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Taddeüs Kroes
trs
Commits
f1e51800
Commit
f1e51800
authored
Mar 15, 2012
by
Taddeus Kroes
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Added some new syntaxes for logarithms in the parser and printer.
parent
895c81d7
Changes
4
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Side-by-side
Showing
4 changed files
with
72 additions
and
25 deletions
+72
-25
src/node.py
src/node.py
+39
-19
src/parser.py
src/parser.py
+18
-6
tests/test_node.py
tests/test_node.py
+6
-0
tests/test_parser.py
tests/test_parser.py
+9
-0
No files found.
src/node.py
View file @
f1e51800
...
@@ -33,27 +33,29 @@ OP_MOD = 7
...
@@ -33,27 +33,29 @@ OP_MOD = 7
OP_INT
=
8
OP_INT
=
8
OP_COMMA
=
9
OP_COMMA
=
9
OP_SQRT
=
10
OP_SQRT
=
10
OP_DER
IV
=
11
OP_DER
=
11
OP_LOG
=
12
OP_LOG
=
12
OP_LN
=
13
# Goniometry
# Goniometry
OP_SIN
=
1
4
OP_SIN
=
1
3
OP_COS
=
1
5
OP_COS
=
1
4
OP_TAN
=
1
6
OP_TAN
=
1
5
OP_SOLVE
=
1
7
OP_SOLVE
=
1
6
OP_EQ
=
1
8
OP_EQ
=
1
7
OP_POSSIBILITIES
=
1
9
OP_POSSIBILITIES
=
1
8
OP_HINT
=
20
OP_HINT
=
19
OP_REWRITE_ALL
=
2
1
OP_REWRITE_ALL
=
2
0
OP_REWRITE
=
2
2
OP_REWRITE
=
2
1
# Special identifiers
# Special identifiers
PI
=
'pi'
PI
=
'pi'
E
=
'e'
E
=
'e'
# Default base to use in parsing 'log(...)'
DEFAULT_LOGARITHM_BASE
=
10
TYPE_MAP
=
{
TYPE_MAP
=
{
int
:
TYPE_INTEGER
,
int
:
TYPE_INTEGER
,
...
@@ -73,10 +75,10 @@ OP_MAP = {
...
@@ -73,10 +75,10 @@ OP_MAP = {
'tan'
:
OP_TAN
,
'tan'
:
OP_TAN
,
'sqrt'
:
OP_SQRT
,
'sqrt'
:
OP_SQRT
,
'int'
:
OP_INT
,
'int'
:
OP_INT
,
'der'
:
OP_DER
IV
,
'der'
:
OP_DER
,
'solve'
:
OP_SOLVE
,
'solve'
:
OP_SOLVE
,
'log'
:
OP_LOG
,
'log'
:
OP_LOG
,
'ln'
:
OP_L
N
,
'ln'
:
OP_L
OG
,
'='
:
OP_EQ
,
'='
:
OP_EQ
,
'??'
:
OP_POSSIBILITIES
,
'??'
:
OP_POSSIBILITIES
,
'?'
:
OP_HINT
,
'?'
:
OP_HINT
,
...
@@ -96,10 +98,9 @@ TOKEN_MAP = {
...
@@ -96,10 +98,9 @@ TOKEN_MAP = {
OP_COS
:
'FUNCTION'
,
OP_COS
:
'FUNCTION'
,
OP_TAN
:
'FUNCTION'
,
OP_TAN
:
'FUNCTION'
,
OP_INT
:
'FUNCTION'
,
OP_INT
:
'FUNCTION'
,
OP_DER
IV
:
'FUNCTION'
,
OP_DER
:
'FUNCTION'
,
OP_SOLVE
:
'FUNCTION'
,
OP_SOLVE
:
'FUNCTION'
,
OP_LOG
:
'FUNCTION'
,
OP_LOG
:
'FUNCTION'
,
OP_LN
:
'FUNCTION'
,
OP_EQ
:
'EQ'
,
OP_EQ
:
'EQ'
,
OP_POSSIBILITIES
:
'POSSIBILITIES'
,
OP_POSSIBILITIES
:
'POSSIBILITIES'
,
OP_HINT
:
'HINT'
,
OP_HINT
:
'HINT'
,
...
