import std.algorithm, std.container, std.conv, std.math, std.range, std.typecons, std.stdio, std.string; auto rdsp(){return readln.splitter;} void pick(R,T)(ref R r,ref T t){t=r.front.to!T;r.popFront;} void readV(T...)(ref T t){auto r=rdsp;foreach(ref v;t)pick(r,v);} void readC(T...)(size_t n,ref T t){foreach(ref v;t)v=new typeof(v)(n);foreach(i;0..n){auto r=rdsp;foreach(ref v;t)pick(r,v[i]);}} void main() { int n; readV(n); int[] a; readC(n, a); auto b = a.dup.sort(); int[int] z; foreach (i, bi; b.uniq.enumerate) z[bi] = i.to!int; foreach (ref ai; a) ai = z[ai]; b = a.dup.sort(); auto t = 0L, ft = new FenwickTree!int(z.length); foreach (ai; a) ++ft[ai]; foreach (ai; a) { t += ft[0..ai]; --ft[ai]; } foreach (ai; a) { writeln(t); t -= b.lowerBound(ai).length; t += b.upperBound(ai).length; } } class FenwickTree(T) { const size_t n; T[] buf; this(size_t n) { this.n = n; this.buf = new T[](n+1); } void opIndexOpAssign(string op)(T val, size_t i) if (op == "+" || op == "-") { ++i; for (; i <= n; i += i & -i) mixin("buf[i] " ~ op ~ "= val;"); } void opIndexUnary(string op)(size_t i) if (op == "++" || op == "--") { ++i; for (; i <= n; i += i & -i) mixin("buf[i]" ~ op ~ ";"); } pure T opSlice(size_t r, size_t l) { return get(l) - get(r); } pure T opIndex(size_t i) { return opSlice(i, i+1); } pure size_t opDollar() { return n; } private: pure T get(size_t i) { auto s = T(0); for (; i > 0; i -= i & -i) s += buf[i]; return s; } }