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173 lines
7.2 KiB
Plaintext
173 lines
7.2 KiB
Plaintext
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Better String library Porting Guide
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-----------------------------------
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by Paul Hsieh
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The bstring library is an attempt to provide improved string processing
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functionality to the C and C++ language. At the heart of the bstring library
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is the management of "bstring"s which are a significant improvement over '\0'
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terminated char buffers. See the accompanying documenation file bstrlib.txt
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for more information.
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===============================================================================
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Identifying the Compiler
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------------------------
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Bstrlib has been tested on the following compilers:
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Microsoft Visual C++
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Watcom C/C++ (32 bit flat)
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Intel's C/C++ compiler (on Windows)
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The GNU C/C++ compiler (on Windows/Linux on x86 and PPC64)
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Borland C++
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Turbo C
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There are slight differences in these compilers which requires slight
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differences in the implementation of Bstrlib. These are accomodated in the
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same sources using #ifdef/#if defined() on compiler specific macros. To
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port Bstrlib to a new compiler not listed above, it is recommended that the
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same strategy be followed. If you are unaware of the compiler specific
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identifying preprocessor macro for your compiler you might find it here:
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http://predef.sourceforge.net/precomp.html
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Note that Intel C/C++ on Windows sets the Microsoft identifier: _MSC_VER.
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16-bit vs. 32-bit vs. 64-bit Systems
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------------------------------------
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Bstrlib has been architected to deal with strings of length between 0 and
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INT_MAX (inclusive). Since the values of int are never higher than size_t
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there will be no issue here. Note that on most 64-bit systems int is 32-bit.
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Dependency on The C-Library
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---------------------------
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Bstrlib uses the functions memcpy, memmove, malloc, realloc, free and
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vsnprintf. Many free standing C compiler implementations that have a mode in
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which the C library is not available will typically not include these
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functions which will make porting Bstrlib to it onerous. Bstrlib is not
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designed for such bare bones compiler environments. This usually includes
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compilers that target ROM environments.
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Porting Issues
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--------------
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Bstrlib has been written completely in ANSI/ISO C and ISO C++, however, there
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are still a few porting issues. These are described below.
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1. The vsnprintf () function.
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Unfortunately, the earlier ANSI/ISO C standards did not include this function.
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If the compiler of interest does not support this function then the
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BSTRLIB_NOVSNP should be defined via something like:
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#if !defined (BSTRLIB_VSNP_OK) && !defined (BSTRLIB_NOVSNP)
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# if defined (__TURBOC__) || defined (__COMPILERVENDORSPECIFICMACRO__)
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# define BSTRLIB_NOVSNP
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# endif
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#endif
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which appears at the top of bstrlib.h. Note that the bformat(a) functions
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will not be declared or implemented if the BSTRLIB_NOVSNP macro is set. If
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the compiler has renamed vsnprintf() to some other named function, then
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search for the definition of the exvsnprintf macro in bstrlib.c file and be
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sure its defined appropriately:
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#if defined (__COMPILERVENDORSPECIFICMACRO__)
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# define exvsnprintf(r,b,n,f,a) {r=__compiler_specific_vsnprintf(b,n,f,a);}
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#else
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# define exvsnprintf(r,b,n,f,a) {r=vsnprintf(b,n,f,a);}
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#endif
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Take notice of the return value being captured in the variable r. It is
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assumed that r exceeds n if and only if the underlying vsnprintf function has
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determined what the true maximal output length would be for output if the
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buffer were large enough to hold it. Non-modern implementations must output a
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lesser number (the macro can and should be modified to ensure this).
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2. Weak C++ compiler.
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C++ is a much more complicated language to implement than C. This has lead
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to varying quality of compiler implementations. The weaknesses isolated in
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the initial ports are inclusion of the Standard Template Library,
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std::iostream and exception handling. By default it is assumed that the C++
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compiler supports all of these things correctly. If your compiler does not
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support one or more of these define the corresponding macro:
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BSTRLIB_CANNOT_USE_STL
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BSTRLIB_CANNOT_USE_IOSTREAM
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BSTRLIB_DOESNT_THROW_EXCEPTIONS
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The compiler specific detected macro should be defined at the top of
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bstrwrap.h in the Configuration defines section. Note that these disabling
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macros can be overrided with the associated enabling macro if a subsequent
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version of the compiler gains support. (For example, its possible to rig
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up STLport to provide STL support for WATCOM C/C++, so -DBSTRLIB_CAN_USE_STL
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can be passed in as a compiler option.)
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3. The bsafe module, and reserved words.
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The bsafe module is in gross violation of the ANSI/ISO C standard in the
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sense that it redefines what could be implemented as reserved words on a
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given compiler. The typical problem is that a compiler may inline some of the
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functions and thus not be properly overridden by the definitions in the bsafe
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module. It is also possible that a compiler may prohibit the redefinitions in
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the bsafe module. Compiler specific action will be required to deal with
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these situations.
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Platform Specific Files
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-----------------------
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The makefiles for the examples are basically setup of for particular
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environments for each platform. In general these makefiles are not portable
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and should be constructed as necessary from scratch for each platform.
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Testing a port
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--------------
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To test that a port compiles correctly do the following:
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1. Build a sample project that includes the bstrlib, bstraux, bstrwrap, and
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bsafe modules.
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2. Compile bstest against the bstrlib module.
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3. Run bstest and ensure that 0 errors are reported.
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4. Compile test against the bstrlib and bstrwrap modules.
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5. Run test and ensure that 0 errors are reported.
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6. Compile each of the examples (except for the "re" example, which may be
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complicated and is not a real test of bstrlib and except for the mfcbench
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example which is Windows specific.)
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7. Run each of the examples.
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The builds must have 0 errors, and should have the absolute minimum number of
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warnings (in most cases can be reduced to 0.) The result of execution should
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be essentially identical on each platform.
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Performance
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-----------
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Different CPU and compilers have different capabilities in terms of
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performance. It is possible for Bstrlib to assume performance
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characteristics that a platform doesn't have (since it was primarily
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developed on just one platform). The goal of Bstrlib is to provide very good
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performance on all platforms regardless of this but without resorting to
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extreme measures (such as using assembly language, or non-portable intrinsics
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or library extensions.)
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There are two performance benchmarks that can be found in the example/
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directory. They are: cbench.c and cppbench.cpp. These are variations and
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expansions of a benchmark for another string library. They don't cover all
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string functionality, but do include the most basic functions which will be
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common in most string manipulation kernels.
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...............................................................................
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Feedback
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--------
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In all cases, you may email issues found to the primary author of Bstrlib at
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the email address: websnarf@users.sourceforge.net
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===============================================================================
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