Declare structure within for?












6















Apple LLVM 9.1.0 with clang-902.0.39.2, using -std=c11, accepts:



typedef struct { int i; float f; } S;

for (S s = { 0, 0 }; s.i < 25; ++s.i, s.f = i/10.f)


but rejects:



for (struct { int i; float f; } s = { 0, 0 }; s.i < 25; ++s.i, s.f = s.i/10.f)


with the message:




error: declaration of non-local variable in 'for' loop




Is Clang correct to reject this, because it violates some constraint in the C standard? Which clause and paragraph? Or is it a Clang bug?






c for-loop struct clang language-lawyer







share|improve this question

























  • I reopened this because I drafted a new answer exploring the situation with more analysis and because I think the accepted answer in the previous original is incorrect.

    – Eric Postpischil
    Dec 1 '18 at 1:08
















6















Apple LLVM 9.1.0 with clang-902.0.39.2, using -std=c11, accepts:



typedef struct { int i; float f; } S;

for (S s = { 0, 0 }; s.i < 25; ++s.i, s.f = i/10.f)


but rejects:



for (struct { int i; float f; } s = { 0, 0 }; s.i < 25; ++s.i, s.f = s.i/10.f)


with the message:




error: declaration of non-local variable in 'for' loop




Is Clang correct to reject this, because it violates some constraint in the C standard? Which clause and paragraph? Or is it a Clang bug?






c for-loop struct clang language-lawyer







share|improve this question

























  • I reopened this because I drafted a new answer exploring the situation with more analysis and because I think the accepted answer in the previous original is incorrect.

    – Eric Postpischil
    Dec 1 '18 at 1:08














6












6








6








Apple LLVM 9.1.0 with clang-902.0.39.2, using -std=c11, accepts:



typedef struct { int i; float f; } S;

for (S s = { 0, 0 }; s.i < 25; ++s.i, s.f = i/10.f)


but rejects:



for (struct { int i; float f; } s = { 0, 0 }; s.i < 25; ++s.i, s.f = s.i/10.f)


with the message:




error: declaration of non-local variable in 'for' loop




Is Clang correct to reject this, because it violates some constraint in the C standard? Which clause and paragraph? Or is it a Clang bug?






c for-loop struct clang language-lawyer







share|improve this question
















Apple LLVM 9.1.0 with clang-902.0.39.2, using -std=c11, accepts:



typedef struct { int i; float f; } S;

for (S s = { 0, 0 }; s.i < 25; ++s.i, s.f = i/10.f)


but rejects:



for (struct { int i; float f; } s = { 0, 0 }; s.i < 25; ++s.i, s.f = s.i/10.f)


with the message:




error: declaration of non-local variable in 'for' loop




Is Clang correct to reject this, because it violates some constraint in the C standard? Which clause and paragraph? Or is it a Clang bug?






c for-loop struct clang language-lawyer




c for-loop struct clang language-lawyer






share|improve this question















share|improve this question













share|improve this question




share|improve this question








edited Nov 25 '18 at 14:05









melpomene

61.6k54994




61.6k54994










asked Nov 25 '18 at 13:58









Eric PostpischilEric Postpischil

78.6k883166




78.6k883166













  • I reopened this because I drafted a new answer exploring the situation with more analysis and because I think the accepted answer in the previous original is incorrect.

    – Eric Postpischil
    Dec 1 '18 at 1:08



















  • I reopened this because I drafted a new answer exploring the situation with more analysis and because I think the accepted answer in the previous original is incorrect.

    – Eric Postpischil
    Dec 1 '18 at 1:08

















I reopened this because I drafted a new answer exploring the situation with more analysis and because I think the accepted answer in the previous original is incorrect.

– Eric Postpischil
Dec 1 '18 at 1:08





I reopened this because I drafted a new answer exploring the situation with more analysis and because I think the accepted answer in the previous original is incorrect.

– Eric Postpischil
Dec 1 '18 at 1:08












2 Answers
2






active

oldest

votes


















2














C11:




6.8.5.3 The for statement



1 The statement 


for ( clause-1 ; expression-2 ; expression-3 ) statement

behaves as follows: The expression expression-2 is the controlling expression that is
evaluated before each execution of the loop body. The expression expression-3 is
evaluated as a void expression after each execution of the loop body. If clause-1 is a
declaration, the scope of any identifiers it declares is the remainder of the declaration and the entire loop, including the other two expressions; it is reached in the order of execution before the first evaluation of the controlling expression. If clause-1 is an expression, it is evaluated as a void expression before the first evaluation of the controlling expression.158)


Left out [2], just speaking of handling ommited clauses/expressions...




158) Thus, clause-1 specifies initialization for the loop, possibly declaring one or more variables for use in the loop; the controlling expression, expression-2, specifies an evaluation made before each iteration, such that execution of the loop continues until the expression compares equal to 0; and expression-3 specifies an operation (such as incrementing) that is performed after each iteration.




Nothing mentioned about any restrictions. So as second example is a valid declaration – and I assume clang does not complain about the following either:



void f(void)

{

    struct { int x, y; } point;

    // use point...

}


– then the second example should be valid C code, so as far as I see, clang is wrong in rejecting.






share|improve this answer
























  • There may be a restriction somewhere else in the standard, and I suspect there is. Consider for (static int i = 0;…). We know that is not what the declaration inside a for is for, so it would make sense that somewhere else in the C standard there is a restriction that things declared inside a for must have an automatic storage duration, for example. If we find that, we might see whether its phrasing also excludes declaring new structure types inside a for (Clang is right) or not (Clang is wrong—developer misinterpreted the restriction?).

