Metadata-Version: 2.1
Name: Allinoneincluding
Version: 4.1.5
Summary: 多功能一体机（All-in-one）
Home-page: https://github.com/lichenyichay/All-in-one-Including/
Author: Chay
Author-email: chay <lichenyi_2020@qq.com>
Project-URL: Homepage, https://github.com/lichenyichay/All-in-one-Including/
Project-URL: Issues, https://github.com/lichenyichay/All-in-one-Including/issues
Classifier: Programming Language :: Python :: 3
Classifier: License :: OSI Approved :: MIT License
Classifier: Operating System :: OS Independent
Requires-Python: >=3.5
Description-Content-Type: text/markdown
License-File: LICENSE

# Allinone Including 双语版Readme

## Index/目录

Line 9 中文版README

Line 392 Readme in English

## 中文版Readme

### All-in-one Including

注：导入时请使用

```py
from Allinoneincluding import *
```

或

```py
import Allinoneincluding as aioi #你没有安装aioi时
```

且本项目与All-in-one-chay库功能相同，由于库文件配置问题，导致源库无法正常使用，请下载本库，谢谢！

多功能一体机库版本，现已更新至4.1.0版本
说明如下：

#### 模块说明

##### 目录

Line 56 Allinone.py 主文件

Line 86 shujuku.py 数据库文件

Line 110 xiaogongju.py 模块文件

Line 144 calculator.py 计算器模块

Line 221 numbertochinese.py 数字、中文互换模块

Line 253 lotterytickets.py 彩票一体机模块

Line 276 erfenchazhao_py.py 二分查找模块

Line 298 marh_cal.py math库计算器模块

Line 320 student_py.py 小学学生信息管理系统模块

Line 340 tuxing_cal.py 图形计算器模块

Line 364 inequalitychay.py 不等式计算模块

##### Allinone.py 主文件

```python

Help on module Allinone:

NAME
    Allinone

DESCRIPTION
    # -*- coding:UTF-8 -*-
    # @Author:Chay
    # @TIME:2024/07/23 17:00
    # @FILE:Allinone.py
    # @version:4.0.1
    # @Software:Visual Studio Code

FUNCTIONS
    allinone(fuwu, mode, *args)
        :param fuwu 需要服务的功能
        :param mode 部分功能需要的模式（详见Github中All-in-one2.4.0分支的Wiki页）
        :param *args 可变参数，表示需要传入的参数，建议用元组或列表类型，具体所需类型见README.MD
        :return: 0：正常，1：不正常，其他返回值表示功能的结果

        功能（按代码顺序排序，不分先后）：大小写互换、抽取随机数、求最小公倍数、求最大公倍数、图形计算器、小学学生信息管理系统、二分查找、求余、向下取整、向上取整、多个数求和、多个数求差、多个数求积、判断闰年、判断是否为质数、整数、小数计算（加减乘除）、分数计算（加减乘除）......（具体见Github All-in-one2.4.0分支Readme.md文件）

FILE
    d:\chay\project\all-in-one\src\all-in-one_chaylichenyi\allinone.py
```

##### shujuku.py 数据库文件

```python
Help on module shujuku:

NAME
    shujuku

DESCRIPTION
    # -*- coding:UTF-8 -*-
    # @Author:Chay
    # @TIME:2024/07/23 17:00
    # @FILE:Allinone.py
    # @version:4.0.1
    # @Software:Visual Studio Code

FUNCTIONS
    
    sjc(fuwu: str, mode: int, canshu: str)

FILE
    d:\chay\project\all-in-one-including(git)\all-in-one_chaylichenyi\module\shujuku.py
```

##### xiaogongju.py 模块文件

```python
Help on module xiaogongju:

NAME
    xiaogongju

DESCRIPTION
    # -*- coding:UTF-8 -*-
    # @Author:Chay
    # @TIME:2024/07/21 17:20
    # @FILE:xiaogongju.py
    # @Software:IDLE 3.9.6

FUNCTIONS
    chouqusuiji(num1: int, num2: int, mode: int, weishu: int) -> str

    daorxiao(args: str, mode: int) -> str

    f(a: float, n: int, m: int) -> int

    kaisamima(arg: str, mode: int, n: int) -> str

    quzheng(num: float, mode: int) -> int

    twonumbers_TheBiggestCommonfactor(num1: int, num2: int) -> int

    twonumbers_TheMinimumCommonmultiple(num1: int, num2: int) -> int

FILE
    d:\chay\project\all-in-one\src\all-in-one_chaylichenyi\module\xiaogongju.py
```

