Mercurial > vim
view src/if_perl.xs @ 16150:b23048205589 v8.1.1080
patch 8.1.1080: when a screendump test fails, moving the file is a hassle
commit https://github.com/vim/vim/commit/ef7f0e367eeaf6fb31b1caa0e3de1a4b07e86af3
Author: Bram Moolenaar <Bram@vim.org>
Date: Sat Mar 30 15:59:51 2019 +0100
patch 8.1.1080: when a screendump test fails, moving the file is a hassle
Problem: When a screendump test fails, moving the file is a hassle.
Solution: Instead of appending ".failed" to the file name, keep the same
file name but put the screendump in the "failed" directory.
Then the file name only needs to be typed once when moving a
screendump.
| author | Bram Moolenaar <Bram@vim.org> |
|---|---|
| date | Sat, 30 Mar 2019 16:00:06 +0100 |
| parents | f0f8754e3bf5 |
| children | d95296021f6e |
line wrap: on
line source
/* vi:set ts=8 sts=4 sw=4 noet: * * VIM - Vi IMproved by Bram Moolenaar * * Do ":help uganda" in Vim to read copying and usage conditions. * Do ":help credits" in Vim to see a list of people who contributed. */ /* * if_perl.xs: Main code for Perl interface support. * Mostly written by Sven Verdoolaege. */ #define _memory_h /* avoid memset redeclaration */ #define IN_PERL_FILE /* don't include if_perl.pro from proto.h */ /* * Currently 32-bit version of ActivePerl is built with VC6 (or MinGW since * ActivePerl 5.18). * (http://community.activestate.com/faq/windows-compilers-perl-modules) * It means that time_t should be 32-bit. However the default size of * time_t is 64-bit since VC8. So we have to define _USE_32BIT_TIME_T. */ #if defined(WIN32) && !defined(_WIN64) # define _USE_32BIT_TIME_T #endif /* * Prevent including winsock.h. perl.h tries to detect whether winsock.h is * already included before including winsock2.h, because winsock2.h isn't * compatible with winsock.h. However the detection doesn't work with some * versions of MinGW. If WIN32_LEAN_AND_MEAN is defined, windows.h will not * include winsock.h. */ #ifdef WIN32 # define WIN32_LEAN_AND_MEAN #endif #include "vim.h" /* Work around for perl-5.18. * Don't include "perl\lib\CORE\inline.h" for now, * include it after Perl_sv_free2 is defined. */ #ifdef DYNAMIC_PERL # define PERL_NO_INLINE_FUNCTIONS #endif /* Work around for using MSVC and ActivePerl 5.18. */ #ifdef _MSC_VER # define __inline__ __inline #endif #ifdef __GNUC__ # pragma GCC diagnostic push # pragma GCC diagnostic ignored "-Wunused-variable" #endif #include <EXTERN.h> #include <perl.h> #include <XSUB.h> #if defined(PERLIO_LAYERS) && !defined(USE_SFIO) # include <perliol.h> #endif /* Workaround for perl < 5.8.7 */ #ifndef PERLIO_FUNCS_DECL # ifdef PERLIO_FUNCS_CONST # define PERLIO_FUNCS_DECL(funcs) const PerlIO_funcs funcs # define PERLIO_FUNCS_CAST(funcs) (PerlIO_funcs*)(funcs) # else # define PERLIO_FUNCS_DECL(funcs) PerlIO_funcs funcs # define PERLIO_FUNCS_CAST(funcs) (funcs) # endif #endif #ifndef SvREFCNT_inc_void_NN # define SvREFCNT_inc_void_NN SvREFCNT_inc #endif /* * Work around clashes between Perl and Vim namespace. proto.h doesn't * include if_perl.pro and perlsfio.pro when IN_PERL_FILE is defined, because * we need the CV typedef. proto.h can't be moved to after including * if_perl.h, because we get all sorts of name clashes then. */ #ifndef PROTO # ifndef __MINGW32__ # include "proto/if_perl.pro" # include "proto/if_perlsfio.pro" # endif #endif // Perl compatibility stuff. This should ensure compatibility with older // versions of Perl. #ifndef PERL_VERSION # include <patchlevel.h> # define PERL_REVISION 5 # define PERL_VERSION PATCHLEVEL # define PERL_SUBVERSION SUBVERSION #endif // Work around for ActivePerl 5.20.3+: Avoid generating (g)vim.lib. #if defined(ACTIVEPERL_VERSION) && (ACTIVEPERL_VERSION >= 2003) \ && defined(MSWIN) && defined(USE_DYNAMIC_LOADING) # undef XS_EXTERNAL # define XS_EXTERNAL(name) XSPROTO(name) #endif /* * Quoting Jan Dubois of Active State: * ActivePerl build 822 still identifies itself as 5.8.8 but already * contains many of the changes from the upcoming Perl 5.8.9 release. * * The changes include addition of two symbols (Perl_sv_2iv_flags, * Perl_newXS_flags) not present in earlier releases. * * Jan Dubois suggested the following guarding scheme. * * Active State defined ACTIVEPERL_VERSION as a string in versions before * 5.8.8; and so the comparison to 822 below needs to be guarded. */ #if (PERL_REVISION == 5) && (PERL_VERSION == 8) && (PERL_SUBVERSION >= 8) # if (ACTIVEPERL_VERSION >= 822) || (PERL_SUBVERSION >= 9) # define PERL589_OR_LATER # endif #endif #if (PERL_REVISION == 5) && (PERL_VERSION >= 9) # define PERL589_OR_LATER #endif #if (PERL_REVISION == 5) && ((PERL_VERSION > 10) || \ (PERL_VERSION == 10) && (PERL_SUBVERSION >= 1)) # define PERL5101_OR_LATER #endif #ifndef pTHX # define pTHX void # define pTHX_ #endif #ifndef EXTERN_C # define EXTERN_C #endif /* Compatibility hacks over */ static PerlInterpreter *perl_interp = NULL; static void xs_init(pTHX); static void VIM_init(void); EXTERN_C void boot_DynaLoader(pTHX_ CV*); /* * For dynamic linked perl. */ #if defined(DYNAMIC_PERL) || defined(PROTO) # ifndef DYNAMIC_PERL /* just generating prototypes */ # ifdef MSWIN typedef int HANDLE; # endif typedef int XSINIT_t; typedef int XSUBADDR_t; # endif # ifndef USE_ITHREADS typedef int perl_key; # endif # ifndef MSWIN # include <dlfcn.h> # define HANDLE void* # define PERL_PROC void* # define load_dll(n) dlopen((n), RTLD_LAZY|RTLD_GLOBAL) # define symbol_from_dll dlsym # define close_dll dlclose # else # define PERL_PROC FARPROC # define load_dll vimLoadLib # define symbol_from_dll GetProcAddress # define close_dll FreeLibrary # endif /* * Wrapper defines */ # define perl_alloc dll_perl_alloc # define perl_construct dll_perl_construct # define perl_parse dll_perl_parse # define perl_run dll_perl_run # define