    – Eric Postpischil
    Nov 25 '18 at 14:22











  • @EricPostpischil Good point. But I looked over the subsequent chapters of the standard as well, although admittted, not too thoroughly, as they address totally different topics. Annex A.2.3.6.8.5 comes back to, but no further information either (it is informative only anyway). The index only references the already stated section.

    – Aconcagua
    Nov 25 '18 at 14:38











  • It almost looks as if static variables in for loop initializers actually were legal. Interesting: C++17 has similar wording, but a bit more extent. GCC rejects static initializer for C, but not for C++! Not sure which of both is correct according to the (respective?) standard...

    – Aconcagua
    Nov 25 '18 at 14:45













  • C11 §6.8.5 Iteration statements ¶3: The declaration part of a for statement shall only declare identifiers for objects having storage class auto or register. That is not in the section on for only, but in the generic 'iteration statements' section.

    – Jonathan Leffler
    Nov 25 '18 at 16:20











  • I'm not sure whether declaring the identifiers for the members of a struct is meant to be included in 'only declare identifiers for objects'. Since the structure is tagless when declared in the loop, it is only the members that might run foul of that 'only' restriction, but it isn't 100% clear to me that a structure type is an object. A tagged structure might run foul of it — and distinguishing between tagged and tagless structures would probably not be intentional. A tagged structure type would only be visible within the loop (§6.8.5 ¶5). It feels to me like an ambiguity in the standard.

    – Jonathan Leffler
    Nov 25 '18 at 16:32



















0














Summary



The potential violation of the C standard lies with this sentence in C 2018 6.8.5 3:




The declaration part of a for statement shall only declare identifiers for objects having storage class auto or register.




Since struct { int i; float f; } declares both a type and an identifier, there is some question about how to interpret 6.8.5 3. It appears to me that:




  • It is likely the committee intended to prohibit declaring anything but
    identifiers for auto or register objects.

  • This use case where a type is incidentally declared may not have been considered.

  • Allowing this incidental declaration would be harmless and not considerably out of line with the intent.


(I would invite anybody more familiar with C committee records to bring to our attention anything pertaining to this.)



(I give references to the 2018 C standard in this answer, but the language
is old and exists in previous versions, perhaps with some different numbering
of clauses or paragraphs.)



Both a Type and an Identifier Are Declared



The declaration in the following for statement declares both an identifier s and an unnamed type:



for (struct { int i; float f; } s = { 0, 0 }; s.i < 25; ++s.i, s.f = s.i/10.f)


We know it declares a type because C 2018 6.7.2.1 8 says:




The presence of a struct-declaration-list in a struct-or-union-specifier declares a new type, within a translation unit.




Per 6.7.2.1 1, struct { int i; float f; } is a struct-or-union-specifier, and, within it, int i; float f; is a struct-declaration list. So this source code matches the description of 6.7.2.1 8, so it declares a type.



The Language of the C Standard is Ambiguous



C 2018 6.8.5 3 says:




The declaration part of a for statement shall only declare identifiers for objects having storage class auto or register.




As a matter of English grammar and use, several meanings are possible for this sentence, including:




  1. The only things the declaration shall declare are identifiers for objects having storage class auto or register.

  2. The only identifiers the declaration shall declare are identifiers for objects having storage class auto or register.

  3. The only identifiers for objects the declaration shall declare are identifiers for objects having storage class auto or register.


Primarily, the problem is the “only” is not adjacent to the thing it is modifying. The “only” could be modifying “identifiers” or “objects” or “storage class.” One might prefer the modifier to modify the candidate nearest it, but the authors of sentences do not always construct them thusly. (Grammatically, it could also modify “having,” thus qualifying the objects as having only storage class auto or register and not having anything else, such as not having size or other properties. We easily rule out this meaning on semantic rather than grammatical grounds.)



These samples illustrate differences between the meanings:



static int s                 // Prohibited by 1, 2, and 3.

extern int s(int)            // Prohibited by 1 and 2, permitted by 3.

struct { int i; float f; } s // Prohibited by 1, permitted by 2 and 3.

int s                        // Permitted by 1, 2, and 3.


Effects May Illuminate Intent



It does not appear there is a reason for preferring any of these meanings based on difficulties of implementing C. To see this, consider that a C implementation may easily rewrite:



for (declaration; …; …) …


to the equivalent code:



{ declaration; for (; …; …) … }


Thus, if a C implementation can support declarations and for statements in general, it can support general declarations in a for statement without significant additional effort.



What then is the purpose of 6.8.5 3?



The declaration in a for statement provides convenience. It provides a nice way of declaring some iterator or other object used to control the loop, while limiting the scope to the for statement (which is a benefit for avoiding bugs). It does not provide any new function. Given this, I expect 6.8.5 3 was written with the intent of enabling the declaration to serve this purpose without opening it up to other purposes. It would be odd, although not impossible, to use either of the first two sample declarations above in a for statement.



If so, I suspect the surface intent of the committee was meaning 1 but that they did not consider the situation where an unnamed type is incidentally declared. When we reflect on the third sample, using a structure, we see that it is unusual but is not too out of line with the customary use of a for statement:




  • It arises naturally as a solution to the problem that only one declaration may be present in the declaration part of a for statement, yet sometimes it is useful to manage the loop with multiple objects of different types.

  • It is still an object with automatic storage generation, as intended for for loops.

  • The type that is technically declared is not needed outside the for loop.






