great update # aber komme mit wuffels parrable funktion nicht klar
This commit is contained in:
parent
e49d31babc
commit
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16 changed files with 542 additions and 74 deletions
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__pycache__/tengine.cpython-311.pyc
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__pycache__/tengine.cpython-311.pyc
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physics/__pycache__/parabelfunc.cpython-311.pyc
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physics/__pycache__/parabelfunc.cpython-311.pyc
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physics/kreis.py
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physics/kreis.py
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#!/usr/bin/python3
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# -*- coding: utf-8 -*-
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import os, sys, termios, tty, time, random
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from math import sin, cos, sqrt
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from time import sleep
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# Randomly choose a cow
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cows = "🐵🐒🦍🦧🐕🐯🦝🐩🐅🐴🐎🦄🦌🐗🐂🐃🐄🐪🐫🦙🦒🐹🦘🦡🐧🕊️🦅🦆🦉🐍🦎🐊🦜🦚🦩🐲🐉🦕"
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cowslength = len(cows)
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cow = cows[random.randint(0, cowslength - 1)]
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# cow = "🐄"
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# cow = "*"
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if cow.isascii():
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charlength = 1
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else:
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charlength = 2
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# Needed: find our screensize
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termsize_xy = os.get_terminal_size()
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# maximum and medium of points in a row
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xmax = termsize_xy[0] - 1
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xmitte = xmax / 2
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# maximum and medium of points in a column
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ymax = termsize_xy[1]
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ymitte = ymax / 2
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# CTRL and ESC-codes for the used outputdevice. Probably a terminal.
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clear, home, curoff, curon = "'\x1b[2J\x1b[H", "\x1b[H", "\x1b[?25l", "\x1b[?25h"
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# pi is not defined by default. Noone has a display with 31416 Pixels in a row. U know better? Enhance it.
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pi = 3.1416
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# This is for convenience, if you are thinking in degrees. It must not be recalculated every loop.
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deg2rad = pi / 180
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# position cursor at x,y - where x=0 y=0 is the left lower corner like in mathematical diagrams
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# some scales, we need. Those UTF8Cows are 2 chars wide and need more space. So we have to scale one Axis
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radius = ymitte - 2
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xradius = ymitte * charlength - 1
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# Position the curser at x,y. Yes, we start with x, print does not, you are looking right. Leave it this way!
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def curpos(x, y):
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print("\033[%d;%dH" % (ymax - y, x), end="", flush=True)
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print(clear, curoff)
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# Draw a circle in maximum 360 Steps, one for for every degree
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for winkel in range(0, 359):
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x = sin(winkel * deg2rad) * xradius + xmitte
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y = cos(winkel * deg2rad) * radius + ymitte
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curpos(x, y)
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print(cow, end="")
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time.sleep(0.01)
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curpos(1, 1)
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sys.exit(curon + "Schulz nun.")
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physics/parabelfunc.py
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physics/parabelfunc.py
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#!/usr/bin/python3
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# -*- coding: utf-8 -*-
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import os, sys, random #,termios, tty, time,
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from math import sin, cos, tan, sqrt
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from time import sleep
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# pi is not defined by default
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pi = 3.1416
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deg2rad = pi / 180
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########################################################################################
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def berechneflugbahn(xmax, ymax, steps, startwinkel, startgeschwindigkeit, xmin=0, ymin=0, starthoehe=0, gravitation=9.81, xstep=1):
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x = 0
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y = x**2
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# in scala the resulting coordinates will be returned
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scala = []
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startwinkel = startwinkel * deg2rad
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# Calculate time of flight, actually not used
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flugdauer = startgeschwindigkeit * sin(startwinkel) / gravitation
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# Calculate maximum height
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hoehe = 0.5 * gravitation * flugdauer**2 + starthoehe
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# calculate length of flight, actually not used
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wurfweite = (
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startgeschwindigkeit
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* cos(startwinkel)
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* (startgeschwindigkeit * sin(startwinkel) + sqrt(startgeschwindigkeit**2 * sin(startwinkel) ** 2 + 2 * gravitation * starthoehe))
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) / gravitation
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first_run = True
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# cowlength is 2, if cow is an UTF8-Icon, otherwise 1
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for x in range(xmin, steps - 1, xstep):
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# the formula, which generates the y position for the corresponding x, shamelessly ripped from some schoolbook and modified.