##### calculator.py 计算器模块

```python
Help on module calculator:

NAME
    calculator

DESCRIPTION
    # -*- coding:UTF-8 -*-
    # @Author:Chay
    # @TIME:2024/07/21 17:20
    # @FILE:calculator.py
    # @Software:Visual Studio Code

FUNCTIONS
    FtemporCtemp(mode: str, FtemporCtemp: float) -> float

    duihuan(mode: int, money: float) -> float

    fab(x: int) -> int

    factorization(num: int) -> list[int]

    fanzhuanzifuchuan(s: str) -> str

    fenjisuan(num1: str, num2: str, mode: str) -> float

    isfab(x: int) -> bool

    isfabhuiwenshu(x: int) -> bool

    isfabhuiwenzhishu(x: int) -> bool

    isfabparam(x: int) -> bool

    isfabwanquanpingfangshu(num: int) -> bool

    ishuiwenshu(d: int) -> bool

    ishuiwenzhishu(d: int) -> bool

    isleapyear(x) -> bool

    isparam(d: int) -> bool

    istribonacci(n: int) -> bool

    istribonaccihuiwenshu(n: int) -> bool

    istribonaccihuiwenshuparam(n: int) -> bool

    istribonacciparam(n: int) -> bool

    istribonacciwanquanpingfangshu(num: int) -> bool

    iswanquanpingfangshu(num: int) -> bool

    jinzhizhuanhuan(a: int, b: int, c: str) -> str

    mima(num: int, n: int) -> int

    tribonacci(n: int) -> int

    wanquanpingfangshu(num: int) -> int

    xiaoorfen(num: str, mode: int) -> str

    xiaoorzhengjisuan(num1: float, num2: float, mode: str) -> float

    yiyuannci(fangcheng: str, mode: int) -> tuple

FILE
    d:\chay\project\all-in-one\src\all-in-one_chaylichenyi\module\calculator.py

```

##### numbertochinese.py 数字、中文互换模块

```python
Help on module numbertochinese:

NAME
    numbertochinese

DESCRIPTION
    # -*- coding:UTF-8 -*-
    # @Author:Chay
    # @TIME:2024/07/21 18:00
    # @FILE:numbertochinese.py
    # @version:4.0.0
    # @Software:Visual Studio Code

FUNCTIONS
    No2Cn(number: int) -> str

    chinese2digits(uchars_chinese: str) -> int

    maxdigit(number: int, count: int) -> tuple

DATA
    common_used_numerals = {'零': 0, '一': 1, '二': 2, '三': 3, '四': 4, '五': 5, '六': 6, '日': 7, '八': 8, '九': 9, '十': 10, '百': 100, '千': 1000, '万': 10000, '亿': 100000000}
    digitdict = {1: '十', 2: '百', 3: '千', 4: '万'}
    numdict = {1:"一",2:"二",3:"三",4:"四",5:"五",6:"六",7:"七",8:"八",9:"九",0:"零"}

FILE
    d:\chay\project\all-in-one\src\all-in-one_chaylichenyi\module\numbertochinese.py
```

##### lotterytickets.py 彩票一体机模块

```python
Help on module lotterytickets:

NAME
    lotterytickets

DESCRIPTION
    # -*- coding:UTF-8 -*-
    # @Author:Chay
    # @TIME:2024/5/3 23:25
    # @FILE:lotterytickets.py
    # @version:4.0.0
    # @Software:Visual Studio Code

FUNCTIONS
    lotterytickets(user: str, mubiao: str, mode: int) -> str

FILE
    d:\chay\project\all-in-one\src\all-in-one_chaylichenyi\module\lotterytickets.py
```

