• USACO 2.1


    USACO 2.1.1 

    题解:

    这题有点毒,调了一个中午……

    先读入,用一个三维布尔数组储存第(i,j)个点的四个方向是否有墙。

    对于第一个问题,直接BFS求连通块,并构造出一个图,第(i,j)个点的数字表示该房间属于第几个连通块。

    对于第二个问题,边BFS边统计。

    对于第三个问题,直接暴力枚举每面墙,找最大值。

    对于第四个问题,同样是暴力枚举,但要考虑优先级问题。从右上角的房间枚举到左下角的房间(j=m downto 1;i=1 to n),每个房间先看东墙再看北墙。

    代码:

    {
    ID:m1599491
    PROG:castle
    LANG:PASCAL
    }
    const fx:array[1..4] of longint=(0,-1,0,1);
    const fy:array[1..4] of longint=(-1,0,1,0);
    var k:array[1..50,1..50,1..4] of boolean;
    var n,m,i,j,x,tot,l,maxx,ans1,ans2,ans3,p:longint;
    var num:array[1..2500] of longint;
    var f:array[1..1000,1..2] of longint;
    var b,t:array[1..100,1..100] of longint;
    function max(x,y:longint):longint; begin if x>y then exit(x);exit(y); end;
    procedure bfs(x,y,tot:longint);
    var i,j,front,rear,nx,ny:longint;
    begin
      front:=0;rear:=1;
      f[rear,1]:=x;f[rear,2]:=y;
      b[x,y]:=tot;
      num[tot]:=1;
      maxx:=max(maxx,num[tot]);
      while front<rear do
      begin
        inc(front);
        for i:=1 to 4 do
        begin
          nx:=f[front,1];ny:=f[front,2];
          if (not k[nx,ny,1])and(i=1) then ny:=ny-1;
          if (not k[nx,ny,2])and(i=2) then nx:=nx-1;
          if (not k[nx,ny,3])and(i=3) then ny:=ny+1;
          if (not k[nx,ny,4])and(i=4) then nx:=nx+1;
          if (nx>0)and(ny>0)and(nx<=n)and(ny<=m)and(b[nx,ny]=0) then
          begin
            inc(rear);
            f[rear,1]:=nx;f[rear,2]:=ny;
            b[nx,ny]:=tot;
            inc(num[tot]);
            maxx:=max(maxx,num[tot]);
          end;
        end;
      end;
    end;
    procedure o;
    var i,j,t,nx,ny:longint;
    begin
      for j:=m downto 1 do
      for i:=1 to n do
      begin
        for t:=3 downto 2 do
        begin
          nx:=i+fx[t];ny:=j+fy[t];
          if b[nx,ny]=b[i,j] then continue;
          if (nx<1)or(ny<1)or(nx>n)or(ny>m) then continue;
          if num[b[i,j]]+num[b[nx,ny]]=p then
          begin
            ans1:=i;ans2:=j;ans3:=t;
          end;
        end;
      end;
    end;
    function find(x:longint):longint;
    var i,j,t,nx,ny,merge:longint;
    begin
      merge:=-maxlongint;
      for j:=1 to m do
      for i:=1 to n do
      begin
        for t:=4 downto 1 do
        begin
          nx:=i+fx[t];ny:=j+fy[t];
          if (nx<1)or(ny<1)or(nx>n)or(ny>m) then continue;
          if (k[i,j,t])and(b[i,j]<>b[nx,ny]) then
          if merge<=num[b[i,j]]+num[b[nx,ny]] then merge:=num[b[i,j]]+num[b[nx,ny]];
        end;
      end;
      exit(merge);
    end;
    begin
      assign(input,'castle.in');reset(input);
      assign(output,'castle.out');rewrite(output);
      readln(m,n);
      for i:=1 to n do
      begin
        for j:=1 to m do
        begin
          read(x);
          t[i,j]:=x;
          if x=1 then k[i,j,1]:=true;
          if x=2 then k[i,j,2]:=true;
          if x=4 then k[i,j,3]:=true;
          if x=8 then k[i,j,4]:=true;
          if x=3 then begin k[i,j,1]:=true;k[i,j,2]:=true; end;
          if x=5 then begin k[i,j,1]:=true;k[i,j,3]:=true; end;
          if x=9 then begin k[i,j,1]:=true;k[i,j,4]:=true; end;
          if x=6 then begin k[i,j,2]:=true;k[i,j,3]:=true; end;
          if x=10 then begin k[i,j,2]:=true;k[i,j,4]:=true; end;
          if x=12 then begin k[i,j,3]:=true;k[i,j,4]:=true; end;
          if x=7 then begin k[i,j,1]:=true;k[i,j,2]:=true;k[i,j,3]:=true; end;
          if x=11 then begin k[i,j,1]:=true;k[i,j,2]:=true;k[i,j,4]:=true; end;
          if x=14 then begin k[i,j,2]:=true;k[i,j,3]:=true;k[i,j,4]:=true; end;
          if x=13 then begin k[i,j,1]:=true;k[i,j,3]:=true;k[i,j,4]:=true; end;
          if x=15 then begin k[i,j,1]:=true;k[i,j,2]:=true;k[i,j,3]:=true;k[i,j,4]:=true; end;
        end;
        readln;
      end;
      maxx:=0;
      for i:=1 to n do for j:=1 to m do if b[i,j]=0 then
      begin
        inc(tot);
        bfs(i,j,tot);
      end;
      writeln(tot);
      writeln(maxx);
      p:=find(0);o;
      writeln(p);
      if ans3=3 then writeln(ans1,' ',ans2,' E');
      if ans3=2 then writeln(ans1,' ',ans2,' N');
      close(input);close(output);
    end.
    The Castle

