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- \' not allowed in string literals
- \" not allowed in char literals - replaces uses of printf with print R=r,ken DELTA=10 (2 added, 0 deleted, 8 changed) OCL=14841 CL=14841
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@ -245,7 +245,7 @@ following differences:
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- Octal character escapes are always 3 digits ("\077" not "\77")
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- Hexadecimal character escapes are always 2 digits ("\x07" not "\x7")
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This section is precise but can be skipped on first reading. The rules are:
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The rules are:
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char_lit = "'" ( unicode_value | byte_value ) "'" .
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unicode_value = utf8_char | little_u_value | big_u_value | escaped_char .
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@ -264,6 +264,8 @@ A unicode_value takes one of four forms:
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text is in UTF-8, this is the obvious translation from input
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text into Unicode characters.
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* The usual list of C backslash escapes: "\n", "\t", etc.
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Within a character or string literal, only the corresponding quote character
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is a legal escape (this is not explicitly reflected in the above syntax).
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* A `little u' value, such as "\u12AB". This represents the Unicode
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code point with the corresponding hexadecimal value. It always
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has exactly 4 hexadecimal digits.
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@ -1783,7 +1785,7 @@ or an increment or decrement statement. Therefore one may declare a loop
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variable in the init statement.
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for i := 0; i < 10; i++ {
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printf("%d\n", i)
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print(i, "\n")
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}
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A for statement with just a condition executes until the condition becomes
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@ -1880,11 +1882,11 @@ which single communication will execute.
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var c, c1, c2 *chan int;
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select {
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case i1 <-c1:
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printf("received %d from c1\n", i1);
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print("received ", i1, " from c1\n");
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case c2 -< i2:
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printf("sent %d to c2\n", i2);
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print("sent ", i2, " to c2\n");
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default:
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printf("no communication\n");
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print("no communication\n");
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}
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for { // send random sequence of bits to c
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@ -1899,9 +1901,9 @@ which single communication will execute.
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var f float;
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select {
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case i <- ca:
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printf("received int %d from ca\n", i);
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print("received int ", i, " from ca\n");
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case f <- ca:
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printf("received float %f from ca\n", f);
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print("received float ", f, " from ca\n");
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}
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TODO: do we allow case i := <-c: ?
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@ -2306,7 +2308,7 @@ Here is a complete example Go package that implements a concurrent prime sieve:
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go Generate(ch); // Start Generate() as a subprocess.
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for {
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prime := <-ch;
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printf("%d\n", prime);
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print(prime, "\n");
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ch1 := new(chan int);
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go Filter(ch, ch1, prime);
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ch = ch1
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