From Lazarus wiki
Revision as of 22:35, 16 December 2007 by Xhajt03 (talk | contribs) (Added link to System unit structure)
Jump to navigationJump to search
The printable version is no longer supported and may have rendering errors. Please update your browser bookmarks and please use the default browser print function instead.

This page provides blueprints of features, both mandatory and optional, which have been implemented/tested on at least one platform, but which still have to or could be added for other platforms. When adding a new entry, please add as much technical information as needed about the existing implementations for other platforms and the generic support routines which are available. Do not just add bug fix requests, that is what Mantis is for.

Note that description of System unit structure (especially the internal platform-specific implementation) provides another useful source of information for porting to new platforms (and aligning behaviour for the existing ports).


Widestring manager

  • Required for: proper functioning of locale-dependent widestring and ansistring operations (assignments, comparisons)
  • Platforms implemented: Windows, unix
  • Platforms Todo: OS/2, symbian, macos9, morphos, netware
  • Generic usable routines: rtl/inc/wstringh.inc, rtl/inc/wustring.inc
  • What: implement widestring manager helpers. Add them to your system unit if they can be linked into any binary, or into a unit called "cwstring" if they depend on an external library on which programs should not depend by default. If added to the system unit, also define FPC_NOGENERICANSIROUTINES at the top of your platform's sysutils unit.
  • Existing implementations: win{32,64,ce}/system.pp (complete? -- search for widestringmanager), rtl/unix/cwstring.pp
  • Tests: tests/test/twide*.pp, tests/test/units/sysutils/tastrcmp.pp, and some in tests/tbs and tests/webtbs. Mostly not available and still need to be written.

i386/arm fpu/sse initialisation

  • Required for: initialising global variables indicating the presence of certain fpu types, so that the fpu exception masking routines also adjust the exception masks of these fpus.
  • Platforms implemented: win32 (i386), Linux (i386 and arm), FreeBSD (i386), Darwin (i386)
  • Platforms Todo: wince (arm), OS/2 (i386), BeOS (i386)
  • Generic usable routines: rtl/i386/i386.inc (fpc_cpucodeinit), rtl/arm/arm.inc (fpc_cpucodeinit)
  • What: call fpc_cpucodeinit in your system unit's initialisation code, and catch the potential "illegal instruction" exception in your exception/signal handler, checking/setting a global variable in the process indicating lacking support for the tested fpu type
  • Existing implementations: rtl/win32/system.pp (search for os_supports_sse and fpc_cpucodeinit), rtl/linux/system.pp and rtl/linux/arm/sighnd.inc and rtl/linux/i386/sighnd.inc (idem), rtl/bsd/system.pp and rtl/freebsd/i386/sighnd.inc (idem)
  • Tests: tests/test/units/math/tmask*.pp compiled with -Cfsse2 (i386) or with -Cf{fpa,fpa10,fpa11} (arm)

Dynamic library initialization/finalization

  • Required for: Working initialization/finalization sections in dynamic libraries
  • Platforms implemented: windows all, Darwin
  • Platforms Todo: All other platforms which support dynamic libraries
  • Generic usable routines: compiler/rtl/ncgutil.pas (gen_proc_symbol_end)
  • What: When current_module.islibrary is true,
    • call the procedure whose procdef.potype_proginit=potype_proginit when the library is initialised
    • when (current_module.flags and uf_finalize)<>0 call the current_procinfo.procdef when the library is finalised
  • Existing implementations: The darwin implementation can be found in compiler/rtl/ncgutil.pas (gen_proc_symbol_end).
  • Tests: None yet.


Compiler optimizations

(u)int32x(u)int32 to (u)int64 multiplication

  • Required for: optimizing 32x32->64 bit multiplications (several 32 bit architectures can do this without needing to perform a full 64 bit multiplication)
  • Platforms implemented: PowerPC 32
  • Platforms Todo: all other 32 bit architectures
  • Generic routines: compiler/nadd.pas (use_generic_mul32to64/first_add64bitint/try_make_mul32to64)
  • What: override taddnode.use_generic_mul32to64 and let it return false, then add support to your architecture's muln handler for performing signed and unsigned 32 bit int to signed/unsigned 64 bit int multiplications (i.e., left.resultdef and right.resultdef = 32 bit ints, self.resultdef = 64 bit int)
  • Existing implementations: compiler/powerpc/ncpuadd.pas (second_add64bit, search for MULHW/MULHWU)
  • Tests: tests/test/cg/tmul3264.pp
  • Notes: does not occur much in at least the rtl/compiler code base

Bit(field) getting/setting primitives

  • Required for: being able to use the generic tcginnode code and still getting (close to) optimal code, faster record register variables and faster bitpacked records/arrays
  • Platforms implemented: PowerPC 32/64
  • Platforms Todo: all other architectures
  • Generic routines: compiler/cgobj.pas (a*subsetreg, a*subsetref, a_bit_test*)
  • What: override (some of) the subsetreg/subsetref routines to use architecture-specific opcodes for setting/getting bits and/or bitfields (the a_bit_test* routines mostly use the subsetref/reg routines under the hood, except for a_bit_test_reg_reg_reg, so in general it's better to implement special cases for the subsetreg/ref routines as these are used in more cases)
  • Existing implementations: compiler/ppcgen/cgppc.pas (a_load_subsetref_regs_noindex), compiler/powerpc/cgcpu.pas (a_load_subsetreg_reg, a_load_subsetreg_subsetreg, a_load_regconst_subsetreg_intern), compiler/powerpc64/cgcpu.pas (a_load_subsetreg_reg, a_load_const_subsetreg, a_load_regconst_subsetreg_intern)
  • Tests: tests/test/tparray*.pp, tests/test/tprec*.pp, tests/test/trecreg*.pp