// Created by Lionello Lunesu and placed in the public domain. // This file has been modified from its original version. // It has been formatted to fit your screen. module phoneno; // optional import std.stdio; // writefln import std.ctype; // isdigit import std.stream; // BufferedFile // Just for readability (imagine char[][][char[]]) alias char[] string; alias string[] stringarray; /// Strips non-digit characters from the string (COW) string stripNonDigit( in string line ) { string ret; foreach(uint i, c; line) { // Error: std.ctype.isdigit at C:\dmd\src\phobos\std\ctype.d(37) // conflicts with std.stream.isdigit at C:\dmd\src\phobos\std\stream.d(2924) if (!std.ctype.isdigit(c)) { if (!ret) ret = line[0..i]; } else if (ret) ret ~= c; } return ret?ret:line; } unittest { assert( stripNonDigit("asdf") == "" ); assert( stripNonDigit("\'13-=2 4kop") == "1324" ); } /// Converts a word into a number, ignoring all non alpha characters string wordToNum( in string word ) { // translation table for the task at hand const char[256] TRANSLATE = " " // 0 " 0123456789 " // 32 " 57630499617851881234762239 " // 64 " 57630499617851881234762239 " " " " " " " " "; string ret; foreach(c; cast(ubyte[])word) if (TRANSLATE[c] != ' ') ret ~= TRANSLATE[c]; return ret; } unittest { // Test wordToNum using the table from the task description. assert( "01112223334455666777888999" == wordToNum("E | J N Q | R W X | D S Y | F T | A M | C I V | B K U | L O P | G H Z")); assert( "01112223334455666777888999" == wordToNum("e | j n q | r w x | d s y | f t | a m | c i v | b k u | l o p | g h z")); assert( "0123456789" == wordToNum("0 | 1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9")); } void main( string[] args ) { // This associative array maps a number to an array of words. stringarray[string] num2words; foreach(string word; new BufferedFile("dictionary.txt" ) ) num2words[ wordToNum(word) ] ~= word.dup; // must dup /// Finds all alternatives for the given number /// (should have been stripped from non-digit characters) stringarray _FindWords( string numbers, bool digitok ) in { assert(numbers.length > 0); } out(result) { foreach (a; result) assert( wordToNum(a) == numbers ); } body { stringarray ret; bool foundword = false; for (uint t=1; t<=numbers.length; ++t) { auto alternatives = numbers[0..t] in num2words; if (!alternatives) continue; foundword = true; if (numbers.length > t) { // Combine all current alternatives with all alternatives // of the rest (next piece can start with a digit) foreach (a2; _FindWords( numbers[t..$], true ) ) foreach(a1; *alternatives) ret ~= a1 ~ " " ~ a2; } else ret ~= *alternatives; // append these alternatives } // Try to keep 1 digit, only if we're allowed and no other // alternatives were found // Testing "ret.length" makes more sense than testing "foundword", // but the other implementations seem to do just this. if (digitok && !foundword) { //ret.length == 0 if(numbers.length > 1) { // Combine 1 digit with all altenatives from the rest // (next piece can not start with a digit) foreach (a; _FindWords( numbers[1..$], false ) ) ret ~= numbers[0..1] ~ " " ~ a; } else ret ~= numbers[0..1]; // just append this digit } return ret; } /// (This function was inlined in the original program) /// Finds all alternatives for the given phone number /// Returns: array of strings stringarray FindWords( string phone_number ) { if (!phone_number.length) return null; // Strip the non-digit characters from the phone number, and // pass it to the recursive function (leading digit is allowed) return _FindWords( stripNonDigit(phone_number), true ); } // Read the phone numbers foreach(string phone; new BufferedFile("input.txt" ) ) foreach(alternative; FindWords( phone ) ) writefln(phone, ": ", alternative ); }