##### erfenchazhao_py.py 二分查找模块

```python
Help on module erfenchazhao_py:

NAME
    erfenchazhao_py

DESCRIPTION
    # -*- coding:UTF-8 -*-
    # @Author:Chay
    # @TIME:2022/12/25 9:03
    # @FILE:erfenchazhao_py.py
    # @Software:IDLE 3.9.6

FUNCTIONS
    erfenchazhao(yuanlst, shengxulst, target)

FILE
    d:\chay\project\all-in-one\src\all-in-one_chaylichenyi\module\erfenchazhao_py.py
```

##### math_cal.py math库计算器模块

```python
Help on module math_cal_py:

NAME
    math_cal_py

DESCRIPTION
    # -*- coding:UTF-8 -*-
    # @Author:Chay
    # @TIME:2022/12/24 15:38
    # @FILE:math_cal_py.py
    # @Software:IDLE 3.9.6

FUNCTIONS
    math_cal(mode, float1, float2)

FILE
    d:\chay\project\all-in-one\src\all-in-one_chaylichenyi\module\math_cal_py.py
```

##### student_py.py 小学学生信息管理系统模块

```python
Help on module student_py:

NAME
    student_py

DESCRIPTION
    函数名：student
    调用形式：student()
    作用：小学学生信息管理系统

FUNCTIONS
    student()

FILE
    d:\chay\project\all-in-one\src\all-in-one_chaylichenyi\module\student_py.py
```

##### tuxing_cal.py 图形计算器模块

```python
Help on module tuxing_cal:

NAME
    tuxing_cal

DESCRIPTION
    函数名：tuxing
    调用形式：tuxing(huida)
    :param huida 图形
    :return 0
    作用：进行图形计算

FUNCTIONS
    tuxing(huida, mode, *args2)

FILE
    d:\chay\project\all-in-one\src\all-in-one_chaylichenyi\module\tuxing_cal.py
```

##### inequalitychay.py 不等式计算模块

###### 功能概述

本代码提供了两个主要功能：suijiine 用于生成指定难度级别（即操作数数量）的随机不等式表达式，solveine 用于解线性不等式表达式并返回解集。

##### 函数 suijiine(dif: int) -> str

功能：根据给定的难度级别（dif），生成一个随机的不等式表达式。
参数：
dif (int): 不等式表达式的难度级别，决定了操作数的数量。
返回值：
str: 随机生成的不等式表达式字符串。

##### 函数 solveine(s: str) -> str

功能：解给定的线性不等式表达式，并返回解集。
参数：
s (str): 作为字符串的线性不等式表达式。
返回值：
str: 不等式的解集。

##### 注意事项

在解不等式时，假设输入的不等式是线性且只有一个未知数 x。
如果 a（不等式左侧 x 的系数）为0，则根据 b 的值返回“所有实数”或“无解”。
使用 fractions.Fraction 来处理分数，确保解集以分数的形式返回，如果可能的话。

详见<https://github.com/lichenyichay/All-in-one> 和 <https://github.com/lichenyichay/All-in-one-Including/wiki>

## Readme in English

### Allinone Readme in English/英文版Allinone使用说明

Using the Allinoneincluding library, you can use

```py
from Allinoneincluding import *
```

or

```py
import Allinoneincluding as aioi #When you didn't install aioi library
```

codes.

This project has the same functionality as the All-in-one-chay library. However,due to configuration issues with the library files, the original library cannot be used normally. Please download the Allinoneincluding library. Thank you!

#### Module Index

Line 426 Allinone Main Module Documentation

Line 432 Calculator Module Documentation

Line 735 Xiaogongju Module Documentation

Line 822 Math_calculator Module Documentation

Line 882 Tuxing_calculator Module Documentation

Line 970 Inequalitychay Moudle Documentation

#### Allinone Main Module Documentation

Allinone.py
Main module for the Allinone Function.
mode:depending on your choice, you can choose the function you want to use.(such as you choose Ftemp or Ctemp you should incoming mode param in "℃to℉" or "℉to℃")

