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Detalii evaluare #19557507
Rezumat problemă
#1001
Rotund
Spunem că un număr natural x este rotund dacă există un număr natural nenul k, mai mic strict decât numărul de cifre ale lui x, astfel încât prin permutarea circulară a cifrelor numărului cu k poziţii la dreapta, să se obţină numărul iniţial x.
Se dă un şir cu n elemente, numere naturale. câte elemente din șir sunt rotunde, și care sunt acestea.
Se va defini şi apela subprogramul rotund care verifică dacă un număr natural, transmis ca parametru, este rotund.
- Fișiere
-
Candale Silviu (silviu)
- ușoară
Detalii
| Problema | Rotund | Operații I/O |
rotund.in/rotund.out
|
|---|---|---|---|
| Limita timp | 0.1 secunde | Limita memorie |
Total: 64 MB
/
Stivă 8 MB
|
| Id soluție | #19557507 | Utilizator |
Toporau Mihai (mikeriel)
|
| Fișier | rotund.cpp | Dimensiune | 842 B |
| Data încărcării | 12 Decembrie 2019, 08:53 | Scor / rezultat | Eroare de compilare |
Evaluare
Mesaj compilare
rotund.cpp:12:1: error: stray '\302' in program int nr=x, p=1, p2, k=0, c; ^ rotund.cpp:12:1: error: stray '\240' in program rotund.cpp:12:1: error: stray '\302' in program rotund.cpp:12:1: error: stray '\240' in program rotund.cpp:14:1: error: stray '\302' in program while(nr){k++; p*=10; nr/=10;} ^ rotund.cpp:14:1: error: stray '\240' in program rotund.cpp:14:1: error: stray '\302' in program rotund.cpp:14:1: error: stray '\240' in program rotund.cpp:16:1: error: stray '\302' in program k--; nr=x; p/=10; ^ rotund.cpp:16:1: error: stray '\240' in program rotund.cpp:16:1: error: stray '\302' in program rotund.cpp:16:1: error: stray '\240' in program rotund.cpp:18:1: error: stray '\302' in program while(k){ ^ rotund.cpp:18:1: error: stray '\240' in program rotund.cpp:18:1: error: stray '\302' in program rotund.cpp:18:1: error: stray '\240' in program rotund.cpp:20:1: error: stray '\302' in program k--; ^ rotund.cpp:20:1: error: stray '\240' in program rotund.cpp:20:1: error: stray '\302' in program rotund.cpp:20:1: error: stray '\240' in program rotund.cpp:20:1: error: stray '\302' in program rotund.cpp:20:1: error: stray '\240' in program rotund.cpp:20:1: error: stray '\302' in program rotund.cpp:20:1: error: stray '\240' in program rotund.cpp:22:1: error: stray '\302' in program nr=p*(nr%10)+nr/10; ^ rotund.cpp:22:1: error: stray '\240' in program rotund.cpp:22:1: error: stray '\302' in program rotund.cpp:22:1: error: stray '\240' in program rotund.cpp:22:1: error: stray '\302' in program rotund.cpp:22:1: error: stray '\240' in program rotund.cpp:22:1: error: stray '\302' in program rotund.cpp:22:1: error: stray '\240' in program rotund.cpp:24:1: error: stray '\302' in program if(nr==x) return 1; ^ rotund.cpp:24:1: error: stray '\240' in program rotund.cpp:24:1: error: stray '\302' in program rotund.cpp:24:1: error: stray '\240' in program rotund.cpp:24:1: error: stray '\302' in program rotund.cpp:24:1: error: stray '\240' in program rotund.cpp:24:1: error: stray '\302' in program rotund.cpp:24:1: error: stray '\240' in program rotund.cpp:26:1: error: stray '\302' in program } ^ rotund.cpp:26:1: error: stray '\240' in program rotund.cpp:26:1: error: stray '\302' in program rotund.cpp:26:1: error: stray '\240' in program rotund.cpp:28:1: error: stray '\302' in program return 0; ^ rotund.cpp:28:1: error: stray '\240' in program rotund.cpp:28:1: error: stray '\302' in program rotund.cpp:28:1: error: stray '\240' in