x) / (2x ^ 2 - 2y ^ 2) -> (2x) / (x ^ 2 - y ^ 2)
(4x) / (2x ^ 2 - 2y ^ 2) -> (2x) / (x ^ 2 - y ^ 2)
- "indefinite" / "definite" are sometimes confused in messges, fix that...
src/node.py
View file @
f5e26d06
...
@@ -50,7 +50,7 @@ NARY_OPERATORS = [OP_ADD, OP_SUB, OP_MUL, OP_AND, OP_OR]
...
@@ -50,7 +50,7 @@ NARY_OPERATORS = [OP_ADD, OP_SUB, OP_MUL, OP_AND, OP_OR]
# N-ary (functions)
# N-ary (functions)
OP_INT
=
11
OP_INT
=
11
OP_INT_
IN
DEF
=
12
OP_INT_DEF
=
12
OP_COMMA
=
13
OP_COMMA
=
13
OP_SQRT
=
14
OP_SQRT
=
14
OP_DER
=
15
OP_DER
=
15
...
@@ -125,7 +125,7 @@ OP_MAP = {
...
@@ -125,7 +125,7 @@ OP_MAP = {
}
}
OP_VALUE_MAP
=
dict
([(
v
,
k
)
for
k
,
v
in
OP_MAP
.
iteritems
()])
OP_VALUE_MAP
=
dict
([(
v
,
k
)
for
k
,
v
in
OP_MAP
.
iteritems
()])
OP_VALUE_MAP
[
OP_INT_
IN
DEF
]
=
'indef'
OP_VALUE_MAP
[
OP_INT_DEF
]
=
'indef'
OP_VALUE_MAP
[
OP_ABS
]
=
'||'
OP_VALUE_MAP
[
OP_ABS
]
=
'||'
OP_VALUE_MAP
[
OP_DXDER
]
=
'd/d'
OP_VALUE_MAP
[
OP_DXDER
]
=
'd/d'
OP_VALUE_MAP
[
OP_PARENS
]
=
'()'
OP_VALUE_MAP
[
OP_PARENS
]
=
'()'
...
@@ -363,13 +363,13 @@ class ExpressionNode(Node, ExpressionBase):
...
@@ -363,13 +363,13 @@ class ExpressionNode(Node, ExpressionBase):
return
self
.
value
return
self
.
value
def
is_postfix
(
self
):
def
is_postfix
(
self
):
return
self
.
op
in
(
OP_PRIME
,
OP_INT_
IN
DEF
)
return
self
.
op
in
(
OP_PRIME
,
OP_INT_DEF
)
def
__str__
(
self
):
# pragma: nocover
def
__str__
(
self
):
# pragma: nocover
return
generate_line
(
self
)
return
generate_line
(
self
)
def
custom_line
(
self
):
def
custom_line
(
self
):
if
self
.
op
==
OP_INT_
IN
DEF
:
if
self
.
op
==
OP_INT_DEF
:
Fx
,
a
,
b
=
self
Fx
,
a
,
b
=
self
return
bounds_str
(
ExpressionNode
(
OP_BRACKETS
,
Fx
),
a
,
b
)
return
bounds_str
(
ExpressionNode
(
OP_BRACKETS
,
Fx
),
a
,
b
)
...
@@ -751,16 +751,17 @@ def der(f, x=None):
...
@@ -751,16 +751,17 @@ def der(f, x=None):
def
integral
(
*
args
):
def
integral
(
*
args
):
"""
"""
Create an integral node.
Create an integral node (may be definite or indefinite, depending on
whether there are bounds in `args`).
"""
"""
return
ExpressionNode
(
OP_INT
,
*
args
)
return
ExpressionNode
(
OP_INT
,
*
args
)
def
indef
(
*
args
):
def
in
t_
def
(
*
args
):
"""
"""
Create a
n indefinite integral node
.
Create a
definite integral node (bracket notation)
.
"""
"""
return
ExpressionNode
(
OP_INT_
IN
DEF
,
*
args
)
return
ExpressionNode
(
OP_INT_DEF
,
*
args
)
def
eq
(
left
,
right
):
def
eq
(
left
,
right
):
...
...
src/parser.py
View file @
f5e26d06
...
@@ -31,7 +31,7 @@ from graph_drawing.line import pred
...
