题目分析:

题目很长,读懂之后就很简单。描述里面还有一点混淆视听,前景色在本体里面是用不到的,色块怎么前景色的嘛。

题目大概意思就是:将图片切割成小图片,每个小图片用一个色块块,色块的颜色取小图片内所有像素的均值(向下取整),按他的编码输出。

  • 空格代表色块,对应的字符串表示其颜色, 每一行最后需要一个换行符
  • 色块颜色和默认背景色相同,则使用默认背景色的命令
  • 色块颜色与当前的背景色相同,且不使用换背景色的命令(直接添加‘ ’)
  • 每行色块扫描完成后,将背景色重置为默认颜色
  • 输出的字符使用ASCII码(16进制,大写)
  • 输出结果不换行

提交代码(80分):

class Pixle():
    def __init__(self, r, g, b):
        self.r = r
        self.g = g
        self.b = b

m,n = map(int, input().split())
p,q = map(int, input().split())

esc = '\\x1B\\x5B' #ESC[
a_chr = '\\x3B' # ;
a_0 = '\\x30' # 0
a_48 = '\\x34\\x38\\x3B\\x32\\x3B' # 48;2;
a_m = '\\x6D' # m
a_space = '\\x20' # ' '
a_n = '\\x0A' # '\n'
cur_r, cur_g, cur_b =  0,0,0

color = [[Pixle(0,0,0) for i in range(m)] for i in range(n)]

for i in range(n):
    for j in range(m):
        tmp = input()
        if len(tmp) == 4:
            color[i][j].r = int(tmp[1] + tmp[1], 16)
            color[i][j].g = int(tmp[2] + tmp[2], 16)
            color[i][j].b = int(tmp[3] + tmp[3], 16)
        elif len(tmp) == 2:
            t = int(tmp[1] + tmp[1], 16)
            color[i][j].r = t
            color[i][j].g = t
            color[i][j].b = t
        else:
            color[i][j].r = int(tmp[1:3], 16)
            color[i][j].g = int(tmp[3:5], 16)
            color[i][j].b = int(tmp[5:7], 16)

w = m//p # sub-block wide
h = n//q # sub-block high

color_block = [[0 for i in range(w)] for i in range(h)] # color block

for i in range(h):
    for j in range(w):
        r = g = b = 0
        for k in range(q): # q * p block
            for l in range(p):
                 r += color[i * q + k][j * p + l].r
                 g += color[i * q + k][j * p + l].g
                 b += color[i * q + k][j * p + l].b
            color_block[i][j] = Pixle(r // (p*q), g // (p*q), b // (p*q)) # average

rst = [] # result list
for i in range(h):
    for j in range(w):
        block = color_block[i][j]
        r,g,b = block.r, block.g, block.b
        if r == cur_r and g == cur_g and b == cur_b:
            pass
        elif r == 0 and g == 0 and b == 0:
            cur_r, cur_g, cur_b = 0, 0, 0 #reset current color
            rst.append(esc)
            rst.append(a_0)
            rst.append(a_m)
        else:
            tmp_r, tmp_g, tmp_b = [], [], []
            cur_r, cur_g, cur_b = r, g, b
            for _ in str(r):
                tmp_r.append('\\'+hex(ord(_))[1:]) # ascii code
            for _ in str(g):
                tmp_g.append('\\'+hex(ord(_))[1:])
            for _ in str(b):
                tmp_b.append('\\'+hex(ord(_))[1:])
            r,g,b = ''.join(tmp_r),''.join(tmp_g),''.join(tmp_b)
            rst.append(esc)
            rst.append(a_48)
            rst.append(r)
            rst.append(a_chr)
            rst.append(g)
            rst.append(a_chr)
            rst.append(b)
            rst.append(a_m)
        rst.append(a_space) # insert space
    if cur_r != 0 or cur_g != 0 or cur_b != 0: # current color is not default color
            rst.append(esc)
            rst.append(a_0)
            rst.append(a_m)
    cur_r, cur_g, cur_b = 0, 0, 0 # reset
    rst.append(a_n) # insert '\n'
rst_str = "".join(rst) # get string
print(rst_str, end='') # no line feed
02-12 19:00