@@ -162,8 +163,8 @@ class ExpressionBase(object):
...
@@ -162,8 +163,8 @@ class ExpressionBase(object):
return
s_root
<
o_root
or
s_exp
<
o_exp
or
s_coeff
<
o_coeff
return
s_root
<
o_root
or
s_exp
<
o_exp
or
s_coeff
<
o_coeff
def
is_op
(
self
,
op
):
def
is_op
(
self
,
*
ops
):
return
not
self
.
is_leaf
and
self
.
op
==
op
return
not
self
.
is_leaf
and
self
.
op
in
ops
def
is_power
(
self
,
exponent
=
None
):
def
is_power
(
self
,
exponent
=
None
):
if
self
.
is_leaf
or
self
.
op
!=
OP_POW
:
if
self
.
is_leaf
or
self
.
op
!=
OP_POW
:
...
@@ -240,13 +241,32 @@ class ExpressionNode(Node, ExpressionBase):
...
@@ -240,13 +241,32 @@ class ExpressionNode(Node, ExpressionBase):
self
.
op
=
OP_MAP
[
args
[
0
]]
self
.
op
=
OP_MAP
[
args
[
0
]]
def
construct_function
(
self
,
children
):
def
construct_function
(
self
,
children
):
if
self
.
op
==
OP_DER
IV
:
if
self
.
op
==
OP_DER
:
f
=
children
[
0
]
f
=
children
[
0
]
if
len
(
children
)
<
2
:
if
len
(
children
)
<
2
:
# der(der(x ^ 2)) -> [x ^ 2]''
if
self
[
0
].
is_op
(
OP_DER
)
and
len
(
self
[
0
])
<
2
:
return
f
+
'
\
'
'
# der(x ^ 2) -> [x ^ 2]'
return
'['
+
f
+
']
\
'
'
return
'['
+
f
+
']
\
'
'
return
'd/d'
+
children
[
1
]
+
' ('
+
f
+
')'
# der(x ^ 2, x) -> d/dx (x ^ 2)
return
'd/d%s (%s)'
%
(
children
[
1
],
f
)
if
self
.
op
==
OP_LOG
:
# log(a, e) -> ln(a)
if
self
[
1
].
is_identifier
(
E
):
return
'ln(%s)'
%
children
[
0
]
# log(a, 10) -> log(a)
if
self
[
1
]
==
10
:
return
'log(%s)'
%
children
[
0
]
# log(a, 2) -> log_2(a)
if
children
[
1
].
isdigit
():
return
'log_%s(%s)'
%
(
children
[
1
],
children
[
0
])
def
__str__
(
self
):
# pragma: nocover
def
__str__
(
self
):
# pragma: nocover
return
generate_line
(
self
)
return
generate_line
(
self
)
...
...
src/parser.py
View file @
f1e51800
...
@@ -15,13 +15,14 @@ from pybison import BisonParser, BisonSyntaxError
...
@@ -15,13 +15,14 @@ from pybison import BisonParser, BisonSyntaxError
from
graph_drawing.graph
import
generate_graph
from
graph_drawing.graph
import
generate_graph
from
node
import
ExpressionNode
as
Node
,
ExpressionLeaf
as
Leaf
,
OP_MAP
,
\
from
node
import
ExpressionNode
as
Node
,
ExpressionLeaf
as
Leaf
,
OP_MAP
,
\
OP_DER
IV
,
TOKEN_MAP
,
TYPE_OPERATOR
,
OP_COMMA
,
OP_NEG
,
OP_MUL
,
OP_DIV
,
\
OP_DER
,
TOKEN_MAP
,
TYPE_OPERATOR
,
OP_COMMA
,
OP_NEG
,
OP_MUL
,
OP_DIV
,
\
Scope
,
PI
OP_LOG
,
Scope
,
PI
,
E
,
DEFAULT_LOGARITHM_BASE
from
rules
import
RULES
from
rules
import
RULES
from
strategy
import
pick_suggestion
from
strategy
import
pick_suggestion
from
possibilities
import
filter_duplicates
,
apply_suggestion
from
possibilities
import
filter_duplicates
,
apply_suggestion
import
Queue
import
Queue
import
re
# Check for n-ary operator in child nodes
# Check for n-ary operator in child nodes
...