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    2 Answers
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    active

    oldest

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    2 Answers
    2






    active

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    active

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    active

    oldest

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    2














    C11:




    6.8.5.3 The for statement



    1 The statement 


    for ( clause-1 ; expression-2 ; expression-3 ) statement

    behaves as follows: The expression expression-2 is the controlling expression that is
    evaluated before each execution of the loop body. The expression expression-3 is
    evaluated as a void expression after each execution of the loop body. If clause-1 is a
    declaration, the scope of any identifiers it declares is the remainder of the declaration and the entire loop, including the other two expressions; it is reached in the order of execution before the first evaluation of the controlling expression. If clause-1 is an expression, it is evaluated as a void expression before the first evaluation of the controlling expression.158)


    Left out [2], just speaking of handling ommited clauses/expressions...




    158) Thus, clause-1 specifies initialization for the loop, possibly declaring one or more variables for use in the loop; the controlling expression, expression-2, specifies an evaluation made before each iteration, such that execution of the loop continues until the expression compares equal to 0; and expression-3 specifies an operation (such as incrementing) that is performed after each iteration.




    Nothing mentioned about any restrictions. So as second example is a valid declaration – and I assume clang does not complain about the following either:



    void f(void)
    
{
    
    struct { int x, y; } point;
    
    // use point...
    
}


    – then the second example should be valid C code, so as far as I see, clang is wrong in rejecting.






    share|improve this answer
























    • There may be a restriction somewhere else in the standard, and I suspect there is. Consider for (static int i = 0;…). We know that is not what the declaration inside a for is for, so it would make sense that somewhere else in the C standard there is a restriction that things declared inside a for must have an automatic storage duration, for example. If we find that, we might see whether its phrasing also excludes declaring new structure types inside a for (Clang is right) or not (Clang is wrong—developer misinterpreted the restriction?).

      – Eric Postpischil
      Nov 25 '18 at 14:22











    • @EricPostpischil Good point. But I looked over the subsequent chapters of the standard as well, although admittted, not too thoroughly, as they address totally different topics. Annex A.2.3.6.8.5 comes back to, but no further information either (it is informative only anyway). The index only references the already stated section.

      – Aconcagua
      Nov 25 '18 at 14:38











    • It almost looks as if static variables in for loop initializers actually were legal. Interesting: C++17 has similar wording, but a bit more extent. GCC rejects static initializer for C, but not for C++! Not sure which of both is correct according to the (respective?) standard...

      – Aconcagua
      Nov 25 '18 at 14:45













    • C11 §6.8.5 Iteration statements ¶3: The declaration part of a for statement shall only declare identifiers for objects having storage class auto or register. That is not in the section on for only, but in the generic 'iteration statements' section.

      – Jonathan Leffler
      Nov 25 '18 at 16:20











    • I'm not sure whether declaring the identifiers for the members of a struct is meant to be included in 'only declare identifiers for objects'. Since the structure is tagless when declared in the loop, it is only the members that might run foul of that 'only' restriction, but it isn't 100% clear to me that a structure type is an object. A tagged structure might run foul of it — and distinguishing between tagged and tagless structures would probably not be intentional. A tagged structure type would only be visible within the loop (§6.8.5 ¶5). It feels to me like an ambiguity in the standard.

      – Jonathan Leffler
      Nov 25 '18 at 16:32
















    2














    C11:




    6.8.5.3 The for statement



    1 The statement 


    for ( clause-1 ; expression-2 ; expression-3 ) statement

    behaves as follows: The expression expression-2 is the controlling expression that is
    evaluated before each execution of the loop body. The expression expression-3 is
    evaluated as a void expression after each execution of the loop body. If clause-1 is a
    declaration, the scope of any identifiers it declares is the remainder of the declaration and the entire loop, including the other two expressions; it is reached in the order of execution before the first evaluation of the controlling expression. If clause-1 is an expression, it is evaluated as a void expression before the first evaluation of the controlling expression.158)


    Left out [2], just speaking of handling ommited clauses/expressions...




    158) Thus, clause-1 specifies initialization for the loop, possibly declaring one or more variables for use in the loop; the controlling expression, expression-2, specifies an evaluation made before each iteration, such that execution of the loop continues until the expression compares equal to 0; and expression-3 specifies an operation (such as incrementing) that is performed after each iteration.




    Nothing mentioned about any restrictions. So as second example is a valid declaration – and I assume clang does not complain about the following either:



    void f(void)
    
{
    
    struct { int x, y; } point;
    
    // use point...
    
}


    – then the second example should be valid C code, so as far as I see, clang is wrong in rejecting.






    share|improve this answer
























    • There may be a restriction somewhere else in the standard, and I suspect there is. Consider for (static int i = 0;…). We know that is not what the declaration inside a for is for, so it would make sense that somewhere else in the C standard there is a restriction that things declared inside a for must have an automatic storage duration, for example. If we find that, we might see whether its phrasing also excludes declaring new structure types inside a for (Clang is right) or not (Clang is wrong—developer misinterpreted the restriction?).

      – Eric Postpischil
      Nov 25 '18 at 14:22











    • @EricPostpischil Good point. But I looked over the subsequent chapters of the standard as well, although admittted, not too thoroughly, as they address totally different topics. Annex A.2.3.6.8.5 comes back to, but no further information either (it is informative only anyway). The index only references the already stated section.

      – Aconcagua
      Nov 25 '18 at 14:38











    • It almost looks as if static variables in for loop initializers actually were legal. Interesting: C++17 has similar wording, but a bit more extent. GCC rejects static initializer for C, but not for C++! Not sure which of both is correct according to the (respective?) standard...