perl_destruct dll_perl_destruct # define perl_free dll_perl_free # define Perl_get_context dll_Perl_get_context # define Perl_croak dll_Perl_croak # ifdef PERL5101_OR_LATER # define Perl_croak_xs_usage dll_Perl_croak_xs_usage # endif # ifndef PROTO # define Perl_croak_nocontext dll_Perl_croak_nocontext # define Perl_call_argv dll_Perl_call_argv # define Perl_call_pv dll_Perl_call_pv # define Perl_eval_sv dll_Perl_eval_sv # define Perl_get_sv dll_Perl_get_sv # define Perl_eval_pv dll_Perl_eval_pv # define Perl_call_method dll_Perl_call_method # endif # define Perl_dowantarray dll_Perl_dowantarray # define Perl_free_tmps dll_Perl_free_tmps # define Perl_gv_stashpv dll_Perl_gv_stashpv # define Perl_markstack_grow dll_Perl_markstack_grow # define Perl_mg_find dll_Perl_mg_find # if (PERL_REVISION == 5) && (PERL_VERSION >= 28) # define Perl_mg_get dll_Perl_mg_get # endif # define Perl_newXS dll_Perl_newXS # define Perl_newSV dll_Perl_newSV # define Perl_newSViv dll_Perl_newSViv # define Perl_newSVpv dll_Perl_newSVpv # define Perl_pop_scope dll_Perl_pop_scope # define Perl_push_scope dll_Perl_push_scope # define Perl_save_int dll_Perl_save_int # if (PERL_REVISION == 5) && (PERL_VERSION >= 20) # define Perl_save_strlen dll_Perl_save_strlen # endif # define Perl_stack_grow dll_Perl_stack_grow # define Perl_set_context dll_Perl_set_context # if (PERL_REVISION == 5) && (PERL_VERSION >= 14) # define Perl_sv_2bool_flags dll_Perl_sv_2bool_flags # if (PERL_REVISION == 5) && (PERL_VERSION < 22) # define Perl_xs_apiversion_bootcheck dll_Perl_xs_apiversion_bootcheck # endif # else # define Perl_sv_2bool dll_Perl_sv_2bool # endif # define Perl_sv_2iv dll_Perl_sv_2iv # define Perl_sv_2mortal dll_Perl_sv_2mortal # if (PERL_REVISION == 5) && (PERL_VERSION >= 8) # define Perl_sv_2pv_flags dll_Perl_sv_2pv_flags # define Perl_sv_2pv_nolen dll_Perl_sv_2pv_nolen # else # define Perl_sv_2pv dll_Perl_sv_2pv # endif # define Perl_sv_2pvbyte dll_Perl_sv_2pvbyte # define Perl_sv_bless dll_Perl_sv_bless # if (PERL_REVISION == 5) && (PERL_VERSION >= 8) # define Perl_sv_catpvn_flags dll_Perl_sv_catpvn_flags # else # define Perl_sv_catpvn dll_Perl_sv_catpvn # endif # ifdef PERL589_OR_LATER # define Perl_sv_2iv_flags dll_Perl_sv_2iv_flags # define Perl_newXS_flags dll_Perl_newXS_flags # endif # define Perl_sv_free dll_Perl_sv_free # if (PERL_REVISION == 5) && (PERL_VERSION >= 10) # define Perl_sv_free2 dll_Perl_sv_free2 # endif # define Perl_sv_isa dll_Perl_sv_isa # define Perl_sv_magic dll_Perl_sv_magic # define Perl_sv_setiv dll_Perl_sv_setiv # define Perl_sv_setpv dll_Perl_sv_setpv # define Perl_sv_setpvn dll_Perl_sv_setpvn # if (PERL_REVISION == 5) && (PERL_VERSION >= 8) # define Perl_sv_setsv_flags dll_Perl_sv_setsv_flags # else # define Perl_sv_setsv dll_Perl_sv_setsv # endif # define Perl_sv_upgrade dll_Perl_sv_upgrade # define Perl_Tstack_sp_ptr dll_Perl_Tstack_sp_ptr # define Perl_Top_ptr dll_Perl_Top_ptr # define Perl_Tstack_base_ptr dll_Perl_Tstack_base_ptr # define Perl_Tstack_max_ptr dll_Perl_Tstack_max_ptr # define Perl_Ttmps_ix_ptr dll_Perl_Ttmps_ix_ptr # define Perl_Ttmps_floor_ptr dll_Perl_Ttmps_floor_ptr # define Perl_Tmarkstack_ptr_ptr dll_Perl_Tmarkstack_ptr_ptr # define Perl_Tmarkstack_max_ptr dll_Perl_Tmarkstack_max_ptr # define Perl_TSv_ptr dll_Perl_TSv_ptr # define Perl_TXpv_ptr dll_Perl_TXpv_ptr # define Perl_Tna_ptr dll_Perl_Tna_ptr # define Perl_Idefgv_ptr dll_Perl_Idefgv_ptr # define Perl_Ierrgv_ptr dll_Perl_Ierrgv_ptr # define Perl_Isv_yes_ptr dll_Perl_Isv_yes_ptr # define boot_DynaLoader dll_boot_DynaLoader # define Perl_Gthr_key_ptr dll_Perl_Gthr_key_ptr # define Perl_sys_init dll_Perl_sys_init # define Perl_sys_term dll_Perl_sys_term # define Perl_ISv_ptr dll_Perl_ISv_ptr # define Perl_Istack_max_ptr dll_Perl_Istack_max_ptr # define Perl_Istack_base_ptr dll_Perl_Istack_base_ptr # define Perl_Itmps_ix_ptr dll_Perl_Itmps_ix_ptr # define Perl_Itmps_floor_ptr dll_Perl_Itmps_floor_ptr # define Perl_IXpv_ptr dll_Perl_IXpv_ptr # define Perl_Ina_ptr dll_Perl_Ina_ptr # define Perl_Imarkstack_ptr_ptr dll_Perl_Imarkstack_ptr_ptr # define Perl_Imarkstack_max_ptr dll_Perl_Imarkstack_max_ptr # define Perl_Istack_sp_ptr dll_Perl_Istack_sp_ptr # define Perl_Iop_ptr dll_Perl_Iop_ptr # define Perl_call_list dll_Perl_call_list # define Perl_Iscopestack_ix_ptr dll_Perl_Iscopestack_ix_ptr # define Perl_Iunitcheckav_ptr dll_Perl_Iunitcheckav_ptr # if (PERL_REVISION == 5) && (PERL_VERSION >= 22) # define Perl_xs_handshake dll_Perl_xs_handshake # define Perl_xs_boot_epilog dll_Perl_xs_boot_epilog # endif # if (PERL_REVISION == 5) && (PERL_VERSION >= 14) # ifdef USE_ITHREADS # define PL_thr_key *dll_PL_thr_key # endif # endif # define Perl_hv_iternext_flags dll_Perl_hv_iternext_flags # define Perl_hv_iterinit dll_Perl_hv_iterinit # define Perl_hv_iterkey dll_Perl_hv_iterkey # define Perl_hv_iterval dll_Perl_hv_iterval # define Perl_av_fetch dll_Perl_av_fetch # define Perl_av_len dll_Perl_av_len # define Perl_sv_2nv_flags dll_Perl_sv_2nv_flags # if defined(PERLIO_LAYERS) && !defined(USE_SFIO) # define PerlIOBase_pushed dll_PerlIOBase_pushed # define PerlIO_define_layer dll_PerlIO_define_layer # endif # if (PERL_REVISION == 5) && (PERL_VERSION >= 24) # define Perl_savetmps dll_Perl_savetmps # endif /* * Declare HANDLE for perl.dll and function pointers. */ static HANDLE hPerlLib = NULL; static PerlInterpreter* (*perl_alloc)(); static void (*perl_construct)(PerlInterpreter*); static void (*perl_destruct)(PerlInterpreter*); static void (*perl_free)(PerlInterpreter*); static int (*perl_run)(PerlInterpreter*); static int (*perl_parse)(PerlInterpreter*, XSINIT_t, int, char**, char**); static void* (*Perl_get_context)(void); static void (*Perl_croak)(pTHX_ const char*, ...) __attribute__noreturn__; # ifdef PERL5101_OR_LATER /* Perl-5.18 has a different Perl_croak_xs_usage signature. */ # if (PERL_REVISION == 5) && (PERL_VERSION >= 18) static void (*Perl_croak_xs_usage)(const CV *const, const char *const params) __attribute__noreturn__; # else static void (*Perl_croak_xs_usage)(pTHX_ const CV *const, const char *const params) __attribute__noreturn__; # endif # endif static void (*Perl_croak_nocontext)(const char*, ...) __attribute__noreturn__; static I32 (*Perl_dowantarray)(pTHX); static void (*Perl_free_tmps)(pTHX); static HV* (*Perl_gv_stashpv)(pTHX_ const char*, I32); # if (PERL_REVISION == 5) && (PERL_VERSION >= 22) static I32* (*Perl_markstack_grow)(pTHX); # else static void (*Perl_markstack_grow)(pTHX); # endif static MAGIC* (*Perl_mg_find)(pTHX_ SV*, int); # if (PERL_REVISION == 5) && (PERL_VERSION >= 28) static int (*Perl_mg_get)(pTHX_ SV*); # endif static CV* (*Perl_newXS)(pTHX_ char*, XSUBADDR_t, char*); static SV* (*Perl_newSV)(pTHX_ STRLEN); static SV* (*Perl_newSViv)(pTHX_ IV); static SV* (*Perl_newSVpv)(pTHX_ const char*, STRLEN); static I32 (*Perl_call_argv)(pTHX_ const char*, I32, char**); static I32 (*Perl_call_pv)(pTHX_ const char*, I32); static I32 (*Perl_eval_sv)(pTHX_ SV*, I32); static SV* (*Perl_get_sv)(pTHX_ const char*, I32); static SV* (*Perl_eval_pv)(pTHX_ const char*, I32); static SV* (*Perl_call_method)(pTHX_ const char*, I32); static void (*Perl_pop_scope)(pTHX); static void (*Perl_push_scope)(pTHX); static void (*Perl_save_int)(pTHX_ int*); # if (PERL_REVISION == 5) && (PERL_VERSION >= 20) static void (*Perl_save_strlen)(pTHX_ STRLEN* ptr); # endif static SV** (*Perl_stack_grow)(pTHX_ SV**, SV**p, int); static SV** (*Perl_set_context)(void*); # if (PERL_REVISION == 5) && (PERL_VERSION >= 14) static bool (*Perl_sv_2bool_flags)(pTHX_ SV*, I32); # if (PERL_REVISION == 5) && (PERL_VERSION < 22) static void (*Perl_xs_apiversion_bootcheck)(pTHX_ SV *module, const char *api_p, STRLEN api_len); # endif # else static bool (*Perl_sv_2bool)(pTHX_ SV*); # endif static IV (*Perl_sv_2iv)(pTHX_ SV*); static SV* (*Perl_sv_2mortal)(pTHX_ SV*); # if (PERL_REVISION == 5) && (PERL_VERSION >= 8) static char* (*Perl_sv_2pv_flags)(pTHX_ SV*, STRLEN*, I32); static char* (*Perl_sv_2pv_nolen)(pTHX_ SV*); # else static char* (*Perl_sv_2pv)(pTHX_ SV*, STRLEN*); # endif static char* (*Perl_sv_2pvbyte)(pTHX_ SV*, STRLEN*); static SV* (*Perl_sv_bless)(pTHX_ SV*, HV*); # if (PERL_REVISION == 5) && (PERL_VERSION >= 8) static void (*Perl_sv_catpvn_flags)(pTHX_ SV* , const char*, STRLEN, I32); # else static void (*Perl_sv_catpvn)(pTHX_ SV*, const char*, STRLEN); # endif # ifdef PERL589_OR_LATER static IV (*Perl_sv_2iv_flags)(pTHX_ SV* sv, I32 flags); static CV * (*Perl_newXS_flags)(pTHX_ const char *name, XSUBADDR_t subaddr, const char *const filename, const char *const proto, U32 flags); # endif static void (*Perl_sv_free)(pTHX_ SV*); static int (*Perl_sv_isa)(pTHX_ SV*, const char*); static void (*Perl_sv_magic)(pTHX_ SV*, SV*, int, const char*, I32); static void (*Perl_sv_setiv)(pTHX_ SV*, IV); static void (*Perl_sv_setpv)(pTHX_ SV*, const char*); static void (*Perl_sv_setpvn)(pTHX_ SV*, const char*, STRLEN); # if (PERL_REVISION == 5) && (PERL_VERSION >= 8) static void (*Perl_sv_setsv_flags)(pTHX_ SV*, SV*, I32); # else static void (*Perl_sv_setsv)(pTHX_ SV*, SV*); # endif static bool (*Perl_sv_upgrade)(pTHX_ SV*, U32); # if (PERL_REVISION == 5) && (PERL_VERSION < 10) static SV*** (*Perl_Tstack_sp_ptr)(register PerlInterpreter*); static OP** (*Perl_Top_ptr)(register PerlInterpreter*); static SV*** (*Perl_Tstack_base_ptr)(register PerlInterpreter*); static SV*** (*Perl_Tstack_max_ptr)(register PerlInterpreter*); static I32* (*Perl_Ttmps_ix_ptr)(register PerlInterpreter*); static I32* (*Perl_Ttmps_floor_ptr)(register PerlInterpreter*); static I32** (*Perl_Tmarkstack_ptr_ptr)(register PerlInterpreter*); static I32** (*Perl_Tmarkstack_max_ptr)(register PerlInterpreter*); static SV** (*Perl_TSv_ptr)(register PerlInterpreter*); static XPV** (*Perl_TXpv_ptr)(register PerlInterpreter*); static STRLEN* (*Perl_Tna_ptr)(register PerlInterpreter*); # else /* Perl-5.18 has a different Perl_sv_free2 signature. */ # if (PERL_REVISION == 5) && (PERL_VERSION >= 18) static void (*Perl_sv_free2)(pTHX_ SV*, const U32); # else static void (*Perl_sv_free2)(pTHX_ SV*); # endif static void (*Perl_sys_init)(int* argc, char*** argv); static void (*Perl_sys_term)(void); static void (*Perl_call_list)(pTHX_ I32, AV*); # if (PERL_REVISION == 5) && (PERL_VERSION >= 14) # else static SV** (*Perl_ISv_ptr)(register PerlInterpreter*); static SV*** (*Perl_Istack_max_ptr)(register PerlInterpreter*); static SV*** (*Perl_Istack_base_ptr)(register PerlInterpreter*); static XPV** (*Perl_IXpv_ptr)(register PerlInterpreter*); static I32* (*Perl_Itmps_ix_ptr)(register PerlInterpreter*); static I32* (*Perl_Itmps_floor_ptr)(register PerlInterpreter*); static STRLEN* (*Perl_Ina_ptr)(register PerlInterpreter*); static I32** (*Perl_Imarkstack_ptr_ptr)(register PerlInterpreter*); static I32** (*Perl_Imarkstack_max_ptr)(register PerlInterpreter*); static SV*** (*Perl_Istack_sp_ptr)(register PerlInterpreter*); static OP** (*Perl_Iop_ptr)(register PerlInterpreter*); static I32* (*Perl_Iscopestack_ix_ptr)(register PerlInterpreter*); static AV** (*Perl_Iunitcheckav_ptr)(register PerlInterpreter*); # endif # endif # if (PERL_REVISION == 5) && (PERL_VERSION >= 22) static I32 (*Perl_xs_handshake)(const U32, void *, const char *, ...); static void (*Perl_xs_boot_epilog)(pTHX_ const U32); # endif # if (PERL_REVISION == 5) && (PERL_VERSION >= 14) # ifdef USE_ITHREADS static perl_key* dll_PL_thr_key; # endif # else static GV** (*Perl_Idefgv_ptr)(register PerlInterpreter*); static GV** (*Perl_Ierrgv_ptr)(register PerlInterpreter*); static SV* (*Perl_Isv_yes_ptr)(register