program rotund.cpp:36:1: error: stray '\302' in program unsigned int n, x, rotunde=0, v[50]; ^ rotund.cpp:36:1: error: stray '\240' in program rotund.cpp:36:1: error: stray '\302' in program rotund.cpp:36:1: error: stray '\240' in program rotund.cpp:38:1: error: stray '\302' in program f>>n; ^ rotund.cpp:38:1: error: stray '\240' in program rotund.cpp:38:1: error: stray '\302' in program rotund.cpp:38:1: error: stray '\240' in program rotund.cpp:40:1: error: stray '\302' in program for(int i=1;i<=n;i++){ ^ rotund.cpp:40:1: error: stray '\240' in program rotund.cpp:40:1: error: stray '\302' in program rotund.cpp:40:1: error: stray '\240' in program rotund.cpp:42:1: error: stray '\302' in program f>>x; ^ rotund.cpp:42:1: error: stray '\240' in program rotund.cpp:42:1: error: stray '\302' in program rotund.cpp:42:1: error: stray '\240' in program rotund.cpp:42:1: error: stray '\302' in program rotund.cpp:42:1: error: stray '\240' in program rotund.cpp:42:1: error: stray '\302' in program rotund.cpp:42:1: error: stray '\240' in program rotund.cpp:44:1: error: stray '\302' in program if(rotund(x)){ ^ rotund.cpp:44:1: error: stray '\240' in program rotund.cpp:44:1: error: stray '\302' in program rotund.cpp:44:1: error: stray '\240' in program rotund.cpp:44:1: error: stray '\302' in program rotund.cpp:44:1: error: stray '\240' in program rotund.cpp:44:1: error: stray '\302' in program rotund.cpp:44:1: error: stray '\240' in program rotund.cpp:46:1: error: stray '\302' in program rotunde++; ^ rotund.cpp:46:1: error: stray '\240' in program rotund.cpp:46:1: error: stray '\302' in program rotund.cpp:46:1: error: stray '\240' in program rotund.cpp:46:1: error: stray '\302' in program rotund.cpp:46:1: error: stray '\240' in program rotund.cpp:46:1: error: stray '\302' in program rotund.cpp:46:1: error: stray '\240' in program rotund.cpp:46:1: error: stray '\302' in program rotund.cpp:46:1: error: stray '\240' in program rotund.cpp:46:1: error: stray '\302' in program rotund.cpp:46:1: error: stray '\240' in program rotund.cpp:48:1: error: stray '\302' in program v[rotunde]=x; ^ rotund.cpp:48:1: error: stray '\240' in program rotund.cpp:48:1: error: stray '\302' in program rotund.cpp:48:1: error: stray '\240' in program rotund.cpp:48:1: error: stray '\302' in program rotund.cpp:48:1: error: stray '\240' in program rotund.cpp:48:1: error: stray '\302' in program rotund.cpp:48:1: error: stray '\240' in program rotund.cpp:48:1: error: stray '\302' in program rotund.cpp:48:1: error: stray '\240' in program rotund.cpp:48:1: error: stray '\302' in program rotund.cpp:48:1: error: stray '\240' in program rotund.cpp:50:1: error: stray '\302' in program } ^ rotund.cpp:50:1: error: stray '\240' in program rotund.cpp:50:1: error: stray '\302' in program rotund.cpp:50:1: error: stray '\240' in program rotund.cpp:50:1: error: stray '\302' in program rotund.cpp:50:1: error: stray '\240' in program rotund.cpp:50:1: error: stray '\302' in program rotund.cpp:50:1: error: stray '\240' in program rotund.cpp:52:1: error: stray '\302' in program } ^ rotund.cpp:52:1: error: stray '\240' in program rotund.cpp:52:1: error: stray '\302' in program rotund.cpp:52:1: error: stray '\240' in program rotund.cpp:54:1: error: stray '\302' in program if(rotunde){ ^ rotund.cpp:54:1: error: stray '\240' in program rotund.cpp:54:1: error: stray '\302' in program rotund.cpp:54:1: error: stray '\240' in program rotund.cpp:56:1: error: stray '\302' in