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optimized.zig
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optimized.zig
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const std = @import("std");
const hash_map = std.hash_map;
const fnv = std.hash.fnv;
const WordMap = std.HashMap([]const u8, u32, hashString, hash_map.eqlString, 80);
pub fn main() !void {
var arena = std.heap.ArenaAllocator.init(std.heap.page_allocator);
const ally = &arena.allocator;
var words = WordMap.init(ally);
const stdin = std.io.getStdIn().reader();
comptime const buf_len: usize = 65536;
var buf: [buf_len + 8]u8 align(@alignOf(u64)) = undefined;
var numread: usize = try stdin.read(buf[0..buf_len]);
while (numread > 0) {
// margin word to stop the loop without bound checks
buf[numread] = ' ';
buf[numread + 1] = 'a';
buf[numread + 2] = ' ';
// can't have more than 1/2 the total chars as words
try words.ensureCapacity(words.count() + @intCast(u32, numread >> 1));
// find words and count them
var wstart: usize = 0;
while (true) {
while (buf[wstart] <= ' ') : (wstart += 1) {}
var wend = wstart;
while (buf[wend] > ' ') : (wend += 1) {
buf[wend] = std.ascii.toLower(buf[wend]);
}
if (wend >= numread) break;
const word = buf[wstart..wend];
const ret = words.getOrPutAssumeCapacity(word);
if (ret.found_existing) {
ret.entry.value += 1;
} else {
ret.entry.key = try ally.dupe(u8, word);
ret.entry.value = 1;
}
wstart = wend + 1;
}
// copy the unprocessed chars to the front of buffer
var remain: usize = 0;
if (wstart < numread) {
std.mem.copy(u8, &buf, buf[wstart..numread]);
remain = numread - wstart;
}
// fill the buffer again
numread = try stdin.read(buf[remain..buf_len]);
if (numread > 0) numread += remain;
}
// extract unique words and sort them based on counts
const words_slice = try ally.alloc(WordMap.Entry, words.count());
var i: usize = 0;
var it = words.iterator();
while (it.next()) |entry| : (i += 1) {
words_slice[i] = entry.*;
}
std.sort.sort(WordMap.Entry, words_slice, {}, compare);
// print sorted values in words_slice
var stdout = std.io.bufferedWriter(std.io.getStdOut().writer());
for (words_slice) |entry| {
try stdout.writer().print("{s} {d}\n", .{ entry.key, entry.value });
}
try stdout.flush();
}
fn compare(_: void, a: WordMap.Entry, b: WordMap.Entry) bool {
return a.value > b.value;
}
pub fn hashString(s: []const u8) u64 {
return std.hash.Fnv1a_32.hash(s);
}