      – Aconcagua
      Nov 25 '18 at 14:45













    • C11 §6.8.5 Iteration statements ¶3: The declaration part of a for statement shall only declare identifiers for objects having storage class auto or register. That is not in the section on for only, but in the generic 'iteration statements' section.

      – Jonathan Leffler
      Nov 25 '18 at 16:20











    • I'm not sure whether declaring the identifiers for the members of a struct is meant to be included in 'only declare identifiers for objects'. Since the structure is tagless when declared in the loop, it is only the members that might run foul of that 'only' restriction, but it isn't 100% clear to me that a structure type is an object. A tagged structure might run foul of it — and distinguishing between tagged and tagless structures would probably not be intentional. A tagged structure type would only be visible within the loop (§6.8.5 ¶5). It feels to me like an ambiguity in the standard.

      – Jonathan Leffler
      Nov 25 '18 at 16:32














    2












    2








    2







    C11:




    6.8.5.3 The for statement



    1 The statement 


    for ( clause-1 ; expression-2 ; expression-3 ) statement

    behaves as follows: The expression expression-2 is the controlling expression that is
    evaluated before each execution of the loop body. The expression expression-3 is
    evaluated as a void expression after each execution of the loop body. If clause-1 is a
    declaration, the scope of any identifiers it declares is the remainder of the declaration and the entire loop, including the other two expressions; it is reached in the order of execution before the first evaluation of the controlling expression. If clause-1 is an expression, it is evaluated as a void expression before the first evaluation of the controlling expression.158)


    Left out [2], just speaking of handling ommited clauses/expressions...




    158) Thus, clause-1 specifies initialization for the loop, possibly declaring one or more variables for use in the loop; the controlling expression, expression-2, specifies an evaluation made before each iteration, such that execution of the loop continues until the expression compares equal to 0; and expression-3 specifies an operation (such as incrementing) that is performed after each iteration.




    Nothing mentioned about any restrictions. So as second example is a valid declaration – and I assume clang does not complain about the following either:



    void f(void)
    
{
    
    struct { int x, y; } point;
    
    // use point...
    
}


    – then the second example should be valid C code, so as far as I see, clang is wrong in rejecting.






    share|improve this answer













    C11:




    6.8.5.3 The for statement



    1 The statement 


    for ( clause-1 ; expression-2 ; expression-3 ) statement

    behaves as follows: The expression expression-2 is the controlling expression that is
    evaluated before each execution of the loop body. The expression expression-3 is
    evaluated as a void expression after each execution of the loop body. If clause-1 is a
    declaration, the scope of any identifiers it declares is the remainder of the declaration and the entire loop, including the other two expressions; it is reached in the order of execution before the first evaluation of the controlling expression. If clause-1 is an expression, it is evaluated as a void expression before the first evaluation of the controlling expression.158)


    Left out [2], just speaking of handling ommited clauses/expressions...




    158) Thus, clause-1 specifies initialization for the loop, possibly declaring one or more variables for use in the loop; the controlling expression, expression-2, specifies an evaluation made before each iteration, such that execution of the loop continues until the expression compares equal to 0; and expression-3 specifies an operation (such as incrementing) that is performed after each iteration.




    Nothing mentioned about any restrictions. So as second example is a valid declaration – and I assume clang does not complain about the following either:



    void f(void)
    
{
    
    struct { int x, y; } point;
    
    // use point...
    
}


    – then the second example should be valid C code, so as far as I see, clang is wrong in rejecting.







    share|improve this answer












    share|improve this answer



    share|improve this answer










    answered Nov 25 '18 at 14:12









    AconcaguaAconcagua

    12.8k32144




    12.8k32144













    • There may be a restriction somewhere else in the standard, and I suspect there is. Consider for (static int i = 0;…). We know that is not what the declaration inside a for is for, so it would make sense that somewhere else in the C standard there is a restriction that things declared inside a for must have an automatic storage duration, for example. If we find that, we might see whether its phrasing also excludes declaring new structure types inside a for (Clang is right) or not (Clang is wrong—developer misinterpreted the restriction?).

      – Eric Postpischil
      Nov 25 '18 at 14:22











    • @EricPostpischil Good point. But I looked over the subsequent chapters of the standard as well, although admittted, not too thoroughly, as they address totally different topics. Annex A.2.3.6.8.5 comes back to, but no further information either (it is informative only anyway). The index only references the already stated section.

      – Aconcagua
      Nov 25 '18 at 14:38











    • It almost looks as if static variables in for loop initializers actually were legal. Interesting: C++17 has similar wording, but a bit more extent. GCC rejects static initializer for C, but not for C++! Not sure which of both is correct according to the (respective?) standard...

      – Aconcagua
      Nov 25 '18 at 14:45













    • C11 §6.8.5 Iteration statements ¶3: The declaration part of a for statement shall only declare identifiers for objects having storage class auto or register. That is not in the section on for only, but in the generic 'iteration statements' section.

      – Jonathan Leffler
      Nov 25 '18 at 16:20











    • I'm not sure whether declaring the identifiers for the members of a struct is meant to be included in 'only declare identifiers for objects'. Since the structure is tagless when declared in the loop, it is only the members that might run foul of that 'only' restriction, but it isn't 100% clear to me that a structure type is an object. A tagged structure might run foul of it — and distinguishing between tagged and tagless structures would probably not be intentional. A tagged structure type would only be visible within the loop (§6.8.5 ¶5). It feels to me like an ambiguity in the standard.

