X-Git-Url: http://wagnertech.de/git?a=blobdiff_plain;f=i686-linux-gnu-4.7%2Fusr%2Fshare%2Fdoc%2Fgcc-4.7-base%2FREADME.Bugs;fp=i686-linux-gnu-4.7%2Fusr%2Fshare%2Fdoc%2Fgcc-4.7-base%2FREADME.Bugs;h=ada73a2f1bad947abc1f155cc5d9a29d6a05ba6d;hb=94df942c2c7bd3457276fe5b7367623cbb8c1302;hp=0000000000000000000000000000000000000000;hpb=4dd7d9155a920895ff7b1cb6b9c9c676aa62000a;p=cross.git diff --git a/i686-linux-gnu-4.7/usr/share/doc/gcc-4.7-base/README.Bugs b/i686-linux-gnu-4.7/usr/share/doc/gcc-4.7-base/README.Bugs new file mode 100644 index 0000000..ada73a2 --- /dev/null +++ b/i686-linux-gnu-4.7/usr/share/doc/gcc-4.7-base/README.Bugs @@ -0,0 +1,306 @@ +Reporting Bugs in the GNU Compiler Collection for Ubuntu +======================================================== + +Before reporting a bug, please +------------------------------ + +- Check that the behaviour really is a bug. Have a look into some + ANSI standards document. + +- Check the list of well known bugs: http://gcc.gnu.org/bugs.html#known + +- Try to reproduce the bug with a current GCC development snapshot. You + usually can get a recent development snapshot from the gcc-snapshot + package in the current development distribution. + + See: http://archive.ubuntu.com/ubuntu/pool/universe/g/gcc-snapshot/ + +- Try to find out if the bug is a regression (an older GCC version does + not show the bug). + +- Check if the bug is already reported in the bug tracking systems. + + Ubuntu: https://bugs.launchpad.net/~ubuntu-toolchain/+packagebugs + Debian: http://bugs.debian.org/debian-gcc@lists.debian.org + Upstream: http://gcc.gnu.org/bugzilla/ + + +Where to report a bug +--------------------- + +Please report bugs found in the packaging of GCC to Launchpad. See below +how issues should be reported. + +Ubuntu's current policy is to closely follow the upstream development and +only apply a minimal set of patches (which are summarized in the README.Debian +document). + +If you think you have found an upstream bug, you did check the section +above ("Before reporting a bug") and are able to provide a complete bug +report (see below "How to report a bug"), then you may help the Ubuntu +GCC package maintainers, if you report the bug upstream and then submit +a bug report to Launchpad and tell us the upstream report number. +This way you are able to follow the upstream bug handling as well. If in +doubt, report the bug to Launchpad (but read "How to report a bug" below). + +Report the issue to https://bugs.launchpad.net/ubuntu/+source/gcc-4.7. + + +How to report a bug +------------------- + +There are complete instructions in the gcc info manual (found in the +gcc-doc package), section Bugs. + +The manual can be read using M-x info in Emacs, or if the GNU info +program is installed on your system by info --node "(gcc)Bugs". Or see +the file BUGS included with the gcc source code. + +Online bug reporting instructions can be found at + + http://gcc.gnu.org/bugs.html + +[Some paragraphs taken from the above URL] + +The main purpose of a bug report is to enable us to fix the bug. The +most important prerequisite for this is that the report must be +complete and self-contained, which we explain in detail below. + +Before you report a bug, please check the list of well-known bugs and, +if possible in any way, try a current development snapshot. + +Summarized bug reporting instructions +------------------------------------- + +What we need + +Please include in your bug report all of the following items, the +first three of which can be obtained from the output of gcc -v: + + * the exact version of GCC; + * the system type; + * the options given when GCC was configured/built; + * the complete command line that triggers the bug; + * the compiler output (error messages, warnings, etc.); and + * the preprocessed file (*.i*) that triggers the bug, generated by + adding -save-temps to the complete compilation command, or, in + the case of a bug report for the GNAT front end, a complete set + of source files (see below). + +What we do not want + + * A source file that #includes header files that are left out + of the bug report (see above) + * That source file and a collection of header files. + * An attached archive (tar, zip, shar, whatever) containing all + (or some :-) of the above. + * A code snippet that won't cause the compiler to produce the + exact output mentioned in the bug report (e.g., a snippet with + just a few lines around the one that apparently triggers the + bug, with some pieces replaced with ellipses or comments for + extra obfuscation :-) + * The location (URL) of the package that failed to build (we won't + download it, anyway, since you've already given us what we need + to duplicate the bug, haven't you? :-) + * An error that occurs only some of the times a certain file is + compiled, such that retrying a sufficient number of times + results in a successful compilation; this is a symptom of a + hardware problem, not of a compiler bug (sorry) + * E-mail messages that complement previous, incomplete bug + reports. Post a new, self-contained, full bug report instead, if + possible as a follow-up to the original bug report + * Assembly files (*.s) produced by the compiler, or any binary files, + such as object files, executables, core files, or precompiled + header files + * Duplicate bug reports, or reports of bugs already fixed in the + development tree, especially those that have already been + reported as fixed last week :-) + * Bugs in the assembler, the linker or the C library. These are + separate projects, with separate mailing lists and different bug + reporting procedures + * Bugs in releases or snapshots of GCC not issued by the GNU + Project. Report them to whoever provided you with the release + * Questions about