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I'm trying to create a function to read Morse code from one file, convert it to English text, print the converted text to the terminal, and write it to an output file. Here's a rough start...
#define TOTAL_MORSE 91 #define MORSE_LEN 6

morse_to_english(FILE* inputFile, FILE* outputFile, char morseStrings[TOTAL_MORSE][MORSE_LEN])
{ int i = 0, compare = 0;
 char convert[MORSE_LEN] = {'\0'}, *buffer = '\0';
 //read in a line of morse string from file
// fgets(buffer, //then what?
 while(((convert[i] = fgetc(inputFile)) != ' ') && (i < (MORSE_LEN - 1)))
 { i++;
 if (convert[i + 1] == ' ')
  convert[i + 1] = '\0';
 //compare read-in string w/morseStrings
 for (i = 48, compare = strcmp(convert, morseStrings[i]); //48 is '0'
  i < (TOTAL_MORSE - 1) && compare != 0;
 { compare = strcmp(convert, morseStrings[i]);
 printf("%c", (char)i);

I have initialized morseStrings to the morse code. That's my function right now. It does not work, and I'm not really sure what approach to take.

My original algorithm plan was something like this:
1. Scan Morse code in from file, character by character, until a space is reached
1.1 save to a temporary buffer (convert)
2. loop while i < 91 && compare != 0

    compare = strcmp(convert, morseString[i])

3. if (test ==0) print ("%c", i); 4. loop through this until eof

but.. I can't seem to think of a good way to test if the next char in the file is a space. So this has made it very difficult for me.

I got pretty frustrated and googled for ideas, and found a suggestion to use this algorithm

  1. Read a line
  2. Loop

    -strchr() for a SPACE or EOL -copy characters before the space to another string
    -Use strcmp() and loop to find the letter -Test the next character for SPACE.
    -If so, output another space -Skip to next morse character

  3. List item


But, this loops is kind of confusing. I would use fgets() (I think), but I don't know what to put in the length argument.

Anyways, I'm tired and frustrated. I would appreciate any help or insight for this problem. I can provide more code if necessary.

share|improve this question
I think you mean ASCII, not English. Converting Morse code to English could be very difficult if the original message is in French, for example. :-) –  R.. Nov 16 '10 at 15:23
Touché, good sir. –  Nate Nov 16 '10 at 20:44

3 Answers 3

up vote 1 down vote accepted

Your original plan looks fine. You're off by 1 when you check for the ' ' in the buffer, though. It's at convert[i], not convert[i + 1]. The i++ inside the loop doesn't happen when a space is detected.

share|improve this answer
You're absolutely right. The char I was printing was off by one also, but that was easily fixed. I just got really frustrated, I think, with file-scanning strategies that weren't working, that I assumed there was a larger problem. Thanks –  Nate Nov 16 '10 at 9:05

I wouldn't use strchr(), to complicated.

  1. Loop through the Inputfile reading a line
  2. tokenize line with [strtok][1]
  3. loop through tokens and save(best append) the single Letters to a Buffer
  4. close looops and print

a bit of pseudocode for u

while(there is a next line){

tokens = strtok(line);
int i = 0;

while(tokens hasnext){
save to buffer}}
share|improve this answer

If you are concerned about the CPU time you can write a lookup table to find the values, something as a switch like this:

case '.-': code =  "A";  break;
case '-...': code =  "B";  break;
case '-.-.': code =  "C";  break;

After you split the morse code by the spaces and send the diferent . and - combinations to the switch to get the original character.

I hope this help. Best regards.

share|improve this answer
Interesting idea. Aren't switch statement limited to ten cases though? –  Nate Nov 16 '10 at 9:08
@SubniC, you can only switch on integral values (including single characters), not strings. Additionally, the code you've given doesn't compile because you've put strings inside single quotes, when single quotes are for characters. –  Martin Broadhurst Nov 16 '10 at 9:24
@Martin: this is not strictly correct - gcc allows you to define integer constants using up to 4 chars, e.g. const int x = 'abcd'; and you can also use such constants as case labels, e.g. case 'ABCD':. The morse alphabet only uses 4 elements for alphabetic characters, so the above suggestion from SubniC would work for A-Z, but unfortunately you need 5 for numbers and more for punctuation etc. –  Paul R Nov 16 '10 at 9:34
I'm pretty sure you can have at least 256 cases in a switch according to the standard. –  onemasse Nov 16 '10 at 13:59
Accorfing to you can have 257 case statements in a switch, 1023 if you use C99. –  onemasse Nov 16 '10 at 14:04

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