@@ -31,7 +31,7 @@ from graph_drawing.line import pred
from
node
import
ExpressionNode
as
Node
,
\
from
node
import
ExpressionNode
as
Node
,
\
ExpressionLeaf
as
Leaf
,
OP_MAP
,
OP_DXDER
,
TOKEN_MAP
,
TYPE_OPERATOR
,
\
ExpressionLeaf
as
Leaf
,
OP_MAP
,
OP_DXDER
,
TOKEN_MAP
,
TYPE_OPERATOR
,
\
OP_COMMA
,
OP_MUL
,
OP_POW
,
OP_LOG
,
OP_ADD
,
Scope
,
E
,
OP_ABS
,
\
OP_COMMA
,
OP_MUL
,
OP_POW
,
OP_LOG
,
OP_ADD
,
Scope
,
E
,
OP_ABS
,
\
DEFAULT_LOGARITHM_BASE
,
SPECIAL_TOKENS
,
OP_INT
,
OP_INT_
IN
DEF
,
\
DEFAULT_LOGARITHM_BASE
,
SPECIAL_TOKENS
,
OP_INT
,
OP_INT_DEF
,
\
INFINITY
,
OP_PRIME
,
OP_DIV
INFINITY
,
OP_PRIME
,
OP_DIV
from
rules.utils
import
find_variable
from
rules.utils
import
find_variable
from
rules.precedences
import
IMPLICIT_RULES
from
rules.precedences
import
IMPLICIT_RULES
...
@@ -683,7 +683,7 @@ class Parser(BisonParser):
...
@@ -683,7 +683,7 @@ class Parser(BisonParser):
lbnd
.
negated
+=
len
(
values
[
1
])
-
1
lbnd
.
negated
+=
len
(
values
[
1
])
-
1
return
Node
(
OP_INT_
IN
DEF
,
values
[
0
],
lbnd
,
ubnd
)
return
Node
(
OP_INT_DEF
,
values
[
0
],
lbnd
,
ubnd
)
raise
BisonSyntaxError
(
'Unsupported option %d in target "%s".'
raise
BisonSyntaxError
(
'Unsupported option %d in target "%s".'
%
(
option
,
target
))
# pragma: nocover
%
(
option
,
target
))
# pragma: nocover
...
...
src/rules/__init__.py
View file @
f5e26d06
...
@@ -13,7 +13,7 @@
...
@@ -13,7 +13,7 @@
# You should have received a copy of the GNU Affero General Public License
# You should have received a copy of the GNU Affero General Public License
# along with TRS. If not, see <http://www.gnu.org/licenses/>.
# along with TRS. If not, see <http://www.gnu.org/licenses/>.
from
..node
import
OP_ADD
,
OP_MUL
,
OP_DIV
,
OP_POW
,
OP_NEG
,
OP_SIN
,
OP_COS
,
\
from
..node
import
OP_ADD
,
OP_MUL
,
OP_DIV
,
OP_POW
,
OP_NEG
,
OP_SIN
,
OP_COS
,
\
OP_TAN
,
OP_DER
,
OP_LOG
,
OP_INT
,
OP_INT_
IN
DEF
,
OP_EQ
,
OP_ABS
,
OP_SQRT
,
\
OP_TAN
,
OP_DER
,
OP_LOG
,
OP_INT
,
OP_INT_DEF
,
OP_EQ
,
OP_ABS
,
OP_SQRT
,
\
OP_AND
,
OP_OR
,
OP_DXDER
,
OP_PRIME
OP_AND
,
OP_OR
,
OP_DXDER
,
OP_PRIME
from
.groups
import
match_combine_groups
from
.groups
import
match_combine_groups
from
.factors
import
match_expand
from
.factors
import
match_expand
...
@@ -40,10 +40,10 @@ from .derivatives import match_zero_derivative, \
...
@@ -40,10 +40,10 @@ from .derivatives import match_zero_derivative, \
from
.logarithmic
import
match_constant_logarithm
,
\
from
.logarithmic
import
match_constant_logarithm
,
\
match_add_logarithms
,
match_raised_base
,
match_factor_out_exponent
,
\
match_add_logarithms
,
match_raised_base
,
match_factor_out_exponent
,
\
match_factor_in_multiplicant
,
match_expand_terms
match_factor_in_multiplicant
,
match_expand_terms
from
.integrals
import
match_solve_
indef
,
match_constant_integral
,
\
from
.integrals
import
match_solve_
definite
,
match_constant_integral
,
\
match_integrate_variable_power
,
match_factor_out_constant
,
\
match_integrate_variable_power
,
match_factor_out_constant
,
\
match_division_integral
,
match_function_integral
,
\
match_division_integral
,
match_function_integral
,
\
match_sum_rule_integral
,
match_remove_
indef
_constant
match_sum_rule_integral
,
match_remove_
definite
_constant
from
.lineq
import
match_move_term
,
match_multiple_equations
,
match_double_case
from
.lineq
import
match_move_term
,
match_multiple_equations
,
match_double_case
from
.absolute
import
match_factor_out_abs_term
from
.absolute
import
match_factor_out_abs_term
from
.sqrt
import
match_reduce_sqrt
from
.sqrt
import
match_reduce_sqrt
...
