Changeset f5fbcad for doc/theses
- Timestamp:
- Mar 24, 2024, 9:51:57 PM (9 months ago)
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doc/theses/mike_brooks_MMath/background.tex
rbdc8591 rf5fbcad 1 1 \chapter{Background} 2 2 3 This chapter states facts about the prior work, upon which my contributions build. 4 Each receives a justification of the extent to which its statement is phrased to provoke controversy or surprise. 5 6 \section{C} 7 8 \subsection{Common knowledge} 9 10 The reader is assumed to have used C or \CC for the coursework of at least four university-level courses, or have equivalent experience. 11 The current discussion introduces facts, unaware of which, such a functioning novice may be operating. 12 13 % TODO: decide if I'm also claiming this collection of facts, and test-oriented presentation is a contribution; if so, deal with (not) arguing for its originality 14 15 \subsection{Convention: C is more touchable than its standard} 16 17 When it comes to explaining how C works, I like illustrating definite program semantics. 18 I prefer doing so, over a quoting manual's suggested programmer's intuition, or showing how some compiler writers chose to model their problem. 19 To illustrate definite program semantics, I devise a program, whose behaviour exercises the point at issue, and I show its behaviour. 20 21 This behaviour is typically one of 22 \begin{itemize} 23 \item my statement that the compiler accepts or rejects the program 24 \item the program's printed output, which I show 25 \item my implied assurance that its assertions do not fail when run 26 \end{itemize} 27 28 The compiler whose program semantics is shown is 29 \begin{cfa} 30 $ gcc --version 31 gcc (Ubuntu 9.4.0-1ubuntu1~20.04.1) 9.4.0 32 \end{cfa} 33 running on Architecture @x86_64@, with the same environment targeted. 34 35 Unless explicit discussion ensues about differences among compilers or with (versions of) the standard, it is further implied that there exists a second version of GCC and some version of Clang, running on and for the same platform, that give substantially similar behaviour. 36 In this case, I do not argue that my sample of major Linux compilers is doing the right thing with respect to the C standard. 37 38 39 \subsection{C reports many ill-typed expressions as warnings} 40 41 These attempts to assign @y@ to @x@ and vice-versa are obviously ill-typed. 42 \lstinput{12-15}{bkgd-c-tyerr.c} 43 with warnings: 44 \begin{cfa} 45 warning: assignment to 'float *' from incompatible pointer type 'void (*)(void)' 46 warning: assignment to 'void (*)(void)' from incompatible pointer type 'float *' 47 \end{cfa} 48 Similarly, 49 \lstinput{17-19}{bkgd-c-tyerr.c} 50 with warning: 51 \begin{cfa} 52 warning: passing argument 1 of 'f' from incompatible pointer type 53 note: expected 'void (*)(void)' but argument is of type 'float *' 54 \end{cfa} 55 with a segmentation fault at runtime. 56 57 That @f@'s attempt to call @g@ fails is not due to 3.14 being a particularly unlucky choice of value to put in the variable @pi@. 58 Rather, it is because obtaining a program that includes this essential fragment, yet exhibits a behaviour other than "doomed to crash," is a matter for an obfuscated coding competition. 59 60 A "tractable syntactic method for proving the absence of certain program behaviours by classifying phrases according to the kinds of values they compute"*1 rejected the program. 61 The behaviour (whose absence is unprovable) is neither minor nor unlikely. 62 The rejection shows that the program is ill-typed. 63 64 Yet, the rejection presents as a GCC warning. 65 66 In the discussion following, ``ill-typed'' means giving a nonzero @gcc -Werror@ exit condition with a message that discusses typing. 67 68 *1 TAPL-pg1 definition of a type system 69 70 71 \section{C Arrays} 72 73 \subsection{C has an array type (!)} 3 Since this work builds on C, it is necessary to explain the C mechanisms and their shortcomings for array, linked list, and string, 4 5 6 \section{Array} 74 7 75 8 When a programmer works with an array, C semantics provide access to a type that is different in every way from ``pointer to its first element.'' … … 511 444 512 445 513 \section{\CFA} 514 515 Traditionally, fixing C meant leaving the C-ism alone, while providing a better alternative beside it. 516 (For later: That's what I offer with array.hfa, but in the future-work vision for arrays, the fix includes helping programmers stop accidentally using a broken C-ism.) 517 518 \subsection{\CFA features interacting with arrays} 519 520 Prior work on \CFA included making C arrays, as used in C code from the wild, 521 work, if this code is fed into @cfacc@. 522 The quality of this this treatment was fine, with no more or fewer bugs than is typical. 523 524 More mixed results arose with feeding these ``C'' arrays into preexisting \CFA features. 525 526 A notable success was with the \CFA @alloc@ function, 527 which type information associated with a polymorphic return type 528 replaces @malloc@'s use of programmer-supplied size information. 529 \begin{cfa} 530 // C, library 531 void * malloc( size_t ); 532 // C, user 533 struct tm * el1 = malloc( sizeof(struct tm) ); 534 struct tm * ar1 = malloc( 10 * sizeof(struct tm) ); 535 536 // CFA, library 537 forall( T * ) T * alloc(); 538 // CFA, user 539 tm * el2 = alloc(); 540 tm (*ar2)[10] = alloc(); 541 \end{cfa} 542 The alloc polymorphic return compiles into a hidden parameter, which receives a compiler-generated argument. 543 This compiler's argument generation uses type information from the left-hand side of the initialization to obtain the intended type. 544 Using a compiler-produced value eliminates an opportunity for user error. 545 546 TODO: fix in following: even the alloc call gives bad code gen: verify it was always this way; walk back the wording about things just working here; assignment (rebind) seems to offer workaround, as in bkgd-cfa-arrayinteract.cfa 547 548 Bringing in another \CFA feature, reference types, both resolves a sore spot of the last example, and gives a first example of an array-interaction bug. 549 In the last example, the choice of ``pointer to array'' @ar2@ breaks a parallel with @ar1@. 550 They are not subscripted in the same way. 551 \begin{cfa} 552 ar1[5]; 553 (*ar2)[5]; 554 \end{cfa} 555 Using ``reference to array'' works at resolving this issue. TODO: discuss connection with Doug-Lea \CC proposal. 556 \begin{cfa} 557 tm (&ar3)[10] = *alloc(); 558 ar3[5]; 559 \end{cfa} 560 The implicit size communication to @alloc@ still works in the same ways as for @ar2@. 561 562 Using proper array types (@ar2@ and @ar3@) addresses a concern about using raw element pointers (@ar1@), albeit a theoretical one. 563 TODO xref C standard does not claim that @ar1@ may be subscripted, 564 because no stage of interpreting the construction of @ar1@ has it be that ``there is an \emph{array object} here.'' 565 But both @*ar2@ and the referent of @ar3@ are the results of \emph{typed} @alloc@ calls, 566 where the type requested is an array, making the result, much more obviously, an array object. 567 568 The ``reference to array'' type has its sore spots too. 569 TODO see also @dimexpr-match-c/REFPARAM_CALL@ (under @TRY_BUG_1@) 570 571 TODO: I fixed a bug associated with using an array as a T. I think. Did I really? What was the bug? 446 \section{Linked List} 447 448 449 \section{String}
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