PerlInterpreter*); static perl_key* (*Perl_Gthr_key_ptr)_((pTHX)); # endif static void (*boot_DynaLoader)_((pTHX_ CV*)); static HE * (*Perl_hv_iternext_flags)(pTHX_ HV *, I32); static I32 (*Perl_hv_iterinit)(pTHX_ HV *); static char * (*Perl_hv_iterkey)(pTHX_ HE *, I32 *); static SV * (*Perl_hv_iterval)(pTHX_ HV *, HE *); static SV** (*Perl_av_fetch)(pTHX_ AV *, SSize_t, I32); static SSize_t (*Perl_av_len)(pTHX_ AV *); static NV (*Perl_sv_2nv_flags)(pTHX_ SV *const, const I32); # if defined(PERLIO_LAYERS) && !defined(USE_SFIO) static IV (*PerlIOBase_pushed)(pTHX_ PerlIO *, const char *, SV *, PerlIO_funcs *); static void (*PerlIO_define_layer)(pTHX_ PerlIO_funcs *); # endif # if (PERL_REVISION == 5) && (PERL_VERSION >= 24) static void (*Perl_savetmps)(pTHX); # endif /* * Table of name to function pointer of perl. */ static struct { char* name; PERL_PROC* ptr; } perl_funcname_table[] = { {"perl_alloc", (PERL_PROC*)&perl_alloc}, {"perl_construct", (PERL_PROC*)&perl_construct}, {"perl_destruct", (PERL_PROC*)&perl_destruct}, {"perl_free", (PERL_PROC*)&perl_free}, {"perl_run", (PERL_PROC*)&perl_run}, {"perl_parse", (PERL_PROC*)&perl_parse}, {"Perl_get_context", (PERL_PROC*)&Perl_get_context}, {"Perl_croak", (PERL_PROC*)&Perl_croak}, # ifdef PERL5101_OR_LATER {"Perl_croak_xs_usage", (PERL_PROC*)&Perl_croak_xs_usage}, # endif # ifdef PERL_IMPLICIT_CONTEXT {"Perl_croak_nocontext", (PERL_PROC*)&Perl_croak_nocontext}, # endif {"Perl_dowantarray", (PERL_PROC*)&Perl_dowantarray}, {"Perl_free_tmps", (PERL_PROC*)&Perl_free_tmps}, {"Perl_gv_stashpv", (PERL_PROC*)&Perl_gv_stashpv}, {"Perl_markstack_grow", (PERL_PROC*)&Perl_markstack_grow}, {"Perl_mg_find", (PERL_PROC*)&Perl_mg_find}, # if (PERL_REVISION == 5) && (PERL_VERSION >= 28) {"Perl_mg_get", (PERL_PROC*)&Perl_mg_get}, # endif {"Perl_newXS", (PERL_PROC*)&Perl_newXS}, {"Perl_newSV", (PERL_PROC*)&Perl_newSV}, {"Perl_newSViv", (PERL_PROC*)&Perl_newSViv}, {"Perl_newSVpv", (PERL_PROC*)&Perl_newSVpv}, {"Perl_call_argv", (PERL_PROC*)&Perl_call_argv}, {"Perl_call_pv", (PERL_PROC*)&Perl_call_pv}, {"Perl_eval_sv", (PERL_PROC*)&Perl_eval_sv}, {"Perl_get_sv", (PERL_PROC*)&Perl_get_sv}, {"Perl_eval_pv", (PERL_PROC*)&Perl_eval_pv}, {"Perl_call_method", (PERL_PROC*)&Perl_call_method}, {"Perl_pop_scope", (PERL_PROC*)&Perl_pop_scope}, {"Perl_push_scope", (PERL_PROC*)&Perl_push_scope}, {"Perl_save_int", (PERL_PROC*)&Perl_save_int}, # if (PERL_REVISION == 5) && (PERL_VERSION >= 20) {"Perl_save_strlen", (PERL_PROC*)&Perl_save_strlen}, # endif {"Perl_stack_grow", (PERL_PROC*)&Perl_stack_grow}, {"Perl_set_context", (PERL_PROC*)&Perl_set_context}, # if (PERL_REVISION == 5) && (PERL_VERSION >= 14) {"Perl_sv_2bool_flags", (PERL_PROC*)&Perl_sv_2bool_flags}, # if (PERL_REVISION == 5) && (PERL_VERSION < 22) {"Perl_xs_apiversion_bootcheck",(PERL_PROC*)&Perl_xs_apiversion_bootcheck}, # endif # else {"Perl_sv_2bool", (PERL_PROC*)&Perl_sv_2bool}, # endif {"Perl_sv_2iv", (PERL_PROC*)&Perl_sv_2iv}, {"Perl_sv_2mortal", (PERL_PROC*)&Perl_sv_2mortal}, # if (PERL_REVISION == 5) && (PERL_VERSION >= 8) {"Perl_sv_2pv_flags", (PERL_PROC*)&Perl_sv_2pv_flags}, {"Perl_sv_2pv_nolen", (PERL_PROC*)&Perl_sv_2pv_nolen}, # else {"Perl_sv_2pv", (PERL_PROC*)&Perl_sv_2pv}, # endif {"Perl_sv_2pvbyte", (PERL_PROC*)&Perl_sv_2pvbyte}, # ifdef PERL589_OR_LATER {"Perl_sv_2iv_flags", (PERL_PROC*)&Perl_sv_2iv_flags}, {"Perl_newXS_flags", (PERL_PROC*)&Perl_newXS_flags}, # endif {"Perl_sv_bless", (PERL_PROC*)&Perl_sv_bless}, # if (PERL_REVISION == 5) && (PERL_VERSION >= 8) {"Perl_sv_catpvn_flags", (PERL_PROC*)&Perl_sv_catpvn_flags}, # else {"Perl_sv_catpvn", (PERL_PROC*)&Perl_sv_catpvn}, # endif {"Perl_sv_free", (PERL_PROC*)&Perl_sv_free}, {"Perl_sv_isa", (PERL_PROC*)&Perl_sv_isa}, {"Perl_sv_magic", (PERL_PROC*)&Perl_sv_magic}, {"Perl_sv_setiv", (PERL_PROC*)&Perl_sv_setiv}, {"Perl_sv_setpv", (PERL_PROC*)&Perl_sv_setpv}, {"Perl_sv_setpvn", (PERL_PROC*)&Perl_sv_setpvn}, # if (PERL_REVISION == 5) && (PERL_VERSION >= 8) {"Perl_sv_setsv_flags", (PERL_PROC*)&Perl_sv_setsv_flags}, # else {"Perl_sv_setsv", (PERL_PROC*)&Perl_sv_setsv}, # endif {"Perl_sv_upgrade", (PERL_PROC*)&Perl_sv_upgrade}, # if (PERL_REVISION == 5) && (PERL_VERSION < 10) {"Perl_Tstack_sp_ptr", (PERL_PROC*)&Perl_Tstack_sp_ptr}, {"Perl_Top_ptr", (PERL_PROC*)&Perl_Top_ptr}, {"Perl_Tstack_base_ptr", (PERL_PROC*)&Perl_Tstack_base_ptr}, {"Perl_Tstack_max_ptr", (PERL_PROC*)&Perl_Tstack_max_ptr}, {"Perl_Ttmps_ix_ptr", (PERL_PROC*)&Perl_Ttmps_ix_ptr}, {"Perl_Ttmps_floor_ptr", (PERL_PROC*)&Perl_Ttmps_floor_ptr}, {"Perl_Tmarkstack_ptr_ptr", (PERL_PROC*)&Perl_Tmarkstack_ptr_ptr}, {"Perl_Tmarkstack_max_ptr", (PERL_PROC*)&Perl_Tmarkstack_max_ptr}, {"Perl_TSv_ptr", (PERL_PROC*)&Perl_TSv_ptr}, {"Perl_TXpv_ptr", (PERL_PROC*)&Perl_TXpv_ptr}, {"Perl_Tna_ptr", (PERL_PROC*)&Perl_Tna_ptr}, # else {"Perl_sv_free2", (PERL_PROC*)&Perl_sv_free2}, {"Perl_sys_init", (PERL_PROC*)&Perl_sys_init}, {"Perl_sys_term", (PERL_PROC*)&Perl_sys_term}, {"Perl_call_list", (PERL_PROC*)&Perl_call_list}, # if (PERL_REVISION == 5) && (PERL_VERSION >= 14) # else {"Perl_ISv_ptr", (PERL_PROC*)&Perl_ISv_ptr}, {"Perl_Istack_max_ptr", (PERL_PROC*)&Perl_Istack_max_ptr}, {"Perl_Istack_base_ptr", (PERL_PROC*)&Perl_Istack_base_ptr}, {"Perl_IXpv_ptr", (PERL_PROC*)&Perl_IXpv_ptr}, {"Perl_Itmps_ix_ptr", (PERL_PROC*)&Perl_Itmps_ix_ptr}, {"Perl_Itmps_floor_ptr", (PERL_PROC*)&Perl_Itmps_floor_ptr}, {"Perl_Ina_ptr", (PERL_PROC*)&Perl_Ina_ptr}, {"Perl_Imarkstack_ptr_ptr", (PERL_PROC*)&Perl_Imarkstack_ptr_ptr}, {"Perl_Imarkstack_max_ptr", (PERL_PROC*)&Perl_Imarkstack_max_ptr}, {"Perl_Istack_sp_ptr", (PERL_PROC*)&Perl_Istack_sp_ptr}, {"Perl_Iop_ptr", (PERL_PROC*)&Perl_Iop_ptr}, {"Perl_Iscopestack_ix_ptr", (PERL_PROC*)&Perl_Iscopestack_ix_ptr}, {"Perl_Iunitcheckav_ptr", (PERL_PROC*)&Perl_Iunitcheckav_ptr}, # endif # endif # if (PERL_REVISION == 5) && (PERL_VERSION >= 22) {"Perl_xs_handshake", (PERL_PROC*)&Perl_xs_handshake}, {"Perl_xs_boot_epilog", (PERL_PROC*)&Perl_xs_boot_epilog}, # endif # if (PERL_REVISION == 5) && (PERL_VERSION >= 14) # ifdef USE_ITHREADS {"PL_thr_key", (PERL_PROC*)&dll_PL_thr_key}, # endif # else {"Perl_Idefgv_ptr", (PERL_PROC*)&Perl_Idefgv_ptr}, {"Perl_Ierrgv_ptr", (PERL_PROC*)&Perl_Ierrgv_ptr}, {"Perl_Isv_yes_ptr", (PERL_PROC*)&Perl_Isv_yes_ptr}, {"Perl_Gthr_key_ptr", (PERL_PROC*)&Perl_Gthr_key_ptr}, # endif {"boot_DynaLoader", (PERL_PROC*)&boot_DynaLoader}, {"Perl_hv_iternext_flags", (PERL_PROC*)&Perl_hv_iternext_flags}, {"Perl_hv_iterinit", (PERL_PROC*)&Perl_hv_iterinit}, {"Perl_hv_iterkey", (PERL_PROC*)&Perl_hv_iterkey}, {"Perl_hv_iterval", (PERL_PROC*)&Perl_hv_iterval}, {"Perl_av_fetch", (PERL_PROC*)&Perl_av_fetch}, {"Perl_av_len", (PERL_PROC*)&Perl_av_len}, {"Perl_sv_2nv_flags", (PERL_PROC*)&Perl_sv_2nv_flags}, # if defined(PERLIO_LAYERS) && !defined(USE_SFIO) {"PerlIOBase_pushed", (PERL_PROC*)&PerlIOBase_pushed}, {"PerlIO_define_layer", (PERL_PROC*)&PerlIO_define_layer}, # endif # if (PERL_REVISION == 5) && (PERL_VERSION >= 24) {"Perl_savetmps", (PERL_PROC*)&Perl_savetmps}, # endif {"", NULL}, }; /* Work around for perl-5.18. * For now, only the definitions of S_SvREFCNT_dec are needed in * "perl\lib\CORE\inline.h". */ # if (PERL_REVISION == 5) && (PERL_VERSION >= 18) static void S_SvREFCNT_dec(pTHX_ SV *sv) { if (LIKELY(sv != NULL)) { U32 rc = SvREFCNT(sv); if (LIKELY(rc > 1)) SvREFCNT(sv) = rc - 1; else Perl_sv_free2(aTHX_ sv, rc); } } # endif /* perl-5.26 also needs S_TOPMARK and S_POPMARK. */ # if (PERL_REVISION == 5) && (PERL_VERSION >= 26) PERL_STATIC_INLINE I32 S_TOPMARK(pTHX) { DEBUG_s(DEBUG_v(PerlIO_printf(Perl_debug_log, "MARK top %p %" IVdf "\n", PL_markstack_ptr, (IV)*PL_markstack_ptr))); return *PL_markstack_ptr; } PERL_STATIC_INLINE I32 S_POPMARK(pTHX) { DEBUG_s(DEBUG_v(PerlIO_printf(Perl_debug_log, "MARK pop %p %" IVdf "\n", (PL_markstack_ptr-1), (IV)*(PL_markstack_ptr-1)))); assert((PL_markstack_ptr > PL_markstack) || !"MARK underflow"); return *PL_markstack_ptr--; } # endif /* * Make all runtime-links of perl. * * 1. Get module handle using dlopen() or vimLoadLib(). * 2. Get pointer to perl function by GetProcAddress. * 3. Repeat 2, until get all functions will be used. * * Parameter 'libname' provides name of DLL. * Return OK or FAIL. */ static int perl_runtime_link_init(char *libname, int verbose) { int i; if (hPerlLib != NULL) return OK; if ((hPerlLib = load_dll(libname)) == NULL) { if (verbose) semsg(_("E370: Could not load library %s"), libname); return FAIL; } for (i = 0; perl_funcname_table[i].ptr; ++i) { if (!(*perl_funcname_table[i].ptr = symbol_from_dll(hPerlLib, perl_funcname_table[i].name))) { close_dll(hPerlLib); hPerlLib = NULL; if (verbose) semsg((const char *)_(e_loadfunc), perl_funcname_table[i].name); return FAIL; } } return OK; } /* * If runtime-link-perl(DLL) was loaded successfully, return TRUE. * There were no DLL loaded, return FALSE. */ int perl_enabled(int verbose) { return perl_runtime_link_init((char *)p_perldll, verbose) == OK; } #endif /* DYNAMIC_PERL */ #if defined(PERLIO_LAYERS) && !defined(USE_SFIO) static void vim_IOLayer_init(void); #endif /* * perl_init(): initialize perl interpreter * We have to call perl_parse to initialize some structures, * there's nothing to actually parse. */ static void perl_init(void) { char *bootargs[] = { "VI", NULL }; int argc = 3; static char *argv[] = { "", "-e", "" }; #if (PERL_REVISION == 5) && (PERL_VERSION >= 10) Perl_sys_init(&argc, (char***)&argv); #endif perl_interp = perl_alloc(); perl_construct(perl_interp); perl_parse(perl_interp, xs_init, argc, argv, 0); perl_call_argv("VIM::bootstrap", (long)G_DISCARD, bootargs); VIM_init(); #ifdef USE_SFIO sfdisc(PerlIO_stdout(), sfdcnewvim()); sfdisc(PerlIO_stderr(), sfdcnewvim()); sfsetbuf(PerlIO_stdout(), NULL, 0); sfsetbuf(PerlIO_stderr(), NULL, 0); #elif defined(PERLIO_LAYERS) vim_IOLayer_init(); #endif } /* * perl_end(): clean up after ourselves */ void perl_end(void) { if (perl_interp) { perl_run(perl_interp); perl_destruct(perl_interp); perl_free(perl_interp); perl_interp = NULL; #if (PERL_REVISION == 5) && (PERL_VERSION >= 10) Perl_sys_term(); #endif } #ifdef DYNAMIC_PERL if (hPerlLib) { close_dll(hPerlLib); hPerlLib = NULL; } #endif } /* * msg_split(): send a message to the message handling routines * split at '\n' first though. */ void msg_split( char_u *s, int attr) /* highlighting attributes */ { char *next; char *token = (char *)s; while ((next = strchr(token, '\n')) && !got_int) { *next++ = '\0'; /* replace \n with \0 */ msg_attr(token, attr); token = next; } if (*token && !got_int) msg_attr(token, attr); } #ifndef FEAT_EVAL /* * This stub is needed because an "#ifdef FEAT_EVAL" around Eval() doesn't * work properly. */ char_u * eval_to_string( char_u *arg UNUSED, char_u **nextcmd UNUSED, int dolist UNUSED) { return NULL; } #endif /* * Create a new reference to an SV pointing to the SCR structure * The b_perl_private/w_perl_private part of the SCR structure points to the * SV, so there can only be one such SV for a particular SCR structure. When * the last reference has gone (DESTROY is called), * b_perl_private/w_perl_private is reset; When the screen goes away before * all references are gone, the value of the SV is reset; * any subsequent use of any of those reference will produce * a warning. (see typemap) */ static SV * newWINrv(SV *rv, win_T *ptr) { sv_upgrade(rv, SVt_RV); if (ptr->w_perl_private == NULL) { ptr->w_perl_private = newSV(0); sv_setiv(ptr->w_perl_private, PTR2IV(ptr)); } SvREFCNT_inc_void_NN(ptr->w_perl_private); SvRV(rv) = ptr->w_perl_private; SvROK_on(rv); return