@@ -82,7 +82,7 @@ RULES = {
...
@@ -82,7 +82,7 @@ RULES = {
OP_INT
:
[
match_integrate_variable_power
,
match_constant_integral
,
OP_INT
:
[
match_integrate_variable_power
,
match_constant_integral
,
match_factor_out_constant
,
match_division_integral
,
match_factor_out_constant
,
match_division_integral
,
match_function_integral
,
match_sum_rule_integral
],
match_function_integral
,
match_sum_rule_integral
],
OP_INT_
INDEF
:
[
match_remove_indef_constant
,
match_solve_indef
],
OP_INT_
DEF
:
[
match_remove_definite_constant
,
match_solve_definite
],
OP_EQ
:
[
match_move_term
],
OP_EQ
:
[
match_move_term
],
OP_ABS
:
[
match_factor_out_abs_term
],
OP_ABS
:
[
match_factor_out_abs_term
],
OP_SQRT
:
[
match_reduce_sqrt
],
OP_SQRT
:
[
match_reduce_sqrt
],
...
...
src/rules/integrals.py
View file @
f5e26d06
...
@@ -13,8 +13,8 @@
...
@@ -13,8 +13,8 @@
# You should have received a copy of the GNU Affero General Public License
# You should have received a copy of the GNU Affero General Public License
# along with TRS. If not, see <http://www.gnu.org/licenses/>.
# along with TRS. If not, see <http://www.gnu.org/licenses/>.
from
.utils
import
find_variables
,
substitute
,
find_variable
from
.utils
import
find_variables
,
substitute
,
find_variable
from
..node
import
ExpressionLeaf
as
L
,
OP_INT
,
OP_INT_
IN
DEF
,
OP_MUL
,
OP_DIV
,
\
from
..node
import
ExpressionLeaf
as
L
,
OP_INT
,
OP_INT_DEF
,
OP_MUL
,
OP_DIV
,
\
OP_LOG
,
OP_SIN
,
OP_COS
,
Scope
,
sin
,
cos
,
ln
,
integral
,
indef
,
\
OP_LOG
,
OP_SIN
,
OP_COS
,
Scope
,
sin
,
cos
,
ln
,
integral
,
in
t_
def
,
\
absolute
,
OP_ADD
,
negate
absolute
,
OP_ADD
,
negate
from
..possibilities
import
Possibility
as
P
,
MESSAGES
from
..possibilities
import
Possibility
as
P
,
MESSAGES
from
..translate
import
_
from
..translate
import
_
...
@@ -43,10 +43,10 @@ def solve_integral(integral, F):
...
@@ -43,10 +43,10 @@ def solve_integral(integral, F):
Solve an integral given its anti-derivative F:
Solve an integral given its anti-derivative F:
- First, finish the anti-derivative by adding a constant.
- First, finish the anti-derivative by adding a constant.
- If no bounds are specified, return the anti-derivative.
- If no bounds are specified, return the anti-derivative.
- Given a lower bound a and upper bound b, the solution is the
in
definite
- Given a lower bound a and upper bound b, the solution is the definite
integral [F(x)]_a^b. If F(x) contains multiple variables so that the 'x'
integral [F(x)]_a^b. If F(x) contains multiple variables so that the 'x'
is not identified by 'find_variable(F)' (which is used by the
in
definite
is not identified by 'find_variable(F)' (which is used by the definite
integral), skip the reduction of the
in
definite integral and return the
integral), skip the reduction of the definite integral and return the
solution F(b) - F(a).
solution F(b) - F(a).
"""
"""
F
+=
choose_constant
(
integral
)
F
+=
choose_constant
(
integral
)
...
@@ -59,21 +59,21 @@ def solve_integral(integral, F):
...