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y = (-(gravitation / (2 * startgeschwindigkeit**2 * cos(startwinkel) ** 2)) * x**2) + (tan(startwinkel) * x + starthoehe)
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# Ensure, that nothing has to be drawn outside the viewport
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if x >= xmax:
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x = xmax
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if y >= ymax:
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y = ymax
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elif y <= ymin:
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y = ymin
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# Stash away the coordinates into scala, which will be returned
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scala += [x, int((y * 100 + 50) / 100)]
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if y == ymin and not first_run:
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break
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first_run = False
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return scala
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#############################################################################################
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# berechneflugbahn(cow, xmin, xmax, ymin, ymax, startwinkel, startgeschwindigkeit, starthoehe):
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# some useful control
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clear, home, curoff, curon = "'\x1b[2J\x1b[H", "\x1b[H", "\x1b[?25l", "\x1b[?25h"
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g_erde = 9.81 # gravitation examples
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mond = 1.6
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jupiter = 24
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# set position of cursor
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def curpos(x, y):
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print("\033[%d;%dH" % (ymax - y, x), end="", flush=True)
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if __name__ == "__main__":
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# Randomly choose a cow
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cows = "🐵🐒🦍🦧🐕🐯🦝🐩🐅🐴🐎🦄🦌🐗🐂🐃🐄🐪🐫🦙🦒🐹🦘🦡🐧🕊️ 🦅🦆🦉🐍🦎🐊🦜🦚🦩🐲🐉🦕"
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cowlistlength = len(cows)
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cow = cows[random.randint(0, cowlistlength - 1)]
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# Needed: find our screensize. We are in textmode here
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termsize_xy = os.get_terminal_size()
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### I m p o r t a n t p a r a m e t e r s ###
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# X-Resolution of the display
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xmax = termsize_xy[0] - 1
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xsteps = xmax * 2
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ymax = termsize_xy[1]
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ymin = 0
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xmin = 0
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startwinkel = 34
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startgeschwindigkeit = 60
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starthoehe = 0
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schlafzeit = 0.05
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###
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# needed for erasing old position
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xold = xmin
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yold = ymin
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x = xmin
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y = xmin
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# Call the function, which calculates the coordinates)
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ergebnis = berechneflugbahn(xmax, ymax, xsteps, startwinkel, startgeschwindigkeit, starthoehe, gravitation=g_erde, xstep=2)
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print(curoff)
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# here we draw the cow
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for count in range(xmin, len(ergebnis), 2):
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xold, yold = x, y
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x, y = ergebnis[count], ergebnis[count + 1]
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curpos(x, y)
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print(cow, end="")
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sleep(schlafzeit)
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curpos(xold, yold)
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print("☁️ ", end="")
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sleep(2)
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sys.exit(home + curon)
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physics/parabeltest.py
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physics/parabeltest.py
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#!/usr/bin/python3
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# -*- coding: utf-8 -*-
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import os, sys, termios, tty, time, random
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from math import sin, cos, tan, sqrt
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from time import sleep
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# Randomly choose a cow
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cows = "🐵🐒🦍🦧🐕🐯🦝🐩🐅🐴🐎🦄🦌🐗🐂🐃🐄🐪🐫🦙🦒🐹🦘🦡🐧🕊️🦅🦆🦉🐍🦎🐊🦜🦚🦩🐲🐉🦕"
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cowlistlength = len(cows)
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cow = cows[random.randint(0, cowlistlength - 1)]
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cowlength = len(cow)
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# Needed: find our screensize
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termsize_xy = os.get_terminal_size()
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xmax = termsize_xy[0] - 1
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ymax = termsize_xy[1]
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ymin = 0
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xmin = 0
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xold = xmin
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# pi is not defined by default
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pi = 3.1416
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deg2rad = pi / 180
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# position cursor at x,y - where x=0 y=0 is the left lower corner like in mathematical diagrams
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def curpos(x, y):
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print("\033[%d;%dH" % (ymax - y, x), end="", flush=True)
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outputfile = open("cowyeetflugbahn.txt", "w")
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# CTRL and ESC-codes for the used outputdevice. Probably a terminal.
