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test.rb
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test.rb
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#! /usr/bin/ruby
=begin
# 順列生成
class Array
def perms
return [[]] if empty?
uniq.inject([]) do |rs, h| #遍历去重[]
tmp = self.dup #
tmp.delete_at(index(h)) #删除h
rs + tmp.perms.map {|t| [h] + t } #递归遍历
end
end
def total
self.inject(0){|t,a| t += a}
end
end
# a = [[1,1,1], [1,1,1], [1,1,1], [1,1,1], [2]]
# a = [[1], [2], [3]]
# # a = [[1], [2], [3], [2]]
# b = [1,1,1]
# ret = Array.new
# print a.map {|t| [4] + t}, "\n"
# print a, "\n"
# print a.perms, "\n"
# print a.perms.map{|t| [4] + t}, "\n"
# print b.total, "\n"
# a : [[1,1,1], [1,1,1], [1,1,1], [1,1,1], [2]]
def ptn(a)
if a.size == 1 then
return [a]
end
ret = Array.new
# 重ならないパターン
ret += a.perms
# 重なるパターン
h1 = Hash.new
for i in 0..a.size-1
for j in i+1..a.size-1
key = [a[i], 0, a[j]].to_s
print "key -> ", key, "\n"
if !h1.key?(key) then
h1.store(key, nil)
h2 = Hash.new
# a[i]とa[j]を範囲をずらしながら重ねる
for k in 0..a[i].size+a[j].size
t = [0]*a[j].size + a[i] + [0]*a[j].size
print "k -> ", k, "t -> ", t, "\n"
for m in 0..a[j].size-1
t[k+m] += a[j][m]
end
# 余分な0を取り除く
t.delete(0)
# 4より大きい値がないかチェック
next if t.any? {|v| v > 4}
# 9より長くないかチェック
next if t.size >9
# 重複チェック
if !h2.key?(t.to_s) then
h2.store(t.to_s, nil)
# 残り
t2 = a.dup
t2.delete_at(i)
t2.delete_at(j-1)
# 再帰呼び出し
ret += ptn([t]+t2)
end
end
end
end
end
return ret
end
#chitoi = ptn([[2], [3]])
#chitoi = ptn([[2], [2]])
chitoi = ptn([[1,1,1], [2]])
print chitoi , "\n"
#t = [0]*10 + [1]*3
#print t, "\n"
#print t.delete(0) , "\n"
#print t, "\n"
a = [[1,1,1], [1,1,1], [1,1,1], [1,1,1], [2]]
t = Marshal.load(Marshal.dump(a))
#print t, "\n"
b_ikki1 = true
print b_ikki1, "\n"
b_ikki1 |= (2 == 2)
print b_ikki1, "\n"
=end
# 順列生成
class Array
def perms
return [[]] if empty?
uniq.inject([]) do |rs, h|
tmp = self.dup
tmp.delete_at(index(h))
rs + tmp.perms.map {|t| [h] + t }
end
end
def total
self.inject(0){|t,a| t += a}
end
end
# a : [[1,1,1], [1,1,1], [1,1,1], [1,1,1], [2]]
def ptn(a)
if a.size == 1 then
return [a]
end
ret = Array.new
# 重ならないパターン
ret += a.perms
# 重なるパターン
h1 = Hash.new
for i in 0..a.size-1
for j in i+1..a.size-1
key = [a[i], 0, a[j]].to_s
if !h1.key?(key) then
h1.store(key, nil)
h2 = Hash.new
# a[i]とa[j]を範囲をずらしながら重ねる
for k in 0..a[i].size+a[j].size
t = [0]*a[j].size + a[i] + [0]*a[j].size
for m in 0..a[j].size-1
t[k+m] += a[j][m]
end
# 余分な0を取り除く
t.delete(0)
# 4より大きい値がないかチェック
next if t.any? {|v| v > 4}
# 9より長くないかチェック
next if t.size >9
# 重複チェック
if !h2.key?(t.to_s) then
h2.store(t.to_s, nil)
# 残り
t2 = a.dup
t2.delete_at(i)
t2.delete_at(j-1)
# 再帰呼び出し
ret += ptn([t]+t2)
end
end
end
end
end
return ret
end
# キー値を計算
def calc_key(a)
ret = 0
len = -1
for b in a
for i in b
len += 1
case i
when 2 then
ret |= 0b11 << len
len += 2
when 3 then
ret |= 0b1111 << len
len += 4
when 4 then
ret |= 0b111111 << len
len += 6
end
end
ret |= 0b1 << len
len += 1
end
return ret
end
# a : [[1,1,1], [1,1,1], [1,1,1], [1,1,1], [2]]
# ret
# 下位
# 3bit 0: 刻子の数(0~4)
# 3bit 3: 順子の数(0~4)
# 4bit 6: 頭の位置(1~13)
# 4bit 10: 面子の位置1(0~13)
# 4bit 14: 面子の位置2(0~13)
# 4bit 18: 面子の位置3(0~13)
# 4bit 22: 面子の位置4(0~13)
# 1bit 26: 七対子フラグ
# 1bit 27: 九蓮宝燈フラグ
# 1bit 28: 一気通貫フラグ
# 1bit 29: 二盃口フラグ
# 1bit 30: 一盃口フラグ
def find_hai_pos(a)
ret_array = Array.new
p_atama = 0
for i in 0..a.size-1
for j in 0..a[i].size-1
# 頭を探す
if a[i][j] >= 2 then
# 刻子、順子の優先順位入れ替え
for kotsu_shuntus in 0..1
t = Marshal.load(Marshal.dump(a))
t[i][j] -= 2
p = 0
p_kotsu = Array.new
p_shuntsu = Array.new
for k in 0..t.size-1
for m in 0..t[k].size-1
if kotsu_shuntus == 0 then
# 刻子を先に取り出す
# 刻子
if t[k][m] >= 3 then
t[k][m] -= 3
p_kotsu.push(p)
end
# 順子
while t[k].size - m >= 3 &&
t[k][m] >= 1 &&
t[k][m+1] >= 1 &&
t[k][m+2] >= 1 do
t[k][m] -= 1
t[k][m+1] -= 1
t[k][m+2] -= 1
p_shuntsu.push(p)
end
else
# 順子を先に取り出す
# 順子
while t[k].size - m >= 3 &&
t[k][m] >= 1 &&
t[k][m+1] >= 1 &&
t[k][m+2] >= 1 do
t[k][m] -= 1
t[k][m+1] -= 1
t[k][m+2] -= 1
p_shuntsu.push(p)
end
# 刻子
if t[k][m] >= 3 then
t[k][m] -= 3
p_kotsu.push(p)
