A micro conditional engine used to parse raw logical and comparison expressions, evaluate the expression in the given data context, and provide access to a text form of the given expressions.
Project description
(py)illogical
A micro conditional engine used to parse the logical and comparison expressions, evaluate an expression in data context, and provide access to a text form of the given expression.
Revision: Mar 10, 2023.
Other implementations:
About
This project has been developed to provide Python implementation of spaceavocado/illogical.
Getting Started
You can install the (py)illogical from PyPI:
python -m pip install illogical
The reader is supported on Python 3.7 and above.
Table of Content
- (py)illogical
Basic Usage
from illogical.illogical import Illogical
# Create a new instance of the engine
illogical = Illogical()
# Evaluate an expression
illogical.evaluate(["==", 1, 1], {})
For advanced usage, please Engine Options.
Evaluate
Evaluate comparison or logical expression:
illogical.evaluate(
Comparison Expression or Logical Expression, Evaluation Data Context)
=> bool
Example
context = {
"name": "peter",
}
# Comparison expression
illogical.evaluate(["==", 5, 5], context)
illogical.evaluate(["==", "circle", "circle"], context)
illogical.evaluate(["==", True, True], context)
illogical.evaluate(["==", "$name", "peter"], context)
illogical.evaluate(["NIL", "$RefA"], context)
# Logical expression
illogical.evaluate(["AND", ["==", 5, 5], ["==", 10, 10]], context)
illogical.evaluate(["AND", ["==", "circle", "circle"], ["==", 10, 10]], context)
illogical.evaluate(["OR", ["==", "$name", "peter"], ["==", 5, 10]], context)
Statement
Get expression string representation:
illogical.statement(
Comparison Expression or Logical Expression)
=> str
Example
# Comparison expression
illogical.statement(["==", 5, 5])
# (5 == 5)
illogical.statement(["==", "circle", "circle"])
# ("circle" == "circle")
illogical.statement(["==", True, True])
# (True == True)
illogical.statement(["==", "$name", "peter"])
# ({name} == "peter")
illogical.statement(["NIL", "$RefA"])
# ({RefA} <is nil>)
# Logical expression
illogical.statement(["AND", ["==", 5, 5], ["==", 10, 10]])
# ((5 == 5) AND (10 == 10))
illogical.statement(["AND", ["==", "circle", "circle"], ["==", 10, 10]])
# (("circle" == "circle") AND (10 == 10))
illogical.statement(["OR", ["==", "$name", "peter"], ["==", 5, 10]])
# (({name} == "peter") OR (5 == 10))
Parse
Parse the expression into a Evaluable object, i.e. it returns the parsed self-evaluable condition expression.
illogical.parse(
Comparison Expression or Logical Expression)
=> Evaluable
Evaluable
evaluable.evaluate(context)
please see Evaluation Data Context.evaluable.simplify(context)
please see Simplify.evaluable.serialize()
please see Serialize.str(evaluable) | evaluable.__str__()
please see Statement.
Example
evaluable = illogical.parse(["==", "$name", "peter"])
evaluable.evaluate({"name": "peter"})
# True
print(evaluable)
# ({name} == "peter")
Simplify
Simplifies an expression with a given context. This is useful when you already have some of the properties of context and wants to try to evaluate the expression.
Example
evaluable = illogical.parse(["AND", ["==", "$a", 10], ["==", "$b", 20]])
evaluable.simplify({"a": 10})
# ({b} == 20)
evaluable.simplify({"a": 20})
# False
Values not found in the context will cause the parent operand not to be evaluated and returned as part of the simplified expression.
In some situations we might want to evaluate the expression even if referred value is not present. You can provide a list of keys that will be strictly evaluated even if they are not present in the context.
Example
from illogical.illogical import Illogical
from illogical.parser.parse import Options
ignored_paths = ["ignored"],
ignored_path_rx = [r"^ignored"],
illogical = Illogical(Options(ignored_paths=ignored_paths, ignored_path_rx=ignored_path_rx))
evaluable = illogical.parse(["AND", ["==", "$a", 10], ["==", "$ignored", 20]])
evaluable.simplify({"a": 10})
# False
# $ignored" will be evaluated to None.
Alternatively we might want to do the opposite and strictly evaluate the expression for all referred values not present in the context except for a specified list of optional keys.