#### Calculator Module Documentation

FtemporCtemp
Converts temperature between Fahrenheit and Celsius.

```python
def FtemporCtemp(mode: str, FtemporCtemp: float) -> float
```

mode: "℃to℉" (Celsius to Fahrenheit) or "℉to℃" (Fahrenheit to Celsius)
FtemporCtemp: Temperature to convert
Returns: Converted temperature (without unit)

duihuan
Performs currency exchange.

```python
def duihuan(mode: int, money: float) -> float
```

mode: 1-16, corresponding to different currency conversions
money: Amount to exchange (in the currency unit before the arrow in the mode)
Returns: Converted currency amount

yiyuannci
Solves linear, quadratic, and cubic equations.

```python
def yiyuannci(fangcheng: str, mode: int) -> tuple
```

fangcheng: Equation in the form ax+b=0, ax^2+bx+c=0, or ax^3+bx^2+cx+d=0
mode: Highest degree of the equation (1, 2, or 3)
Returns: Tuple containing the solution(s) of the equation

fanzhuanzifuchuan
Reverses a string.

```python
def fanzhuanzifuchuan(s: str) -> str
```

s: String to reverse
Returns: Reversed string
isparam
Checks if a number is prime.

```python
def isparam(d: int) -> bool
```

d: Number to check
Returns: True if prime, False otherwise

ishuiwenshu
Checks if a number is a palindrome.

```python
def ishuiwenshu(d: int) -> bool
```

d: Number to check
Returns: True if palindrome, False otherwise

ishuiwenzhishu
Checks if a number is a palindromic prime.

```python
def ishuiwenzhishu(d: int) -> bool
```

d: Number to check
Returns: True if palindromic prime, False otherwise

fab
Calculates the xth number in the Fibonacci sequence.

```python
def fab(x: int) -> int
```

x: Position in the Fibonacci sequence
Returns: The xth Fibonacci number

isfab
Checks if a number is in the Fibonacci sequence.

```python
def isfab(x: int) -> bool
```

x: Number to check (0 < x <= 12586269025)
Returns: True if in Fibonacci sequence, False otherwise

isfabparam
Checks if a number is both in the Fibonacci sequence and prime.

```python
def isfabparam(x: int) -> bool
```

x: Number to check (0 < x <= 12586269025)
Returns: True if Fibonacci prime, False otherwise

isfabhuiwenshu
Checks if a number is both in the Fibonacci sequence and a palindrome.

```python
def isfabhuiwenshu(x: int) -> bool
```

x: Number to check (0 < x <= 12586269025)
Returns: True if Fibonacci palindrome, False otherwise

isfabhuiwenzhishu
Checks if a number is in the Fibonacci sequence, a palindrome, and prime.

```python
def isfabhuiwenzhishu(x: int) -> bool
```

x: Number to check (0 < x <= 12586269025)
Returns: True if Fibonacci palindromic prime, False otherwise

isleapyear
Checks if a year is a leap year.

```python
def isleapyear(x) -> bool
```

x: Year to check
Returns: True if leap year, False otherwise

tribonacci
Calculates the xth number in the Tribonacci sequence.

```python
def tribonacci(n: int) -> int
```

n: Position in the Tribonacci sequence
Returns: The nth Tribonacci number

istribonacci
Checks if a number is in the Tribonacci sequence.

```python
def istribonacci(n: int) -> bool
```

n: Number to check
Returns: True if in Tribonacci sequence, False otherwise

istribonaccihuiwenshu
Checks if a number is both in the Tribonacci sequence and a palindrome.

```python
def istribonaccihuiwenshu(n: int) -> bool
```

n: Number to check
Returns: True if Tribonacci palindrome, False otherwise

istribonaccihuiwenshuparam
Checks if a number is in the Tribonacci sequence, a palindrome, and prime.

```python
def istribonaccihuiwenshuparam(n: int) -> bool
```

n: Number to check
Returns: True if Tribonacci palindromic prime, False otherwise

istribonacciparam
Checks if a number is both in the Tribonacci sequence and prime.

```python
def istribonacciparam(n: int) -> bool
```

n: Number to check
Returns: True if Tribonacci prime, False otherwise

iswanquanpingfangshu
Checks if a number is a perfect square.

```python
def iswanquanpingfangshu(num: int) -> bool
```

num: Number to check
Returns: True if perfect square, False otherwise

wanquanpingfangshu
Calculates the dth perfect square.

```python
def wanquanpingfangshu(num: int) -> int
```

