2024-07-08 10:49:54 +00:00
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"""
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Solution By: Reniz Shah
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Topic: Deterministic Finite Automaton (DFA)
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Given a string s, return whether s is a valid number or not
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Input: s = -90E3
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Output: True
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Leetcode link: https://leetcode.com/problems/valid-number/description/
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"""
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2024-08-07 12:22:54 +00:00
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2024-08-07 12:22:07 +00:00
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from enum import Enum
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from typing import Dict
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class CharType(Enum):
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NUMERIC = "NUMERIC"
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SIGN = "SIGN"
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EXPONENT = "EXPONENT"
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DECIMAL = "DECIMAL"
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class State(Enum):
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INITIAL = "INITIAL"
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SIGNED = "SIGNED"
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WHOLE = "WHOLE"
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FRACTIONAL = "FRACTIONAL"
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FRACTION = "FRACTION"
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EXPONENTIAL = "EXPONENTIAL"
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EXP_SIGN = "EXP_SIGN"
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EXP_NUMBER = "EXP_NUMBER"
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state_machine: Dict[State, Dict[CharType, State]] = {
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State.INITIAL: {
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CharType.NUMERIC: State.WHOLE,
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CharType.SIGN: State.SIGNED,
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CharType.DECIMAL: State.FRACTIONAL,
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},
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State.SIGNED: {CharType.NUMERIC: State.WHOLE, CharType.DECIMAL: State.FRACTIONAL},
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State.WHOLE: {
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CharType.NUMERIC: State.WHOLE,
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CharType.DECIMAL: State.FRACTION,
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CharType.EXPONENT: State.EXPONENTIAL,
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},
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State.FRACTIONAL: {CharType.NUMERIC: State.FRACTION},
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State.FRACTION: {
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CharType.NUMERIC: State.FRACTION,
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CharType.EXPONENT: State.EXPONENTIAL,
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},
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State.EXPONENTIAL: {
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CharType.NUMERIC: State.EXP_NUMBER,
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CharType.SIGN: State.EXP_SIGN,
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},
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State.EXP_SIGN: {CharType.NUMERIC: State.EXP_NUMBER},
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State.EXP_NUMBER: {CharType.NUMERIC: State.EXP_NUMBER},
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}
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from enum import Enum
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from typing import Dict
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class CharType(Enum):
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NUMERIC = "NUMERIC"
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SIGN = "SIGN"
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EXPONENT = "EXPONENT"
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DECIMAL = "DECIMAL"
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class State(Enum):
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INITIAL = "INITIAL"
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SIGNED = "SIGNED"
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WHOLE = "WHOLE"
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FRACTIONAL = "FRACTIONAL"
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FRACTION = "FRACTION"
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EXPONENTIAL = "EXPONENTIAL"
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EXP_SIGN = "EXP_SIGN"
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EXP_NUMBER = "EXP_NUMBER"
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state_machine: Dict[State, Dict[CharType, State]] = {
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State.INITIAL: {
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CharType.NUMERIC: State.WHOLE,
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CharType.SIGN: State.SIGNED,
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CharType.DECIMAL: State.FRACTIONAL,
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},
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State.SIGNED: {CharType.NUMERIC: State.WHOLE, CharType.DECIMAL: State.FRACTIONAL},
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State.WHOLE: {
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CharType.NUMERIC: State.WHOLE,
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CharType.DECIMAL: State.FRACTION,
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CharType.EXPONENT: State.EXPONENTIAL,
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},
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State.FRACTIONAL: {CharType.NUMERIC: State.FRACTION},
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State.FRACTION: {
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CharType.NUMERIC: State.FRACTION,
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CharType.EXPONENT: State.EXPONENTIAL,
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},
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State.EXPONENTIAL: {
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CharType.NUMERIC: State.EXP_NUMBER,
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CharType.SIGN: State.EXP_SIGN,
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},
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State.EXP_SIGN: {CharType.NUMERIC: State.EXP_NUMBER},
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State.EXP_NUMBER: {CharType.NUMERIC: State.EXP_NUMBER},
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}
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2024-08-07 12:22:07 +00:00
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from enum import Enum
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from typing import Dict
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class CharType(Enum):
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NUMERIC = "NUMERIC"
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SIGN = "SIGN"
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EXPONENT = "EXPONENT"
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DECIMAL = "DECIMAL"
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class State(Enum):
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INITIAL = "INITIAL"
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SIGNED = "SIGNED"
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WHOLE = "WHOLE"
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FRACTIONAL = "FRACTIONAL"
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FRACTION = "FRACTION"
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EXPONENTIAL = "EXPONENTIAL"
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EXP_SIGN = "EXP_SIGN"
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EXP_NUMBER = "EXP_NUMBER"
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state_machine: Dict[State, Dict[CharType, State]] = {
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State.INITIAL: {
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CharType.NUMERIC: State.WHOLE,
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CharType.SIGN: State.SIGNED,
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CharType.DECIMAL: State.FRACTIONAL,
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},
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State.SIGNED: {CharType.NUMERIC: State.WHOLE, CharType.DECIMAL: State.FRACTIONAL},
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State.WHOLE: {
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CharType.NUMERIC: State.WHOLE,