Example
from illogical.illogical import Illogical
from illogical.parser.parse import Options
ignored_paths = ["b"]
illogical = Illogical(Options(ignored_paths=ignored_paths))
evaluable = illogical.parse(["OR", ["==", "$a", 10], ["==", "$b", 20}, ["==", "$c", 20]])
evaluable.simplify({"c": 10})
# ({a} == 10)
# except for "$b" everything not in context will be evaluated to None.
Serialize
Serializes an expression into the raw expression form, reverse the parse operation.
Example
evaluable = illogical.parse(["AND", ["==", "$a", 10], ["==", 10, 20]])
evaluable.serialize()
# ["AND", ["==", "$a", 10], ["==", 10, 20]]
Working with Expressions
Evaluation Data Context
The evaluation data context is used to provide the expression with variable references, i.e. this allows for the dynamic expressions. The data context is object with properties used as the references keys, and its values as reference values.
Valid reference values: dist, str, int, float, list; set; tuple of (bool, string, int, float).
To reference the nested reference, please use "." delimiter, e.g.:
$address.city
Accessing Array Element:
$options[1]
Accessing Array Element via Reference:
$options[{index}]
- The index reference is resolved within the data context as an array index.
Nested Referencing
$address.{segment}
- The segment reference is resolved within the data context as a property key.
Composite Reference Key
$shape{shapeType}
- The shapeType reference is resolved within the data context, and inserted into the outer reference key.
- E.g. shapeType is resolved as "B" and would compose the $shapeB outer reference.
- This resolution could be n-nested.
Data Type Casting
$payment.amount.(Type)
Cast the given data context into the desired data type before being used as an operand in the evaluation.
Note: If the conversion is invalid, then a warning message is being logged.
Supported data type conversions:
- .(String): cast a given reference to String.
- .(Number): cast a given reference to Number.
- .(Integer): cast a given reference to Integer.
- .(Float): cast a given reference to Float.
- .(Boolean): cast a given reference to Boolean.
Example
# Data context
context = {
"name": "peter",
"country": "canada",
"age": 21,
"options": [1, 2, 3],
"address": {
city: "Toronto",
country: "Canada",
},
"index": 2,
"segment": "city",
"shapeA": "box",
"shapeB": "circle",
"shapeType": "B",
}
# Evaluate an expression in the given data context
illogical.evaluate([">", "$age", 20], context)
# True
illogical.evaluate(["==", "$address.city", "Toronto"], context)
# True
# Accessing Array Element
illogical.evaluate(["==", "$options[1]", 2], context)
# True
# Accessing Array Element via Reference
illogical.evaluate(["==", "$options[{index}]", 3], context)
# True
# Nested Referencing
illogical.evaluate(["==", "$address.{segment}", "Toronto"], context)
# True
# Composite Reference Key
illogical.evaluate(["==", "$shape{shapeType}", "circle"], context)
# True
# Data Type Casting
illogical.evaluate(["==", "$age.(String)", "21"], context)
# True
Operand Types
The Comparison Expression expect operands to be one of the below:
Value
Simple value types: string, int, float, bool, None.
Example
val1 = 5
var2 = "cirle"
var3 = True
illogical.parse(["AND", ["==", val1, var2], ["==", var3, var3]])
Reference
The reference operand value is resolved from the Evaluation Data Context, where the the operands name is used as key in the context.
The reference operand must be prefixed with $
symbol, e.g.: $name
. This might be customized via Reference Predicate Parser Option.
Example
Expression | Data Context |
---|---|
["==", "$age", 21] |
{age: 21} |
["==", "circle", "$shape"] |
{shape: "circle"} |
["==", "$visible", True] |
{visible: True} |
Collection
The operand could be an array mixed from Value and Reference.
Example
Expression | Data Context |
---|---|
["IN", [1, 2], 1] |
{} |
["IN", "circle", ["$shapeA", "$shapeB"] |
{shapeA: "circle", shapeB: "box"} |
["IN", ["$number", 5], 5] |
{number: 3} |
Comparison Expressions
Equal
Expression format: ["==",
Left Operand, Right Operand]
.
Valid operand types: string, int, float, bool, None.
["==", 5, 5]
illogical.evaluate(["==", 5, 5], context)
# True
Not Equal
Expression format: ["!=",
Left Operand, Right Operand]
.
Valid operand types: string, int, float, bool, None.
["!=", "circle", "square"]
illogical.evaluate(["!=", "circle", "square"], context)
# True
Greater Than
Expression format: [">",
Left Operand, Right Operand]
.