num: Position of the perfect square
Returns: The dth perfect square

isfabwanquanpingfangshu
Checks if a number is both in the Fibonacci sequence and a perfect square.

```python
def isfabwanquanpingfangshu(num: int) -> bool
```

num: Number to check
Returns: True if Fibonacci perfect square, False otherwise

istribonacciwanquanpingfangshu
Checks if a number is both in the Tribonacci sequence and a perfect square.

```python
def istribonacciwanquanpingfangshu(num: int) -> bool
```

num: Number to check
Returns: True if Tribonacci perfect square, False otherwise

jinzhizhuanhuan
Converts numbers between different bases.

```python
def jinzhizhuanhuan(a: int, b: int, c: str) -> str
```

a: Base of input number (2 <= a <= 36)
b: Base of output number (2 <= b <= 36)
c: Number to convert (without prefix, must follow rules of base a)
Returns: Converted number as a string

factorization
Performs prime factorization of a number.

```python
def factorization(num: int) -> list[int]
```

num: Number to factorize
Returns: List of prime factors

mima
Extracts a password from a number.

```python
def mima(num: int, n: int) -> int
```

num: Number to extract password from
n: Number of digits in the password
Returns: Extracted password

xiaoorfen
Converts between decimal and fraction representations.

```python
def xiaoorfen(num: str, mode: int) -> str
```

num: Number to convert
mode: 1 (decimal to fraction) or 2 (fraction to decimal)
Returns: Converted number as a string

xiaoorzhengjisuan
Performs arithmetic operations on decimals or integers.

```python
def xiaoorzhengjisuan(num1: float, num2: float, mode: str) -> float
```

num1: First operand
num2: Second operand
mode: Operation (+, -, *, or ** for exponentiation)
Returns: Result of the operation

fenjisuan
Performs arithmetic operations on fractions.

```python
def fenjisuan(num1: str, num2: str, mode: str) -> float
```

num1: First fraction
num2: Second fraction
mode: Operation (+, -, *, or ** for exponentiation)
Returns: Result of the operation as a fraction

bmi
Calculates BMI (Body Mass Index).

```python
def bmi(weight: int, height: int) -> float
```

weight: Weight in kg
height: Height in meters
Returns: BMI inde

#### Xiaogongju Module Documentation

##### quzheng

def quzheng(num: float, mode: int) -> int:

Function to round numbers.

Parameters:
num: The number to be rounded (float)
mode: Rounding mode (1 for floor, 2 for ceiling)
Returns: The rounded number
Raises: ValueError if mode is not 1 or 2

##### daorxiao

def daorxiao(args: str, mode: int) -> str:

Function to convert case of characters.

Parameters:
args: The string to be converted
mode: Conversion mode (1 for uppercase to lowercase, 2 for lowercase to uppercase)
Returns: The converted string
Raises: TypeError if mode is invalid

##### twonumbers_TheBiggestCommonfactor

def twonumbers_TheBiggestCommonfactor(num1: int, num2: int) -> int:

Function to find the greatest common factor of two numbers.

Parameters:
num1: The first number
num2: The second number
Returns: The greatest common factor of num1 and num2

##### twonumbers_TheMinimumCommonmultiple

def twonumbers_TheMinimumCommonmultiple(num1: int, num2: int) -> int:

Function to find the least common multiple of two numbers.

Parameters:
num1: The first number
num2: The second number
Returns: The least common multiple of num1 and num2

##### chouqusuiji

def chouqusuiji(num1: int, num2: int, mode: int, weishu: int) -> str:

Function to generate random values.

Parameters:
num1: The minimum value in the random number range
num2: The maximum value in the random number range
mode: 1 for random number, 2 for random string, 3 for random color code (#......)
weishu: The number of characters in the random string
Returns: The generated random value as a string

##### kaisamima

def kaisamima(arg: str, mode: int, n: int) -> str:

Function to encrypt or decrypt using Caesar cipher.

Parameters:
arg: The string to be encrypted or decrypted
mode: 1 for encryption, 2 for decryption
n: The shift value
Returns: The encrypted or decrypted string
Raises: ValueError if arg contains non-alphabetic characters, TypeError if mode is invalid

##### f

def f(a: float, n: int, m: int) -> int:

Function to round numbers based on specific rules.