@@ -59,21 +59,21 @@ def solve_integral(integral, F):
if
x
!=
find_variable
(
F
):
if
x
!=
find_variable
(
F
):
solution
=
substitute
(
F
,
x
,
ubnd
)
-
substitute
(
F
,
x
,
lbnd
)
solution
=
substitute
(
F
,
x
,
ubnd
)
-
substitute
(
F
,
x
,
lbnd
)
else
:
else
:
solution
=
indef
(
F
,
lbnd
,
ubnd
)
solution
=
in
t_
def
(
F
,
lbnd
,
ubnd
)
return
negate
(
solution
,
integral
.
negated
)
return
negate
(
solution
,
integral
.
negated
)
def
match_solve_
indef
(
node
):
def
match_solve_
definite
(
node
):
"""
"""
[F(x)]_a^b -> F(b) - F(a)
[F(x)]_a^b -> F(b) - F(a)
"""
"""
assert
node
.
is_op
(
OP_INT_
IN
DEF
)
assert
node
.
is_op
(
OP_INT_DEF
)
return
[
P
(
node
,
solve_
indef
)]
return
[
P
(
node
,
solve_
definite
)]
def
solve_
indef
(
root
,
args
):
def
solve_
definite
(
root
,
args
):
"""
"""
[F(x)]_a^b -> F(b) - F(a)
[F(x)]_a^b -> F(b) - F(a)
"""
"""
...
@@ -83,12 +83,12 @@ def solve_indef(root, args):
...
@@ -83,12 +83,12 @@ def solve_indef(root, args):
return
negate
(
substitute
(
Fx
,
x
,
b
)
-
substitute
(
Fx
,
x
,
a
),
root
.
negated
)
return
negate
(
substitute
(
Fx
,
x
,
b
)
-
substitute
(
Fx
,
x
,
a
),
root
.
negated
)
def
solve_
indef
_msg
(
root
,
args
):
# pragma: nocover
def
solve_
definite
_msg
(
root
,
args
):
# pragma: nocover
return
_
(
'Solve
in
definite integral {0} using substitution '
\
return
_
(
'Solve definite integral {0} using substitution '
\
'of `%s` with {0[2]} and {0[1]}.'
%
find_variable
(
root
[
0
]))
'of `%s` with {0[2]} and {0[1]}.'
%
find_variable
(
root
[
0
]))
MESSAGES
[
solve_
indef
]
=
solve_indef
_msg
MESSAGES
[
solve_
definite
]
=
solve_definite
_msg
def
match_integrate_variable_power
(
node
):
def
match_integrate_variable_power
(
node
):
...
@@ -363,11 +363,11 @@ def sum_rule_integral(root, args):
...
@@ -363,11 +363,11 @@ def sum_rule_integral(root, args):
MESSAGES
[
sum_rule_integral
]
=
_
(
'Apply the sum rule to {0}.'
)
MESSAGES
[
sum_rule_integral
]
=
_
(
'Apply the sum rule to {0}.'
)
def
match_remove_
indef
_constant
(
node
):
def
match_remove_
definite
_constant
(
node
):
"""
"""
[f(x) + c]_a^b -> [f(x)]_a^b
[f(x) + c]_a^b -> [f(x)]_a^b
"""
"""
assert
node
.
is_op
(
OP_INT_
IN
DEF
)
assert
node
.
is_op
(
OP_INT_DEF
)
if
not
node
[
0
].
is_op
(
OP_ADD
):
if
not
node
[
0
].
is_op
(
OP_ADD
):
return
[]
return
[]
...
@@ -376,10 +376,10 @@ def match_remove_indef_constant(node):
...
@@ -376,10 +376,10 @@ def match_remove_indef_constant(node):
x
=
find_variable
(
node
[
0
])
x
=
find_variable
(
node
[
0
])
constants
=
[
n
for
n
in
scope
if
not
n
.
contains
(
x
)]
constants
=
[
n
for
n
in
scope
if
not
n
.
contains
(
x
)]
return
[
P
(
node
,
remove_
indef
_constant
,
(
scope
,
c
))
for
c
in
constants
]
return
[
P
(
node
,
remove_
definite
_constant
,
(
scope
,
c
))
for
c
in
constants
]
def
remove_
indef
_constant
(
root
,
args
):
def
remove_
definite
_constant
(
root
,
args
):
"""
"""
[f(x) + c]_a^b -> [f(x)]_a^b
[f(x) + c]_a^b -> [f(x)]_a^b
"""
"""
...
