yetao
/
hello-algo
mirror of https://github.com/krahets/hello-algo.git
1
0
Fork 0
Code Issues Packages Projects Releases Wiki Activity

Create quick_sort.rb (#1223)

Browse Source 
* Create quick_sort.rb

* Update quick_sort.rb

* Update quick_sort.rb

* Update quick_sort.rb
pull/1293/head
cy-by-side 7 months ago committed by GitHub
parent 19488b13c4
commit 499419e4ce
No known key found for this signature in database
GPG Key ID: B5690EEEBB952194
1 changed files with 153 additions and 0 deletions
Show Stats Download Patch File Download Diff File

153
codes/ruby/chapter_sorting/quick_sort.rb
Unescape View File

@ -0,0 +1,153 @@
=begin
File: quick_sort.rb
Created Time: 2024-04-01
Author: Cy (3739004@gmail.com), Xuan Khoa Tu Nguyen (ngxktuzkai2000@gmail.com)
=end
### 快速排序类 ###
class QuickSort
class << self
### 哨兵划分 ###
def partition(nums, left, right)
# 以 nums[left] 为基准数
i, j = left, right
while i < j
while i < j && nums[j] >= nums[left]
j -= 1 # 从右向左找首个小于基准数的元素
end
while i < j && nums[i] <= nums[left]
i += 1 # 从左向右找首个大于基准数的元素
end
# 元素交换
nums[i], nums[j] = nums[j], nums[i]
end
# 将基准数交换至两子数组的分界线
nums[i], nums[left] = nums[left], nums[i]
i # 返回基准数的索引
end
### 快速排序类 ###
def quick_sort(nums, left, right)
# 子数组长度不为 1 时递归
if left < right
# 哨兵划分
pivot = partition(nums, left, right)
# 递归左子数组、右子数组
quick_sort(nums, left, pivot - 1)
quick_sort(nums, pivot + 1, right)
end
nums
end
end
end
### 快速排序类(中位数优化)###
class QuickSortMedian
class << self
### 选取三个候选元素的中位数 ###
def median_three(nums, left, mid, right)
# 选取三个候选元素的中位数
_l, _m, _r = nums[left], nums[mid], nums[right]
# m 在 l 和 r 之间
return mid if (_l <= _m && _m <= _r) || (_r <= _m && _m <= _l)
# l 在 m 和 r 之间
return left if (_m <= _l && _l <= _r) || (_r <= _l && _l <= _m)
return right
end
### 哨兵划分(三数取中值)###
def partition(nums, left, right)
### 以 nums[left] 为基准数
med = median_three(nums, left, (left + right) / 2, right)
# 将中位数交换至数组最左断
nums[left], nums[med] = nums[med], nums[left]
i, j = left, right
while i < j
while i < j && nums[j] >= nums[left]
j -= 1 # 从右向左找首个小于基准数的元素
end
while i < j && nums[i] <= nums[left]
i += 1 # 从左向右找首个大于基准数的元素
end
# 元素交换
nums[i], nums[j] = nums[j], nums[i]
end
# 将基准数交换至两子数组的分界线
nums[i], nums[left] = nums[left], nums[i]
i # 返回基准数的索引
end
### 快速排序 ###
def quick_sort(nums, left, right)
# 子数组长度不为 1 时递归
if left < right
# 哨兵划分
pivot = partition(nums, left, right)
# 递归左子数组、右子数组
quick_sort(nums, left, pivot - 1)
quick_sort(nums, pivot + 1, right)
end
nums
end
end
end
### 快速排序类(尾递归优化)###
class QuickSortTailCall
class << self
### 哨兵划分 ###
def partition(nums, left, right)
# 以 nums[left]为基准数
i = left
j = right
while i < j
while i < j && nums[j] >= nums[left]
j -= 1 # 从右向左找首个小于基准数的元素
end
while i < j && nums[i] <= nums[left]
i += 1 # 从左向右找首个大于基准数的元素
end
# 元素交换
nums[i], nums[j] = nums[j], nums[i]
end
# 将基准数交换至两子数组的分界线
nums[i], nums[left] = nums[left], nums[i]
i # 返回基准数的索引
end
### 快速排序(尾递归优化)
def quick_sort(nums, left, right)
# 子数组长度不为 1 时递归
while left < right
# 哨兵划分
pivot = partition(nums, left, right)
# 对两个子数组中较短的那个执行快速排序
if pivot - left < right - pivot
quick_sort(nums, left, pivot - 1)
left = pivot + 1 # 剩余未排序区间为 [pivot + 1, right]
else
quick_sort(nums, pivot + 1, right)
right = pivot - 1 # 剩余未排序区间为 [left, pivot - 1]
end
end
end
end
end
### Driver Code ###
if __FILE__ == $0
# 快速排序
nums = [2, 4, 1, 0, 3, 5]
QuickSort.quick_sort(nums, 0, nums.length - 1)
puts "快速排序完成后 nums = #{nums}"
# 快速排序(中位基准数优化)
nums1 = [2, 4, 1, 0, 3, 5]
QuickSortMedian.quick_sort(nums1, 0, nums1.length - 1)
puts "快速排序(中位基准数优化)完成后 nums1 = #{nums1}"
# 快速排序(尾递归优化)
nums2 = [2, 4, 1, 0, 3, 5]
QuickSortTailCall.quick_sort(nums2, 0, nums2.length - 1)
puts "快速排序(尾递归优化)完成后 nums2 = #{nums2}"
end
Write Preview
Loading…
Cancel
Save