tweaks: elide a variable, by returning the result directly
parent
e4fa0b54a2
commit
9067f7a0c7
28
src/winio.c
28
src/winio.c
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@ -862,6 +862,8 @@ int convert_to_control(int kbinput)
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return kbinput;
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}
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#define PROCEED -44
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/* Extract one keystroke from the input stream. Translate escape sequences
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* and possibly keypad codes into their corresponding values. Set meta_key
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* to TRUE when appropriate. Supported keypad keystrokes are: the arrow keys,
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@ -960,7 +962,9 @@ int parse_kbinput(WINDOW *win)
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/* If the decimal byte value is complete, convert it and
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* put the obtained byte(s) back into the input buffer. */
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if (byte != ERR) {
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if (byte == PROCEED)
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return ERR;
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else {
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char *multibyte;
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int count, onebyte, i;
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@ -1316,7 +1320,6 @@ int get_kbinput(WINDOW *win, bool showcursor)
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int get_byte_kbinput(int kbinput)
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{
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static int byte = 0;
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int retval = ERR;
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/* Check that the given digit is within the allowed range for its position.
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* If yes, store it. If no, return the digit (or character) itself. */
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@ -1324,34 +1327,29 @@ int get_byte_kbinput(int kbinput)
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case 1:
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/* The first digit (the 100's position) is from zero to two. */
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byte = (kbinput - '0') * 100;
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break;
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return PROCEED;
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case 2:
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/* The second digit (the 10's position) must be from zero to five
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* if the first was two, and may be any decimal value otherwise. */
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if (byte < 200 || kbinput <= '5')
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if (byte < 200 || kbinput <= '5') {
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byte += (kbinput - '0') * 10;
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else
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retval = kbinput;
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break;
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return PROCEED;
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} else
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return kbinput;
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case 3:
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/* The third digit (the 1's position) must be from zero to five
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* if the first was two and the second was five, and may be any
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* decimal value otherwise. */
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if (byte < 250 || kbinput <= '5') {
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byte += kbinput - '0';
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/* The byte sequence is complete. */
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retval = byte;
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return (byte + kbinput - '0');
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} else
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retval = kbinput;
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break;
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return kbinput;
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}
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return retval;
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return 0; /* FIXME: this suppresses a compilation warning */
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}
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#ifdef ENABLE_UTF8
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#define PROCEED -4
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/* If the character in kbinput is a valid hexadecimal digit, multiply it
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* by factor and add the result to uni, and return PROCEED to signify okay. */
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long add_unicode_digit(int kbinput, long factor, long *uni)
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