@@ -388,8 +388,8 @@ def remove_indef_constant(root, args):
...
@@ -388,8 +388,8 @@ def remove_indef_constant(root, args):
Fx
=
scope
.
as_nary_node
()
Fx
=
scope
.
as_nary_node
()
a
,
b
=
root
[
1
:]
a
,
b
=
root
[
1
:]
return
negate
(
indef
(
Fx
,
a
,
b
),
root
.
negated
)
return
negate
(
in
t_
def
(
Fx
,
a
,
b
),
root
.
negated
)
MESSAGES
[
remove_
indef
_constant
]
=
\
MESSAGES
[
remove_
definite
_constant
]
=
\
_
(
'Remove constant {2} from
in
definite integral.'
)
_
(
'Remove constant {2} from definite integral.'
)
tests/test_node.py
View file @
f5e26d06
...
@@ -14,7 +14,7 @@
...
@@ -14,7 +14,7 @@
# along with TRS. If not, see <http://www.gnu.org/licenses/>.
# along with TRS. If not, see <http://www.gnu.org/licenses/>.
from
src.node
import
ExpressionNode
as
N
,
ExpressionLeaf
as
L
,
Scope
,
\
from
src.node
import
ExpressionNode
as
N
,
ExpressionLeaf
as
L
,
Scope
,
\
nary_node
,
get_scope
,
OP_ADD
,
infinity
,
absolute
,
sin
,
cos
,
tan
,
log
,
\
nary_node
,
get_scope
,
OP_ADD
,
infinity
,
absolute
,
sin
,
cos
,
tan
,
log
,
\
ln
,
der
,
integral
,
indef
,
eq
ln
,
der
,
integral
,
in
t_
def
,
eq
from
tests.rulestestcase
import
RulesTestCase
,
tree
from
tests.rulestestcase
import
RulesTestCase
,
tree
...
@@ -259,7 +259,7 @@ class TestNode(RulesTestCase):
...
@@ -259,7 +259,7 @@ class TestNode(RulesTestCase):
self
.
assertEqual
(
str
(
tree
(
'int_(a-b)^(a+b) x ^ 2'
)),
self
.
assertEqual
(
str
(
tree
(
'int_(a-b)^(a+b) x ^ 2'
)),
'int_(a - b)^(a + b) x ^ 2 dx'
)
'int_(a - b)^(a + b) x ^ 2 dx'
)
def
test_construct_function_indef
(
self
):
def
test_construct_function_in
t_
def
(
self
):
self
.
assertEqual
(
str
(
tree
(
'[x ^ 2]_a^b'
)),
'[x ^ 2]_a^b'
)
self
.
assertEqual
(
str
(
tree
(
'[x ^ 2]_a^b'
)),
'[x ^ 2]_a^b'
)
self
.
assertEqual
(
str
(
tree
(
'[x ^ 2]_(a-b)^(a+b)'
)),
self
.
assertEqual
(
str
(
tree
(
'[x ^ 2]_(a-b)^(a+b)'
)),
'[x ^ 2]_(a - b)^(a + b)'
)
'[x ^ 2]_(a - b)^(a + b)'
)
...
@@ -318,9 +318,9 @@ class TestNode(RulesTestCase):
...
@@ -318,9 +318,9 @@ class TestNode(RulesTestCase):
self
.
assertEqual
(
integral
(
x2
,
x
,
a
,
b
),
tree
(
'int_a^b x^2 dx'
))
self
.
assertEqual
(
integral
(
x2
,
x
,
a
,
b
),
tree
(
'int_a^b x^2 dx'
))
self
.
assertEqual
(
integral
(
x2
,
y
,
a
,
b
),
tree
(
'int_a^b x^2 dy'
))
self
.
assertEqual
(
integral
(
x2
,
y
,
a
,
b
),
tree
(
'int_a^b x^2 dy'
))
def
test_indef
(
self
):
def
test_in
t_
def
(
self
):
x2
,
a
,
b
,
expect
=
tree
(
'x ^ 2, a, b, [x ^ 2]_a^b'
)
x2
,
a
,
b
,
expect
=
tree
(
'x ^ 2, a, b, [x ^ 2]_a^b'
)
self
.
assertEqual
(
indef
(
x2
,
a
,
b
),
expect
)
self
.
assertEqual
(
in
t_
def
(
x2
,
a
,
b
),
expect
)
def
test_eq
(
self
):
def
test_eq
(
self
):
x
,
a
,
b
,
expect
=
tree
(
'x, a, b, x + a = b'
)
x
,
a
,
b
,
expect
=
tree
(
'x, a, b, x + a = b'
)
...