     

    USACO 2.1.2

    题解:

    暴枚每一种不大于1的分数情况,边判个GCD是不是等于1,接着快排一下出答案。

    代码:

    {
    ID:m1599491
    PROG:frac1
    LANG:PASCAL
    }
    var z:array[1..100000] of double;
    var x,y:array[1..100000] of longint;
    var i,n,j,tot:longint;
    function gcd(a,b:longint):longint;
    begin
      if b=0 then exit(a);
      gcd:=gcd(b,a mod b);
    end;
    procedure qs(l,r:longint);
    var i,j,p:longint;
    var m,t:double;
    begin
      i:=l;j:=r;m:=z[(l+r)>>1];
      repeat
        while z[i]<m do inc(i);while z[j]>m do dec(j);
        if i<=j then
        begin
          t:=z[i];z[i]:=z[j];z[j]:=t;
          p:=x[i];x[i]:=x[j];x[j]:=p;
          p:=y[i];y[i]:=y[j];y[j]:=p;
          inc(i);dec(j);
        end;
      until i>j;
      if i<r then qs(i,r);if l<j then qs(l,j);
    end;
    begin
      assign(input,'frac1.in');reset(input);
      assign(output,'frac1.out');rewrite(output);
      readln(n);
      for i:=0 to n do for j:=1 to n do if (gcd(i,j)=1)and(i/j<=1) then
      begin
        inc(tot);
        x[tot]:=i;y[tot]:=j;z[tot]:=i/j;
      end;
      qs(1,tot);
      for i:=1 to tot do writeln(x[i],'/',y[i]);
      close(input);close(output);
    end.
    Ordered Fractions

    USACO 2.1.3

    题解:

    列出排序后的数组,判断一下就行。

    代码:

    {
    ID:m1599491
    PROG:sort3
    LANG:PASCAL
    }
    var nn,ans,i,j,n,t:longint;
    var a,b,num:array[1..1001] of longint;
    begin
      assign(input,'sort3.in');reset(input);
      assign(output,'sort3.out');rewrite(output);
      readln(n);
      for i:=1 to n do
      begin
        readln(a[i]);
        inc(num[a[i]]);
      end;
      for i:=1 to num[1] do b[i]:=1;
      for i:=num[1]+1 to num[1]+num[2] do b[i]:=2;
      for i:=num[1]+num[2]+1 to n do b[i]:=3;
      for i:=1 to n do for j:=1 to n do
      if (a[i]<>a[j])and(b[i]=a[j])and(b[j]=a[i]) then
      begin
        t:=a[i];a[i]:=a[j];a[j]:=t;inc(nn);
      end;
      for i:=1 to n do if a[i]<>b[i] then inc(ans);
      writeln(nn+trunc(ans/3*2));
      close(input);close(output);
    end.
    Sorting a Three-Valued Sequence

    USACO 2.1.4

    题解:

    深搜,没啥好说的。

    代码:

