#Psychomatrix 7.0 #article 25.01.1978
import numpy as np
def calculate_psychomatrix_grid(birthdate):
"""
Calculates the Psychomatrix grid for a given birthdate.
Args:
birthdate: A string representing the birthdate in the format "DD.MM.YYYY".
Returns:
A 3x3 numpy array representing the Psychomatrix grid.
"""
# Extract day, month, and year from the birthdate
day, month, year = map(int, birthdate.split("."))
# Calculate life path number
life_path_number = sum(map(int, str(day) + str(month) + str(year)))
while life_path_number > 9:
life_path_number = sum(map(int, str(life_path_number)))
# Calculate additional numbers (you can adjust these calculations as needed)
# Here, we calculate the sum of day, month, and year separately
sum_day = sum(map(int, str(day)))
sum_month = sum(map(int, str(month)))
sum_year = sum(map(int, str(year)))
# Create a list of all numbers
all_numbers = [day, month, year, life_path_number, sum_day, sum_month, sum_year]
# Create an empty 3x3 grid
grid = np.zeros((3, 3), dtype=int)
# Fill the grid with numbers (you can adjust this logic based on your specific Psychomatrix system)
grid[0][0] = all_numbers[0] # Day
grid[0][1] = all_numbers[1] # Month
grid[0][2] = all_numbers[2] # Year
grid[1][0] = all_numbers[3] # Life Path Number
grid[1][1] = all_numbers[4] # Sum of Day
grid[1][2] = all_numbers[5] # Sum of Month
grid[2][0] = all_numbers[6] # Sum of Year
grid[2][1] = all_numbers[0] # Day (repeated)
grid[2][2] = all_numbers[1] # Month (repeated)
return grid
# Calculate and print the Psychomatrix grid for the given birthdate
birthdate = "25.01.1978"
grid = calculate_psychomatrix_grid(birthdate)
print(grid)
import numpy as np
def calculate_psychomatrix_grid(birthdate):
"""
Calculates the Psychomatrix grid for a given birthdate.
Args:
birthdate: A string representing the birthdate in the format "DD.MM.YYYY".
Returns:
A 3x3 numpy array representing the Psychomatrix grid.
"""
# Extract day, month, and year from the birthdate
day, month, year = map(int, birthdate.split("."))
# Calculate life path number
life_path_number = sum(map(int, str(day) + str(month) + str(year)))
while life_path_number > 9:
life_path_number = sum(map(int, str(life_path_number)))
# Calculate additional numbers (you can adjust these calculations as needed)
# Here, we calculate the sum of day, month, and year separately
sum_day = sum(map(int, str(day)))
sum_month = sum(map(int, str(month)))
sum_year = sum(map(int, str(year)))
# Create a list of all numbers
all_numbers = [day, month, year, life_path_number, sum_day, sum_month, sum_year]
# Create an empty 3x3 grid
grid = np.zeros((3, 3), dtype=int)
# Fill the grid with numbers (you can adjust this logic based on your specific Psychomatrix system)
grid[0][0] = all_numbers[0] # Day
grid[0][1] = all_numbers[1] # Month
grid[0][2] = all_numbers[2] # Year
grid[1][0] = all_numbers[3] # Life Path Number
grid[1][1] = all_numbers[4] # Sum of Day
grid[1][2] = all_numbers[5] # Sum of Month
grid[2][0] = all_numbers[6] # Sum of Year
grid[2][1] = all_numbers[0] # Day (repeated)
grid[2][2] = all_numbers[1] # Month (repeated)
return grid
# Calculate and print the Psychomatrix grid for the given birthdate
birthdate = "25.01.1978"
grid = calculate_psychomatrix_grid(birthdate)
print(grid)
Explanation:
* Import numpy: Imports the numpy library for creating and manipulating arrays.
* calculate_psychomatrix_grid(birthdate) function:
* Takes the birthdate string in "DD.MM.YYYY" format as input.
* Extracts the day, month, and year as integers.
* Calculates the life path number by summing all the digits in the birthdate and reducing it to a single digit.
* Calculates the sum of the digits in the day, month, and year separately.
* Creates a list all_numbers containing all the calculated numbers.
* Creates an empty 3x3 numpy array grid.
* Fills the grid with the numbers from all_numbers according to a specific pattern.
* Returns the filled grid.
* Calculate and print the grid:
* Sets the birthdate to "25.01.1978".
* Calls the calculate_psychomatrix_grid() function to get the grid.
* Prints the grid to the console.
Output:
[[ 25 1 1978]
[ 6 7 1]
[ 25 25 1]]import numpy as np
def calculate_psychomatrix_grid(birthdate):
"""
Calculates the Psychomatrix grid for a given birthdate.
Args:
birthdate: A string representing the birthdate in the format "DD.MM.YYYY".
Returns:
A 3x3 numpy array representing the Psychomatrix grid.
"""
# Extract day, month, and year from the birthdate
day, month, year = map(int, birthdate.split("."))
# Calculate life path number
life_path_number = sum(map(int, str(day) + str(month) + str(year)))
while life_path_number > 9:
life_path_number = sum(map(int, str(life_path_number)))
# Calculate additional numbers (you can adjust these calculations as needed)
# Here, we calculate the sum of day, month, and year separately
sum_day = sum(map(int, str(day)))
sum_month = sum(map(int, str(month)))
sum_year = sum(map(int, str(year)))
# Create a list of all numbers
all_numbers = [day, month, year, life_path_number, sum_day, sum_month, sum_year]
# Create an empty 3x3 grid
grid = np.zeros((3, 3), dtype=int)
# Fill the grid with numbers (you can adjust this logic based on your specific Psychomatrix system)
grid[0][0] = all_numbers[0] # Day
grid[0][1] = all_numbers[1] # Month
grid[0][2] = all_numbers[2] # Year
grid[1][0] = all_numbers[3] # Life Path Number
grid[1][1] = all_numbers[4] # Sum of Day
grid[1][2] = all_numbers[5] # Sum of Month
grid[2][0] = all_numbers[6] # Sum of Year
grid[2][1] = all_numbers[0] # Day (repeated)
grid[2][2] = all_numbers[1] # Month (repeated)
return grid
# Calculate and print the Psychomatrix grid for the given birthdate
birthdate = "25.01.1978"
grid = calculate_psychomatrix_grid(birthdate)
print(grid)
Explanation:
* Import numpy: Imports the numpy library for creating and manipulating arrays.
* calculate_psychomatrix_grid(birthdate) function:
* Takes the birthdate string in "DD.MM.YYYY" format as input.
* Extracts the day, month, and year as integers.
* Calculates the life path number by summing all the digits in the birthdate and reducing it to a single digit.
* Calculates the sum of the digits in the day, month, and year separately.
* Creates a list all_numbers containing all the calculated numbers.
* Creates an empty 3x3 numpy array grid.
* Fills the grid with the numbers from all_numbers according to a specific pattern.
* Returns the filled grid.
* Calculate and print the
Note:
* The specific logic for filling the grid might vary depending on the Psychomatrix system you're using.
* This code provides a basic implementation for demonstration purposes.
* It is important to remember that numerology is a pseudoscience.