end
end
p += 1
end
end
# 上がりの形か?
if t.flatten.all? {|x| x==0 } then
# 値を求める
ret = p_kotsu.size + (p_shuntsu.size << 3) + (p_atama << 6)
len = 10
for x in p_kotsu
ret |= x << len
len += 4
end
for x in p_shuntsu
ret |= x << len
len += 4
end
if a.size == 1 then
# 九蓮宝燈フラグ
if a == [[4,1,1,1,1,1,1,1,3]] ||
a == [[3,2,1,1,1,1,1,1,3]] ||
a == [[3,1,2,1,1,1,1,1,3]] ||
a == [[3,1,1,2,1,1,1,1,3]] ||
a == [[3,1,1,1,2,1,1,1,3]] ||
a == [[3,1,1,1,1,2,1,1,3]] ||
a == [[3,1,1,1,1,1,2,1,3]] ||
a == [[3,1,1,1,1,1,1,2,3]] ||
a == [[3,1,1,1,1,1,1,1,4]] then
ret |= 1 << 27
end
end
# 一気通貫
if a.size <= 3 && p_shuntsu.size >= 3 then
p_ikki = 0
for b in a
if b.size == 9 then
b_ikki1 = false
b_ikki2 = false
b_ikki3 = false
for x_ikki in p_shuntsu
b_ikki1 |= (x_ikki == p_ikki)
b_ikki2 |= (x_ikki == p_ikki+3)
b_ikki3 |= (x_ikki == p_ikki+6)
end
if b_ikki1 && b_ikki2 && b_ikki3 then
ret |= 1 << 28
end
end
p_ikki += b.size
end
end
# 二盃口
if p_shuntsu.size == 4 &&
p_shuntsu[0] == p_shuntsu[1] &&
p_shuntsu[2] == p_shuntsu[3] then
ret |= 1 << 29
elsif p_shuntsu.size >= 2 && p_kotsu.size + p_shuntsu.size == 4 then
# 一盃口
if p_shuntsu.size - p_shuntsu.uniq.size >= 1 then
ret |= 1 << 30
end
end
ret_array.push(ret)
end
end
end
p_atama += 1
end
end
if ret_array.size > 0 then
ret_array.uniq!
return ret_array.inject("0x"+ret_array.shift.to_s(16)){|t,a| t += ","+"0x"+a.to_s(16)}
end
t = a.flatten
# 七対子判定
if t.total == 14 && t.all? {|x| x==2} then
return "0x"+(1 << 26).to_s(16)
end
end
=begin
chitoi = ptn([[2],[2],[2],[2],[2],[2],[2]])
chitoi.delete_if{|x|
t = x.flatten
t.any?{|y| y != 2}
}
(ptn([[1,1,1],[1,1,1],[1,1,1],[1,1,1],[2]]) +
ptn([[1,1,1],[1,1,1],[1,1,1],[3],[2]]) +
ptn([[1,1,1],[1,1,1],[3],[3],[2]]) +
ptn([[1,1,1],[3],[3],[3],[2]]) +
ptn([[3],[3],[3],[3],[2]]) +
chitoi).uniq.each do |x|
printf("tbl.put(0x%X, new int[] {%s});\n", calc_key(x), find_hai_pos(x))
end
(ptn([[1,1,1],[1,1,1],[1,1,1],[2]]) +
ptn([[1,1,1],[1,1,1],[3],[2]]) +
ptn([[1,1,1],[3],[3],[2]]) +
ptn([[3],[3],[3],[2]])).uniq.each do |x|
printf("tbl.put(0x%X, new int[] {%s});\n", calc_key(x), find_hai_pos(x))
end
(ptn([[1,1,1],[1,1,1],[2]]) +
ptn([[1,1,1],[3],[2]]) +
ptn([[3],[3],[2]])).uniq.each do |x|
printf("tbl.put(0x%X, new int[] {%s});\n", calc_key(x), find_hai_pos(x))
end
(ptn([[1,1,1],[2]]) +
ptn([[3],[2]])).uniq.each do |x|
printf("tbl.put(0x%X, new int[] {%s});\n", calc_key(x), find_hai_pos(x))
end
=end
(ptn([[3], [2]])).uniq.each do |x|
printf("tbl.put(0x%X, new int[] {%s});\n", calc_key(x), find_hai_pos(x))
end
#chitoi = [[2],[2],[2],[2],[2],[2],[3]]
chitoi = ptn([[2],[2]])
print "chitoi -> ", chitoi, "\n"
chitoi.delete_if{|x|
t = x.flatten
t.any?{|y| y != 2}
}
print "chitoi => ", chitoi, "\n"