Valid operand types: int, float.
[">", 10, 5]
illogical.evaluate([">", 10, 5], context)
# True
Greater Than or Equal
Expression format: [">=",
Left Operand, Right Operand]
.
Valid operand types: int, float.
[">=", 5, 5]
illogical.evaluate([">=", 5, 5], context)
# True
Less Than
Expression format: ["<",
Left Operand, Right Operand]
.
Valid operand types: int, float.
["<", 5, 10]
illogical.evaluate(["<", 5, 10], context)
# True
Less Than or Equal
Expression format: ["<=",
Left Operand, Right Operand]
.
Valid operand types: int, float.
["<=", 5, 5]
illogical.evaluate(["<=", 5, 5], context)
# True
In
Expression format: ["IN",
Left Operand, Right Operand]
.
Valid operand types: string, int, float, bool, None and list; set; tuple of (string, int, float, bool, None).
["IN", 5, [1, 2, 3, 4, 5]]
["IN", ["circle", "square", "triangle"], "square"]
illogical.evaluate(["IN", 5, [1, 2, 3, 4, 5]], context)
# True
illogical.evaluate(["IN", ["circle", "square", "triangle"], "square"], context)
# True
Not In
Expression format: ["NOT IN",
Left Operand, Right Operand]
.
Valid operand types: string, int, float, bool, None and list; set; tuple of (string, int, float, bool, None).
["IN", 10, [1, 2, 3, 4, 5]]
["IN", ["circle", "square", "triangle"], "oval"]
illogical.evaluate(["NOT IN", 10, [1, 2, 3, 4, 5]], context)
# True
illogical.evaluate(["NOT IN", ["circle", "square", "triangle"], "oval"], context)
# True
Prefix
Expression format: ["PREFIX",
Left Operand, Right Operand]
.
Valid operand types: string.
- Left operand is the PREFIX term.
- Right operand is the tested word.
["PREFIX", "hemi", "hemisphere"]
illogical.evaluate(["PREFIX", "hemi", "hemisphere"], context)
# True
illogical.evaluate(["PREFIX", "hemi", "sphere"], context)
# False
Suffix
Expression format: ["SUFFIX",
Left Operand, Right Operand]
.
Valid operand types: string.
- Left operand is the tested word.
- Right operand is the SUFFIX term.
["SUFFIX", "establishment", "ment"]
illogical.evaluate(["SUFFIX", "establishment", "ment"], context)
# True
illogical.evaluate(["SUFFIX", "establish", "ment"], context)
# False
Overlap
Expression format: ["OVERLAP",
Left Operand, Right Operand]
.
Valid operand types: list; set; tuple of (string, int, float, bool, None).
["OVERLAP", [1, 2], [1, 2, 3, 4, 5]]
["OVERLAP", ["circle", "square", "triangle"], ["square"]]
illogical.evaluate(["OVERLAP", [1, 2, 6], [1, 2, 3, 4, 5]], context)
# True
illogical.evaluate(["OVERLAP", ["circle", "square", "triangle"], ["square", "oval"]], context)
# True
None
Expression format: ["NONE",
Reference Operand]
.
["NONE", "$RefA"]
illogical.evaluate(["NONE", "RefA"], {})
# True
illogical.evaluate(["NONE", "RefA"], {"RefA": 10})
# False
Present
Evaluates as FALSE when the operand is UNDEFINED or NULL.
Expression format: ["PRESENT",
Reference Operand]
.
["PRESENT", "$RefA"]
illogical.evaluate(["PRESENT", "RefA"], {})
# False
illogical.evaluate(["PRESENT", "RefA"], {"RefA": 10})
# True
illogical.evaluate(["PRESENT", "RefA"], {"RefA": False})
# True
illogical.evaluate(["PRESENT", "RefA"], {"RefA": "val"})
# True
Logical Expressions
And
The logical AND operator returns the bool value TRUE if both operands are TRUE and returns FALSE otherwise.
Expression format: ["AND", Left Operand 1, Right Operand 2, ... , Right Operand N]
.
Valid operand types: Comparison Expression or Nested Logical Expression.
["AND", ["==", 5, 5], ["==", 10, 10]]
illogical.evaluate(["AND", ["==", 5, 5], ["==", 10, 10]], context)
# True
Or
The logical OR operator returns the bool value TRUE if either or both operands is TRUE and returns FALSE otherwise.
Expression format: ["OR", Left Operand 1, Right Operand 2, ... , Right Operand N]
.