the correctness or the expected behavior of + certain constructs that are not GCC extensions. Ask them in + forums dedicated to the discussion of the programming language + + +Known Bugs and Non-Bugs +----------------------- + +[Please see /usr/share/doc/gcc/FAQ or http://gcc.gnu.org/faq.html first] + + +C++ exceptions don't work with C libraries +------------------------------------------ + +[Taken from the closed bug report #22769] C++ exceptions don't work +with C libraries, if the C code wasn't designed to be thrown through. +A solution could be to translate all C libraries with -fexceptions. +Mostly trying to throw an exception in a callback function (qsort, +Tcl command callbacks, etc ...). Example: + + #include + #include + + class A {}; + + static + int SortCondition(void const*, void const*) + { + printf("throwing 'sortcondition' exception\n"); + throw A(); + } + + int main(int argc, char *argv[]) + { + int list[2]; + + try { + SortCondition(NULL,NULL); + } catch (A) { + printf("caught test-sortcondition exception\n"); + } + try { + qsort(&list, sizeof(list)/sizeof(list[0]),sizeof(list[0]), + &SortCondition); + } catch (A) { + printf("caught real-sortcondition exception\n"); + } + return 0; +} + +Andrew Macleod responded: + +When compiled with the table driven exception handling, exception can only +be thrown through functions which have been compiled with the table driven EH. +If a function isn't compiled that way, then we do not have the frame +unwinding information required to restore the registers when unwinding. + +I believe the setjmp/longjmp mechanism will throw through things like this, +but its produces much messier code. (-fsjlj-exceptions) + +The C compiler does support exceptions, you just have to turn them on +with -fexceptions. + +Your main options are to: + a) Don't use callbacks, or at least don't throw through them. + b) Get the source and compile the library with -fexceptions (You have to + explicitly turn on exceptions in the C compiler) + c) always use -fsjlj-exceptions (boo, bad choice :-) + + +g++: "undefined reference" to static const array in class +--------------------------------------------------------- + +The following code compiles under GNU C++ 2.7.2 with correct results, +but produces the same linker error with GNU C++ 2.95.2. +Alexandre Oliva responded: + +All of them are correct. A static data member *must* be defined +outside the class body even if it is initialized within the class +body, but no diagnostic is required if the definition is missing. It +turns out that some releases do emit references to the missing symbol, +while others optimize it away. + +#include + +class Test +{ + public: + Test(const char *q); + protected: + static const unsigned char Jam_signature[4] = "JAM"; +}; + +Test::Test(const char *q) +{ + if (memcmp(q, Jam_signature, sizeof(Jam_signature)) != 0) + cerr << "Hello world!\n"; +} + +int main(void) +{ + Test::Test("JAM"); + return 0; +} + +g++: g++ causes passing non const ptr to ptr to a func with const arg + to cause an error (not a bug) +--------------------------------------------------------------------- + +Example: + +#include +void test(const char **b){ + printf ("%s\n",*b); +} +int main(void){ + char *test1="aoeu"; + test(&test1); +} + +make const +g++ const.cc -o const +const.cc: In function int main(): +const.cc:7: passing char ** as argument 1 of test(const char **) adds cv-quals without intervening const +make: *** [const] Error 1 + +Answer from "Martin v. Loewis" : + +> ok... maybe I missed something.. I haven't really kept up with the latest in +> C++ news. But I've never heard anything even remotly close to passing a non +> const var into a const arg being an error before. + +Thanks for your bug report. This is a not a bug in the compiler, but +in your code. The standard, in 4.4/4, puts it that way + +# A conversion can add cv-qualifiers at levels other than the first in +# multi-level pointers, subject to the following rules: +# Two pointer types T1 and T2 are similar if there exists a type T and +# integer n > 0 such that: +# T1 is cv(1,0) pointer to cv(1,1) pointer to ... cv(1,n-1) +# pointer to cv(1,n) T +# and +# T2 is cv(2,0) pointer to cv(2,1) pointer to ... cv(2,n-1) +# pointer to cv(2,n) T +# where each cv(i,j) is const, volatile, const volatile, or +# nothing. The n-tuple of cv-qualifiers after the first in a pointer +# type, e.g., cv(1,1) , cv(1,2) , ... , cv(1,n) in the pointer type +# T1, is called the cv-qualification signature of the pointer type. An +# expression of type T1 can be converted to type T2 if and only if the +# following conditions are satisfied: +# - the pointer types are similar. +# - for every j > 0, if const is in cv(1,j) then const is in cv(2,j) , +# and similarly for volatile. +# - if the cv(1,j) and cv(2,j) are different, then const is in every +# cv(2,k) for 0 < k < j. + +It is the last rule that your code violates. The standard gives then +the following example as a rationale: + +# [Note: if a program could assign a pointer of type T** to a pointer +# of type const T** (that is, if line //1 below was allowed), a +# program could inadvertently modify a const object (as it is done on +# line //2). For example, +# int main() { +# const char c = 'c'; +# char* pc; +# const char** pcc = &pc; //1: not allowed +# *pcc = &c; +# *pc = 'C'; //2: modifies a const object +# } +# - end note] + +If you question this line of reasoning, please discuss it in one of +the public C++ fora first, eg. comp.lang.c++.moderated, or +comp.std.c++. + + +cpp removes blank lines +----------------------- + +With the new cpp, you need to add -traditional to the "cpp -P" args, else +blank lines get removed. + +[EDIT ME: scan Debian bug reports and write some nice summaries ...]