...
tests/test_parser.py
View file @
f5e26d06
...
@@ -15,7 +15,7 @@
...
@@ -15,7 +15,7 @@
# along with TRS. If not, see <http://www.gnu.org/licenses/>.
# along with TRS. If not, see <http://www.gnu.org/licenses/>.
from
src.parser
import
Parser
,
find_possibilities
from
src.parser
import
Parser
,
find_possibilities
from
src.node
import
ExpressionNode
as
Node
,
ExpressionLeaf
as
Leaf
,
\
from
src.node
import
ExpressionNode
as
Node
,
ExpressionLeaf
as
Leaf
,
\
SPECIAL_TOKENS
,
sin
,
cos
,
der
,
log
,
ln
,
integral
,
indef
,
absolute
,
\
SPECIAL_TOKENS
,
sin
,
cos
,
der
,
log
,
ln
,
integral
,
in
t_
def
,
absolute
,
\
Scope
Scope
from
src.possibilities
import
Possibility
as
P
from
src.possibilities
import
Possibility
as
P
from
src.rules.numerics
import
add_numerics
from
src.rules.numerics
import
add_numerics
...
@@ -178,15 +178,15 @@ class TestParser(RulesTestCase):
...
@@ -178,15 +178,15 @@ class TestParser(RulesTestCase):
self
.
assertEqual
(
tree
(
'int_(-a)^b x dx'
),
integral
(
x
,
x
,
-
a
,
b
))
self
.
assertEqual
(
tree
(
'int_(-a)^b x dx'
),
integral
(
x
,
x
,
-
a
,
b
))
self
.
assertEqual
(
tree
(
'int_-a^b x^2 dx'
),
integral
(
x
**
2
,
x
,
-
a
,
b
))
self
.
assertEqual
(
tree
(
'int_-a^b x^2 dx'
),
integral
(
x
**
2
,
x
,
-
a
,
b
))
def
test_indefinite_integral
(
self
):
def
test_in
t_
definite_integral
(
self
):
x2
,
a
,
b
,
oo
,
l2
=
tree
(
'x ^ 2, a, b, oo, 2'
)
x2
,
a
,
b
,
oo
,
l2
=
tree
(
'x ^ 2, a, b, oo, 2'
)
self
.
assertEqual
(
tree
(
'(x ^ 2)_a'
),
indef
(
x2
,
a
,
oo
))
self
.
assertEqual
(
tree
(
'(x ^ 2)_a'
),
in
t_
def
(
x2
,
a
,
oo
))
self
.
assertEqual
(
tree
(
'(x ^ 2)_a^b'
),
indef
(
x2
,
a
,
b
))
self
.
assertEqual
(
tree
(
'(x ^ 2)_a^b'
),
in
t_
def
(
x2
,
a
,
b
))
self
.
assertEqual
(
tree
(
'(x ^ 2)_-a^b'
),
indef
(
x2
,
-
a
,
b
))
self
.
assertEqual
(
tree
(
'(x ^ 2)_-a^b'
),
in
t_
def
(
x2
,
-
a
,
b
))
self
.
assertEqual
(
tree
(
'(x ^ 2)_-a^-b'
),
indef
(
x2
,
-
a
,
-
b
))
self
.
assertEqual
(
tree
(
'(x ^ 2)_-a^-b'
),
in
t_
def
(
x2
,
-
a
,
-
b
))
self
.
assertNotEqual
(
tree
(
'(x ^ 2)_-2a^b'
),
indef
(
x2
,
-
(
l2
*
a
),
b
))
self
.
assertNotEqual
(
tree
(
'(x ^ 2)_-2a^b'
),
in
t_
def
(
x2
,
-
(
l2
*
a
),
b
))
self
.
assertEqual
(
tree
(
'(x ^ 2)_(-2a)^b'
),
indef
(
x2
,
-
(
l2
*
a
),
b
))
self
.
assertEqual
(
tree
(
'(x ^ 2)_(-2a)^b'
),
in
t_
def
(
x2
,
-
(
l2
*
a
),
b
))
def
test_absolute_value
(
self
):
def
test_absolute_value
(
self
):
x
=
tree
(
'x'
)
x
=
tree
(
'x'
)
...