      – Jonathan Leffler
      Nov 25 '18 at 16:32



















    • There may be a restriction somewhere else in the standard, and I suspect there is. Consider for (static int i = 0;…). We know that is not what the declaration inside a for is for, so it would make sense that somewhere else in the C standard there is a restriction that things declared inside a for must have an automatic storage duration, for example. If we find that, we might see whether its phrasing also excludes declaring new structure types inside a for (Clang is right) or not (Clang is wrong—developer misinterpreted the restriction?).

      – Eric Postpischil
      Nov 25 '18 at 14:22











    • @EricPostpischil Good point. But I looked over the subsequent chapters of the standard as well, although admittted, not too thoroughly, as they address totally different topics. Annex A.2.3.6.8.5 comes back to, but no further information either (it is informative only anyway). The index only references the already stated section.

      – Aconcagua
      Nov 25 '18 at 14:38











    • It almost looks as if static variables in for loop initializers actually were legal. Interesting: C++17 has similar wording, but a bit more extent. GCC rejects static initializer for C, but not for C++! Not sure which of both is correct according to the (respective?) standard...

      – Aconcagua
      Nov 25 '18 at 14:45













    • C11 §6.8.5 Iteration statements ¶3: The declaration part of a for statement shall only declare identifiers for objects having storage class auto or register. That is not in the section on for only, but in the generic 'iteration statements' section.

      – Jonathan Leffler
      Nov 25 '18 at 16:20











    • I'm not sure whether declaring the identifiers for the members of a struct is meant to be included in 'only declare identifiers for objects'. Since the structure is tagless when declared in the loop, it is only the members that might run foul of that 'only' restriction, but it isn't 100% clear to me that a structure type is an object. A tagged structure might run foul of it — and distinguishing between tagged and tagless structures would probably not be intentional. A tagged structure type would only be visible within the loop (§6.8.5 ¶5). It feels to me like an ambiguity in the standard.

      – Jonathan Leffler
      Nov 25 '18 at 16:32

















    There may be a restriction somewhere else in the standard, and I suspect there is. Consider for (static int i = 0;…). We know that is not what the declaration inside a for is for, so it would make sense that somewhere else in the C standard there is a restriction that things declared inside a for must have an automatic storage duration, for example. If we find that, we might see whether its phrasing also excludes declaring new structure types inside a for (Clang is right) or not (Clang is wrong—developer misinterpreted the restriction?).

    – Eric Postpischil
    Nov 25 '18 at 14:22





    There may be a restriction somewhere else in the standard, and I suspect there is. Consider for (static int i = 0;…). We know that is not what the declaration inside a for is for, so it would make sense that somewhere else in the C standard there is a restriction that things declared inside a for must have an automatic storage duration, for example. If we find that, we might see whether its phrasing also excludes declaring new structure types inside a for (Clang is right) or not (Clang is wrong—developer misinterpreted the restriction?).

    – Eric Postpischil
    Nov 25 '18 at 14:22













    @EricPostpischil Good point. But I looked over the subsequent chapters of the standard as well, although admittted, not too thoroughly, as they address totally different topics. Annex A.2.3.6.8.5 comes back to, but no further information either (it is informative only anyway). The index only references the already stated section.

    – Aconcagua
    Nov 25 '18 at 14:38





    @EricPostpischil Good point. But I looked over the subsequent chapters of the standard as well, although admittted, not too thoroughly, as they address totally different topics. Annex A.2.3.6.8.5 comes back to, but no further information either (it is informative only anyway). The index only references the already stated section.

    – Aconcagua
    Nov 25 '18 at 14:38













    It almost looks as if static variables in for loop initializers actually were legal. Interesting: C++17 has similar wording, but a bit more extent. GCC rejects static initializer for C, but not for C++! Not sure which of both is correct according to the (respective?) standard...

    – Aconcagua
    Nov 25 '18 at 14:45







    It almost looks as if static variables in for loop initializers actually were legal. Interesting: C++17 has similar wording, but a bit more extent. GCC rejects static initializer for C, but not for C++! Not sure which of both is correct according to the (respective?) standard...

    – Aconcagua
    Nov 25 '18 at 14:45















    C11 §6.8.5 Iteration statements ¶3: The declaration part of a for statement shall only declare identifiers for objects having storage class auto or register. That is not in the section on for only, but in the generic 'iteration statements' section.

    – Jonathan Leffler
    Nov 25 '18 at 16:20





    C11 §6.8.5 Iteration statements ¶3: The declaration part of a for statement shall only declare identifiers for objects having storage class auto or register. That is not in the section on for only, but in the generic 'iteration statements' section.

    – Jonathan Leffler
    Nov 25 '18 at 16:20













    I'm not sure whether declaring the identifiers for the members of a struct is meant to be included in 'only declare identifiers for objects'. Since the structure is tagless when declared in the loop, it is only the members that might run foul of that 'only' restriction, but it isn't 100% clear to me that a structure type is an object. A tagged structure might run foul of it — and distinguishing between tagged and tagless structures would probably not be intentional. A tagged structure type would only be visible within the loop (§6.8.5 ¶5). It feels to me like an ambiguity in the standard.

    – Jonathan Leffler
    Nov 25 '18 at 16:32





    I'm not sure whether declaring the identifiers for the members of a struct is meant to be included in 'only declare identifiers for objects'. Since the structure is tagless when declared in the loop, it is only the members that might run foul of that 'only' restriction, but it isn't 100% clear to me that a structure type is an object. A tagged structure might run foul of it — and distinguishing between tagged and tagless structures would probably not be intentional. A tagged structure type would only be visible within the loop (§6.8.5 ¶5). It feels to me like an ambiguity in the standard.