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clear, home, curoff, curon = "'\x1b[2J\x1b[H", "\x1b[H", "\x1b[?25l", "\x1b[?25h"
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# some scales, we need
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# not everything has to be recomputed in loops.
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xsteps = xmax
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x = 0
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y = x**2
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erde = 9.81
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mond = 1.6
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jupiter = 24
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gravitation = erde
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# in scala the resulting coordinates will be returned
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scala = []
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# used, if input is disabled
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starthoehe = 0
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startwinkel = 26 * deg2rad
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startgeschwindigkeit = 36
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loeschen = "y"
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bla = input("Parameter editieren (y) oder Vorgabe nutzen?")
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if bla == "y":
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# Be a friendly host, lets have a talk.
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# comment out to speed up testing
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starthoehe = float(input("Starthöhe in Metern, empf: 0-20: "))
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startwinkel = float(input("Startwinkel 0° - 90°: ")) * deg2rad
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startgeschwindigkeit = float(input("Startgeschwindigkeit Meter (zb 20) pro Sekunde: "))
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loeschen = input("Kuh löschen? (y/n)")
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####
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# Calculate time of flight
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flugdauer = startgeschwindigkeit * sin(startwinkel) / gravitation
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schlafdauer = flugdauer / xmax
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# Calculate maximum height
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hoehe = 0.5 * gravitation * flugdauer**2 + starthoehe
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# calculate length of flight
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wurfweite = (
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startgeschwindigkeit
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* cos(startwinkel)
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* (startgeschwindigkeit * sin(startwinkel) + sqrt(startgeschwindigkeit**2 * sin(startwinkel) ** 2 + 2 * gravitation * starthoehe))
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) / gravitation
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# init screen and wait for userinput
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print(clear, curoff)
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print(
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"xteps: ",
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xsteps,
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"\nwurfweite: ",
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wurfweite,
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"\nstartwinkel: ",
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startwinkel / deg2rad,
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"\nstartgeschwindigkeit: ",
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startgeschwindigkeit,
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"\nstarthoehe: ",
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starthoehe,
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"\nhoehe: ",
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hoehe,
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"\nschlafdauer: ",
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schlafdauer,
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)
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bla = input("CR please:")
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# position cursor down left corner
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curpos(1, ymax)
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# cowlength is 2, if cow is an UTF8-Icon, otherwise 1
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for x in range(xmin, xsteps - 1, cowlength):
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# the formula, which generates the y position for the corresponding x, shamelessly ripped from some schoolbook and modified.
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yold = y
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y = (-(gravitation / (2 * startgeschwindigkeit**2 * cos(startwinkel) ** 2)) * x**2) + (tan(startwinkel) * x + starthoehe)
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time.sleep(schlafdauer)
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# Ensure, that nothing has to be drawn outside the viewport
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if y < ymax and y > ymin:
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curpos(x, y)
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print(cow, end="")
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# Stash awa the coordinates into scala, which will be returned
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scala += [x, int(y * 10 + 5) / 10]
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if loeschen == "y":
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curpos(xold, yold)
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print(" ", end="")
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else:
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scala += [x, 0]
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xold = x
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curpos(0, 0)
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outputfile.write(str(scala))
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sys.exit(curon + "Moooooooooooo.")