...
tests/test_rules_integrals.py
View file @
f5e26d06
...
@@ -12,8 +12,8 @@
...
@@ -12,8 +12,8 @@
#
#
# You should have received a copy of the GNU Affero General Public License
# You should have received a copy of the GNU Affero General Public License
# along with TRS. If not, see <http://www.gnu.org/licenses/>.
# along with TRS. If not, see <http://www.gnu.org/licenses/>.
from
src.rules.integrals
import
indef
,
choose_constant
,
solve_integral
,
\
from
src.rules.integrals
import
choose_constant
,
solve_integral
,
\
match_solve_
indef
,
solve_indef
,
match_integrate_variable_power
,
\
match_solve_
definite
,
solve_definite
,
match_integrate_variable_power
,
\
integrate_variable_root
,
integrate_variable_exponent
,
\
integrate_variable_root
,
integrate_variable_exponent
,
\
match_constant_integral
,
constant_integral
,
single_variable_integral
,
\
match_constant_integral
,
constant_integral
,
single_variable_integral
,
\
match_factor_out_constant
,
factor_out_integral_negation
,
\
match_factor_out_constant
,
factor_out_integral_negation
,
\
...
@@ -21,8 +21,8 @@ from src.rules.integrals import indef, choose_constant, solve_integral, \
...
@@ -21,8 +21,8 @@ from src.rules.integrals import indef, choose_constant, solve_integral, \
extend_division_integral
,
match_function_integral
,
\
extend_division_integral
,
match_function_integral
,
\
logarithm_integral
,
sinus_integral
,
cosinus_integral
,
\
logarithm_integral
,
sinus_integral
,
cosinus_integral
,
\
match_sum_rule_integral
,
sum_rule_integral
,
\
match_sum_rule_integral
,
sum_rule_integral
,
\
match_remove_
indef_constant
,
remove_indef
_constant
match_remove_
definite_constant
,
remove_definite
_constant
from
src.node
import
Scope
from
src.node
import
Scope
,
int_def
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
...
@@ -35,26 +35,27 @@ class TestRulesIntegrals(RulesTestCase):
...
@@ -35,26 +35,27 @@ class TestRulesIntegrals(RulesTestCase):
self
.
assertEqual
(
choose_constant
(
tree
(
'int x ^ c'
)),
a
)
self
.
assertEqual
(
choose_constant
(
tree
(
'int x ^ c'
)),
a
)
self
.
assertEqual
(
choose_constant
(
tree
(
'int a ^ c da'
)),
b
)
self
.
assertEqual
(
choose_constant
(
tree
(
'int a ^ c da'
)),
b
)
def
test_match_solve_
indef
(
self
):
def
test_match_solve_
definite
(
self
):
root
=
tree
(
'[x ^ 2]_a^b'
)
root
=
tree
(
'[x ^ 2]_a^b'
)
self
.
assertEqualPos
(
match_solve_indef
(
root
),
[
P
(
root
,
solve_indef
)])
self
.
assertEqualPos
(
match_solve_definite
(
root
),
[
P
(
root
,
solve_definite
)])
def
test_solve_integral
(
self
):
def
test_solve_integral
(
self
):
root
,
F
,
Fc
=
tree
(
'int x ^ 2 dx, 1 / 3 x ^ 3, 1 / 3 x ^ 3 + C'
)
root
,
F
,
Fc
=
tree
(
'int x ^ 2 dx, 1 / 3 x ^ 3, 1 / 3 x ^ 3 + C'
)
self
.
assertEqual
(
solve_integral
(
root
,
F
),
Fc
)
self
.
assertEqual
(
solve_integral
(
root
,
F
),
Fc
)
x2
,
x
,
a
,
b
=
root
=
tree
(
'int_a^b x ^ 2 dx'
)
x2
,
x
,
a
,
b
=
root
=
tree
(
'int_a^b x ^ 2 dx'
)
self
.
assertEqual
(
solve_integral
(
root
,
F
),
indef
(
Fc
,
a
,
b
))
self
.