    – Jonathan Leffler
    Nov 25 '18 at 16:32













    0














    Summary



    The potential violation of the C standard lies with this sentence in C 2018 6.8.5 3:




    The declaration part of a for statement shall only declare identifiers for objects having storage class auto or register.




    Since struct { int i; float f; } declares both a type and an identifier, there is some question about how to interpret 6.8.5 3. It appears to me that:




    • It is likely the committee intended to prohibit declaring anything but
      identifiers for auto or register objects.

    • This use case where a type is incidentally declared may not have been considered.

    • Allowing this incidental declaration would be harmless and not considerably out of line with the intent.


    (I would invite anybody more familiar with C committee records to bring to our attention anything pertaining to this.)



    (I give references to the 2018 C standard in this answer, but the language
    is old and exists in previous versions, perhaps with some different numbering
    of clauses or paragraphs.)



    Both a Type and an Identifier Are Declared



    The declaration in the following for statement declares both an identifier s and an unnamed type:



    for (struct { int i; float f; } s = { 0, 0 }; s.i < 25; ++s.i, s.f = s.i/10.f)


    We know it declares a type because C 2018 6.7.2.1 8 says:




    The presence of a struct-declaration-list in a struct-or-union-specifier declares a new type, within a translation unit.




    Per 6.7.2.1 1, struct { int i; float f; } is a struct-or-union-specifier, and, within it, int i; float f; is a struct-declaration list. So this source code matches the description of 6.7.2.1 8, so it declares a type.



    The Language of the C Standard is Ambiguous



    C 2018 6.8.5 3 says:




    The declaration part of a for statement shall only declare identifiers for objects having storage class auto or register.




    As a matter of English grammar and use, several meanings are possible for this sentence, including:




    1. The only things the declaration shall declare are identifiers for objects having storage class auto or register.

    2. The only identifiers the declaration shall declare are identifiers for objects having storage class auto or register.

    3. The only identifiers for objects the declaration shall declare are identifiers for objects having storage class auto or register.


    Primarily, the problem is the “only” is not adjacent to the thing it is modifying. The “only” could be modifying “identifiers” or “objects” or “storage class.” One might prefer the modifier to modify the candidate nearest it, but the authors of sentences do not always construct them thusly. (Grammatically, it could also modify “having,” thus qualifying the objects as having only storage class auto or register and not having anything else, such as not having size or other properties. We easily rule out this meaning on semantic rather than grammatical grounds.)



    These samples illustrate differences between the meanings:



    static int s                 // Prohibited by 1, 2, and 3.
    
extern int s(int)            // Prohibited by 1 and 2, permitted by 3.
    
struct { int i; float f; } s // Prohibited by 1, permitted by 2 and 3.
    
int s                        // Permitted by 1, 2, and 3.


    Effects May Illuminate Intent



    It does not appear there is a reason for preferring any of these meanings based on difficulties of implementing C. To see this, consider that a C implementation may easily rewrite:



    for (declaration; …; …) …


    to the equivalent code:



    { declaration; for (; …; …) … }


    Thus, if a C implementation can support declarations and for statements in general, it can support general declarations in a for statement without significant additional effort.



    What then is the purpose of 6.8.5 3?



    The declaration in a for statement provides convenience. It provides a nice way of declaring some iterator or other object used to control the loop, while limiting the scope to the for statement (which is a benefit for avoiding bugs). It does not provide any new function. Given this, I expect 6.8.5 3 was written with the intent of enabling the declaration to serve this purpose without opening it up to other purposes. It would be odd, although not impossible, to use either of the first two sample declarations above in a for statement.



    If so, I suspect the surface intent of the committee was meaning 1 but that they did not consider the situation where an unnamed type is incidentally declared. When we reflect on the third sample, using a structure, we see that it is unusual but is not too out of line with the customary use of a for statement:




    • It arises naturally as a solution to the problem that only one declaration may be present in the declaration part of a for statement, yet sometimes it is useful to manage the loop with multiple objects of different types.

    • It is still an object with automatic storage generation, as intended for for loops.

    • The type that is technically declared is not needed outside the for loop.






    share|improve this answer




























      0














      Summary



      The potential violation of the C standard lies with this sentence in C 2018 6.8.5 3:




      The declaration part of a for statement shall only declare identifiers for objects having storage class auto or register.




      Since struct { int i; float f; } declares both a type and an identifier, there is some question about how to interpret 6.8.5 3. It appears to me that:




      • It is likely the committee intended to prohibit declaring anything but
        identifiers for auto or register objects.

      • This use case where a type is incidentally declared may not have been considered.

      • Allowing this incidental declaration would be harmless and not considerably out of line with the intent.


      (I would invite anybody more familiar with C committee records to bring to our attention anything pertaining to this.)



      (I give references to the 2018 C standard in this answer, but the language
      is old and exists in previous versions, perhaps with some different numbering
      of clauses or paragraphs.)



      Both a Type and an Identifier Are Declared



      The declaration in the following for statement declares both an identifier s and an unnamed type:



      for (struct { int i; float f; } s = { 0, 0 }; s.i < 25; ++s.i, s.f = s.i/10.f)


      We know it declares a type because C 2018 6.7.2.1 8 says:




      The presence of a struct-declaration-list in a struct-or-union-specifier declares a new type, within a translation unit.