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tengine/README.md
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tengine/README.md
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# A little Text Engine for Cowyeet
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tengine/__pycache__/main.cpython-311.pyc
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tengine/__pycache__/main.cpython-311.pyc
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tengine/__pycache__/tengine.cpython-311.pyc
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tengine/__pycache__/tengine.cpython-311.pyc
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tengine/main.py
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tengine/main.py
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#!/bin/python3
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from os import get_terminal_size
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tx,ty = get_terminal_size().columns ,get_terminal_size().lines
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def genfeld():
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return [[' ' for _ in range(tx)] for _ in range(ty)]
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def bg_char(feld, char=' '):
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for a in range(len(feld)):
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for b in range(len(feld[0])):
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feld[a][b] = char
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return feld
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def strfeld(feld):
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return '\n'.join([''.join(row) for row in feld])
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def change_char(feld, character, position):
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feld[position[0]][position[1]] = character
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def change_block(feld, block, position):
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position = [position[0]+1,position[1]]
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pposition = position
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for zeichen in block:
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if zeichen == '\n':
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pposition = [pposition[0] + 1, position[1]]
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else:
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pposition = [pposition[0], pposition[1] + 1]
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feld[pposition[0]][pposition[1]] = zeichen
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return feld
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def clear():
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print('\033c', end='')
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def draw_border(feld, border_char='+'):
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for i in range(len(feld)):
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feld[i][0] = feld[i][-1] = border_char
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for j in range(len(feld[0])):
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feld[0][j] = feld[-1][j] = border_char
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global tx,ty
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tx -= 2;ty -= 2
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return feld
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#def move_cursor(x, y):
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# print(f'\033[{y};{x}H', end='')
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def viereck(feld, start_pos, width, height, fill_char='#'):
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for i in range(height):
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for j in range(width):
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feld[start_pos[0] + i][start_pos[1] + j] = fill_char
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return feld
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tengine/test.py
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tengine/test.py
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import forgejo.cowyeet_terminal.tengine.main as main
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feld = main.genfeld()
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block = "halli\nhallo\nfurz"
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block2 = """halli
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hallouuuuuuuuuuuuu
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furz"""
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feld = main.bg_char(feld,"#")