Valid operand types: Comparison Expression or Nested Logical Expression.
["OR", ["==", 5, 5], ["==", 10, 5]]
illogical.evaluate(["OR", ["==", 5, 5], ["==", 10, 5]], context)
# True
Nor
The logical NOR operator returns the bool value TRUE if both operands are FALSE and returns FALSE otherwise.
Expression format: ["NOR", Left Operand 1, Right Operand 2, ... , Right Operand N]
Valid operand types: Comparison Expression or Nested Logical Expression.
["NOR", ["==", 5, 1], ["==", 10, 5]]
illogical.evaluate(["NOR", ["==", 5, 1], ["==", 10, 5]], context)
# True
Xor
The logical NOR operator returns the bool value TRUE if both operands are FALSE and returns FALSE otherwise.
Expression format: ["XOR", Left Operand 1, Right Operand 2, ... , Right Operand N]
Valid operand types: Comparison Expression or Nested Logical Expression.
["XOR", ["==", 5, 5], ["==", 10, 5]]
illogical.evaluate(["XOR", ["==", 5, 5], ["==", 10, 5]], context)
# True
["XOR", ["==", 5, 5], ["==", 10, 10]]
illogical.evaluate(["XOR", ["==", 5, 5], ["==", 10, 10]], context)
# False
Not
The logical NOT operator returns the bool value TRUE if the operand is FALSE, TRUE otherwise.
Expression format: ["NOT", Operand]
Valid operand types: Comparison Expression or Nested Logical Expression.
["NOT", ["==", 5, 5]]
illogical.evaluate(["NOT", ["==", 5, 5]], context)
# True
Engine Options
Reference Serialize Options
Usage
from illogical.illogical import Illogical
from illogical.parser.parse import Options
illogical = Illogical(Options(reference_from=reference_from, reference_to=reference_to))
From
A function used to determine if the operand is a reference type, otherwise evaluated as a static value.
Callable[[str], str]
Return value:
True
= reference typeFalse
= value type
Default reference predicate:
The
$
symbol at the begging of the operand is used to predicate the reference type., E.g.$State
,$Country
.
To
A function used to transform the operand into the reference annotation stripped form. I.e. remove any annotation used to detect the reference type. E.g. "$Reference" => "Reference".
Callable[[str], str]
Default reference transform: It removes the
$
symbol at the begging of the operand name.
Collection Serialize Options
Usage
from illogical.illogical import Illogical
from illogical.parser.parse import Options
escape_character = "\\"
illogical = Illogical(Options(escape_character=escape_character))
Escape Character
Charter used to escape fist value within a collection, if the value contains operator value.
Example
["==", 1, 1]
# interpreted as EQ expression["\==", 1, 1]
# interpreted as a collection
Default escape character:
\
Simplify Options
Options applied while an expression is being simplified.
Usage
from illogical.illogical import Illogical
from illogical.parser.parse import Options
ignored_paths = ["ignored"]
ignored_path_rx = [r"^prefix"]
illogical = Illogical(Options(ignored_paths=ignored_paths, ignored_path_rx=ignored_path_rx))
Ignored Paths
Reference paths which should be ignored while simplification is applied. Must be an exact match.
Ignored Paths RegEx
Reference paths which should be ignored while simplification is applied. Matching regular expression patterns.
Operator Mapping
Mapping of the operators. The key is unique operator key, and the value is the key used to represent the given operator in the raw expression.
Usage
from illogical.illogical import Illogical
from illogical.parser.parse import Options, DEFAULT_OPERATOR_MAPPING, EQ
operator_mapping = DEFAULT_OPERATOR_MAPPING.copy()
operator_mapping[EQ] = "IS"
illogical = Illogical(Options(operator_mapping=operator_mapping))
Default operator mapping:
DEFAULT_OPERATOR_MAPPING = {
# Logical
AND: "AND",
OR: "OR",
NOR: "NOR",
XOR: "XOR",
NOT: "NOT",
# Comparison
EQ: "==",
NE: "!=",
GT: ">",
GE: ">=",
LT: "<",
LE: "<=",
NONE: "NONE",
PRESENT: "PRESENT",
IN: "IN",
NIN: "NOT IN",
OVERLAP: "OVERLAP",
PREFIX: "PREFIX",
SUFFIX: "SUFFIX",
}
Contributing
See contributing.md.
License
Illogical is released under the MIT license. See license.md.
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