    {
    ID:m1599491
    PROG:holstein
    LANG:PASCAL
    }
    var sum,nee,anss,answer:array[1..100] of longint;
    var a:array[1..100,1..100] of longint;
    var b:array[1..100] of boolean;
    var ans,i,j,n,v,g:longint;
    procedure dfs(tot,dep:longint);
    var p,t:boolean;
    var i,j:longint;
    begin
      p:=true;t:=false;
      for i:=1 to v do if sum[i]<nee[i] then p:=false;
      if p then
      begin
        if dep<=ans then
        begin
          if dep=ans then for i:=1 to dep do if answer[i]>anss[i] then
          begin
            t:=true;
            break;
          end;
          if t then for i:=1 to dep do answer[i]:=anss[i];
          if dep<ans then
          begin
            for i:=1 to dep do answer[i]:=anss[i];
            ans:=dep;
          end;
        end;exit;
      end;
      for i:=tot+1 to n do
      begin
        if not b[i] then
        begin
          dep:=dep+1;b[i]:=true;anss[dep]:=i;
          for j:=1 to v do sum[j]:=sum[j]+a[i,j];
          dfs(i,dep);anss[dep]:=0;
          for j:=1 to v do sum[j]:=sum[j]-a[i,j];
          dec(dep);b[i]:=false;
        end;
      end;
    end;
    begin
      assign(input,'holstein.in');reset(input);
      assign(output,'holstein.out');rewrite(output);
      readln(v);for i:=1 to v do read(nee[i]);readln(n);
      for i:=1 to n do for j:=1 to v do read(a[i,j]);
      for i:=1 to 1000 do answer[i]:=maxlongint;
      ans:=maxlongint;dfs(0,0);
      write(ans);for i:=1 to ans do write(' ',answer[i]);writeln;
      close(input);close(output);
    end.
    Healthy Holsteins

    USACO 2.1.5

    题解:

    首先看它二进制编码的位数,则转为十进制最多只有2^b-1个数,接着用一个数组把这些二进制编码储存起来(记得补0),然后上深搜。

    代码:

    {
    ID:m1599491
    PROG:hamming
    LANG:PASCAL 
    }
    var n,b,d,i,k,tot:longint;
    var s:array[0..1000] of ansistring;
    var ans:array[0..1000] of longint;
    var e:array[0..1000] of boolean;
    function ch(n:longint):ansistring;
    var s:ansistring;
    begin
      s:='';
      repeat
        if n and 1=0 then s:='0'+s else s:='1'+s;
        n:=n>>1;
      until n=0;
      while length(s)<b do s:='0'+s;
      exit(s);
    end;
    function pow(x:longint):longint;
    begin
      if x=0 then exit(1);
      pow:=pow(x>>1);
      pow:=pow*pow;
      if x and 1=1 then pow:=pow*2;
    end;
    function ok(s1,s2:ansistring):boolean;
    var sum,i:longint;
    begin
      sum:=0;
      for i:=1 to b do
      begin
        if s1[i]<>s2[i] then inc(sum);
        if sum>=d then exit(true);
      end;
      exit(false);
    end;
    function okk(t:longint):boolean;
    var i:longint;
    begin
      for i:=1 to tot do if not ok(s[t],s[ans[i]]) then exit(false);
      exit(true);
    end;
    procedure o;
    var i:longint;
    begin
      for i:=1 to tot do if (i mod 10=0)or(i=tot) then writeln(ans[i]) else write(ans[i],' ');
      close(input);close(output);
      halt;
    end;
    procedure dfs(x,dep:longint);
    var i:longint;
    begin
      if dep>=n then
      begin
        if dep=n then o;
        exit;
      end;
      for i:=x+1 to k do
      begin
        if (not e[i])and(okk(i)) then
        begin
          e[i]:=true;
          inc(tot);ans[tot]:=i;
          dfs(i,dep+1);
          ans[tot]:=0;dec(tot);
          e[i]:=false;
        end;
      end;
    end;
    begin
      assign(input,'hamming.in');reset(input);
      assign(output,'hamming.out');rewrite(output);
      readln(n,b,d);
      k:=pow(b)-1;
      for i:=0 to k do s[i]:=ch(i);
      dfs(-1,0);
    end.
    Hamming Codes
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  • 原文地址:https://www.cnblogs.com/HAdolf-HQY/p/6688746.html
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