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#feld = tengine.draw_border(feld)
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feld = main.change_block(feld,block2,[2,2])
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#feld = tengine.viereck(feld,[1,1],4,4,"-")
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print(main.strfeld(feld))
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#tengine.clear_screen()
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from os import get_terminal_size
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tx = get_terminal_size().columns
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ty = get_terminal_size().lines
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def genfeld():
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feld = [[' ' for _ in range(tx)] for _ in range(ty)]
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return feld
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def bg_char(feld,char=str):
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test = 0
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for a in range(len(feld)):
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for b in range(len(feld[0])):
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feld[a][b] = test
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test = char
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return feld
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def strfeld(feld):
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back = ""
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for a in feld:
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for b in a:
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back += str(b)
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back += "\n"
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return back
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def change_char(feld,character=str,position=list):
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feld[position[0]][position[1]] = character
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def change_block(feld,string=str,position=list):
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a = ""
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block_len = 0
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for a in string:
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if a == "\n":
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break
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else:
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block_len += 1
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print(block_len)
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for zeichen in string:
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position[0] += 1
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if position[0]== block_len-1:
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position[0] = 0
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feld[position[0]][position[1]] = zeichen
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return feld
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import tengine
|
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feld = tengine.genfeld()
|
||||
|
||||
block = "halli\nhallo\nfurz"
|
||||
block2 = """halli
|
||||
hallo
|
||||
furz"""
|
||||
|
||||
feld = tengine.bg_char(feld,"#")
|
||||
feld = tengine.change_block(feld,block2,[3,3])
|
||||
print(tengine.strfeld(feld))
|
50
v1.py
50
v1.py
|
@ -1,14 +1,15 @@
|
|||
#!/usr/bin/python3
|
||||
import os
|
||||
from forgejo.cowyeet_terminal.tengine.main import ty,tx,clear
|
||||
from pynput import keyboard
|
||||
from time import sleep
|
||||
|
||||
|
||||
def clear():
|
||||
if os.name == "nt":
|
||||
os.system("cls")
|
||||
else:
|
||||
os.system("clear")
|
||||
#def clear():
|
||||
# if os.name == "nt":
|
||||
# os.system("cls")
|
||||
# else:
|
||||
# os.system("clear")
|
||||
|
||||
|
||||
def on_press(key):
|
||||
|
@ -28,11 +29,11 @@ listener = keyboard.Listener(on_press=on_press, on_release=on_release)
|
|||
|
||||
listener.start()
|
||||
|
||||
tx, ty = os.get_terminal_size().columns, os.get_terminal_size().lines
|
||||
txhalb = int(tx / 2)
|
||||
txhalb = int(tx / 2)-2
|
||||
wobble_speed = 0.01
|
||||
wobble_pos = 0
|
||||
wobble_way = "right"
|
||||
points = 0
|
||||
running = True
|
||||
while running == True:
|
||||
wobl = "-" * (tx - wobble_pos - 5)
|
||||
|
@ -41,13 +42,29 @@ while running == True:
|
|||
print(" " * txhalb, "↓")
|
||||
print(f"[{wobbl}]")
|
||||
print(wobble_pos)
|
||||
print(points)
|
||||
print(tx)
|
||||
print(txhalb)
|
||||
|
||||
if wobble_pos > txhalb:
|
||||
