Procházet zdrojové kódy

README-en.md edited online with Bitbucket

Jose R Ortiz Ubarri před 8 roky
rodič
revize
4e96c2f676
1 změnil soubory, kde provedl 9 přidání a 9 odebrání
  1. 9
    9
      README-en.md

+ 9
- 9
README-en.md Zobrazit soubor

@@ -201,41 +201,41 @@ In this exercise you will be designing tests to validate various versions of the
201 201
 
202 202
 * **3 Sorts:** a function that receives three strings and orders them in lexicographic (alphabetical) order. For example, given `giraffe`, `fox`, and `coqui`, it would order them as: `coqui`, `fox`, and `giraffe`. To simplify the exercise, we will be using strings with lowercase **letters**. Figure 5 shows the function's interface. Notice there is a menu to select the implemented version.
203 203
 
204
-  ---
204
+    ---
205 205
 
206 206
     ![figure5.png](images/figure5.png)
207 207
 
208 208
     **Figure 5** - Interface for the `3 Sorts` function.
209 209
 
210
-  ---
210
+    ---
211 211
 
212 212
 
213 213
 * **Dice:** when the user presses the `Roll them!` button, the program generates two random integers between 1 and 6. The program informs the sum of the two random integers.
214 214
 
215
-  ---
215
+    ---
216 216
 
217 217
     ![figure6.png](images/figure6.png)
218 218
 
219 219
     **Figure 6** - Interface for the `Dice` function.
220 220
 
221
-  ---
221
+    ---
222 222
 
223 223
 
224 224
  * **Rock, Paper, Scissors:** each one of the players enters their play and the program informs who the winner is. Figure 7 shows the options where one object beats the other. The game's interface is shown in Figure 8.
225 225
 
226
-   ---
226
+     ---
227 227
 
228 228
     ![figure7.jpg](images/figure7.jpg)
229 229
 
230 230
     **Figure 7** - Ways to win in "Rock, paper, scissors".
231 231
 
232
-  ---
232
+    ---
233 233
 
234 234
     ![figure8.png](images/figure8.png)
235 235
 
236 236
     **Figure 8** - Interface for the `Rock, Paper, Scissors` function.
237 237
 
238
-  ---
238
+    ---
239 239
 
240 240
 
241 241
 * **Zulu time:** Given a time in Zulu format (time at the Greenwich Meridian) and the military zone in which the user wants to know the time, the program shows the time in that zone. The format for the entry data is in the 24 hour format `####`, for example `2212` would be 10:12pm. The list of valid military zones can be found in http://en.wikipedia.org/wiki/List_of_military_time_zones. The following are examples of some valid results:
@@ -244,13 +244,13 @@ In this exercise you will be designing tests to validate various versions of the
244 244
   * Given Zulu time 1230 and zone N (UTC-1), the result should be 1130.
245 245
   * Puerto Rico is in military zone Q (UTC-4), therefore, when its 1800 in Zulu time, it's 1400 in Puerto Rico.
246 246
 
247
-  ---
247
+    ---
248 248
 
249 249
     ![figure9.png](images/figure9.png)
250 250
 
251 251
     **Figure 9** - Interface for the `Zulu time` function.
252 252
 
253
-  ---
253
+    ---
254 254
 
255 255
 
256 256
 ####Instructions