sv_bless(rv, gv_stashpv("VIWIN", TRUE)); } static SV * newBUFrv(SV *rv, buf_T *ptr) { sv_upgrade(rv, SVt_RV); if (ptr->b_perl_private == NULL) { ptr->b_perl_private = newSV(0); sv_setiv(ptr->b_perl_private, PTR2IV(ptr)); } SvREFCNT_inc_void_NN(ptr->b_perl_private); SvRV(rv) = ptr->b_perl_private; SvROK_on(rv); return sv_bless(rv, gv_stashpv("VIBUF", TRUE)); } #if 0 SV *__sv_save[1024]; int __sv_save_ix; # define D_Save_Sv(sv) do { if (__sv_save_ix < 1024) __sv_save[__sv_save_ix++] = (sv); } while (0) #else # define D_Save_Sv(sv) NOOP #endif /* * perl_win_free * Remove all references to the window to be destroyed */ void perl_win_free(win_T *wp) { if (wp->w_perl_private && perl_interp != NULL) { SV *sv = (SV*)wp->w_perl_private; D_Save_Sv(sv); sv_setiv(sv, 0); SvREFCNT_dec(sv); } wp->w_perl_private = NULL; } void perl_buf_free(buf_T *bp) { if (bp->b_perl_private && perl_interp != NULL) { SV *sv = (SV *)bp->b_perl_private; D_Save_Sv(sv); sv_setiv(sv, 0); SvREFCNT_dec(sv); } bp->b_perl_private = NULL; } #ifndef PROTO # if (PERL_REVISION == 5) && (PERL_VERSION >= 8) I32 cur_val(pTHX_ IV iv, SV *sv); # else I32 cur_val(IV iv, SV *sv); # endif /* * Handler for the magic variables $main::curwin and $main::curbuf. * The handler is put into the magic vtbl for these variables. * (This is effectively a C-level equivalent of a tied variable). * There is no "set" function as the variables are read-only. */ # if (PERL_REVISION == 5) && (PERL_VERSION >= 8) I32 cur_val(pTHX_ IV iv, SV *sv) # else I32 cur_val(IV iv, SV *sv) # endif { SV *rv; if (iv == 0) rv = newWINrv(newSV(0), curwin); else rv = newBUFrv(newSV(0), curbuf); if (SvRV(sv) != SvRV(rv)) // XXX: This magic variable is a bit confusing... // Is curently refcounted ? sv_setsv(sv, rv); SvREFCNT_dec(rv); return 0; } #endif /* !PROTO */ struct ufuncs cw_funcs = { cur_val, 0, 0 }; struct ufuncs cb_funcs = { cur_val, 0, 1 }; /* * VIM_init(): Vim-specific initialisation. * Make the magical main::curwin and main::curbuf variables */ static void VIM_init(void) { static char cw[] = "main::curwin"; static char cb[] = "main::curbuf"; SV *sv; sv = perl_get_sv(cw, TRUE); sv_magic(sv, NULL, 'U', (char *)&cw_funcs, sizeof(cw_funcs)); SvREADONLY_on(sv); sv = perl_get_sv(cb, TRUE); sv_magic(sv, NULL, 'U', (char *)&cb_funcs, sizeof(cb_funcs)); SvREADONLY_on(sv); /* * Setup the Safe compartment. * It shouldn't be a fatal error if the Safe module is missing. * XXX: Only shares the 'Msg' routine (which has to be called * like 'Msg(...)'). */ (void)perl_eval_pv( "if ( eval( 'require Safe' ) ) { $VIM::safe = Safe->new(); $VIM::safe->share_from( 'VIM', ['Msg'] ); }", G_DISCARD | G_VOID ); } #ifdef DYNAMIC_PERL static char *e_noperl = N_("Sorry, this command is disabled: the Perl library could not be loaded."); #endif static char *e_perlsandbox = N_("E299: Perl evaluation forbidden in sandbox without the Safe module"); /* * ":perl" */ void ex_perl(exarg_T *eap) { char *err; char *script; STRLEN length; SV *sv; #ifdef HAVE_SANDBOX SV *safe; #endif script = (char *)script_get(eap, eap->arg); if (eap->skip) { vim_free(script); return; } if (perl_interp == NULL) { #ifdef DYNAMIC_PERL if (!perl_enabled(TRUE)) { emsg(_(e_noperl)); vim_free(script); return; } #endif perl_init(); } { dSP; ENTER; SAVETMPS; if (script == NULL) sv = newSVpv((char *)eap->arg, 0); else { sv = newSVpv(script, 0); vim_free(script); } if (sandbox || secure) { safe = perl_get_sv("VIM::safe", FALSE); # ifndef MAKE_TEST /* avoid a warning for unreachable code */ if (safe == NULL || !SvTRUE(safe)) emsg(_(e_perlsandbox)); else # endif { PUSHMARK(SP); XPUSHs(safe); XPUSHs(sv); PUTBACK; perl_call_method("reval", G_DISCARD); } } else perl_eval_sv(sv, G_DISCARD | G_NOARGS); SvREFCNT_dec(sv); err = SvPV(GvSV(PL_errgv), length); FREETMPS; LEAVE; if (!length) return; msg_split((char_u *)err, highlight_attr[HLF_E]); return; } } static int replace_line(linenr_T *line, linenr_T *end) { char *str; if (SvOK(GvSV(PL_defgv))) { str = SvPV(GvSV(PL_defgv), PL_na); ml_replace(*line, (char_u *)str, 1); changed_bytes(*line, 0); } else { ml_delete(*line, FALSE); deleted_lines_mark(*line, 1L); --(*end); --(*line); } return OK; } static struct ref_map_S { void *vim_ref; SV *perl_ref; struct ref_map_S *next; } *ref_map = NULL; static void ref_map_free(void) { struct ref_map_S *tofree; struct ref_map_S *refs = ref_map; while (refs) { tofree = refs; refs = refs->next; vim_free(tofree); } ref_map = NULL; } static struct ref_map_S * ref_map_find_SV(SV *const sv) { struct ref_map_S *refs = ref_map; int count = 350; while (refs) { if (refs->perl_ref == sv) break; refs = refs->next; count--; } if (!refs && count > 0) { refs = (struct ref_map_S *)alloc(sizeof(struct ref_map_S)); if (!refs) return NULL; refs->perl_ref = sv; refs->vim_ref = NULL; refs->next = ref_map; ref_map = refs; } return refs; } static int perl_to_vim(SV *sv, typval_T *rettv) { if (SvROK(sv)) sv = SvRV(sv); switch (SvTYPE(sv)) { case SVt_NULL: break; case SVt_NV: /* float */ #ifdef FEAT_FLOAT rettv->v_type = VAR_FLOAT; rettv->vval.v_float = SvNV(sv); break; #endif case SVt_IV: /* integer */ if (!SvROK(sv)) { /* references should be string */ rettv->vval.v_number = SvIV(sv); break; } /* FALLTHROUGH */ case SVt_PV: /* string */ { size_t len = 0; char * str_from = SvPV(sv, len); char_u *str_to = (char_u*)alloc( (unsigned)(sizeof(char_u) * (len + 1))); if (str_to) { str_to[len] = '\0'; while (len--) { if (str_from[len] == '\0') str_to[len] = '\n'; else str_to[len] = str_from[len]; } } rettv->v_type = VAR_STRING; rettv->vval.v_string = str_to; break; } case SVt_PVAV: /* list */ { SSize_t size; listitem_T * item; SV ** item2; list_T * list; struct ref_map_S * refs; if ((refs = ref_map_find_SV(sv)) == NULL) return FAIL; if (refs->vim_ref) list = (list_T *) refs->vim_ref; else { if ((list = list_alloc()) == NULL) return FAIL; refs->vim_ref = list; for (size = av_len((AV*)sv); size >= 0; size--) { if ((item = listitem_alloc()) == NULL) break; item->li_tv.v_type = VAR_NUMBER; item->li_tv.v_lock = 0; item->li_tv.vval.v_number = 0; list_insert(list, item, list->lv_first); item2 = av_fetch((AV *)sv, size, 0); if (item2 == NULL || *item2 == NULL || perl_to_vim(*item2, &item->li_tv) == FAIL) break; } } rettv_list_set(rettv, list); break; } case SVt_PVHV: /* dictionary */ { HE * entry; I32 key_len; char * key; dictitem_T * item; SV * item2; dict_T * dict; struct ref_map_S * refs; if ((refs = ref_map_find_SV(sv)) == NULL) return FAIL; if (refs->vim_ref) dict = (dict_T *) refs->vim_ref; else { if ((dict = dict_alloc()) == NULL) return FAIL; refs->vim_ref = dict; hv_iterinit((HV *)sv); for (entry = hv_iternext((HV *)sv); entry; entry = hv_iternext((HV *)sv)) { key_len = 0; key = hv_iterkey(entry, &key_len); if (!key || !key_len || strlen(key) < (size_t)key_len) { semsg("Malformed key Dictionary '%s'", key && *key ? key : "(empty)"); break; } if ((item = dictitem_alloc((char_u *)key)) == NULL) break; item->di_tv.v_type = VAR_NUMBER; item->di_tv.vval.v_number = 0; if (dict_add(dict, item) == FAIL) { dictitem_free(item); break; } item2 = hv_iterval((HV *)sv, entry); if (item2 == NULL || perl_to_vim(item2, &item->di_tv) == FAIL) break; } } rettv_dict_set(rettv, dict); break; } default: /* not convertible */ { char *val = SvPV_nolen(sv); rettv->v_type = VAR_STRING; rettv->vval.v_string = val ? vim_strsave((char_u *)val) : NULL; break; } } return OK; } /* * "perleval()" */ void do_perleval(char_u *str, typval_T *rettv) { char *err = NULL; STRLEN err_len = 0; SV *sv = NULL; #ifdef HAVE_SANDBOX SV *safe; #endif if (perl_interp == NULL) { #ifdef DYNAMIC_PERL if (!perl_enabled(TRUE)) { emsg(_(e_noperl)); return; } #endif perl_init(); } { dSP; ENTER; SAVETMPS; if (sandbox || secure) { safe = get_sv("VIM::safe", FALSE); # ifndef MAKE_TEST /* avoid a warning for unreachable code */ if (safe == NULL || !SvTRUE(safe)) emsg(_(e_perlsandbox)); else # endif { sv = newSVpv((char *)str, 0); PUSHMARK(SP); XPUSHs(safe); XPUSHs(sv); PUTBACK; call_method("reval", G_SCALAR); SPAGAIN; SvREFCNT_dec(sv); sv = POPs; } } else sv = eval_pv((char *)str, 0); if (sv) { perl_to_vim(sv, rettv); ref_map_free(); err = SvPV(GvSV(PL_errgv), err_len); } PUTBACK; FREETMPS; LEAVE; } if (err_len) msg_split((char_u *)err, highlight_attr[HLF_E]); } /* * ":perldo". */ void ex_perldo(exarg_T *eap) { STRLEN length; SV *sv; char *str; linenr_T i; buf_T *was_curbuf = curbuf; if (BUFEMPTY()) return; if (perl_interp == NULL) { #ifdef DYNAMIC_PERL if (!perl_enabled(TRUE)) { emsg(_(e_noperl)); return; } #endif perl_init(); } { dSP; length = strlen((char *)eap->arg); sv = newSV(length + sizeof("sub VIM::perldo {") - 1 + 1); sv_setpvn(sv, "sub VIM::perldo {", sizeof("sub VIM::perldo {") - 1); sv_catpvn(sv, (char *)eap->arg, length); sv_catpvn(sv, "}", 1); perl_eval_sv(sv, G_DISCARD | G_NOARGS); SvREFCNT_dec(sv); str = SvPV(GvSV(PL_errgv), length); if (length) goto err; if (u_save(eap->line1 - 1, eap->line2 + 1) != OK) return; ENTER; SAVETMPS; for (i = eap->line1; i <= eap->line2; i++) { /* Check the line number, the command my have deleted lines. */ if (i > curbuf->b_ml.ml_line_count) break; sv_setpv(GvSV(PL_defgv), (char *)ml_get(i)); PUSHMARK(sp); perl_call_pv("VIM::perldo", G_SCALAR | G_EVAL); str = SvPV(GvSV(PL_errgv), length); if (length || curbuf != was_curbuf) break; SPAGAIN; if (SvTRUEx(POPs)) { if (replace_line(&i, &eap->line2) != OK) { PUTBACK; break; } } PUTBACK; } FREETMPS; LEAVE; check_cursor(); update_screen(NOT_VALID); if (!length) return; err: msg_split((char_u *)str, highlight_attr[HLF_E]); return; } } #if defined(PERLIO_LAYERS) && !defined(USE_SFIO) typedef struct { struct _PerlIO base; int attr; } PerlIOVim; static IV PerlIOVim_pushed(pTHX_ PerlIO *f, const char *mode, SV *arg, PerlIO_funcs *tab) { PerlIOVim *s = PerlIOSelf(f, PerlIOVim); s->attr = 0; if (arg && SvPOK(arg)) s->attr = syn_name2attr((char_u *)SvPV_nolen(arg)); return PerlIOBase_pushed(aTHX_ f, mode, (SV *)NULL, tab); } static SSize_t PerlIOVim_write(pTHX_ PerlIO *f, const void *vbuf, Size_t count) { char_u *str; PerlIOVim * s = PerlIOSelf(f, PerlIOVim); str = vim_strnsave((char_u *)vbuf, (int)count); if (str == NULL) return 0; msg_split((char_u *)str, s->attr); vim_free(str); return (SSize_t)count; } static PERLIO_FUNCS_DECL(PerlIO_Vim) = { sizeof(PerlIO_funcs), "Vim", sizeof(PerlIOVim), PERLIO_K_DUMMY, /* flags */ PerlIOVim_pushed, NULL, /* popped */ NULL, /* open */ NULL, /* binmode */ NULL, /* arg */ NULL, /* fileno */ NULL, /* dup */ NULL, /* read */ NULL, /* unread */ PerlIOVim_write, NULL, /* seek */ NULL, /* tell */ NULL, /* close */ NULL, /* flush */ NULL, /* fill */ NULL, /* eof */ NULL, /* error */ NULL, /* clearerr */ NULL, /* setlinebuf */ NULL, /* get_base */ NULL, /* get_bufsiz */ NULL, /* get_ptr */ NULL, /* get_cnt */ NULL /* set_ptrcnt */ }; /* Use Vim routine for print operator */ static void vim_IOLayer_init(void) { PerlIO_define_layer(aTHX_ PERLIO_FUNCS_CAST(&PerlIO_Vim)); (void)eval_pv( "binmode(STDOUT, ':Vim')" " && binmode(STDERR, ':Vim(ErrorMsg)');", 0); } #endif /* PERLIO_LAYERS && !USE_SFIO */ XS(boot_VIM); static void xs_init(pTHX) { char *file = __FILE__; /* DynaLoader is a special case */ newXS("DynaLoader::boot_DynaLoader", boot_DynaLoader, file); newXS("VIM::bootstrap", boot_VIM, file); } typedef win_T * VIWIN; typedef buf_T * VIBUF; MODULE = VIM PACKAGE = VIM void Msg(text, hl=NULL) char *text; char *hl; PREINIT: int attr; PPCODE: if (text != NULL) { attr = 0; if (hl != NULL) attr = syn_name2attr((char_u *)hl); msg_split((char_u *)text, attr); } void SetOption(line) char *line; PPCODE: if (line != NULL) do_set((char_u *)line, 