@@ -141,8 +142,6 @@ class Parser(BisonParser):
...
@@ -141,8 +142,6 @@ class Parser(BisonParser):
self
.
possibilities
=
[]
self
.
possibilities
=
[]
import
re
# Replace known keywords with escape sequences.
# Replace known keywords with escape sequences.
words
=
list
(
Parser
.
words
)
words
=
list
(
Parser
.
words
)
words
.
insert
(
10
,
'
\
n
'
)
words
.
insert
(
10
,
'
\
n
'
)
...
@@ -389,13 +388,24 @@ class Parser(BisonParser):
...
@@ -389,13 +388,24 @@ class Parser(BisonParser):
if
option
in
(
1
,
2
):
# rule: FUNCTION_LPAREN exp RPAREN | FUNCTION exp
if
option
in
(
1
,
2
):
# rule: FUNCTION_LPAREN exp RPAREN | FUNCTION exp
op
=
values
[
0
].
split
(
' '
,
1
)[
0
]
op
=
values
[
0
].
split
(
' '
,
1
)[
0
]
if
op
==
'ln'
:
return
Node
(
'log'
,
values
[
1
],
Leaf
(
E
))
if
values
[
1
].
is_op
(
OP_COMMA
):
if
values
[
1
].
is_op
(
OP_COMMA
):
return
Node
(
op
,
*
values
[
1
])
return
Node
(
op
,
*
values
[
1
])
if
op
==
'log'
:
return
Node
(
'log'
,
values
[
1
],
Leaf
(
DEFAULT_LOGARITHM_BASE
))
m
=
re
.
match
(
r'^log_([0-9]+)'
,
op
)
if
m
:
return
Node
(
'log'
,
values
[
1
],
Leaf
(
int
(
m
.
group
(
1
))))
return
Node
(
op
,
values
[
1
])
return
Node
(
op
,
values
[
1
])
if
option
==
3
:
# rule: DERIVATIVE exp
if
option
==
3
:
# rule: DERIVATIVE exp
op
=
[
k
for
k
,
v
in
OP_MAP
.
iteritems
()
if
v
==
OP_DER
IV
][
0
]
op
=
[
k
for
k
,
v
in
OP_MAP
.
iteritems
()
if
v
==
OP_DER
][
0
]
# DERIVATIVE looks like 'd/d*x*' -> extract the 'x'
# DERIVATIVE looks like 'd/d*x*' -> extract the 'x'
return
Node
(
op
,
values
[
1
],
Leaf
(
values
[
0
][
-
2
]))
return
Node
(
op
,
values
[
1
],
Leaf
(
values
[
0
][
-
2
]))
...
@@ -412,7 +422,7 @@ class Parser(BisonParser):
...
@@ -412,7 +422,7 @@ class Parser(BisonParser):
| bracket_derivative APOSTROPH
| bracket_derivative APOSTROPH
"""
"""
op
=
[
k
for
k
,
v
in
OP_MAP
.
iteritems
()
if
v
==
OP_DER
IV
][
0
]
op
=
[
k
for
k
,
v
in
OP_MAP
.
iteritems
()
if
v
==
OP_DER
][
0
]
if
option
==
0
:
# rule: LBRACKET exp RBRACKET APOSTROPH
if
option
==
0
:
# rule: LBRACKET exp RBRACKET APOSTROPH
return
Node
(
op
,
values
[
1
])
return
Node
(
op
,
values
[
1
])
...
@@ -527,6 +537,8 @@ class Parser(BisonParser):
...