wobble_site = "left"
|
||||
else:
|
||||
wobble_site = "right"
|
||||
|
||||
if wobble_way == "right":
|
||||
wobble_pos += 1
|
||||
if wobble_site == "right":
|
||||
points += 1
|
||||
else:
|
||||
points -= 1
|
||||
else:
|
||||
wobble_pos -= 1
|
||||
if wobble_site == "right":
|
||||
points -= 1
|
||||
else:
|
||||
points += 1
|
||||
|
||||
if wobble_pos >= tx - 1:
|
||||
if wobble_pos >= tx - 4:
|
||||
wobble_way = "left"
|
||||
elif wobble_pos == 0:
|
||||
wobble_way = "right"
|
||||
|
@ -58,18 +75,11 @@ while running == True:
|
|||
if running == "finito":
|
||||
exit()
|
||||
|
||||
if wobble_pos > txhalb:
|
||||
wobble_site = "left"
|
||||
else:
|
||||
wobble_site = "right"
|
||||
#tx halb = max points #in ausgerechneten bruch und an in bruch mit nenner 100 ergibt zähler mit punktewert
|
||||
|
||||
if wobble_site == "right":
|
||||
points = wobble_pos
|
||||
else:
|
||||
points = tx - wobble_pos
|
||||
|
||||
point_quote = points - tx / 100
|
||||
for a in range(points * 2):
|
||||
for a in range(int(points*2)):
|
||||
print("-" * a + "🐄️", end="\r")
|
||||
sleep(0.01)
|
||||
print("\n", point_quote, "%")
|
||||
|
||||
points = int((points/txhalb)*100)
|
||||
print("\n", points, "%")
|
||||
|
|
128
v2.py
Normal file
128
v2.py
Normal file
|
@ -0,0 +1,128 @@
|
|||
#!/usr/bin/python3
|
||||
import os
|
||||
from tengine.main import *#ty,tx,clear,genfeld,strfeld,change_char,bg_char
|
||||
from pynput import keyboard
|
||||
from time import sleep
|
||||
from physics.parabelfunc import berechneflugbahn
|
||||
import random
|
||||
|
||||
|
||||
#def clear():
|
||||
# if os.name == "nt":
|
||||
# os.system("cls")
|
||||
# else:
|
||||
# os.system("clear")
|
||||
|
||||
|
||||
def on_press(key):
|
||||
global running
|
||||
if key == keyboard.Key.space:
|
||||
running = False
|
||||
|
||||
|
||||
def on_release(key):
|
||||
global running
|
||||
if key == keyboard.Key.esc:
|
||||
# Stop listener
|
||||
running = "finito"
|
||||
|
||||
|
||||
listener = keyboard.Listener(on_press=on_press, on_release=on_release)
|
||||
|
||||
listener.start()
|
||||
|
||||
txhalb = int(tx / 2)-2
|
||||
wobble_speed = 0.01
|
||||
wobble_pos = 0
|
||||
wobble_way = "right"
|
||||
points = 0
|
||||
running = True
|
||||
while running == True:
|
||||
wobl = "-" * (tx - wobble_pos - 5)
|
||||
wobr = "-" * wobble_pos
|
||||
wobbl = f"{wobr}🐄️{wobl}"
|
||||
print(" " * txhalb, "↓")
|
||||
print(f"[{wobbl}]")
|
||||
print(wobble_pos)
|
||||
print(points)
|
||||
print(tx)
|
||||
print(txhalb)
|
||||
|
||||
if wobble_pos > txhalb:
|
||||
wobble_site = "left"
|
||||
else:
|
||||
wobble_site = "right"
|
||||
|
||||
if wobble_way == "right":
|
||||
wobble_pos += 1
|
||||
if wobble_site == "right":
|
||||
points += 1
|
||||
else:
|
||||
points -= 1
|
||||
else:
|
||||
wobble_pos -= 1
|
||||
if wobble_site == "right":
|
||||
points -= 1
|
||||
else:
|
||||
points += 1
|
||||
|
||||
if wobble_pos >= tx - 4:
|
||||
wobble_way = "left"
|
||||
elif wobble_pos == 0:
|
||||
wobble_way = "right"
|
||||
|
||||
sleep(wobble_speed)
|
||||
clear()
|
||||
|
||||
if running == "finito":
|
||||
exit()
|
||||
|
||||
#tx halb = max points #in ausgerechneten bruch und an in bruch mit nenner 100 ergibt zähler mit punktewert
|
||||
|
||||
for a in range(int(points*2)):
|
||||
print("-" * a + "🐄️", end="\r")
|
||||
sleep(0.01)
|
||||
|
||||
points = int((points/txhalb)*100)
|
||||
print("\n", points, "%")
|
||||
|
||||
feld = genfeld()
|
||||
# Randomly choose a cow
|
||||
cows = "🐵🐒🦍🦧🐕🐯🦝🐩🐅🐴🐎🦄🦌🐗🐂🐃🐄🐪🐫🦙🦒🐹🦘🦡🐧🕊️ 🦅🦆🦉🐍🦎🐊🦜🦚🦩🐲🐉🦕"
|
||||
cowlistlength = len(cows)
|
||||
cow = cows[random.randint(0, cowlistlength - 1)]
|
||||
# Needed: find our screensize. We are in textmode here
|
||||
#termsize_xy = os.get_terminal_size()
|
||||
### I m p o r t a n t p a r a m e t e r s ###
|
||||
# X-Resolution of the display
|
||||
xmax = tx-1 #termsize_xy[0] - 1
|
||||
xsteps = 20#xmax
|
||||
ymax = ty #termsize_xy[1]
|
||||
ymin = 0
|
||||
xmin = 0
|
||||
startwinkel = 70
|
||||
startgeschwindigkeit = 60
|
||||
starthoehe = 0
|
||||
schlafzeit = 0.05
|
||||
###
|
||||
# needed for erasing old position
|
||||
xold = xmin
|
||||
yold = ymin
|
||||
x = xmin
|
||||
y = xmin
|
||||
# Call the function, which calculates the coordinates)
|
||||
ergebnis = berechneflugbahn(xmax, ymax, xsteps, startwinkel, startgeschwindigkeit, starthoehe, gravitation=1, xstep=2)
|
||||
|
||||
feld = bg_char(feld,"-")
|
||||
|
||||
# here we draw the cow
|
||||
for count in range(xmin, len(ergebnis), 2):
|
||||
xold, yold = x, y
|
||||
x, y = ergebnis[count], ergebnis[count + 1]
|
||||
change_block(feld,"@",[x, y])
|
||||
sleep(schlafzeit)
|
||||
change_block(feld,"#",[xold, yold]) #☁️
|
||||
print(strfeld(feld))
|
||||
print()
|
||||
sleep(2)
|
||||
#sys.exit(home + curon)
|
Loading…
Reference in a new issue