0); update_screen(NOT_VALID); void DoCommand(line) char *line; PPCODE: if (line != NULL) do_cmdline_cmd((char_u *)line); void Eval(str) char *str; PREINIT: char_u *value; PPCODE: value = eval_to_string((char_u *)str, (char_u **)0, TRUE); if (value == NULL) { XPUSHs(sv_2mortal(newSViv(0))); XPUSHs(sv_2mortal(newSVpv("", 0))); } else { XPUSHs(sv_2mortal(newSViv(1))); XPUSHs(sv_2mortal(newSVpv((char *)value, 0))); vim_free(value); } SV* Blob(SV* sv) PREINIT: STRLEN len; char *s; unsigned i; char buf[3]; SV* newsv; CODE: s = SvPVbyte(sv, len); newsv = newSVpv("0z", 2); for (i = 0; i < len; i++) { sprintf(buf, "%02X", (unsigned char)(s[i])); sv_catpvn(newsv, buf, 2); } RETVAL = newsv; OUTPUT: RETVAL void Buffers(...) PREINIT: buf_T *vimbuf; int i, b; PPCODE: if (items == 0) { if (GIMME == G_SCALAR) { i = 0; FOR_ALL_BUFFERS(vimbuf) ++i; XPUSHs(sv_2mortal(newSViv(i))); } else { FOR_ALL_BUFFERS(vimbuf) XPUSHs(sv_2mortal(newBUFrv(newSV(0), vimbuf))); } } else { for (i = 0; i < items; i++) { SV *sv = ST(i); if (SvIOK(sv)) b = (int) SvIV(ST(i)); else { char_u *pat; STRLEN len; pat = (char_u *)SvPV(sv, len); ++emsg_off; b = buflist_findpat(pat, pat + len, TRUE, FALSE, FALSE); --emsg_off; } if (b >= 0) { vimbuf = buflist_findnr(b); if (vimbuf) XPUSHs(sv_2mortal(newBUFrv(newSV(0), vimbuf))); } } } void Windows(...) PREINIT: win_T *vimwin; int i, w; PPCODE: if (items == 0) { if (GIMME == G_SCALAR) XPUSHs(sv_2mortal(newSViv(win_count()))); else { FOR_ALL_WINDOWS(vimwin) XPUSHs(sv_2mortal(newWINrv(newSV(0), vimwin))); } } else { for (i = 0; i < items; i++) { w = (int) SvIV(ST(i)); vimwin = win_find_nr(w); if (vimwin) XPUSHs(sv_2mortal(newWINrv(newSV(0), vimwin))); } } MODULE = VIM PACKAGE = VIWIN void DESTROY(win) VIWIN win CODE: if (win_valid(win)) win->w_perl_private = 0; SV * Buffer(win) VIWIN win CODE: if (!win_valid(win)) win = curwin; RETVAL = newBUFrv(newSV(0), win->w_buffer); OUTPUT: RETVAL void SetHeight(win, height) VIWIN win int height; PREINIT: win_T *savewin; PPCODE: if (!win_valid(win)) win = curwin; savewin = curwin; curwin = win; win_setheight(height); curwin = savewin; void Cursor(win, ...) VIWIN win PPCODE: if (items == 1) { EXTEND(sp, 2); if (!win_valid(win)) win = curwin; PUSHs(sv_2mortal(newSViv(win->w_cursor.lnum))); PUSHs(sv_2mortal(newSViv(win->w_cursor.col))); } else if (items == 3) { int lnum, col; if (!win_valid(win)) win = curwin; lnum = (int) SvIV(ST(1)); col = (int) SvIV(ST(2)); win->w_cursor.lnum = lnum; win->w_cursor.col = col; win->w_set_curswant = TRUE; check_cursor(); /* put cursor on an existing line */ update_screen(NOT_VALID); } MODULE = VIM PACKAGE = VIBUF void DESTROY(vimbuf) VIBUF vimbuf; CODE: if (buf_valid(vimbuf)) vimbuf->b_perl_private = 0; void Name(vimbuf) VIBUF vimbuf; PPCODE: if (!buf_valid(vimbuf)) vimbuf = curbuf; /* No file name returns an empty string */ if (vimbuf->b_fname == NULL) XPUSHs(sv_2mortal(newSVpv("", 0))); else XPUSHs(sv_2mortal(newSVpv((char *)vimbuf->b_fname, 0))); void Number(vimbuf) VIBUF vimbuf; PPCODE: if (!buf_valid(vimbuf)) vimbuf = curbuf; XPUSHs(sv_2mortal(newSViv(vimbuf->b_fnum))); void Count(vimbuf) VIBUF vimbuf; PPCODE: if (!buf_valid(vimbuf)) vimbuf = curbuf; XPUSHs(sv_2mortal(newSViv(vimbuf->b_ml.ml_line_count))); void Get(vimbuf, ...) VIBUF vimbuf; PREINIT: char_u *line; int i; long lnum; PPCODE: if (buf_valid(vimbuf)) { for (i = 1; i < items; i++) { lnum = (long) SvIV(ST(i)); if (lnum > 0 && lnum <= vimbuf->b_ml.ml_line_count) { line = ml_get_buf(vimbuf, lnum, FALSE); XPUSHs(sv_2mortal(newSVpv((char *)line, 0))); } } } void Set(vimbuf, ...) VIBUF vimbuf; PREINIT: int i; long lnum; char *line; PPCODE: if (buf_valid(vimbuf)) { if (items < 3) croak("Usage: VIBUF::Set(vimbuf, lnum, @lines)"); lnum = (long) SvIV(ST(1)); for(i = 2; i < items; i++, lnum++) { line = SvPV(ST(i),PL_na); if (lnum > 0 && lnum <= vimbuf->b_ml.ml_line_count && line != NULL) { aco_save_T aco; /* set curwin/curbuf for "vimbuf" and save some things */ aucmd_prepbuf(&aco, vimbuf); if (u_savesub(lnum) == OK) { ml_replace(lnum, (char_u *)line, TRUE); changed_bytes(lnum, 0); } /* restore curwin/curbuf and a few other things */ aucmd_restbuf(&aco); /* Careful: autocommands may have made "vimbuf" invalid! */ } } } void Delete(vimbuf, ...) VIBUF vimbuf; PREINIT: long i, lnum = 0, count = 0; PPCODE: if (buf_valid(vimbuf)) { if (items == 2) { lnum = (long) SvIV(ST(1)); count = 1; } else if (items == 3) { lnum = (long) SvIV(ST(1)); count = (long) 1 + SvIV(ST(2)) - lnum; if (count == 0) count = 1; if (count < 0) { lnum -= count; count = -count; } } if (items >= 2) { for (i = 0; i < count; i++) { if (lnum > 0 && lnum <= vimbuf->b_ml.ml_line_count) { aco_save_T aco; /* set curwin/curbuf for "vimbuf" and save some things */ aucmd_prepbuf(&aco, vimbuf); if (u_savedel(lnum, 1) == OK) { ml_delete(lnum, 0); check_cursor(); deleted_lines_mark(lnum, 1L); } /* restore curwin/curbuf and a few other things */ aucmd_restbuf(&aco); /* Careful: autocommands may have made "vimbuf" invalid! */ update_curbuf(VALID); } } } } void Append(vimbuf, ...) VIBUF vimbuf; PREINIT: int i; long lnum; char *line; PPCODE: if (buf_valid(vimbuf)) { if (items < 3) croak("Usage: VIBUF::Append(vimbuf, lnum, @lines)"); lnum = (long) SvIV(ST(1)); for (i = 2; i < items; i++, lnum++) { line = SvPV(ST(i),PL_na); if (lnum >= 0 && lnum <= vimbuf->b_ml.ml_line_count && line != NULL) { aco_save_T aco; /* set curwin/curbuf for "vimbuf" and save some things */ aucmd_prepbuf(&aco, vimbuf); if (u_inssub(lnum + 1) == OK) { ml_append(lnum, (char_u *)line, (colnr_T)0, FALSE); appended_lines_mark(lnum, 1L); } /* restore curwin/curbuf and a few other things */ aucmd_restbuf(&aco); /* Careful: autocommands may have made "vimbuf" invalid! */ update_curbuf(VALID); } } } #ifdef __GNUC__ # pragma GCC diagnostic pop #endif