minecraft-bot/utils.py

import importlib
from math import floor, ceil, sqrt, hypot

import blocks
importlib.reload(blocks)

TICK = 0.05

def padd(p1, p2):
    return (p1[0] + p2[0], p1[1] + p2[1], p1[2] + p2[2])

def psub(p1, p2):
    return (p1[0] - p2[0], p1[1] - p2[1], p1[2] - p2[2])

def pmul(p, s):
    return (s*p[0], s*p[1], s*p[2])

def phyp(p1, p2):
    return hypot(p1[0] - p2[0], p1[1] - p2[1], p1[2] - p2[2])

def phyp_bias(p1, p2, origin):
    origin_distance = phyp(origin, p2)
    height_diff = p2[1] - p1[1]
    height_diff = height_diff*8 if height_diff < 0 else height_diff*0.5
    return hypot(p1[0] - p2[0], height_diff, p1[2] - p2[2]) + origin_distance*1.5

def pint(p):
    return (floor(p[0]), floor(p[1]), floor(p[2]))

def cap(x, amount):
    sign = 1 if x >= 0 else -1
    return sign * min(abs(x), amount)

def spiral(n):
    # return x, 0, z coords along a spiral at step n
    # I forget where I found this
    n += 1
    k = ceil((sqrt(n)-1)/2)
    t = 2 * k + 1
    m = t**2
    t = t - 1
    if n >= m-t:
        return k-(m-n), 0, -k
    else:
        m = m-t
    if n >= m-t:
        return -k, 0, -k+(m-n)
    else:
        m = m-t
    if n >= m-t:
        return -k+(m-n), 0, k
    else:
        return k, 0, k-(m-n-t)

def alternate(n, amount):
    # return 0, y, 0 where y alternates +/- by amount
    # example: 0, 2, -2, 4, -4, 6, -6 for amount = 2
    sign = 1 if n % 2 else -1
    return (0, ceil(n/2) * sign * amount, 0)

def diffrange(n):
    # same as range(n+1) but can go negative
    sign = 1 if n >= 0 else -1
    return range(0, n+sign, sign)

def break_time(block_id, held_item=0, in_water=False, on_ground=True, enchantments=[], effects={}):
    # from PrismarineJS/prismarine-block
    data = blocks.get(block_id)

    can_harvest = 'harvestTools' not in data or str(held_item) in data['harvestTools']
    material = data.get('material', 'n/a')
    tool_multipliers = blocks.mcd.materials.get(material, [])
    is_best_tool = held_item in tool_multipliers
    time = data['hardness']

    if can_harvest:
        time *= 1.5
    else:
        time *= 5.0

    if is_best_tool:
        speed_multiplier = tool_multipliers[held_item]
        # TODO: calc efficiency, haste, mining fatigue
    else:
        speed_multiplier = 1.0

    time /= speed_multiplier
    if in_water: time *= 5.0
    if not on_ground: time *= 5.0

    return time
Calculate the correct block breaking time 2020-09-16 06:49:15 +00:00			`import importlib`
Fix jobstate bugs 2020-09-17 01:12:01 +00:00			`from math import floor, ceil, sqrt, hypot`
Port over physics and pathfinding 2020-09-08 21:33:42 +00:00
Calculate the correct block breaking time 2020-09-16 06:49:15 +00:00			`import blocks`
			`importlib.reload(blocks)`

			`TICK = 0.05`

Port over physics and pathfinding 2020-09-08 21:33:42 +00:00			`def padd(p1, p2):`
			`return (p1[0] + p2[0], p1[1] + p2[1], p1[2] + p2[2])`

			`def psub(p1, p2):`
			`return (p1[0] - p2[0], p1[1] - p2[1], p1[2] - p2[2])`

			`def pmul(p, s):`
			`return (sp[0], sp[1], s*p[2])`

			`def phyp(p1, p2):`
			`return hypot(p1[0] - p2[0], p1[1] - p2[1], p1[2] - p2[2])`

			`def phyp_bias(p1, p2, origin):`
			`origin_distance = phyp(origin, p2)`
			`height_diff = p2[1] - p1[1]`
			`height_diff = height_diff8 if height_diff < 0 else height_diff0.5`
			`return hypot(p1[0] - p2[0], height_diff, p1[2] - p2[2]) + origin_distance*1.5`

			`def pint(p):`
			`return (floor(p[0]), floor(p[1]), floor(p[2]))`

			`def cap(x, amount):`
			`sign = 1 if x >= 0 else -1`
			`return sign * min(abs(x), amount)`

Fix jobstate bugs 2020-09-17 01:12:01 +00:00			`def spiral(n):`
			`# return x, 0, z coords along a spiral at step n`
			`# I forget where I found this`
			`n += 1`
			`k = ceil((sqrt(n)-1)/2)`
			`t = 2 * k + 1`
			`m = t**2`
			`t = t - 1`
			`if n >= m-t:`
			`return k-(m-n), 0, -k`
			`else:`
			`m = m-t`
			`if n >= m-t:`
			`return -k, 0, -k+(m-n)`
			`else:`
			`m = m-t`
			`if n >= m-t:`
			`return -k+(m-n), 0, k`
			`else:`
			`return k, 0, k-(m-n-t)`

			`def alternate(n, amount):`
			`# return 0, y, 0 where y alternates +/- by amount`
			`# example: 0, 2, -2, 4, -4, 6, -6 for amount = 2`
			`sign = 1 if n % 2 else -1`
			`return (0, ceil(n/2) * sign * amount, 0)`

			`def diffrange(n):`
			`# same as range(n+1) but can go negative`
			`sign = 1 if n >= 0 else -1`
			`return range(0, n+sign, sign)`

Calculate the correct block breaking time 2020-09-16 06:49:15 +00:00			`def break_time(block_id, held_item=0, in_water=False, on_ground=True, enchantments=[], effects={}):`
			`# from PrismarineJS/prismarine-block`
			`data = blocks.get(block_id)`

			`can_harvest = 'harvestTools' not in data or str(held_item) in data['harvestTools']`
Port over job sleeping 2020-09-17 02:11:42 +00:00			`material = data.get('material', 'n/a')`
			`tool_multipliers = blocks.mcd.materials.get(material, [])`
Calculate the correct block breaking time 2020-09-16 06:49:15 +00:00			`is_best_tool = held_item in tool_multipliers`
			`time = data['hardness']`

			`if can_harvest:`
			`time *= 1.5`
			`else:`
			`time *= 5.0`

			`if is_best_tool:`
			`speed_multiplier = tool_multipliers[held_item]`
			`# TODO: calc efficiency, haste, mining fatigue`
			`else:`
			`speed_multiplier = 1.0`

			`time /= speed_multiplier`
			`if in_water: time *= 5.0`
			`if not on_ground: time *= 5.0`

			`return time`