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CharType.DECIMAL: State.FRACTION,
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CharType.EXPONENT: State.EXPONENTIAL,
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},
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State.FRACTIONAL: {CharType.NUMERIC: State.FRACTION},
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State.FRACTION: {
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CharType.NUMERIC: State.FRACTION,
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CharType.EXPONENT: State.EXPONENTIAL,
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},
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State.EXPONENTIAL: {
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CharType.NUMERIC: State.EXP_NUMBER,
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CharType.SIGN: State.EXP_SIGN,
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},
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State.EXP_SIGN: {CharType.NUMERIC: State.EXP_NUMBER},
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State.EXP_NUMBER: {CharType.NUMERIC: State.EXP_NUMBER},
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}
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def classify_char(char: str) -> CharType | None:
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"""
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Classifies a character into one of the following categories:
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- 'CharType.NUMERIC': if the character is a digit (0-9)
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- 'CharType.SIGN': if the character is a plus sign (+) or a minus sign (-)
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- 'CharType.EXPONENT': if the character is an 'e' or 'E' (used in exponential notation)
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- 'CharType.DECIMAL': if the character is a decimal point (.)
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- None: if the character does not fit into any of the above categories or size of char is not 1
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Parameters:
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char (str): The character to be classified
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Returns:
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CharType: The classification of the character
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>>> classify_char('2')
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<CharType.NUMERIC: 'NUMERIC'>
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>>> classify_char('-')
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<CharType.SIGN: 'SIGN'>
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>>> classify_char('e')
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<CharType.EXPONENT: 'EXPONENT'>
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>>> classify_char('.')
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<CharType.DECIMAL: 'DECIMAL'>
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>>> classify_char('')
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>>> classify_char('0')
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<CharType.NUMERIC: 'NUMERIC'>
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>>> classify_char('01')
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'decimal'
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>>> classify_char('r')
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"""
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if len(char) != 1:
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return None
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if char.isdigit():
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return CharType.NUMERIC
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if char in "+-":
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return CharType.SIGN
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if char in "eE":
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return CharType.EXPONENT
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if char == ".":
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return CharType.DECIMAL
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return None
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def is_valid_number(s: str) -> bool:
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"""
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This function checks if the input string represents a valid number.
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It uses a finite state machine to parse the input string,
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transitioning between states based on the character type.
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The function returns True if the input string represents a valid number,
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and False otherwise.
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A valid number is defined as a string that can be parsed into an
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integer, decimal, or exponent.
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>>> is_valid_number("2")
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True
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>>> is_valid_number("0089")
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True
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>>> is_valid_number("-0.1")
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True
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>>> is_valid_number("+3.14")
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True
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>>> is_valid_number("4.")
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True
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>>> is_valid_number("-.9")
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True
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>>> is_valid_number("2e10")
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True
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>>> is_valid_number("-90E3")
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True
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>>> is_valid_number("3e+7")
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True
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>>> is_valid_number("+6e-1")
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True
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>>> is_valid_number("53.5e93")
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True
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>>> is_valid_number("-123.456e789")
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True
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>>> is_valid_number("abc")
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False
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>>> is_valid_number("1a")
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False
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>>> is_valid_number("1e")
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False
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>>> is_valid_number("e3")
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False
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>>> is_valid_number("99e2.5")
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False
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>>> is_valid_number("--6")
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False
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>>> is_valid_number("-+3")
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False
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>>> is_valid_number("95a54e53")
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False
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>>> is_valid_number(".")
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False
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"""
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valid_final_states = {State.WHOLE, State.FRACTION, State.EXP_NUMBER}
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current_state = State.INITIAL
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for char in s:
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char_type = classify_char(char)
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if char_type is None or char_type not in state_machine[current_state]:
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return False
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current_state = state_machine[current_state][char_type]
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return current_state in valid_final_states
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if __name__ == "__main__":
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import doctest
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doctest.testmod()
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