assertEqual
(
solve_integral
(
root
,
F
),
in
t_
def
(
Fc
,
a
,
b
))
def
test_solve_integral_skip_
indef
(
self
):
def
test_solve_integral_skip_
definite
(
self
):
root
,
x
,
C
,
l1
=
tree
(
'int_a^b y ^ x dy, x, C, 1'
)
root
,
x
,
C
,
l1
=
tree
(
'int_a^b y ^ x dy, x, C, 1'
)
F
=
tree
(
'1 / (x + 1)y ^ (x + 1)'
)
F
=
tree
(
'1 / (x + 1)y ^ (x + 1)'
)
y
,
a
,
b
=
root
[
1
:
4
]
y
,
a
,
b
=
root
[
1
:
4
]
Fx
=
lambda
y
:
l1
/
(
x
+
1
)
*
y
**
(
x
+
1
)
+
C
Fx
=
lambda
y
:
l1
/
(
x
+
1
)
*
y
**
(
x
+
1
)
+
C
self
.
assertEqual
(
solve_integral
(
root
,
F
),
Fx
(
b
)
-
Fx
(
a
))
self
.
assertEqual
(
solve_integral
(
root
,
F
),
Fx
(
b
)
-
Fx
(
a
))
def
test_solve_
indef
(
self
):
def
test_solve_
definite
(
self
):
root
,
expect
=
tree
(
'[x ^ 2]_a^b, b ^ 2 - a ^ 2'
)
root
,
expect
=
tree
(
'[x ^ 2]_a^b, b ^ 2 - a ^ 2'
)
self
.
assertEqual
(
solve_
indef
(
root
,
()),
expect
)
self
.
assertEqual
(
solve_
definite
(
root
,
()),
expect
)
def
test_match_integrate_variable_power
(
self
):
def
test_match_integrate_variable_power
(
self
):
root
=
tree
(
'int x ^ n'
)
root
=
tree
(
'int x ^ n'
)
...
@@ -195,18 +196,18 @@ class TestRulesIntegrals(RulesTestCase):
...
@@ -195,18 +196,18 @@ class TestRulesIntegrals(RulesTestCase):
self
.
assertEqual
(
sum_rule_integral
(
root
,
(
Scope
(
root
[
0
]),
h
)),
self
.
assertEqual
(
sum_rule_integral
(
root
,
(
Scope
(
root
[
0
]),
h
)),
tree
(
'int 4x dx + int (2x + 3x) dx'
))
tree
(
'int 4x dx + int (2x + 3x) dx'
))
def
test_match_remove_
indef
_constant
(
self
):
def
test_match_remove_
definite
_constant
(
self
):
Fx
,
a
,
b
=
root
=
tree
(
'[2x + C]_a^b'
)
Fx
,
a
,
b
=
root
=
tree
(
'[2x + C]_a^b'
)
self
.
assertEqualPos
(
match_remove_
indef
_constant
(
root
),
self
.
assertEqualPos
(
match_remove_
definite
_constant
(
root
),
[
P
(
root
,
remove_
indef
_constant
,
(
Scope
(
Fx
),
Fx
[
1
]))])
[
P
(
root
,
remove_
definite
_constant
,
(
Scope
(
Fx
),
Fx
[
1
]))])
Fx
,
a
,
b
=
root
=
tree
(
'[2x + x]_a^b'
)
Fx
,
a
,
b
=
root
=
tree
(
'[2x + x]_a^b'
)
self
.
assertEqualPos
(
match_remove_
indef
_constant
(
root
),
[])
self
.
assertEqualPos
(
match_remove_
definite
_constant
(
root
),
[])
Fx
,
a
,
b
=
root
=
tree
(
'[2x]_a^b'
)
Fx
,
a
,
b
=
root
=
tree
(
'[2x]_a^b'
)
self
.
assertEqualPos
(
match_remove_
indef
_constant
(
root
),
[])
self
.
assertEqualPos
(
match_remove_
definite
_constant
(
root
),
[])
def
test_remove_
indef
_constant
(
self
):
def
test_remove_
definite
_constant
(
self
):
root
,
e
=
tree
(
'[2x + C]_a^b, [2x]_a^b'
)
root
,
e
=
tree
(
'[2x + C]_a^b, [2x]_a^b'
)
Fx
=
root
[
0
]
Fx
=
root
[
0
]
self
.
assertEqual
(
remove_
indef
_constant
(
root
,
(
Scope
(
Fx
),
Fx
[
1
])),
e
)
self
.
assertEqual
(
remove_
definite
_constant
(
root
,
(
Scope
(
Fx
),
Fx
[
1
])),
e
)
Write
Preview
Markdown
is supported
0%
Try again
or
attach a new file
Attach a file
Cancel
You are about to add
0
people
to the discussion. Proceed with caution.
Finish editing this message first!
Cancel
Please
register
or
sign in
to comment