      Per 6.7.2.1 1, struct { int i; float f; } is a struct-or-union-specifier, and, within it, int i; float f; is a struct-declaration list. So this source code matches the description of 6.7.2.1 8, so it declares a type.



      The Language of the C Standard is Ambiguous



      C 2018 6.8.5 3 says:




      The declaration part of a for statement shall only declare identifiers for objects having storage class auto or register.




      As a matter of English grammar and use, several meanings are possible for this sentence, including:




      1. The only things the declaration shall declare are identifiers for objects having storage class auto or register.

      2. The only identifiers the declaration shall declare are identifiers for objects having storage class auto or register.

      3. The only identifiers for objects the declaration shall declare are identifiers for objects having storage class auto or register.


      Primarily, the problem is the “only” is not adjacent to the thing it is modifying. The “only” could be modifying “identifiers” or “objects” or “storage class.” One might prefer the modifier to modify the candidate nearest it, but the authors of sentences do not always construct them thusly. (Grammatically, it could also modify “having,” thus qualifying the objects as having only storage class auto or register and not having anything else, such as not having size or other properties. We easily rule out this meaning on semantic rather than grammatical grounds.)



      These samples illustrate differences between the meanings:



      static int s                 // Prohibited by 1, 2, and 3.
      
extern int s(int)            // Prohibited by 1 and 2, permitted by 3.
      
struct { int i; float f; } s // Prohibited by 1, permitted by 2 and 3.
      
int s                        // Permitted by 1, 2, and 3.


      Effects May Illuminate Intent



      It does not appear there is a reason for preferring any of these meanings based on difficulties of implementing C. To see this, consider that a C implementation may easily rewrite:



      for (declaration; …; …) …


      to the equivalent code:



      { declaration; for (; …; …) … }


      Thus, if a C implementation can support declarations and for statements in general, it can support general declarations in a for statement without significant additional effort.



      What then is the purpose of 6.8.5 3?



      The declaration in a for statement provides convenience. It provides a nice way of declaring some iterator or other object used to control the loop, while limiting the scope to the for statement (which is a benefit for avoiding bugs). It does not provide any new function. Given this, I expect 6.8.5 3 was written with the intent of enabling the declaration to serve this purpose without opening it up to other purposes. It would be odd, although not impossible, to use either of the first two sample declarations above in a for statement.



      If so, I suspect the surface intent of the committee was meaning 1 but that they did not consider the situation where an unnamed type is incidentally declared. When we reflect on the third sample, using a structure, we see that it is unusual but is not too out of line with the customary use of a for statement:




      • It arises naturally as a solution to the problem that only one declaration may be present in the declaration part of a for statement, yet sometimes it is useful to manage the loop with multiple objects of different types.

      • It is still an object with automatic storage generation, as intended for for loops.

      • The type that is technically declared is not needed outside the for loop.






      share|improve this answer


























        0












        0








        0







        Summary



        The potential violation of the C standard lies with this sentence in C 2018 6.8.5 3:




        The declaration part of a for statement shall only declare identifiers for objects having storage class auto or register.




        Since struct { int i; float f; } declares both a type and an identifier, there is some question about how to interpret 6.8.5 3. It appears to me that:




        • It is likely the committee intended to prohibit declaring anything but
          identifiers for auto or register objects.

        • This use case where a type is incidentally declared may not have been considered.

        • Allowing this incidental declaration would be harmless and not considerably out of line with the intent.


        (I would invite anybody more familiar with C committee records to bring to our attention anything pertaining to this.)



        (I give references to the 2018 C standard in this answer, but the language
        is old and exists in previous versions, perhaps with some different numbering
        of clauses or paragraphs.)



        Both a Type and an Identifier Are Declared



        The declaration in the following for statement declares both an identifier s and an unnamed type:



        for (struct { int i; float f; } s = { 0, 0 }; s.i < 25; ++s.i, s.f = s.i/10.f)


        We know it declares a type because C 2018 6.7.2.1 8 says:




        The presence of a struct-declaration-list in a struct-or-union-specifier declares a new type, within a translation unit.




        Per 6.7.2.1 1, struct { int i; float f; } is a struct-or-union-specifier, and, within it, int i; float f; is a struct-declaration list. So this source code matches the description of 6.7.2.1 8, so it declares a type.



        The Language of the C Standard is Ambiguous



        C 2018 6.8.5 3 says:




        The declaration part of a for statement shall only declare identifiers for objects having storage class auto or register.




        As a matter of English grammar and use, several meanings are possible for this sentence, including:




        1. The only things the declaration shall declare are identifiers for objects having storage class auto or register.

        2. The only identifiers the declaration shall declare are identifiers for objects having storage class auto or register.

        3. The only identifiers for objects the declaration shall declare are identifiers for objects having storage class auto or register.


        Primarily, the problem is the “only” is not adjacent to the thing it is modifying. The “only” could be modifying “identifiers” or “objects” or “storage class.” One might prefer the modifier to modify the candidate nearest it, but the authors of sentences do not always construct them thusly. (Grammatically, it could also modify “having,” thus qualifying the objects as having only storage class auto or register and not having anything else, such as not having size or other properties. We easily rule out this meaning on semantic rather than grammatical grounds.)



        These samples illustrate differences between the meanings:



        static int s                 // Prohibited by 1, 2, and 3.
        
extern int s(int)            // Prohibited by 1 and 2, permitted by 3.
        
struct { int i; float f; } s // Prohibited by 1, permitted by 2 and 3.
        
int s                        // Permitted by 1, 2, and 3.