Parameters:
a: The float number to be rounded
n: Lower bound for rounding
m: Upper bound for rounding
Returns: The rounded integer
Raises: ValueError if the input doesn't meet the specified rules

#### Math_cal Module Documentation

##### Description

This function performs various mathematical calculations based on the specified mode.

##### Definition

```python
def math_cal(mode:int,float1:float,float2:float)
```

##### Using the function

```python
s = math_cal(mode,float1,float2)
```

##### Parameters

mode (int): The calculation mode, ranging from 1 to 19. If the mode is outside this range, an exception will be raised.
float1 (float): First float parameter.
float2 (float): Second float parameter.

##### Usage Notes

The parameters float1 and float2 are used based on the selected mode.
If a parameter is not needed for a particular mode, use 0 as a placeholder.

##### Examples

Mode 3: math_cal(3, 5.2, 0)
Mode 4: math_cal(4, 0, 0)
Mode 1: math_cal(1, 5.92, -8)
Return Value
Returns the result of the calculation based on the selected mode.

##### Modes and Operations

Copysign
Cosine
Degrees
e (Euler's number)
π (Pi)
Tangent
Square root
Sine
Radians
Power
Modf
Logarithm
Ldexp
Not isnan
Not isinf
Factorial
Absolute value
Exp
Exceptions
Raises a TypeError if the mode is not within the valid range (1-19).

#### Tuxing_calculator Module Documentation

Function: tuxing

##### Description of the Function

Performs geometric calculations for various shapes.

##### Usage

This function performs various geometric calculations based on the specified shape and mode.

```python
tuxing(huida, mode, *args2)
```

###### Parameters input

huida: The shape to calculate (e.g., "长方体", "正方体", "正方形", etc.)
mode: The calculation mode (e.g., "体积", "面积", "表面积", etc.)
*args2: Additional arguments required for the calculation

###### Return Value

The result of the calculation, or:

0: Successful calculation
1: Invalid calculation mode
2: Invalid shape

###### Supported Shapes and Calculations

###### 长方体 (Cuboid)

体积 (Volume)
表面积 (Surface Area)
染色问题 (Coloring Problem)
棱长总和 (Sum of Edge Lengths)
容积 (Capacity)

###### 正方体 (Cube)

体积 (Volume)
表面积 (Surface Area)
染色问题 (Coloring Problem)
棱长总和 (Sum of Edge Lengths)
容积 (Capacity)

###### 正方形 (Square)

面积 (Area)
边长之和 (Sum of Side Lengths)
折纸盒问题 (Paper Box Folding Problem)

###### 长方形 (Rectangle)

面积 (Area)
周长 (Perimeter)
折纸盒问题 (Paper Box Folding Problem)

###### 平行四边形 (Parallelogram)

面积 (Area)
周长 (Perimeter)
折纸盒问题 (Paper Box Folding Problem)

###### 菱形 (Rhombus)

面积 (Area)
周长 (Perimeter)

###### 三角形 (Triangle)

面积 (Area)
周长 (Perimeter)

###### 梯形 (Trapezoid)

面积 (Area)
周长 (Perimeter)

###### 圆形 (Circle)

面积 (Area)
周长 (Perimeter)
方中圆 (Circle in Square)
圆中方 (Square in Circle)

#### inequality Module Documentation

##### Function Overview

This code provides two main functionalities: suijiine for generating random inequality expressions based on a specified level of difficulty (i.e., the number of operations), and solveine for solving linear inequality expressions and returning the solution set.

##### Function suijiine(dif: int) -> str

Functionality: Generates a random inequality expression based on the given difficulty level (dif).
Parameters:
dif (int): The difficulty level of the inequality expression, which determines the number of operations.
Returns:
str: A randomly generated inequality expression string.

##### Function solveine(s: str) -> str

Functionality: Solves a given linear inequality expression and returns the solution set.
Parameters:
s (str): The linear inequality expression as a string.
Returns:
str: The solution set of the inequality expression.

##### Notes

It assumes the input inequality is linear and has only one unknown x.
If a (the coefficient of x on the left side of the inequality) is 0, it returns "All real numbers" or "No solution" depending on the value of b.
Uses fractions.Fraction to handle fractions, ensuring that the solution set is returned in fractional form if possible.