program g<<rotunde<<'\n'; ^ rotund.cpp:56:1: error: stray '\240' in program rotund.cpp:56:1: error: stray '\302' in program rotund.cpp:56:1: error: stray '\240' in program rotund.cpp:56:1: error: stray '\302' in program rotund.cpp:56:1: error: stray '\240' in program rotund.cpp:56:1: error: stray '\302' in program rotund.cpp:56:1: error: stray '\240' in program rotund.cpp:58:1: error: stray '\302' in program for(int i=1;i<=rotunde;i++) ^ rotund.cpp:58:1: error: stray '\240' in program rotund.cpp:58:1: error: stray '\302' in program rotund.cpp:58:1: error: stray '\240' in program rotund.cpp:58:1: error: stray '\302' in program rotund.cpp:58:1: error: stray '\240' in program rotund.cpp:58:1: error: stray '\302' in program rotund.cpp:58:1: error: stray '\240' in program rotund.cpp:60:1: error: stray '\302' in program g<<v[i]<<' '; ^ rotund.cpp:60:1: error: stray '\240' in program rotund.cpp:60:1: error: stray '\302' in program rotund.cpp:60:1: error: stray '\240' in program rotund.cpp:60:1: error: stray '\302' in program rotund.cpp:60:1: error: stray '\240' in program rotund.cpp:60:1: error: stray '\302' in program rotund.cpp:60:1: error: stray '\240' in program rotund.cpp:60:1: error: stray '\302' in program rotund.cpp:60:1: error: stray '\240' in program rotund.cpp:60:1: error: stray '\302' in program rotund.cpp:60:1: error: stray '\240' in program rotund.cpp:62:1: error: stray '\302' in program } ^ rotund.cpp:62:1: error: stray '\240' in program rotund.cpp:62:1: error: stray '\302' in program rotund.cpp:62:1: error: stray '\240' in program rotund.cpp:70:1: error: stray '\302' in program return 0; ^ rotund.cpp:70:1: error: stray '\240' in program rotund.cpp:70:1: error: stray '\302' in program rotund.cpp:70:1: error: stray '\240' in program rotund.cpp: In function 'int rotund(unsigned int)': rotund.cpp:24:19: warning: comparison between signed and unsigned integer expressions [-Wsign-compare] if(nr==x) return 1; ^ rotund.cpp:12:21: warning: unused variable 'p2' [-Wunused-variable] int nr=x, p=1, p2, k=0, c; ^ rotund.cpp:12:30: warning: unused variable 'c' [-Wunused-variable] int nr=x, p=1, p2, k=0, c; ^ rotund.cpp: In function 'int main()': rotund.cpp:40:21: warning: comparison between signed and unsigned integer expressions [-Wsign-compare] for(int i=1;i<=n;i++){ ^ rotund.cpp:58:27: warning: comparison between signed and unsigned integer expressions [-Wsign-compare] for(int i=1;i<=rotunde;i++) ^
Cum funcționează evaluarea?
www.pbinfo.ro permite evaluarea a două tipuri de probleme:
- probleme la care rezolvarea presupune scrierea unui program complet
- probleme la care rezolvarea presupune scrierea unei secvențe de program - câteva instrucțiuni, o listă de declarații, una sau mai multe funcții, etc.
Problema Rotund face parte din prima categorie. Soluția propusă de tine va fi evaluată astfel:
- Programul sursă este compilat folosind compilatorul corespunzător. Dacă în urma compilării se obțin erori sau avertismente, acestea sunt afișate în această pagină.
- Dacă programul a fost compilat, executabilul obținut va fi rulat, furnizându-i-se unul sau mai multe seturi de date de intrare, în concordanță cu restricțiile specifice problemei. Pentru fiecare set de date se obține un anumit punctaj, în raport cu corectitudinea soluției tale.
Suma punctajelor acordate pe testele utilizate pentru verificare este 100. Astfel, soluția ta poate obține cel mult 100 de puncte, caz în care se poate considera corectă.