@@ -527,6 +537,8 @@ class Parser(BisonParser):
"[" { returntoken(LBRACKET); }
"[" { returntoken(LBRACKET); }
"]" { returntoken(RBRACKET); }
"]" { returntoken(RBRACKET); }
"'" { returntoken(APOSTROPH); }
"'" { returntoken(APOSTROPH); }
log_[0-9]+"*(" { returntoken(FUNCTION_LPAREN); }
log_[0-9]+"*" { returntoken(FUNCTION); }
"""
+
operators
+
r"""
"""
+
operators
+
r"""
"raise" { returntoken(RAISE); }
"raise" { returntoken(RAISE); }
"graph" { returntoken(GRAPH); }
"graph" { returntoken(GRAPH); }
...
...
tests/test_node.py
View file @
f1e51800
...
@@ -221,4 +221,10 @@ class TestNode(RulesTestCase):
...
@@ -221,4 +221,10 @@ class TestNode(RulesTestCase):
def
test_construct_function
(
self
):
def
test_construct_function
(
self
):
self
.
assertEqual
(
str
(
tree
(
'der(x ^ 2)'
)),
'[x ^ 2]
\
'
'
)
self
.
assertEqual
(
str
(
tree
(
'der(x ^ 2)'
)),
'[x ^ 2]
\
'
'
)
self
.
assertEqual
(
str
(
tree
(
'der(der(x ^ 2))'
)),
'[x ^ 2]
\
'
\
'
'
)
self
.
assertEqual
(
str
(
tree
(
'der(x ^ 2, x)'
)),
'd/dx (x ^ 2)'
)
self
.
assertEqual
(
str
(
tree
(
'der(x ^ 2, x)'
)),
'd/dx (x ^ 2)'
)
self
.
assertEqual
(
str
(
tree
(
'log(x, e)'
)),
'ln(x)'
)
self
.
assertEqual
(
str
(
tree
(
'log(x, 10)'
)),
'log(x)'
)
self
.
assertEqual
(
str
(
tree
(
'log(x, 2)'
)),
'log_2(x)'
)
self
.
assertEqual
(
str
(
tree
(
'log(x, g)'
)),
'log(x, g)'
)
tests/test_parser.py
View file @
f1e51800
...
@@ -7,6 +7,7 @@ from tests.parser import ParserWrapper, run_expressions, line, graph
...
@@ -7,6 +7,7 @@ from tests.parser import ParserWrapper, run_expressions, line, graph
from
tests.rulestestcase
import
tree
from
tests.rulestestcase
import
tree
from
src.rules.goniometry
import
sin
,
cos
from
src.rules.goniometry
import
sin
,
cos
from
src.rules.derivatives
import
der
from
src.rules.derivatives
import
der
from
src.rules.logarithmic
import
log
,
ln
class
TestParser
(
unittest
.
TestCase
):
class
TestParser
(
unittest
.
TestCase
):
...
@@ -75,3 +76,11 @@ class TestParser(unittest.TestCase):
...
@@ -75,3 +76,11 @@ class TestParser(unittest.TestCase):
self
.
assertEqual
(
tree
(
'd/dx (x ^ 2 + x)'
),
der
(
exp
+
x
,
x
))
self
.
assertEqual
(
tree
(
'd/dx (x ^ 2 + x)'
),
der
(
exp
+
x
,
x
))
self
.
assertEqual
(
tree
(
'd/d'
),
d
/
d
)
self
.
assertEqual
(
tree
(
'd/d'
),
d
/
d
)
# FIXME: self.assertEqual(tree('d(x ^ 2)/dx'), der(exp, x))
# FIXME: self.assertEqual(tree('d(x ^ 2)/dx'), der(exp, x))
def
test_logarithm
(
self
):
x
,
g
=
tree
(
'x, g'
)
self
.
assertEqual
(
tree
(
'log(x, e)'
),
ln
(
x
))
self
.
assertEqual
(
tree
(
'log(x, 10)'
),
log
(
x
))
self
.
assertEqual
(
tree
(
'log(x, 2)'
),
log
(
x
,
2
))
self
.
assertEqual
(
tree
(
'log(x, g)'
),
log
(
x
,
g
))
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