        Effects May Illuminate Intent



        It does not appear there is a reason for preferring any of these meanings based on difficulties of implementing C. To see this, consider that a C implementation may easily rewrite:



        for (declaration; …; …) …


        to the equivalent code:



        { declaration; for (; …; …) … }


        Thus, if a C implementation can support declarations and for statements in general, it can support general declarations in a for statement without significant additional effort.



        What then is the purpose of 6.8.5 3?



        The declaration in a for statement provides convenience. It provides a nice way of declaring some iterator or other object used to control the loop, while limiting the scope to the for statement (which is a benefit for avoiding bugs). It does not provide any new function. Given this, I expect 6.8.5 3 was written with the intent of enabling the declaration to serve this purpose without opening it up to other purposes. It would be odd, although not impossible, to use either of the first two sample declarations above in a for statement.



        If so, I suspect the surface intent of the committee was meaning 1 but that they did not consider the situation where an unnamed type is incidentally declared. When we reflect on the third sample, using a structure, we see that it is unusual but is not too out of line with the customary use of a for statement:




        • It arises naturally as a solution to the problem that only one declaration may be present in the declaration part of a for statement, yet sometimes it is useful to manage the loop with multiple objects of different types.

        • It is still an object with automatic storage generation, as intended for for loops.

        • The type that is technically declared is not needed outside the for loop.






        share|improve this answer













        Summary



        The potential violation of the C standard lies with this sentence in C 2018 6.8.5 3:




        The declaration part of a for statement shall only declare identifiers for objects having storage class auto or register.




        Since struct { int i; float f; } declares both a type and an identifier, there is some question about how to interpret 6.8.5 3. It appears to me that:




        • It is likely the committee intended to prohibit declaring anything but
          identifiers for auto or register objects.

        • This use case where a type is incidentally declared may not have been considered.

        • Allowing this incidental declaration would be harmless and not considerably out of line with the intent.


        (I would invite anybody more familiar with C committee records to bring to our attention anything pertaining to this.)



        (I give references to the 2018 C standard in this answer, but the language
        is old and exists in previous versions, perhaps with some different numbering
        of clauses or paragraphs.)



        Both a Type and an Identifier Are Declared



        The declaration in the following for statement declares both an identifier s and an unnamed type:



        for (struct { int i; float f; } s = { 0, 0 }; s.i < 25; ++s.i, s.f = s.i/10.f)


        We know it declares a type because C 2018 6.7.2.1 8 says:




        The presence of a struct-declaration-list in a struct-or-union-specifier declares a new type, within a translation unit.




        Per 6.7.2.1 1, struct { int i; float f; } is a struct-or-union-specifier, and, within it, int i; float f; is a struct-declaration list. So this source code matches the description of 6.7.2.1 8, so it declares a type.



        The Language of the C Standard is Ambiguous



        C 2018 6.8.5 3 says:




        The declaration part of a for statement shall only declare identifiers for objects having storage class auto or register.




        As a matter of English grammar and use, several meanings are possible for this sentence, including:




        1. The only things the declaration shall declare are identifiers for objects having storage class auto or register.

        2. The only identifiers the declaration shall declare are identifiers for objects having storage class auto or register.

        3. The only identifiers for objects the declaration shall declare are identifiers for objects having storage class auto or register.


        Primarily, the problem is the “only” is not adjacent to the thing it is modifying. The “only” could be modifying “identifiers” or “objects” or “storage class.” One might prefer the modifier to modify the candidate nearest it, but the authors of sentences do not always construct them thusly. (Grammatically, it could also modify “having,” thus qualifying the objects as having only storage class auto or register and not having anything else, such as not having size or other properties. We easily rule out this meaning on semantic rather than grammatical grounds.)



        These samples illustrate differences between the meanings:



        static int s                 // Prohibited by 1, 2, and 3.
        
extern int s(int)            // Prohibited by 1 and 2, permitted by 3.
        
struct { int i; float f; } s // Prohibited by 1, permitted by 2 and 3.
        
int s                        // Permitted by 1, 2, and 3.


        Effects May Illuminate Intent



        It does not appear there is a reason for preferring any of these meanings based on difficulties of implementing C. To see this, consider that a C implementation may easily rewrite:



        for (declaration; …; …) …


        to the equivalent code:



        { declaration; for (; …; …) … }


        Thus, if a C implementation can support declarations and for statements in general, it can support general declarations in a for statement without significant additional effort.



        What then is the purpose of 6.8.5 3?



        The declaration in a for statement provides convenience. It provides a nice way of declaring some iterator or other object used to control the loop, while limiting the scope to the for statement (which is a benefit for avoiding bugs). It does not provide any new function. Given this, I expect 6.8.5 3 was written with the intent of enabling the declaration to serve this purpose without opening it up to other purposes. It would be odd, although not impossible, to use either of the first two sample declarations above in a for statement.



        If so, I suspect the surface intent of the committee was meaning 1 but that they did not consider the situation where an unnamed type is incidentally declared. When we reflect on the third sample, using a structure, we see that it is unusual but is not too out of line with the customary use of a for statement:




        • It arises naturally as a solution to the problem that only one declaration may be present in the declaration part of a for statement, yet sometimes it is useful to manage the loop with multiple objects of different types.

        • It is still an object with automatic storage generation, as intended for for loops.

        • The type that is technically declared is not needed outside the for loop.







        share|improve this answer












        share|improve this answer



        share|improve this answer










        answered Dec 1 '18 at 1:05









        Eric PostpischilEric Postpischil

        78.6k883166




        78.6k883166






























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